DIGIMAT - THE VIDEO LEARNING PLATFORM

Keyword Search / Filter from 64,283 NPTEL Video Lectures

(Please be patient when the page loads, as it may take 60 seconds or more to display the search box)

Link NPTEL Course Name NPTEL Lecture Title
Link Introduction to Aerospace Propulsion Lecture 1 - Course Intro & Historical development of flights
Link Introduction to Aerospace Propulsion Lecture 2 - Early development of aircraft propulsive devices
Link Introduction to Aerospace Propulsion Lecture 3 - Development of Jet propulsion for aircraft
Link Introduction to Aerospace Propulsion Lecture 4 - Introduction to thermodynamics, Scope and method, Basic concepts: system, surroundings, property, intensive and extensive, state, equilibrium and state postulate, process, path and cycle
Link Introduction to Aerospace Propulsion Lecture 5 - Quasi-static processes, zeroth law of thermodynamics and temperature, concept of energy and its various forms, internal energy, enthalpy
Link Introduction to Aerospace Propulsion Lecture 6 - Specific heats at constant pressure and volume Work and heat transfers
Link Introduction to Aerospace Propulsion Lecture 7 - Tutorial
Link Introduction to Aerospace Propulsion Lecture 8 - First law of thermodynamics for closed systems
Link Introduction to Aerospace Propulsion Lecture 9 - First law of thermodynamics for open systems/flow processes
Link Introduction to Aerospace Propulsion Lecture 10 - Second law of thermodynamics, heat engines, refrigerators and heat pumps, Kelvin-Planck and Clausius statement of second law of thermodynamics
Link Introduction to Aerospace Propulsion Lecture 11 - Reversible and irreversible processes, concept of entropy
Link Introduction to Aerospace Propulsion Lecture 12 - Increase of entropy principle, third law of thermodynamics, absolute entropy, perpetual motion machines
Link Introduction to Aerospace Propulsion Lecture 13 - Tutorial
Link Introduction to Aerospace Propulsion Lecture 14 - Carnot cycle, Carnot principle, thermodynamic temperature scale
Link Introduction to Aerospace Propulsion Lecture 15 - Exergy, availability and second law efficiency
Link Introduction to Aerospace Propulsion Lecture 16 - Tutorial
Link Introduction to Aerospace Propulsion Lecture 17 - Gas and vapour power cycles, Otto cycle, Diesel cycle, Dual cycle
Link Introduction to Aerospace Propulsion Lecture 18 - Rankine cycle, Brayton cycle, Stirling and Ericsson cycles
Link Introduction to Aerospace Propulsion Lecture 19 - Thermodynamic property relations, Jacobean and Legendre transformations, Maxwell’s equations
Link Introduction to Aerospace Propulsion Lecture 20 - Tutorial
Link Introduction to Aerospace Propulsion Lecture 21 - Properties of gas and vapour mixtures
Link Introduction to Aerospace Propulsion Lecture 22 - One-dimensional compressible flows, isentropic flows
Link Introduction to Aerospace Propulsion Lecture 23 - Flows with friction and heat transfer, normal and oblique shocks
Link Introduction to Aerospace Propulsion Lecture 24 - Piston-prop engines: Otto cycles; Ideal and Real cycles
Link Introduction to Aerospace Propulsion Lecture 25 - IC Engines for aircraft application
Link Introduction to Aerospace Propulsion Lecture 26 - Performance parameters of IC engines
Link Introduction to Aerospace Propulsion Lecture 27 - Supercharging of aircraft IC engines
Link Introduction to Aerospace Propulsion Lecture 28 - Tutorial: IC Engines
Link Introduction to Aerospace Propulsion Lecture 29 - Propeller fundamentals
Link Introduction to Aerospace Propulsion Lecture 30 - Propeller aerodynamic theories - I
Link Introduction to Aerospace Propulsion Lecture 31 - Propeller aerodynamic theories - II
Link Introduction to Aerospace Propulsion Lecture 32 - Tutorial: Propellers
Link Introduction to Aerospace Propulsion Lecture 33 - Ideal cycles for Jet engines
Link Introduction to Aerospace Propulsion Lecture 34 - Ideal cycles for variants of jet engines
Link Introduction to Aerospace Propulsion Lecture 35 - Tutorial
Link Introduction to Aerospace Propulsion Lecture 36 - Fundamentals of Ramjets and Pulsejets
Link Introduction to Aerospace Propulsion Lecture 37 - Fundamentals of Rocket engines
Link Introduction to Aerospace Propulsion Lecture 38 - Fundamentals of Missile engines
Link Introduction to Aerospace Propulsion Lecture 39 - Various space vehicles and their engines
Link Introduction to Aerospace Propulsion Lecture 40 - Closure of the lecture series : recap
Link Jet Aircraft Propulsion Lecture 1 - Introduction & Development of Jet Aircraft Propulsion
Link Jet Aircraft Propulsion Lecture 2 - How the Aircraft Jet Engines make Thrust
Link Jet Aircraft Propulsion Lecture 3 - Jet Engine Basic Performance Parameters
Link Jet Aircraft Propulsion Lecture 4 - Turbojet, Reheat Turbojet and Multi-spool Engines
Link Jet Aircraft Propulsion Lecture 5 - Turbofan, Turbo-prop and Turboshaft engines
Link Jet Aircraft Propulsion Lecture 6 - Ideal and Real Brayton cycles
Link Jet Aircraft Propulsion Lecture 7 - Jet Engine Cycles for Aircraft propulsion
Link Jet Aircraft Propulsion Lecture 8 - Cycle components and component performances
Link Jet Aircraft Propulsion Lecture 9 - Tute-1
Link Jet Aircraft Propulsion Lecture 10 - Analysis of engine real cycles
Link Jet Aircraft Propulsion Lecture 11 - Tute-2
Link Jet Aircraft Propulsion Lecture 12 - Thermodynamics of Compressors
Link Jet Aircraft Propulsion Lecture 13 - Thermodynamics of Turbines
Link Jet Aircraft Propulsion Lecture 14 - Axial Compressors : two dimensional analytical model
Link Jet Aircraft Propulsion Lecture 15 - Cascade analysis; Loss and Blade performance estimation
Link Jet Aircraft Propulsion Lecture 16 - Free Vortex theory; Single-Multi-stage characteristics
Link Jet Aircraft Propulsion Lecture 17 - Tutes-3
Link Jet Aircraft Propulsion Lecture 18 - Elements of centrifugal compressor
Link Jet Aircraft Propulsion Lecture 19 - Centrifugal Compressor characteristics: Surging, Choking
Link Jet Aircraft Propulsion Lecture 20 - Axial flow turbines; Turbine Blade 2-D (cascade) analysis
Link Jet Aircraft Propulsion Lecture 21 - Multi-staging: Axial Turbine; Turbine Cooling Technology
Link Jet Aircraft Propulsion Lecture 22 - Radial Turbine Aerodynamics & Thermodynamics; Losses
Link Jet Aircraft Propulsion Lecture 23 - Tutes-4
Link Jet Aircraft Propulsion Lecture 24 - Types of combustion chambers: mechanism & parameters
Link Jet Aircraft Propulsion Lecture 25 - Pr. Loss, Combustion efficiency; Combustion intensity
Link Jet Aircraft Propulsion Lecture 26 - Practical combustion system ; Stability, Fuel injection
Link Jet Aircraft Propulsion Lecture 27 - Intakes for Powerplant: Transport / Military Aircraft
Link Jet Aircraft Propulsion Lecture 28 - Subsonic, Transonic, Supersonic Intake Designs
Link Jet Aircraft Propulsion Lecture 29 - Nozzle : fixed and variable geometry nozzles
Link Jet Aircraft Propulsion Lecture 30 - C-D nozzle and their uses
Link Jet Aircraft Propulsion Lecture 31 - Tute-5
Link Jet Aircraft Propulsion Lecture 32 - Engine Off Design Operations
Link Jet Aircraft Propulsion Lecture 33 - Aircraft Engine component matching: Dimensional analysis
Link Jet Aircraft Propulsion Lecture 34 - Engine component matching and Sizing
Link Jet Aircraft Propulsion Lecture 35 - Installed Performance of Engine
Link Jet Aircraft Propulsion Lecture 36 - Tute-6
Link Jet Aircraft Propulsion Lecture 37 - Use of Ramjets and Pulsejets in Aircraft propulsion
Link Jet Aircraft Propulsion Lecture 38 - Thermodynamic Cycle & Performance Parameters
Link Jet Aircraft Propulsion Lecture 39 - Flow in Diffusers, Combustors and Nozzles
Link Jet Aircraft Propulsion Lecture 40 - Performanace and Design of Ramjet & Scramjet Engines
Link Jet Aircraft Propulsion Lecture 41 - Tute-7
Link Jet Aircraft Propulsion Lecture 42 - Future of Aircraft Propulsion
Link Turbomachinery Aerodynamics Lecture 1 - Introduction to Turbo machines Syllabus, References and Schedules
Link Turbomachinery Aerodynamics Lecture 2 - Axial Flow Compressors and Fans : Introduction to Compressor Aerothermodynamics
Link Turbomachinery Aerodynamics Lecture 3 - A two dimensional analytical model :Cascade
Link Turbomachinery Aerodynamics Lecture 4 - 2D losses in Axial flow Compressor Stage : Primary losses
Link Turbomachinery Aerodynamics Lecture 5 - Tutorial 1 : Two Dimensional Axial Flow Compressors
Link Turbomachinery Aerodynamics Lecture 6 - 3D Flows in Blade Passages, Secondary Flows, Tip leakage Flow, Scrubbling
Link Turbomachinery Aerodynamics Lecture 7 - Three Dimensional Flow Analysis : Radial Equilibrium Concept
Link Turbomachinery Aerodynamics Lecture 8 - Classical Blade Design Laws : Free Vortex and other Laws
Link Turbomachinery Aerodynamics Lecture 9 - Three Dimensional Flow Analysis in Axial Flow Compressor
Link Turbomachinery Aerodynamics Lecture 10 - Tutorial 2 : Three Dimensional Axial Flow Compressors
Link Turbomachinery Aerodynamics Lecture 11 - Axial Compressor Characteristics: Single stage, Multi stage and Multi spool Characteristics
Link Turbomachinery Aerodynamics Lecture 12 - Instability in Axial Compressors
Link Turbomachinery Aerodynamics Lecture 13 - Inlet Distortion and Rotating Stall, Control of Instability
Link Turbomachinery Aerodynamics Lecture 14 - Transonic Compressors and Shock Structure Models, Transonic Compressor Characteristics
Link Turbomachinery Aerodynamics Lecture 15 - Axial Flow Compressor Design, Inter Spool Duct
Link Turbomachinery Aerodynamics Lecture 16 - Design of Compressor Blades, Aerofoil Design (Subsonic, Transonic, Supersonic Profiles )
Link Turbomachinery Aerodynamics Lecture 17 - Design of Compressor Blade: 3D Blade Shapes of Rotors and Stators
Link Turbomachinery Aerodynamics Lecture 18 - Noise Problem in Axial Compressors and Fans
Link Turbomachinery Aerodynamics Lecture 19 - Axial Flow Turbines: Introduction to Turbines Aerothermodynamics
Link Turbomachinery Aerodynamics Lecture 20 - Axial Flow Turbines: Turbine Blade 2D (Cascade) Analysis
Link Turbomachinery Aerodynamics Lecture 21 - Axial Flow Turbines: Work done, Degree of Reaction, Losses and Efficiency
Link Turbomachinery Aerodynamics Lecture 22 - Axial Flow Turbines: Blade and Axial Flow Passages, Exit Flow Matching with Nozzle
Link Turbomachinery Aerodynamics Lecture 23 - Tutorial 3 : Axial Flow Turbines
Link Turbomachinery Aerodynamics Lecture 24 - Multi staging and Multi spooling of Turbine
Link Turbomachinery Aerodynamics Lecture 25 - 3D Flow in Turbine: 3D Flow Theories, Free Vortex Theories etc.
Link Turbomachinery Aerodynamics Lecture 26 - Tutorial 4 : 3D Flows in Axial Flow Turbines
Link Turbomachinery Aerodynamics Lecture 27 - Turbine Blade Cooling – Fundamentals of Heat Transfer, Blade Cooling Requirements
Link Turbomachinery Aerodynamics Lecture 28 - Turbine Blade Cooling Technologies
Link Turbomachinery Aerodynamics Lecture 29 - Turbine Blade Design: Turbine Profiles, Aerofoil Data and Profile Construction
Link Turbomachinery Aerodynamics Lecture 30 - Turbine Blade Design: 3D Blade Shapes
Link Turbomachinery Aerodynamics Lecture 31 - Centrifugal Compressors: Thermodynamics and Aerodynamics
Link Turbomachinery Aerodynamics Lecture 32 - Centrifugal Compressors: Characteristics, Stall, Surge Problems
Link Turbomachinery Aerodynamics Lecture 33 - Tutorial 5 : Centrifugal Compressors
Link Turbomachinery Aerodynamics Lecture 34 - Design of Centrifugal Compressors: Impellers, Vane/Vane less Diffusers, Volutes
Link Turbomachinery Aerodynamics Lecture 35 - Radial Turbines: Thermodynamics and Aerodynamics
Link Turbomachinery Aerodynamics Lecture 36 - Tutorial 6 : Radial Turbines
Link Turbomachinery Aerodynamics Lecture 37 - Radial Turbine Characteristics and Design of Radial Turbines
Link Turbomachinery Aerodynamics Lecture 38 - CFD for Turbomachinery: Grid Generation, Boundary Conditions for Flow Analysis
Link Turbomachinery Aerodynamics Lecture 39 - CFD for Turbomachinery: Flow Track and Inter-spool Duct Design using CFD
Link Turbomachinery Aerodynamics Lecture 40 - CFD for Turbomachinery: 2D and 3D Blade Generation and Analysis Using CFD
Link NOC:Introduction to Aerospace Engineering Lecture 1 - Course Layout and Brief Introduction of Course Instructor
Link NOC:Introduction to Aerospace Engineering Lecture 2 - Introduction to International Standard Atmosphere (ISA)
Link NOC:Introduction to Aerospace Engineering Lecture 3 - Pressure, Temperature, Density and Viscosity Variation with Altitude in ISA
Link NOC:Introduction to Aerospace Engineering Lecture 4 - Other Standard Atmospheres
Link NOC:Introduction to Aerospace Engineering Lecture 5 - Aircraft Component Nomenclature - Wing and its Components
Link NOC:Introduction to Aerospace Engineering Lecture 6 - Aircraft Component Nomenclature - Fuselage and its Components
Link NOC:Introduction to Aerospace Engineering Lecture 7 - Aircraft Component Nomenclature - Tail Plane and its Components
Link NOC:Introduction to Aerospace Engineering Lecture 8 - Tutorial 1 - Aircraft Component Nomenclature
Link NOC:Introduction to Aerospace Engineering Lecture 9 - Essentials of Incompressible Flow - Part I
Link NOC:Introduction to Aerospace Engineering Lecture 10 - Essentials of Incompressible Flow - Part II
Link NOC:Introduction to Aerospace Engineering Lecture 11 - Bernoulli's Equation and Coanda Effect
Link NOC:Introduction to Aerospace Engineering Lecture 12 - Mach Number
Link NOC:Introduction to Aerospace Engineering Lecture 13 - Tutorial 2 - Incompressible Flow and Flow Visualization
Link NOC:Introduction to Aerospace Engineering Lecture 14 - Viscous Flow and Reynolds Number
Link NOC:Introduction to Aerospace Engineering Lecture 15 - Introduction to Boundary Layer
Link NOC:Introduction to Aerospace Engineering Lecture 16 - Pressure Measurement
Link NOC:Introduction to Aerospace Engineering Lecture 17 - Air Speed Measurement - Pitot Static Tube
Link NOC:Introduction to Aerospace Engineering Lecture 18 - Air Speed Corrections
Link NOC:Introduction to Aerospace Engineering Lecture 19 - Altitude and ROC/ROD Measurement
Link NOC:Introduction to Aerospace Engineering Lecture 20 - Measurements in Compressible Flows
Link NOC:Introduction to Aerospace Engineering Lecture 21 - Non Pneumatic Instruments
Link NOC:Introduction to Aerospace Engineering Lecture 22 - Introduction to Aerofoils and Aerofoil Nomenclature
Link NOC:Introduction to Aerospace Engineering Lecture 23 - Aerofoils - A Visit to the Past
Link NOC:Introduction to Aerospace Engineering Lecture 24 - Thick Aerofoils
Link NOC:Introduction to Aerospace Engineering Lecture 25 - Low Reynolds Number Aerofoils
Link NOC:Introduction to Aerospace Engineering Lecture 26 - Lift Generation by Wings - Part I
Link NOC:Introduction to Aerospace Engineering Lecture 27 - Lift Generation by Wings - Part II
Link NOC:Introduction to Aerospace Engineering Lecture 28 - Coefficient of Lift and Coefficient of Pressure
Link NOC:Introduction to Aerospace Engineering Lecture 29 - Tutorial on Aerofoils
Link NOC:Introduction to Aerospace Engineering Lecture 30 - Critical Mach Number
Link NOC:Introduction to Aerospace Engineering Lecture 31 - Wave Drag
Link NOC:Introduction to Aerospace Engineering Lecture 32 - Swept Wings
Link NOC:Introduction to Aerospace Engineering Lecture 33 - Introduction to Drag and Types of Drag
Link NOC:Introduction to Aerospace Engineering Lecture 34 - Factors Affecting Induced Drag
Link NOC:Introduction to Aerospace Engineering Lecture 35 - Skin Friction Drag
Link NOC:Introduction to Aerospace Engineering Lecture 36 - Tutorial on Critical Mach Number and Wave Drag
Link NOC:Introduction to Aerospace Engineering Lecture 37 - Introduction to Propulsion
Link NOC:Introduction to Aerospace Engineering Lecture 38 - Gas Turbine Engine Types - Part I
Link NOC:Introduction to Aerospace Engineering Lecture 39 - Gas Turbine Engine Types - Part II
Link NOC:Introduction to Aerospace Engineering Lecture 40 - Introduction to Electric Propulsion and Ion Propulsion
Link NOC:Introduction to Aerospace Engineering Lecture 41 - Steady Level Flight
Link NOC:Introduction to Aerospace Engineering Lecture 42 - Power Required for the Steady Level Flight
Link NOC:Introduction to Aerospace Engineering Lecture 43 - Steady Level Flight - A Pilot's View
Link NOC:Introduction to Aerospace Engineering Lecture 44 - Tutorial on Steady Level Flight
Link NOC:Introduction to Aerospace Engineering Lecture 45 - Gliding Flight
Link NOC:Introduction to Aerospace Engineering Lecture 46 - Climbing Flight and Ceiling
Link NOC:Introduction to Aerospace Engineering Lecture 47 - Introduction to Turning Flight
Link NOC:Introduction to Aerospace Engineering Lecture 48 - Turning Flight Equations
Link NOC:Introduction to Aerospace Engineering Lecture 49 - Instantaneous and Sustained Turn
Link NOC:Introduction to Aerospace Engineering Lecture 50 - Tutorial on Climbing Flight and Turning Flight
Link NOC:Introduction to Aerospace Engineering Lecture 51 - Introduction to Static Stability: Center of Pressure, Center of Gravity and Neutral Point
Link NOC:Introduction to Aerospace Engineering Lecture 52 - Aerodynamic Center and Effect of Center of Gravity
Link NOC:Introduction to Aerospace Engineering Lecture 53 - Effect of Center of Gravity - A Practical Demonstration
Link NOC:Introduction to Aerospace Engineering Lecture 54 - Introduction to V-n Diagram
Link NOC:Introduction to Aerospace Engineering Lecture 55 - V-n Diagram as per FAR 23 Regulations
Link NOC:Introduction to Aerospace Engineering Lecture 56 - Effect of Gusts on V-n Diagram
Link NOC:Introduction to Aerospace Engineering Lecture 57 - Tutorial on Stability and Control
Link NOC:Introduction to Aerospace Engineering Lecture 58 - Range
Link NOC:Introduction to Aerospace Engineering Lecture 59 - Specific Fuel Consumption and Generalized Range Equation
Link NOC:Introduction to Aerospace Engineering Lecture 60 - Endurance
Link NOC:Introduction to Aerospace Engineering Lecture 61 - Take-off Performance of Flight - Part I
Link NOC:Introduction to Aerospace Engineering Lecture 62 - Take-off Performance of Flight - Part II
Link NOC:Introduction to Aerospace Engineering Lecture 63 - Landing Performance of Flight
Link NOC:Introduction to Aerospace Engineering Lecture 64 - Tutorial on Range Payload Diagram
Link NOC:Introduction to Aerospace Engineering Lecture 65 - Tutorial on Range and Endurance
Link NOC:Introduction to Aerospace Engineering Lecture 66 - Flapping Wing Aerodynamics - Part I
Link NOC:Introduction to Aerospace Engineering Lecture 67 - Flapping Wing Aerodynamics - Part II
Link Aero elasticity Lecture 1 - Aero elasticity
Link Aero elasticity Lecture 2 - Aero elasticity
Link Aero elasticity Lecture 3 - Aero elasticity
Link Aero elasticity Lecture 4 - Aero elasticity
Link Aero elasticity Lecture 5 - Aero elasticity
Link Aero elasticity Lecture 6 - Aero elasticity
Link Aero elasticity Lecture 7 - Aero elasticity
Link Aero elasticity Lecture 8 - Aero elasticity
Link Aero elasticity Lecture 9 - Aero elasticity
Link Aero elasticity Lecture 10 - Aero elasticity
Link Aero elasticity Lecture 11 - Aero elasticity
Link Aero elasticity Lecture 12 - Aero elasticity
Link Aero elasticity Lecture 13 - Aero elasticity
Link Aero elasticity Lecture 14 - Aero elasticity
Link Aero elasticity Lecture 15 - Aero elasticity
Link Aero elasticity Lecture 16 - Aero elasticity
Link Aero elasticity Lecture 17 - Aero elasticity
Link Aero elasticity Lecture 18 - Aero elasticity
Link Aero elasticity Lecture 19 - Aero elasticity
Link Aero elasticity Lecture 20 - Aero elasticity
Link Aero elasticity Lecture 21 - Aero elasticity
Link Aero elasticity Lecture 22 - Aero elasticity
Link Aero elasticity Lecture 23 - Aero elasticity
Link Aero elasticity Lecture 24 - Aero elasticity
Link Aero elasticity Lecture 25 - Aero elasticity
Link Aero elasticity Lecture 26 - Aero elasticity
Link Foundation of Scientific Computing Lecture 1
Link Foundation of Scientific Computing Lecture 2
Link Foundation of Scientific Computing Lecture 3
Link Foundation of Scientific Computing Lecture 4
Link Foundation of Scientific Computing Lecture 5
Link Foundation of Scientific Computing Lecture 6
Link Foundation of Scientific Computing Lecture 7
Link Foundation of Scientific Computing Lecture 8
Link Foundation of Scientific Computing Lecture 9
Link Foundation of Scientific Computing Lecture 10
Link Foundation of Scientific Computing Lecture 11
Link Foundation of Scientific Computing Lecture 12
Link Foundation of Scientific Computing Lecture 13
Link Foundation of Scientific Computing Lecture 14
Link Foundation of Scientific Computing Lecture 15
Link Foundation of Scientific Computing Lecture 16
Link Foundation of Scientific Computing Lecture 17
Link Foundation of Scientific Computing Lecture 18
Link Foundation of Scientific Computing Lecture 19
Link Foundation of Scientific Computing Lecture 20
Link Foundation of Scientific Computing Lecture 21
Link Foundation of Scientific Computing Lecture 22
Link Foundation of Scientific Computing Lecture 23
Link Foundation of Scientific Computing Lecture 24
Link Foundation of Scientific Computing Lecture 25
Link Foundation of Scientific Computing Lecture 26
Link Foundation of Scientific Computing Lecture 27
Link Foundation of Scientific Computing Lecture 28
Link Foundation of Scientific Computing Lecture 29
Link Foundation of Scientific Computing Lecture 30
Link Foundation of Scientific Computing Lecture 31
Link Foundation of Scientific Computing Lecture 32
Link Foundation of Scientific Computing Lecture 33
Link Foundation of Scientific Computing Lecture 34
Link Foundation of Scientific Computing Lecture 35
Link Foundation of Scientific Computing Lecture 36
Link Foundation of Scientific Computing Lecture 37
Link Foundation of Scientific Computing Lecture 38
Link Foundation of Scientific Computing Lecture 39
Link Foundation of Scientific Computing Lecture 40
Link Instability and Transition of Fluid Flows Lecture 1 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 2 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 3 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 4 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 5 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 6 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 7 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 8 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 9 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 10 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 11 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 12 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 13 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 14 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 15 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 16 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 17 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 18 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 19 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 20 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 21 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 22 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 23 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 24 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 25 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 26 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 27 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 28 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 29 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 30 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 31 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 32 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 33 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 34 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 35 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 36 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 37 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 38 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 39 - Instability and Transition of Fluid Flows
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 1 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 2 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 3 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 4 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 5 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 6 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 7 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 8 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 9 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 10 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 11 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 12 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 13 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 14 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 15 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 16 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 17 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 18 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 19 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 20 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 21 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 22 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 23 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 24 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 25 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 26 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Propulsion Lecture 1 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 2 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 3 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 4 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 5 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 6 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 7 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 8 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 9 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 10 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 11 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 12 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 13 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 14 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 15 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 16 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 17 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 18 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 19 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 20 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 21 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 22 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 23 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 24 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 25 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 26 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 27 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 28 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 29 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 30 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 31 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 32 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 33 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 34 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 35 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 36 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 37 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 38 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 39 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 40 - Fundamentals of Aerospace Propulsion
Link Jet and Rocket Propulsion Lecture 1 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 2 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 3 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 4 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 5 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 6 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 7 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 8 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 9 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 10 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 11 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 12 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 13 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 14 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 15 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 16 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 17 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 18 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 19 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 20 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 21 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 22 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 23 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 24 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 25 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 26 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 27 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 28 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 29 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 30 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 31 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 32 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 33 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 34 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 35 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 36 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 37 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 38 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 39 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 40 - Jet and Rocket Propulsion
Link NOC:Introduction to Airplane Performance Lecture 1 - General Introduction: Airplane Performance Characteristics
Link NOC:Introduction to Airplane Performance Lecture 2 - George Cayley: Concept of Lift and Drag
Link NOC:Introduction to Airplane Performance Lecture 3 - Introduction to airplane and its components
Link NOC:Introduction to Airplane Performance Lecture 4 - Hansa 3 Aircraft and its Primary Systems
Link NOC:Introduction to Airplane Performance Lecture 5 - Concept of Lift Aerofoil: Wing : Complete Aircraft
Link NOC:Introduction to Airplane Performance Lecture 6 - Drag Polar
Link NOC:Introduction to Airplane Performance Lecture 7 - Revision
Link NOC:Introduction to Airplane Performance Lecture 8 - Standard Atmosphere: Description and Modeling
Link NOC:Introduction to Airplane Performance Lecture 9 - Measuring Instruments: Altimeter, Airspeed Indicator
Link NOC:Introduction to Airplane Performance Lecture 10 - Equations of Motion: Static Performance
Link NOC:Introduction to Airplane Performance Lecture 11 - Thrust Required, Power Required: Cruise
Link NOC:Introduction to Airplane Performance Lecture 12 - Excess Thrust and Power: Climb Angle and Rate of Climb
Link NOC:Introduction to Airplane Performance Lecture 13 - Review
Link NOC:Introduction to Airplane Performance Lecture 14 - Thrust Required: A Closer Look
Link NOC:Introduction to Airplane Performance Lecture 15 - Modeling of CL: Dimensional Analysis
Link NOC:Introduction to Airplane Performance Lecture 16 - A Closer Look: Point Mass Model, Dimensional Analysis
Link NOC:Introduction to Airplane Performance Lecture 17 - Estimation of Drag Polar Through Flight Test
Link NOC:Introduction to Airplane Performance Lecture 18 - Estimation of Rate of Climb
Link NOC:Introduction to Airplane Performance Lecture 19 - Revision.
Link NOC:Introduction to Airplane Performance Lecture 20 - Range and Endurance
Link NOC:Introduction to Airplane Performance Lecture 21 - Range and Endurance: (Continued...)
Link NOC:Introduction to Airplane Performance Lecture 22 - Gliding Flight
Link NOC:Introduction to Airplane Performance Lecture 23 - Accelerated Flight
Link NOC:Introduction to Airplane Performance Lecture 24 - V-n Diagram
Link NOC:Introduction to Airplane Performance Lecture 25 - Revision..
Link NOC:Introduction to Airplane Performance Lecture 26 - V stall: Cruise and Manoeuvre
Link NOC:Introduction to Airplane Performance Lecture 27 - Flaps:High Lift Devices to Reduce Take off / Landing Distance
Link NOC:Introduction to Airplane Performance Lecture 28 - Take off
Link NOC:Introduction to Airplane Performance Lecture 29 - Take off Performance
Link NOC:Introduction to Airplane Performance Lecture 30 - Take off Performance: (Continued...)
Link NOC:Introduction to Airplane Performance Lecture 31 - Revision...
Link NOC:Introduction to Airplane Performance Lecture 32 - Landing Performance
Link NOC:Introduction to Airplane Performance Lecture 33 - Landing Performance: (Continued...)
Link NOC:Introduction to Airplane Performance Lecture 34 - Challanges in Takeoff and Landing: Single and Twin Engines
Link NOC:Introduction to Airplane Performance Lecture 35 - Introduction to Static Stability
Link NOC:Introduction to Airplane Performance Lecture 36 - Positioning of Center of Pressure for Static Stability
Link NOC:Introduction to Airplane Performance Lecture 37 - Revision.....
Link NOC:Introduction to Airplane Performance Lecture 38 - Stability and Control: Designers Perspective
Link NOC:Introduction to Airplane Performance Lecture 39 - Stability and Control: Designers Perspective (Continued...)
Link NOC:Introduction to Airplane Performance Lecture 40 - Longitudinal Control: Elevator
Link NOC:Introduction to Airplane Performance Lecture 41 - Contribution of Wing and Tail: Stability
Link NOC:Introduction to Airplane Performance Lecture 42 - Stability: Wing and Tail Contribution
Link NOC:Introduction to Airplane Performance Lecture 43 - Control: Elevator
Link NOC:Introduction to Airplane Performance Lecture 44 - Control: Delta-e Required
Link NOC:Introduction to Airplane Performance Lecture 45 - Control: Delta-e Required (Continued...)
Link NOC:Introduction to Airplane Performance Lecture 46 - Design Basics: Wing Loading & Thrust Loading
Link NOC:Introduction to Airplane Performance Lecture 47 - Design Basics: Sweep & Dihedral
Link NOC:Introduction to Airplane Performance Lecture 48 - Revision.
Link NOC:Stability and control of aircraft Lecture 1 - Introduction
Link NOC:Stability and control of aircraft Lecture 2 - Introduction to Static Stability
Link NOC:Stability and control of aircraft Lecture 3 - Stability and Trim
Link NOC:Stability and control of aircraft Lecture 4 - Stability : Wing Contribution
Link NOC:Stability and control of aircraft Lecture 5 - Stability : Tail Contribution and Static Margin
Link NOC:Stability and control of aircraft Lecture 6 - Problems : Stability and Wing Contribution Completed
Link NOC:Stability and control of aircraft Lecture 7 - Problems : Stability Tail Contribution Completed
Link NOC:Stability and control of aircraft Lecture 8 - Neutral Point and Fuselage Contribution Completed
Link NOC:Stability and control of aircraft Lecture 9 - Longitudinal Control Completed
Link NOC:Stability and control of aircraft Lecture 10 - Longitudinal Control (Continued...)
Link NOC:Stability and control of aircraft Lecture 11 - Control: Elevator
Link NOC:Stability and control of aircraft Lecture 12 - CL_trim Vs ????e_trim
Link NOC:Stability and control of aircraft Lecture 13 - Neutral Point: A Closer Look
Link NOC:Stability and control of aircraft Lecture 14 - Contribution of Engine towards Stability
Link NOC:Stability and control of aircraft Lecture 15 - Revision
Link NOC:Stability and control of aircraft Lecture 16 - Trim:Cruse,Climb and Landing
Link NOC:Stability and control of aircraft Lecture 17 - Trim: Maneuver
Link NOC:Stability and control of aircraft Lecture 18 - Maneuvering Point: Stick Fixed
Link NOC:Stability and control of aircraft Lecture 19 - Numerical: Stick Fixed Maneuvering Point and Flight Demonstration
Link NOC:Stability and control of aircraft Lecture 20 - Revision
Link NOC:Stability and control of aircraft Lecture 21 - Directional Stability
Link NOC:Stability and control of aircraft Lecture 22 - Directional Control
Link NOC:Stability and control of aircraft Lecture 23 - Lateral Stability and Control
Link NOC:Stability and control of aircraft Lecture 24 - Numericals : Directional, Lateral Stability and Control
Link NOC:Stability and control of aircraft Lecture 25 - Revision
Link NOC:Stability and control of aircraft Lecture 26 - Stick Free Stability
Link NOC:Stability and control of aircraft Lecture 27 - Stick Free Stability (Continued...)
Link NOC:Stability and control of aircraft Lecture 28 - Hinge Moment and Hinge Moment Derivative
Link NOC:Stability and control of aircraft Lecture 29 - Aircraft Handling Qualities
Link NOC:Stability and control of aircraft Lecture 30 - Aircraft Handling Qualities (Continued...)
Link NOC:Stability and control of aircraft Lecture 31 - Reversible Control: Stick Free and Trim Tabs
Link NOC:Stability and control of aircraft Lecture 32 - Numericals: Stick Free
Link NOC:Stability and control of aircraft Lecture 33 - Numericals: Stick Free (Continued...)
Link NOC:Stability and control of aircraft Lecture 34 - Handling Qualities: Maneuvering Flight
Link NOC:Stability and control of aircraft Lecture 35 - Determination of Neutral Point and Maneuvering Point by Flight Experiment
Link NOC:Stability and control of aircraft Lecture 36 - Ponit Mass Equation of Motion
Link NOC:Stability and control of aircraft Lecture 37 - Forces and Moments
Link NOC:Stability and control of aircraft Lecture 38 - Aircraft Equations of Motion
Link NOC:Stability and control of aircraft Lecture 39 - Six Degrees of Freedom of an Aircraft
Link NOC:Stability and control of aircraft Lecture 40 - 6 DoF : Angular Momentum Components
Link NOC:Stability and control of aircraft Lecture 41 - Vector in a Rotating Frame
Link NOC:Stability and control of aircraft Lecture 42 - Euler Angles
Link NOC:Stability and control of aircraft Lecture 43 - Small Perturbation Theory
Link NOC:Stability and control of aircraft Lecture 44 - Small Perturbation Theory (Continued...)
Link NOC:Stability and control of aircraft Lecture 45 - Perturbed Equations of Motion: Longitudinal Case
Link NOC:Stability and control of aircraft Lecture 46 - Perturbed Force : fz
Link NOC:Stability and control of aircraft Lecture 47 - Perturbed Force : fz (Continued...)
Link NOC:Stability and control of aircraft Lecture 48 - Perturbed Pitching Moment
Link NOC:Stability and control of aircraft Lecture 49 - Longitudinal Dimensional Stability Derivatives
Link NOC:Stability and control of aircraft Lecture 50 - Dynamic Stability
Link NOC:Stability and control of aircraft Lecture 51 - Longitudinal Modes
Link NOC:Stability and control of aircraft Lecture 52 - Short Period and Phugoid Approximations
Link NOC:Stability and control of aircraft Lecture 53 - Pure Pitching Motion
Link NOC:Stability and control of aircraft Lecture 54 - Stability Augmentation System (SAS)
Link NOC:Stability and control of aircraft Lecture 55 - Lateral-Directional Motion
Link NOC:Stability and control of aircraft Lecture 56 - Tutorial - 1
Link NOC:Stability and control of aircraft Lecture 57 - Tutorial - 2
Link NOC:Stability and control of aircraft Lecture 58 - Tutorial - 3
Link NOC:Stability and control of aircraft Lecture 59 - Tutorial - 4
Link NOC:Stability and control of aircraft Lecture 60 - History of Aviation
Link NOC:Engineering Thermodynamics Lecture 1 - Thermodynamics and its Applications
Link NOC:Engineering Thermodynamics Lecture 2 - System and its Surroundings
Link NOC:Engineering Thermodynamics Lecture 3 - Property of System
Link NOC:Engineering Thermodynamics Lecture 4 - Energy and its Various Forms
Link NOC:Engineering Thermodynamics Lecture 5 - Concepts of Equilibrium and its State
Link NOC:Engineering Thermodynamics Lecture 6 - Energy and its Interactions
Link NOC:Engineering Thermodynamics Lecture 7 - Heat Interactions
Link NOC:Engineering Thermodynamics Lecture 8 - Thermodynamic Properties of Fluids - 1
Link NOC:Engineering Thermodynamics Lecture 9 - Thermodynamic Properties of Fluids - 2
Link NOC:Engineering Thermodynamics Lecture 10 - Thermodynamic Properties of Fluids - 3
Link NOC:Engineering Thermodynamics Lecture 11 - Thermodynamic Properties of Fluids - 4
Link NOC:Engineering Thermodynamics Lecture 12 - Thermodynamic Properties of Fluids - 5
Link NOC:Engineering Thermodynamics Lecture 13 - First Law of Thermodynamics for Cyclic Process
Link NOC:Engineering Thermodynamics Lecture 14 - First Law of Thermodynamics for Non-cyclic Process - 1
Link NOC:Engineering Thermodynamics Lecture 15 - First Law of Thermodynamics for Non-cyclic Process - 2
Link NOC:Engineering Thermodynamics Lecture 16 - Control Mass and Control Volume
Link NOC:Engineering Thermodynamics Lecture 17 - First Law of Thermodynamics for Steady Flow Processes
Link NOC:Engineering Thermodynamics Lecture 18 - First Law of Thermodynamics for Unsteady Flow Processes
Link NOC:Engineering Thermodynamics Lecture 19 - First Law of Thermodynamics to Reacting Systems
Link NOC:Engineering Thermodynamics Lecture 20 - Second Law of Thermodynamics: Basic Concepts - 1
Link NOC:Engineering Thermodynamics Lecture 21 - Second Law of Thermodynamics: Basic Concepts - 2
Link NOC:Engineering Thermodynamics Lecture 22 - Second Law of Thermodynamics: Carnot Cycle and Efficiency
Link NOC:Engineering Thermodynamics Lecture 23 - Second Law of Thermodynamics: Clausius Inequality
Link NOC:Engineering Thermodynamics Lecture 24 - Applications of Second Law of Thermodynamics: Entropy - 1
Link NOC:Engineering Thermodynamics Lecture 25 - Applications of Second Law of Thermodynamics: Entropy - 2
Link NOC:Engineering Thermodynamics Lecture 26 - Exergy
Link NOC:Engineering Thermodynamics Lecture 27 - Gas Turbine Cycle
Link NOC:Engineering Thermodynamics Lecture 28 - Vapor Power Cycle - 1
Link NOC:Engineering Thermodynamics Lecture 29 - Vapor Power Cycle - 2
Link NOC:Engineering Thermodynamics Lecture 30 - Vapor Power Cycle - 3
Link NOC:Engineering Thermodynamics Lecture 31 - Gas Power Cycles - 1
Link NOC:Engineering Thermodynamics Lecture 32 - Gas Power Cycles - 2
Link NOC:Engineering Thermodynamics Lecture 33 - Refrigeration Cycles
Link NOC:Engineering Thermodynamics Lecture 34 - Non-Reacting Mixture and Psychrometry
Link NOC:Engineering Thermodynamics Lecture 35 - Gas-Vapor Mixture and Air Conditioning - 1
Link NOC:Engineering Thermodynamics Lecture 36 - Gas-Vapor Mixture and Air Conditioning - 2
Link NOC:Engineering Thermodynamics Lecture 37 - Thermodynamic Property Relations - 1
Link NOC:Engineering Thermodynamics Lecture 38 - Thermodynamic Property Relations - 2
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 1 - Introduction to Dynamic Stability
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 2 - Spring-Mass-Damper System : Underdamped
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 3 - Spring-Mass-Damper System : Over and Critically damped
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 4 - Laplace Transform
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 5 - Pitch Dynamics : 1 D
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 6 - Numericals: Week - 1
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 7 - Aircraft Rigid Body Equation of Motion
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 8 - Six Degree of Freedom Equation of Motion
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 9 - Vector in Rotating Frame
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 10 - Forces and Moments on Aircraft
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 11 - Euler Angles
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 12 - Trajectory of the Aircraft
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 13 - Small Perturbation Theory
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 14 - Perturbed Aerodynamic Forces and Moments
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 15 - U-derivatives
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 16 - Alpha - derivatives
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 17 - Alpha Dot Derivatives
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 18 - q and delta Derivatives
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 19 - Dimensional Stability Derivatives
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 20 - Longitudinal Characteristic Equation
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 21 - Routh's Criteria and Longitudinal Dynamic Stability
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 22 - Longitudinal Modes: Short Period and Phugoid
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 23 - Short period Mode Approximation
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 24 - Long Period Mode (Phugoid) Approximation
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 25 - Lateral Directional Stability Derivatives
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 26 - Lateral Directional Stability Derivatives (Continued...)
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 27 - Perturbed Equation of Motion for Lateral Dynamics
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 28 - Modes of Lateral Directional Dynamics
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 29 - Spiral and Dutch Roll modes Approximation
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 30 - Routh–Hurwitz Stability Criterion
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 31 - Introduction to Stability Augmentation
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 32 - Pure Yawing and Pure Rolling Motion
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 33 - SAS for Longitudinal Dynamics
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 34 - SAS for Lateral Dynamics
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 35 - Flight Handling Qualities
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 36 - Numericals
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 37 - Revision
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 38 - Mode Shape : Longitudinal Case
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 39 - Mode Shape : Lateral Directional Case
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 40 - Numericals : Transfer Funtions and Response
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 41 - Stability Augmentation System
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 42 - Numericals : SAS
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 43 - Numericals : Mode Shapes
Link NOC:Introduction to Ancient Indian Technology Lecture 1 - Introduction to Ancient Indian Civilization
Link NOC:Introduction to Ancient Indian Technology Lecture 2 - Ancient Indian Civilization’s Gift to the World
Link NOC:Introduction to Ancient Indian Technology Lecture 3 - Why do we need to look at Ancient Indian Science and Technology?
Link NOC:Introduction to Ancient Indian Technology Lecture 4 - Glimpses of Ancient Indian Science and Technology
Link NOC:Introduction to Ancient Indian Technology Lecture 5 - Brief Review of Ancient Indian Scriptures
Link NOC:Introduction to Ancient Indian Technology Lecture 6 - Basic Principles of carrying out science and technology
Link NOC:Introduction to Ancient Indian Technology Lecture 7 - Arrays of Physics, chemistry and Indoor games
Link NOC:Introduction to Ancient Indian Technology Lecture 8 - Marvels of Ancient Indian Technology
Link NOC:Introduction to Ancient Indian Technology Lecture 9 - Introduction to Indian Agriculture
Link NOC:Introduction to Ancient Indian Technology Lecture 10 - Problems arising due to modern agricultural practices
Link NOC:Introduction to Ancient Indian Technology Lecture 11 - Pesticides and soil degradation
Link NOC:Introduction to Ancient Indian Technology Lecture 12 - Agriculture - A Primary Productive Activity
Link NOC:Introduction to Ancient Indian Technology Lecture 13 - An Agricultural Tools - A Plough
Link NOC:Introduction to Ancient Indian Technology Lecture 14 - Soil and seeds
Link NOC:Introduction to Ancient Indian Technology Lecture 15 - Sowing Methods
Link NOC:Introduction to Ancient Indian Technology Lecture 16 - Indigenous cattle and manuring
Link NOC:Introduction to Ancient Indian Technology Lecture 17 - Ancient Indian Textile Technology
Link NOC:Introduction to Ancient Indian Technology Lecture 18 - Handlooms and Charkha
Link NOC:Introduction to Ancient Indian Technology Lecture 19 - Different types of Handlooms
Link NOC:Introduction to Ancient Indian Technology Lecture 20 - Ancient Rural Indian Housing
Link NOC:Introduction to Ancient Indian Technology Lecture 21 - Thatched Roof House
Link NOC:Introduction to Ancient Indian Technology Lecture 22 - Rural Walls and Roof materials
Link NOC:Introduction to Ancient Indian Technology Lecture 23 - Indus Valley and Harappan Civilization
Link NOC:Introduction to Ancient Indian Technology Lecture 24 - First and Second of Indian Civilization
Link NOC:Introduction to Ancient Indian Technology Lecture 25 - Town topologies and Brick and Tile making process
Link NOC:Introduction to Ancient Indian Technology Lecture 26 - Availability of Water and Freshwater
Link NOC:Introduction to Ancient Indian Technology Lecture 27 - Ancient Indian Wells
Link NOC:Introduction to Ancient Indian Technology Lecture 28 - Temple Water tanks and Dams
Link NOC:Introduction to Ancient Indian Technology Lecture 29 - Tank Irrigation system and Rainwater Harvesting
Link NOC:Introduction to Ancient Indian Technology Lecture 30 - Waterbodies - Lakes and Canals
Link NOC:Introduction to Ancient Indian Technology Lecture 31 - Sluices and Embankments
Link NOC:Introduction to Ancient Indian Technology Lecture 32 - World of Materials
Link NOC:Introduction to Ancient Indian Technology Lecture 33 - Metals - Gold Silver Lead
Link NOC:Introduction to Ancient Indian Technology Lecture 34 - History of Copper
Link NOC:Introduction to Ancient Indian Technology Lecture 35 - Iron during Vedic period
Link NOC:Introduction to Ancient Indian Technology Lecture 36 - Iron smelting process in ancient India
Link NOC:Introduction to Ancient Indian Technology Lecture 37 - Iron and Steel crafts in ancient India
Link NOC:Introduction to Ancient Indian Technology Lecture 38 - Extraction and smelting of Zinc in Ancient India
Link NOC:Introduction to Ancient Indian Technology Lecture 39 - Metal Casting in Ancient India
Link NOC:Introduction to Ancient Indian Technology Lecture 40 - Glass Technology in Ancient India
Link NOC:Introduction to Experiments in Flight Lecture 1 - Weighment and Calculation of CG (Theory)
Link NOC:Introduction to Experiments in Flight Lecture 2 - Cruise Experiment (Theory)
Link NOC:Introduction to Experiments in Flight Lecture 3 - Weighment Experiment and cockpit panel description
Link NOC:Introduction to Experiments in Flight Lecture 4 - Drag Polar Experiment
Link NOC:Introduction to Experiments in Flight Lecture 5 - CG and Climb Experiment
Link NOC:Introduction to Experiments in Flight Lecture 6 - Calibration of Control Surface
Link NOC:Introduction to Experiments in Flight Lecture 7 - Calibration of Control Surfaces (Experiment)
Link NOC:Introduction to Experiments in Flight Lecture 8 - Introduction to Flight Data Recorder
Link NOC:Introduction to Experiments in Flight Lecture 9 - Sensors - Part I
Link NOC:Introduction to Experiments in Flight Lecture 10 - Sensors - Part II
Link NOC:Introduction to Experiments in Flight Lecture 11 - Data Acquisition using MEMS devices
Link NOC:Introduction to Experiments in Flight Lecture 12 - Estimation of Stick-Fixed Neutral Point
Link NOC:Introduction to Experiments in Flight Lecture 13 - Estimation of Stick-Free Neutral Point and Stick-Free Maneuvering Point
Link NOC:Introduction to Experiments in Flight Lecture 14 - Static: Lateral-Directional Stability Test
Link NOC:Introduction to Experiments in Flight Lecture 15 - Static: Lateral-Directional Stability Test (Continued...)
Link NOC:Introduction to Experiments in Flight Lecture 16 - Steady Coordinated Turn
Link NOC:Introduction to Experiments in Flight Lecture 17 - Introduction to Parameter Estimation
Link NOC:Introduction to Experiments in Flight Lecture 18 - Parameter Estimation using Least Squares Method
Link NOC:Introduction to Experiments in Flight Lecture 19 - Aerodynamic Parameter Estimation using Least Squares Method
Link NOC:Introduction to Experiments in Flight Lecture 20 - Aerodynamic Parameter Estimation using Delta Method
Link NOC:Introduction to Experiments in Flight Lecture 21 - Aerodynamic Parameter Estimation using Delta Method (Continued...)
Link NOC:Engineering Thermodynamics (2017) Lecture 1 - Fundamental laws of nature, system definitions and applications
Link NOC:Engineering Thermodynamics (2017) Lecture 2 - Thermodynamic property, state, equilibrium and process
Link NOC:Engineering Thermodynamics (2017) Lecture 3 - Temperature scale and pressure
Link NOC:Engineering Thermodynamics (2017) Lecture 4 - Macroscopic and microscopic forms of energy
Link NOC:Engineering Thermodynamics (2017) Lecture 5 - Different forms of work, energy transfer and sign convention
Link NOC:Engineering Thermodynamics (2017) Lecture 6 - First law of thermodynamics and energy balance
Link NOC:Engineering Thermodynamics (2017) Lecture 7 - Efficiency of mechanical and electrical devices
Link NOC:Engineering Thermodynamics (2017) Lecture 8 - Examples on basic concept and energy balance
Link NOC:Engineering Thermodynamics (2017) Lecture 9 - Phase change of a pure substance
Link NOC:Engineering Thermodynamics (2017) Lecture 10 - Property diagrams of pure substances
Link NOC:Engineering Thermodynamics (2017) Lecture 11 - Thermodynamic properties of a pure substance from a property table
Link NOC:Engineering Thermodynamics (2017) Lecture 12 - Thermodynamic properties of a pure substance
Link NOC:Engineering Thermodynamics (2017) Lecture 13 - Equations of state and compressibility chart
Link NOC:Engineering Thermodynamics (2017) Lecture 14 - Examples on properties of pure substances
Link NOC:Engineering Thermodynamics (2017) Lecture 15 - Quasi equilibrium, moving boundary work
Link NOC:Engineering Thermodynamics (2017) Lecture 16 - Polytropic process
Link NOC:Engineering Thermodynamics (2017) Lecture 17 - Energy analysis of closed system and unrestrained expansion
Link NOC:Engineering Thermodynamics (2017) Lecture 18 - Internal energy, enthalpy, and specific heats of ideal gas
Link NOC:Engineering Thermodynamics (2017) Lecture 19 - Internal energy, enthalpy, and specific heats of solids and liquids
Link NOC:Engineering Thermodynamics (2017) Lecture 20 - Examples on energy balance for closed systems and moving boundary work
Link NOC:Engineering Thermodynamics (2017) Lecture 21 - Conservation of mass and steady flow processes
Link NOC:Engineering Thermodynamics (2017) Lecture 22 - Flow work and energy of flowing fluid
Link NOC:Engineering Thermodynamics (2017) Lecture 23 - Energy balance for steady flow devices
Link NOC:Engineering Thermodynamics (2017) Lecture 24 - Throttling valve, mixing chamber and heat exchanger
Link NOC:Engineering Thermodynamics (2017) Lecture 25 - Energy analysis of steady and unsteady flow devices
Link NOC:Engineering Thermodynamics (2017) Lecture 26 - Examples on mass and energy analysis of open systems
Link NOC:Engineering Thermodynamics (2017) Lecture 27 - Second law of thermodynamics, heat engine and cyclic devices
Link NOC:Engineering Thermodynamics (2017) Lecture 28 - COP of refrigerator and heat pump, second law statements
Link NOC:Engineering Thermodynamics (2017) Lecture 29 - Perpetual motion machines, reversible and irreversible processes, Carnot cycle
Link NOC:Engineering Thermodynamics (2017) Lecture 30 - Carnot principles, thermodynamic temperature scale, Carnot HE and HP
Link NOC:Engineering Thermodynamics (2017) Lecture 31 - Examples on second law of thermodynamics
Link NOC:Engineering Thermodynamics (2017) Lecture 32 - Clausius inequality, application of second law
Link NOC:Engineering Thermodynamics (2017) Lecture 33 - Entropy, increase in entropy principle, isentropic process
Link NOC:Engineering Thermodynamics (2017) Lecture 34 - Change in entropy of solids, liquids and ideal gases
Link NOC:Engineering Thermodynamics (2017) Lecture 35 - Reversible flow work, multistage compressor, efficiency of pump and compressors
Link NOC:Engineering Thermodynamics (2017) Lecture 36 - Entropy balance in closed system and control volume
Link NOC:Engineering Thermodynamics (2017) Lecture 37 - Examples on entropy change in a system
Link NOC:Engineering Thermodynamics (2017) Lecture 38 - Exergy and second law efficiency
Link NOC:Engineering Thermodynamics (2017) Lecture 39 - Exergy of a fixed mass and flowing stream
Link NOC:Engineering Thermodynamics (2017) Lecture 40 - Exergy transfer due to heat, mass and work, exergy destruction
Link NOC:Engineering Thermodynamics (2017) Lecture 41 - Exergy balance and second law efficiency for closed systems and steady flow devices
Link NOC:Engineering Thermodynamics (2017) Lecture 42 - Examples related to exergy change and exergy destruction
Link NOC:Engineering Thermodynamics (2017) Lecture 43 - Gas power cycles and air-standard assumptions
Link NOC:Engineering Thermodynamics (2017) Lecture 44 - An overview of reciprocating engines and otto cycle
Link NOC:Engineering Thermodynamics (2017) Lecture 45 - Analysis of Diesel cycle
Link NOC:Engineering Thermodynamics (2017) Lecture 46 - Analysis of Brayton cycle
Link NOC:Engineering Thermodynamics (2017) Lecture 47 - Examples on gas power cycles such as Otto, Diesel and Brayton
Link NOC:Engineering Thermodynamics (2017) Lecture 48 - Rankin and Carnot vapour power cycles
Link NOC:Engineering Thermodynamics (2017) Lecture 49 - Ideal regenerative Rankin cycle and combined gas-vapour cycle
Link NOC:Engineering Thermodynamics (2017) Lecture 50 - Refrigeration cycles
Link NOC:Engineering Thermodynamics (2017) Lecture 51 - Examples on vapour power cycles
Link NOC:Engineering Thermodynamics (2017) Lecture 52 - Thermodynamic property relations: Gibbs equation, Mnemonic diagrams and reciprocity relations
Link NOC:Engineering Thermodynamics (2017) Lecture 53 - hermodynamic property relations: Clapeyron equation and Maxwell relations
Link NOC:Engineering Thermodynamics (2017) Lecture 54 - Thermodynamic property relations: Joule-Thomson coefficient and cyclic relations
Link NOC:Engineering Thermodynamics (2017) Lecture 55 - Combustion and conservation of mass in a chemical reaction
Link NOC:Engineering Thermodynamics (2017) Lecture 56 - Energy balance for reacting systems
Link NOC:Engineering Thermodynamics (2017) Lecture 57 - Enthalpy of formation and combustion, adiabatic flame temperature
Link NOC:Engineering Thermodynamics (2017) Lecture 58 - Examples on property relations and reaction thermodynamics
Link NOC:Aircraft Design Lecture 1 - Introduction
Link NOC:Aircraft Design Lecture 2 - Wing Loading and Thrust Loading
Link NOC:Aircraft Design Lecture 3 - Basic Design - Lift and Drag
Link NOC:Aircraft Design Lecture 4 - Range and Endurance
Link NOC:Aircraft Design Lecture 5 - Mission Requirements
Link NOC:Aircraft Design Lecture 6 - Range and Endurance : Propeller-driven Aircraft
Link NOC:Aircraft Design Lecture 7 - Fuel Consumption : Cruise Flight
Link NOC:Aircraft Design Lecture 8 - L/D for Maximum Range and Endurance
Link NOC:Aircraft Design Lecture 9 - Range and endurance for Jet-driven Aircraft
Link NOC:Aircraft Design Lecture 10 - Estimation of Fuel for a Mission
Link NOC:Aircraft Design Lecture 11 - Design Considerations : Power Plant, Gross Weight
Link NOC:Aircraft Design Lecture 12 - Design Considerations : Aerofoil Selection
Link NOC:Aircraft Design Lecture 13 - Design Considerations : Wing
Link NOC:Aircraft Design Lecture 14 - Wing Design: Aerofoil
Link NOC:Aircraft Design Lecture 15 - Wing Design:t/c, Camber and Leading Edge Radius
Link NOC:Aircraft Design Lecture 16 - Wing Design: Aspect Ratio
Link NOC:Aircraft Design Lecture 17 - Wing Design: Sweep, Twist and Taper Ratio
Link NOC:Aircraft Design Lecture 18 - Wing Arrangements
Link NOC:Aircraft Design Lecture 19 - Tail Arrangements
Link NOC:Aircraft Design Lecture 20 - Tail Arrangements (Continued...)
Link NOC:Aircraft Design Lecture 21 - Aircraft Structure
Link NOC:Aircraft Design Lecture 22 - Wing Loading and Power Loading
Link NOC:Aircraft Design Lecture 23 - Thrust Loading and Wing Loading
Link NOC:Aircraft Design Lecture 24 - Thrust Loading
Link NOC:Aircraft Design Lecture 25 - Wing Loading
Link NOC:Aircraft Design Lecture 26 - Wing Loading : Maneuver,Climb and glide
Link NOC:Aircraft Design Lecture 27 - Take off: Wing Loading and Thrust Loading
Link NOC:Aircraft Design Lecture 28 - Take off: Vstall and High Life Devices
Link NOC:Aircraft Design Lecture 29 - Wing Loading: Take off and Landing
Link NOC:Aircraft Design Lecture 30 - Revision (Wing Loading and Thrust Loading)
Link NOC:Aircraft Design Lecture 31 - Numerical: Wing Loading
Link NOC:Aircraft Design Lecture 32 - Wing Loading: Designers Approach
Link NOC:Aircraft Design Lecture 33 - Stability Considerations
Link NOC:Aircraft Design Lecture 34 - Static Stability Basics
Link NOC:Aircraft Design Lecture 35 - Wing and tail contribution to Longitudinal Static Stability
Link NOC:Aircraft Design Lecture 36 - Conceptual Design
Link NOC:Aircraft Design Lecture 37 - Conceptual design (Continued...)
Link NOC:Aircraft Design Lecture 38 - Elevator Effectiveness
Link NOC:Aircraft Design Lecture 39 - Elevator Effectiveness (Continued...)
Link NOC:Aircraft Design Lecture 40 - Numerical - Pitching moment
Link NOC:Aircraft Design Lecture 41 - Numerical - Elevator Effectiveness
Link NOC:Aircraft Design Lecture 42 - Aircraft Maintenance Guidelines
Link NOC:Aircraft Design Lecture 43 - Inspection for Aircraft
Link NOC:Aircraft Design Lecture 44 - Numerical of Weight Fraction
Link NOC:Aircraft Design Lecture 45 - Inspection of Sinus 912 Motor Glider
Link NOC:Aircraft Design Lecture 46 - Numericals
Link NOC:Fundamentals Of Combustion-I Lecture 1 - Introduction to fundamentals of combustion
Link NOC:Fundamentals Of Combustion-I Lecture 2 - Scope and applications of combustion
Link NOC:Fundamentals Of Combustion-I Lecture 3 - Scope of combustion (Continued...) and types of fuel and oxidizers
Link NOC:Fundamentals Of Combustion-I Lecture 4 - Characterization of liquid and gaseous fuel
Link NOC:Fundamentals Of Combustion-I Lecture 5 - Properties of liquid and solid fuels, various modes of combustion
Link NOC:Fundamentals Of Combustion-I Lecture 6 - Thermodynamics of combustion
Link NOC:Fundamentals Of Combustion-I Lecture 7 - Thermodynamics of combustion (Continued...)
Link NOC:Fundamentals Of Combustion-I Lecture 8 - Laws of thermodynamics and Stoichiometry
Link NOC:Fundamentals Of Combustion-I Lecture 9 - Stoichiometric calculations for air-gas mixture
Link NOC:Fundamentals Of Combustion-I Lecture 10 - Mixture fraction calculation for diffusion flames
Link NOC:Fundamentals Of Combustion-I Lecture 11 - Thermochemistry
Link NOC:Fundamentals Of Combustion-I Lecture 12 - Heat of reaction and bond energy
Link NOC:Fundamentals Of Combustion-I Lecture 13 - Adiabatic flame temperature
Link NOC:Fundamentals Of Combustion-I Lecture 14 - Adiabatic flame temperature and its effect on various parameters
Link NOC:Fundamentals Of Combustion-I Lecture 15 - Introduction to chemical equilibrium
Link NOC:Fundamentals Of Combustion-I Lecture 16 - Chemical equilibrium and Gibbs free energy
Link NOC:Fundamentals Of Combustion-I Lecture 17 - Equilibrium constants and Le chatlier principle
Link NOC:Fundamentals Of Combustion-I Lecture 18 - Determination of chemical equilibrium composition
Link NOC:Fundamentals Of Combustion-I Lecture 19 - Chemical and reaction kinetics
Link NOC:Fundamentals Of Combustion-I Lecture 20 - Compact notation and reaction rate of chemical reaction
Link NOC:Fundamentals Of Combustion-I Lecture 21 - Collision Theory
Link NOC:Fundamentals Of Combustion-I Lecture 22 - Collision theory (Continued...)
Link NOC:Fundamentals Of Combustion-I Lecture 23 - Collision frequency of molecules
Link NOC:Fundamentals Of Combustion-I Lecture 24 - Specific reaction rate and Arrhenius law
Link NOC:Fundamentals Of Combustion-I Lecture 25 - First order, Second order and Third-order reactions
Link NOC:Fundamentals Of Combustion-I Lecture 26 - Classification of chemical reactions
Link NOC:Fundamentals Of Combustion-I Lecture 27 - Elementary chain reactions
Link NOC:Fundamentals Of Combustion-I Lecture 28 - Quasi-steady state and partial equilibrium approximation
Link NOC:Fundamentals Of Combustion-I Lecture 29 - Physics of combustion
Link NOC:Fundamentals Of Combustion-I Lecture 30 - Transport equations and molecular model for transport process
Link NOC:Fundamentals Of Combustion-I Lecture 31 - Mean free path length
Link NOC:Fundamentals Of Combustion-I Lecture 32 - Lennard-Jones potential model for diffusivity
Link NOC:Fundamentals Of Combustion-I Lecture 33 - Lennard-Jones potential model (Continued...)
Link NOC:Fundamentals Of Combustion-I Lecture 34 - Mass conservation law
Link NOC:Fundamentals Of Combustion-I Lecture 35 - Momentum conservation equation
Link NOC:Fundamentals Of Combustion-I Lecture 36 - Introduction to mass transfer
Link NOC:Fundamentals Of Combustion-I Lecture 37 - Species transport equation
Link NOC:Fundamentals Of Combustion-I Lecture 38 - Energy conservation equation
Link NOC:Fundamentals Of Combustion-I Lecture 39 - Conserved scalar approach for one dimensional flows
Link NOC:Fundamentals Of Combustion-I Lecture 40 - Introduction to turbulent combustion
Link NOC:Aircraft Maintenance Lecture 1 - Rules and Regulations for Civil Aviation in India
Link NOC:Aircraft Maintenance Lecture 2 - Rules and Regulations for Civil Aviation in India (Continued...)
Link NOC:Aircraft Maintenance Lecture 3 - Aircraft Hydraulic System
Link NOC:Aircraft Maintenance Lecture 4 - Aircraft Fuel System
Link NOC:Aircraft Maintenance Lecture 5 - Aircraft Landing Gear System
Link NOC:Aircraft Maintenance Lecture 6 - Aircraft Wheels
Link NOC:Aircraft Maintenance Lecture 7 - Aircraft Brakes System
Link NOC:Aircraft Maintenance Lecture 8 - Basic Aircraft Design
Link NOC:Aircraft Maintenance Lecture 9 - Aircraft Electrical System
Link NOC:Aircraft Maintenance Lecture 10 - Aircraft Electrical Circuit
Link NOC:Aircraft Maintenance Lecture 11 - Inspection of Aircraft
Link NOC:Aircraft Maintenance Lecture 12 - Maintenance Schedule
Link NOC:Aircraft Maintenance Lecture 13 - Maintenance Schedule (Continued...)
Link NOC:Aircraft Maintenance Lecture 14 - Inspection of Cessna 206
Link NOC:Fundamentals of Combustion - Part 2 Lecture 1 - Combustion Modes and Classsification of Flames
Link NOC:Fundamentals of Combustion - Part 2 Lecture 2 - Analysis of One Dimensional Combustion Wave
Link NOC:Fundamentals of Combustion - Part 2 Lecture 3 - Analysis of One Dimensional Combustion Wave (Continued...)
Link NOC:Fundamentals of Combustion - Part 2 Lecture 4 - Introduction to Laminar Premixed Flame
Link NOC:Fundamentals of Combustion - Part 2 Lecture 5 - Structure of One Dimensional Premixed Flame
Link NOC:Fundamentals of Combustion - Part 2 Lecture 6 - Laminar Flame Theory for Premixed Flames
Link NOC:Fundamentals of Combustion - Part 2 Lecture 7 - Laminar Flame Theory for Premixed Flames (Continued...)
Link NOC:Fundamentals of Combustion - Part 2 Lecture 8 - Determination of Laminar Burning Velocity for Premixed Flames
Link NOC:Fundamentals of Combustion - Part 2 Lecture 9 - Flame Thickness and Burning Velocity Measurement Methods
Link NOC:Fundamentals of Combustion - Part 2 Lecture 10 - Stationary Flame Method for Burning Velocity Measurement
Link NOC:Fundamentals of Combustion - Part 2 Lecture 11 - Effects of Chemical and Physical Variables on Burning Velocity
Link NOC:Fundamentals of Combustion - Part 2 Lecture 12 - Effects of Chemical and Physical Variables on Burning Velocity (Continued...)
Link NOC:Fundamentals of Combustion - Part 2 Lecture 13 - Effect of Inert Additives on Burning Velocity and Flame Extinction
Link NOC:Fundamentals of Combustion - Part 2 Lecture 14 - Simplified Analysis for Quenching Diameter
Link NOC:Fundamentals of Combustion - Part 2 Lecture 15 - Flammability Limits and Flame Stabilization
Link NOC:Fundamentals of Combustion - Part 2 Lecture 16 - Ignition in Premixed Flames
Link NOC:Fundamentals of Combustion - Part 2 Lecture 17 - Introduction to Turbulent Premixed Flames
Link NOC:Fundamentals of Combustion - Part 2 Lecture 18 - Turbulent Burning Velocity and Premixed Flame Regimes
Link NOC:Fundamentals of Combustion - Part 2 Lecture 19 - Intoduction to Gaseous Jet Diffusion Flame
Link NOC:Fundamentals of Combustion - Part 2 Lecture 20 - Phenomenological Analysis of a Laminar Jet Diffusion Flame
Link NOC:Fundamentals of Combustion - Part 2 Lecture 21 - Theoretical Analysis of a Two-Dimensional Diffusion Flame
Link NOC:Fundamentals of Combustion - Part 2 Lecture 22 - Theoretical Analysis of a Two-Dimensional Diffusion Flame (Continued...)
Link NOC:Fundamentals of Combustion - Part 2 Lecture 23 - Flame Height Estimation and Smoke point in Diffusion Flames
Link NOC:Fundamentals of Combustion - Part 2 Lecture 24 - Mechanism of Soot Formation and Introduction to Liquid Fuel Combustion
Link NOC:Fundamentals of Combustion - Part 2 Lecture 25 - Introduction to Droplet Combustion
Link NOC:Fundamentals of Combustion - Part 2 Lecture 26 - Liquid Droplet Combustion
Link NOC:Fundamentals of Combustion - Part 2 Lecture 27 - Droplet Combustion (Continued...)
Link NOC:Fundamentals of Combustion - Part 2 Lecture 28 - Droplet Combustion in Convective Environment
Link NOC:Fundamentals of Combustion - Part 2 Lecture 29 - Droplet Combustion in Convective Environment and Introduction to Spray Combution Mode
Link NOC:Fundamentals of Combustion - Part 2 Lecture 30 - Spray Combustion Model
Link NOC:Fundamentals of Combustion - Part 2 Lecture 31 - Introduction to Solid Fuel Combustion
Link NOC:Fundamentals of Combustion - Part 2 Lecture 32 - Solid Fuel Combustion (Continued...)
Link NOC:Fundamentals of Combustion - Part 2 Lecture 33 - Diffusional theory for Carbon Combustion
Link NOC:Fundamentals of Combustion - Part 2 Lecture 34 - Carbon Burning Rate
Link NOC:Fundamentals of Combustion - Part 2 Lecture 35 - Carbon Burning Rate (Continued...)
Link NOC:Fundamentals of Combustion - Part 2 Lecture 36 - Carbon Sphere in Convective Environment
Link NOC:Fundamentals of Combustion - Part 2 Lecture 37 - Combustion and Effects on Environment
Link NOC:Fundamentals of Combustion - Part 2 Lecture 38 - Chemicals from Combustion
Link NOC:Fundamentals of Combustion - Part 2 Lecture 39 - Emission Control Methods
Link NOC:Fundamentals of Combustion - Part 2 Lecture 40 - Combustion Modification Methods
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 1 - Introduction, course content and classification of UAVs
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 2 - Measurement of Flight Velocity and Standard Atmosphere
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 3 - Anatomy of Airplane and Airfoil Nomenclature
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 4 - Examples, Pitot and static tube and differential pressure sensor
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 5 - Generation of Lift and Drag
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 6 - Aerodynamic center and center of pressure, Various wing planform
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 7 - Lifting line theory, NACA airfoil nomenclature
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 8 - Airfoil and Finite wing, Various wing planform
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 9 - Interpreting airfoil data, Cl vs Alpha and drag polar, selection of airfoil
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 10 - Introduction to Airplane performance, Equation of motion
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 11 - Thrust required and Power required
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 12 - Calculation of Performance parameters and selection of power plant
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 13 - Climb Performance, Engine Sizing and Power Plant selection
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 14 - Weight Estimation , Common propulsion systems
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 15 - Weight Estimation contd., Electric propulsion, Battery Sizing
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 16 - Iterative weight estimation and Wing sizing
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 17 - Wing Planform selection and sizing and Flight test of Cropped delta wing UAVs
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 18 - Effect of variation of CG location and Static Stability
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 19 - C.G. location and Longitudinal Static stability
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 20 - Tutorial 1
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 21 - Contribution of tail in static stability and Neutral point.
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 22 - Tutorial 2
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 23 - Tutorial 3
Link NOC:Introduction to Finite Volume Methods-I Lecture 1 - Introduction to Finite Volume Method
Link NOC:Introduction to Finite Volume Methods-I Lecture 2 - Governing Equations and Discretization
Link NOC:Introduction to Finite Volume Methods-I Lecture 3 - Boundary Conditions and Classification of PDEs
Link NOC:Introduction to Finite Volume Methods-I Lecture 4 - Mathematical Description of fluid flow - I
Link NOC:Introduction to Finite Volume Methods-I Lecture 5 - Mathematical description of fluid flow - II
Link NOC:Introduction to Finite Volume Methods-I Lecture 6 - Discretization Process - I
Link NOC:Introduction to Finite Volume Methods-I Lecture 7 - Discretization Process - II
Link NOC:Introduction to Finite Volume Methods-I Lecture 8 - Discretization Process - III
Link NOC:Introduction to Finite Volume Methods-I Lecture 9 - Taylor Series - I
Link NOC:Introduction to Finite Volume Methods-I Lecture 10 - Taylor Series - II
Link NOC:Introduction to Finite Volume Methods-I Lecture 11 - Derivatives and Errors - I
Link NOC:Introduction to Finite Volume Methods-I Lecture 12 - Derivatives and errors - II
Link NOC:Introduction to Finite Volume Methods-I Lecture 13 - Grid Transformation
Link NOC:Introduction to Finite Volume Methods-I Lecture 14 - Finite Volume Formulation - I
Link NOC:Introduction to Finite Volume Methods-I Lecture 15 - Finite Volume Formulation - II
Link NOC:Introduction to Finite Volume Methods-I Lecture 16 - Properties of discretized equations
Link NOC:Introduction to Finite Volume Methods-I Lecture 17 - Introduction to Finite Volume Mesh
Link NOC:Introduction to Finite Volume Methods-I Lecture 18 - Structured Mesh System
Link NOC:Introduction to Finite Volume Methods-I Lecture 19 - Unstructured Mesh System - I
Link NOC:Introduction to Finite Volume Methods-I Lecture 20 - Unstructured Mesh System - II
Link NOC:Introduction to Finite Volume Methods-I Lecture 21 - Properties of Unstructured Mesh - I
Link NOC:Introduction to Finite Volume Methods-I Lecture 22 - Properties of Unstructured Mesh - II
Link NOC:Introduction to Finite Volume Methods-I Lecture 23 - Finite Volume discretization of Diffusion Equation - I
Link NOC:Introduction to Finite Volume Methods-I Lecture 24 - Finite Volume discretization of Diffusion equation - II
Link NOC:Introduction to Finite Volume Methods-I Lecture 25 - Finite Volume discretization of Diffusion equation - III
Link NOC:Introduction to Finite Volume Methods-I Lecture 26 - Discretization of Diffusion Equation for Cartesian orthogonal systems - I
Link NOC:Introduction to Finite Volume Methods-I Lecture 27 - Discretization of Diffusion Equation for Cartesian orthogonal systems - II
Link NOC:Introduction to Finite Volume Methods-I Lecture 28 - Calculation of Diffusivity
Link NOC:Introduction to Finite Volume Methods-I Lecture 29 - Discretization of Diffusion Equation for non-Cartesian orthogonal systems - I
Link NOC:Introduction to Finite Volume Methods-I Lecture 30 - Discretization of Diffusion Equation for non-orthogonal systems - I
Link NOC:Introduction to Finite Volume Methods-I Lecture 31 - Discretization of Diffusion Equation for non-orthogonal systems - II
Link NOC:Introduction to Finite Volume Methods-I Lecture 32 - Discretization of Diffusion Equation for non-orthogonal systems - III
Link NOC:Introduction to Finite Volume Methods-I Lecture 33 - Gradient Calculation for Diffusion Equation - I
Link NOC:Introduction to Finite Volume Methods-I Lecture 34 - Gradient Calculation for Diffusion Equation - II
Link NOC:Introduction to Finite Volume Methods-I Lecture 35 - Gradient Calculation for Diffusion Equation - III
Link NOC:Introduction to Finite Volume Methods-I Lecture 36 - Properties of matrices - I
Link NOC:Introduction to Finite Volume Methods-I Lecture 37 - Properties of matrices - II
Link NOC:Introduction to Finite Volume Methods-I Lecture 38 - Error Analysis - I
Link NOC:Introduction to Finite Volume Methods-I Lecture 39 - Error Analysis - II
Link NOC:Introduction to Finite Volume Methods-I Lecture 40 - Error Analysis - III
Link NOC:Advance Aircraft Maintenance Lecture 1 - Introduction to Engines
Link NOC:Advance Aircraft Maintenance Lecture 2 - Introduction to Engines (Continued...)
Link NOC:Advance Aircraft Maintenance Lecture 3 - Construction of Reciprocating Engine
Link NOC:Advance Aircraft Maintenance Lecture 4 - Construction of Reciprocating Engine (Continued...)
Link NOC:Advance Aircraft Maintenance Lecture 5 - Construction of Reciprocating Engine (Continued...)
Link NOC:Advance Aircraft Maintenance Lecture 6 - Lubrication System
Link NOC:Advance Aircraft Maintenance Lecture 7 - Lubrication System Demonstration
Link NOC:Advance Aircraft Maintenance Lecture 8 - Lubrication System (Continued...)
Link NOC:Advance Aircraft Maintenance Lecture 9 - Induction System
Link NOC:Advance Aircraft Maintenance Lecture 10 - Induction System (Continued...)
Link NOC:Advance Aircraft Maintenance Lecture 11 - Cooling System
Link NOC:Advance Aircraft Maintenance Lecture 12 - Exhaust System
Link NOC:Advance Aircraft Maintenance Lecture 13 - Cooling and Exhaust System (Lab Session)
Link NOC:Advance Aircraft Maintenance Lecture 14 - Engine fuel and Fuel Metering Systems
Link NOC:Advance Aircraft Maintenance Lecture 15 - Engine Fuel and Fuel Metering Systems (Continued...)
Link NOC:Advance Aircraft Maintenance Lecture 16 - Engine Fuel and Fuel Metering Systems (Lab Session)
Link NOC:Advance Aircraft Maintenance Lecture 17 - Carburetor troubleshooting and Fuel Injection System
Link NOC:Advance Aircraft Maintenance Lecture 18 - Fuel injection Systems (Continued...)
Link NOC:Advance Aircraft Maintenance Lecture 19 - Fuel System
Link NOC:Advance Aircraft Maintenance Lecture 20 - Ignition system
Link NOC:Advance Aircraft Maintenance Lecture 21 - Ignition system (Continued...)
Link NOC:Advance Aircraft Maintenance Lecture 22 - Ignition system (Lab session)
Link NOC:Advance Aircraft Maintenance Lecture 23 - Basics of propeller and maintenance
Link NOC:Advance Aircraft Maintenance Lecture 24 - Aircraft Reciprocating Engine Inspection - Part 1
Link NOC:Advance Aircraft Maintenance Lecture 25 - Aircraft Reciprocating Engine Inspection - Part 2
Link NOC:Advance Aircraft Maintenance Lecture 26 - Aircraft Reciprocating Engine Inspection - Part 3
Link NOC:Advance Aircraft Maintenance Lecture 27 - Checklist for Aircraft Reciprocating Engine Maintenance
Link NOC:Advance Aircraft Maintenance Lecture 28 - Aircraft Maintenance (Aircraft Performance Point of View)
Link NOC:Introduction to Finite Volume Methods-II Lecture 1 - Linear solvers - I
Link NOC:Introduction to Finite Volume Methods-II Lecture 2 - Linear solvers - II
Link NOC:Introduction to Finite Volume Methods-II Lecture 3 - Linear solvers - III
Link NOC:Introduction to Finite Volume Methods-II Lecture 4 - Linear solvers - IV
Link NOC:Introduction to Finite Volume Methods-II Lecture 5 - Linear solvers - V
Link NOC:Introduction to Finite Volume Methods-II Lecture 6 - Linear solvers - VI
Link NOC:Introduction to Finite Volume Methods-II Lecture 7 - Linear solvers - VII
Link NOC:Introduction to Finite Volume Methods-II Lecture 8 - Linear solvers - VIII
Link NOC:Introduction to Finite Volume Methods-II Lecture 9 - Convection term discretisation - I
Link NOC:Introduction to Finite Volume Methods-II Lecture 10 - Convection term discretisation - II
Link NOC:Introduction to Finite Volume Methods-II Lecture 11 - Convection term discretisation - III (Private)
Link NOC:Introduction to Finite Volume Methods-II Lecture 12 - Convection term discretisation - IV (Private)
Link NOC:Introduction to Finite Volume Methods-II Lecture 13 - Convection term discretisation - V (Private)
Link NOC:Introduction to Finite Volume Methods-II Lecture 14 - Convection term discretisation - VI (Private)
Link NOC:Introduction to Finite Volume Methods-II Lecture 15 - Convection term discretisation - VII (Private)
Link NOC:Introduction to Finite Volume Methods-II Lecture 16 - Convection term discretisation - VIII
Link NOC:Introduction to Finite Volume Methods-II Lecture 17 - Convection term discretisation - IX
Link NOC:Introduction to Finite Volume Methods-II Lecture 18 - High Resolution Schemes - I
Link NOC:Introduction to Finite Volume Methods-II Lecture 19 - High Resolution Schemes - II
Link NOC:Introduction to Finite Volume Methods-II Lecture 20 - High Resolution Schemes - III
Link NOC:Introduction to Finite Volume Methods-II Lecture 21 - High Resolution Schemes - IV
Link NOC:Introduction to Finite Volume Methods-II Lecture 22 - High Resolution Schemes - V
Link NOC:Introduction to Finite Volume Methods-II Lecture 23 - High Resolution Schemes - VI
Link NOC:Introduction to Finite Volume Methods-II Lecture 24 - High Resolution Schemes - VII
Link NOC:Introduction to Finite Volume Methods-II Lecture 25 - Temporal discretisation - I
Link NOC:Introduction to Finite Volume Methods-II Lecture 26 - Temporal discretisation - II
Link NOC:Introduction to Finite Volume Methods-II Lecture 27 - Temporal discretisation - III
Link NOC:Introduction to Finite Volume Methods-II Lecture 28 - Temporal discretisation - IV
Link NOC:Introduction to Finite Volume Methods-II Lecture 29 - Discretisation of the Source Term, Relaxation and Other Details - I
Link NOC:Introduction to Finite Volume Methods-II Lecture 30 - Discretisation of the Source Term, Relaxation and Other Details - II
Link NOC:Introduction to Finite Volume Methods-II Lecture 31 - Fluid Flow Computation: Incompressible Flows - I
Link NOC:Introduction to Finite Volume Methods-II Lecture 32 - Fluid Flow Computation: Incompressible Flows - II
Link NOC:Introduction to Finite Volume Methods-II Lecture 33 - Fluid Flow Computation: Incompressible Flows - III
Link NOC:Introduction to Finite Volume Methods-II Lecture 34 - Fluid Flow Computation: Incompressible Flows - IV
Link NOC:Introduction to Finite Volume Methods-II Lecture 35 - Fluid Flow Computation: Incompressible Flows - V
Link NOC:Introduction to Finite Volume Methods-II Lecture 36 - Fluid Flow Computation: Incompressible Flows - VI
Link NOC:Introduction to Finite Volume Methods-II Lecture 37 - Fluid Flow Computation: Incompressible Flows - VII
Link NOC:Introduction to Finite Volume Methods-II Lecture 38 - Fluid Flow Computation: Incompressible Flows - VIII
Link NOC:Introduction to Finite Volume Methods-II Lecture 39 - Fluid Flow Computation: Compressible Flows - I
Link NOC:Introduction to Finite Volume Methods-II Lecture 40 - Some Advanced Topics - I
Link NOC:Introduction to Rocket Propulsion Lecture 1 - Introduction
Link NOC:Introduction to Rocket Propulsion Lecture 2 - A Brief History of Rocket Propulsion and ISRO
Link NOC:Introduction to Rocket Propulsion Lecture 3 - Types of Rocket Engine
Link NOC:Introduction to Rocket Propulsion Lecture 4 - Fundamentals of Aero-thermodynamics
Link NOC:Introduction to Rocket Propulsion Lecture 5 - Control Volume Analysis and Governing Equations
Link NOC:Introduction to Rocket Propulsion Lecture 6 - Adiabatic Steady 1-D flow and Speed of Sound
Link NOC:Introduction to Rocket Propulsion Lecture 7 - Basics of Thermochemistry
Link NOC:Introduction to Rocket Propulsion Lecture 8 - Adiabatic Flame Temperature and Chemical Equilibrium
Link NOC:Introduction to Rocket Propulsion Lecture 9 - Ideal Rocket Engine, Thrust Equation and Performance Parameters
Link NOC:Introduction to Rocket Propulsion Lecture 10 - Performance Parameters of Rocket Engine
Link NOC:Introduction to Rocket Propulsion Lecture 11 - Performance Parameters of Rocket Engine (Continued...)
Link NOC:Introduction to Rocket Propulsion Lecture 12 - Ideal Nozzle
Link NOC:Introduction to Rocket Propulsion Lecture 13 - Rocket Nozzle
Link NOC:Introduction to Rocket Propulsion Lecture 14 - Convergent Nozzle
Link NOC:Introduction to Rocket Propulsion Lecture 15 - Convergent-Divergent Nozzle and Shock Reflection
Link NOC:Introduction to Rocket Propulsion Lecture 16 - Effect of Back Pressure and Thrust Coefficient
Link NOC:Introduction to Rocket Propulsion Lecture 17 - Thrust Coefficient
Link NOC:Introduction to Rocket Propulsion Lecture 18 - Characteristics Velocity, Combustion Efficiency and Thrust Effectiveness
Link NOC:Introduction to Rocket Propulsion Lecture 19 - Actual Rocket Nozzle Characteristics
Link NOC:Introduction to Rocket Propulsion Lecture 20 - Flight Performance of a Rocket Vehicle
Link NOC:Introduction to Rocket Propulsion Lecture 21 - Flight Performance of a Rocket Vehicle
Link NOC:Introduction to Rocket Propulsion Lecture 22 - Flight Trajectory of Single Stage Rocket Vehicle
Link NOC:Introduction to Rocket Propulsion Lecture 23 - Orbital Mechanics
Link NOC:Introduction to Rocket Propulsion Lecture 24 - Types of Orbits
Link NOC:Introduction to Rocket Propulsion Lecture 25 - Orbital and Escape Velocity
Link NOC:Introduction to Rocket Propulsion Lecture 26 - Interplanetary Transfer Path
Link NOC:Introduction to Rocket Propulsion Lecture 27 - Multi-staging Rocket
Link NOC:Introduction to Rocket Propulsion Lecture 28 - Chemical Propellants-Characteristics and Classification
Link NOC:Introduction to Rocket Propulsion Lecture 29 - Solid and Composite Propellants
Link NOC:Introduction to Rocket Propulsion Lecture 30 - Composite Propellants and it's Manufacturing
Link NOC:Introduction to Rocket Propulsion Lecture 31 - Classification of Liquid Propellants
Link NOC:Introduction to Rocket Propulsion Lecture 32 - Solid Propellant Rocket Engine
Link NOC:Introduction to Rocket Propulsion Lecture 33 - Propellant Burning Mechanism and Flame Structure
Link NOC:Introduction to Rocket Propulsion Lecture 34 - Composite Propellant Combustion
Link NOC:Introduction to Rocket Propulsion Lecture 35 - Regression Rate of Solid Propellant and Effect of Operating Parameters
Link NOC:Introduction to Rocket Propulsion Lecture 36 - Characteristics of Solid Propellants
Link NOC:Introduction to Rocket Propulsion Lecture 37 - Effect of Acceleration and Particle Size on Burning Rate
Link NOC:Introduction to Rocket Propulsion Lecture 38 - Erosive Burning, Effect of Propellant Temperature and Thermal Model
Link NOC:Introduction to Rocket Propulsion Lecture 39 - Chamber Pressure in Solid Propellant Rocket Engine
Link NOC:Introduction to Rocket Propulsion Lecture 40 - Types of Propellant Grains
Link NOC:Introduction to Rocket Propulsion Lecture 41 - Types of Solid Propellant Grains and Evolution of Burning Surface
Link NOC:Introduction to Rocket Propulsion Lecture 42 - Burning Stability and Ignition System in SPRE
Link NOC:Introduction to Rocket Propulsion Lecture 43 - Liquid Propellant Rocket Engine: Basic Configuration and Types
Link NOC:Introduction to Rocket Propulsion Lecture 44 - Injection System in LPRE
Link NOC:Introduction to Rocket Propulsion Lecture 45 - Atomization of Liquid Propellants
Link NOC:Introduction to Rocket Propulsion Lecture 46 - Types of Injection System in LPRE
Link NOC:Introduction to Rocket Propulsion Lecture 47 - Analysis of Impinging Atomizer
Link NOC:Introduction to Rocket Propulsion Lecture 48 - Injection Distributor and Combustion Process in LPRE
Link NOC:Introduction to Rocket Propulsion Lecture 49 - Variation of Gas Specific Volume and Combustion Chamber Geometry
Link NOC:Introduction to Rocket Propulsion Lecture 50 - Liquid Propellant Feed System in LPRE
Link NOC:Introduction to Rocket Propulsion Lecture 51 - Turbo-Pump Feed Configuration
Link NOC:Introduction to Rocket Propulsion Lecture 52 - Ignition System in LPRE
Link NOC:Introduction to Rocket Propulsion Lecture 53 - Cooling of Thrust Chamber and Nozzle of a Rocket Engine
Link NOC:Introduction to Rocket Propulsion Lecture 54 - Cooling System of Rocket Engine (Continued...)
Link NOC:Introduction to Rocket Propulsion Lecture 55 - Modes of Heat Transfer through combustion Chamber Wall and Nozzle Wall
Link NOC:Introduction to Rocket Propulsion Lecture 56 - Heat Transfer Analysis of Cooling System
Link NOC:Introduction to Rocket Propulsion Lecture 57 - Hybrid Propellant Rocket Engine
Link NOC:Introduction to Rocket Propulsion Lecture 58 - Regression Rate of Solid Fuel Grain in HPRE and Types of Port Configurations
Link NOC:Introduction to Rocket Propulsion Lecture 59 - Non-Chemical Rocket Engine
Link NOC:Introduction to Rocket Propulsion Lecture 60 - Electromagnetic Thruster, Nuclear and Solar Rocket Engine
Link High Speed Aero Dynamics Lecture 1 - Introduction and Review of Thermodynamics
Link High Speed Aero Dynamics Lecture 2 - Review of Thermodynamics (Continued...)
Link High Speed Aero Dynamics Lecture 3 - Review of Thermodynamics (Continued...)
Link High Speed Aero Dynamics Lecture 4 - Review of Thermodynamics (Continued...)
Link High Speed Aero Dynamics Lecture 5 - One-dimensional gas dynamics
Link High Speed Aero Dynamics Lecture 6 - One-dimensional gas dynamics (Continued...)
Link High Speed Aero Dynamics Lecture 7 - One-dimensional gas dynamics (Continued...)
Link High Speed Aero Dynamics Lecture 8 - One-dimensional waves
Link High Speed Aero Dynamics Lecture 9 - One-dimensional waves (Continued...)
Link High Speed Aero Dynamics Lecture 10 - One-dimensional waves (Continued...)
Link High Speed Aero Dynamics Lecture 11 - Waves and Supersonic Flow
Link High Speed Aero Dynamics Lecture 12 - Waves and Supersonic Flow (Continued...)
Link High Speed Aero Dynamics Lecture 13 - Waves and Supersonic Flow (Continued...)
Link High Speed Aero Dynamics Lecture 14 - Waves and Supersonic Flow (Continued...)
Link High Speed Aero Dynamics Lecture 15 - Shock Expansion Theory
Link High Speed Aero Dynamics Lecture 16 - Flow through ducts and channels
Link High Speed Aero Dynamics Lecture 17 - Flow in ducts
Link High Speed Aero Dynamics Lecture 18 - Flow in ducts (Continued...)
Link High Speed Aero Dynamics Lecture 19 - Adiabatic Flow in ducts with friction
Link High Speed Aero Dynamics Lecture 20 - Adiabatic flow in ducts with friction (Continued...)
Link High Speed Aero Dynamics Lecture 21 - Isothermal flow in ducts with friction
Link High Speed Aero Dynamics Lecture 22 - Flow in uniform duct with heating
Link High Speed Aero Dynamics Lecture 23 - Multi - dimensional flow problems
Link High Speed Aero Dynamics Lecture 24 - Multi - dimensional flow problems (Continued...)
Link High Speed Aero Dynamics Lecture 25 - Linearized flow problems
Link High Speed Aero Dynamics Lecture 26 - Linearized flow problems (Continued...)
Link High Speed Aero Dynamics Lecture 27 - Linearized flow problems (Continued...)
Link High Speed Aero Dynamics Lecture 28 - Linearized flow problems (Continued...)
Link High Speed Aero Dynamics Lecture 29 - Linearized flow problems (Continued...)
Link High Speed Aero Dynamics Lecture 30 - Linearized flow problems (Continued...)
Link High Speed Aero Dynamics Lecture 31 - Linearized flow problems (Continued...)
Link High Speed Aero Dynamics Lecture 32 - Linearized Problems - Forces on Slender Bodies
Link High Speed Aero Dynamics Lecture 33 - Linearized Problems - Forces on Slender Bodies (Continued...)
Link High Speed Aero Dynamics Lecture 34 - Similarity Rules for High Speed Flows
Link High Speed Aero Dynamics Lecture 35 - Similarity Rules for High Speed Flows (Continued...)
Link High Speed Aero Dynamics Lecture 36 - Similarity Rules for High Speed Flows (Continued...)
Link High Speed Aero Dynamics Lecture 37 - Similarity Rules in Hypersonic Flow
Link High Speed Aero Dynamics Lecture 38 - Transonic Flow
Link High Speed Aero Dynamics Lecture 39 - Transonic Flow (Continued...)
Link High Speed Aero Dynamics Lecture 40 - Transonic Flow (Continued...)
Link Space Flight Mechanics Lecture 1 - Introduction to Space Flight Mechanics
Link Space Flight Mechanics Lecture 2 - Particle Kinematics
Link Space Flight Mechanics Lecture 3 - Particle Kinematics (Continued...)
Link Space Flight Mechanics Lecture 4 - Conic Section
Link Space Flight Mechanics Lecture 5 - Two Body Problem
Link Space Flight Mechanics Lecture 6 - Two Body Problem (Continued...1)
Link Space Flight Mechanics Lecture 7 - Two Body Problem (Continued...2)
Link Space Flight Mechanics Lecture 8 - Two Body Problem (Continued...3)
Link Space Flight Mechanics Lecture 9 - Two Body Problem (Continued...4)
Link Space Flight Mechanics Lecture 10 - Two Body Problem (Continued...5)
Link Space Flight Mechanics Lecture 11 - Two Body Problem (Continued...6)
Link Space Flight Mechanics Lecture 12 - Two Body Problem (Continued...7) & Three Body Problem
Link Space Flight Mechanics Lecture 13 - Three Body Problem (Continued...1)
Link Space Flight Mechanics Lecture 14 - Three Body Problem (Continued...2)
Link Space Flight Mechanics Lecture 15 - Three Body Problem (Continued...3)
Link Space Flight Mechanics Lecture 16 - Three Body Problem (Continued...4)
Link Space Flight Mechanics Lecture 17 - Three Body Problem (Continued...5)
Link Space Flight Mechanics Lecture 18 - Three Body Problem (Continued...6)
Link Space Flight Mechanics Lecture 19 - Three Body Problem (Continued...7)
Link Space Flight Mechanics Lecture 20 - Three Body Problem (Continued...8)
Link Space Flight Mechanics Lecture 21 - Trajectory Transfer
Link Space Flight Mechanics Lecture 22 - Trajectory Transfer (Continued...1)
Link Space Flight Mechanics Lecture 23 - Trajectory Transfer (Continued...2)
Link Space Flight Mechanics Lecture 24 - Trajectory Transfer (Continued...3)
Link Space Flight Mechanics Lecture 25 - Trajectory Transfer (Continued...4)
Link Space Flight Mechanics Lecture 26 - Trajectory Transfer (Continued...5)
Link Space Flight Mechanics Lecture 27 - Trajectory Transfer (Continued...6)
Link Space Flight Mechanics Lecture 28 - Trajectory Transfer (Continued...7)
Link Space Flight Mechanics Lecture 29 - Trajectory Transfer (Continued...8)
Link Space Flight Mechanics Lecture 30 - Trajectory Transfer (Continued...9)
Link Space Flight Mechanics Lecture 31 - Trajectory Transfer (Continued...10)
Link Space Flight Mechanics Lecture 32 - Trajectory Transfer (Continued...11) and Attitude Dynamics
Link Space Flight Mechanics Lecture 33 - Attitude Dynamics (Continued...1)
Link Space Flight Mechanics Lecture 34 - Attitude Dynamics (Continued...2)
Link Space Flight Mechanics Lecture 35 - Attitude Dynamics (Continued...3)
Link Space Flight Mechanics Lecture 36 - Attitude Dynamics (Continued...4)
Link Space Flight Mechanics Lecture 37 - Attitude Dynamics (Continued...5)
Link Space Flight Mechanics Lecture 38 - Attitude Dynamics (Continued...6)
Link Space Flight Mechanics Lecture 39 - Attitude Dynamics (Continued...7)
Link Space Flight Mechanics Lecture 40 - Attitude Dynamics (Continued...8)
Link Space Flight Mechanics Lecture 41 - Attitude Dynamics (Continued...9)
Link Space Flight Mechanics Lecture 42 - Propulsion
Link Space Flight Mechanics Lecture 43 - Propulsion (Continued...1)
Link Space Flight Mechanics Lecture 44 - Propulsion (Continued...2)
Link Space Flight Mechanics Lecture 45 - Propulsion (Continued...3)
Link Introduction to Aerodynamics Lecture 1 - Aircraft and Aerodynamic Forces and Moments
Link Introduction to Aerodynamics Lecture 2 - Aircraft and Aerodynamic Forces and Moments (Continued...)
Link Introduction to Aerodynamics Lecture 3 - Fluids and Forces in Fluids
Link Introduction to Aerodynamics Lecture 4 - Fluids and Forces in Fluids (Continued...)
Link Introduction to Aerodynamics Lecture 5 - Forces in Fluids
Link Introduction to Aerodynamics Lecture 6 - Forces in Fluids (Continued...)
Link Introduction to Aerodynamics Lecture 7 - Kinematics of fluid motion
Link Introduction to Aerodynamics Lecture 8 - Kinematics of fluid motion (Continued...)
Link Introduction to Aerodynamics Lecture 9 - Kinematics of fluid motion (Continued... )
Link Introduction to Aerodynamics Lecture 10 - Kinematics of fluid motion (Continued...)
Link Introduction to Aerodynamics Lecture 11 - Kinematics of fluid motion - Velocity with specified extension and vorticity
Link Introduction to Aerodynamics Lecture 12 - Kinematics of fluid motion - Velocity with specified extension and vorticity (Continued...)
Link Introduction to Aerodynamics Lecture 13 - Kinematics of fluid motion - Vorticity Distribution
Link Introduction to Aerodynamics Lecture 14 - Kinematics of fluid motion - Velocity without expansion and vorticity
Link Introduction to Aerodynamics Lecture 15 - Irrotational Solenoidal Flow in Multiply Connected region
Link Introduction to Aerodynamics Lecture 16 - Irrotational Solenoidal Flow in Multiply Connected region (Continued...)
Link Introduction to Aerodynamics Lecture 17 - Equations of Fluid Motion - Navier - Stokes Equation
Link Introduction to Aerodynamics Lecture 18 - Equations of Fluid Motion - Navier - Stokes Equation (Continued...)
Link Introduction to Aerodynamics Lecture 19 - Equations of Fluid Motion - Navier - Stokes Equation (Continued...)
Link Introduction to Aerodynamics Lecture 20 - Conservation of Energy and Energy Equation
Link Introduction to Aerodynamics Lecture 21 - Equations of Motions
Link Introduction to Aerodynamics Lecture 22 - Equations of Motion (Continued...)
Link Introduction to Aerodynamics Lecture 23 - Exact Solution for Simple Problems
Link Introduction to Aerodynamics Lecture 24 - Exact Solution for Simple Problems (Continued...)
Link Introduction to Aerodynamics Lecture 25 - Non-dimensional Form of the Equations and Possible Simplifications
Link Introduction to Aerodynamics Lecture 26 - High Reynolds Number Approximation
Link Introduction to Aerodynamics Lecture 27 - Conditions fior Incompressibility
Link Introduction to Aerodynamics Lecture 28 - Potential Flow
Link Introduction to Aerodynamics Lecture 29 - Potential Flow - Combination of Basic Solutions
Link Introduction to Aerodynamics Lecture 30 - Potential Flow - Combination of Basic Solutions (Continued...)
Link Introduction to Aerodynamics Lecture 31 - Potential Flow - Combination of Basic Solutions (Continued...)
Link Introduction to Aerodynamics Lecture 32 - Potential Flow - Combination of Basic Solutions (Continued...) - Lifting Cylinder
Link Introduction to Aerodynamics Lecture 33 - Conformal Transformation
Link Introduction to Aerodynamics Lecture 34 - Conformal Transformation (Continued...)
Link Introduction to Aerodynamics Lecture 35 - Zhukovsky Transformation
Link Introduction to Aerodynamics Lecture 36 - Zhukovsky Transformation (Continued...)
Link Introduction to Aerodynamics Lecture 37 - Zhukovsky Transformation - Applications
Link Introduction to Aerodynamics Lecture 38 - Zhukovsky Transformation - Applications (Continued...)
Link Introduction to Aerodynamics Lecture 39 - Zhukovsky Transformation - Applications (Continued...)
Link Introduction to Aerodynamics Lecture 40 - Transformation
Link Introduction to Aerodynamics Lecture 41 - Transformation (Continued...)
Link Introduction to Aerodynamics Lecture 42 - Boundary - Layer Theory
Link Introduction to Aerodynamics Lecture 43 - Boundary - Layer Theory (Continued...)
Link Introduction to Aerodynamics Lecture 44 - Boundary - Layer Theory (Continued...)
Link Introduction to Aerodynamics Lecture 45 - Boundary - Layer Theory (Continued...)
Link Introduction to Aerodynamics Lecture 46 - Boundary - Layer Theory (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 1 - Kinematics of Rotation
Link NOC:Satellite Attitude Dynamics and Control Lecture 2 - Kinematics of Rotation (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 3 - Kinematics of Rotation (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 4 - Kinematics of Rotation (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 5 - Kinematics of Rotation (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 6 - Kinematics of Rotation (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 7 - Rotation
Link NOC:Satellite Attitude Dynamics and Control Lecture 8 - Rotation (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 9 - Rotation (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 10 - Rotation (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 11 - Rotational Kinematics
Link NOC:Satellite Attitude Dynamics and Control Lecture 12 - Rotational Kinematics (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 13 - Rotational Kinematics (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 14 - Rotational Kinematics (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 15 - Rotational Dynamics (Rigid Body Dynamics)
Link NOC:Satellite Attitude Dynamics and Control Lecture 16 - Rotational Dynamics (Rigid Body Dynamics) (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 17 - Rotational Dynamics (Rigid Body Dynamics) (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 18 - Rigid Body Dynamics
Link NOC:Satellite Attitude Dynamics and Control Lecture 19 - Rigid Body Dynamics (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 20 - Rigid Body Dynamics (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 21 - Rigid Body Dynamics (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 22 - Rigid Body Dynamics (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 23 - Rigid Body Dynamics (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 24 - Rigid Body Dynamics (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 25 - Rigid Body Dynamics (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 26 - Stability of Torque Free Rotation
Link NOC:Satellite Attitude Dynamics and Control Lecture 27 - Stability of Torque Free Rotation (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 28 - Gravity-gradient Satellite
Link NOC:Satellite Attitude Dynamics and Control Lecture 29 - Gravity-gradient Satellite (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 30 - Gravity-gradient Satellite (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 31 - Gravity-gradient Satellite (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 32 - Gravity-gradient Satellite (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 33 - Gravity-gradient Satellite (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 34 - Gravity-gradient Satellite (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 35 - Gravity-gradient Satellite (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 36 - Gravity-gradient Satellite (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 37 - Gravity-gradient Satellite (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 38 - Spin Stabilization
Link NOC:Satellite Attitude Dynamics and Control Lecture 39 - Spin Stabilization (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 40 - Spin Stabilization (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 41 - Spin Stabilization (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 42 - Spin Stabilization (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 43 - Control Moment Gyroscope
Link NOC:Satellite Attitude Dynamics and Control Lecture 44 - Control Moment Gyroscope (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 45 - Gyroscope/Top Motion
Link NOC:Satellite Attitude Dynamics and Control Lecture 46 - Gyroscope/Top Motion (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 47 - Gyroscopic Motion
Link NOC:Satellite Attitude Dynamics and Control Lecture 48 - Gyroscopic Motion (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 49 - Reaction Wheel/Gyrostat
Link NOC:Satellite Attitude Dynamics and Control Lecture 50 - Reaction Wheel/Gyrostat (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 51 - Gyrostat
Link NOC:Satellite Attitude Dynamics and Control Lecture 52 - Gyrostat (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 53 - Gyrostat (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 54 - Gyrostat (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 55 - Control Moment Gyro
Link NOC:Satellite Attitude Dynamics and Control Lecture 56 - Control Moment Gyro (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 57 - Control Moment Gyro (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 58 - Control Moment Gyro (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 59 - Satellite Dynamics with Control Moment Gyro
Link NOC:Satellite Attitude Dynamics and Control Lecture 60 - Satellite Dynamics with Control Moment Gyro (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 61 - Satellite Dynamics with Control Moment Gyro (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 62 - Simplified Control Gyro for Satellite Attitude Control
Link NOC:Satellite Attitude Dynamics and Control Lecture 63 - Satellite Attitude Control using Magnetic Torquer
Link NOC:Satellite Attitude Dynamics and Control Lecture 64 - Satellite Attitude Control using Magnetic Torquer (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 65 - Satellite Attitude Control using Magnetic Torquer (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 66 - Satellite Attitude Control using Magnetic Torquer (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 67 - Satellite Attitude Control using Magnetic Torquer (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 68 - Satellite Attitude Control using Lorentz Force
Link NOC:Satellite Attitude Dynamics and Control Lecture 69 - Satellite Attitude Control using Thruster
Link NOC:Satellite Attitude Dynamics and Control Lecture 70 - Atmospheric Drag on the Satellite
Link NOC:Satellite Attitude Dynamics and Control Lecture 71 - Atmospheric Force and Moment on the Satellite
Link NOC:Satellite Attitude Dynamics and Control Lecture 72 - Atmospheric Force and Moment on the Satellite (Continued...)
Link NOC:Satellite Attitude Dynamics and Control Lecture 73 - Solar Radiation Force and Moment on the Satellite
Link NOC:Vibration and Structural Dynamics Lecture 1 - Introduction
Link NOC:Vibration and Structural Dynamics Lecture 2 - Undamped Free Vibration
Link NOC:Vibration and Structural Dynamics Lecture 3 - Damped Free Vibration
Link NOC:Vibration and Structural Dynamics Lecture 4 - Damped Free Vibration (Continued...)
Link NOC:Vibration and Structural Dynamics Lecture 5 - Damped Free Vibration (Continued...)
Link NOC:Vibration and Structural Dynamics Lecture 6 - Force Vibration
Link NOC:Vibration and Structural Dynamics Lecture 7 - Harmonic Loading
Link NOC:Vibration and Structural Dynamics Lecture 8 - Harmonic Loading (Continued...)
Link NOC:Vibration and Structural Dynamics Lecture 9 - Harmonic Loading (Continued...)
Link NOC:Vibration and Structural Dynamics Lecture 10 - Harmonic Loading (Continued...)
Link NOC:Vibration and Structural Dynamics Lecture 11 - Impulse Load and Arbitrary Load
Link NOC:Vibration and Structural Dynamics Lecture 12 - Impulse Load and Arbitrary Load (Continued...)
Link NOC:Vibration and Structural Dynamics Lecture 13 - MDOF, 2-Dof System
Link NOC:Vibration and Structural Dynamics Lecture 14 - Normal Mode of Vib
Link NOC:Vibration and Structural Dynamics Lecture 15 - Natural Frequency and Mode Shapes
Link NOC:Vibration and Structural Dynamics Lecture 16 - Mode Shapes of MDOF
Link NOC:Vibration and Structural Dynamics Lecture 17 - Mode Shapes and Free Vibration Response of MODF
Link NOC:Vibration and Structural Dynamics Lecture 18 - Example on MODF
Link NOC:Vibration and Structural Dynamics Lecture 19 - Example on MODF (Continued...)
Link NOC:Vibration and Structural Dynamics Lecture 20 - Modal Expansion Theorem, Generalized Coordinate
Link NOC:Vibration and Structural Dynamics Lecture 21 - Examples on Modal Analysis
Link NOC:Vibration and Structural Dynamics Lecture 22 - Damping
Link NOC:Vibration and Structural Dynamics Lecture 23 - Rigid Body Modes
Link NOC:Vibration and Structural Dynamics Lecture 24 - Numerical Time Integration
Link NOC:Vibration and Structural Dynamics Lecture 25 - Continuous System
Link NOC:Vibration and Structural Dynamics Lecture 26 - Axial Vibration of Bar
Link NOC:Vibration and Structural Dynamics Lecture 27 - Axial Vibration of Bar (Continued...)
Link NOC:Vibration and Structural Dynamics Lecture 28 - Bending Vibration in Beam
Link NOC:Vibration and Structural Dynamics Lecture 29 - Bending Vibration in Beam (Continued...)
Link NOC:Vibration and Structural Dynamics Lecture 30 - Bending Vibration in Beam (Continued...)
Link NOC:Vibration and Structural Dynamics Lecture 31 - Modal Analysis
Link NOC:Vibration and Structural Dynamics Lecture 32 - Modal Analysis (Continued...)
Link NOC:Vibration and Structural Dynamics Lecture 33 - Modal Analysis of Continuous System
Link NOC:Vibration and Structural Dynamics Lecture 34 - Modal Analysis of Continuous System (Continued...)
Link NOC:Vibration and Structural Dynamics Lecture 35 - Approximate Method
Link NOC:Vibration and Structural Dynamics Lecture 36 - Approximate Methods (Continued...)
Link NOC:Vibration and Structural Dynamics Lecture 37 - Collocation Method
Link NOC:Vibration and Structural Dynamics Lecture 38 - Analytical Methods
Link NOC:Vibration and Structural Dynamics Lecture 39 - Analytical Methods (Continued...)
Link NOC:Vibration and Structural Dynamics Lecture 40 - Analytical Methods (Continued...)
Link Acoustic Instabilities in Aerospace Propulsion Lecture 1 - Introduction to Thermoacoustic Instabilities
Link Acoustic Instabilities in Aerospace Propulsion Lecture 2 - Part I : Introduction to Acoustics Part II : Conservation Equations
Link Acoustic Instabilities in Aerospace Propulsion Lecture 3 - Wave Equation and its Solution in Time Domain
Link Acoustic Instabilities in Aerospace Propulsion Lecture 4 - Part I : Harmonic Waves Part II : Acoustic Energy Corollory
Link Acoustic Instabilities in Aerospace Propulsion Lecture 5 - Standing Waves - 1
Link Acoustic Instabilities in Aerospace Propulsion Lecture 6 - Standing Waves - 2
Link Acoustic Instabilities in Aerospace Propulsion Lecture 7 - Power Flow and Acoustic Admittance
Link Acoustic Instabilities in Aerospace Propulsion Lecture 8 - Impedance Tube Technique
Link Acoustic Instabilities in Aerospace Propulsion Lecture 9 - Admittance and Standing Waves
Link Acoustic Instabilities in Aerospace Propulsion Lecture 10 - Admittance, Stability and Attenuation
Link Acoustic Instabilities in Aerospace Propulsion Lecture 11 - Attenuation : Continued Sound Propagation Through Inhomogeneous Media - 1
Link Acoustic Instabilities in Aerospace Propulsion Lecture 12 - Sound Propagation Through Inhomogeneous Media - 2
Link Acoustic Instabilities in Aerospace Propulsion Lecture 13 - Sound Propagation Through Inhomogeneous Media - 3
Link Acoustic Instabilities in Aerospace Propulsion Lecture 14 - Multidimensional Acoustic Fields - 1
Link Acoustic Instabilities in Aerospace Propulsion Lecture 15 - Multidimensional Acoustic Fields - 2
Link Acoustic Instabilities in Aerospace Propulsion Lecture 16 - Interaction between Sound and Combustion
Link Acoustic Instabilities in Aerospace Propulsion Lecture 17 - Reference Books Derivation of Rayleigh Criteria
Link Acoustic Instabilities in Aerospace Propulsion Lecture 18 - Effect of Heat release on the Acoustic Field
Link Acoustic Instabilities in Aerospace Propulsion Lecture 19 - Modal Analysis of Thermoacoustic Instability - 1
Link Acoustic Instabilities in Aerospace Propulsion Lecture 20 - Modal Analysis of Thermoacoustic Instability - 2
Link Acoustic Instabilities in Aerospace Propulsion Lecture 21 - Active Control of Thermoacoustic Instability
Link Acoustic Instabilities in Aerospace Propulsion Lecture 22 - Toy model for a Rijke tube in Time Domain
Link Acoustic Instabilities in Aerospace Propulsion Lecture 23 - Galerkin Technique for Thermoacoustics
Link Acoustic Instabilities in Aerospace Propulsion Lecture 24 - Evolution Equation for Thermoacoustics
Link Acoustic Instabilities in Aerospace Propulsion Lecture 25 - Non linear analysis of Thermoacoustic Instability
Link Acoustic Instabilities in Aerospace Propulsion Lecture 26 - Non-normality, Transient Growth and Triggering Instability - 1
Link Acoustic Instabilities in Aerospace Propulsion Lecture 27 - Non-normality, Transient Growth and Triggering Instability - 2
Link Acoustic Instabilities in Aerospace Propulsion Lecture 28 - Non-normality, Transient Growth and Triggering Instability - 3
Link Acoustic Instabilities in Aerospace Propulsion Lecture 29 - Bifurcations
Link Acoustic Instabilities in Aerospace Propulsion Lecture 30 - Premixed Flame Acoustic Interaction - 1
Link Acoustic Instabilities in Aerospace Propulsion Lecture 31 - Premixed Flame Acoustic Interaction - 2
Link Acoustic Instabilities in Aerospace Propulsion Lecture 32 - Combustion instability due to Equivalence Ratio Fluctuation
Link Acoustic Instabilities in Aerospace Propulsion Lecture 33 - Role of Hydrodynamic Instabilities - 1
Link Acoustic Instabilities in Aerospace Propulsion Lecture 34 - Role of Hydrodynamic Instabilities - 2
Link Acoustic Instabilities in Aerospace Propulsion Lecture 35 - Role of Hydrodynamic Instabilities - 3
Link Acoustic Instabilities in Aerospace Propulsion Lecture 36 - Active Control of Thermoacoustic Instability Revisited
Link Acoustic Instabilities in Aerospace Propulsion Lecture 37 - Solid Propellant Combustion Instability - 1
Link Acoustic Instabilities in Aerospace Propulsion Lecture 38 - Solid Propellant Combustion Instability - 2
Link Acoustic Instabilities in Aerospace Propulsion Lecture 39 - Response of a Diffusion Flame to Acoustic Oscillations - 1
Link Acoustic Instabilities in Aerospace Propulsion Lecture 40 - Response of a Diffusion Flame to Acoustic Oscillations - 2
Link Acoustic Instabilities in Aerospace Propulsion Lecture 41 - Response of a Diffusion Flame to Acoustic Oscillations - 3
Link Aerospace Propulsion Lecture 1 - Introduction
Link Aerospace Propulsion Lecture 2 - Air breathing Engines - Turbojet I
Link Aerospace Propulsion Lecture 3 - Air breathing Engines - Turbojet II
Link Aerospace Propulsion Lecture 4 - Air breathing Engines - Turboprop & Turbofan
Link Aerospace Propulsion Lecture 5 - Air breathing Engines - Ramjet & Scramjet
Link Aerospace Propulsion Lecture 6 - Non-air breathing Engines I
Link Aerospace Propulsion Lecture 7 - Non-air breathing Engines II
Link Aerospace Propulsion Lecture 8 - General Performance Parameters I
Link Aerospace Propulsion Lecture 9 - General Performance Parameters II
Link Aerospace Propulsion Lecture 10 - Cycle Analysis - Ramjet
Link Aerospace Propulsion Lecture 11 - Cycle Analysis - Turbojet I
Link Aerospace Propulsion Lecture 12 - Cycle Analysis - Turbojet II
Link Aerospace Propulsion Lecture 13 - Cycle Analysis - Turbojet III
Link Aerospace Propulsion Lecture 14 - Cycle Analysis - Turbojet IV
Link Aerospace Propulsion Lecture 15 - Cycle Analysis - Turbojet V
Link Aerospace Propulsion Lecture 16 - Cycle Analysis - Turbojet VI
Link Aerospace Propulsion Lecture 17 - Cycle Analysis - Turbofan
Link Aerospace Propulsion Lecture 18 - Rocket Nozzles - 1D Analysis I
Link Aerospace Propulsion Lecture 19 - Rocket Nozzles - 1D Analysis II
Link Aerospace Propulsion Lecture 20 - Rocket Nozzles - 1D Analysis III
Link Aerospace Propulsion Lecture 21 - Rocket Nozzles - Real Effects I
Link Aerospace Propulsion Lecture 22 - Rocket Nozzles - Real Effects II
Link Aerospace Propulsion Lecture 23 - Rocket Nozzles - Thrust Vectoring
Link Aerospace Propulsion Lecture 24 - Solid Rockets - Propellants
Link Aerospace Propulsion Lecture 25 - Solid Rockets - Burn rate
Link Aerospace Propulsion Lecture 26 - Solid Rockets - Performance
Link Aerospace Propulsion Lecture 27 - Solid Rockets - Grain
Link Aerospace Propulsion Lecture 28 - Solid Rockets - Ignition, Quenching
Link Aerospace Propulsion Lecture 29 - Solid Rockets - Igniter, Depressurization
Link Aerospace Propulsion Lecture 30 - Propellant Combustion - Combustion Modelling
Link Aerospace Propulsion Lecture 31 - Liquid Rocket - Propellants
Link Aerospace Propulsion Lecture 32 - Liquid Rocket - Nozzle Cooling I
Link Aerospace Propulsion Lecture 33 - Liquid Rocket - Nozzle Cooling II
Link Aerospace Propulsion Lecture 34 - Liquid Rocket - Nozzle Cooling III
Link Aerospace Propulsion Lecture 35 - Liquid Rocket - Pressure fed system
Link Aerospace Propulsion Lecture 36 - Liquid Rocket - Pump fed system
Link Aerospace Propulsion Lecture 37 - Liquid Rocket - Pumps
Link Aerospace Propulsion Lecture 38 - Liquid Rocket - Fuel Injection
Link Aerospace Propulsion Lecture 39 - Hybrid Rocket - Basics
Link Aerospace Propulsion Lecture 40 - Hybrid Rocket Performance
Link Aerospace Propulsion Lecture 41 - Hybrid Rocket Combustion
Link Aerospace Propulsion Lecture 42 - Chemical Equilibrium Analyser - SP 273
Link Combustion Lecture 1 - Introduction
Link Combustion Lecture 2 - Chemical Reactions, Heats of Reaction and Formation
Link Combustion Lecture 3 - Sensible Enthalpy and Adiabatic Flame Temperature
Link Combustion Lecture 4 - Dissociation of Products, Role of Pressure
Link Combustion Lecture 5 - Numerical Calculation of Adiabatic Flame Temperature, Chemical Kinetics 1
Link Combustion Lecture 6 - Chemical Kinetics 2
Link Combustion Lecture 7 - Equilibrium Reactions, Global Kinetics, Order of Reaction
Link Combustion Lecture 8 - Reduced Chemistry, Steady State Approximation
Link Combustion Lecture 9 - Steady State Approximation, Partial Equilibrium Approximation
Link Combustion Lecture 10 - Partial Equilibrium Approximation, Chemical Explosions
Link Combustion Lecture 11 - Combining Chemical and Thermal Processes 1
Link Combustion Lecture 12 - Combining Chemical and Thermal Processes 2
Link Combustion Lecture 13 - Combining Chemical and Thermal Processes 3
Link Combustion Lecture 14 - Combining Chemical and Thermal Processes 4
Link Combustion Lecture 15 - Mass and Molar Diffusion, Fick's Law
Link Combustion Lecture 16 - Conservation Equations for Multi-Component Mixtures
Link Combustion Lecture 17 - Multi-Component Diffusion Equation
Link Combustion Lecture 18 - Multi-Component Momentum Equation
Link Combustion Lecture 19 - Energy Equation
Link Combustion Lecture 20 - One Dimensional Steady Flow
Link Combustion Lecture 21 - Schvab-Zeldovich Formulation 1
Link Combustion Lecture 22 - Schvab-Zeldovich Formulation 2
Link Combustion Lecture 23 - Rankine-Hugoniot Relations 1
Link Combustion Lecture 24 - Rankine-Hugoniot Relations 2
Link Combustion Lecture 25 - Rankine-Hugoniot Relations 3
Link Combustion Lecture 26 - Velocity, Temperature and Entropy Variation along Hugoniot Curve
Link Combustion Lecture 27 - Laminar Premixed Flames
Link Combustion Lecture 28 - Laminar Premixed Flames - Corrections
Link Combustion Lecture 29 - Laminar Premixed Flames - Rigorous Analysis 1
Link Combustion Lecture 30 - Laminar Premixed Flames - Rigorous Analysis 2
Link Combustion Lecture 31 - Flame Speed Dependencies, G-Equation
Link Combustion Lecture 32 - Bunsen Burner 1
Link Combustion Lecture 33 - Bunsen Burner 2
Link Combustion Lecture 34 - Flame Stabilisation 1
Link Combustion Lecture 35 - Flame Stabilisation 2
Link Combustion Lecture 36 - Ignition
Link Combustion Lecture 37 - Burke-Schumann Problem 1
Link Combustion Lecture 38 - Burke-Schumann Problem 2
Link Combustion Lecture 39 - Burke-Schumann Problem 3
Link Combustion Lecture 40 - Flame Structure
Link Combustion Lecture 41 - Mixture Fraction Formulation 1
Link Combustion Lecture 42 - Mixture Fraction Formulation 2
Link Combustion Lecture 43 - Droplet Burning 1
Link Combustion Lecture 44 - Droplet Burning 2
Link Combustion Lecture 45 - Spray Combustion 1
Link Combustion Lecture 46 - Spray Combustion 2
Link Combustion Lecture 47 - Turbulent Combustion 1
Link Combustion Lecture 48 - Turbulent Combustion 2
Link Combustion Lecture 49 - Combustion Instabilities
Link Combustion Lecture 50 - Detonations
Link Combustion Lecture 51 - Detonation Wave - ZND Structure
Link Flight Dynamics II (Stability) Lecture 1 - Earth Atmosphere, Aircraft components, Aircraft nomenclature
Link Flight Dynamics II (Stability) Lecture 2 - Basic aerodynamics
Link Flight Dynamics II (Stability) Lecture 3 - Equilibrium and stability
Link Flight Dynamics II (Stability) Lecture 4 - Static vs dynamic stability
Link Flight Dynamics II (Stability) Lecture 5 - Criterion for stability, Wing contribution
Link Flight Dynamics II (Stability) Lecture 6 - Horizontal tail contribution
Link Flight Dynamics II (Stability) Lecture 7 - Wing plus tail contribution
Link Flight Dynamics II (Stability) Lecture 8 - Static margin and CG limits
Link Flight Dynamics II (Stability) Lecture 9 - Fuselage contribution
Link Flight Dynamics II (Stability) Lecture 10 - Powerplant contribution
Link Flight Dynamics II (Stability) Lecture 11 - Power effects on neutral point
Link Flight Dynamics II (Stability) Lecture 12 - Elevator
Link Flight Dynamics II (Stability) Lecture 13 - Stick free stability, Most fwd CG location
Link Flight Dynamics II (Stability) Lecture 14 - Longitudinal stick force per 'g', Ground effect
Link Flight Dynamics II (Stability) Lecture 15 - Control requirement, Pull-up maneuver, Maneuver point
Link Flight Dynamics II (Stability) Lecture 16 - Elevator per 'g', Maneuver point
Link Flight Dynamics II (Stability) Lecture 17 - Example problems
Link Flight Dynamics II (Stability) Lecture 18 - Lateral-Directional Stability Derivatives, Fuselage/Vertical fin contribution
Link Flight Dynamics II (Stability) Lecture 19 - Roll stability, Wing sweep effect, Rudder
Link Flight Dynamics II (Stability) Lecture 20 - Dihedral effect, Various contributions
Link Flight Dynamics II (Stability) Lecture 21 - Power effects, Roll control, Aileron
Link Flight Dynamics II (Stability) Lecture 22 - Example problems
Link Flight Dynamics II (Stability) Lecture 23 - Derivation of Translational Motion Equations
Link Flight Dynamics II (Stability) Lecture 24 - Derivation of Angular Motion Equations
Link Flight Dynamics II (Stability) Lecture 25 - Description of various forces and moments
Link Flight Dynamics II (Stability) Lecture 26 - Nonlinearities and Associated Aircraft Behavior
Link Flight Dynamics II (Stability) Lecture 27 - Small perturbation method, Linearization of equations
Link Flight Dynamics II (Stability) Lecture 28 - Aerodynamic force and Moment Derivatives
Link Flight Dynamics II (Stability) Lecture 29 - Contribution of Aircraft components to Aerodynamic Derivatives
Link Flight Dynamics II (Stability) Lecture 30 - Linear Model and Aircraft Dynamics Modes
Link Flight Dynamics II (Stability) Lecture 31 - Short Period, Phugoid (Lanchester's formulation)
Link Flight Dynamics II (Stability) Lecture 32 - Short period mode approximation
Link Flight Dynamics II (Stability) Lecture 33 - Flying and Handling Qualities, Cooper Harper Scale
Link Flight Dynamics II (Stability) Lecture 34 - Pure rolling motion, Pure yawing motion,Spiral approximation
Link Flight Dynamics II (Stability) Lecture 35 - Spiral, Roll, Dutch roll Mode approximations
Link Flight Dynamics II (Stability) Lecture 36 - Lateral directional Flying Qualities, Routh's Stability criterion
Link Flight Dynamics II (Stability) Lecture 37 - Stability in Steady Roll Maneuver
Link Flight Dynamics II (Stability) Lecture 38 - Wind Effect on Aircraft Pure Plunging Motion
Link Flight Dynamics II (Stability) Lecture 39 - Wind Profiles, Longitudinal Mode Response to Wind Shear
Link Flight Dynamics II (Stability) Lecture 40 - Stability control/Augmentation
Link Flight Dynamics II (Stability) Lecture 41 - Autopilots, Automatic Landing System
Link Gas Dynamics Lecture 1
Link Gas Dynamics Lecture 2
Link Gas Dynamics Lecture 3
Link Gas Dynamics Lecture 4
Link Gas Dynamics Lecture 5
Link Gas Dynamics Lecture 6
Link Gas Dynamics Lecture 7
Link Gas Dynamics Lecture 8
Link Gas Dynamics Lecture 9
Link Gas Dynamics Lecture 10
Link Gas Dynamics Lecture 11
Link Gas Dynamics Lecture 12
Link Gas Dynamics Lecture 13
Link Gas Dynamics Lecture 14
Link Gas Dynamics Lecture 15
Link Gas Dynamics Lecture 16
Link Gas Dynamics Lecture 17
Link Gas Dynamics Lecture 18
Link Gas Dynamics Lecture 19
Link Gas Dynamics Lecture 20
Link Gas Dynamics Lecture 21
Link Gas Dynamics Lecture 22
Link Gas Dynamics Lecture 23
Link Gas Dynamics Lecture 24
Link Gas Dynamics Lecture 25
Link Gas Dynamics Lecture 26
Link Gas Dynamics Lecture 27
Link Gas Dynamics Lecture 28
Link Gas Dynamics Lecture 29
Link Gas Dynamics Lecture 30
Link Gas Dynamics Lecture 31
Link Gas Dynamics Lecture 32
Link Gas Dynamics Lecture 33
Link Gas Dynamics Lecture 34
Link Gas Dynamics Lecture 35
Link Gas Dynamics Lecture 36
Link Gas Dynamics Lecture 37
Link Gas Dynamics Lecture 38
Link Gas Dynamics Lecture 39
Link Gas Dynamics Lecture 40
Link Gas Dynamics Lecture 41
Link Gas Dynamics Lecture 42
Link Gas Dynamics Lecture 43
Link Gas Dynamics Lecture 44
Link Gas Dynamics Lecture 45
Link Gas Dynamics Lecture 46
Link Gas Dynamics Lecture 47
Link Gas Dynamics Lecture 48
Link Gas Dynamics Lecture 49
Link Gas Dynamics Lecture 50
Link Gas Dynamics Lecture 51
Link Gas Dynamics Lecture 52
Link Gas Dynamics Lecture 53
Link Gas Dynamics Lecture 54
Link Introduction to CFD Lecture 1 - Introduction, Why and how we need computers
Link Introduction to CFD Lecture 2 - Representing Arrays and functions on computers
Link Introduction to CFD Lecture 3 - Representing functions - Box functions
Link Introduction to CFD Lecture 4 - Representing functions - Polynomials and Hat functions
Link Introduction to CFD Lecture 5 - Hat functions, Quadratic and Cubic representations
Link Introduction to CFD Lecture 6 - Demo - Hat functions, Aliasing
Link Introduction to CFD Lecture 7 - Representing Derivatives - finite differences
Link Introduction to CFD Lecture 8 - Finite differences, Laplace equation
Link Introduction to CFD Lecture 9 - Laplace equation - Jacobi iterations
Link Introduction to CFD Lecture 10 - Laplace equation - Iteration matrices
Link Introduction to CFD Lecture 11 - Laplace equation - convergence rate
Link Introduction to CFD Lecture 12 - Laplace equation - convergence rate Continued
Link Introduction to CFD Lecture 13 - Demo - representation error, Laplace equation
Link Introduction to CFD Lecture 14 - Demo - Laplace equation, SOR
Link Introduction to CFD Lecture 15 - Laplace equation - final, Linear Wave equation
Link Introduction to CFD Lecture 16 - Linear wave equation - Closed form and numerical solution, stability analysis
Link Introduction to CFD Lecture 17 - Generating a stable scheme and Boundary conditions
Link Introduction to CFD Lecture 18 - Modified equation
Link Introduction to CFD Lecture 19 - Effect of higher derivative terms on Wave equation
Link Introduction to CFD Lecture 20 - Artificial dissipation, upwinding, generating schemes
Link Introduction to CFD Lecture 21 - Demo - Modified equation, Wave equation
Link Introduction to CFD Lecture 22 - Demo - Wave equation / Heat Equation
Link Introduction to CFD Lecture 23 - Quasi-linear One-Dimensional. wave equation
Link Introduction to CFD Lecture 24 - Shock speed, stability analysis, Derive Governing equations
Link Introduction to CFD Lecture 25 - One-Dimensional Euler equations - Attempts to decouple
Link Introduction to CFD Lecture 26 - Derive Eigenvectors, Writing Programs
Link Introduction to CFD Lecture 27 - Applying Boundary conditions
Link Introduction to CFD Lecture 28 - Implicit Boundary conditions
Link Introduction to CFD Lecture 29 - Flux Vector Splitting, setup froms averaging
Link Introduction to CFD Lecture 30 - Roes averaging
Link Introduction to CFD Lecture 31 - Demo - One Dimensional flow
Link Introduction to CFD Lecture 32 - Accelerating convergence - Preconditioning, dual time stepping
Link Introduction to CFD Lecture 33 - Accelerating convergence - Intro to Multigrid method
Link Introduction to CFD Lecture 34 - Multigrid method
Link Introduction to CFD Lecture 35 - Multigrid method - final, Parallel Computing
Link Introduction to CFD Lecture 36 - Calculus of Variations - Three Lemmas and a Theorem
Link Introduction to CFD Lecture 37 - Calculus of Variations - Application to Laplace Equation
Link Introduction to CFD Lecture 38 - Calculus of Variations - Final and Random Walk
Link Introduction to CFD Lecture 39 - Overview and Recap of the course
Link Advanced Control System Design for Aerospace Vehicles Lecture 1 - Introduction and Motivation for Advanced Control Design
Link Advanced Control System Design for Aerospace Vehicles Lecture 2 - Classical Control Overview - I
Link Advanced Control System Design for Aerospace Vehicles Lecture 3 - Classical Control Overview - II
Link Advanced Control System Design for Aerospace Vehicles Lecture 4 - Classical Control Overview - III
Link Advanced Control System Design for Aerospace Vehicles Lecture 5 - Classical Control Overview - IV
Link Advanced Control System Design for Aerospace Vehicles Lecture 6 - Basic Principles of Atmospheric Flight Mechanics
Link Advanced Control System Design for Aerospace Vehicles Lecture 7 - Overview of Flight Dynamics - I
Link Advanced Control System Design for Aerospace Vehicles Lecture 8 - Overview of Flight Dynamics - II
Link Advanced Control System Design for Aerospace Vehicles Lecture 9 - Representation of Dynamical Systems - I
Link Advanced Control System Design for Aerospace Vehicles Lecture 10 - Representation of Dynamical Systems - II
Link Advanced Control System Design for Aerospace Vehicles Lecture 11 - Representation of Dynamical Systems - III
Link Advanced Control System Design for Aerospace Vehicles Lecture 12 - Review of Matrix Theory - I
Link Advanced Control System Design for Aerospace Vehicles Lecture 13 - Review of Matrix Theory - II
Link Advanced Control System Design for Aerospace Vehicles Lecture 14 - Review of Matrix Theory - III
Link Advanced Control System Design for Aerospace Vehicles Lecture 15 - Review of Numerical Methods
Link Advanced Control System Design for Aerospace Vehicles Lecture 16 - Linearization of Nonlinear Systems
Link Advanced Control System Design for Aerospace Vehicles Lecture 17 - First and Second Order Linear Differential Equations
Link Advanced Control System Design for Aerospace Vehicles Lecture 18 - Time Response of Linear Dynamical Systems
Link Advanced Control System Design for Aerospace Vehicles Lecture 19 - Stability of Linear Time Invariant Systems
Link Advanced Control System Design for Aerospace Vehicles Lecture 20 - Controllability and Observability of linear Time Invariant Systems
Link Advanced Control System Design for Aerospace Vehicles Lecture 21 - Pole Placement Control Design
Link Advanced Control System Design for Aerospace Vehicles Lecture 22 - Pole Placement Observer Design
Link Advanced Control System Design for Aerospace Vehicles Lecture 23 - Static Optimization: An Overview
Link Advanced Control System Design for Aerospace Vehicles Lecture 24 - Calculus of Variations: An Overview
Link Advanced Control System Design for Aerospace Vehicles Lecture 25 - Optimal Control Formulation using Calculus of Variations
Link Advanced Control System Design for Aerospace Vehicles Lecture 26 - Classical Numerical Methods for Optimal Control
Link Advanced Control System Design for Aerospace Vehicles Lecture 27 - Linear Quadratic Regulator (LQR) Design - 1
Link Advanced Control System Design for Aerospace Vehicles Lecture 28 - Linear Quadratic Regulator (LQR) Design - 2
Link Advanced Control System Design for Aerospace Vehicles Lecture 29 - Linear Control Design Techniques in Aircraft Control - I
Link Advanced Control System Design for Aerospace Vehicles Lecture 30 - Linear Control Design Techniques in Aircraft Control - II
Link Advanced Control System Design for Aerospace Vehicles Lecture 31 - Lyapunov Theory - I
Link Advanced Control System Design for Aerospace Vehicles Lecture 32 - Lyapunov Theory - II
Link Advanced Control System Design for Aerospace Vehicles Lecture 33 - Constructions of Lyapunov Functions
Link Advanced Control System Design for Aerospace Vehicles Lecture 34 - Dynamic Inversion - I
Link Advanced Control System Design for Aerospace Vehicles Lecture 35 - Dynamic Inversion - II
Link Advanced Control System Design for Aerospace Vehicles Lecture 36 - Neuro-Adaptive Design - I
Link Advanced Control System Design for Aerospace Vehicles Lecture 37 - Neuro-Adaptive Design - II
Link Advanced Control System Design for Aerospace Vehicles Lecture 38 - Neuro-Adaptive Design for Flight Control
Link Advanced Control System Design for Aerospace Vehicles Lecture 39 - Integrator Back-Stepping; Linear Quadratic (lQ) Observer
Link Advanced Control System Design for Aerospace Vehicles Lecture 40 - An Overview of Kalman Filter Theory
Link Optimal Control, Guidance and Estimation Lecture 1 - Introduction, Motivation and Overview
Link Optimal Control, Guidance and Estimation Lecture 2 - Overview of SS Approach and Matrix Theory
Link Optimal Control, Guidance and Estimation Lecture 3 - Review of Numerical Methods
Link Optimal Control, Guidance and Estimation Lecture 4 - An Overview of Static Optimization - I
Link Optimal Control, Guidance and Estimation Lecture 5 - An Overview of Static Optimization - II
Link Optimal Control, Guidance and Estimation Lecture 6 - Review of Calculus of Variations - I
Link Optimal Control, Guidance and Estimation Lecture 7 - Review of Calculus of Variations - II
Link Optimal Control, Guidance and Estimation Lecture 8 - Optimal Control Formulation Using Calculus of Variations
Link Optimal Control, Guidance and Estimation Lecture 9 - Classical Numerical Methods to Solve Optimal Control Problems
Link Optimal Control, Guidance and Estimation Lecture 10 - Linear Quadratic Regulator (LQR) - I
Link Optimal Control, Guidance and Estimation Lecture 11 - Linear Quadratic Regulator (LQR) - II
Link Optimal Control, Guidance and Estimation Lecture 12 - Linear Quadratic Regulator (LQR) - III
Link Optimal Control, Guidance and Estimation Lecture 13 - Linear Quadratic Regulator (LQR) - III
Link Optimal Control, Guidance and Estimation Lecture 14 - Discrete-time Optimal Control
Link Optimal Control, Guidance and Estimation Lecture 15 - Overview of Flight Dynamics - I
Link Optimal Control, Guidance and Estimation Lecture 16 - Overview of Flight Dynamics - II
Link Optimal Control, Guidance and Estimation Lecture 17 - Overview of Flight Dynamics - III
Link Optimal Control, Guidance and Estimation Lecture 18 - Linear Optimal Missile Guidance using LQR
Link Optimal Control, Guidance and Estimation Lecture 19 - SDRE and θ - D Designs
Link Optimal Control, Guidance and Estimation Lecture 20 - Dynamic Programming
Link Optimal Control, Guidance and Estimation Lecture 21 - Approximate Dynamic Programming (ADP), Adaptive Critic (AC) and Single Network Adaptive Critic (SNAC) Design
Link Optimal Control, Guidance and Estimation Lecture 22 - Transcription Method to Solve Optimal Control Problems
Link Optimal Control, Guidance and Estimation Lecture 23 - Model Predictive Static Programming (MPSP) and Optimal Guidance of Aerospace Vehicles
Link Optimal Control, Guidance and Estimation Lecture 24 - MPSP for Optimal Missile Guidance
Link Optimal Control, Guidance and Estimation Lecture 25 - Model Predictive Spread Control (MPSC) and Generalized MPSP (G-MPSP) Designs
Link Optimal Control, Guidance and Estimation Lecture 26 - Linear Quadratic Observer & An Overview of State Estimation
Link Optimal Control, Guidance and Estimation Lecture 27 - Review of Probability Theory and Random Variables
Link Optimal Control, Guidance and Estimation Lecture 28 - Kalman Filter Design - I
Link Optimal Control, Guidance and Estimation Lecture 29 - Kalman Filter Design - II
Link Optimal Control, Guidance and Estimation Lecture 30 - Kalman Filter Design - III
Link Optimal Control, Guidance and Estimation Lecture 31 - Integrated Estimation, Guidance & Control - I
Link Optimal Control, Guidance and Estimation Lecture 32 - Integrated Estimation, Guidance & Control - II
Link Optimal Control, Guidance and Estimation Lecture 33 - LQG Design; Neighboring Optimal Control & Sufficiency Condition
Link Optimal Control, Guidance and Estimation Lecture 34 - Constrained Optimal Control - I
Link Optimal Control, Guidance and Estimation Lecture 35 - Constrained Optimal Control - II
Link Optimal Control, Guidance and Estimation Lecture 36 - Constrained Optimal Control - III
Link Optimal Control, Guidance and Estimation Lecture 37 - Optimal Control of Distributed Parameter Systems - I
Link Optimal Control, Guidance and Estimation Lecture 38 - Optimal Control of Distributed Parameter Systems - II
Link Optimal Control, Guidance and Estimation Lecture 39 - Take Home Material: Summary - I
Link Optimal Control, Guidance and Estimation Lecture 40 - Take Home Material: Summary - II
Link NOC:Combustion in Air Breathing Aero Engines Lecture 1 - Introduction
Link NOC:Combustion in Air Breathing Aero Engines Lecture 2 - Chemical Equilibrium - I
Link NOC:Combustion in Air Breathing Aero Engines Lecture 3 - Chemical Equilibrium - II
Link NOC:Combustion in Air Breathing Aero Engines Lecture 4 - Chemical Kinetics - I
Link NOC:Combustion in Air Breathing Aero Engines Lecture 5 - Chemical Kinetics - II
Link NOC:Combustion in Air Breathing Aero Engines Lecture 6 - Chemical Kinetics - III
Link NOC:Combustion in Air Breathing Aero Engines Lecture 7 - Chemical Kinetics - IV
Link NOC:Combustion in Air Breathing Aero Engines Lecture 8 - Oxidation Mechanism of Fuels - I
Link NOC:Combustion in Air Breathing Aero Engines Lecture 9 - Oxidation Mechanism of Fuels - II
Link NOC:Combustion in Air Breathing Aero Engines Lecture 10 - Oxidation Mechanism of Fuels - III
Link NOC:Combustion in Air Breathing Aero Engines Lecture 11 - Oxidation Mechanism of Fuels - IV
Link NOC:Combustion in Air Breathing Aero Engines Lecture 12 - Transport Phenomena
Link NOC:Combustion in Air Breathing Aero Engines Lecture 13 - Governing Equations - I
Link NOC:Combustion in Air Breathing Aero Engines Lecture 14 - Governing Equations - II
Link NOC:Combustion in Air Breathing Aero Engines Lecture 15 - Governing Equations - III
Link NOC:Combustion in Air Breathing Aero Engines Lecture 16 - Governing Equations - IV
Link NOC:Combustion in Air Breathing Aero Engines Lecture 17 - Governing Equations - V
Link NOC:Combustion in Air Breathing Aero Engines Lecture 18 - Laminar Non-Premixed Flames - I
Link NOC:Combustion in Air Breathing Aero Engines Lecture 19 - Laminar Non-Premixed Flames - II
Link NOC:Combustion in Air Breathing Aero Engines Lecture 20 - Laminar Non-Premixed Flames - III
Link NOC:Combustion in Air Breathing Aero Engines Lecture 21 - Laminar Non-Premixed Flames - IV
Link NOC:Combustion in Air Breathing Aero Engines Lecture 22 - Laminar Premixed Flames - I
Link NOC:Combustion in Air Breathing Aero Engines Lecture 23 - Laminar Premixed Flames - II
Link NOC:Combustion in Air Breathing Aero Engines Lecture 24 - Laminar Premixed Flames - III
Link NOC:Combustion in Air Breathing Aero Engines Lecture 25 - Laminar Premixed Flames - IV
Link NOC:Combustion in Air Breathing Aero Engines Lecture 26 - Laminar Premixed Flames - V
Link NOC:Combustion in Air Breathing Aero Engines Lecture 27 - Laminar Premixed Flames - VI
Link NOC:Combustion in Air Breathing Aero Engines Lecture 28 - Laminar Premixed Flames - VII
Link NOC:Combustion in Air Breathing Aero Engines Lecture 29 - Limit Phenomena - I
Link NOC:Combustion in Air Breathing Aero Engines Lecture 30 - Limit Phenomena - II
Link NOC:Combustion in Air Breathing Aero Engines Lecture 31 - Introduction to turbulent flows
Link NOC:Combustion in Air Breathing Aero Engines Lecture 32 - Non-reacting turbulent flows - I
Link NOC:Combustion in Air Breathing Aero Engines Lecture 33 - Non-reacting turbulent flows - II
Link NOC:Combustion in Air Breathing Aero Engines Lecture 34 - Reacting turbulent flows - III
Link NOC:Combustion in Air Breathing Aero Engines Lecture 35 - Reacting turbulent flows - IV
Link NOC:Combustion in Air Breathing Aero Engines Lecture 36 - Reacting turbulent flows - V
Link NOC:Combustion in Air Breathing Aero Engines Lecture 37 - Reacting turbulent flows - VI
Link NOC:Combustion in Air Breathing Aero Engines Lecture 38 - Reacting turbulent flows - VII
Link NOC:Combustion in Air Breathing Aero Engines Lecture 39 - Turbulent Non-Premixed Flames - I
Link NOC:Combustion in Air Breathing Aero Engines Lecture 40 - Turbulent Non-Premixed Flames - II
Link NOC:Combustion in Air Breathing Aero Engines Lecture 41 - Turbulent Non-Premixed Flames - III
Link NOC:Combustion in Air Breathing Aero Engines Lecture 42 - Turbulent Premixed Flames - I
Link NOC:Combustion in Air Breathing Aero Engines Lecture 43 - Turbulent Premixed Flames - II
Link NOC:Combustion in Air Breathing Aero Engines Lecture 44 - Turbulent Premixed Flames - III
Link NOC:Combustion in Air Breathing Aero Engines Lecture 45 - Turbulent Premixed Flames - IV
Link NOC:Combustion in Air Breathing Aero Engines Lecture 46 - Turbulent Premixed Flames - V
Link NOC:Combustion in Air Breathing Aero Engines Lecture 47 - Turbulent Premixed Flames - VI
Link NOC:Combustion in Air Breathing Aero Engines Lecture 48 - Aero Gas Turbine Combustors - I
Link NOC:Combustion in Air Breathing Aero Engines Lecture 49 - Aero Gas Turbine Combustors - II
Link NOC:Combustion in Air Breathing Aero Engines Lecture 50 - Aero Gas Turbine Combustors - III
Link NOC:Combustion in Air Breathing Aero Engines Lecture 51 - Aero Gas Turbine Combustors - IV
Link NOC:Combustion in Air Breathing Aero Engines Lecture 52 - Aero Gas Turbine Combustors - V
Link NOC:Combustion in Air Breathing Aero Engines Lecture 53 - Flame Stabilization and Blow off - I
Link NOC:Combustion in Air Breathing Aero Engines Lecture 54 - Flame Stabilization and Blow off - II
Link NOC:Combustion in Air Breathing Aero Engines Lecture 55 - Flame Stabilization and Blow off - III
Link NOC:Combustion in Air Breathing Aero Engines Lecture 56 - Flame Stabilization and Blow off - IV
Link NOC:Combustion in Air Breathing Aero Engines Lecture 57 - Flame Stabilization and Blow off - V
Link NOC:Combustion in Air Breathing Aero Engines Lecture 58 - Combustion in Scramjets - I
Link NOC:Combustion in Air Breathing Aero Engines Lecture 59 - Combustion in Scramjets - II
Link NOC:Combustion in Air Breathing Aero Engines Lecture 60 - Combustion in Scramjets - III
Link NOC:Combustion in Air Breathing Aero Engines Lecture 61 - Combustion in Scramjets - IV
Link NOC:Combustion in Air Breathing Aero Engines Lecture 62 - Review
Link Biomathematics Lecture 1 - Introduction
Link Biomathematics Lecture 2 - Graphs and functions - I
Link Biomathematics Lecture 3 - Graphs and functions - II
Link Biomathematics Lecture 4 - Functions and derivatives
Link Biomathematics Lecture 5 - Calculation of derivatives
Link Biomathematics Lecture 6 - Differentiation and its application in Biology - I
Link Biomathematics Lecture 7 - Differentiation and its application in Biology - II
Link Biomathematics Lecture 8 - Differentiation and its application in Biology - III
Link Biomathematics Lecture 9 - Differentiation and its application in Biology - IV
Link Biomathematics Lecture 10 - Integration - I
Link Biomathematics Lecture 11 - Integration - II
Link Biomathematics Lecture 12 - Differential equations - I
Link Biomathematics Lecture 13 - Differential equations - II
Link Biomathematics Lecture 14 - Vectors - I
Link Biomathematics Lecture 15 - Vectors - II
Link Biomathematics Lecture 16 - Vectors - III
Link Biomathematics Lecture 17 - Nernst equation
Link Biomathematics Lecture 18 - Diffusion - I : Diffusion equation
Link Biomathematics Lecture 19 - Diffusion - II : Mean-square displacement
Link Biomathematics Lecture 20 - Diffusion - III : Einstein’s relation
Link Biomathematics Lecture 21 - Statistics : Mean and variance
Link Biomathematics Lecture 22 - Statistics : Distribution function
Link Biomathematics Lecture 23 - Understanding Normal distribution
Link Biomathematics Lecture 24 - Fitting a function to experimental data
Link Biomathematics Lecture 25 - Size of a flexible protein: Simplest model
Link Biomathematics Lecture 26 - Uniform and Poisson distributions; Knudson’s analysis
Link Biomathematics Lecture 27 - Fourier Series - I
Link Biomathematics Lecture 28 - Fourier Series - II
Link Biomathematics Lecture 29 - Fourier transform
Link Biomathematics Lecture 30 - Master equation: Polymerization dynamics, Molecular motor motion
Link Biomathematics Lecture 31 - Evolution: Simplest model
Link Biomathematics Lecture 32 - Tutorial - I
Link Biomathematics Lecture 33 - Tutorial - II
Link Biomathematics Lecture 34 - Temperature, Energy and Entropy
Link Biomathematics Lecture 35 - Partition function, Free energy
Link Biomathematics Lecture 36 - Bending fluctuations of DNA and spring-like proteins
Link Biomathematics Lecture 37 - Force-extension and looping of DNA
Link Biomathematics Lecture 38 - Thermodynamics of protein organization along DNA
Link Biomathematics Lecture 39 - Learning mathematics with the help of a computer
Link Proteomics: Principles and Techniques Lecture 1
Link Proteomics: Principles and Techniques Lecture 2
Link Proteomics: Principles and Techniques Lecture 3
Link Proteomics: Principles and Techniques Lecture 4
Link Proteomics: Principles and Techniques Lecture 5
Link Proteomics: Principles and Techniques Lecture 6
Link Proteomics: Principles and Techniques Lecture 7
Link Proteomics: Principles and Techniques Lecture 8
Link Proteomics: Principles and Techniques Lecture 9
Link Proteomics: Principles and Techniques Lecture 10
Link Proteomics: Principles and Techniques Lecture 11
Link Proteomics: Principles and Techniques Lecture 12
Link Proteomics: Principles and Techniques Lecture 13
Link Proteomics: Principles and Techniques Lecture 14
Link Proteomics: Principles and Techniques Lecture 15
Link Proteomics: Principles and Techniques Lecture 16
Link Proteomics: Principles and Techniques Lecture 17
Link Proteomics: Principles and Techniques Lecture 18
Link Proteomics: Principles and Techniques Lecture 19
Link Proteomics: Principles and Techniques Lecture 20
Link Proteomics: Principles and Techniques Lecture 21
Link Proteomics: Principles and Techniques Lecture 22
Link Proteomics: Principles and Techniques Lecture 23
Link Proteomics: Principles and Techniques Lecture 24
Link Proteomics: Principles and Techniques Lecture 25
Link Proteomics: Principles and Techniques Lecture 26
Link Proteomics: Principles and Techniques Lecture 27
Link Proteomics: Principles and Techniques Lecture 28
Link Proteomics: Principles and Techniques Lecture 29
Link Proteomics: Principles and Techniques Lecture 30
Link Proteomics: Principles and Techniques Lecture 31
Link Proteomics: Principles and Techniques Lecture 32
Link Proteomics: Principles and Techniques Lecture 33
Link Proteomics: Principles and Techniques Lecture 34
Link Proteomics: Principles and Techniques Lecture 35
Link Proteomics: Principles and Techniques Lecture 36
Link Proteomics: Principles and Techniques Lecture 37
Link Proteomics: Principles and Techniques Lecture 38
Link Proteomics: Principles and Techniques Lecture 39
Link Proteomics: Principles and Techniques Lecture 40
Link NOC:Proteins and Gel-Based Proteomics Lecture 0 - Proteins and Gel-Based Proteomics; Course Introduction
Link NOC:Proteins and Gel-Based Proteomics Lecture 1 - Introduction to amino acids
Link NOC:Proteins and Gel-Based Proteomics Lecture 2 - Introduction to proteins
Link NOC:Proteins and Gel-Based Proteomics Lecture 3 - Protein folding & misfolding
Link NOC:Proteins and Gel-Based Proteomics Lecture 4 - Protein purification techniques
Link NOC:Proteins and Gel-Based Proteomics Lecture 5 - Introduction to proteomics
Link NOC:Proteins and Gel-Based Proteomics Lecture 6 - Systems biology and proteomics
Link NOC:Proteins and Gel-Based Proteomics Lecture 7 - Sample preparation and pre-analytical factors
Link NOC:Proteins and Gel-Based Proteomics Lecture 8 - Sample preparation: Pre-analytical factors (Continued...)
Link NOC:Proteins and Gel-Based Proteomics Lecture 9 - Sample preparation: Protein extraction and quantification
Link NOC:Proteins and Gel-Based Proteomics Lecture 10 - One-dimensional electrophoresis
Link NOC:Proteins and Gel-Based Proteomics Lecture 11 - 2-DE: Rehydration, IEF & Equilibration
Link NOC:Proteins and Gel-Based Proteomics Lecture 12 - 2-DE: Second dimension, staining & destaining
Link NOC:Proteins and Gel-Based Proteomics Lecture 13 - 2-DE: Gel analysis
Link NOC:Proteins and Gel-Based Proteomics Lecture 14 - 2-DE: Applications
Link NOC:Proteins and Gel-Based Proteomics Lecture 15 - 2-DE: Applications (Continued...) & Challenges
Link NOC:Proteins and Gel-Based Proteomics Lecture 16 - 2D-DIGE: Basics
Link NOC:Proteins and Gel-Based Proteomics Lecture 17 - 2D-DIGE: Data analysis
Link NOC:Proteins and Gel-Based Proteomics Lecture 18 - 2D-DIGE: Applications
Link NOC:Proteins and Gel-Based Proteomics Lecture 19 - Protein identification using MALDI-TOF/TOF
Link NOC:Proteins and Gel-Based Proteomics Lecture 20 - Proteomics experiment data analysis & challenges
Link NOC:Mass spectrometry based proteomics Lecture 0 - Introductory lecture
Link NOC:Mass spectrometry based proteomics Lecture 1 - Introduction to proteomics
Link NOC:Mass spectrometry based proteomics Lecture 2 - Proteomics and sample preparation
Link NOC:Mass spectrometry based proteomics Lecture 3 - Bacterial protein extraction
Link NOC:Mass spectrometry based proteomics Lecture 4 - In-gel digestion
Link NOC:Mass spectrometry based proteomics Lecture 5 - Fundamentals of mass spectrometry
Link NOC:Mass spectrometry based proteomics Lecture 6 - Chromatography technologies
Link NOC:Mass spectrometry based proteomics Lecture 7 - Liquid chromatography
Link NOC:Mass spectrometry based proteomics Lecture 8 - Mass spectrometry: Ionization sources
Link NOC:Mass spectrometry based proteomics Lecture 9 - Mass spectrometry: Mass analyzers
Link NOC:Mass spectrometry based proteomics Lecture 10 - MALDI sample preparation and analysis
Link NOC:Mass spectrometry based proteomics Lecture 11 - Introduction to quantitative proteomics
Link NOC:Mass spectrometry based proteomics Lecture 12 - Hybrid mass spectrometry configurations
Link NOC:Mass spectrometry based proteomics Lecture 13 - SILAC: In Vivo labeling
Link NOC:Mass spectrometry based proteomics Lecture 14 - iTRAQ: In Vitro labeling
Link NOC:Mass spectrometry based proteomics Lecture 15 - TMT: In vitro labeling
Link NOC:Mass spectrometry based proteomics Lecture 16 - Quantitative proteomics data analysis
Link NOC:Mass spectrometry based proteomics Lecture 17 - Proteomics and Systems biology I
Link NOC:Mass spectrometry based proteomics Lecture 18 - Proteomics & Systems biology II
Link NOC:Mass spectrometry based proteomics Lecture 19 - Proteomics applications
Link NOC:Mass spectrometry based proteomics Lecture 20 - Advances and challenges in proteomics
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 1 - Introduction to Interactomics
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 2 - An overview of label-free technologies
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 3 - An overview of surface plasmon resonance (SPR)
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 4 - An overview of surface plasmon resonance imaging (SPRi)
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 5 - Basics of SPR: Surface chemistry
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 6 - Basics of SPR: Experimental design
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 7 - Protein immobilization for protein-protein interaction studies
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 8 - Protein-protein interaction study: Binding analysis
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 9 - Protein-protein interaction study: Kinetic analysis
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 10 - Protein-small molecule interaction study: Immobilization and binding analysis
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 11 - Protein-small molecule interaction study: Kinetic analysis
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 12 - SPR: Interactive Session - I
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 13 - SPR: Interactive Session - II
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 14 - An overview of ellipsometry and interferometry techniques
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 15 - An introduction to BioLayer Interferometry (BLI) and its applications in protein research
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 16 - Kinetic analysis of protein-protein interaction using BLI
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 17 - Label-free quantification of proteins using BLI
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 18 - Diffraction-based biosensors - I
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 19 - Diffraction-based biosensors - II
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 20 - Nanotechniques in proteomics - I
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 21 - Nanotechniques in proteomics - II
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 22 - High throughputplatforms of interactomics: Protein arrays
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 23 - Conventional label based detection techniques for Protein microarrays
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 24 - Novel detection techniques for Protein microarrays
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 25 - Recombinational cloning and its application for Protein microarrays
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 26 - An introduction to Cell-free protein synthesis
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 27 - Cell-free synthesis based protein microarrays: PISA and NAPPA
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 28 - Cell-free synthesis based protein microarrays: MIST, DAPA and Halotag Arrays
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 29 - Digging deeper into NAPPA: Basic Workflow
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 30 - Digging deeper into NAPPA: Surface Chemistry, Printing and Assessment
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 31 - Application of cell free expression protein microarrays in biomarker discovery
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 32 - Application of cell free expression protein microarrays in immunological studies
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 33 - Basics of microarray image scanning
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 34 - Software for Image scanning and data processing
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 35 - Microarray Data Analysis - Part I
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 36 - Microarray Data Analysis - Part II
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 37 - Application of protein microarray in biomarker discovery - I
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 38 - Application of protein microarray in biomarker discovery - II
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 39 - Systems biology and networks
Link NOC:Interactomics: Protein Arrays and Label-free Biosensors Lecture 40 - Challenges in proteomics
Link NOC:Introduction to Proteomics Lecture 1 - Introduction to amino acids
Link NOC:Introduction to Proteomics Lecture 2 - Introduction to proteins
Link NOC:Introduction to Proteomics Lecture 3 - Protein folding and misfolding
Link NOC:Introduction to Proteomics Lecture 4 - Introduction to proteomics
Link NOC:Introduction to Proteomics Lecture 5 - Lab session – Protein-protein interaction using label-free biosensors
Link NOC:Introduction to Proteomics Lecture 6 - Sample preparation and pre-analytical factors
Link NOC:Introduction to Proteomics Lecture 7 - Sample preparation: Pre-analytical factors (Continued...)
Link NOC:Introduction to Proteomics Lecture 8 - Sample preparation: Protein extraction and quantification
Link NOC:Introduction to Proteomics Lecture 9 - One-dimensional electrophoresis
Link NOC:Introduction to Proteomics Lecture 10 - Introduction to 2-DE
Link NOC:Introduction to Proteomics Lecture 11 - 2-DE: Second dimension, staining and destaining
Link NOC:Introduction to Proteomics Lecture 12 - 2-DE: Gel analysis
Link NOC:Introduction to Proteomics Lecture 13 - 2-DE Applications
Link NOC:Introduction to Proteomics Lecture 14 - 2-DE Applications (Continued...) and Challenges
Link NOC:Introduction to Proteomics Lecture 15 - Lab session - Protein/peptide pre-fractionation using OFFGEL FRACTIONATOR and data analysis
Link NOC:Introduction to Proteomics Lecture 16 - 2D-DIGE: Basics
Link NOC:Introduction to Proteomics Lecture 17 - 2D-DIGE: Data analysis
Link NOC:Introduction to Proteomics Lecture 18 - 2D-DIGE: Applications
Link NOC:Introduction to Proteomics Lecture 19 - Systems biology and proteomics - I
Link NOC:Introduction to Proteomics Lecture 20 - Systems biology and proteomics - II
Link NOC:Introduction to Proteomics Lecture 21 - Fundamentals of mass spectrometry
Link NOC:Introduction to Proteomics Lecture 22 - Chromatography technologies
Link NOC:Introduction to Proteomics Lecture 23 - Liquid chromatography
Link NOC:Introduction to Proteomics Lecture 24 - Mass spectrometry: Ionization sources
Link NOC:Introduction to Proteomics Lecture 25 - Mass spectrometry: Mass analyzers
Link NOC:Introduction to Proteomics Lecture 26 - MALDI sample preparation and analysis
Link NOC:Introduction to Proteomics Lecture 27 - Hybrid mass spectrometry configurations
Link NOC:Introduction to Proteomics Lecture 28 - Lab session - Demonstration of Q-TOF MS technology
Link NOC:Introduction to Proteomics Lecture 29 - In-gel and in-solution digestion
Link NOC:Introduction to Proteomics Lecture 30 - Lab session - Sample preparation: tissue sample preservation technology
Link NOC:Introduction to Proteomics Lecture 31 - Introduction to quantitative proteomics
Link NOC:Introduction to Proteomics Lecture 32 - SILAC: In vivo labeling
Link NOC:Introduction to Proteomics Lecture 33 - iTRAQ: In vitro labeling
Link NOC:Introduction to Proteomics Lecture 34 - TMT: In vitro labeling
Link NOC:Introduction to Proteomics Lecture 35 - Quantitative proteomics data analysis
Link NOC:Introduction to Proteomics Lecture 36 - Proteomics applications
Link NOC:Introduction to Proteomics Lecture 37 - Challenges in proteomics
Link NOC:Introduction to Proteomics Lecture 38 - OMICS and translational research
Link NOC:Introduction to Proteomics Lecture 39 - Lab session – Targeted proteomics using triple quadrupole mass spectrometry
Link NOC:Introduction to Proteomics Lecture 40 - Lab session – Targeted proteomics: multiple reaction monitoring
Link NOC:Introduction to Biostatistics Lecture 1 - Introduction to the course
Link NOC:Introduction to Biostatistics Lecture 2 - Data representation and plotting
Link NOC:Introduction to Biostatistics Lecture 3 - Arithmetic mean
Link NOC:Introduction to Biostatistics Lecture 4 - Geometric mean
Link NOC:Introduction to Biostatistics Lecture 5 - Measure of Variability, Standard deviation
Link NOC:Introduction to Biostatistics Lecture 6 - SME, Z-Score, Box plot
Link NOC:Introduction to Biostatistics Lecture 7 - Moments, Skewness
Link NOC:Introduction to Biostatistics Lecture 8 - Kurtosis, R programming
Link NOC:Introduction to Biostatistics Lecture 9 - R programming
Link NOC:Introduction to Biostatistics Lecture 10 - Correlation
Link NOC:Introduction to Biostatistics Lecture 11 - Correlation and Regression - Part-I
Link NOC:Introduction to Biostatistics Lecture 12 - Correlation and Regression - Part-II
Link NOC:Introduction to Biostatistics Lecture 13 - Interpolation and extrapolation
Link NOC:Introduction to Biostatistics Lecture 14 - Nonlinear data fitting
Link NOC:Introduction to Biostatistics Lecture 15 - Concept of Probability: introduction and basics
Link NOC:Introduction to Biostatistics Lecture 16 - Counting principle, Permutations, and Combinations
Link NOC:Introduction to Biostatistics Lecture 17 - Conditional probability
Link NOC:Introduction to Biostatistics Lecture 18 - Conditional probability and Random variables
Link NOC:Introduction to Biostatistics Lecture 19 - Random variables, Probability mass function, and Probability density function
Link NOC:Introduction to Biostatistics Lecture 20 - Expectation, Variance and Covariance - Part-I
Link NOC:Introduction to Biostatistics Lecture 21 - Expectation, Variance and Covariance - Part-II
Link NOC:Introduction to Biostatistics Lecture 22 - Binomial random variables and Moment generating function
Link NOC:Introduction to Biostatistics Lecture 23 - Probability distribution: Poisson distribution and Uniform distribution Part-I
Link NOC:Introduction to Biostatistics Lecture 24 - Uniform distribution Part-II and Normal distribution Part-I
Link NOC:Introduction to Biostatistics Lecture 25 - Normal distribution Part-II and Exponential distribution
Link NOC:Introduction to Biostatistics Lecture 26 - Sampling distributions and Central limit theorem - Part-I
Link NOC:Introduction to Biostatistics Lecture 27 - Sampling distributions and Central limit theorem - Part-II
Link NOC:Introduction to Biostatistics Lecture 28 - Central limit theorem - Part-III and Sampling distributions of sample mean
Link NOC:Introduction to Biostatistics Lecture 29 - Central limit theorem - Part-IV and Confidence intervals
Link NOC:Introduction to Biostatistics Lecture 30 - Confidence intervals Part- II
Link NOC:Introduction to Biostatistics Lecture 31 - Test of Hypothesis - 1
Link NOC:Introduction to Biostatistics Lecture 32 - Test of Hypothesis - 2 (1 tailed and 2 tailed Test of Hypothesis, p-value)
Link NOC:Introduction to Biostatistics Lecture 33 - Test of Hypothesis - 3 (1 tailed and 2 tailed Test of Hypothesis, p-value)
Link NOC:Introduction to Biostatistics Lecture 34 - Test of Hypothesis - 4 (Type -1 and Type -2 error)
Link NOC:Introduction to Biostatistics Lecture 35 - T-test
Link NOC:Introduction to Biostatistics Lecture 36 - 1 tailed and 2 tailed T-distribution, Chi-square test
Link NOC:Introduction to Biostatistics Lecture 37 - ANOVA - 1
Link NOC:Introduction to Biostatistics Lecture 38 - ANOVA - 2
Link NOC:Introduction to Biostatistics Lecture 39 - ANOVA - 3
Link NOC:Introduction to Biostatistics Lecture 40 - ANOVA for linear regression, Block Design
Link NOC:Introduction to Mechanobiology Lecture 1 - Need to Study Mechanobiology
Link NOC:Introduction to Mechanobiology Lecture 2 - Cell as a Tent, Individual Components
Link NOC:Introduction to Mechanobiology Lecture 3 - Cell-ECM Crosstalk
Link NOC:Introduction to Mechanobiology Lecture 4 - ECM Proteins: Collagen
Link NOC:Introduction to Mechanobiology Lecture 5 - Measuring Properties of Collagen Networks
Link NOC:Introduction to Mechanobiology Lecture 6 - Properties of Collagen Networks
Link NOC:Introduction to Mechanobiology Lecture 7 - Rheology
Link NOC:Introduction to Mechanobiology Lecture 8 - Rheology of Biopolymer Networks
Link NOC:Introduction to Mechanobiology Lecture 9 - Atomic Force Microscopy (AFM)
Link NOC:Introduction to Mechanobiology Lecture 10 - Design of Protein Constructs for AFM
Link NOC:Introduction to Mechanobiology Lecture 11 - Protein Unfolding using AFM
Link NOC:Introduction to Mechanobiology Lecture 12 - Protein Unfolding using AFM
Link NOC:Introduction to Mechanobiology Lecture 13 - Focal Adhesions: Focal Adhesion Proteins
Link NOC:Introduction to Mechanobiology Lecture 14 - Focal Adhesion Organization
Link NOC:Introduction to Mechanobiology Lecture 15 - Focal Adhesions: Role of Forces
Link NOC:Introduction to Mechanobiology Lecture 16 - Cytoskeleton: Actin
Link NOC:Introduction to Mechanobiology Lecture 17 - Force-velocity Relationships of Actin Networks
Link NOC:Introduction to Mechanobiology Lecture 18 - Mesenchymal Cell Migration
Link NOC:Introduction to Mechanobiology Lecture 19 - Actin Dynamics during Mesenchymal Migration
Link NOC:Introduction to Mechanobiology Lecture 20 - Actin Dynamics during Mesenchymal Migration
Link NOC:Introduction to Mechanobiology Lecture 21 - Adhesion Independent Migration
Link NOC:Introduction to Mechanobiology Lecture 22 - Adhesion Independent and Collective Cell Migration
Link NOC:Introduction to Mechanobiology Lecture 23 - Collective Cell Migration
Link NOC:Introduction to Mechanobiology Lecture 24 - Mechanobiology of Stem Cell Fate - I
Link NOC:Introduction to Mechanobiology Lecture 25 - Mechanobiology of Stem Cell Fate - II
Link NOC:Introduction to Mechanobiology Lecture 26 - Mechanobiology of Stem Cell Fate - III
Link NOC:Introduction to Mechanobiology Lecture 27 - Mechanobiology of Diseases: Cancer - I
Link NOC:Introduction to Mechanobiology Lecture 28 - Mechanobiology of Diseases: Cancer - II
Link NOC:Introduction to Mechanobiology Lecture 29 - Mechanobiology of Diseases: Cancer - III
Link NOC:Introduction to Mechanobiology Lecture 30 - Mechanobiology of Diseases: Atherosclerosis and Hypertension
Link NOC:Introduction to Mechanobiology Lecture 31 - Mechanobiology of Diseases: Muscular Dystrophy
Link NOC:Introduction to Mechanobiology Lecture 32 - Nuclear Mechanotransduction: LINC complex
Link NOC:Introduction to Mechanobiology Lecture 33 - Nuclear Mechanotransduction: LINC Complex in Cell Migration
Link NOC:Introduction to Mechanobiology Lecture 34 - Nuclear Mechanotransduction: Gene Regulation
Link NOC:Introduction to Mechanobiology Lecture 35 - Mechanical Forces and DNA damage
Link NOC:Introduction to Mechanobiology Lecture 36 - Techniques in Mechanobiology: Hydrogels
Link NOC:Introduction to Mechanobiology Lecture 37 - Techniques in Mechanobiology: AFM
Link NOC:Introduction to Mechanobiology Lecture 38 - Techniques in Mechanobiology: Traction Force Microscopy, Trypson Deadhesion and Laser Ablation
Link NOC:Introduction to Mechanobiology Lecture 39 - Techniques in Mechanobiology: Microfabrication
Link NOC:Introduction to Mechanobiology Lecture 40 - Techniques in Mechanobiology: FRET
Link NOC:Introductory Mathematical Methods for Biologists Lecture 1 - Introduction
Link NOC:Introductory Mathematical Methods for Biologists Lecture 2 - Graphs and Functions
Link NOC:Introductory Mathematical Methods for Biologists Lecture 3 - Equations as Graphs
Link NOC:Introductory Mathematical Methods for Biologists Lecture 4 - Graphs : Exponential and Periodic Functions
Link NOC:Introductory Mathematical Methods for Biologists Lecture 5 - Graphs : Logarithmic and Other Functions
Link NOC:Introductory Mathematical Methods for Biologists Lecture 6 - Images as 2D/3D Functions
Link NOC:Introductory Mathematical Methods for Biologists Lecture 7 - Functions and its Derivatives
Link NOC:Introductory Mathematical Methods for Biologists Lecture 8 - Computing Derivatives of Curves
Link NOC:Introductory Mathematical Methods for Biologists Lecture 9 - Rules for Calculating Derivatives
Link NOC:Introductory Mathematical Methods for Biologists Lecture 10 - Understanding Derivatives
Link NOC:Introductory Mathematical Methods for Biologists Lecture 11 - Curvature and Second Derivative
Link NOC:Introductory Mathematical Methods for Biologists Lecture 12 - Plotting Curves
Link NOC:Introductory Mathematical Methods for Biologists Lecture 13 - Numerical Calculation of Derivatives
Link NOC:Introductory Mathematical Methods for Biologists Lecture 14 - Function, Derivatives and Series Expansion
Link NOC:Introductory Mathematical Methods for Biologists Lecture 15 - L'Hopital's Rule and Partial Derivatives
Link NOC:Introductory Mathematical Methods for Biologists Lecture 16 - Integration
Link NOC:Introductory Mathematical Methods for Biologists Lecture 17 - Integration : Rules
Link NOC:Introductory Mathematical Methods for Biologists Lecture 18 - Integration : Graphical Understanding
Link NOC:Introductory Mathematical Methods for Biologists Lecture 19 - Integration : More Examples
Link NOC:Introductory Mathematical Methods for Biologists Lecture 20 - Integration : Product of Two Functions
Link NOC:Introductory Mathematical Methods for Biologists Lecture 21 - Exponential Growth and Decay
Link NOC:Introductory Mathematical Methods for Biologists Lecture 22 - Scalars and Vectors
Link NOC:Introductory Mathematical Methods for Biologists Lecture 23 - Vectors : Position and Movement in 2D
Link NOC:Introductory Mathematical Methods for Biologists Lecture 24 - Cell Symmetry : Use of Polar Coordinates
Link NOC:Introductory Mathematical Methods for Biologists Lecture 25 - Gradient, Forces and Flows : Part I
Link NOC:Introductory Mathematical Methods for Biologists Lecture 26 - Gradient, Forces and Flows : Part II
Link NOC:Introductory Mathematical Methods for Biologists Lecture 27 - Understanding Diffusion
Link NOC:Introductory Mathematical Methods for Biologists Lecture 28 - Diffusion Constant and Einstein Relation 1905
Link NOC:Introductory Mathematical Methods for Biologists Lecture 29 - Diffusion Equation
Link NOC:Introductory Mathematical Methods for Biologists Lecture 30 - Diffusion vs. Active Transport
Link NOC:Introductory Mathematical Methods for Biologists Lecture 31 - Nernst Equation
Link NOC:Introductory Mathematical Methods for Biologists Lecture 32 - Fourier Series : Part I
Link NOC:Introductory Mathematical Methods for Biologists Lecture 33 - Fourier Series : Part II
Link NOC:Introductory Mathematical Methods for Biologists Lecture 34 - Fourier Transform
Link NOC:Introductory Mathematical Methods for Biologists Lecture 35 - Introduction to Statistics
Link NOC:Introductory Mathematical Methods for Biologists Lecture 36 - Mean, Standard deviation and Distribution
Link NOC:Introductory Mathematical Methods for Biologists Lecture 37 - Frequency Distribution and Probability Distribution
Link NOC:Introductory Mathematical Methods for Biologists Lecture 38 - Binomial Distribution
Link NOC:Introductory Mathematical Methods for Biologists Lecture 39 - Normal Distribution
Link NOC:Introductory Mathematical Methods for Biologists Lecture 40 - Hypothesis Testing and Mathematical Modeling
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 1 - Why biology for engineers - Part I
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 2 - Why biology for engineers - Part II
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 3 - Life processes and Cell
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 4 - Cell and its properties
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 5 - Clinician’s Perspective - I
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 6 - Nucleic Acid and Central Dogma
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 7 - DNA Tools: Gene Cloning - I
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 8 - DNA Tools: Gene Cloning - II
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 9 - DNA Tools and Biotechnology - I
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 10 - DNA Tools and Biotechnology - II
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 11 - DNA Tools and Biotechnology - III
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 12 - DNA Tools and Biotechnology - IV
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 13 - DNA Tools and Biotechnology - V
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 14 - DNA Tools and Biotechnology - VI
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 15 - Clinician’s Perspective - II
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 16 - Genetics - I
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 17 - Genetics - II
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 18 - Genetics - III
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 19 - Genetics - IV
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 20 - Clinician’s Perspective - III
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 21 - Chromosomal basis of inheritance
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 22 - Linkage, chromosomal disorders
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 23 - Classical Genetics Experiments
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 24 - Bacteria and Viruses
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 25 - Clinician’s Perspective - IV
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 26 - Cell cycle disregulation and Cancer
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 27 - Developmental Biology
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 28 - Principles and application of Animal Cloning
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 29 - Evolution
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 30 - Clinician’s Perspective - V
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 31 - Amino acids and proteins
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 32 - Proteins and Proteomics
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 33 - Techniques to Study Protein and Proteome - I
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 34 - Techniques to Study Protein and Proteome - II
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 35 - Bioinformatics - I
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 36 - Techniques to Study Protein and Proteome - III
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 37 - Protein Interactions and Microarrays
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 38 - Protein interactions and Systems biology
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 39 - Bioinformatics - II
Link NOC:Bioengineering: An Interface with Biology and Medicine Lecture 40 - Ethics in Research and Publications
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 1 - Introduction to Interactomics and Protein Arrays
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 2 - NAPPA Technology and Protein Arrays - I
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 3 - NAPPA Technology and Protein Arrays - II
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 4 - Biomarkers: Harnessing the immune system for early detection of disease - I
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 5 - Biomarkers: Harnessing the immune system for early detection of disease - II
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 6 - Biomarkers: Harnessing the immune system for early detection of disease - III
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 7 - NAPPA and its applications in study of antibody immune response in disease and in drug Screening - I
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 8 - NAPPA and its applications in study of antibody immune response in disease and in drug screening - II
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 9 - NAPPA and its applications in study of antibody immune response in disease and in drug screening - III
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 10 - Using functional proteomics to identify biomarkers and therapeutic targets - I
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 11 - Using functional proteomics to identify biomarkers and therapeutic targets - II
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 12 - Applications of protein microarrays in Malaria Research - I
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 13 - Applications of protein microarrays in Malaria Research - II
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 14 - Applications of protein microarrays in Cancer Research - I
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 15 - Applications of protein microarrays in Cancer Research - II
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 16 - Introduction to Bioprinting and Irisâ Optical QC Benefits - I
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 17 - Introduction to Bioprinting and Irisâ Optical QC Benefits - II
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 18 - Basics and Applications of Reverse Phase Protein Arrays - I
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 19 - Basics and Applications of Reverse Phase Protein Arrays - II
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 20 - Basics and Applications of Reverse Phase Protein Arrays - III
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 21 - Antibody signatures defined by high-content peptide microarray analysis
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 22 - An overview of label-free technologies - I
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 23 - An overview of label-free technologies - II
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 24 - Mass Spectrometry coupled Interactomics - I
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 25 - Mass Spectrometry coupled Interactomics - II
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 26 - Biomolecular interactions using Bio-Layer Interferometry (BLI) - I
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 27 - Biomolecular interactions using Bio-Layer Interferometry (BLI) - II
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 28 - Biomolecular interaction analytics using MicroScale Thermophoresis
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 29 - Surface Plasmon Resonance- Principles and Assays - I
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 30 - Surface Plasmon Resonance- Principles and Assays - II
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 31 - Use of SPR in unravelling domain motif interactions of proteasomal assembly chaperones
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 32 - Next-Generation Sequencing Technology- Ion Torrentâ
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 33 - NGS Technology- Bioinformatics and data analysis - I
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 34 - NGS Technology- Bioinformatics and data analysis - II
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 35 - Next-Generation Sequencing Technology-MiSeq System
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 36 - NGS target enrichment workflow for exomes, targeted panels and beyond
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 37 - The Human Pathology Atlas: A Pathology Atlas of the Human Transcriptome - I
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 38 - The Human Pathology Atlas: A Pathology Atlas of the Human Transcriptome - II
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 39 - Conclusions and Overview - I (Statistical analysis - I)
Link NOC:Applications of Interactomics using Genomics and Proteomics Technologies Lecture 40 - Conclusions and overview - II (Statistical analysis - II)
Link NOC:Introduction to Proteogenomics Lecture 1 - Proteogenomics overview - I
Link NOC:Introduction to Proteogenomics Lecture 2 - Proteogenomics overview - II
Link NOC:Introduction to Proteogenomics Lecture 3 - Introduction to Genomics - Part I : Gene sequencing and mutations
Link NOC:Introduction to Proteogenomics Lecture 4 - Introduction to Genomics - Part II : Sequence Alignment
Link NOC:Introduction to Proteogenomics Lecture 5 - Introduction to Genomics - Part III : Transcriptome
Link NOC:Introduction to Proteogenomics Lecture 6 - Perspectives in Proteogenomics - I
Link NOC:Introduction to Proteogenomics Lecture 7 - Advancement in Cancer Genomics
Link NOC:Introduction to Proteogenomics Lecture 8 - Introduction to Genomics - Part IV : Epigenome
Link NOC:Introduction to Proteogenomics Lecture 9 - Introduction to Genomics - cBioPortal
Link NOC:Introduction to Proteogenomics Lecture 10 - Genotype, Gene expression and Phenotype - I
Link NOC:Introduction to Proteogenomics Lecture 11 - Genotype, Gene expression and Phenotype - II
Link NOC:Introduction to Proteogenomics Lecture 12 - An overview of NGS technology
Link NOC:Introduction to Proteogenomics Lecture 13 - NGS - Sequencing by synthesis - I
Link NOC:Introduction to Proteogenomics Lecture 14 - NGS - Sequencing by synthesis - II
Link NOC:Introduction to Proteogenomics Lecture 15 - Introduction to Proteomics
Link NOC:Introduction to Proteogenomics Lecture 16 - Proteomics: Sample Prep and Protein Quantification
Link NOC:Introduction to Proteogenomics Lecture 17 - Applications of Proteomics
Link NOC:Introduction to Proteogenomics Lecture 18 - Introduction to MS-based Proteomics - I
Link NOC:Introduction to Proteogenomics Lecture 19 - Introduction to MS-based Proteomics - II
Link NOC:Introduction to Proteogenomics Lecture 20 - Applications of NGS - IonTorrent
Link NOC:Introduction to Proteogenomics Lecture 21 - Genomic Analysis using Droplet PCR - I
Link NOC:Introduction to Proteogenomics Lecture 22 - Introduction to MS-based Proteomics - I (Hands-on session)
Link NOC:Introduction to Proteogenomics Lecture 23 - Introduction to MS-based Proteomics - II (Hands-on session)
Link NOC:Introduction to Proteogenomics Lecture 24 - Data analysis : Normalization
Link NOC:Introduction to Proteogenomics Lecture 25 - Data analysis : Batch Correction and Missing values
Link NOC:Introduction to Proteogenomics Lecture 26 - Data analysis : Statistical Test
Link NOC:Introduction to Proteogenomics Lecture 27 - Genomic Analysis using Droplet PCR - II
Link NOC:Introduction to Proteogenomics Lecture 28 - Topics in Proteogenomics : Malaria case study
Link NOC:Introduction to Proteogenomics Lecture 29 - Machine learning and Clustering
Link NOC:Introduction to Proteogenomics Lecture 30 - Hypothesis testing
Link NOC:Introduction to Proteogenomics Lecture 31 - ProTIGY - I
Link NOC:Introduction to Proteogenomics Lecture 32 - ProTIGY - II
Link NOC:Introduction to Proteogenomics Lecture 33 - Proteomics Data Analysis
Link NOC:Introduction to Proteogenomics Lecture 34 - Proteomics Lab Demonstration - I
Link NOC:Introduction to Proteogenomics Lecture 35 - Proteomics Lab Demonstration - II
Link NOC:Introduction to Proteogenomics Lecture 36 - Workflow to Automated Data Processing
Link NOC:Introduction to Proteogenomics Lecture 37 - Introduction to Fire Cloud
Link NOC:Introduction to Proteogenomics Lecture 38 - FireCloud and Data Model
Link NOC:Introduction to Proteogenomics Lecture 39 - Bioinformatics solutions for Big Data Analysis - I
Link NOC:Introduction to Proteogenomics Lecture 40 - Bioinformatics solutions for Big Data Analysis - II
Link NOC:Introduction to Proteogenomics Lecture 41 - Introduction to Targeted Proteomics
Link NOC:Introduction to Proteogenomics Lecture 42 - Data analysis using Skyline
Link NOC:Introduction to Proteogenomics Lecture 43 - Large-scale data Science - I
Link NOC:Introduction to Proteogenomics Lecture 44 - Large-scale data Science - II
Link NOC:Introduction to Proteogenomics Lecture 45 - Large-scale data Science - III
Link NOC:Introduction to Proteogenomics Lecture 46 - DIA-SWATH Atlas - I
Link NOC:Introduction to Proteogenomics Lecture 47 - DIA-SWATH Atlas - II
Link NOC:Introduction to Proteogenomics Lecture 48 - Prediction Analysis
Link NOC:Introduction to Proteogenomics Lecture 49 - Pathway Enrichment and Network Analysis
Link NOC:Introduction to Proteogenomics Lecture 50 - Human Protein Atlas - I
Link NOC:Introduction to Proteogenomics Lecture 51 - Human Protein Atlas - II
Link NOC:Introduction to Proteogenomics Lecture 52 - Affinity based proteomics & HPA
Link NOC:Introduction to Proteogenomics Lecture 53 - Clinical Considerations for OMICS - I
Link NOC:Introduction to Proteogenomics Lecture 54 - Clinical Considerations for OMICS - II
Link NOC:Introduction to Proteogenomics Lecture 55 - Topics in Proteogenomics: Cancer case study
Link NOC:Introduction to Proteogenomics Lecture 56 - Integrative Genomics Viewer (IGV)
Link NOC:Introduction to Proteogenomics Lecture 57 - Introduction to Proteogenomics - I
Link NOC:Introduction to Proteogenomics Lecture 58 - Introduction to Proteogenomics - II
Link NOC:Introduction to Proteogenomics Lecture 59 - Sequence centric proteogenomics
Link NOC:Introduction to Proteogenomics Lecture 60 - Variant Analysis
Link NOC:Introduction to Proteogenomics Lecture 61 - Proteomics - Clinical Applications
Link NOC:Introduction to Proteogenomics Lecture 62 - Perspectives in Proteogenomics - II
Link NOC:Introduction to Proteogenomics Lecture 63 - Predictive Analysis - I
Link NOC:Introduction to Proteogenomics Lecture 64 - Predictive Analysis - II
Link NOC:Introduction to Proteogenomics Lecture 65 - Association/ Marker Selection
Link NOC:Introduction to Proteogenomics Lecture 66 - WebGestalt - I
Link NOC:Introduction to Proteogenomics Lecture 67 - WebGestalt - II
Link NOC:Introduction to Proteogenomics Lecture 68 - Perspectives in Proteogenomics - III
Link NOC:Introduction to Proteogenomics Lecture 69 - Network Analysis - I
Link NOC:Introduction to Proteogenomics Lecture 70 - Network Analysis - II
Link NOC:Introduction to Proteogenomics Lecture 71 - Mutations and Signaling - I
Link NOC:Introduction to Proteogenomics Lecture 72 - Mutations and Signaling - II
Link NOC:Introduction to Proteogenomics Lecture 73 - Pathway Enrichment - I
Link NOC:Introduction to Proteogenomics Lecture 74 - Perspectives in Proteogenomics - IV
Link NOC:Introduction to Proteogenomics Lecture 75 - Pathway Enrichment - II
Link NOC:Introduction to Proteogenomics Lecture 76 - Sequence - GSEA
Link NOC:Introduction to Proteogenomics Lecture 77 - Linked Omics - I
Link NOC:Introduction to Proteogenomics Lecture 78 - Linked Omics - II
Link NOC:Introduction to Proteogenomics Lecture 79 - Proteogenomics - Opportunities and Challenges
Link NOC:Introduction to Proteogenomics Lecture 80 - Perspectives in Proteogenomics - V
Link Enzyme Science and Engineering Lecture 1 - Introduction and Scope to Enzyme Science and Engineering
Link Enzyme Science and Engineering Lecture 2 - Characteristic Features of Enzymes
Link Enzyme Science and Engineering Lecture 3 - Enzymes as Biocatalysts
Link Enzyme Science and Engineering Lecture 4 - Enzymatic Catalysis
Link Enzyme Science and Engineering Lecture 5 - Specificity of Enzyme Action
Link Enzyme Science and Engineering Lecture 6 - Kinetics of Enzyme Catalyzed Reactions
Link Enzyme Science and Engineering Lecture 7 - Kinetics of Enzyme Catalyzed Reactions
Link Enzyme Science and Engineering Lecture 8 - Deviation from Hyperbolic Enzyme Kinetics
Link Enzyme Science and Engineering Lecture 9 - Role of Effector Molecules in Enzyme Kinetics
Link Enzyme Science and Engineering Lecture 10 - Reversible Inhibition
Link Enzyme Science and Engineering Lecture 11 - Effect of PH and Temperature on Enzyme
Link Enzyme Science and Engineering Lecture 12 - Kinetics of Bi substrate Enzyme
Link Enzyme Science and Engineering Lecture 13 - Kinetics of Bi substrate Enzyme
Link Enzyme Science and Engineering Lecture 14 - Immobilized Enzymes - I
Link Enzyme Science and Engineering Lecture 15 - Immobilized Enzymes - II
Link Enzyme Science and Engineering Lecture 16 - Immobilized Enzymes - III
Link Enzyme Science and Engineering Lecture 17 - Immobilization of Enzymes by Entrapment
Link Enzyme Science and Engineering Lecture 18 - Effect of Immobilization
Link Enzyme Science and Engineering Lecture 19 - Reactors for Enzyme Catalyzed Reactions
Link Enzyme Science and Engineering Lecture 20 - Idealized Enzyme Reactor Performance
Link Enzyme Science and Engineering Lecture 21 - Idealized Enzyme Reactor Performance
Link Enzyme Science and Engineering Lecture 22 - Kinetic Parameters for IME Systems
Link Enzyme Science and Engineering Lecture 23 - Steady State Analysis of Mass Transfer
Link Enzyme Science and Engineering Lecture 24 - Steady State Analysis of Mass Transfer
Link Enzyme Science and Engineering Lecture 25 - Non Ideal Flow in Continuous Immobilized Enzyme
Link Enzyme Science and Engineering Lecture 26 - Applications of Immobilized Enzymes in Process
Link Enzyme Science and Engineering Lecture 27 - Analytical Applications
Link Enzyme Science and Engineering Lecture 28 - Enzyme Technology Challenges
Link NOC:Introduction to Dynamical Models in Biology Lecture 1 - Mathematical modeling in Biology
Link NOC:Introduction to Dynamical Models in Biology Lecture 2 - How to Start Modeling
Link NOC:Introduction to Dynamical Models in Biology Lecture 3 - Modeling the spread of infectious disease
Link NOC:Introduction to Dynamical Models in Biology Lecture 4 - Modeling population growth
Link NOC:Introduction to Dynamical Models in Biology Lecture 5 - Numerical solution of ODE-1
Link NOC:Introduction to Dynamical Models in Biology Lecture 6 - Numerical solution of ODE-2
Link NOC:Introduction to Dynamical Models in Biology Lecture 7 - Simulating ODE-based models: Introduction to JSim
Link NOC:Introduction to Dynamical Models in Biology Lecture 8 - Simulating ODE-based models: Examples of simulation in JSim
Link NOC:Introduction to Dynamical Models in Biology Lecture 9 - Steady state and stability analysis: Understanding Steady State
Link NOC:Introduction to Dynamical Models in Biology Lecture 10 - Steady state and stability analysis: Stability of Steady States
Link NOC:Introduction to Dynamical Models in Biology Lecture 11 - Phase Plane Analysis - I
Link NOC:Introduction to Dynamical Models in Biology Lecture 12 - Phase Plane Analysis - II
Link NOC:Introduction to Dynamical Models in Biology Lecture 13 - Concepts of Bifurcation:Introduction
Link NOC:Introduction to Dynamical Models in Biology Lecture 14 - Concepts of Bifurcation:Bifurcation in Biological Systems
Link NOC:Introduction to Dynamical Models in Biology Lecture 15 - Modeling Molecular Processes in Cell: Introduction
Link NOC:Introduction to Dynamical Models in Biology Lecture 16 - Modeling Molecular Processes in Cell: Receptor-Ligand Interaction
Link NOC:Introduction to Dynamical Models in Biology Lecture 17 - Modeling Molecular Processes in Cell: Enzymatic Processes
Link NOC:Introduction to Dynamical Models in Biology Lecture 18 - Modeling Molecular Processes in Cell: Transcription and Translation
Link NOC:Introduction to Dynamical Models in Biology Lecture 19 - Modeling Cell Signaling: Negative Feedback Motif
Link NOC:Introduction to Dynamical Models in Biology Lecture 20 - Modeling Cell Signaling: Positive Feedback Motif
Link NOC:Introduction to Dynamical Models in Biology Lecture 21 - Modeling Cell Signaling: Incoherent Feedforward Motif
Link NOC:Introduction to Dynamical Models in Biology Lecture 22 - Modeling Transcriptional Circuits-1
Link NOC:Introduction to Dynamical Models in Biology Lecture 23 - Modeling Transcriptional Circuits-2
Link NOC:Introduction to Dynamical Models in Biology Lecture 24 - Online Resources for Mathematical Modeling in Biology
Link NOC:Genetic Engineering: Theory and Application Lecture 1 - Cellular Structure - Part I
Link NOC:Genetic Engineering: Theory and Application Lecture 2 - Cellular Structure - Part II
Link NOC:Genetic Engineering: Theory and Application Lecture 3 - Cellular Structure - Part III
Link NOC:Genetic Engineering: Theory and Application Lecture 4 - Metabolic Reactions in Biological System
Link NOC:Genetic Engineering: Theory and Application Lecture 5 - Growth Media For Different Expression System
Link NOC:Genetic Engineering: Theory and Application Lecture 6 - Microbial Growth Kinetics
Link NOC:Genetic Engineering: Theory and Application Lecture 7 - Isolation of a Gene Fragment - Part I
Link NOC:Genetic Engineering: Theory and Application Lecture 8 - Isolation of a Gene Fragment - Part II
Link NOC:Genetic Engineering: Theory and Application Lecture 9 - Isolation of a Gene Fragment - Part III
Link NOC:Genetic Engineering: Theory and Application Lecture 10 - Polymerase Chain Reaction
Link NOC:Genetic Engineering: Theory and Application Lecture 11 - Molecular Tools for Cloning
Link NOC:Genetic Engineering: Theory and Application Lecture 12 - Cloning Vectors - I
Link NOC:Genetic Engineering: Theory and Application Lecture 13 - Cloning Vectors - II
Link NOC:Genetic Engineering: Theory and Application Lecture 14 - DNA Delivery In Host - Part I
Link NOC:Genetic Engineering: Theory and Application Lecture 15 - DNA Delivery In Host - Part II
Link NOC:Genetic Engineering: Theory and Application Lecture 16 - Screening of Recombinant Clones
Link NOC:Genetic Engineering: Theory and Application Lecture 17 - Protein Production in Host - Part 1
Link NOC:Genetic Engineering: Theory and Application Lecture 18 - Protein Production in Host - Part 2
Link NOC:Genetic Engineering: Theory and Application Lecture 19 - Protein Production in Host - Part 3
Link NOC:Genetic Engineering: Theory and Application Lecture 20 - Product Recovery from Host Cells
Link NOC:Genetic Engineering: Theory and Application Lecture 21 - Basics of Chromatography - Part 1
Link NOC:Genetic Engineering: Theory and Application Lecture 22 - Basics of Chromatography - Part 2
Link NOC:Genetic Engineering: Theory and Application Lecture 23 - Ion-exchange Chromatography
Link NOC:Genetic Engineering: Theory and Application Lecture 24 - Hydrophobic Interaction Chromatography
Link NOC:Genetic Engineering: Theory and Application Lecture 25 - Gel Filtration chromatography - Part 1
Link NOC:Genetic Engineering: Theory and Application Lecture 26 - Gel Filtration chromatography - Part 2
Link NOC:Genetic Engineering: Theory and Application Lecture 27 - Affinity Chromatography - Part 1
Link NOC:Genetic Engineering: Theory and Application Lecture 28 - Affinity Chromatography - Part 2
Link NOC:Genetic Engineering: Theory and Application Lecture 29 - Affinity Chromatography - Part 3
Link NOC:Genetic Engineering: Theory and Application Lecture 30 - Affinity Chromatography - Part 4
Link NOC:Genetic Engineering: Theory and Application Lecture 31 - Electrophoresis - Part 1
Link NOC:Genetic Engineering: Theory and Application Lecture 32 - Electrophoresis - Part 2
Link NOC:Genetic Engineering: Theory and Application Lecture 33 - Electrophoresis - Part 3
Link NOC:Genetic Engineering: Theory and Application Lecture 34 - Protein Sequencing
Link NOC:Genetic Engineering: Theory and Application Lecture 35 - Spectroscopy - Part I
Link NOC:Genetic Engineering: Theory and Application Lecture 36 - Spectroscopy - Part II
Link NOC:Genetic Engineering: Theory and Application Lecture 37 - Biotechnology Applications - Part 1
Link NOC:Genetic Engineering: Theory and Application Lecture 38 - Biotechnology Applications - Part 2
Link NOC:Genetic Engineering: Theory and Application Lecture 39 - Biotechnology Applications - Part 3
Link NOC:Genetic Engineering: Theory and Application Lecture 40 - Summary and Conclusions - Part 1
Link NOC:Genetic Engineering: Theory and Application Lecture 41 - Summary and Conclusions - Part 2
Link Animal Physiology Lecture 1 - Animal Physiology
Link Animal Physiology Lecture 2 - Animal Physiology
Link Animal Physiology Lecture 3 - Animal Physiology
Link Animal Physiology Lecture 4 - Animal Physiology
Link Animal Physiology Lecture 5 - Animal Physiology
Link Animal Physiology Lecture 6 - Animal Physiology
Link Animal Physiology Lecture 7 - Animal Physiology
Link Animal Physiology Lecture 8 - Animal Physiology
Link Animal Physiology Lecture 9 - Animal Physiology
Link Animal Physiology Lecture 10 - Animal Physiology
Link Animal Physiology Lecture 11 - Animal Physiology
Link Animal Physiology Lecture 12 - Animal Physiology
Link Animal Physiology Lecture 13 - Animal Physiology
Link Animal Physiology Lecture 14 - Animal Physiology
Link Animal Physiology Lecture 15 - Animal Physiology
Link Animal Physiology Lecture 16 - Animal Physiology
Link Animal Physiology Lecture 17 - Animal Physiology
Link Animal Physiology Lecture 18 - Animal Physiology
Link Animal Physiology Lecture 19 - Animal Physiology
Link Animal Physiology Lecture 20 - Animal Physiology
Link Animal Physiology Lecture 21 - Animal Physiology
Link Animal Physiology Lecture 22 - Animal Physiology
Link Animal Physiology Lecture 23 - Animal Physiology
Link Animal Physiology Lecture 24 - Animal Physiology
Link Animal Physiology Lecture 25 - Animal Physiology
Link Animal Physiology Lecture 26 - Animal Physiology
Link Animal Physiology Lecture 27 - Animal Physiology
Link Animal Physiology Lecture 28 - Animal Physiology
Link Animal Physiology Lecture 29 - Animal Physiology
Link Animal Physiology Lecture 30 - Animal Physiology
Link Animal Physiology Lecture 31 - Animal Physiology
Link Animal Physiology Lecture 32 - Animal Physiology
Link Animal Physiology Lecture 33 - Animal Physiology
Link Animal Physiology Lecture 34 - Animal Physiology
Link Animal Physiology Lecture 35 - Animal Physiology
Link Animal Physiology Lecture 36 - Animal Physiology
Link Animal Physiology Lecture 37 - Animal Physiology
Link Animal Physiology Lecture 38 - Animal Physiology
Link Animal Physiology Lecture 39 - Animal Physiology
Link Animal Physiology Lecture 40 - Animal Physiology
Link Bio electricity Lecture 1 - Bio electricity
Link Bio electricity Lecture 2 - Bio electricity
Link Bio electricity Lecture 3 - Bio electricity
Link Bio electricity Lecture 4 - Bio electricity
Link Bio electricity Lecture 5 - Bio electricity
Link Bio electricity Lecture 6 - Bio electricity
Link Bio electricity Lecture 7 - Bio electricity
Link Bio electricity Lecture 8 - Bio electricity
Link Bio electricity Lecture 9 - Bio electricity
Link Bio electricity Lecture 10 - Bio electricity
Link Bio electricity Lecture 11 - Bio electricity
Link Bio electricity Lecture 12 - Bio electricity
Link Bio electricity Lecture 13 - Bio electricity
Link Bio electricity Lecture 14 - Bio electricity
Link Bio electricity Lecture 15 - Bio electricity
Link Bio electricity Lecture 16 - Bio electricity
Link Bio electricity Lecture 17 - Bio electricity
Link Bio electricity Lecture 18 - Bio electricity
Link Bio electricity Lecture 19 - Bio electricity
Link Bio electricity Lecture 20 - Bio electricity
Link Bio electricity Lecture 21 - Bio electricity
Link Bio electricity Lecture 22 - Bio electricity
Link Bio electricity Lecture 23 - Bio electricity
Link Bio electricity Lecture 24 - Bio electricity
Link Bio electricity Lecture 25 - Bio electricity
Link Bio electricity Lecture 26 - Bio electricity
Link Bio electricity Lecture 27 - Bio electricity
Link Bio electricity Lecture 28 - Bio electricity
Link Bio electricity Lecture 29 - Bio electricity
Link Bio electricity Lecture 30 - Bio electricity
Link Bio electricity Lecture 31 - Bio electricity
Link Bio electricity Lecture 32 - Bio electricity
Link Bio electricity Lecture 33 - Bio electricity
Link Bio electricity Lecture 34 - Bio electricity
Link Bio electricity Lecture 35 - Bio electricity
Link Bio electricity Lecture 36 - Bio electricity
Link Bio electricity Lecture 37 - Bio electricity
Link Bio electricity Lecture 38 - Bio electricity
Link Bio electricity Lecture 39 - Bio electricity
Link Bio electricity Lecture 40 - Bio electricity
Link NOC:Human Molecular Genetics Lecture 1 - Fundamentals of central dogma, Part 1
Link NOC:Human Molecular Genetics Lecture 2 - Fundamentals of central dogma, Part 2
Link NOC:Human Molecular Genetics Lecture 3 - Fundamentals of central dogma, Part 3
Link NOC:Human Molecular Genetics Lecture 4 - Chromosome Structure and Function
Link NOC:Human Molecular Genetics Lecture 5 - Pedigree Analysis
Link NOC:Human Molecular Genetics Lecture 6 - Complications in Mendelian Pedigree Patterns
Link NOC:Human Molecular Genetics Lecture 7 - DNA Cloning and Hybridization Techniques - Part 1
Link NOC:Human Molecular Genetics Lecture 8 - DNA Cloning and Hybridization Techniques - Part 2
Link NOC:Human Molecular Genetics Lecture 9 - Practice Session 1: Problems Related to Pedigree Analysis
Link NOC:Human Molecular Genetics Lecture 10 - Practice Session 2: Restriction Fragment Length Polymorphism and its Applications in Pedigree Analysis
Link NOC:Human Molecular Genetics Lecture 11 - Mutations and instability of human DNA (Part 1)
Link NOC:Human Molecular Genetics Lecture 12 - Mutations and instability of human DNA (Part 2)
Link NOC:Human Molecular Genetics Lecture 13 - Animal Models for Human Diseases
Link NOC:Human Molecular Genetics Lecture 14 - Positional cloning of genes for monogenic disorders
Link NOC:Human Molecular Genetics Lecture 15 - Human Genome Project and HapMap project
Link NOC:Functional Genomics Lecture 1 - Introduction to Functional Genomics
Link NOC:Functional Genomics Lecture 2 - The Genomics Era
Link NOC:Functional Genomics Lecture 3 - Epigenetics
Link NOC:Functional Genomics Lecture 4 - Forward Genetics vs Reverse Genetics
Link NOC:Functional Genomics Lecture 5 - Genome Editing Approaches - Part 1
Link NOC:Functional Genomics Lecture 6 - Genome Editing Approaches - Part 2
Link NOC:Functional Genomics Lecture 7 - Transcriptomics - Part 1
Link NOC:Functional Genomics Lecture 8 - Transcriptomics - Part 2
Link NOC:Functional Genomics Lecture 9 - Genome Sequence Databases
Link NOC:Functional Genomics Lecture 10 - DNA Sequencing Methods - Part 1
Link NOC:Functional Genomics Lecture 11 - DNA Sequencing Methods - Part 2
Link NOC:Functional Genomics Lecture 12 - Applications of Next-Generation Sequencing (NGS)
Link NOC:Functional Genomics Lecture 13 - Tutorial - Session 1
Link NOC:Functional Genomics Lecture 14 - Tutorial - Session 2
Link NOC:Functional Genomics Lecture 15 - Genomic Insight into Evolution
Link NOC:Functional Genomics Lecture 16 - Genome sequence: Different Questions, Different Comparisons
Link NOC:Functional Genomics Lecture 17 - Outcome of Comparative Genomics
Link NOC:Functional Genomics Lecture 18 - Laboratory - Session 1
Link NOC:Functional Genomics Lecture 19 - Laboratory - Session 2
Link NOC:Bioenergy Lecture 1 - Introduction
Link NOC:Bioenergy Lecture 2 - Oil Economy of the World
Link NOC:Bioenergy Lecture 3 - Unit of Energy and Introduction of Bioenergy
Link NOC:Bioenergy Lecture 4 - How Biomass Formed on the Earth
Link NOC:Bioenergy Lecture 5 - Road Map of Bioenergy
Link NOC:Bioenergy Lecture 6 - Basic Biomass Technology (Resources and Production)
Link NOC:Bioenergy Lecture 7 - Basics of Mechanism of Light Reaction
Link NOC:Bioenergy Lecture 8 - Exploration of Photosynthesis Process
Link NOC:Bioenergy Lecture 9 - In Photosynthesis Oxygen Comes from Water Molecule
Link NOC:Bioenergy Lecture 10 - Hill Reaction
Link NOC:Bioenergy Lecture 11 - Electron Transport Process in Light Reaction
Link NOC:Bioenergy Lecture 12 - How Carbon dioxide converted in Carbohydrate
Link NOC:Bioenergy Lecture 13 - From Carbon dioxide to two Molecules of 3 - Phospho Glycerate by RUBISCO
Link NOC:Bioenergy Lecture 14 - RUBISCO enzyme
Link NOC:Bioenergy Lecture 15 - Photo respiration and Calvin Cycle
Link NOC:Bioenergy Lecture 16 - Efficiency Calculation of Photosynthesis Process
Link NOC:Bioenergy Lecture 17 - C3 and C4 Plant Structure and Photosynthesis Process
Link NOC:Bioenergy Lecture 18 - Biomass production System and their Categorization
Link NOC:Bioenergy Lecture 19 - Important Parameters for Selecting Biomass Crops
Link NOC:Bioenergy Lecture 20 - Factors Determining the Conversion Process - I
Link NOC:Bioenergy Lecture 21 - Factors Determining the Conversion Process - II
Link NOC:Bioenergy Lecture 22 - Factors Determining the Conversion Process - III
Link NOC:Bioenergy Lecture 23 - Conversion Technology
Link NOC:Bioenergy Lecture 24 - Conversion Process- (Combustion Process)
Link NOC:Bioenergy Lecture 25 - Pyrolysis Process
Link NOC:Bioenergy Lecture 26 - Classification of Pyrolysis
Link NOC:Bioenergy Lecture 27 - Bio Oil - (Solution for Thermal Instability and Corrosivity)
Link NOC:Bioenergy Lecture 28 - Spark Ignition Engine
Link NOC:Bioenergy Lecture 29 - Compression Ignition Engine
Link NOC:Bioenergy Lecture 30 - Carbonization - Graphene like material
Link NOC:Bioenergy Lecture 31 - Introduction of Gasification
Link NOC:Bioenergy Lecture 32 - Thermo Chemical Process of Gasification
Link NOC:Bioenergy Lecture 33 - Feed Stock Treatment of Gasification
Link NOC:Bioenergy Lecture 34 - Feed Stock Property
Link NOC:Bioenergy Lecture 35 - Gasification Types - Up Drift Gasifier
Link NOC:Bioenergy Lecture 36 - Down drift and Cross Flow Gasifier
Link NOC:Bioenergy Lecture 37 - Operation and Performance of Fixed Bed Gasifier
Link NOC:Bioenergy Lecture 38 - Fludized Bed Gasification
Link NOC:Bioenergy Lecture 39 - Operation and Performance of Fluidized Bed Gasifier
Link NOC:Bioenergy Lecture 40 - Biological Root of Gasification and Summary of Course
Link NOC:Animal Physiology Lecture 1 - An Introduction to Anatomy and Physiology
Link NOC:Animal Physiology Lecture 2 - Organization of living system
Link NOC:Animal Physiology Lecture 3 - Homeostasis and system integration
Link NOC:Animal Physiology Lecture 4 - Positive feedback loop in homeostasis
Link NOC:Animal Physiology Lecture 5 - Chemical basis of organization of the body
Link NOC:Animal Physiology Lecture 6 - Integumentary System - I
Link NOC:Animal Physiology Lecture 7 - Integumentary system - II
Link NOC:Animal Physiology Lecture 8 - Integumentary System - III
Link NOC:Animal Physiology Lecture 9 - Bone and Cartilage - I
Link NOC:Animal Physiology Lecture 10 - Bone and Cartilage - II
Link NOC:Animal Physiology Lecture 11 - Introduction of muscle
Link NOC:Animal Physiology Lecture 12 - Skeletal muscle formation
Link NOC:Animal Physiology Lecture 13 - Anatomy of skeletal muscle
Link NOC:Animal Physiology Lecture 14 - Contraction in muscle
Link NOC:Animal Physiology Lecture 15 - Function of actin and myosin
Link NOC:Animal Physiology Lecture 16 - Length tension relationship of skeletal muscle
Link NOC:Animal Physiology Lecture 17 - Excitation contraction coupling with nervous system
Link NOC:Animal Physiology Lecture 18 - Stretch reflex phenomena
Link NOC:Animal Physiology Lecture 19 - Nervous system anatomy and signaling
Link NOC:Animal Physiology Lecture 20 - Structure and circuit of neurons
Link NOC:Animal Physiology Lecture 21 - Origin of biological cell
Link NOC:Animal Physiology Lecture 22 - Excitability in cell
Link NOC:Animal Physiology Lecture 23 - Ion transportation in the cell
Link NOC:Animal Physiology Lecture 24 - Signal propagation in neurons
Link NOC:Animal Physiology Lecture 25 - Neurotransmitter and action potential
Link NOC:Animal Physiology Lecture 26 - Spatial temporal summation of signal in mesh neurons
Link NOC:Animal Physiology Lecture 27 - Anatomy of Hippo-campus
Link NOC:Animal Physiology Lecture 28 - Epilepsy and memory
Link NOC:Animal Physiology Lecture 29 - Long term potentiation
Link NOC:Animal Physiology Lecture 30 - Long term depression
Link NOC:Animal Physiology Lecture 31 - Alzheimers disease
Link NOC:Animal Physiology Lecture 32 - Parkinsons disease
Link NOC:Animal Physiology Lecture 33 - Amyotrophic lateral sclerosis
Link NOC:Animal Physiology Lecture 34 - Spinal cord injury
Link NOC:Animal Physiology Lecture 35 - Glial cells
Link NOC:Animal Physiology Lecture 36 - Stretch reflex circuit - I
Link NOC:Animal Physiology Lecture 37 - Stretch reflex arc circuit - II
Link NOC:Animal Physiology Lecture 38 - Neuro muscular junction
Link NOC:Animal Physiology Lecture 39 - Hearing system
Link NOC:Animal Physiology Lecture 40 - Olfaction system
Link NOC:Cell Culture Technologies Lecture 1 - Introduction of Cell Culture Technology
Link NOC:Cell Culture Technologies Lecture 2 - Philosophy and complexity in cell culture
Link NOC:Cell Culture Technologies Lecture 3 - To grow the cell outside the body
Link NOC:Cell Culture Technologies Lecture 4 - Cell cycle concept
Link NOC:Cell Culture Technologies Lecture 5 - Dividing cells
Link NOC:Cell Culture Technologies Lecture 6 - Biology of cell culture
Link NOC:Cell Culture Technologies Lecture 7 - Layout(s) and design(s) of cell culture facility
Link NOC:Cell Culture Technologies Lecture 8 - Precautions during designing the lab layout - I
Link NOC:Cell Culture Technologies Lecture 9 - Precautions during designing the lab layout - II
Link NOC:Cell Culture Technologies Lecture 10 - Precautions during designing the lab layout - III
Link NOC:Cell Culture Technologies Lecture 11 - State of the art facility in cell culture lab - I
Link NOC:Cell Culture Technologies Lecture 12 - State of the art facility in cell culture lab - II
Link NOC:Cell Culture Technologies Lecture 13 - Specialized facility in cell culture lab
Link NOC:Cell Culture Technologies Lecture 14 - Interaction of cell and glass/polycorbonate surface - I
Link NOC:Cell Culture Technologies Lecture 15 - Interaction of cell and glass/polycorbonate surface - II
Link NOC:Cell Culture Technologies Lecture 16 - Poly D lysine deposition
Link NOC:Cell Culture Technologies Lecture 17 - Surface chemical analysis
Link NOC:Cell Culture Technologies Lecture 18 - Cell growth process
Link NOC:Cell Culture Technologies Lecture 19 - Cell surface interface
Link NOC:Cell Culture Technologies Lecture 20 - Cell culture substrate patterning
Link NOC:Cell Culture Technologies Lecture 21 - Introduction of define system
Link NOC:Cell Culture Technologies Lecture 22 - Mechanical dissociation of hippocampal tissue
Link NOC:Cell Culture Technologies Lecture 23 - Rules for mechanical dissociation of tissue
Link NOC:Cell Culture Technologies Lecture 24 - Drum molecule testing
Link NOC:Cell Culture Technologies Lecture 25 - Adult hippocampal neuron dissociation
Link NOC:Cell Culture Technologies Lecture 26 - Cell separation and In vitro myelination cell culture mode - I
Link NOC:Cell Culture Technologies Lecture 27 - Cell separation and In vitro myelination cell culture mode - II
Link NOC:Cell Culture Technologies Lecture 28 - Cell separation and In vitro myelination cell culture mode - III
Link NOC:Cell Culture Technologies Lecture 29 - Cell Separation and In vitro myelination cell culture mode - IV
Link NOC:Cell Culture Technologies Lecture 30 - Cell separation and in vitro myelination cell culture mode - V
Link NOC:Cell Culture Technologies Lecture 31 - Fluorescent assisted cell sorting
Link NOC:Cell Culture Technologies Lecture 32 - Condition for regenerated cells
Link NOC:Cell Culture Technologies Lecture 33 - Introduction of skeletal muscle cell culture
Link NOC:Cell Culture Technologies Lecture 34 - Skeletal muscle cell culture
Link NOC:Cell Culture Technologies Lecture 35 - Cardiac muscle cell culture
Link NOC:Cell Culture Technologies Lecture 36 - Advance cell culture modules - I
Link NOC:Cell Culture Technologies Lecture 37 - Advance cell culture modules - II
Link NOC:Cell Culture Technologies Lecture 38 - Advance cell culture modules - III
Link NOC:Cell Culture Technologies Lecture 39 - Advance cell culture modules - IV
Link NOC:Cell Culture Technologies Lecture 40 - Advance cell culture modules - V
Link NOC:Forest Biometry Lecture 1 - Introduction
Link NOC:Forest Biometry Lecture 2 - Recap of formulae: area and volume
Link NOC:Forest Biometry Lecture 3 - Recap of trigonometry
Link NOC:Forest Biometry Lecture 4 - Measurment of central tendency and dispersion
Link NOC:Forest Biometry Lecture 5 - Graphical presentation of data
Link NOC:Forest Biometry Lecture 6 - Shape of a tree: Form and Taper
Link NOC:Forest Biometry Lecture 7 - Metzgers theory
Link NOC:Forest Biometry Lecture 8 - Form factor and form quotients
Link NOC:Forest Biometry Lecture 9 - Taper equations
Link NOC:Forest Biometry Lecture 10 - Making the cuts
Link NOC:Forest Biometry Lecture 11 - Cross-section of a tree
Link NOC:Forest Biometry Lecture 12 - Where to measure the diameter
Link NOC:Forest Biometry Lecture 13 - Callipers - Usages and Issues
Link NOC:Forest Biometry Lecture 14 - Tape: Usage and issue
Link NOC:Forest Biometry Lecture 15 - Measurement of bark and growth rings
Link NOC:Forest Biometry Lecture 16 - Tree height: Direct and indirect measurements
Link NOC:Forest Biometry Lecture 17 - Method of similar triangles: Shadow and sticks
Link NOC:Forest Biometry Lecture 18 - Distance measurements: foot, tape and rangefinder
Link NOC:Forest Biometry Lecture 19 - Angular measurement
Link NOC:Forest Biometry Lecture 20 - LIDAR
Link NOC:Forest Biometry Lecture 21 - Canopy attributes - Part I
Link NOC:Forest Biometry Lecture 22 - Canopy attributes - Part II
Link NOC:Forest Biometry Lecture 23 - Canopy attributes - Part III
Link NOC:Forest Biometry Lecture 24 - Canopy cover and closure
Link NOC:Forest Biometry Lecture 25 - Photogrammetry
Link NOC:Forest Biometry Lecture 26 - Basal area of a tree and stand
Link NOC:Forest Biometry Lecture 27 - Stand basal area, crop diameter and crop age
Link NOC:Forest Biometry Lecture 28 - Point sampling - I
Link NOC:Forest Biometry Lecture 29 - Point sampling - II
Link NOC:Forest Biometry Lecture 30 - Number density and sample calculations
Link NOC:Forest Biometry Lecture 31 - Volume: Direct calculations through sections
Link NOC:Forest Biometry Lecture 32 - The Quarter - girth formula
Link NOC:Forest Biometry Lecture 33 - Volume computations in the field
Link NOC:Forest Biometry Lecture 34 - Volume Table
Link NOC:Forest Biometry Lecture 35 - Forest Sampling
Link NOC:Forest Biometry Lecture 36 - Density and mass measurement
Link NOC:Forest Biometry Lecture 37 - Normalized difference vegetation Index (NDVI)
Link NOC:Forest Biometry Lecture 38 - Site quality
Link NOC:Forest Biometry Lecture 39 - Recap - I
Link NOC:Forest Biometry Lecture 40 - Recap - II
Link NOC:Introduction to Professional and Scientific Communication Lecture 1 - Introduction to the topic
Link NOC:Introduction to Professional and Scientific Communication Lecture 2 - Where do research ideas come from?
Link NOC:Introduction to Professional and Scientific Communication Lecture 3 - Inductive vs Deductive Reasoning
Link NOC:Introduction to Professional and Scientific Communication Lecture 4 - Scientific Hypothesis
Link NOC:Introduction to Professional and Scientific Communication Lecture 5 - Scientific Hypothesis (Continued...)
Link NOC:Introduction to Professional and Scientific Communication Lecture 6 - Testing the Hypothesis
Link NOC:Introduction to Professional and Scientific Communication Lecture 7 - Introduction to Scientific Writing
Link NOC:Introduction to Professional and Scientific Communication Lecture 8 - Writing an Abstract
Link NOC:Introduction to Professional and Scientific Communication Lecture 9 - Title for a Research Paper
Link NOC:Introduction to Professional and Scientific Communication Lecture 10 - Title and Keywords
Link NOC:Introduction to Professional and Scientific Communication Lecture 11 - Mileposts for the Article Writing
Link NOC:Introduction to Professional and Scientific Communication Lecture 12 - Writing the Methods Section
Link NOC:Introduction to Professional and Scientific Communication Lecture 13 - Writing the Results Section
Link NOC:Introduction to Professional and Scientific Communication Lecture 14 - Writing Results Section (Continued...)
Link NOC:Introduction to Professional and Scientific Communication Lecture 15 - How to Prepare Figures
Link NOC:Introduction to Professional and Scientific Communication Lecture 16 - How to Prepare Schematics
Link NOC:Introduction to Professional and Scientific Communication Lecture 17 - How to write Introduction and Discussion Sections
Link NOC:Introduction to Professional and Scientific Communication Lecture 18 - Finalizing the Manuscript and Ethics in Research
Link NOC:Introduction to Professional and Scientific Communication Lecture 19 - Writing a Research Proposal and Preparing for a Presentation
Link NOC:Introduction to Professional and Scientific Communication Lecture 20 - Tutorial Session : Oral communication
Link NOC:Bioelectrochemistry Lecture 1 - Basic Concepts - I
Link NOC:Bioelectrochemistry Lecture 2 - Basic Concepts - II
Link NOC:Bioelectrochemistry Lecture 3 - Key Terms
Link NOC:Bioelectrochemistry Lecture 4 - Galvanic Cells - I
Link NOC:Bioelectrochemistry Lecture 5 - Galvanic Cells - II
Link NOC:Bioelectrochemistry Lecture 6 - Salt Bridge
Link NOC:Bioelectrochemistry Lecture 7 - Standard Potentials - I
Link NOC:Bioelectrochemistry Lecture 8 - Standard Potentials - II
Link NOC:Bioelectrochemistry Lecture 9 - Standard Potentials - III
Link NOC:Bioelectrochemistry Lecture 10 - Nernst Equation
Link NOC:Bioelectrochemistry Lecture 11 - Relationship between Standard electrode potential (E°) and Equilibrium constant (K)
Link NOC:Bioelectrochemistry Lecture 12 - Cell as chemical probe and Biochemist's formal potential
Link NOC:Bioelectrochemistry Lecture 13 - Concept of Concentration Cell - I
Link NOC:Bioelectrochemistry Lecture 14 - Concept of Concentration Cell - II
Link NOC:Bioelectrochemistry Lecture 15 - Bio-electrochemistry of excitable cells (nerve cells)
Link NOC:Bioelectrochemistry Lecture 16 - Types of electrodes
Link NOC:Bioelectrochemistry Lecture 17 - Critical care profile and metal electrode
Link NOC:Bioelectrochemistry Lecture 18 - pH measurement: Ion selective electrode
Link NOC:Bioelectrochemistry Lecture 19 - Redox indicators amperometry: glucose, oxygen sensors
Link NOC:Bioelectrochemistry Lecture 20 - Redox proteins, Metalloproteins and Cyclic Voltammetry
Link NOC:Bioenergetics of Life Processes Lecture 1 - Bioenergetics of Life Processes: An Overview
Link NOC:Bioenergetics of Life Processes Lecture 2 - Bioenergetics: Origin of life
Link NOC:Bioenergetics of Life Processes Lecture 3 - Iron-Sulfur world
Link NOC:Bioenergetics of Life Processes Lecture 4 - Evolution of complex cellular membranes
Link NOC:Bioenergetics of Life Processes Lecture 5 - Charge transfer across membrane: Key terms
Link NOC:Bioenergetics of Life Processes Lecture 6 - Biological order and energy - I
Link NOC:Bioenergetics of Life Processes Lecture 7 - Biological order and energy - II
Link NOC:Bioenergetics of Life Processes Lecture 8 - Biological order and energy - III
Link NOC:Bioenergetics of Life Processes Lecture 9 - Summary of thermodynamical parameters - I
Link NOC:Bioenergetics of Life Processes Lecture 10 - Summary of thermodynamical parameters - II
Link NOC:Bioenergetics of Life Processes Lecture 11 - Photosynthesis - I
Link NOC:Bioenergetics of Life Processes Lecture 12 - Photosynthesis - II
Link NOC:Bioenergetics of Life Processes Lecture 13 - Photosynthesis - III
Link NOC:Bioenergetics of Life Processes Lecture 14 - Photosynthesis - IV
Link NOC:Bioenergetics of Life Processes Lecture 15 - Photosynthesis - V
Link NOC:Bioenergetics of Life Processes Lecture 16 - Photosynthesis - VI
Link NOC:Bioenergetics of Life Processes Lecture 17 - Photosynthesis - VII
Link NOC:Bioenergetics of Life Processes Lecture 18 - Photosynthesis - VIII
Link NOC:Bioenergetics of Life Processes Lecture 19 - ATP Synthesis
Link NOC:Bioenergetics of Life Processes Lecture 20 - Mitochondria and Chemiosmotic hypothesis
Link NOC:WildLife Conservation Lecture 1 - Preliminaries
Link NOC:WildLife Conservation Lecture 2 - A closer look at Biodiversity
Link NOC:WildLife Conservation Lecture 3 - Economics Valuation of Biodiversity
Link NOC:WildLife Conservation Lecture 4 - Threats to Biodiversity
Link NOC:WildLife Conservation Lecture 5 - Preliminaries
Link NOC:WildLife Conservation Lecture 6 - Basics of Sampling
Link NOC:WildLife Conservation Lecture 7 - Distance Sampling - I
Link NOC:WildLife Conservation Lecture 8 - Distance Sampling - II
Link NOC:WildLife Conservation Lecture 9 - Radio-telemetry
Link NOC:WildLife Conservation Lecture 10 - Behavioural monitoring
Link NOC:WildLife Conservation Lecture 11 - What is a habitat
Link NOC:WildLife Conservation Lecture 12 - Habitat degradation, loss, fragmentation and displacement
Link NOC:WildLife Conservation Lecture 13 - Reserve selection and design
Link NOC:WildLife Conservation Lecture 14 - Habitat management and improvement
Link NOC:WildLife Conservation Lecture 15 - Some terminologies
Link NOC:WildLife Conservation Lecture 16 - Some common wildlife diseases
Link NOC:WildLife Conservation Lecture 17 - Principles of disease management
Link NOC:WildLife Conservation Lecture 18 - Preliminaries
Link NOC:WildLife Conservation Lecture 19 - Mechanical capture
Link NOC:WildLife Conservation Lecture 20 - Chemical capture
Link NOC:WildLife Conservation Lecture 21 - Capture myopathy
Link NOC:WildLife Conservation Lecture 22 - Care of immobilised animal
Link NOC:WildLife Conservation Lecture 23 - Legal aspects of capture and restraint
Link NOC:WildLife Conservation Lecture 24 - Other topics in capture and restraint
Link NOC:WildLife Conservation Lecture 25 - Preliminaries and introduction to genetics
Link NOC:WildLife Conservation Lecture 26 - Population genetics
Link NOC:WildLife Conservation Lecture 27 - Chromosomal and genetic disorders, inbreeding
Link NOC:WildLife Conservation Lecture 28 - Population viability analysis
Link NOC:WildLife Conservation Lecture 29 - Reintroductions and outbreeding
Link NOC:WildLife Conservation Lecture 30 - Fundamentals
Link NOC:WildLife Conservation Lecture 31 - Zoos and their management
Link NOC:WildLife Conservation Lecture 32 - Botanical gardens
Link NOC:WildLife Conservation Lecture 33 - Other aspects: cryopreservation, seed banks, etc.
Link NOC:WildLife Conservation Lecture 34 - Impacts of climate change
Link NOC:WildLife Conservation Lecture 35 - Plastics and biodiversity
Link NOC:WildLife Conservation Lecture 36 - Oil spills
Link NOC:WildLife Conservation Lecture 37 - Crisis and learnings: The Sariska case-study
Link NOC:WildLife Conservation Lecture 38 - Revision - I
Link NOC:WildLife Conservation Lecture 39 - Revision - II
Link NOC:WildLife Conservation Lecture 40 - Revision - III
Link NOC:Nanotechnology in Agriculture Lecture 1 - Introduction
Link NOC:Nanotechnology in Agriculture Lecture 2 - What is Nanotechnology
Link NOC:Nanotechnology in Agriculture Lecture 3 - An outline
Link NOC:Nanotechnology in Agriculture Lecture 4 - Agriculture: Natural versus Modern
Link NOC:Nanotechnology in Agriculture Lecture 5 - Modern Agriculture: controlled or out of control
Link NOC:Nanotechnology in Agriculture Lecture 6 - A Restart:Utilising Our Discoveries
Link NOC:Nanotechnology in Agriculture Lecture 7 - Classifying nanomaterials Based on Shape and Geometry
Link NOC:Nanotechnology in Agriculture Lecture 8 - Classifying Nanomaterials Based on Chemical Nature
Link NOC:Nanotechnology in Agriculture Lecture 9 - Physical Approaches to Nanomaterial Synthesis
Link NOC:Nanotechnology in Agriculture Lecture 10 - Biological and Chemical Approaches to Nanomaterial Synthesis
Link NOC:Nanotechnology in Agriculture Lecture 11 - Detailed Physical Techniques - I
Link NOC:Nanotechnology in Agriculture Lecture 12 - Detailed Physical Techniques - II
Link NOC:Nanotechnology in Agriculture Lecture 13 - Detailed Chemical Techniques
Link NOC:Nanotechnology in Agriculture Lecture 14 - Detailed Biological Techniques
Link NOC:Nanotechnology in Agriculture Lecture 15 - Basic Characterisation Techniques of Nanomaterials
Link NOC:Nanotechnology in Agriculture Lecture 16 - Characterisation techniques for physical and chemical surface properties of a material
Link NOC:Nanotechnology in Agriculture Lecture 17 - Nanomaterials in Agriculture
Link NOC:Nanotechnology in Agriculture Lecture 18 - Iron pyrite and seed pre-treatment
Link NOC:Nanotechnology in Agriculture Lecture 19 - nano-Pyrite and its lab trial with chickpea
Link NOC:Nanotechnology in Agriculture Lecture 20 - nano-Pyrite field trial with spinach and its mechanistic details
Link NOC:Nanotechnology in Agriculture Lecture 21 - Mechanistic details of the action of Pyrite nano-particle
Link NOC:Nanotechnology in Agriculture Lecture 22 - Application of Pyrite nano-particle in different crops
Link NOC:Nanotechnology in Agriculture Lecture 23 - Application of different nano-particles in Agriculture - I
Link NOC:Nanotechnology in Agriculture Lecture 24 - Benefits of nanoparticles in Agriculture
Link NOC:Nanotechnology in Agriculture Lecture 25 - Nanotechnology in animal production
Link NOC:Nanotechnology in Agriculture Lecture 26 - Antioxidant nanomaterial in animal production - I
Link NOC:Nanotechnology in Agriculture Lecture 27 - Antioxidant nanomaterial in animal production - II
Link NOC:Nanotechnology in Agriculture Lecture 28 - Antioxidant nanomaterial in animal production - III
Link NOC:Nanotechnology in Agriculture Lecture 29 - Antioxidant nanomaterial in skeletal muscle development - I
Link NOC:Nanotechnology in Agriculture Lecture 30 - Antioxidant nanomaterial in skeletal muscle development - II
Link NOC:Nanotechnology in Agriculture Lecture 31 - Skeletal muscle development and nanomaterial intervention
Link NOC:Nanotechnology in Agriculture Lecture 32 - Fabrication of nano-micro devices to study force generation in muscles
Link NOC:Nanotechnology in Agriculture Lecture 33 - Summarising role of nanomaterials in animal production
Link NOC:Nanotechnology in Agriculture Lecture 34 - Nanomaterials in food processing and preservation - I
Link NOC:Nanotechnology in Agriculture Lecture 35 - Nanomaterials in food processing and preservation - II
Link NOC:Nanotechnology in Agriculture Lecture 36 - Multifunctionality of nanomaterial: water purification, waste disposal, and energy
Link NOC:Nanotechnology in Agriculture Lecture 37 - Futuristic multifunctional, sustainable and green nanomaterial
Link NOC:Nanotechnology in Agriculture Lecture 38 - Case study of Titanium dioxide - I
Link NOC:Nanotechnology in Agriculture Lecture 39 - Case study of Titanium dioxide - II
Link NOC:Nanotechnology in Agriculture Lecture 40 - The future: evolving nano world
Link NOC:Wild Life Ecology Lecture 1 - Introduction to the course
Link NOC:Wild Life Ecology Lecture 2 - A historical overview of Ecology
Link NOC:Wild Life Ecology Lecture 3 - Ecology and Evolution
Link NOC:Wild Life Ecology Lecture 4 - The levels of organisation
Link NOC:Wild Life Ecology Lecture 5 - Species abundance and composition: Biodiversity
Link NOC:Wild Life Ecology Lecture 6 - Biodiversity - II
Link NOC:Wild Life Ecology Lecture 7 - Positive Interactions
Link NOC:Wild Life Ecology Lecture 8 - Negative Interactions
Link NOC:Wild Life Ecology Lecture 9 - Study of Behaviour and Behavioral Ecology
Link NOC:Wild Life Ecology Lecture 10 - Food chains, Food webs and trophic levels
Link NOC:Wild Life Ecology Lecture 11 - Primary Production
Link NOC:Wild Life Ecology Lecture 12 - Nutrient Cycles
Link NOC:Wild Life Ecology Lecture 13 - Population parameters and demographic techniques
Link NOC:Wild Life Ecology Lecture 14 - Population growth and regulation
Link NOC:Wild Life Ecology Lecture 15 - Population studies and applications
Link NOC:Wild Life Ecology Lecture 16 - Community nature and parameters
Link NOC:Wild Life Ecology Lecture 17 - Community changes and ecological succession
Link NOC:Wild Life Ecology Lecture 18 - Community organisation
Link NOC:Wild Life Ecology Lecture 19 - Biography: Analysis of geographic distributions
Link NOC:Wild Life Ecology Lecture 20 - Why are things where they are?
Link NOC:Wild Life Ecology Lecture 21 - Some push and pull factors in greater detail
Link NOC:Wild Life Ecology Lecture 22 - Threats to species
Link NOC:Wild Life Ecology Lecture 23 - In-situ conservation
Link NOC:Wild Life Ecology Lecture 24 - Ex-situ conservation
Link NOC:Wild Life Ecology Lecture 25 - Introduction and impacts
Link NOC:Wild Life Ecology Lecture 26 - Human population growth and food requirements
Link NOC:Wild Life Ecology Lecture 27 - Sustainable development
Link NOC:Wild Life Ecology Lecture 28 - Oil spills
Link NOC:Wild Life Ecology Lecture 29 - Plastic and biodiversity
Link NOC:Wild Life Ecology Lecture 30 - Impacts of climate change
Link NOC:Wild Life Ecology Lecture 31 - Optimum yield problem
Link NOC:Wild Life Ecology Lecture 32 - Biological control
Link NOC:Wild Life Ecology Lecture 33 - Ecotoxicology and pollution management, Restoration ecology
Link NOC:Wild Life Ecology Lecture 34 - Revision
Link NOC:Wild Life Ecology Lecture 35 - Revision
Link NOC:Wild Life Ecology Lecture 36 - Revision
Link BioChemistry I Lecture 1 - Amino Acids - I
Link BioChemistry I Lecture 2 - Amino Acids - II
Link BioChemistry I Lecture 3 - Protein Structure - I
Link BioChemistry I Lecture 4 - Protein structure - II
Link BioChemistry I Lecture 5 - Protein Structure - III
Link BioChemistry I Lecture 6 - Protein Structure - IV
Link BioChemistry I Lecture 7 - Enzymes - I
Link BioChemistry I Lecture 8 - Enzymes - II
Link BioChemistry I Lecture 9 - Enzymes - III
Link BioChemistry I Lecture 10 - Enzymes Mechanisms - I
Link BioChemistry I Lecture 11 - Enzymes Mechanisms - II
Link BioChemistry I Lecture 12 - Myoglobin and Hemoglobin
Link BioChemistry I Lecture 13 - Lipids and Membranes - I
Link BioChemistry I Lecture 14 - Lipids and Membranes - II
Link BioChemistry I Lecture 15 - Membrane Transport
Link BioChemistry I Lecture 16 - Carbohydrates - I
Link BioChemistry I Lecture 17 - Carbohydrates - II
Link BioChemistry I Lecture 18 - Vitamins and Coenzymes - I
Link BioChemistry I Lecture 19 - Vitamins and Coenzymes - II
Link BioChemistry I Lecture 20 - Nucleic Acids - I
Link BioChemistry I Lecture 21 - Nucleic Acids - II
Link BioChemistry I Lecture 22 - Nucleic Acids - III
Link BioChemistry I Lecture 23 - Bioenergetics - I
Link BioChemistry I Lecture 24 - Bioenergetics - II
Link BioChemistry I Lecture 25 - Metabolism - I
Link BioChemistry I Lecture 26 - Metabolism - II
Link BioChemistry I Lecture 27 - Metabolism - III
Link BioChemistry I Lecture 28 - Overview of the Course
Link NOC:Industrial Biotechnology Lecture 1 - Industrial Biotechnology
Link NOC:Industrial Biotechnology Lecture 2 - Development of industrial strain
Link NOC:Industrial Biotechnology Lecture 3 - Medium characteristics and biochemical pathways
Link NOC:Industrial Biotechnology Lecture 4 - Chemical reaction kinetics
Link NOC:Industrial Biotechnology Lecture 5 - Chemical reaction analysis (Continued...)
Link NOC:Industrial Biotechnology Lecture 6 - Different types of reactors
Link NOC:Industrial Biotechnology Lecture 7 - Reactor analysis
Link NOC:Industrial Biotechnology Lecture 8 - Reactor analysis (Continued...)
Link NOC:Industrial Biotechnology Lecture 9 - Stoichiometry of bioprocesses
Link NOC:Industrial Biotechnology Lecture 10 - Stoichiometry of bioprocesses (Continued...)
Link NOC:Industrial Biotechnology Lecture 11 - Enzymatic Reaction Kinetics
Link NOC:Industrial Biotechnology Lecture 12 - Enzymatic Reaction Kinetics (Continued...)
Link NOC:Industrial Biotechnology Lecture 13 - Immobilization Techniques
Link NOC:Industrial Biotechnology Lecture 14 - Life cycle of the microbial cell, Microbial growth kinetics
Link NOC:Industrial Biotechnology Lecture 15 - Life cycle of the microbial cell, Microbial growth kinetics
Link NOC:Industrial Biotechnology Lecture 16 - Life cycle of the microbial cell, Microbial growth kinetics (Continued...)
Link NOC:Industrial Biotechnology Lecture 17 - Overview of the fermenter
Link NOC:Industrial Biotechnology Lecture 18 - Flow diagrams and pumps and valves used in fermentation industries
Link NOC:Industrial Biotechnology Lecture 19 - Upstream processing : Air sterilizer
Link NOC:Industrial Biotechnology Lecture 20 - Upstream processing : Medium sterilizer
Link NOC:Industrial Biotechnology Lecture 21 - Upstream Processing : Medium Sterilizer (Continued...)
Link NOC:Industrial Biotechnology Lecture 22 - Downstream Processing : Solid - Liquid Separators
Link NOC:Industrial Biotechnology Lecture 23 - Downstream Processing : Evaporator, Crystallizer
Link NOC:Industrial Biotechnology Lecture 24 - Downstream Processing : Liquid - Liquid Extraction
Link NOC:Industrial Biotechnology Lecture 25 - Ethanol Fermentation
Link NOC:Industrial Biotechnology Lecture 26 - Ethanol fermentation (Continued...)
Link NOC:Industrial Biotechnology Lecture 27 - Brewing industry
Link NOC:Industrial Biotechnology Lecture 28 - Brewing industry (Continued...)
Link NOC:Industrial Biotechnology Lecture 29 - Wine industry
Link NOC:Industrial Biotechnology Lecture 30 - Vinegar production
Link NOC:Industrial Biotechnology Lecture 31 - Citric acid production
Link NOC:Industrial Biotechnology Lecture 32 - Citric acid production (Continued...)
Link NOC:Industrial Biotechnology Lecture 33 - Citric acid production (Continued...)
Link NOC:Industrial Biotechnology Lecture 34 - Lactic acid production
Link NOC:Industrial Biotechnology Lecture 35 - Lactic acid production (Continued...)
Link NOC:Industrial Biotechnology Lecture 36 - Glutamic Acid Production
Link NOC:Industrial Biotechnology Lecture 37 - Penicillin Production
Link NOC:Industrial Biotechnology Lecture 38 - Penicillin Production (Continued...)
Link NOC:Industrial Biotechnology Lecture 39 - Streptomycin Production
Link NOC:Industrial Biotechnology Lecture 40 - Baker's Yeast fermentation
Link NOC:Industrial Biotechnology Lecture 41 - Baker's Yeast Fermentation (Continued...)
Link NOC:Industrial Biotechnology Lecture 42 - Fodder Yeast Production
Link NOC:Industrial Biotechnology Lecture 43 - Spirulina Production
Link NOC:Industrial Biotechnology Lecture 44 - Alpha Amylase Production
Link NOC:Industrial Biotechnology Lecture 45 - High Fructose Corn Syrup Production
Link NOC:Industrial Biotechnology Lecture 46 - Metal Leaching
Link NOC:Industrial Biotechnology Lecture 47 - Cheese Production
Link NOC:Industrial Biotechnology Lecture 48 - Cheese Production (Continued...)
Link NOC:Industrial Biotechnology Lecture 49 - Biodiesel Production
Link NOC:Industrial Biotechnology Lecture 50 - Butanol Production
Link NOC:Industrial Biotechnology Lecture 51 - Biopesticides
Link NOC:Industrial Biotechnology Lecture 52 - Biopolymer
Link NOC:Industrial Biotechnology Lecture 53 - Hepatitis B Vaccine
Link NOC:Industrial Biotechnology Lecture 54 - Insulin
Link NOC:Industrial Biotechnology Lecture 55 - Biofertilizer
Link NOC:Industrial Biotechnology Lecture 56 - Aerobic Effluent Treatment Process
Link NOC:Industrial Biotechnology Lecture 57 - Anaerobic Effluent Treatment Process : Biomethanation Process
Link NOC:Industrial Biotechnology Lecture 58 - Anaerobic Effluent Treatment Process : Biomethanation Process (Continued...)
Link NOC:Industrial Biotechnology Lecture 59 - 10 m3 Pilot Plant Operation for Biohydrogen Production
Link NOC:Industrial Biotechnology Lecture 60 - Summary and Conclusion
Link NOC:Aspects Of Biochemical Engineering Lecture 1 - Introduction
Link NOC:Aspects Of Biochemical Engineering Lecture 2 - Microbiology - I
Link NOC:Aspects Of Biochemical Engineering Lecture 3 - Microbiology - II
Link NOC:Aspects Of Biochemical Engineering Lecture 4 - Fundamentals of Biochemistry
Link NOC:Aspects Of Biochemical Engineering Lecture 5 - Bioproducts and their market values
Link NOC:Aspects Of Biochemical Engineering Lecture 6 - Stoichiometry of Biochemical Processes - I
Link NOC:Aspects Of Biochemical Engineering Lecture 7 - Stoichiometry of Biochemical Processes - II
Link NOC:Aspects Of Biochemical Engineering Lecture 8 - Stoichiometry of Biochemical Processes - III
Link NOC:Aspects Of Biochemical Engineering Lecture 9 - Reaction Thermodynamics - I
Link NOC:Aspects Of Biochemical Engineering Lecture 10 - Reaction Thermodynamics - II
Link NOC:Aspects Of Biochemical Engineering Lecture 11 - Kinetics of homogeneous chemical reactions - I
Link NOC:Aspects Of Biochemical Engineering Lecture 12 - Kinetics of homogeneous chemical reactions - II
Link NOC:Aspects Of Biochemical Engineering Lecture 13 - Kinetics of homogeneous chemical reactions - III
Link NOC:Aspects Of Biochemical Engineering Lecture 14 - Kinetics of homogeneous chemical reactions - IV
Link NOC:Aspects Of Biochemical Engineering Lecture 15 - Kinetics of homogeneous chemical reactions - V
Link NOC:Aspects Of Biochemical Engineering Lecture 16 - Different types of reactors
Link NOC:Aspects Of Biochemical Engineering Lecture 17 - Reactor analysis - I
Link NOC:Aspects Of Biochemical Engineering Lecture 18 - Reactor analysis - II
Link NOC:Aspects Of Biochemical Engineering Lecture 19 - Reactor analysis - III
Link NOC:Aspects Of Biochemical Engineering Lecture 20 - Reactor analysis - IV
Link NOC:Aspects Of Biochemical Engineering Lecture 21 - Kinetics of enzyme catalyzed reactions using free enzymes - I
Link NOC:Aspects Of Biochemical Engineering Lecture 22 - Kinetics of enzyme catalyzed reactions using free enzymes - II
Link NOC:Aspects Of Biochemical Engineering Lecture 23 - Kinetics of enzyme catalyzed reactions using free enzymes - III
Link NOC:Aspects Of Biochemical Engineering Lecture 24 - Kinetics of enzyme catalyzed reactions using free enzymes - IV
Link NOC:Aspects Of Biochemical Engineering Lecture 25 - Kinetics of enzyme catalyzed reactions using free enzymes - V
Link NOC:Aspects Of Biochemical Engineering Lecture 26 - Kinetics of enzyme catalyzed reactions using free enzymes - VI
Link NOC:Aspects Of Biochemical Engineering Lecture 27 - Immobilization of Enzymes - I
Link NOC:Aspects Of Biochemical Engineering Lecture 28 - Immobilization of Enzymes - II
Link NOC:Aspects Of Biochemical Engineering Lecture 29 - Kinetics of enzyme catalyzed reactions using immobilized enzymes - I
Link NOC:Aspects Of Biochemical Engineering Lecture 30 - Kinetics of enzyme catalyzed reactions using immobilized enzymes - II
Link NOC:Aspects Of Biochemical Engineering Lecture 31 - Kinetics of substrate utilization, product formation and biomass production of microbial cells - I
Link NOC:Aspects Of Biochemical Engineering Lecture 32 - Kinetics of substrate utilization, product formation and biomass production of microbial cells - II
Link NOC:Aspects Of Biochemical Engineering Lecture 33 - Kinetics of substrate utilization, product formation and biomass production of microbial cells - III
Link NOC:Aspects Of Biochemical Engineering Lecture 34 - Kinetics of substrate utilization, product formation and biomass production of microbial cells - IV
Link NOC:Aspects Of Biochemical Engineering Lecture 35 - Kinetics of substrate utilization, product formation and biomass production of microbial cells - V
Link NOC:Aspects Of Biochemical Engineering Lecture 36 - Kinetics of substrate utilization, product formation and biomass production of microbial cells - VI
Link NOC:Aspects Of Biochemical Engineering Lecture 37 - Kinetics of substrate utilization, product formation and biomass production of microbial cells - VII
Link NOC:Aspects Of Biochemical Engineering Lecture 38 - Kinetics of substrate utilization, product formation and biomass production of microbial cells - VIII
Link NOC:Aspects Of Biochemical Engineering Lecture 39 - Kinetics of substrate utilization, product formation and biomass production of microbial cells - IX
Link NOC:Aspects Of Biochemical Engineering Lecture 40 - Kinetics of substrate utilization, product formation and biomass production of microbial cells - X
Link NOC:Aspects Of Biochemical Engineering Lecture 41 - Kinetics of substrate utilization, product formation and biomass production of microbial cells - XI
Link NOC:Aspects Of Biochemical Engineering Lecture 42 - Design and analysis of activated sludge process - I
Link NOC:Aspects Of Biochemical Engineering Lecture 43 - Design and analysis of activated sludge process - II
Link NOC:Aspects Of Biochemical Engineering Lecture 44 - Design and analysis of anaerobic digestion process
Link NOC:Aspects Of Biochemical Engineering Lecture 45 - Scale up of Bioreactor - I
Link NOC:Aspects Of Biochemical Engineering Lecture 46 - Scale up of Bioreactor - II
Link NOC:Aspects Of Biochemical Engineering Lecture 47 - Transport Phenomenon in Bioprocess - I
Link NOC:Aspects Of Biochemical Engineering Lecture 48 - Transport Phenomenon in Bioprocess - II
Link NOC:Aspects Of Biochemical Engineering Lecture 49 - Transport Phenomenon in Bioprocess - III
Link NOC:Aspects Of Biochemical Engineering Lecture 50 - Transport Phenomenon in Bioprocess - IV
Link NOC:Aspects Of Biochemical Engineering Lecture 51 - Air sterilization - I
Link NOC:Aspects Of Biochemical Engineering Lecture 52 - Air sterilization - II
Link NOC:Aspects Of Biochemical Engineering Lecture 53 - Medium sterilization - I
Link NOC:Aspects Of Biochemical Engineering Lecture 54 - Medium sterilization - II
Link NOC:Aspects Of Biochemical Engineering Lecture 55 - Operation of industrial fermenter and material analysis
Link NOC:Aspects Of Biochemical Engineering Lecture 56 - Process control of the biochemical processes
Link NOC:Aspects Of Biochemical Engineering Lecture 57 - Downstream processing - I
Link NOC:Aspects Of Biochemical Engineering Lecture 58 - Downstream processing - II
Link NOC:Aspects Of Biochemical Engineering Lecture 59 - Economic analysis of the biochemical processes
Link NOC:Aspects Of Biochemical Engineering Lecture 60 - Summary and Conclusion
Link NOC:Biomicrofluidics Lecture 1 - Introduction to Biomicrofluidics
Link NOC:Biomicrofluidics Lecture 2 - Introduction to Biomicrofluidics (Continued...)
Link NOC:Biomicrofluidics Lecture 3 - Engineers' guide to the cell
Link NOC:Biomicrofluidics Lecture 4 - Fluidics in living systems and mechanobiology
Link NOC:Biomicrofluidics Lecture 5 - Pressure Driven Flows
Link NOC:Biomicrofluidics Lecture 6 - Surface tension driven flows
Link NOC:Biomicrofluidics Lecture 7 - Modulating surface tension
Link NOC:Biomicrofluidics Lecture 8 - Lab on a CD
Link NOC:Biomicrofluidics Lecture 9 - Introduction to Electrokinetics - Part I
Link NOC:Biomicrofluidics Lecture 10 - Introduction to Electrokinetics - Part II
Link NOC:Biomicrofluidics Lecture 11 - Microfluidic cell culture - Part I
Link NOC:Biomicrofluidics Lecture 12 - Microfluidic cell culture - Part II
Link NOC:Biomicrofluidics Lecture 13 - On-chip cellular assay techniques - Part I
Link NOC:Biomicrofluidics Lecture 14 - On-chip cellular assay techniques - Part II
Link NOC:Biomicrofluidics Lecture 15 - Microfluidics for understanding biology
Link NOC:Biomicrofluidics Lecture 16 - Organ-on-a-chip
Link NOC:Biomicrofluidics Lecture 17 - Lab-on-a-chip for genetic analysis
Link NOC:Biomicrofluidics Lecture 18 - Microfluidic technology for monoclonal antibody production
Link NOC:Biomicrofluidics Lecture 19 - Microfluidics for Healthcare
Link NOC:Biomicrofluidics Lecture 20 - Microfluidics for Healthcare
Link Downstream Processing Lecture 1 - Introduction
Link Downstream Processing Lecture 2 - Mass Balance, Heat Balance, Flow sheet
Link Downstream Processing Lecture 3 - Costing
Link Downstream Processing Lecture 4 - Costing (Continued...) Physical and Chemical Principles in Down Stream
Link Downstream Processing Lecture 5 - Problems in Mass Balance, Flow sheet
Link Downstream Processing Lecture 6 - Cell Breakage
Link Downstream Processing Lecture 7 - Cell Breakage (Continued...)
Link Downstream Processing Lecture 8 - Solid Liquid Separation
Link Downstream Processing Lecture 9 - Solid Liquid Separation (Continued...)
Link Downstream Processing Lecture 10 - Solid Liquid Separation - Problems
Link Downstream Processing Lecture 11 - Pre-Treatment and Filters
Link Downstream Processing Lecture 12 - Adsorption
Link Downstream Processing Lecture 13 - Adsorption (Continued...)
Link Downstream Processing Lecture 14 - Adsorption (Continued...)
Link Downstream Processing Lecture 15 - Adsorption (Continued...)
Link Downstream Processing Lecture 16 - Liquid Liquid Extraction
Link Downstream Processing Lecture 17 - Liquid Liquid Extraction (Continued...)
Link Downstream Processing Lecture 18 - Liquid Liquid Extraction (Continued...)
Link Downstream Processing Lecture 19 - Liquid Liquid Extraction (Continued...)
Link Downstream Processing Lecture 20 - Reversed Micellar and Aqueous Two Phase Extraction
Link Downstream Processing Lecture 21 - Membranes
Link Downstream Processing Lecture 22 - Membranes (Continued...)
Link Downstream Processing Lecture 23 - Membranes (Continued...)
Link Downstream Processing Lecture 24 - Membranes (Continued...)
Link Downstream Processing Lecture 25 - Precipitation
Link Downstream Processing Lecture 26 - Chromatography
Link Downstream Processing Lecture 27 - Chromatography (Continued...)
Link Downstream Processing Lecture 28 - Chromatography (Continued...)
Link Downstream Processing Lecture 29 - Chromatography (Continued...)
Link Downstream Processing Lecture 30 - Chromatography (Continued...)
Link Downstream Processing Lecture 31 - Chromatography (Continued...)
Link Downstream Processing Lecture 32 - Chromatography (Continued...)
Link Downstream Processing Lecture 33 - HPLC
Link Downstream Processing Lecture 34 - HPLC
Link Downstream Processing Lecture 35 - Crystallisation
Link Downstream Processing Lecture 36 - Drying
Link Downstream Processing Lecture 37 - Drying and Distillation
Link Downstream Processing Lecture 38 - Stabilisation, Utilities and Other Auxiliary Processes And Absorption
Link Downstream Processing Lecture 39 - Absorption, Electrophoresis/SDS PAGE
Link Downstream Processing Lecture 40 - Future Trends, Summary of Course
Link Thermodynamics Lecture 1 - Introduction and Review
Link Thermodynamics Lecture 2 - Need for Analysis Additional Thermodynamic Functions State and Path Variables
Link Thermodynamics Lecture 3 - Equations for a Closed system Chemical Potential Concept Gibbs-Duhem Equation
Link Thermodynamics Lecture 4 - Maxwell’s relations
Link Thermodynamics Lecture 5 - Inter-Relationships between Thermodynamic Variables
Link Thermodynamics Lecture 6 - Some Useful Mathematical Manipulations
Link Thermodynamics Lecture 7 - Thermodynamic Relations for a Closed System with 1 mole of a pure Substances
Link Thermodynamics Lecture 8 - Maximum Work,Lost Work Review of Closed Systems
Link Thermodynamics Lecture 9 - Open Systems
Link Thermodynamics Lecture 10 - Equations of State - Virial Equations
Link Thermodynamics Lecture 11 - Equations of State - Cubic Equations
Link Thermodynamics Lecture 12 - Volume Estimation
Link Thermodynamics Lecture 13 - Volume Estimation (Continued...) Generalized correlations
Link Thermodynamics Lecture 14 - Generalized correlations (Continued...) Residual Properties
Link Thermodynamics Lecture 15 - Residual Properties (Continued...)
Link Thermodynamics Lecture 16 - Generalized Correlations and Residual Properties
Link Thermodynamics Lecture 17 - Fugacity Coefficient Estimation
Link Thermodynamics Lecture 18 - Review of Module 3
Link Thermodynamics Lecture 19 - Learning Aspects Chemical Potential Formulations
Link Thermodynamics Lecture 20 - Lewis and Randall rule partial Molar Properties
Link Thermodynamics Lecture 21 - Partial Molar Property Estimation from Mixing Experiments
Link Thermodynamics Lecture 22 - Partial Molar Property Estimation (Continued...) Excess Property
Link Thermodynamics Lecture 23 - Activity Coefficient from Excess Property
Link Thermodynamics Lecture 24 - Activity Coefficient from Excess Property (Continued...)
Link Thermodynamics Lecture 25 - Activity Coefficient from Excess Property (Continued...) Models for Activity Coefficient in Binary Systems
Link Thermodynamics Lecture 26 - Models for Activity Coefficient in Binary Systems (Continued...)
Link Thermodynamics Lecture 27 - Review of Module 4
Link Thermodynamics Lecture 28 - Criteria for Phase Equilibrium Phase Rule for Non-reacting Biosystems
Link Thermodynamics Lecture 29 - Clausius - Clayperon Equation
Link Thermodynamics Lecture 30 - Clausius - Clayperon Equation (Continued...) vapour-Liquid Equilibrium
Link Thermodynamics Lecture 31 - Vapour-Liquid Equilibrium (Continued...) Estimation of Fugacity coefficient from Equilibrium P-V-T Data
Link Thermodynamics Lecture 32 - Liquid/Liquid and Solid/Liquid Equilibria
Link Thermodynamics Lecture 33 - Review of Module 5
Link Thermodynamics Lecture 34 - Criteria for Bio-reaction Equilibria
Link Thermodynamics Lecture 35 - Phase rule for Reacting Biosystems Equilibrium constants
Link Thermodynamics Lecture 36 - Effect of Temperature and Pressure on the Equilibrium constants
Link Thermodynamics Lecture 37 - Reaction in Liquid or Solid Phases
Link Thermodynamics Lecture 38 - Free energy Changes for some Bioreactions
Link Thermodynamics Lecture 39 - Electrolytes
Link Thermodynamics Lecture 40 - Course Review
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 1 - Introduction
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 2 - Mass balance, Heat Balance, Flow sheet
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 3 - Costing
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 4 - Cell Breakage
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 5 - Solid Liquid Separation
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 6 - Pre-treatment and Filters/centrifuge
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 7 - Liquid-Liquid Extraction
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 8 - Liquid-Liquid extraction (Continued...)
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 9 - Adsorption
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 10 - Reversed micellar and aqueous two phase extraction
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 11 - Membranes
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 12 - Membranes (Continued...)
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 13 - Product stabilization, Drying, Lyophilisation
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 14 - Precipitation and crystallization
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 15 - Electrophoresis / SDS PAGE
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 16 - Chromatography
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 17 - Chromatography (Continued...1)
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 18 - Chromatography (Continued...2)
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 19 - Chromatography (Continued...3)
Link NOC:Principles of Downstream Techniques in Bioprocess Lecture 20 - Future trends, Other downstream operations/Summary of the course
Link NOC:Biostatistics and Design of Experiments Lecture 1 - Introduction
Link NOC:Biostatistics and Design of Experiments Lecture 2 - Experimental Design Strategy
Link NOC:Biostatistics and Design of Experiments Lecture 3 - Data types : Binomial distribution
Link NOC:Biostatistics and Design of Experiments Lecture 4 - Poisson Distribution
Link NOC:Biostatistics and Design of Experiments Lecture 5 - Normal Distribution
Link NOC:Biostatistics and Design of Experiments Lecture 6 - Standardized Normal Distribution / t-distribution
Link NOC:Biostatistics and Design of Experiments Lecture 7 - t-distribution/confidence interval
Link NOC:Biostatistics and Design of Experiments Lecture 8 - Statistical tests
Link NOC:Biostatistics and Design of Experiments Lecture 9 - t-Test
Link NOC:Biostatistics and Design of Experiments Lecture 10 - t-Tests
Link NOC:Biostatistics and Design of Experiments Lecture 11 - t-test
Link NOC:Biostatistics and Design of Experiments Lecture 12 - F-tests
Link NOC:Biostatistics and Design of Experiments Lecture 13 - F-tests
Link NOC:Biostatistics and Design of Experiments Lecture 14 - ANOVA
Link NOC:Biostatistics and Design of Experiments Lecture 15 - ANOVA
Link NOC:Biostatistics and Design of Experiments Lecture 16 - Anova
Link NOC:Biostatistics and Design of Experiments Lecture 17 - Anova
Link NOC:Biostatistics and Design of Experiments Lecture 18 - Anova
Link NOC:Biostatistics and Design of Experiments Lecture 19 - Anova
Link NOC:Biostatistics and Design of Experiments Lecture 20 - Anova
Link NOC:Biostatistics and Design of Experiments Lecture 21 - Normality test / Odds ratio
Link NOC:Biostatistics and Design of Experiments Lecture 22 - Chi square distribution
Link NOC:Biostatistics and Design of Experiments Lecture 23 - Chi square distribution / test
Link NOC:Biostatistics and Design of Experiments Lecture 24 - Chi square test
Link NOC:Biostatistics and Design of Experiments Lecture 25 - Chi square test and Weibull Distribution
Link NOC:Biostatistics and Design of Experiments Lecture 26 - Weibull Distribution
Link NOC:Biostatistics and Design of Experiments Lecture 27 - Weibull distribution.
Link NOC:Biostatistics and Design of Experiments Lecture 28 - Non-parametric test
Link NOC:Biostatistics and Design of Experiments Lecture 29 - Non parametric test/homogeneity of variance / beta distribution
Link NOC:Biostatistics and Design of Experiments Lecture 30 - Exponential / hypergeometric distributions
Link NOC:Biostatistics and Design of Experiments Lecture 31 - Hypergeometric / Log norma distribution
Link NOC:Biostatistics and Design of Experiments Lecture 32 - Design of experiments (DOE) - Introduction
Link NOC:Biostatistics and Design of Experiments Lecture 33 - Factorial Design
Link NOC:Biostatistics and Design of Experiments Lecture 34 - Full factorial design
Link NOC:Biostatistics and Design of Experiments Lecture 35 - Fractional factorial design
Link NOC:Biostatistics and Design of Experiments Lecture 36 - Other designs
Link NOC:Biostatistics and Design of Experiments Lecture 37 - Second order designs
Link NOC:Biostatistics and Design of Experiments Lecture 38 - Second order design
Link NOC:Biostatistics and Design of Experiments Lecture 39 - Regression analysis
Link NOC:Biostatistics and Design of Experiments Lecture 40 - Control charts
Link NOC:Bioreactors Lecture 1 - Introduction
Link NOC:Bioreactors Lecture 2 - Sterilization
Link NOC:Bioreactors Lecture 3 - Solution to PP 1.1
Link NOC:Bioreactors Lecture 4 - Some important concepts
Link NOC:Bioreactors Lecture 5 - Enzyme bioreactors, enzyme kinetics
Link NOC:Bioreactors Lecture 6 - Solution to PP 2.1
Link NOC:Bioreactors Lecture 7 - Inhibited enzyme kinetics
Link NOC:Bioreactors Lecture 8 - Solution to PP 2.2
Link NOC:Bioreactors Lecture 9 - Measurement principles and methods
Link NOC:Bioreactors Lecture 10 - Batch growth kinetics
Link NOC:Bioreactors Lecture 11 - Solution to PP 3.1
Link NOC:Bioreactors Lecture 12 - Bioreactor analysis: chemostat and fed-batch
Link NOC:Bioreactors Lecture 13 - Solution to PP 3.2
Link NOC:Bioreactors Lecture 14 - Bioreactor environment parameters
Link NOC:Bioreactors Lecture 15 - Bioreactor env. par. (DO)
Link NOC:Bioreactors Lecture 16 - Solution to PP 4.1
Link NOC:Bioreactors Lecture 17 - Shear stress, scale-up, scale-down
Link NOC:Bioreactors Lecture 18 - Cell view: stoichiometry; degree of reductance
Link NOC:Bioreactors Lecture 19 - Solution to PP 5.1
Link NOC:Bioreactors Lecture 20 - Culture status, metabolic flux analysis
Link NOC:Bioreactors Lecture 21 - Course summary
Link NOC:Medical Biomaterials Lecture 1 - Introduction to Biomaterials
Link NOC:Medical Biomaterials Lecture 2 - Background history
Link NOC:Medical Biomaterials Lecture 3 - History
Link NOC:Medical Biomaterials Lecture 4 - Properties - Mechanical and Physico-chemical
Link NOC:Medical Biomaterials Lecture 5 - Properties - Mechanical and Physico-chemical
Link NOC:Medical Biomaterials Lecture 6 - Mechanical properties
Link NOC:Medical Biomaterials Lecture 7 - Mechanical Properties (Continued...)
Link NOC:Medical Biomaterials Lecture 8 - Resorbability, biodegradation
Link NOC:Medical Biomaterials Lecture 9 - Resorbability, biodegradation (Continued...)
Link NOC:Medical Biomaterials Lecture 10 - Biofilm
Link NOC:Medical Biomaterials Lecture 11 - Biofilm (Continued...)
Link NOC:Medical Biomaterials Lecture 12 - Biofilm (Continued...)
Link NOC:Medical Biomaterials Lecture 13 - Biofilm (Continued...)
Link NOC:Medical Biomaterials Lecture 14 - Material characterization - Analytical instruments
Link NOC:Medical Biomaterials Lecture 15 - Analytical instruments
Link NOC:Medical Biomaterials Lecture 16 - Analytical instruments (Continued...)
Link NOC:Medical Biomaterials Lecture 17 - Analytical instruments (Continued...)
Link NOC:Medical Biomaterials Lecture 18 - Biological responses, compatibility, cytotoxicity
Link NOC:Medical Biomaterials Lecture 19 - Biological Responses
Link NOC:Medical Biomaterials Lecture 20 - Cell-biomaterial interaction
Link NOC:Medical Biomaterials Lecture 21 - Animal trials (in vivo)
Link NOC:Medical Biomaterials Lecture 22 - Animal trials
Link NOC:Medical Biomaterials Lecture 23 - Metals-types, classifications, applications
Link NOC:Medical Biomaterials Lecture 24 - Metals - properties
Link NOC:Medical Biomaterials Lecture 25 - Metals - properties (Continued...)
Link NOC:Medical Biomaterials Lecture 26 - Metals - properties (Continued...)
Link NOC:Medical Biomaterials Lecture 27 - Metals
Link NOC:Medical Biomaterials Lecture 28 - Polymers-types, classifications, applications
Link NOC:Medical Biomaterials Lecture 29 - Polymers
Link NOC:Medical Biomaterials Lecture 30 - Polymers (Continued...)
Link NOC:Medical Biomaterials Lecture 31 - Polymer blends
Link NOC:Medical Biomaterials Lecture 32 - Natural biopolymers
Link NOC:Medical Biomaterials Lecture 33 - Natural biopolymers - (Continued...)
Link NOC:Medical Biomaterials Lecture 34 - Biopolymers- proteins / hydrogels
Link NOC:Medical Biomaterials Lecture 35 - Hydrogels
Link NOC:Medical Biomaterials Lecture 36 - Experiments
Link NOC:Medical Biomaterials Lecture 37 - surface modification-Demonstration
Link NOC:Medical Biomaterials Lecture 38 - Ceramics
Link NOC:Medical Biomaterials Lecture 39 - Cardiovascular and ocular biomaterials
Link NOC:Medical Biomaterials Lecture 40 - Sterilisation/Device failure
Link NOC:BioInformatics - Algorithms and Applications Lecture 1 - Concepts and importance of Bioinformatics
Link NOC:BioInformatics - Algorithms and Applications Lecture 2 - Complexities in biological systems
Link NOC:BioInformatics - Algorithms and Applications Lecture 3 - DNA sequence analysis
Link NOC:BioInformatics - Algorithms and Applications Lecture 4 - Sequence based parameters
Link NOC:BioInformatics - Algorithms and Applications Lecture 5 - Database
Link NOC:BioInformatics - Algorithms and Applications Lecture 6 - Database categories
Link NOC:BioInformatics - Algorithms and Applications Lecture 7 - Protein structure and function - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 8 - Protein structure and function - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 9 - Protein sequence databases - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 10 - Protein sequence databases - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 11 - Pairwise alignment - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 12 - Pairwise alignment - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 13 - Uniprot Demo
Link NOC:BioInformatics - Algorithms and Applications Lecture 14 - Sequence alignment - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 15 - Sequence alignment - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 16 - Sequence alignment: Online resources - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 17 - Sequence alignment: Online resources - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 18 - Conservation score - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 19 - Conservation score - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 20 - Blast Demo
Link NOC:BioInformatics - Algorithms and Applications Lecture 21 - Phylogenetic trees - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 22 - Phylogenetic trees - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 23 - Protein sequence analysis - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 24 - Protein sequence analysis - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 25 - Hydrophobicity profiles
Link NOC:BioInformatics - Algorithms and Applications Lecture 26 - Patterns and PSSM profiles
Link NOC:BioInformatics - Algorithms and Applications Lecture 27 - Construction of Non-redundant datasets - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 28 - Non-redundant datasets - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 29 - Protein secondary structure
Link NOC:BioInformatics - Algorithms and Applications Lecture 30 - Secondary structure prediction - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 31 - Secondary structure prediction - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 32 - Secondary structure prediction - III
Link NOC:BioInformatics - Algorithms and Applications Lecture 33 - Protein tertiary structure - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 34 - Protein tertiary structure - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 35 - Protein structure analysis - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 36 - Protein structure analysis - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 37 - Protein structure analysis - III
Link NOC:BioInformatics - Algorithms and Applications Lecture 38 - Demo: PDB or Pymol or PDBParam
Link NOC:BioInformatics - Algorithms and Applications Lecture 39 - Protein structure analysis - IV
Link NOC:BioInformatics - Algorithms and Applications Lecture 40 - Protein structure prediction - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 41 - Protein structure prediction - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 42 - Protein stability - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 43 - Protein stability - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 44 - Demo: Homology Modelling
Link NOC:BioInformatics - Algorithms and Applications Lecture 45 - Stabilizing residues
Link NOC:BioInformatics - Algorithms and Applications Lecture 46 - Thermodynamic database
Link NOC:BioInformatics - Algorithms and Applications Lecture 47 - Stability of proteins upon mutations - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 48 - Stability of proteins upon mutations - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 49 - Demo: ProTherm
Link NOC:BioInformatics - Algorithms and Applications Lecture 50 - Protein folding rate - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 51 - Protein folding rate - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 52 - Protein interactions - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 53 - Protein interactions - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 54 - Computer aided drug design - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 55 - Computer aided drug design - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 56 - Virtual screening - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 57 - Virtual screening - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 58 - QSAR - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 59 - QSAR - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 60 - Demo: Autodock
Link NOC:BioInformatics - Algorithms and Applications Lecture 61 - awk programming - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 62 - awk programming - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 63 - Development of algorithms - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 64 - Development of algorithms - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 65 - Applications of bioinformatics - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 66 - Applications of bioinformatics - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 67 - Overview - I
Link NOC:BioInformatics - Algorithms and Applications Lecture 68 - Overview - II
Link NOC:BioInformatics - Algorithms and Applications Lecture 69 - Demo: Weka
Link NOC:Demystifying the Brain Lecture 1 - The Whole and Its Parts: A History of Ideas about Brain
Link NOC:Demystifying the Brain Lecture 2 - Understanding Brain’s Shape - Segment 1 - Brain size and intelligence
Link NOC:Demystifying the Brain Lecture 3 - Understanding Brain’s Shape - Segment 2 - Save Wire Principle
Link NOC:Demystifying the Brain Lecture 4 - Understanding Brain’s Shape - Segment 3 - Brain Evolution
Link NOC:Demystifying the Brain Lecture 5 - Neurons and Neural Signaling: Outline
Link NOC:Demystifying the Brain Lecture 6 - Neural Signalling : Molecular and Cellular Basis
Link NOC:Demystifying the Brain Lecture 7 - Networks that Learn - Segment 1
Link NOC:Demystifying the Brain Lecture 8 - Multilayer Perceptrons Applications in Psychology and Neuroscience
Link NOC:Demystifying the Brain Lecture 9 - Organization of the Central Nervous System-Segment 1 - Cortex
Link NOC:Demystifying the Brain Lecture 10 - Organization of the Central Nervous System-Segment 2 - Subcortical Structures
Link NOC:Demystifying the Brain Lecture 11 - Maps in the Brain - Segment 1
Link NOC:Demystifying the Brain Lecture 12 - Maps in the Brain - Segment 2
Link NOC:Demystifying the Brain Lecture 13 - Emotions in the Brain - Segment 1
Link NOC:Demystifying the Brain Lecture 14 - Emotions in the Brain - Segment 2
Link NOC:Demystifying the Brain Lecture 15 - Memories and Holograms - Segment 1
Link NOC:Demystifying the Brain Lecture 16 - Memories and Holograms - Segment 2
Link NOC:Demystifying the Brain Lecture 17 - Consciousness - Segment 1
Link NOC:Demystifying the Brain Lecture 18 - Consciousness - Segment 2
Link NOC:Computational Systems Biology Lecture 1 - Introduction
Link NOC:Computational Systems Biology Lecture 2 - Introduction to Modelling
Link NOC:Computational Systems Biology Lecture 3 - Introduction to Modelling
Link NOC:Computational Systems Biology Lecture 4 - Fundamentals of Mathematical Modelling
Link NOC:Computational Systems Biology Lecture 5 - Fundamentals of Mathematical Modelling
Link NOC:Computational Systems Biology Lecture 6 - Fundamentals of Mathematical Modelling
Link NOC:Computational Systems Biology Lecture 7 - Some Example Models
Link NOC:Computational Systems Biology Lecture 8 - Representation of Biological Networks
Link NOC:Computational Systems Biology Lecture 9 - Lab: MATLAB Basics
Link NOC:Computational Systems Biology Lecture 10 - Lab: MATLAB Basics
Link NOC:Computational Systems Biology Lecture 11 - Lab: MATLAB Basics
Link NOC:Computational Systems Biology Lecture 12 - Lab: MATLAB Basics
Link NOC:Computational Systems Biology Lecture 13 - Introduction to Networks
Link NOC:Computational Systems Biology Lecture 14 - Introduction to Networks
Link NOC:Computational Systems Biology Lecture 15 - Introduction to Network Biology
Link NOC:Computational Systems Biology Lecture 16 - Introduction to Network Biology
Link NOC:Computational Systems Biology Lecture 17 - Introduction to Network Biology
Link NOC:Computational Systems Biology Lecture 18 - Network Biology
Link NOC:Computational Systems Biology Lecture 19 - Network Models
Link NOC:Computational Systems Biology Lecture 20 - Network Models
Link NOC:Computational Systems Biology Lecture 21 - Biological Networks
Link NOC:Computational Systems Biology Lecture 22 - Network Perturbations
Link NOC:Computational Systems Biology Lecture 23 - Community Detection
Link NOC:Computational Systems Biology Lecture 24 - Network Motifs
Link NOC:Computational Systems Biology Lecture 25 - Lab: Cytoscape
Link NOC:Computational Systems Biology Lecture 26 - Lab: Cytoscape
Link NOC:Computational Systems Biology Lecture 27 - Lab: Network Biology
Link NOC:Computational Systems Biology Lecture 28 - Network Biology: Recap
Link NOC:Computational Systems Biology Lecture 29 - Lab: Network Models and Perturbations
Link NOC:Computational Systems Biology Lecture 30 - Lab: Network Models and Perturbations
Link NOC:Computational Systems Biology Lecture 31 - Reconstruction of Gene Regulatory Networks
Link NOC:Computational Systems Biology Lecture 32 - Reconstruction of Protein Networks
Link NOC:Computational Systems Biology Lecture 33 - Reconstruction of Signalling Networks
Link NOC:Computational Systems Biology Lecture 34 - Reconstruction of Signalling Networks
Link NOC:Computational Systems Biology Lecture 35 - Introduction to Dynamic Modelling
Link NOC:Computational Systems Biology Lecture 36 - Introduction to Dynamic Modelling
Link NOC:Computational Systems Biology Lecture 37 - Introduction to Dynamic Modelling
Link NOC:Computational Systems Biology Lecture 38 - Lab: Solving ODEs in MATLAB
Link NOC:Computational Systems Biology Lecture 39 - Lab: Example Biological Model
Link NOC:Computational Systems Biology Lecture 40 - Parameter Estimation
Link NOC:Computational Systems Biology Lecture 41 - Parameter Estimation
Link NOC:Computational Systems Biology Lecture 42 - Parameter Estimation
Link NOC:Computational Systems Biology Lecture 43 - Methods for Parameter Estimation
Link NOC:Computational Systems Biology Lecture 44 - Direct Search Methods
Link NOC:Computational Systems Biology Lecture 45 - Genetic Algorithms
Link NOC:Computational Systems Biology Lecture 46 - Genetic Algorithms
Link NOC:Computational Systems Biology Lecture 47 - Other Evolutionary Algorithms
Link NOC:Computational Systems Biology Lecture 48 - PyGMO
Link NOC:Computational Systems Biology Lecture 49 - Dynamic Modelling Recap
Link NOC:Computational Systems Biology Lecture 50 - Lab: Parameter Estimation
Link NOC:Computational Systems Biology Lecture 51 - Guest Lecture: Modelling in Drug Development
Link NOC:Computational Systems Biology Lecture 52 - Guest Lecture: Modelling in Drug Development
Link NOC:Computational Systems Biology Lecture 53 - Guest Lecture: Quantitative Systems Pharmacology
Link NOC:Computational Systems Biology Lecture 54 - Guest Lecture: Quantitative Systems Pharmacology
Link NOC:Computational Systems Biology Lecture 55 - Guest Lecture: Quantitative Systems Pharmacology
Link NOC:Computational Systems Biology Lecture 56 - Constraint-based Modelling of Metabolic Networks
Link NOC:Computational Systems Biology Lecture 57 - Flux Balance Analysis
Link NOC:Computational Systems Biology Lecture 58 - Flux Balance Analysis
Link NOC:Computational Systems Biology Lecture 59 - Flux Balance Analysis
Link NOC:Computational Systems Biology Lecture 60 - Other Constraint-Based Approaches
Link NOC:Computational Systems Biology Lecture 61 - Other Constraint-Based Approaches
Link NOC:Computational Systems Biology Lecture 62 - Lab: FBA using MATLAB
Link NOC:Computational Systems Biology Lecture 63 - Perturbations to Metabolic Networks: Deletions
Link NOC:Computational Systems Biology Lecture 64 - Lab: COBRA Toolbox
Link NOC:Computational Systems Biology Lecture 65 - Understanding FBA
Link NOC:Computational Systems Biology Lecture 66 - Understanding FBA
Link NOC:Computational Systems Biology Lecture 67 - Perturbations to Metabolic Networks: Over-expression
Link NOC:Computational Systems Biology Lecture 68 - Perturbations to Metabolic Networks: Synthetic Lethals
Link NOC:Computational Systems Biology Lecture 69 - Perturbations to Metabolic Networks: Synthetic Lethals
Link NOC:Computational Systems Biology Lecture 70 - Constraint-based Modelling of Metabolic Networks
Link NOC:Computational Systems Biology Lecture 71 - Lab: Gene Deletions
Link NOC:Computational Systems Biology Lecture 72 - Integrating Regulatory Information into Constraint-Based Models
Link NOC:Computational Systems Biology Lecture 73 - Elementary Modes
Link NOC:Computational Systems Biology Lecture 74 - Elementary Modes
Link NOC:Computational Systems Biology Lecture 75 - Constraint-based Modelling of Metabolic Networks: Applications
Link NOC:Computational Systems Biology Lecture 76 - Constraint-based Modelling of Metabolic Networks: Applications
Link NOC:Computational Systems Biology Lecture 77 - Constraint-based Modelling of Metabolic Networks: Applications
Link NOC:Computational Systems Biology Lecture 78 - Lab: Gene Deletions
Link NOC:Computational Systems Biology Lecture 79 - Constraint-based Modelling of Metabolic Networks: Recap
Link NOC:Computational Systems Biology Lecture 80 - Constraint-based Modelling of Metabolic Networks: Recap
Link NOC:Computational Systems Biology Lecture 81 - Constraint-based Modelling of Metabolic Networks: Recap
Link NOC:Computational Systems Biology Lecture 82 - $^{13}$C-Metabolic Flux Analysis using Mass Spectrometry
Link NOC:Computational Systems Biology Lecture 83 - $^{13}$C-Metabolic Flux Analysis using Mass Spectrometry
Link NOC:Computational Systems Biology Lecture 84 - $^{13}$C-Metabolic Flux Analysis using Mass Spectrometry
Link NOC:Computational Systems Biology Lecture 85 - Lab: $^{13}$C-Metabolic Flux Analysis using Mass Spectrometry
Link NOC:Computational Systems Biology Lecture 86 - Modelling Gene Regulatory Networks
Link NOC:Computational Systems Biology Lecture 87 - Modelling Gene Regulatory Networks
Link NOC:Computational Systems Biology Lecture 88 - Modelling Gene Regulatory Networks
Link NOC:Computational Systems Biology Lecture 89 - Lab: Modelling Gene Regulatory Networks
Link NOC:Computational Systems Biology Lecture 90 - Lab: Modelling Gene Regulatory Networks
Link NOC:Computational Systems Biology Lecture 91 - Computational Modelling of Host-Pathogen Interactions
Link NOC:Computational Systems Biology Lecture 92 - Computational Modelling of Host-Pathogen Interactions
Link NOC:Computational Systems Biology Lecture 93 - Robustness in Biological Systems
Link NOC:Computational Systems Biology Lecture 94 - Robustness in Biological Systems: Mechanisms
Link NOC:Computational Systems Biology Lecture 95 - Robustness in Biological Systems: Organising Principles
Link NOC:Computational Systems Biology Lecture 96 - Robustness in Biological Systems: Trade-offs
Link NOC:Computational Systems Biology Lecture 97 - Obustness and Evolvability
Link NOC:Computational Systems Biology Lecture 98 - obustness and Evolvability
Link NOC:Computational Systems Biology Lecture 99 - Introduction to Synthetic Biology
Link NOC:Computational Systems Biology Lecture 100 - Advanced Topics
Link NOC:Computational Systems Biology Lecture 101 - Advanced Topics
Link NOC:Computational Systems Biology Lecture 102 - Advanced Topics
Link NOC:Computational Systems Biology Lecture 103 - Course Recap
Link NOC:Material and Energy Balances Lecture 1 - Fundamentals of Engineering Calculations
Link NOC:Material and Energy Balances Lecture 2 - Process Parameters and Variables
Link NOC:Material and Energy Balances Lecture 3 - Fundamentals of Material Balances
Link NOC:Material and Energy Balances Lecture 4 - Material Balance Calculations for Single Units Without Reactions - Part 1
Link NOC:Material and Energy Balances Lecture 5 - Material Balance Calculations for Single Units Without Reactions - Part 2
Link NOC:Material and Energy Balances Lecture 6 - Material Balance Calculations for Single Units Without Reactions - Part 3
Link NOC:Material and Energy Balances Lecture 7 - Material Balance Calculations for Single Units Without Reactions - Part 4
Link NOC:Material and Energy Balances Lecture 8 - Material Balance Calculations for Multiple Units Without Reactions - Part 1
Link NOC:Material and Energy Balances Lecture 9 - Material Balance Calculations for Multiple Units Without Reactions - Part 2
Link NOC:Material and Energy Balances Lecture 10 - Fundamentals of Reactive Processes
Link NOC:Material and Energy Balances Lecture 11 - Material Balance Calculations For Single Units With A Single Reaction
Link NOC:Material and Energy Balances Lecture 12 - Material Balance Calculations for Single Units with A Single Reaction (Continued...)
Link NOC:Material and Energy Balances Lecture 13 - Material Balance Calculations for Single Units with Multiple Reactions - Part 1
Link NOC:Material and Energy Balances Lecture 14 - Material Balance Calculations for Single Units with Multiple Reactions - Part 2
Link NOC:Material and Energy Balances Lecture 15 - Material Balance Calculations for Single Units with Multiple Reactions - Part 3
Link NOC:Material and Energy Balances Lecture 16 - Material Balance Calculations for Multiple Units with Reactions - Part 1
Link NOC:Material and Energy Balances Lecture 17 - Material Balance Calculations for Multiple Units with Reactions - Part 2
Link NOC:Material and Energy Balances Lecture 18 - Material Balances on Reactive Processes - Tutorials
Link NOC:Material and Energy Balances Lecture 19 - Combustion Reactions: An Introduction
Link NOC:Material and Energy Balances Lecture 20 - Material Balances for Combustion Reactions
Link NOC:Material and Energy Balances Lecture 21 - Biochemical Reactions: Enzyme Kinetics
Link NOC:Material and Energy Balances Lecture 22 - Biochemical Reactions: Cell Growth
Link NOC:Material and Energy Balances Lecture 23 - Recycle Without Reactions
Link NOC:Material and Energy Balances Lecture 24 - Recycle with Reactions
Link NOC:Material and Energy Balances Lecture 25 - Recycle: Tutorials
Link NOC:Material and Energy Balances Lecture 26 - Bypass
Link NOC:Material and Energy Balances Lecture 27 - Purge
Link NOC:Material and Energy Balances Lecture 28 - Material Balance: A Review - Part 1
Link NOC:Material and Energy Balances Lecture 29 - Material Balance: A Review - Part 2
Link NOC:Material and Energy Balances Lecture 30 - Material Balance: A Review - Part 3
Link NOC:Material and Energy Balances Lecture 31 - The Unreasonable Effectiveness of Material Balance
Link NOC:Material and Energy Balances Lecture 32 - Constraint-based modelling
Link NOC:Material and Energy Balances Lecture 33 - Flux balance analysis - Part 1
Link NOC:Material and Energy Balances Lecture 34 - Flux balance analysis - Part 2
Link NOC:Material and Energy Balances Lecture 35 - Energy Balance Terminologies and Concepts
Link NOC:Material and Energy Balances Lecture 36 - Introduction to Energy Balances - Part 1
Link NOC:Material and Energy Balances Lecture 37 - Introduction to Energy Balances - Part 2
Link NOC:Material and Energy Balances Lecture 38 - Introduction to Energy Balances: Tutorials
Link NOC:Material and Energy Balances Lecture 39 - Mechanical Energy Balances
Link NOC:Material and Energy Balances Lecture 40 - Mechanical Energy Balances: Tutorials
Link NOC:Material and Energy Balances Lecture 41 - Energy Balance Objectives and Procedures
Link NOC:Material and Energy Balances Lecture 42 - Introduction to Nonreactive Processes Without Phase Change
Link NOC:Material and Energy Balances Lecture 43 - Energy Balances on Single-Phase Nonreactive Processes
Link NOC:Material and Energy Balances Lecture 44 - Energy Balances on Single-Phase Nonreactive Processes: Tutorials
Link NOC:Material and Energy Balances Lecture 45 - Fundamentals of Nonreactive Phase Change Processes
Link NOC:Material and Energy Balances Lecture 46 - Estimating Latent Heats
Link NOC:Material and Energy Balances Lecture 47 - Energy Balances on Nonreactive Processes With Phase Change
Link NOC:Material and Energy Balances Lecture 48 - Energy Balances on Nonreactive Processes With Phase Change: Tutorials - 1
Link NOC:Material and Energy Balances Lecture 49 - Energy Balances on Nonreactive Processes With Phase Change: Tutorials - 2
Link NOC:Material and Energy Balances Lecture 50 - Psychrometric Charts
Link NOC:Material and Energy Balances Lecture 51 - Energy Balances Using Psychrometric Charts
Link NOC:Material and Energy Balances Lecture 52 - Mixing and Solution
Link NOC:Material and Energy Balances Lecture 53 - Mixing and Solution: Tutorials - 1
Link NOC:Material and Energy Balances Lecture 54 - Mixing and Solution: Tutorials - 2
Link NOC:Material and Energy Balances Lecture 55 - Fundamentals for Energy Balances on Reactive Processes - Part 1
Link NOC:Material and Energy Balances Lecture 56 - Fundamentals for Energy Balances on Reactive Processes - Part 1 and Part 2
Link NOC:Material and Energy Balances Lecture 57 - Fundamentals for Energy Balances on Reactive Processes - Tutorials
Link NOC:Material and Energy Balances Lecture 58 - Energy Balances on Reactive Processes - Part 1
Link NOC:Material and Energy Balances Lecture 59 - Energy Balances on Reactive Processes - Part 2
Link NOC:Material and Energy Balances Lecture 60 - Energy Balances on Reactive Processes - Part 3
Link NOC:Material and Energy Balances Lecture 61 - Energy Balances on Reactive Processes - Part 4
Link NOC:Material and Energy Balances Lecture 62 - Energy Balances on Reactive Processes - Part 5
Link NOC:Material and Energy Balances Lecture 63 - Energy Balances on Reactive Processes - Part 6
Link NOC:Material and Energy Balances Lecture 64 - Energy Balances: A Review - Part 1
Link NOC:Material and Energy Balances Lecture 65 - Energy Balances: A Review - Part 2
Link NOC:Material and Energy Balances Lecture 66 - Energy Balances: A Review - Part 3
Link NOC:Material and Energy Balances Lecture 67 - Energy Balances: A Review - Part 4
Link NOC:Material and Energy Balances Lecture 68 - Unsteady State Material Balances
Link NOC:Material and Energy Balances Lecture 69 - Unsteady State Energy Balances
Link NOC:Computer Aided Drug Design Lecture 1 - Introduction
Link NOC:Computer Aided Drug Design Lecture 2 - Drug Discovery - Issues
Link NOC:Computer Aided Drug Design Lecture 3 - Target and Lead Identification
Link NOC:Computer Aided Drug Design Lecture 4 - Drug And Data bases
Link NOC:Computer Aided Drug Design Lecture 5 - Drug Properties
Link NOC:Computer Aided Drug Design Lecture 6 - Drug - Properties / SMILES
Link NOC:Computer Aided Drug Design Lecture 7 - Drug Solubility
Link NOC:Computer Aided Drug Design Lecture 8 - Drug Solubility / permeability
Link NOC:Computer Aided Drug Design Lecture 9 - ADME
Link NOC:Computer Aided Drug Design Lecture 10 - Drug - ADME
Link NOC:Computer Aided Drug Design Lecture 11 - Drug - ADME
Link NOC:Computer Aided Drug Design Lecture 12 - Drug - BBB
Link NOC:Computer Aided Drug Design Lecture 13 - Pgp efflux/Drug Likeness
Link NOC:Computer Aided Drug Design Lecture 14 - Drug Likeness
Link NOC:Computer Aided Drug Design Lecture 15 - Molecular Modelling
Link NOC:Computer Aided Drug Design Lecture 16 - Molecular Mechanics / Force Field
Link NOC:Computer Aided Drug Design Lecture 17 - Molecular Mechanics / Force Field
Link NOC:Computer Aided Drug Design Lecture 18 - Molecular Mechanics / Force Field
Link NOC:Computer Aided Drug Design Lecture 19 - Molecular Mechanics / Force Field
Link NOC:Computer Aided Drug Design Lecture 20 - ODES and Numerical methods
Link NOC:Computer Aided Drug Design Lecture 21 - ODES and Numerical methods
Link NOC:Computer Aided Drug Design Lecture 22 - Conformational Search / MD
Link NOC:Computer Aided Drug Design Lecture 23 - Quantum Mechanics
Link NOC:Computer Aided Drug Design Lecture 24 - Quantum Mechanics
Link NOC:Computer Aided Drug Design Lecture 25 - Quantitative Struture Activity Relationship (QSAR)
Link NOC:Computer Aided Drug Design Lecture 26 - Quantitative Struture Activity Relationship (QSAR)
Link NOC:Computer Aided Drug Design Lecture 27 - Quantitative Struture Activity Relationship (QSAR)
Link NOC:Computer Aided Drug Design Lecture 28 - Quantitative Struture Activity Relationship (QSAR)
Link NOC:Computer Aided Drug Design Lecture 29 - Quantitative Struture Activity Relationship (QSAR)
Link NOC:Computer Aided Drug Design Lecture 30 - Quantitative Struture Activity Relationship (QSAR)
Link NOC:Computer Aided Drug Design Lecture 31 - 3D QSAR
Link NOC:Computer Aided Drug Design Lecture 32 - Pharmacophore modelling
Link NOC:Computer Aided Drug Design Lecture 33 - Target based drug design
Link NOC:Computer Aided Drug Design Lecture 34 - Target based drug design
Link NOC:Computer Aided Drug Design Lecture 35 - Target based drug design
Link NOC:Computer Aided Drug Design Lecture 36 - Target based drug design
Link NOC:Computer Aided Drug Design Lecture 37 - Docking
Link NOC:Computer Aided Drug Design Lecture 38 - Docking
Link NOC:Computer Aided Drug Design Lecture 39 - Pharmacokinetics / pharmacodynamics
Link NOC:Computer Aided Drug Design Lecture 40 - Pharmacokinetics / pharmacodynamics
Link NOC:Plant Cell Bioprocessing Lecture 1 - Introduction to plant cell technology
Link NOC:Plant Cell Bioprocessing Lecture 2 - History of plant cell and tissue culture
Link NOC:Plant Cell Bioprocessing Lecture 3 - Anatomy of plant cells
Link NOC:Plant Cell Bioprocessing Lecture 4 - Plant tissues and functions
Link NOC:Plant Cell Bioprocessing Lecture 5 - Photosynthesis and Photorespiration
Link NOC:Plant Cell Bioprocessing Lecture 6 - In-vitro culture initiation
Link NOC:Plant Cell Bioprocessing Lecture 7 - Nutritional requirements of plant cells
Link NOC:Plant Cell Bioprocessing Lecture 8 - Organogenesis and Regeneration
Link NOC:Plant Cell Bioprocessing Lecture 9 - Somaclonal variation and Micropropagation
Link NOC:Plant Cell Bioprocessing Lecture 10 - Somatic embryogenesis and Protoplast culture
Link NOC:Plant Cell Bioprocessing Lecture 11 - Synthetic seeds, Cryopreservation and Freezing methods
Link NOC:Plant Cell Bioprocessing Lecture 12 - Secondary metabolism in plant cells - Part 1
Link NOC:Plant Cell Bioprocessing Lecture 13 - Secondary metabolism in plant cells - Part 2
Link NOC:Plant Cell Bioprocessing Lecture 14 - Secondary metabolism in plant cells - Part 3
Link NOC:Plant Cell Bioprocessing Lecture 15 - Secondary metabolism in plant cells - Part 4
Link NOC:Plant Cell Bioprocessing Lecture 16 - Optimization strategies - Part 1
Link NOC:Plant Cell Bioprocessing Lecture 17 - Optimization strategies - Part 2
Link NOC:Plant Cell Bioprocessing Lecture 18 - Optimization strategies - Part 3
Link NOC:Plant Cell Bioprocessing Lecture 19 - Optimization strategies - Part 4
Link NOC:Plant Cell Bioprocessing Lecture 20 - Biotransformation in plant cultures
Link NOC:Plant Cell Bioprocessing Lecture 21 - Immobilization of plant cells
Link NOC:Plant Cell Bioprocessing Lecture 22 - Genetic transformations in plant cells - Part 1
Link NOC:Plant Cell Bioprocessing Lecture 23 - Genetic transformations in plant cells - Part 2
Link NOC:Plant Cell Bioprocessing Lecture 24 - Genetic transformations in plant cells - Part 3
Link NOC:Plant Cell Bioprocessing Lecture 25 - Plant Cell Bioreactors - Part 1
Link NOC:Plant Cell Bioprocessing Lecture 26 - Plant Cell Bioreactors - Part 2
Link NOC:Plant Cell Bioprocessing Lecture 27 - Bioreactors for Hairy Root cultures
Link NOC:Plant Cell Bioprocessing Lecture 28 - Case study - Part 1
Link NOC:Plant Cell Bioprocessing Lecture 29 - Case study - Part 2
Link NOC:Tissue Engineering Lecture 1 - Introduction to Tissue Engineering - Part 1
Link NOC:Tissue Engineering Lecture 2 - Introduction to Tissue Engineering - Part 2
Link NOC:Tissue Engineering Lecture 3 - Introduction to Tissue Engineering - Part 3
Link NOC:Tissue Engineering Lecture 4 - Scaffolds: Extracellular Matrix
Link NOC:Tissue Engineering Lecture 5 - Scaffolds: Natural Polymers
Link NOC:Tissue Engineering Lecture 6 - Scaffolds: Synthetic Polymers
Link NOC:Tissue Engineering Lecture 7 - Hydrogels - Part 1
Link NOC:Tissue Engineering Lecture 8 - Hydrogels - Part 2
Link NOC:Tissue Engineering Lecture 9 - Bioceramics
Link NOC:Tissue Engineering Lecture 10 - Scaffold fabrication strategies
Link NOC:Tissue Engineering Lecture 11 - Self Assembly
Link NOC:Tissue Engineering Lecture 12 - 3D Bioprinting
Link NOC:Tissue Engineering Lecture 13 - Material Characterization - Part 1
Link NOC:Tissue Engineering Lecture 14 - Material Characterization - Part 2
Link NOC:Tissue Engineering Lecture 15 - Material Characterization - Part 3
Link NOC:Tissue Engineering Lecture 16 - Cell Source
Link NOC:Tissue Engineering Lecture 17 - Cell Isolation - Part 1
Link NOC:Tissue Engineering Lecture 18 - Cell Isolation - Part 2
Link NOC:Tissue Engineering Lecture 19 - Tissue Dynamics
Link NOC:Tissue Engineering Lecture 20 - Cell Differentiation
Link NOC:Tissue Engineering Lecture 21 - Cell Adhesion
Link NOC:Tissue Engineering Lecture 22 - Cell Migration
Link NOC:Tissue Engineering Lecture 23 - Signaling and biomolecule delivery in Tissue Engineering
Link NOC:Tissue Engineering Lecture 24 - Bioreactors in Tissue Engineering
Link NOC:Tissue Engineering Lecture 25 - Challenges in Tissue Engineering
Link NOC:Tissue Engineering Lecture 26 - Host integration and immune responses - Part 1
Link NOC:Tissue Engineering Lecture 27 - Host integration and immune responses - Part 2
Link NOC:Tissue Engineering Lecture 28 - Bioethics of Tissue Engineering - Part 1
Link NOC:Tissue Engineering Lecture 29 - Bioethics of Tissue Engineering - Part 2
Link NOC:Tissue Engineering Lecture 30 - Skin Tissue Engineering - Part 1
Link NOC:Tissue Engineering Lecture 31 - Skin Tissue Engineering - Part 2
Link NOC:Tissue Engineering Lecture 32 - Bone Tissue Engineering - Part 1
Link NOC:Tissue Engineering Lecture 33 - Bone Tissue Engineering - Part 2
Link NOC:Tissue Engineering Lecture 34 - Bone Tissue Engineering - Part 3
Link NOC:Tissue Engineering Lecture 35 - Vascular Tissue Engineering
Link NOC:Tissue Engineering Lecture 36 - Corneal Tissue Engineering - Part 1
Link NOC:Tissue Engineering Lecture 37 - Corneal Tissue Engineering - Part 2
Link Analytical Technologies in Biotechnology Lecture 1 - Basic concepts in microscopy - 1
Link Analytical Technologies in Biotechnology Lecture 2 - Basic concepts in microscopy - 2
Link Analytical Technologies in Biotechnology Lecture 3 - Dark-field and phase contrast microscopy
Link Analytical Technologies in Biotechnology Lecture 4 - Differential interference contrast and polarization
Link Analytical Technologies in Biotechnology Lecture 5 - Fluorescence and confocal microscopy
Link Analytical Technologies in Biotechnology Lecture 6 - Transmission electron microscopy
Link Analytical Technologies in Biotechnology Lecture 7 - Transmission electron microscopy cont. and scanning electron microscopy
Link Analytical Technologies in Biotechnology Lecture 8 - Basic concepts - 1
Link Analytical Technologies in Biotechnology Lecture 9 - Basic concepts - 2
Link Analytical Technologies in Biotechnology Lecture 10 - GM counting and Scintillation counting
Link Analytical Technologies in Biotechnology Lecture 11 - Scintillation counting continued
Link Analytical Technologies in Biotechnology Lecture 12 - Autoradiography and RIA
Link Analytical Technologies in Biotechnology Lecture 13 - Safety aspects and applications
Link Analytical Technologies in Biotechnology Lecture 14 - Introduction and Basic concepts in chromatography - 1
Link Analytical Technologies in Biotechnology Lecture 15 - Basic concepts in chromatography - 2
Link Analytical Technologies in Biotechnology Lecture 16 - Low-pressure liquid chromatography (LPLC) and high performance liquid chromatography (HPLC)
Link Analytical Technologies in Biotechnology Lecture 17 - Ion-exchange chromatography
Link Analytical Technologies in Biotechnology Lecture 18 - Gel-filtration chromatography
Link Analytical Technologies in Biotechnology Lecture 19 - Affinity chromatography
Link Analytical Technologies in Biotechnology Lecture 20 - Gas-liquid chromatography
Link Analytical Technologies in Biotechnology Lecture 21 - Basic concepts in electrophoresis
Link Analytical Technologies in Biotechnology Lecture 22 - Horizontal and vertical gel electrophoresis
Link Analytical Technologies in Biotechnology Lecture 23 - Native gel electrophoresis and SDS-PAGE
Link Analytical Technologies in Biotechnology Lecture 24 - Isoelectric focusing (IEF), 2-D gel electrophoresis and protein detection methods
Link Analytical Technologies in Biotechnology Lecture 25 - Electrophoresis of nucleic acids
Link Analytical Technologies in Biotechnology Lecture 26 - Immunoelectrophoresis and capillary electrophoresis
Link Analytical Technologies in Biotechnology Lecture 27 - Introduction and Basic Concepts - 1
Link Analytical Technologies in Biotechnology Lecture 28 - Basic concepts - 2
Link Analytical Technologies in Biotechnology Lecture 29 - Types of centrifuges and analytical ultracentrifugation method
Link Analytical Technologies in Biotechnology Lecture 30 - Separation methods in preparative ultracentrifuges
Link Analytical Technologies in Biotechnology Lecture 31 - Types of rotors
Link Analytical Technologies in Biotechnology Lecture 32 - Types of rotors cont. and care of rotors
Link Analytical Technologies in Biotechnology Lecture 33 - Introduction and basic concepts
Link Analytical Technologies in Biotechnology Lecture 34 - UV-Visible spectroscopy
Link Analytical Technologies in Biotechnology Lecture 35 - Infrared and fluorescence spectroscopy
Link Analytical Technologies in Biotechnology Lecture 36 - Circular dichroism (CD) spectroscopy
Link Analytical Technologies in Biotechnology Lecture 37 - Nuclear magnetic resonance (NMR) spectroscopy and X-ray crystallography
Link Analytical Technologies in Biotechnology Lecture 38 - Atomic spectroscopy and mass spectrometry
Link Analytical Technologies in Biotechnology Lecture 39 - Polymerase chain reaction(PCR)
Link Analytical Technologies in Biotechnology Lecture 40 - DNA sequencing methods
Link Analytical Technologies in Biotechnology Lecture 41 - Enzyme linked immunosorbent assay (ELISA)
Link NOC:Biomedical Nanotechnology Lecture 1 - Introduction to Nano
Link NOC:Biomedical Nanotechnology Lecture 2 - Nano-Biomimicry
Link NOC:Biomedical Nanotechnology Lecture 3 - Synthesis of nanomaterials by Physical and Chemical Methods
Link NOC:Biomedical Nanotechnology Lecture 4 - Synthesis of nanomaterials by Biological Methods
Link NOC:Biomedical Nanotechnology Lecture 5 - Characterisation of Nanomaterials
Link NOC:Biomedical Nanotechnology Lecture 6 - DNA Nanotechnology
Link NOC:Biomedical Nanotechnology Lecture 7 - Protein and Glyco Nanotechnology
Link NOC:Biomedical Nanotechnology Lecture 8 - Lipid Nanotechnology
Link NOC:Biomedical Nanotechnology Lecture 9 - Bio-Nanomachines
Link NOC:Biomedical Nanotechnology Lecture 10 - Carbon nanotubes and Its Bio-Applications
Link NOC:Biomedical Nanotechnology Lecture 11 - Nanomaterials for Cancer Diagnosis
Link NOC:Biomedical Nanotechnology Lecture 12 - Nanomaterials for Cancer therapy
Link NOC:Biomedical Nanotechnology Lecture 13 - Nanotechnology in Tissue Engineering
Link NOC:Biomedical Nanotechnology Lecture 14 - Nano artificial cells
Link NOC:Biomedical Nanotechnology Lecture 15 - Nanotechnology in Organ Printing
Link NOC:Biomedical Nanotechnology Lecture 16 - Nanotechnology in Point-of-Care Diagnostics
Link NOC:Biomedical Nanotechnology Lecture 17 - Nano-Pharmacology and Drug Targeting
Link NOC:Biomedical Nanotechnology Lecture 18 - Cellular uptake mechanisms of nanomaterials
Link NOC:Biomedical Nanotechnology Lecture 19 - In vitro Methods to study antibacterial and anticancer properties of nanomaterials
Link NOC:Biomedical Nanotechnology Lecture 20 - Nanotoxicology
Link NOC:Plant Developmental Biology Lecture 1 - Life Cycle of an Angiosperm
Link NOC:Plant Developmental Biology Lecture 2 - Characteristics of Plant Growth and Development - I
Link NOC:Plant Developmental Biology Lecture 3 - Characteristics of Plant Growth and Development - II
Link NOC:Plant Developmental Biology Lecture 4 - Molecular Genetics of Plant Development - I
Link NOC:Plant Developmental Biology Lecture 5 - Molecular Genetics of Plant Development - II
Link NOC:Plant Developmental Biology Lecture 6 - Molecular Genetics of Plant Development - III
Link NOC:Plant Developmental Biology Lecture 7 - Molecular Genetics of Plant Development - IV
Link NOC:Plant Developmental Biology Lecture 8 - Molecular Genetics of Plant Development (Continued...) - I
Link NOC:Plant Developmental Biology Lecture 9 - Molecular Genetics of Plant Development (Continued...) - II
Link NOC:Plant Developmental Biology Lecture 10 - Molecular Genetics of Plant Development (Continued...) - III
Link NOC:Plant Developmental Biology Lecture 11 - Root Development
Link NOC:Plant Developmental Biology Lecture 12 - Root Development (Continued...)
Link NOC:Plant Developmental Biology Lecture 13 - Root Development (Vascular Development)
Link NOC:Plant Developmental Biology Lecture 14 - Root Branching: Lateral Root Development
Link NOC:Plant Developmental Biology Lecture 15 - Shoot Development: SAM Maintenance
Link NOC:Plant Developmental Biology Lecture 16 - Shoot Development: Organogenesis
Link NOC:Plant Developmental Biology Lecture 17 - Shoot Development: Leaf Development
Link NOC:Plant Developmental Biology Lecture 18 - Shoot Development: Flowering
Link NOC:Plant Developmental Biology Lecture 19 - Cell-Cell Communication During Plant Development
Link NOC:Plant Developmental Biology Lecture 20 - Techniques Used in Lab
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 1 - Introduction to Learning and Memory - I : Historical perspective
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 2 - Introduction to Learning and Memory - II : Classification
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 3 - Associative Learning I : Rules of Associative learning
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 4 - Associative learning II : Garcia and Koelling’s Experiment, Kamin’s Blocking Experiment
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 5 - Introduction to the Rescorla Wagner Model
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 6 - Application of Rescorla Wagner Model - I
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 7 - Application of Rescorla Wagner Model - II
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 8 - Application of Rescorla Wagner Model - III
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 9 - Application of Rescorla Wagner Model - IV
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 10 - Limitations of Rescorla Wagner Model
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 11 - Introduction of Reinforcement Learning - I : Thorndike’s view, Tolman’s views, Skinner Box
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 12 - Introduction of Reinforcement Learning - II : Classification, Thorndike’s view, Tolman’s views, Skinner Box (Continued...)
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 13 - Introduction of Reinforcement Learning - III : Understanding scheduling of reinforcers in operant conditioning
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 14 - Sign Tracking vs Goal Oriented/Tracking; Linking complex behaviors to simple molecules
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 15 - Sign Tracking vs Goal Oriented; Learning Linking complex behaviors to simple molecules - II
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 16 - Memory in Molecular Terms - I : Protein synthesis in memory consolidation
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 17 - Memory in Molecular Terms - II : Long term potentiation
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 18 - Memory in Molecular Terms - III : Properties of a memory molecule
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 19 - Memory in Molecular Terms - IV : Remote memory and its characteristics
Link NOC:Learning about Learning: A Course on Neurobiology of Learning and Memory Lecture 20 - Memory in Molecular Terms - V : Selective labelling of memory encoding neurons and their manipulation
Link NOC:Drug Delivery: Principles and Engineering Lecture 1 - Drug Delivery Introduction and Pharmacokinetics
Link NOC:Drug Delivery: Principles and Engineering Lecture 2 - Pharmacokinetics (Continued...)
Link NOC:Drug Delivery: Principles and Engineering Lecture 3 - Pro-drugs and Polymers Introduction
Link NOC:Drug Delivery: Principles and Engineering Lecture 4 - Polymers - Synthesis
Link NOC:Drug Delivery: Principles and Engineering Lecture 5 - Polymers - Properties
Link NOC:Drug Delivery: Principles and Engineering Lecture 6 - Biomedical Polymers
Link NOC:Drug Delivery: Principles and Engineering Lecture 7 - Biodegradable Polymers and Polymer Drug Conjugates - I
Link NOC:Drug Delivery: Principles and Engineering Lecture 8 - Polymer Drug Conjugates - II
Link NOC:Drug Delivery: Principles and Engineering Lecture 9 - Research Paper Discussion and Diffusion Controlled Systems
Link NOC:Drug Delivery: Principles and Engineering Lecture 10 - Controlled Release: Reservoir System - I
Link NOC:Drug Delivery: Principles and Engineering Lecture 11 - Controlled Release: Reservoir Systems and Non-erodible Systems
Link NOC:Drug Delivery: Principles and Engineering Lecture 12 - Controlled Release: Non-erodible Systems and Erodible systems
Link NOC:Drug Delivery: Principles and Engineering Lecture 13 - Math Exercise
Link NOC:Drug Delivery: Principles and Engineering Lecture 14 - Hydrogels - I
Link NOC:Drug Delivery: Principles and Engineering Lecture 15 - Hydrogels - II
Link NOC:Drug Delivery: Principles and Engineering Lecture 16 - Hydrogels - III
Link NOC:Drug Delivery: Principles and Engineering Lecture 17 - Hydrogels - IV
Link NOC:Drug Delivery: Principles and Engineering Lecture 18 - Nano and Micro-particles - I
Link NOC:Drug Delivery: Principles and Engineering Lecture 19 - Nano and Micro-particles - II
Link NOC:Drug Delivery: Principles and Engineering Lecture 20 - Nano and Micro-particles - III
Link NOC:Drug Delivery: Principles and Engineering Lecture 21 - Nano and Micro-particles - IV
Link NOC:Drug Delivery: Principles and Engineering Lecture 22 - Nano and Micro-particles - V
Link NOC:Drug Delivery: Principles and Engineering Lecture 23 - Nano and Micro-particles - VI
Link NOC:Drug Delivery: Principles and Engineering Lecture 24 - Nano and Micro-particles - VII
Link NOC:Drug Delivery: Principles and Engineering Lecture 25 - Protein Adsorption - I
Link NOC:Drug Delivery: Principles and Engineering Lecture 26 - Protein Adsorption - II
Link NOC:Drug Delivery: Principles and Engineering Lecture 27 - Protein Adsorption - III
Link NOC:Drug Delivery: Principles and Engineering Lecture 28 - Tissue Engineering - I
Link NOC:Drug Delivery: Principles and Engineering Lecture 29 - Tissue Engineering - II
Link NOC:Drug Delivery: Principles and Engineering Lecture 30 - Tissue Engineering - III
Link NOC:Drug Delivery: Principles and Engineering Lecture 31 - Drug Delivery in Tissue Engineering - I
Link NOC:Drug Delivery: Principles and Engineering Lecture 32 - Drug Delivery in Tissue Engineering - II
Link NOC:Drug Delivery: Principles and Engineering Lecture 33 - Implant Associated Infections - I
Link NOC:Drug Delivery: Principles and Engineering Lecture 34 - Implant Associated Infections - II
Link NOC:Drug Delivery: Principles and Engineering Lecture 35 - Route Specific Delivery: Oral Route - I
Link NOC:Drug Delivery: Principles and Engineering Lecture 36 - Route Specific Delivery: Oral Route - II
Link NOC:Drug Delivery: Principles and Engineering Lecture 37 - Route Specific Delivery: Oral and Subcutaneous Route
Link NOC:Drug Delivery: Principles and Engineering Lecture 38 - Route Specific Delivery: Intramuscular, Transdermal - I
Link NOC:Drug Delivery: Principles and Engineering Lecture 39 - Route Specific Delivery: Transdermal - II
Link NOC:Drug Delivery: Principles and Engineering Lecture 40 - Route Specific Delivery: Transdermal and Inhalation Route
Link NOC:Drug Delivery: Principles and Engineering Lecture 41 - Route Specific Delivery: Inhalation - II, Buccal and Rectal Administration
Link NOC:Drug Delivery: Principles and Engineering Lecture 42 - Research Paper Discussion: Dry Powder Particle Delivery
Link NOC:Drug Delivery: Principles and Engineering Lecture 43 - Route Specific Delivery: Intra-articular and Intravenous Administration
Link NOC:Drug Delivery: Principles and Engineering Lecture 44 - Intravenous Administration: Approved Nanocarriers and Immune System
Link NOC:Drug Delivery: Principles and Engineering Lecture 45 - Immune System - II
Link NOC:Drug Delivery: Principles and Engineering Lecture 46 - Complement System and Blood Clotting
Link NOC:Drug Delivery: Principles and Engineering Lecture 47 - Blood Clotting and Hemocompatibility of Materials; Adaptive Immune Response
Link NOC:Drug Delivery: Principles and Engineering Lecture 48 - Adaptive Immune Response and Vaccine
Link NOC:Drug Delivery: Principles and Engineering Lecture 49 - Vaccines
Link NOC:Drug Delivery: Principles and Engineering Lecture 50 - Vaccines and Immuno-isolated Cell Therapy
Link NOC:Drug Delivery: Principles and Engineering Lecture 51 - Immuno-isolated Cell Therapy
Link NOC:Drug Delivery: Principles and Engineering Lecture 52 - Immuno-isolated Cell and Gene Therapy
Link NOC:Drug Delivery: Principles and Engineering Lecture 53 - Gene Delivery: Vectors
Link NOC:Drug Delivery: Principles and Engineering Lecture 54 - Gene Delivery: Polymers
Link NOC:Drug Delivery: Principles and Engineering Lecture 55 - Genes as Vaccines
Link NOC:Drug Delivery: Principles and Engineering Lecture 56 - Vaccines: Gene Delivery and Other Variants
Link NOC:Drug Delivery: Principles and Engineering Lecture 57 - Cancer Vaccines
Link NOC:Drug Delivery: Principles and Engineering Lecture 58 - Cancer Vaccine: Immunotherapy
Link NOC:Drug Delivery: Principles and Engineering Lecture 59 - Responsive Delivery Systems - I
Link NOC:Drug Delivery: Principles and Engineering Lecture 60 - Responsive Delivery Systems - II
Link NOC:Drug Delivery: Principles and Engineering Lecture 61 - Targeted Drug Delivery System
Link NOC:Drug Delivery: Principles and Engineering Lecture 62 - Targeted Drug Delivery System: Research Paper Discussion
Link NOC:Drug Delivery: Principles and Engineering Lecture 63 - Nanotoxicology and Translation Pathways
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 1 - Introduction
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 2 - Substrate
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 3 - Substrate (Continued...)
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 4 - Introduction to cleanroom
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 5 - Contamination and surface cleaning
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 6 - Advanced cleaning techniques
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 7 - Defects
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 8 - Diffusion
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 9 - Diffusion - Advanced Concepts
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 10 - Ion Implantation
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 11 - Ion Implantation (Continued...)
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 12 - Native Films
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 13 - Native Films: Advanced Concepts
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 14 - Native Films: Defects at Si/SiO2 interface
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 15 - Methods and Some Definitions
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 16 - Chemical Vapor Depostion: Basics
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 17 - Chemical Vapor Depostion: Precursor Transport
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 18 - Chemical Vapor Depostion: Types of CVD Equipment
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 19 - Chemical Vapor Depostion: Nucleation and Growth
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 20 - Chemical Vapor Depostion: Other Details
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 21 - Atomic Layer Depostion
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 22 - Atomic Layer Depostion (Continued...)
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 23 - Physical Vapor Deposition: Basics
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 24 - Physical Vapor Deposition: Evaporation
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 25 - Physical Vapor Deposition: Sputtering
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 26 - Mettalization: Contact resistance
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 27 - Mettalization: Electromigration and Epilogue
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 28 - Pattern Transfer Bascis
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 29 - Optical lithography basics: resist process - 1
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 30 - Optical lithography basics: resist process - 2
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 31 - Optical Lithography: Contact and Proximity printing
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 32 - Optical Lithography: Stepper and Scanner
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 33 - Projection Lithography: Image formation basics
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 34 - Projection Lithography: Image formation in photoresist
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 35 - Optical lithography: Surface Reflection
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 36 - Optical Lithography: Mask Technology
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 37 - Lithography process technology glossary
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 38 - Optical Lithography: Resolution enhancement
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 39 - Electron beam lithography: Basics
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 40 - Electron beam lithography: Resist process
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 41 - Emerging lithography techniques
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 42 - Etching Figures of Merit
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 43 - Wet etching Basics
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 44 - Wet Ething Recipes
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 45 - Wet Ething Recipes
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 46 - Dry etch: Plasma Basics
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 47 - Dry etch: Plasma etching basics
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 48 - Dry etch: Plasma tool configuration
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 49 - Dry etch: Etch mechanism
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 50 - Dry etch: Etch chemistry
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 51 - Chemical Mechanical Polishing (CMP): Basics
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 52 - Chemical Mechanical Polishing (CMP): Tool and process
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 53 - Design for Manufacturability - 1
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 54 - Design for Manufacturability - 2
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 55 - Design for Manufacturability: Case study
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 56 - Process integration
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 57 - PV integration
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 58 - CMOS integration
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 59 - Lab demo: Silicon Nitride cantilever fabrication - 1
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 60 - Lab demo: Silicon Nitride cantilever fabrication - 2
Link NOC:Fundamentals of Micro and Nanofabrication Lecture 61 - CMOS process for photonics application
Link Advanced Chemical Reaction Engineering (PG) Lecture 1 - Course Overview - I
Link Advanced Chemical Reaction Engineering (PG) Lecture 2 - Course Overview - II
Link Advanced Chemical Reaction Engineering (PG) Lecture 3 - Design Equations - I
Link Advanced Chemical Reaction Engineering (PG) Lecture 4 - Design Equations - Illustrative Examples
Link Advanced Chemical Reaction Engineering (PG) Lecture 5 - Design Equations - II : Plug Flow Recycle Reactors
Link Advanced Chemical Reaction Engineering (PG) Lecture 6 - Illustrative Examples : 1) Plug Flow Recycle 2) Multiple reactions - I
Link Advanced Chemical Reaction Engineering (PG) Lecture 7 - Illustrative Examples : 1) Recycle Reactor with Condenser 2) CSTR with Recycle
Link Advanced Chemical Reaction Engineering (PG) Lecture 8 - Multiple Reactions - II
Link Advanced Chemical Reaction Engineering (PG) Lecture 9 - Modelling Multiple Reactions in Soil Environment - III
Link Advanced Chemical Reaction Engineering (PG) Lecture 10 - Semi Continuous Reactor Operation
Link Advanced Chemical Reaction Engineering (PG) Lecture 11 - Catalyst Deactivation - I
Link Advanced Chemical Reaction Engineering (PG) Lecture 12 - Catalyst Deactivation - II
Link Advanced Chemical Reaction Engineering (PG) Lecture 13 - Illustrative Example : 1) Determination of deactivation Parameters 2) Design for Deactivating Catalyst
Link Advanced Chemical Reaction Engineering (PG) Lecture 14 - Energy Balance - I
Link Advanced Chemical Reaction Engineering (PG) Lecture 15 - Energy Balance - II
Link Advanced Chemical Reaction Engineering (PG) Lecture 16 - Reacting Fluids as Energy Carrier
Link Advanced Chemical Reaction Engineering (PG) Lecture 17 - Illustrative Example : Energy Balance in Stirred Vessels
Link Advanced Chemical Reaction Engineering (PG) Lecture 18 - Energy Balance - III : Design for Constant T Operation
Link Advanced Chemical Reaction Engineering (PG) Lecture 19 - Energy Balance - IV : Temperature Effects on Rate & Equilibria
Link Advanced Chemical Reaction Engineering (PG) Lecture 20 - Energy Balance - V : Stability Analysis of Exothermic Stirred Tank
Link Advanced Chemical Reaction Engineering (PG) Lecture 21 - Illustrative Example : Stability of Exothermic Stirred Tank
Link Advanced Chemical Reaction Engineering (PG) Lecture 22 - Energy Balance - VI : 1) Tubular Reactor Heated/Cooled from Wall 2) Transient Behavior of CSTR
Link Advanced Chemical Reaction Engineering (PG) Lecture 23 - Illustrative Example : 1) Plug Flow with Heat Effects 2) Multiple Reactions
Link Advanced Chemical Reaction Engineering (PG) Lecture 24 - Illustrative Example : 1) Further Considerations in Energy Balance 2) Multiple Reactions
Link Advanced Chemical Reaction Engineering (PG) Lecture 25 - Illustrative Example : 1) Hot Spot as Design Basis 2) Design for Instantaneous Reactions
Link Advanced Chemical Reaction Engineering (PG) Lecture 26 - Residence Time Distribution Methods
Link Advanced Chemical Reaction Engineering (PG) Lecture 27 - Residence Time Distribution Models
Link Advanced Chemical Reaction Engineering (PG) Lecture 28 - Shrinking core Gas-Solid reactions Model
Link Advanced Chemical Reaction Engineering (PG) Lecture 29 - Shrinking core Ash Diffusion Model & Combination of Resistances
Link Advanced Chemical Reaction Engineering (PG) Lecture 30 - 1) Gas Solid Reactions Temperature Effects on Rate & Equilibria 2) Introduction to Population Balance - I
Link Advanced Chemical Reaction Engineering (PG) Lecture 31 - Illustrative Example : Temperature Effects on Rate & Equilibria
Link Advanced Chemical Reaction Engineering (PG) Lecture 32 - Population Balance Modelling - II
Link Advanced Chemical Reaction Engineering (PG) Lecture 33 - Population Balance Modelling - III
Link Advanced Chemical Reaction Engineering (PG) Lecture 34 - Illustrative Examples : Population Balance Models
Link Advanced Chemical Reaction Engineering (PG) Lecture 35 - Introduction to Environmental Reactions
Link Advanced Chemical Reaction Engineering (PG) Lecture 36 - Reaction Engineering Examples in Biochemical & Environmental Engineering
Link Advanced Chemical Reaction Engineering (PG) Lecture 37 - Illustrative Examples : 1) Biomethanation 2) Alcohol via Fermentation 3) Natural Selection
Link Advanced Chemical Reaction Engineering (PG) Lecture 38 - Illustrative Examples : 1) Enzyme Reaction 2) Microbial Reaction 3) Waste Treatment
Link Advanced Chemical Reaction Engineering (PG) Lecture 39 - Oxygen Sag Analysis in Rivers
Link Advanced Chemical Reaction Engineering (PG) Lecture 40 - Illustrative Examples : 1) Oxygen Sag Analysis 2) Population Balance Modelling of Forest 3) Sponge Iron Process
Link Advanced Chemical Reaction Engineering (PG) Lecture 41 - Illustrative Example : Gas- Solid Reaction RTD Models Reaction Network
Link Advanced Process Control Lecture 1 - Introduction and Motivation
Link Advanced Process Control Lecture 2 - Linearization of Mechanistic Models
Link Advanced Process Control Lecture 3 - Linearization of Mechanistic Models (Continued...)
Link Advanced Process Control Lecture 4 - Introduction to z-transforms and Development of Grey-box models
Link Advanced Process Control Lecture 5 - Introduction to Stability Analysis and Development of Output Error Models
Link Advanced Process Control Lecture 6 - Introduction to Stochastic Processes
Link Advanced Process Control Lecture 7 - Introduction to Stochastic Processes (Continued...)
Link Advanced Process Control Lecture 8 - Development of ARX models
Link Advanced Process Control Lecture 9 - Statistical Properties of ARX models and Development of ARMAX models
Link Advanced Process Control Lecture 10 - Development of ARMAX models (Continued...) and Issues in Model Development
Link Advanced Process Control Lecture 11 - Model Structure Selection and Issues in Model Development (Continued...)
Link Advanced Process Control Lecture 12 - Issues in Model Development (Continued...) and State Realizations of Transfer Function Models
Link Advanced Process Control Lecture 13 - Stability Analysis of Discrete Time Systems
Link Advanced Process Control Lecture 14 - Lyapunov Functions and Interaction Analysis and Multi-loop Control
Link Advanced Process Control Lecture 15 - Interaction Analysis and Multi-loop Control (Continued...)
Link Advanced Process Control Lecture 16 - Multivariable Decoupling Control and Soft Sensing and State Estimation
Link Advanced Process Control Lecture 17 - Development of Luenberger Observer
Link Advanced Process Control Lecture 18 - Development of Luenberger Observer (Continued...) and Introduction to Kalman Filtering
Link Advanced Process Control Lecture 19 - Kalman Filtering
Link Advanced Process Control Lecture 20 - Kalman Filtering (Continued...)
Link Advanced Process Control Lecture 21 - Kalman Filtering (Continued...)
Link Advanced Process Control Lecture 22 - Pole Placement State Feedback Control Design and Introduction to Linear Quadratic Gaussian (LQG) Control
Link Advanced Process Control Lecture 23 - Linear Quadratic Gaussian (LQG) Regulator Design
Link Advanced Process Control Lecture 24 - Linear Quadratic Gaussian (LQG) Controller Design
Link Advanced Process Control Lecture 25 - Model Predictive Control (MPC)
Link Advanced Process Control Lecture 26 - Model Predictive Control (Continued...)
Link Chemical Reaction Engineering II Lecture 1 - Introduction to catalysts and catalysis
Link Chemical Reaction Engineering II Lecture 2 - Steps in catalytic reaction: adsorption, desorption and reaction
Link Chemical Reaction Engineering II Lecture 3 - Derivation of the rate equation
Link Chemical Reaction Engineering II Lecture 4 - Heterogenous data analysis for reactor design - I
Link Chemical Reaction Engineering II Lecture 5 - Heterogenous data analysis for reactor design - II
Link Chemical Reaction Engineering II Lecture 6 - Catalyst deactivation and accounting for it in design - I
Link Chemical Reaction Engineering II Lecture 7 - Catalyst deactivation and accounting for it in design - II
Link Chemical Reaction Engineering II Lecture 8 - Synthesize the rate equation
Link Chemical Reaction Engineering II Lecture 9 - Introduction to intraparticle diffusion
Link Chemical Reaction Engineering II Lecture 10 - Intraparticle diffusion: Thiele modulus and effectiveness factor Part - I
Link Chemical Reaction Engineering II Lecture 11 - Intraparticle diffusion: Thiele modulus and effectiveness factor Part - II
Link Chemical Reaction Engineering II Lecture 12 - Intraparticle diffusion: Thiele modulus and effectiveness factor Part - III
Link Chemical Reaction Engineering II Lecture 13 - Effectiveness factor and Introduction to external mass transfer
Link Chemical Reaction Engineering II Lecture 14 - External Mass Transfer
Link Chemical Reaction Engineering II Lecture 15 - Implications to rate data interpretation and design - I
Link Chemical Reaction Engineering II Lecture 16 - Implications to rate data interpretation and design - II
Link Chemical Reaction Engineering II Lecture 17 - Packed-bed reactor design
Link Chemical Reaction Engineering II Lecture 18 - Fluidized bed reactor design - I
Link Chemical Reaction Engineering II Lecture 19 - Fluidized bed reactor design - II
Link Chemical Reaction Engineering II Lecture 20 - Gas-liquid reactions-1: Theories of mass transfer into agitated liquids
Link Chemical Reaction Engineering II Lecture 21 - GLR-2: Effect of chemical reaction on mass transfer: the slow reaction regime
Link Chemical Reaction Engineering II Lecture 22 - GLR-3: Transition to fast reaction, and the Fast reaction regime
Link Chemical Reaction Engineering II Lecture 23 - GLR-4: Fast reaction example; Instantaneous reaction regime
Link Chemical Reaction Engineering II Lecture 24 - GLR-5: Transition to Instantaneous reaction; Reaction regimes in surface renewal theories
Link Chemical Reaction Engineering II Lecture 25 - GLR-6: Reaction regimes in surface renewal theories (Continued..)
Link Chemical Reaction Engineering II Lecture 26 - GLR-7: Surface renewal theories: Instantaneous reaction and Summing up
Link Chemical Reaction Engineering II Lecture 27 - Fluid-solid non-catalytic reactions - I
Link Chemical Reaction Engineering II Lecture 28 - Fluid-solid non-catalytic reactions - II
Link Chemical Reaction Engineering II Lecture 29 - Fluid-solid non-catalytic reactions - III
Link Chemical Reaction Engineering II Lecture 30 - Distribution of residence time
Link Chemical Reaction Engineering II Lecture 31 - Measurement of residence time distribution
Link Chemical Reaction Engineering II Lecture 32 - Residence time distribution function
Link Chemical Reaction Engineering II Lecture 33 - Reactor diagnostics and troubleshooting
Link Chemical Reaction Engineering II Lecture 34 - Modeling non-ideal reactors
Link Chemical Reaction Engineering II Lecture 35 - Residence time distribution: Performance of non-ideal reactors
Link Chemical Reaction Engineering II Lecture 36 - Non-ideal Reactors: Tanks-in-series model
Link Chemical Reaction Engineering II Lecture 37 - Non-ideal Reactors: Dispersion model
Link Chemical Reaction Engineering II Lecture 38 - Non-ideal Reactors: Dispersion model and introduction to multiparameter models
Link Chemical Reaction Engineering II Lecture 39 - Non-ideal Reactors: Multiparameter models
Link Advanced Numerical Analysis Lecture 1 - Introduction and Overview
Link Advanced Numerical Analysis Lecture 2 - Fundamentals of Vector Spaces
Link Advanced Numerical Analysis Lecture 3 - Basic Dimension and Sub-space of a Vector Space
Link Advanced Numerical Analysis Lecture 4 - Introduction to Normed Vector Spaces
Link Advanced Numerical Analysis Lecture 5 - Examples of Norms,Cauchy Sequence and Convergence, Introduction to Banach Spaces
Link Advanced Numerical Analysis Lecture 6 - Introduction to Inner Product Spaces
Link Advanced Numerical Analysis Lecture 7 - Cauchy Schwaz Inequality and Orthogonal Sets
Link Advanced Numerical Analysis Lecture 8 - Gram-Schmidt Process and Generation of Orthogonal Sets
Link Advanced Numerical Analysis Lecture 9 - Problem Discretization Using Appropriation Theory
Link Advanced Numerical Analysis Lecture 10 - Weierstrass Theorem and Polynomial Approximation
Link Advanced Numerical Analysis Lecture 11 - Taylor Series Approximation and Newton's Method
Link Advanced Numerical Analysis Lecture 12 - Solving ODE - BVPs Using Firute Difference Method
Link Advanced Numerical Analysis Lecture 13 - Solving ODE - BVPs and PDEs Using Finite Difference Method
Link Advanced Numerical Analysis Lecture 14 - Finite Difference Method (Continued...) and Polynomial Interpolations
Link Advanced Numerical Analysis Lecture 15 - Polynomial and Function Interpolations,Orthogonal Collocations Method for Solving ODE -BVPs
Link Advanced Numerical Analysis Lecture 16 - Orthogonal Collocations Method for Solving ODE - BVPs and PDEs
Link Advanced Numerical Analysis Lecture 17 - Least Square Approximations, Necessary and Sufficient Conditions for Unconstrained Optimization
Link Advanced Numerical Analysis Lecture 18 - Least Square Approximations -Necessary and Sufficient Conditions for Unconstrained Optimization Least Square Approximations ( Continued....)
Link Advanced Numerical Analysis Lecture 19 - Linear Least Square Estimation and Geometric Interpretation of the Least Square Solution
Link Advanced Numerical Analysis Lecture 20 - Geometric Interpretation of the Least Square Solution (Continued...) and Projection Theorem in a Hilbert Spaces
Link Advanced Numerical Analysis Lecture 21 - Projection Theorem in a Hilbert Spaces (Continued...) and Approximation Using Orthogonal Basis
Link Advanced Numerical Analysis Lecture 22 - Discretization of ODE-BVP using Least Square Approximation
Link Advanced Numerical Analysis Lecture 23 - Discretization of ODE-BVP using Least Square Approximation and Gelarkin Method
Link Advanced Numerical Analysis Lecture 24 - Model Parameter Estimation using Gauss-Newton Method
Link Advanced Numerical Analysis Lecture 25 - Solving Linear Algebraic Equations and Methods of Sparse Linear Systems
Link Advanced Numerical Analysis Lecture 26 - Methods of Sparse Linear Systems (Continued...) and Iterative Methods for Solving Linear Algebraic Equations
Link Advanced Numerical Analysis Lecture 27 - Iterative Methods for Solving Linear Algebraic Equations
Link Advanced Numerical Analysis Lecture 28 - Iterative Methods for Solving Linear Algebraic Equations: Convergence Analysis using Eigenvalues
Link Advanced Numerical Analysis Lecture 29 - Iterative Methods for Solving Linear Algebraic Equations: Convergence Analysis using Matrix Norms
Link Advanced Numerical Analysis Lecture 30 - Iterative Methods for Solving Linear Algebraic Equations: Convergence Analysis using Matrix Norms (Continued...)
Link Advanced Numerical Analysis Lecture 31 - Iterative Methods for Solving Linear Algebraic Equations: Convergence Analysis (Continued...)
Link Advanced Numerical Analysis Lecture 32 - Optimization Based Methods for Solving Linear Algebraic Equations: Gradient Method
Link Advanced Numerical Analysis Lecture 33 - Conjugate Gradient Method, Matrix Conditioning and Solutions of Linear Algebraic Equations
Link Advanced Numerical Analysis Lecture 34 - Matrix Conditioning and Solutions and Linear Algebraic Equations (Continued...)
Link Advanced Numerical Analysis Lecture 35 - Matrix Conditioning (Continued...) and Solving Nonlinear Algebraic Equations
Link Advanced Numerical Analysis Lecture 36 - Solving Nonlinear Algebraic Equations: Wegstein Method and Variants of Newton's Method
Link Advanced Numerical Analysis Lecture 37 - Solving Nonlinear Algebraic Equations: Optimization Based Methods
Link Advanced Numerical Analysis Lecture 38 - Solving Nonlinear Algebraic Equations: Introduction to Convergence analysis of Iterative Solution Techniques
Link Advanced Numerical Analysis Lecture 39 - Solving Nonlinear Algebraic Equations: Introduction to Convergence analysis (Continued...) and Solving ODE-IVPs
Link Advanced Numerical Analysis Lecture 40 - Solving Ordinary Differential Equations - Initial Value Problems (ODE-IVPs) : Basic Concepts
Link Advanced Numerical Analysis Lecture 41 - Solving Ordinary Differential Equations - Initial Value Problems (ODE-IVPs) : Runge Kutta Methods
Link Advanced Numerical Analysis Lecture 42 - Solving ODE-IVPs : Runge Kutta Methods (Continued...) and Multi-step Methods
Link Advanced Numerical Analysis Lecture 43 - Solving ODE-IVPs : Generalized Formulation of Multi-step Methods
Link Advanced Numerical Analysis Lecture 44 - Solving ODE-IVPs : Multi-step Methods (Continued...) and Orthogonal Collocations Method
Link Advanced Numerical Analysis Lecture 45 - Solving ODE-IVPs: Selection of Integration Interval and Convergence Analysis of Solution Schemes
Link Advanced Numerical Analysis Lecture 46 - Solving ODE-IVPs: Convergence Analysis of Solution Schemes (Continued...)
Link Advanced Numerical Analysis Lecture 47 - Solving ODE-IVPs: Convergence Analysis of Solution Schemes (Continued...) and Solving ODE-BVP using Single Shooting Method
Link Advanced Numerical Analysis Lecture 48 - Methods for Solving System of Differential Algebraic Equations
Link Advanced Numerical Analysis Lecture 49 - Methods for Solving System of Differential Algebraic Equations (Continued...) and Concluding Remarks
Link NOC:Introduction to Evolutionary Dynamics Lecture 1 - History of the theory of Natural Selection - 1
Link NOC:Introduction to Evolutionary Dynamics Lecture 2 - History of the theory of Natural Selection - 2
Link NOC:Introduction to Evolutionary Dynamics Lecture 3 - Exponential growth models
Link NOC:Introduction to Evolutionary Dynamics Lecture 4 - Logistic Growth Models - 1
Link NOC:Introduction to Evolutionary Dynamics Lecture 5 - Logistic Growth Models - 2
Link NOC:Introduction to Evolutionary Dynamics Lecture 6 - Modelling selection - 1
Link NOC:Introduction to Evolutionary Dynamics Lecture 7 - Modelling Selection - 2 : Two species
Link NOC:Introduction to Evolutionary Dynamics Lecture 8 - Modelling Selection - 3 : Two and more species
Link NOC:Introduction to Evolutionary Dynamics Lecture 9 - Modelling Mutations - 1
Link NOC:Introduction to Evolutionary Dynamics Lecture 10 - Modelling Mutations - 2
Link NOC:Introduction to Evolutionary Dynamics Lecture 11 - Modelling Mutations - 3
Link NOC:Introduction to Evolutionary Dynamics Lecture 12 - Genetic Code and Sequence Spaces
Link NOC:Introduction to Evolutionary Dynamics Lecture 13 - Sequence Spaces as Networks
Link NOC:Introduction to Evolutionary Dynamics Lecture 14 - Sequence Space to Fitness Landscape
Link NOC:Introduction to Evolutionary Dynamics Lecture 15 - Properties of Fitness Landscapes and Quasi-species
Link NOC:Introduction to Evolutionary Dynamics Lecture 16 - Integrating Reproduction, Selection and Mutation
Link NOC:Introduction to Evolutionary Dynamics Lecture 17 - Obtaining Fitness Landscapes Experimentally
Link NOC:Introduction to Evolutionary Dynamics Lecture 18 - NK Model of Fitness Landscape
Link NOC:Introduction to Evolutionary Dynamics Lecture 19 - Modelling Evolution on Fitness Landscapes - 1
Link NOC:Introduction to Evolutionary Dynamics Lecture 20 - Modelling Evolution on Fitness Landscapes - 2
Link NOC:Introduction to Evolutionary Dynamics Lecture 21 - Modelling Evolution on Fitness Landscapes - 3
Link NOC:Introduction to Evolutionary Dynamics Lecture 22 - Role of Randomness in Evolution
Link NOC:Introduction to Evolutionary Dynamics Lecture 23 - Genetic Drift in Evolution of Microbial Populations
Link NOC:Introduction to Evolutionary Dynamics Lecture 24 - Dynamics of a Moran Process without Selection
Link NOC:Introduction to Evolutionary Dynamics Lecture 25 - Dynamics of a Moran Process without Selection
Link NOC:Introduction to Evolutionary Dynamics Lecture 26 - Evolution, Selection, and Genetic Drift
Link NOC:Introduction to Evolutionary Dynamics Lecture 27 - Representing Microbial Evolution
Link NOC:Introduction to Evolutionary Dynamics Lecture 28 - Estimating Timescales of Evolution
Link NOC:Introduction to Evolutionary Dynamics Lecture 29 - Estimating the Speed of Microbial Evolution
Link NOC:Introduction to Evolutionary Dynamics Lecture 30 - Evolutionary Dynamics when Mutations are Rare
Link NOC:Introduction to Evolutionary Dynamics Lecture 31 - Evolutionary Dynamics when Mutations are Rapid - 1
Link NOC:Introduction to Evolutionary Dynamics Lecture 32 - Evolutionary Dynamics when Mutations are Rapid - 2
Link NOC:Introduction to Evolutionary Dynamics Lecture 33 - Evolutionary Dynamics when Mutations are Rapid - 3
Link NOC:Introduction to Evolutionary Dynamics Lecture 34 - Evolutionary Game Theory - 1
Link NOC:Introduction to Evolutionary Dynamics Lecture 35 - Evolutionary Game Theory - 2
Link NOC:Introduction to Evolutionary Dynamics Lecture 36 - Evolutionary Game Theory - 3
Link NOC:Introduction to Evolutionary Dynamics Lecture 37 - Evolutionary Game Theory - 4
Link NOC:Introduction to Evolutionary Dynamics Lecture 38 - Evolutionary Game Theory Applied to Moran Process
Link NOC:Introduction to Evolutionary Dynamics Lecture 39 - Evolutionary Games During Weak Selection
Link NOC:Introduction to Evolutionary Dynamics Lecture 40 - Evolutionary Dynamics of HIV
Link NOC:Heat Transfer Lecture 1 - Introduction
Link NOC:Heat Transfer Lecture 2 - Introduction to Conduction
Link NOC:Heat Transfer Lecture 3 - Energy Balance
Link NOC:Heat Transfer Lecture 4 - 1D Steadystate Conduction - Resistance Concept
Link NOC:Heat Transfer Lecture 5 - Resistances in Composite Wall Case
Link NOC:Heat Transfer Lecture 6 - Resistances in Radial Systems
Link NOC:Heat Transfer Lecture 7 - Heat Generation - I Plane and Cylindrical Wall
Link NOC:Heat Transfer Lecture 8 - Heat Generation - II Problem; Introduction to Extended Surfaces
Link NOC:Heat Transfer Lecture 9 - Extended Surfaces I - General Formulation
Link NOC:Heat Transfer Lecture 10 - Extended Surfaces II - Fixed Cross-section Area
Link NOC:Heat Transfer Lecture 11 - Extended Surfaces III - Varying Cross-section Area
Link NOC:Heat Transfer Lecture 12 - 2D Plane Wall
Link NOC:Heat Transfer Lecture 13 - Transient Analyses I : Lumped Capacitance Method
Link NOC:Heat Transfer Lecture 14 - Transient Analyses II : Full Method
Link NOC:Heat Transfer Lecture 15 - Transient Analyses : Semi-infinite Case
Link NOC:Heat Transfer Lecture 16 - Introduction to Convective Heat Transfer
Link NOC:Heat Transfer Lecture 17 - Heat and Mass Transport Coefficients
Link NOC:Heat Transfer Lecture 18 - Boundary Layer : Momentum, Thermal and Concentration
Link NOC:Heat Transfer Lecture 19 - Laminar and Turbulent Flows; Momentum Balance
Link NOC:Heat Transfer Lecture 20 - Energy and Mass Balances; Boundary Layer Approximations
Link NOC:Heat Transfer Lecture 21 - Order of Magnitude Analysis
Link NOC:Heat Transfer Lecture 22 - Transport Coefficients
Link NOC:Heat Transfer Lecture 23 - Relationship between Momentum, Thermal and Concentration Boundary Layer
Link NOC:Heat Transfer Lecture 24 - Reynolds and Chilton-Colburn Analogies
Link NOC:Heat Transfer Lecture 25 - Forced Convection : Introduction
Link NOC:Heat Transfer Lecture 26 - Flow Past Flat Plate I - Method of Blasius
Link NOC:Heat Transfer Lecture 27 - Flow Past Flat Plate II - Correlations for Heat and Mass Transport
Link NOC:Heat Transfer Lecture 28 - Flow Past Cylinders
Link NOC:Heat Transfer Lecture 29 - Flow through Pipes - I
Link NOC:Heat Transfer Lecture 30 - Flow through Pipes - II
Link NOC:Heat Transfer Lecture 31 - Flow through Pipes - III
Link NOC:Heat Transfer Lecture 32 - Flow through Pipes - IV - Mixing-cup Temperature
Link NOC:Heat Transfer Lecture 33 - Flow through Pipes - V - Log mean Temperature Difference
Link NOC:Heat Transfer Lecture 34 - Flow through Pipes - VI - Correlations for Laminar and Turbulent Conditions
Link NOC:Heat Transfer Lecture 35 - Example problems : Forced Convection
Link NOC:Heat Transfer Lecture 36 - Introduction to Free/Natural Convection
Link NOC:Heat Transfer Lecture 37 - Heated Plate in a Quiescent Fluid - I
Link NOC:Heat Transfer Lecture 38 - Heated Plate in a Quiescent Fluid - II
Link NOC:Heat Transfer Lecture 39 - Boiling - I
Link NOC:Heat Transfer Lecture 40 - Boiling - II
Link NOC:Heat Transfer Lecture 41 - Condensation - I
Link NOC:Heat Transfer Lecture 42 - Condensation - II
Link NOC:Heat Transfer Lecture 43 - Radiation : Introduction
Link NOC:Heat Transfer Lecture 44 - Spectral Intensity
Link NOC:Heat Transfer Lecture 45 - Radiation : Spectral properties, Blackbody
Link NOC:Heat Transfer Lecture 46 - Properties of a Blackbody
Link NOC:Heat Transfer Lecture 47 - Surface Adsorption
Link NOC:Heat Transfer Lecture 48 - Kirchoff’s Law
Link NOC:Heat Transfer Lecture 49 - Radiation Exchange - View Factor
Link NOC:Heat Transfer Lecture 50 - View Factor Examples
Link NOC:Heat Transfer Lecture 51 - View Factor - Inside Sphere Method, Blackbody Radiation Exchange
Link NOC:Heat Transfer Lecture 52 - Diffuse, Gray Surfaces in an Enclosure
Link NOC:Heat Transfer Lecture 53 - Resistances - Oppenheim Matrix Method
Link NOC:Heat Transfer Lecture 54 - Resistances - Examples
Link NOC:Heat Transfer Lecture 55 - More Examples: Volumetric Radiation
Link NOC:Heat Transfer Lecture 56 - Introduction and Examples
Link NOC:Heat Transfer Lecture 57 - Parallel Flow Heat Exchangers
Link NOC:Heat Transfer Lecture 58 - LMTD I
Link NOC:Heat Transfer Lecture 59 - Shell and Tube Heat Exchangers
Link NOC:Heat Transfer Lecture 60 - Epsilon-NTU Method
Link NOC:Chemical Reaction Engineering-II Lecture 1 - Introduction
Link NOC:Chemical Reaction Engineering-II Lecture 2 - Introduction to catalysis and catalytic processes
Link NOC:Chemical Reaction Engineering-II Lecture 3 - Catalyst properties and classification
Link NOC:Chemical Reaction Engineering-II Lecture 4 - Steps in catalysis
Link NOC:Chemical Reaction Engineering-II Lecture 5 - Adsorption isotherm
Link NOC:Chemical Reaction Engineering-II Lecture 6 - Surface reaction
Link NOC:Chemical Reaction Engineering-II Lecture 7 - Rate controlling steps and Rate law
Link NOC:Chemical Reaction Engineering-II Lecture 8 - Rate law: Pseudo-steady state hypothesis
Link NOC:Chemical Reaction Engineering-II Lecture 9 - Heterogeneous data analysis for reactor design - I
Link NOC:Chemical Reaction Engineering-II Lecture 10 - Heterogeneous data analysis for reactor design - II
Link NOC:Chemical Reaction Engineering-II Lecture 11 - Design of reactors: PBR and CSTR
Link NOC:Chemical Reaction Engineering-II Lecture 12 - Case study: Chemical Vapor Deposition
Link NOC:Chemical Reaction Engineering-II Lecture 13 - Catalyst deactivation - I
Link NOC:Chemical Reaction Engineering-II Lecture 14 - Catalyst deactivation - II
Link NOC:Chemical Reaction Engineering-II Lecture 15 - Catalyst deactivation - III
Link NOC:Chemical Reaction Engineering-II Lecture 16 - Catalyst deactivation - IV : Reactor design
Link NOC:Chemical Reaction Engineering-II Lecture 17 - Diffusional effects: Introduction
Link NOC:Chemical Reaction Engineering-II Lecture 18 - Internal diffusion effects: Model development
Link NOC:Chemical Reaction Engineering-II Lecture 19 - Non-dimensionalization: Thiele modulus
Link NOC:Chemical Reaction Engineering-II Lecture 20 - Concentration profile
Link NOC:Chemical Reaction Engineering-II Lecture 21 - Internal effectiveness factor - I
Link NOC:Chemical Reaction Engineering-II Lecture 22 - Internal effectiveness factor - II
Link NOC:Chemical Reaction Engineering-II Lecture 23 - Internal effectiveness factor - III: Exothermic and endothermic reactions
Link NOC:Chemical Reaction Engineering-II Lecture 24 - Falsification of kinetics
Link NOC:Chemical Reaction Engineering-II Lecture 25 - External mass transport limitations: Mass transfer coefficient
Link NOC:Chemical Reaction Engineering-II Lecture 26 - Estimation of mass transfer coefficient
Link NOC:Chemical Reaction Engineering-II Lecture 27 - Mass transfer to a single particle with reaction
Link NOC:Chemical Reaction Engineering-II Lecture 28 - Packed-bed reactor design: External mass transfer limitations
Link NOC:Chemical Reaction Engineering-II Lecture 29 - Mass transfer coefficient in Packed-beds
Link NOC:Chemical Reaction Engineering-II Lecture 30 - Estimation of conversion in Packed-bed reactor: Example problem
Link NOC:Chemical Reaction Engineering-II Lecture 31 - Overall effectiveness factor - I
Link NOC:Chemical Reaction Engineering-II Lecture 32 - Overall effectiveness factor - II
Link NOC:Chemical Reaction Engineering-II Lecture 33 - Identification of internal diffusion and reaction-limited regimes
Link NOC:Chemical Reaction Engineering-II Lecture 34 - Packed-bed reactor design
Link NOC:Chemical Reaction Engineering-II Lecture 35 - Generalized criterion for diffusion and reaction-limited conditions
Link NOC:Chemical Reaction Engineering-II Lecture 36 - Network of first order reactions
Link NOC:Chemical Reaction Engineering-II Lecture 37 - Use of experimental data
Link NOC:Chemical Reaction Engineering-II Lecture 38 - Packed-bed reactor design: External and Internal resistances
Link NOC:Chemical Reaction Engineering-II Lecture 39 - Fluidized bed reactor design - I
Link NOC:Chemical Reaction Engineering-II Lecture 40 - Fluidized bed reactor design - II
Link NOC:Chemical Reaction Engineering-II Lecture 41 - Fluidized bed reactor design - III
Link NOC:Chemical Reaction Engineering-II Lecture 42 - Fluidized bed reactor design - IV
Link NOC:Chemical Reaction Engineering-II Lecture 43 - Fluid-solid noncatalytic reactions - I
Link NOC:Chemical Reaction Engineering-II Lecture 44 - Fluid-solid noncatalytic reactions - II
Link NOC:Chemical Reaction Engineering-II Lecture 45 - Fluid-solid noncatalytic reactions - III
Link NOC:Chemical Reaction Engineering-II Lecture 46 - Fluid-solid noncatalytic reactions - IV
Link NOC:Chemical Reaction Engineering-II Lecture 47 - Fluid-solid noncatalytic reactions - V
Link NOC:Chemical Reaction Engineering-II Lecture 48 - Fluid-solid noncatalytic reactions - VI
Link NOC:Chemical Reaction Engineering-II Lecture 49 - Residence time distribution (RTD): Introduction
Link NOC:Chemical Reaction Engineering-II Lecture 50 - RTD: Non-ideal reactors
Link NOC:Chemical Reaction Engineering-II Lecture 51 - Measurement of RTD - I
Link NOC:Chemical Reaction Engineering-II Lecture 52 - Measurement of RTD - II
Link NOC:Chemical Reaction Engineering-II Lecture 53 - RTD function
Link NOC:Chemical Reaction Engineering-II Lecture 54 - Properties of RTD function
Link NOC:Chemical Reaction Engineering-II Lecture 55 - Reactor diagnostics and troubleshooting - I
Link NOC:Chemical Reaction Engineering-II Lecture 56 - Reactor diagnostics and troubleshooting - II
Link NOC:Chemical Reaction Engineering-II Lecture 57 - Modeling nonideal reactors - I
Link NOC:Chemical Reaction Engineering-II Lecture 58 - Modeling nonideal reactors - II
Link NOC:Chemical Reaction Engineering-II Lecture 59 - Non-ideal reactors: Zero parameter models - I
Link NOC:Chemical Reaction Engineering-II Lecture 60 - Non-ideal reactors: Zero parameter models - II
Link NOC:Chemical Process Control Lecture 1 - Motivation for process control
Link NOC:Chemical Process Control Lecture 2 - Functions of process control system
Link NOC:Chemical Process Control Lecture 3 - Common control strategies
Link NOC:Chemical Process Control Lecture 4 - Components of process control system
Link NOC:Chemical Process Control Lecture 5 - Introduction to process dynamics
Link NOC:Chemical Process Control Lecture 6 - First principle dynamic models
Link NOC:Chemical Process Control Lecture 7 - Empirical and gray box models
Link NOC:Chemical Process Control Lecture 8 - Degree of freedom analysis
Link NOC:Chemical Process Control Lecture 9 - Introduction to first order dynamical systems
Link NOC:Chemical Process Control Lecture 10 - Linearization of process dynamics
Link NOC:Chemical Process Control Lecture 11 - Response to step input
Link NOC:Chemical Process Control Lecture 12 - Response to sinusoidal input
Link NOC:Chemical Process Control Lecture 13 - Introduction to second order dynamical systems
Link NOC:Chemical Process Control Lecture 14 - Examples of second order dynamical systems
Link NOC:Chemical Process Control Lecture 15 - Response to step input
Link NOC:Chemical Process Control Lecture 16 - Effect of damping coefficient
Link NOC:Chemical Process Control Lecture 17 - Higher order dynamics
Link NOC:Chemical Process Control Lecture 18 - Approximation as FOPDT model
Link NOC:Chemical Process Control Lecture 19 - Numerator dynamics
Link NOC:Chemical Process Control Lecture 20 - Prediction of step response
Link NOC:Chemical Process Control Lecture 21 - Block diagram representation
Link NOC:Chemical Process Control Lecture 22 - ON-OFF control
Link NOC:Chemical Process Control Lecture 23 - Proportional control
Link NOC:Chemical Process Control Lecture 24 - Proportional-Integral control
Link NOC:Chemical Process Control Lecture 25 - PID control
Link NOC:Chemical Process Control Lecture 26 - Limitations of PID controllers
Link NOC:Chemical Process Control Lecture 27 - Stability of dynamical processes
Link NOC:Chemical Process Control Lecture 28 - Laplace domain analysis - Part I
Link NOC:Chemical Process Control Lecture 29 - Laplace domain analysis - Part II
Link NOC:Chemical Process Control Lecture 30 - Frequency response
Link NOC:Chemical Process Control Lecture 31 - Frequency domain analysis
Link NOC:Chemical Process Control Lecture 32 - Synthesis problem
Link NOC:Chemical Process Control Lecture 33 - Selection problem
Link NOC:Chemical Process Control Lecture 34 - Criteria-based controller tuning
Link NOC:Chemical Process Control Lecture 35 - Heuristics-based controller tuning
Link NOC:Chemical Process Control Lecture 36 - Direct synthesis-based controller tuning
Link NOC:Chemical Process Control Lecture 37 - Frequency response-based controller tuning
Link NOC:Chemical Process Control Lecture 38 - Cascade control
Link NOC:Chemical Process Control Lecture 39 - Split range control and override control
Link NOC:Chemical Process Control Lecture 40 - Auctioneering, ratio and inreferential control
Link NOC:Chemical Process Control Lecture 41 - Openloop control and Internal model control
Link NOC:Chemical Process Control Lecture 42 - Dynamic Matrix and Model predictive control
Link NOC:Chemical Process Control Lecture 43 - Introduction to multivariable control
Link NOC:Chemical Process Control Lecture 44 - Input-output pairing
Link NOC:Chemical Process Control Lecture 45 - Tuning of multi-loop SISO controller
Link NOC:Chemical Process Control Lecture 46 - Introduction to batch process control
Link NOC:Chemical Process Control Lecture 47 - Programmable logic control
Link NOC:Chemical Process Control Lecture 48 - Batch to batch control
Link Heterogeneous Catalysis and Catalytic Processes Lecture 1
Link Heterogeneous Catalysis and Catalytic Processes Lecture 2
Link Heterogeneous Catalysis and Catalytic Processes Lecture 3
Link Heterogeneous Catalysis and Catalytic Processes Lecture 4
Link Heterogeneous Catalysis and Catalytic Processes Lecture 5
Link Heterogeneous Catalysis and Catalytic Processes Lecture 6
Link Heterogeneous Catalysis and Catalytic Processes Lecture 7
Link Heterogeneous Catalysis and Catalytic Processes Lecture 8
Link Heterogeneous Catalysis and Catalytic Processes Lecture 9
Link Heterogeneous Catalysis and Catalytic Processes Lecture 10
Link Heterogeneous Catalysis and Catalytic Processes Lecture 11
Link Heterogeneous Catalysis and Catalytic Processes Lecture 12
Link Heterogeneous Catalysis and Catalytic Processes Lecture 13
Link Heterogeneous Catalysis and Catalytic Processes Lecture 14
Link Heterogeneous Catalysis and Catalytic Processes Lecture 15
Link Heterogeneous Catalysis and Catalytic Processes Lecture 16
Link Heterogeneous Catalysis and Catalytic Processes Lecture 17
Link Heterogeneous Catalysis and Catalytic Processes Lecture 18
Link Heterogeneous Catalysis and Catalytic Processes Lecture 19
Link Heterogeneous Catalysis and Catalytic Processes Lecture 20
Link Heterogeneous Catalysis and Catalytic Processes Lecture 21
Link Heterogeneous Catalysis and Catalytic Processes Lecture 22
Link Heterogeneous Catalysis and Catalytic Processes Lecture 23
Link Heterogeneous Catalysis and Catalytic Processes Lecture 24
Link Heterogeneous Catalysis and Catalytic Processes Lecture 25
Link Heterogeneous Catalysis and Catalytic Processes Lecture 26
Link Heterogeneous Catalysis and Catalytic Processes Lecture 27
Link Heterogeneous Catalysis and Catalytic Processes Lecture 28
Link Heterogeneous Catalysis and Catalytic Processes Lecture 29
Link Heterogeneous Catalysis and Catalytic Processes Lecture 30
Link Heterogeneous Catalysis and Catalytic Processes Lecture 31
Link Heterogeneous Catalysis and Catalytic Processes Lecture 32
Link Heterogeneous Catalysis and Catalytic Processes Lecture 33
Link Heterogeneous Catalysis and Catalytic Processes Lecture 34
Link Heterogeneous Catalysis and Catalytic Processes Lecture 35
Link Heterogeneous Catalysis and Catalytic Processes Lecture 36
Link Heterogeneous Catalysis and Catalytic Processes Lecture 37
Link Heterogeneous Catalysis and Catalytic Processes Lecture 38
Link Heterogeneous Catalysis and Catalytic Processes Lecture 39
Link Heterogeneous Catalysis and Catalytic Processes Lecture 40
Link Interfacial Engineering Lecture 1 - General Introduction Definitions
Link Interfacial Engineering Lecture 2 - General Introduction, Definitions, Surface Tension
Link Interfacial Engineering Lecture 3 - Surface Tension Free Energies and Adsorption
Link Interfacial Engineering Lecture 4 - Properties over Curved Surfaces
Link Interfacial Engineering Lecture 5 - Total Surface Energy
Link Interfacial Engineering Lecture 6 - Interfacial Tension Entropy, Cohesion, Adhesion
Link Interfacial Engineering Lecture 7 - Cohesion, Adhesion and Spreading
Link Interfacial Engineering Lecture 8 - Spreading from Liquids and Solids
Link Interfacial Engineering Lecture 9 - Spreading, Interfacial Tensions, Surface Tensions
Link Interfacial Engineering Lecture 10 - Spreading, Contact Angles Free Energies
Link Interfacial Engineering Lecture 11 - Spreading/Contact Angles Rough Surfaces, Free Energies
Link Interfacial Engineering Lecture 12 - Spreading/Contact Angles Work of Adhesion, De-wetting
Link Interfacial Engineering Lecture 13 - Work of Adhesion, Surface and Interfacial Tensions
Link Interfacial Engineering Lecture 14 - Surface and Interfacial Tensions: Drop Weight and Wilhelmy Plate Methods
Link Interfacial Engineering Lecture 15 - Surface and Interfacial Tensions: Wilhelmy Plate, Pendant Drop and Maximum Bubble Pressure Methods
Link Interfacial Engineering Lecture 16 - Wetting Balance Method Spreading Coefficient Work of Adhesion Sessile Drop Method, Positive S
Link Interfacial Engineering Lecture 17 - Indirect and Direct Methods for Positive S, Adhesion Energies Interfacial Potentials
Link Interfacial Engineering Lecture 18 - Surface and Interfacial Potentials Distribution and Contact Potentials
Link Interfacial Engineering Lecture 19 - Diffusion Potential Surface and Interfacial Potentials Components of Contact Potential
Link Interfacial Engineering Lecture 20 - Electrically Charged Monolayers Gouy Theory
Link Interfacial Engineering Lecture 21 - Equations of State, Cohesion Repulsion, Limiting Area
Link Interfacial Engineering Lecture 22 - Condensed and Liquid Expanded Monolayers Phase Transformations
Link Interfacial Engineering Lecture 23 - Films of Polymers Molecular Weight, Surface Viscosity Drag, Canal Method
Link Interfacial Engineering Lecture 24 - Canal Method Joly's Semi-Empirical Correction Rotational Torsional Surface Viscometer Compressional Moduli
Link Interfacial Engineering Lecture 25 - Magnitudes of Surface Compressional Moduli Surface Waves and Ripples
Link Interfacial Engineering Lecture 26 - Surface waves and Ripples, Velocity Effect of Surface Tension and Surface Compressional Modulus Rates of adsorption and absorption Damping
Link Interfacial Engineering Lecture 27 - Surface waves and ripples,velocity effect of surface tension and surface compressional modulus damping for clean and contaminated,surfaces,fiber from monolayers
Link Interfacial Engineering Lecture 28 - Shear Elastic Moduli,Yield Stress Fibres from MLs, Surface Reactions
Link Interfacial Engineering Lecture 29 - Surface Reactions, Comparison with Bulk-Phase Reactions Steric Factors, Inhibition
Link Interfacial Engineering Lecture 30 - Hydrolyses of Esters by Alkali Acid or Enzyme Photochemical Reactions in Monolayers Polymerization in MLs, Lactonization
Link Interfacial Engineering Lecture 31 - Catalytic Effects Reactions in Emulsions Complex Formation
Link Interfacial Engineering Lecture 32 - Complex Formation Penetration into Monolayers Thermodynamics of Penetration Adsorption from Vapour Phase Mass Transfer
Link Interfacial Engineering Lecture 33 - Introductory Concepts Resistances and their Magnitudes Evaporation and its Retardation
Link Interfacial Engineering Lecture 34 - Evaporation and its Retardation Resistances and their Analysis Diffusional Resistance in Gas Phase
Link Interfacial Engineering Lecture 35 - Resistances in Liquid Phase and Interface and Their Importance Some Effects and Applications, Theory
Link Interfacial Engineering Lecture 36 - Surface Instability Theories of Mass Transfer Experiments on static and Dynamic Systems
Link Interfacial Engineering Lecture 37 - Colloida, Aerosols, Emulsions Foams, Coagulation Smoluchowski's Theory
Link Mass Transfer Operations I Lecture 1 - Introduction to Mass Transfer
Link Mass Transfer Operations I Lecture 2 - Molecular Diffusion
Link Mass Transfer Operations I Lecture 3 - Fick’s Law of Diffusion
Link Mass Transfer Operations I Lecture 4 - Steady state molecular diffusion in fluids - Part I
Link Mass Transfer Operations I Lecture 5 - Steady state molecular diffusion in fluids - Part II
Link Mass Transfer Operations I Lecture 6 - Diffusion coefficient: Measurement and Prediction - Part I
Link Mass Transfer Operations I Lecture 7 - Diffusion Coefficient: Measurement and Prediction - Part II
Link Mass Transfer Operations I Lecture 8 - Multicomponent Diffusion and Diffusivity in Solids
Link Mass Transfer Operations I Lecture 9 - Concept of Mass Transfer Coefficient
Link Mass Transfer Operations I Lecture 10 - Dimensionless Groups and Co-relations for Convective
Link Mass Transfer Operations I Lecture 11 - Mass Transfer co-efficient in Laminar Flow Condition
Link Mass Transfer Operations I Lecture 12 - Boundary Layer Theory and Film Theory in Mass Transfer
Link Mass Transfer Operations I Lecture 13 - Mass Transfer Coefficients in Terbulant Flow
Link Mass Transfer Operations I Lecture 14 - Interphase Mass Transfer and Mass Transfer Theories - Part I
Link Mass Transfer Operations I Lecture 15 - Interphase Mass Transfer and Mass Transfer Theories - Part II
Link Mass Transfer Operations I Lecture 16 - Interphase Mass Transfer and Mass Transfer Theories - Part III
Link Mass Transfer Operations I Lecture 17 - Agitated and Sparged Vassels
Link Mass Transfer Operations I Lecture 18 - Tray Column - Part I
Link Mass Transfer Operations I Lecture 19 - Tray Column - Part II
Link Mass Transfer Operations I Lecture 20 - Packed Tower
Link Mass Transfer Operations I Lecture 21 - Introduction to Absorption and Solvent selection
Link Mass Transfer Operations I Lecture 22 - Packed Tower Design - Part I
Link Mass Transfer Operations I Lecture 23 - Packed Tower Design - Part II
Link Mass Transfer Operations I Lecture 24 - Packed Tower Design - Part III
Link Mass Transfer Operations I Lecture 25 - Mass Transfer Coefficients Correlation and HETP Concept
Link Mass Transfer Operations I Lecture 26 - Tray Tower Design and Introduction to Multicomponent System
Link Mass Transfer Operations I Lecture 27 - Introduction to Distillation and Phas diagrams
Link Mass Transfer Operations I Lecture 28 - Azeotropes and Enthalpy Concentration Diagrams
Link Mass Transfer Operations I Lecture 29 - Flash Distillation
Link Mass Transfer Operations I Lecture 30 - Batch and Steam Distillation
Link Mass Transfer Operations I Lecture 31 - Fractional Distillation
Link Mass Transfer Operations I Lecture 32 - Fractional Distillation: McCabe Thiele Method
Link Mass Transfer Operations I Lecture 33 - Fractional Distillation: Minimum Reflux and Pinch Point
Link Mass Transfer Operations I Lecture 34 - Fractional Distillation: Subcooled Reflux ,Tray Efficiency and Use of Open Steam
Link Mass Transfer Operations I Lecture 35 - Fractional Distillation: Multiple Feeds and Side Stream
Link Mass Transfer Operations I Lecture 36 - Multistage Batch Distillation with Reflux
Link Mass Transfer Operations I Lecture 37 - Fractional Distillation: Ponchan and Savarit Method
Link Mass Transfer Operations I Lecture 38 - Ponchan and Savarit Method and Packed Tower Distillation
Link Mass Transfer Operations I Lecture 39 - Multicomponent Distillation
Link Process Design Decisions and Project Economics Lecture 1 - General Introduction to the Course and Syllabus
Link Process Design Decisions and Project Economics Lecture 2 - Hierarchical Approach to Process Design - I
Link Process Design Decisions and Project Economics Lecture 3 - Hierarchical Approach to Process Design - Examples
Link Process Design Decisions and Project Economics Lecture 4 - Input Information and Design Aspects of Batch vs. Continuous Process
Link Process Design Decisions and Project Economics Lecture 5 - Input / Output Structure of Flowsheet - Part I
Link Process Design Decisions and Project Economics Lecture 6 - Input / Output Structure of Flowsheet - Part II
Link Process Design Decisions and Project Economics Lecture 7 - Input / Output Structure of Flowsheet - Part III and Recycle Structure of Flowsheet - Part I
Link Process Design Decisions and Project Economics Lecture 8 - Recycle Structure of Flowsheet - Part II
Link Process Design Decisions and Project Economics Lecture 9 - Recycle Structure of Flowsheet - Part III
Link Process Design Decisions and Project Economics Lecture 10 - Recycle Structure of Flowsheet - Part IV and Tutorial - Part I
Link Process Design Decisions and Project Economics Lecture 11 - Tutorial - Part II
Link Process Design Decisions and Project Economics Lecture 12 - Tutorial - Part III
Link Process Design Decisions and Project Economics Lecture 13 - Algorithm and Basic Principles of Reactor Design
Link Process Design Decisions and Project Economics Lecture 14 - Reactor Non-ideality, Residence Time Distribution (RTD) and Types of Chemical Reactions & Catalysts
Link Process Design Decisions and Project Economics Lecture 15 - Types of Reactors and Selection Criteria
Link Process Design Decisions and Project Economics Lecture 16 - Tutorial on Reactor Design and Cost Estimation
Link Process Design Decisions and Project Economics Lecture 17 - General Introduction (Types of Separation Processes and Criteria for Selection of the Processes)
Link Process Design Decisions and Project Economics Lecture 18 - Guidelines for Design of Separation Systems
Link Process Design Decisions and Project Economics Lecture 19 - Design of Distillation Columns - Part I (Sequencing of Columns, Energy Integration / Thermal Coupling of the Columns)
Link Process Design Decisions and Project Economics Lecture 20 - Design of Distillation Columns - Part II (Plate and Packed Towers, Number of Plates, Diameter and Height of the Column)
Link Process Design Decisions and Project Economics Lecture 21 - Tutorial - Part I (Design of Absorption Column)
Link Process Design Decisions and Project Economics Lecture 22 - Tutorial - Part II (Design of Distillation Column)
Link Process Design Decisions and Project Economics Lecture 23 - Concepts and Basic Principles of Energy (or Heat) Integration - Part 1 (Composite Curves and ?Tmin)
Link Process Design Decisions and Project Economics Lecture 24 - Concepts and Basic Principles of Heat Integration - Part 2 (Problem Table Algorithm and Identification of Energy Targets)
Link Process Design Decisions and Project Economics Lecture 25 - Identification of Area and Cost Targets
Link Process Design Decisions and Project Economics Lecture 26 - Pinch Technology for Heat Exchanger Network Design
Link Process Design Decisions and Project Economics Lecture 27 - Tutorial - I (Composite Curves, Problem Table Algorithm and Enthalpy Intervals)
Link Process Design Decisions and Project Economics Lecture 28 - Tutorial - II (Heat Exchanger Network Synthesis Using Pinch Technology)
Link Process Design Decisions and Project Economics Lecture 29 - Selection of Process, Design of Flowsheet and Materials Balance
Link Process Design Decisions and Project Economics Lecture 30 - Energy Balance, Process Alternatives and Design of the Absorber
Link Process Design Decisions and Project Economics Lecture 31 - Rules of Thumb & Their Limitations and Tutorial
Link Process Design Decisions and Project Economics Lecture 32 - General Concepts & Principles and Cost Allocation Procedure
Link Process Design Decisions and Project Economics Lecture 33 - Lumped Cost Diagram and Cost Allocation Diagram (Case Study of Hydro-dealkylation Process)
Link Process Design Decisions and Project Economics Lecture 34 - Assessment of Process Alternatives with Cost Allocation Diagram (Case Study of Hydrodealkylation Process)
Link Process Design Decisions and Project Economics Lecture 35 - Tutorial on Lumped Cost Diagram and Cost Allocation Diagram
Link Process Design Decisions and Project Economics Lecture 36 - Introduction to Chemical Projects and Their Economic Aspects
Link Process Design Decisions and Project Economics Lecture 37 - Selection of the Process and Project Site - Part I
Link Process Design Decisions and Project Economics Lecture 38 - Selection of the Process and Project Site - Part II
Link Process Design Decisions and Project Economics Lecture 39 - Project Cost Estimation - Part I
Link Process Design Decisions and Project Economics Lecture 40 - Project Cost Estimation - Part II
Link Process Design Decisions and Project Economics Lecture 41 - Simplified Cost Model and Depreciation
Link Process Design Decisions and Project Economics Lecture 42 - Time Value of Money
Link Process Design Decisions and Project Economics Lecture 43 - Measures of Profitability and Project Evaluation - Part I
Link Process Design Decisions and Project Economics Lecture 44 - Measures of Profitability and Project Evaluation - Part II
Link Process Design Decisions and Project Economics Lecture 45 - Tutorial on Project Economics - Part I
Link Process Design Decisions and Project Economics Lecture 46 - Tutorial on Project Economics - Part II
Link NOC:Fluidization Engineering Lecture 1 - Introduction
Link NOC:Fluidization Engineering Lecture 2 - Particle properties
Link NOC:Fluidization Engineering Lecture 3 - Particle / Powder Classifications
Link NOC:Fluidization Engineering Lecture 4 - Minimum Fluidization Velocity: Fluid-solid System
Link NOC:Fluidization Engineering Lecture 5 - Minimum Fluidization Velocity: Liquid-solid and gas-liquid-solid System
Link NOC:Fluidization Engineering Lecture 6 - Flow regime and its map: Gas-solid Fluidization
Link NOC:Fluidization Engineering Lecture 7 - Flow regime and its map: Liquid-solid and Gas-liquid-solid Fluidization
Link NOC:Fluidization Engineering Lecture 8 - Frictional pressure drop in fluidized bed-fluid-solid system
Link NOC:Fluidization Engineering Lecture 9 - Frictional pressure drop in fluidized Bed-Gas-liquid-solid system
Link NOC:Fluidization Engineering Lecture 10 - Analysis of Frictional Pressure Drop in Fluidized Bed By Different Models
Link NOC:Fluidization Engineering Lecture 11 - Gas Distribution Through Distributor
Link NOC:Fluidization Engineering Lecture 12 - Calculation of gas pumping power consumption in fluidized bed
Link NOC:Fluidization Engineering Lecture 13 - Bubbling Fluidization Part 1: Bubble Characteristics
Link NOC:Fluidization Engineering Lecture 14 - Bubbling Fluidization Part 2: Bubble Characteristics (Continued...)
Link NOC:Fluidization Engineering Lecture 15 - Bubbling Fluidization Part 3: Bubble coalescence in three-phase fluidization
Link NOC:Fluidization Engineering Lecture 16 - Bubbling Fluidization Part 4: Bubble breakup in three-phase fluidization
Link NOC:Fluidization Engineering Lecture 17 - Bubbling Fluidization Part 5: Gas and solid movements at bubble
Link NOC:Fluidization Engineering Lecture 18 - Bubbling Fluidization Part 6: Slugging Bed
Link NOC:Fluidization Engineering Lecture 19 - Entrainment Characteristics (Part 1) : Entrainment Characteristics
Link NOC:Fluidization Engineering Lecture 20 - Entrainment Characteristics (Part 2) : Fast fluidization condition
Link NOC:Fluidization Engineering Lecture 21 - Entrainment Characteristics (Part 2) : Elutriation Characteristics
Link NOC:Fluidization Engineering Lecture 22 - Entrainment Characteristics (Part 2) : Attrition in Fluidized Bed (Part 1)
Link NOC:Fluidization Engineering Lecture 23 - Attrition in Fluidized Bed (Part 2)
Link NOC:Fluidization Engineering Lecture 24 - Solid movement, mixing: Gas-fluidized Bed
Link NOC:Fluidization Engineering Lecture 25 - Solid segregation: Gas-fluidized bed
Link NOC:Fluidization Engineering Lecture 26 - Solid mixing and segregation: Liquid-solid fluidized bed
Link NOC:Fluidization Engineering Lecture 27 - Gas Dispersion and Interchange
Link NOC:Fluidization Engineering Lecture 28 - Mass transfer in fluidized Bed-Gas-solid system
Link NOC:Fluidization Engineering Lecture 29 - Mass transfer in fluidized Bed-Gas-liquid-solid system (Continued...)
Link NOC:Fluidization Engineering Lecture 30 - Heat transfer Characteristics
Link NOC:Fluidization Engineering Lecture 31 - Fluidized bed reactor design and its performance
Link NOC:An Introduction to Cardiovascular Fluid Mechanics Lecture 1 - An Introduction
Link NOC:An Introduction to Cardiovascular Fluid Mechanics Lecture 2 - Fluid Mechanics: A Review
Link NOC:An Introduction to Cardiovascular Fluid Mechanics Lecture 3 - Solid Mechanics: A Review
Link NOC:An Introduction to Cardiovascular Fluid Mechanics Lecture 4 - Rheology of blood
Link NOC:An Introduction to Cardiovascular Fluid Mechanics Lecture 5 - Blood morphology
Link NOC:An Introduction to Cardiovascular Fluid Mechanics Lecture 6 - Blood flow in a channel
Link NOC:An Introduction to Cardiovascular Fluid Mechanics Lecture 7 - Viscometers and Rheometers
Link NOC:An Introduction to Cardiovascular Fluid Mechanics Lecture 8 - Viscoelasticity
Link NOC:An Introduction to Cardiovascular Fluid Mechanics Lecture 9 - Flow Bifurcation
Link NOC:An Introduction to Cardiovascular Fluid Mechanics Lecture 10 - Pulsatile Flow 1
Link NOC:An Introduction to Cardiovascular Fluid Mechanics Lecture 11 - Pulsatile Flow 2
Link NOC:An Introduction to Cardiovascular Fluid Mechanics Lecture 12 - Flow in Elastic Tubes
Link NOC:Multiphase Microfluidics Lecture 1 - An Introduction
Link NOC:Multiphase Microfluidics Lecture 2 - Interface and Surface Tension
Link NOC:Multiphase Microfluidics Lecture 3 - Flow Regimes 1
Link NOC:Multiphase Microfluidics Lecture 4 - Flow Regimes 2
Link NOC:Multiphase Microfluidics Lecture 5 - Taylor Flow 1
Link NOC:Multiphase Microfluidics Lecture 6 - Taylor Flow 2
Link NOC:Multiphase Microfluidics Lecture 7 - Computational Techniques
Link NOC:Multiphase Microfluidics Lecture 8 - Bubble and Droplet Generation
Link NOC:Multiphase Microfluidics Lecture 9 - Interface and Surface tension 2
Link NOC:Multiphase Microfluidics Lecture 10 - Void Fraction and Pressure Drop
Link NOC:Multiphase Microfluidics Lecture 11 - Liquid-Liquid Flow: Flow Regimes
Link NOC:Multiphase Microfluidics Lecture 12 - Ideal annular Flow
Link NOC:Multiphase Microfluidics Lecture 13 - Taylor Flow : Heat transfer 1
Link NOC:Multiphase Microfluidics Lecture 14 - Taylor Flow : Heat transfer 2
Link NOC:Multiphase Microfluidics Lecture 15 - Taylor Flow : Meat Transfer 1
Link NOC:Multiphase Microfluidics Lecture 16 - Taylor Flow : Meat Transfer 2
Link NOC:Multiphase Microfluidics Lecture 17 - Flow boiling in microchannels
Link NOC:Multiphase Microfluidics Lecture 18 - Flow boiling in microchannels (Continued...)
Link NOC:Multiphase Microfluidics Lecture 19 - Flow Measurement Techniques
Link NOC:Multiphase Microfluidics Lecture 20 - Particle image Velocimetry
Link NOC:Multiphase Microfluidics Lecture 21 - Inertial Microfluidics
Link NOC:Multiphase Microfluidics Lecture 22 - Microfluidic applications
Link NOC:Multiphase Microfluidics Lecture 23 - Microfluidic applications (Continued...)
Link NOC:Multiphase Microfluidics Lecture 24 - Concluding Remarks
Link NOC:Measurement Technique in Multiphase Flows Lecture 1 - Introduction to Multiphase flow Measurement Techniques
Link NOC:Measurement Technique in Multiphase Flows Lecture 2 - Invasive and Non-invasive Techniques
Link NOC:Measurement Technique in Multiphase Flows Lecture 3 - Hot Wire Anemometry
Link NOC:Measurement Technique in Multiphase Flows Lecture 4 - Optical Fiber Probe
Link NOC:Measurement Technique in Multiphase Flows Lecture 5 - Laser Doppler Anemometry (LDA)
Link NOC:Measurement Technique in Multiphase Flows Lecture 6 - LDA Post Processing and Particle Image Velocimetry (PIV)
Link NOC:Measurement Technique in Multiphase Flows Lecture 7 - PIV and Positron Emission Particle Tracking
Link NOC:Measurement Technique in Multiphase Flows Lecture 8 - Radioactive Particle Tracking - I
Link NOC:Measurement Technique in Multiphase Flows Lecture 9 - Radioactive Particle Tracking - II
Link NOC:Measurement Technique in Multiphase Flows Lecture 10 - Capacitance Probe, Optical Fiber Probe and ECT
Link NOC:Measurement Technique in Multiphase Flows Lecture 11 - Gamma-ray and X-ray Tomography, MRI
Link NOC:Measurement Technique in Multiphase Flows Lecture 12 - Summary
Link NOC:Multiphase Flows Lecture 1 - Multiphase flow introduction
Link NOC:Multiphase Flows Lecture 2 - Fundamental definitions and terminology used in Multiphase - I
Link NOC:Multiphase Flows Lecture 3 - Fundamental definitions and terminology used in Multiphase - II
Link NOC:Multiphase Flows Lecture 4 - Flow Regime Map for Gas-Liquid System
Link NOC:Multiphase Flows Lecture 5 - Flow Regime Map for Fluid-Solid System
Link NOC:Multiphase Flows Lecture 6 - Pneumatic Conveying
Link NOC:Multiphase Flows Lecture 7 - Momentum Equation through Reynolds Transport Theorem
Link NOC:Multiphase Flows Lecture 8 - Lockhart Martinelli Correlation
Link NOC:Multiphase Flows Lecture 9 - Pressure Drop Calculation for Homogeneous Flow
Link NOC:Multiphase Flows Lecture 10 - Pressure Drop Calculation for Separated and Annular Flow Regime
Link NOC:Multiphase Flows Lecture 11 - Lagrangian Tracking of Single Particle Under Different Forces
Link NOC:Multiphase Flows Lecture 12 - Multiphase Interactions: Drag Force
Link NOC:Multiphase Flows Lecture 13 - Multiphase Interactions: Multi-particle Drag, Virtual Mass Force, Basset Force and Lift Force
Link NOC:Multiphase Flows Lecture 14 - Introduction to Multiphase Flow Modeling
Link NOC:Multiphase Flows Lecture 15 - Algebraic Slip Method and Euler-Euler Method
Link NOC:Multiphase Flows Lecture 16 - KTGF and Euler-Lagrangian Model
Link NOC:Multiphase Flows Lecture 17 - Measurement Techniques: Velocity Measurement
Link NOC:Multiphase Flows Lecture 18 - Measurement Techniques: Phase Fraction Measurement
Link NOC:Multiphase Flows Lecture 19 - Bubble Column
Link NOC:Multiphase Flows Lecture 20 - Packed Bed Reactor
Link NOC:Multiphase Flows Lecture 21 - Fluidized Bed Reactor
Link NOC:Multiphase Flows Lecture 22 - Summary
Link NOC:Introduction to Polymer Physics (IIT-G) Lecture 1 - Introduction to Polymers
Link NOC:Introduction to Polymer Physics (IIT-G) Lecture 2 - Ideal Chain Models
Link NOC:Introduction to Polymer Physics (IIT-G) Lecture 3 - Ideal and Real Chains
Link NOC:Introduction to Polymer Physics (IIT-G) Lecture 4 - Thermodynamics of Polymer Solutions - I
Link NOC:Introduction to Polymer Physics (IIT-G) Lecture 5 - Thermodynamics of Polymer Solutions - II
Link NOC:Introduction to Polymer Physics (IIT-G) Lecture 6 - Thermodynamics of Polymer Solutions - III
Link NOC:Introduction to Polymer Physics (IIT-G) Lecture 7 - Phase Behaviour of Polymer Solutions and Blends
Link NOC:Introduction to Polymer Physics (IIT-G) Lecture 8 - Phase Behaviour of Polymer Blends and Copolymers
Link NOC:Introduction to Polymer Physics (IIT-G) Lecture 9 - Determination of Polymer Molar Mass: Osmometry
Link NOC:Introduction to Polymer Physics (IIT-G) Lecture 10 - Determination of Polymer Molar Mass: Static Light Scattering - I
Link NOC:Introduction to Polymer Physics (IIT-G) Lecture 11 - Determination of Polymer Molar Mass: Static Light Scattering - II
Link NOC:Introduction to Polymer Physics (IIT-G) Lecture 12 - Determination of Polymer Molar Mass: Viscometry and GPC
Link NOC:Introduction to Polymer Physics (IIT-G) Lecture 13 - Branching: Hyperbranched Polymers
Link NOC:Introduction to Polymer Physics (IIT-G) Lecture 14 - Branching, Network Formation and Gelation
Link NOC:Introduction to Polymer Physics (IIT-G) Lecture 15 - Gelation and Swelling of Network Polymers
Link NOC:Introduction to Polymer Physics (IIT-G) Lecture 16 - Amorphous State of Polymers
Link NOC:Introduction to Polymer Physics (IIT-G) Lecture 17 - Crystalline State of Polymers
Link NOC:Introduction to Polymer Physics (IIT-G) Lecture 18 - Mechanical Properties of Polymers
Link NOC:Introduction to Polymer Physics (IIT-G) Lecture 19 - Viscoelasticity: Mechanical Models
Link NOC:Introduction to Polymer Physics (IIT-G) Lecture 20 - Viscoelasticity, Dynamic Mechanical Analysis and Rheology
Link NOC:Introduction to Polymer Physics (IIT-G) Lecture 21 - Rubber Elasticity
Link NOC:Introduction to Polymer Physics (IIT-G) Lecture 22 - Unentangled Polymer Dynamics
Link NOC:Introduction to Polymer Physics (IIT-G) Lecture 23 - Entangled Polymer Dynamics
Link NOC:Introduction to Polymer Physics (IIT-G) Lecture 24 - Review
Link NOC:Natural Gas Engineering Lecture 1 - Introduction to Natural Gas - I
Link NOC:Natural Gas Engineering Lecture 2 - Introduction to Natural Gas - II
Link NOC:Natural Gas Engineering Lecture 3 - Introduction to Natural Gas - III
Link NOC:Natural Gas Engineering Lecture 4 - Properties of Natural Gas-I
Link NOC:Natural Gas Engineering Lecture 5 - Properties of Natural Gas-II
Link NOC:Natural Gas Engineering Lecture 6 - Properties of Reservoir
Link NOC:Natural Gas Engineering Lecture 7 - Inflow Performance Relationship (IPR) - I
Link NOC:Natural Gas Engineering Lecture 8 - Inflow Performance Relationship (IPR) - II
Link NOC:Natural Gas Engineering Lecture 9 - Gas Well Testing
Link NOC:Natural Gas Engineering Lecture 10 - Wellbore Performance Relationship (WPR)
Link NOC:Natural Gas Engineering Lecture 11 - Choke Performance Relationship (CPR)
Link NOC:Natural Gas Engineering Lecture 12 - Nodal Analysis
Link NOC:Natural Gas Engineering Lecture 13 - Natural Gas Separation - I
Link NOC:Natural Gas Engineering Lecture 14 - Natural Gas Separation - II
Link NOC:Natural Gas Engineering Lecture 15 - Dehydration of Natural Gas
Link NOC:Natural Gas Engineering Lecture 16 - Sweeting of Natural Gas
Link NOC:Natural Gas Engineering Lecture 17 - Compressor Design
Link NOC:Natural Gas Engineering Lecture 18 - Measurement of Natural Gas
Link NOC:Natural Gas Engineering Lecture 19 - Transportation of Natural Gas - I
Link NOC:Natural Gas Engineering Lecture 20 - Transportation of Natural Gas - II
Link NOC:Natural Gas Engineering Lecture 21 - Unconventional production of Natural Gas
Link NOC:Natural Gas Engineering Lecture 22 - Review: Concluding Remarks
Link NOC:Chemical Engineering Thermodynamics Lecture 1 - Introduction
Link NOC:Chemical Engineering Thermodynamics Lecture 2 - First law for closed systems
Link NOC:Chemical Engineering Thermodynamics Lecture 3 - First law for open systems
Link NOC:Chemical Engineering Thermodynamics Lecture 4 - Simple processes
Link NOC:Chemical Engineering Thermodynamics Lecture 5 - Processes involving liquids and ideal gases
Link NOC:Chemical Engineering Thermodynamics Lecture 6 - Temperature dependency of Cp in an ideal gas
Link NOC:Chemical Engineering Thermodynamics Lecture 7 - Efficiency of Heat engines and Statement of Second Law
Link NOC:Chemical Engineering Thermodynamics Lecture 8 - Entropy
Link NOC:Chemical Engineering Thermodynamics Lecture 9 - Lost Work
Link NOC:Chemical Engineering Thermodynamics Lecture 10 - Maxwell's Relations
Link NOC:Chemical Engineering Thermodynamics Lecture 11 - Thermodynamic Diagrams
Link NOC:Chemical Engineering Thermodynamics Lecture 12 - Thermodynamic Tables, Residual Properties
Link NOC:Chemical Engineering Thermodynamics Lecture 13 - Virial Equation of State
Link NOC:Chemical Engineering Thermodynamics Lecture 14 - Residual property relations from EoS
Link NOC:Chemical Engineering Thermodynamics Lecture 15 - Cubic Equation of State
Link NOC:Chemical Engineering Thermodynamics Lecture 16 - Cubic Equation of State
Link NOC:Chemical Engineering Thermodynamics Lecture 17 - Thermodynamic Tables
Link NOC:Chemical Engineering Thermodynamics Lecture 18 - Correlations for Liquids
Link NOC:Chemical Engineering Thermodynamics Lecture 19 - Process Involving Phase Changes
Link NOC:Chemical Engineering Thermodynamics Lecture 20 - Chemical potential
Link NOC:Chemical Engineering Thermodynamics Lecture 21 - Partial molar properties
Link NOC:Chemical Engineering Thermodynamics Lecture 22 - Examples
Link NOC:Chemical Engineering Thermodynamics Lecture 23 - Ideal Solutions
Link NOC:Chemical Engineering Thermodynamics Lecture 24 - Excess Properties
Link NOC:Chemical Engineering Thermodynamics Lecture 25 - Fugacity
Link NOC:Chemical Engineering Thermodynamics Lecture 26 - Calculation of Fugacity using EoS - Part 1
Link NOC:Chemical Engineering Thermodynamics Lecture 27 - Calculation of Fugacity using EoS - Part 2
Link NOC:Chemical Engineering Thermodynamics Lecture 28 - Calculation of Fugacity in Mixtures using Cubic EoS
Link NOC:Chemical Engineering Thermodynamics Lecture 29 - Fugacity in Liquids, Activity Coeffcient
Link NOC:Chemical Engineering Thermodynamics Lecture 30 - Models for Excess Gibbs free energy - Part 1
Link NOC:Chemical Engineering Thermodynamics Lecture 31 - Models for Excess Gibbs free energy - Part 2
Link NOC:Chemical Engineering Thermodynamics Lecture 32 - Vapor Liquid Equilibrium - Part 1
Link NOC:Chemical Engineering Thermodynamics Lecture 33 - Vapor Liquid Equilibrium - Part 2
Link NOC:Chemical Engineering Thermodynamics Lecture 34 - Azeotropes
Link NOC:Chemical Engineering Thermodynamics Lecture 35 - Gamma/Phi Formulation
Link NOC:Chemical Engineering Thermodynamics Lecture 36 - LLE
Link NOC:Chemical Engineering Thermodynamics Lecture 37 - VLLE
Link NOC:Chemical Engineering Thermodynamics Lecture 38 - Enthalpy changes upon reaction
Link NOC:Chemical Engineering Thermodynamics Lecture 39 - Reaction coordinate
Link NOC:Chemical Engineering Thermodynamics Lecture 40 - Equilibrium constant
Link NOC:Chemical Engineering Thermodynamics Lecture 41 - Examples
Link NOC:Chemical Engineering Thermodynamics Lecture 42 - Conclusion
Link NOC:Mass Transfer Operations-I Lecture 1 - Introduction and Overview of Mass Transfer Operation
Link NOC:Mass Transfer Operations-I Lecture 2 - Molecular and Eddy Diffusion, Diffusion Velocities and Fluxes
Link NOC:Mass Transfer Operations-I Lecture 3 - Fick's First and Second Law
Link NOC:Mass Transfer Operations-I Lecture 4 - Steady State Molecular Diffusion in fluids under stagnant and laminar flow conditions
Link NOC:Mass Transfer Operations-I Lecture 5 - Diffusion through variable cross-sectional area
Link NOC:Mass Transfer Operations-I Lecture 6 - Gas Phase Diffusion Coefficient measurement
Link NOC:Mass Transfer Operations-I Lecture 7 - Gas Phase Diffusion Coefficient prediction and liquid phase diffusion coefficient measurement and prediction
Link NOC:Mass Transfer Operations-I Lecture 8 - Multicomponent diffusion and diffusivity in solids
Link NOC:Mass Transfer Operations-I Lecture 9 - Mass transfer coefficient concept and classifications
Link NOC:Mass Transfer Operations-I Lecture 10 - Dimensionless groups and correlations for convective mass transfer coefficients
Link NOC:Mass Transfer Operations-I Lecture 11 - Mass transfer coefficient in laminar flow
Link NOC:Mass Transfer Operations-I Lecture 12 - Boundary Layer Theory and mass transfer coefficients in turbulent flow
Link NOC:Mass Transfer Operations-I Lecture 13 - Mass transfer theories
Link NOC:Mass Transfer Operations-I Lecture 14 - Interphase mass transfer
Link NOC:Mass Transfer Operations-I Lecture 15 - Interphase mass transfer and material balance for operating line
Link NOC:Mass Transfer Operations-I Lecture 16 - Number of ideal stages in counter current operation: graphical and algebraic methods
Link NOC:Mass Transfer Operations-I Lecture 17 - Introduction, classification, Sparged and agitated vessels design
Link NOC:Mass Transfer Operations-I Lecture 18 - Gas dispersed: Tray tower
Link NOC:Mass Transfer Operations-I Lecture 19 - Sieve Tray
Link NOC:Mass Transfer Operations-I Lecture 20 - Liquid dispersed: Venture scrubber, wetted wall column, Packed tower
Link NOC:Mass Transfer Operations-I Lecture 21 - Introduction to absorption, Equilibrium in gas-liquid system, and minimum liquid rate
Link NOC:Mass Transfer Operations-I Lecture 22 - Design of packed column absorber based on the Individual Mass Transfer Coefficient
Link NOC:Mass Transfer Operations-I Lecture 23 - Design of packed column absorber based on the Overall Mass Transfer Coefficient
Link NOC:Mass Transfer Operations-I Lecture 24 - Height Equivalent to a Theoretical Plate (HETP), Design of packed column absorber for dilute and concentrated gases
Link NOC:Mass Transfer Operations-I Lecture 25 - Absorption in plate column: Method of McCabe and Thiele-graphical determination of ideal trays and Introduction to multicomponent absorption
Link NOC:Mass Transfer Operations-I Lecture 26 - Introduction to distillation, binary equilibrium diagrams and concept of relative volatility
Link NOC:Mass Transfer Operations-I Lecture 27 - Distillation in non-ideal systems and concept of enthalpy-concentration diagram
Link NOC:Mass Transfer Operations-I Lecture 28 - Flash distillation
Link NOC:Mass Transfer Operations-I Lecture 29 - Batch and steam distillation
Link NOC:Mass Transfer Operations-I Lecture 30 - Continuous multistate fractionation
Link NOC:Mass Transfer Operations-I Lecture 31 - Number of trays by McCabe and Thiele for distillation
Link NOC:Mass Transfer Operations-I Lecture 32 - Pinch Points and minimum reflux
Link NOC:Mass Transfer Operations-I Lecture 33 - Reflux below its bubble point: Sub-cooled reflux and use of open steam
Link NOC:Mass Transfer Operations-I Lecture 34 - Multiple feeds, multiple product withdrawal or side streams
Link NOC:Mass Transfer Operations-I Lecture 35 - Multistage batch distillation with reflux
Link NOC:Mass Transfer Operations-I Lecture 36 - The Ponchon-Savarit method
Link NOC:Mass Transfer Operations-I Lecture 37 - The Ponchon-Savarit method
Link NOC:Mass Transfer Operations-I Lecture 38 - Packed Distillation
Link NOC:Mass Transfer Operations-I Lecture 39 - Introduction to multicomponent distillation and multicomponent flash distillation
Link NOC:Mass Transfer Operations-I Lecture 40 - Minimum stages and minimum reflux in multicomponent distillation
Link NOC:Mass Transfer Operations-I Lecture 41 - Multicomponent batch distillation
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 1 - Introduction and Basic Concepts
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 2 - Classification of Non-Newtonian Fluids
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 3 - Mathematical Models for Non-Newtonian Fluids
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 4 - Capillary Viscometers
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 5 - Capillary Viscometers: Sources of Errors and Correction Methods
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 6 - Rotational Viscometers
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 7 - Equations of Change for Isothermal Systems
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 8 - Equation of Change for Non-Isothermal Systems
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 9 - Time Independent Non-Newtonian Fluids Flow Through Pipes - 1
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 10 - Time Independent Non-Newtonian Fluids Flow Through Pipes – 2
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 11 - Transition from Laminar to Turbulent Flow in Pipes for GNF
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 12 - Power-law and Bingham Plastic Fluids Flow Between Two Infinite Parallel Plates
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 13 - Flow of Ellis Model and Bingham Plastic Fluids along Inclined and Vertical Plates
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 14 - Power-law Fluids Flow in Concentric Annulus
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 15 - Flow of Non-Newtonian Fluids through Beds of Particles
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 16 - Dispersion in Beds of Particles: Effect of Non-Newtonian Rheology
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 17 - Liquid-Solid Fluidization by Power-law Liquids
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 18 - Free Convection between Two Vertical Plates
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 19 - Viscous Heat Generation in Coaxial Cylinders
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 20 - (a) Viscous Heating in Slit Flow with Constant Wall Flux Boundary Condition (b) Temperature Distribution of Fully Developed Newtonian Flow in Tubes
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 21 - Temperature Distribution in Fluids Confined Between Two Cylinders
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 22 - Heat Conduction from Sphere Without and With Reaction; and in Spherical Shell
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 23 - Transpiration Cooling
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 24 - Mass Transfer Phenomena of Non-Newtonian Fluids
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 25 - Diffusion through A Stagnant Gas Film; Diffusion into A Falling Liquid Film
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 26 - Diffusion through A Non-Isothermal Spherical Film
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 27 - Simultaneous Heat and Mass Transfer with Multicomponent Diffusion
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 28 - Diffusion Combined with Heterogeneous and Homogeneous Chemical Reactions
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 29 - Combustion of a Carbon Particle
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 30 - Evaporation of Column of Liquid; Melting of Spherical Crystal
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 31 - Freezing of Salt Water; Effect of Mass Transfer on Heat Transfer Coefficient
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 32 - Evaporation of a Water Droplet
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 33 - Boundary Layer Flows and Derivation of Integral Momentum and Energy Equations
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 34 - Momentum Boundary Layer Thickness for Flow of Power-law Liquids
Link NOC:Transport Phenomena of Non-Newtonian Fluids Lecture 35 - Thermal Boundary Layer Thickness for Flow of Power-law Liquids
Link NOC:Fluid Flow Operations Lecture 1 - Introduction
Link NOC:Fluid Flow Operations Lecture 2 - Characteristics of fluid (Continued...)
Link NOC:Fluid Flow Operations Lecture 3 - Fluid Statics
Link NOC:Fluid Flow Operations Lecture 4 - Fluid Statics (Continued...)
Link NOC:Fluid Flow Operations Lecture 5 - Fundamentals of flow - Part 1
Link NOC:Fluid Flow Operations Lecture 6 - Fundamentals of flow - Part 2
Link NOC:Fluid Flow Operations Lecture 7 - One dimensional flow - Part 1
Link NOC:Fluid Flow Operations Lecture 8 - One dimensional flow - Part 2
Link NOC:Fluid Flow Operations Lecture 9 - One dimensional flow - Part 3
Link NOC:Fluid Flow Operations Lecture 10 - Flow of Viscous fluid - Introduction
Link NOC:Fluid Flow Operations Lecture 11 - Velocity distribution in laminar flow
Link NOC:Fluid Flow Operations Lecture 12 - Velocity distribution in turbulent flow
Link NOC:Fluid Flow Operations Lecture 13 - Boundary layer theory
Link NOC:Fluid Flow Operations Lecture 14 - Theory of lubrication
Link NOC:Fluid Flow Operations Lecture 15 - Frictional resistance
Link NOC:Fluid Flow Operations Lecture 16 - Losses in gematric change
Link NOC:Fluid Flow Operations Lecture 17 - Losses in geometric change (Continued...)
Link NOC:Fluid Flow Operations Lecture 18 - Flow Velocity and Optimum Shape
Link NOC:Fluid Flow Operations Lecture 19 - Equation of Energy and Discharge of Water Channel
Link NOC:Fluid Flow Operations Lecture 20 - Drag
Link NOC:Fluid Flow Operations Lecture 21 - Lift and Cavitation
Link NOC:Fluid Flow Operations Lecture 22 - Dimensional Analysis
Link NOC:Fluid Flow Operations Lecture 23 - Dimensional Analysis: Buckingham’s PI Theorem
Link NOC:Fluid Flow Operations Lecture 24 - Law of Similarity and Significant Dimensionless Number
Link NOC:Fluid Flow Operations Lecture 25 - Compressible Flow - Part 1
Link NOC:Fluid Flow Operations Lecture 26 - Compressible Flow - Part 2
Link NOC:Fluid Flow Operations Lecture 27 - Measurement of Flow - Part 1
Link NOC:Fluid Flow Operations Lecture 28 - Measurement of Flow - Part 2
Link NOC:Fluid Flow Operations Lecture 29 - Measurement of Flow - Part 3
Link NOC:Fluid Flow Operations Lecture 30 - Introduction to multiphase flow
Link NOC:Fluid Flow Operations Lecture 31 - Hydrodynamics in multiphase flow
Link NOC:Fluid Flow Operations Lecture 32 - Hydrodynamics in multiphase flow (Continued...)
Link NOC:Fluid Flow Operations Lecture 33 - Applications of multiphase flow
Link NOC:Chemical Process Intensification Lecture 1 - History, Philosophy and Concept
Link NOC:Chemical Process Intensification Lecture 2 - Principle Features
Link NOC:Chemical Process Intensification Lecture 3 - Strategies and domain based techniques
Link NOC:Chemical Process Intensification Lecture 4 - Intensification by fluid flow process
Link NOC:Chemical Process Intensification Lecture 5 - Mechanism of Intensification by mixing
Link NOC:Chemical Process Intensification Lecture 6 - Intensification in Reactive system
Link NOC:Chemical Process Intensification Lecture 7 - Problems leading to sustainable development
Link NOC:Chemical Process Intensification Lecture 8 - Concept, Issues and Challenges
Link NOC:Chemical Process Intensification Lecture 9 - Strategies in process design
Link NOC:Chemical Process Intensification Lecture 10 - Scales and stages of process intensification
Link NOC:Chemical Process Intensification Lecture 11 - Methods and Tools for Achieving sustainable design
Link NOC:Chemical Process Intensification Lecture 12 - Multi-level Computer aided tools
Link NOC:Chemical Process Intensification Lecture 13 - Introduction on Stochastic Optimization
Link NOC:Chemical Process Intensification Lecture 14 - Optimization Algorithms
Link NOC:Chemical Process Intensification Lecture 15 - Applications of Optimization Algorithms
Link NOC:Chemical Process Intensification Lecture 16 - Introduction and Mechanism of Cavitation-based PI
Link NOC:Chemical Process Intensification Lecture 17 - Cavitational Reactor Configurations and activity
Link NOC:Chemical Process Intensification Lecture 18 - Parametric effects on cavitation
Link NOC:Chemical Process Intensification Lecture 19 - Introduction of monolith reactor
Link NOC:Chemical Process Intensification Lecture 20 - Preparation of monolithic catalyst
Link NOC:Chemical Process Intensification Lecture 21 - Application of monolithic catalyst
Link NOC:Chemical Process Intensification Lecture 22 - Hydrodynamics, transport of monolithic reactor
Link NOC:Chemical Process Intensification Lecture 23 - Overview of interfacial area based processes
Link NOC:Chemical Process Intensification Lecture 24 - Ejector induced downflow system for PI
Link NOC:Chemical Process Intensification Lecture 25 - Hydrodynamics and transport in downflow system
Link NOC:Chemical Process Intensification Lecture 26 - Introduction and Principles
Link NOC:Chemical Process Intensification Lecture 27 - Types of Intensified Distillation Units
Link NOC:Chemical Process Intensification Lecture 28 - Design of membrane-assisted distillation
Link NOC:Chemical Process Intensification Lecture 29 - Introduction and Principles
Link NOC:Chemical Process Intensification Lecture 30 - Supercritical extraction for process intensification
Link NOC:Chemical Process Intensification Lecture 31 - Introduction to membrane and its principles
Link NOC:Chemical Process Intensification Lecture 32 - Membrane engineering in process intensification
Link NOC:Chemical Process Intensification Lecture 33 - Introduction to microprocess technology
Link NOC:Chemical Process Intensification Lecture 34 - Process Intensification by Microreactors
Link NOC:Chemical Process Intensification Lecture 35 - Hydrodynamics and transport in microchannel based microreactor
Link NOC:Chemical Reaction Engineering-I Lecture 1 - Introduction and Overview on Reaction Engineering
Link NOC:Chemical Reaction Engineering-I Lecture 2 - Kinetics of Homogeneous Reactions
Link NOC:Chemical Reaction Engineering-I Lecture 3 - Kinetic Model and Temperature Dependency
Link NOC:Chemical Reaction Engineering-I Lecture 4 - Introduction and Stoichiometry for the Batch System
Link NOC:Chemical Reaction Engineering-I Lecture 5 - Stoichiometry for Constant Volume Flow and Variable Volume Batch Systems
Link NOC:Chemical Reaction Engineering-I Lecture 6 - Stoichiometry for Variable Volume Flow System
Link NOC:Chemical Reaction Engineering-I Lecture 7 - Analysis of Batch Reactor Kinetic Data
Link NOC:Chemical Reaction Engineering-I Lecture 8 - Intregal Method of Analysis of Batch Reactor Data - Part 1
Link NOC:Chemical Reaction Engineering-I Lecture 9 - Intregal Method of Analysis of Batch Reactor Data - Part 2
Link NOC:Chemical Reaction Engineering-I Lecture 10 - Differential Method of Analysis and Variable Volume Batch Reactor Data
Link NOC:Chemical Reaction Engineering-I Lecture 11 - Introduction and Ideal Batch Reactor Design
Link NOC:Chemical Reaction Engineering-I Lecture 12 - Ideal Mixed Flow Reactor Design
Link NOC:Chemical Reaction Engineering-I Lecture 13 - Ideal Plug Flow Reactor Design
Link NOC:Chemical Reaction Engineering-I Lecture 14 - Size Comparisn of Single and Multiple Reactors
Link NOC:Chemical Reaction Engineering-I Lecture 15 - Size Comaprison Multiple Reactors
Link NOC:Chemical Reaction Engineering-I Lecture 16 - Recycle and Autocatalytic Reactors
Link NOC:Chemical Reaction Engineering-I Lecture 17 - Design for Parallel Reactions
Link NOC:Chemical Reaction Engineering-I Lecture 18 - Design for Series Reactions
Link NOC:Chemical Reaction Engineering-I Lecture 19 - Design for Series-Parallel Reactions
Link NOC:Chemical Reaction Engineering-I Lecture 20 - Denbigh Reactions and Their Special Cases
Link NOC:Chemical Reaction Engineering-I Lecture 21 - Heats of Reaction and Equilibrium Conversion from Thermodynamics
Link NOC:Chemical Reaction Engineering-I Lecture 22 - General Graphical Reactor Design Procedure
Link NOC:Chemical Reaction Engineering-I Lecture 23 - Material and Energy Balances in Batch Reactor
Link NOC:Chemical Reaction Engineering-I Lecture 24 - Optimum Temperature Progression in Batch Reactor
Link NOC:Chemical Reaction Engineering-I Lecture 25 - Material and Energy Balances in Flug Flow and Mixed Flow Reactors
Link NOC:Chemical Reaction Engineering-I Lecture 26 - Ideal and Non-Ideal Mixed Flow Reactor Design and Multiple Steady States
Link NOC:Chemical Reaction Engineering-I Lecture 27 - Non-Ideal Reactors and Residence Time Distribution
Link NOC:Chemical Reaction Engineering-I Lecture 28 - RTD Measurement and Moments of RTD
Link NOC:Chemical Reaction Engineering-I Lecture 29 - RTD in Ideal Reactors
Link NOC:Chemical Reaction Engineering-I Lecture 30 - Reactor Modeling using the RTD
Link NOC:Mass Transfer Operations-II Lecture 1 - Basic concepts, Adiabatic saturation temperature
Link NOC:Mass Transfer Operations-II Lecture 2 - Design calculations of cooling tower
Link NOC:Mass Transfer Operations-II Lecture 3 - Design of cooling tower
Link NOC:Mass Transfer Operations-II Lecture 4 - Design of cooling tower
Link NOC:Mass Transfer Operations-II Lecture 5 - Air conditioning, Example problems on dehumidification
Link NOC:Mass Transfer Operations-II Lecture 6 - Mechanism of drying and drying equilibria, drying rate curve
Link NOC:Mass Transfer Operations-II Lecture 7 - Drying: rate of drying for batch dryers
Link NOC:Mass Transfer Operations-II Lecture 8 - Drying: rate of drying for continuous dryers
Link NOC:Mass Transfer Operations-II Lecture 9 - Drying time calculation from drying rate curve
Link NOC:Mass Transfer Operations-II Lecture 10 - Introduction to liquid-liquid extraction, liquid-liquid equilibria
Link NOC:Mass Transfer Operations-II Lecture 11 - Effect of temperature on LLE and Design of single stage extraction
Link NOC:Mass Transfer Operations-II Lecture 12 - Design Calculation of Multistage Operation
Link NOC:Mass Transfer Operations-II Lecture 13 - Design calculation of multistage cross-current extraction
Link NOC:Mass Transfer Operations-II Lecture 14 - Design calculation of multistage counter-current extraction, Selection of extractors
Link NOC:Mass Transfer Operations-II Lecture 15 - Leaching: single stage operation
Link NOC:Mass Transfer Operations-II Lecture 16 - Leaching: multistage operation
Link NOC:Mass Transfer Operations-II Lecture 17 - Supercritical Fluid Extraction, equipmet for leaching
Link NOC:Mass Transfer Operations-II Lecture 18 - Fundamentals of membrane separation processes
Link NOC:Mass Transfer Operations-II Lecture 19 - Manufacturing of membranes,advantages and limitations
Link NOC:Mass Transfer Operations-II Lecture 20 - Various models and applications: design aspects
Link NOC:Mass Transfer Operations-II Lecture 21 - Various models and applications: design aspects
Link NOC:Mass Transfer Operations-II Lecture 22 - Electric field enhanced membrane separation processes
Link NOC:Mass Transfer Operations-II Lecture 23 - Micellar-enhanced ultrafiltration
Link NOC:Mass Transfer Operations-II Lecture 24 - Adsorption: types and nature, isotherm
Link NOC:Mass Transfer Operations-II Lecture 25 - Stage wise and continuous adsorption
Link NOC:Mass Transfer Operations-II Lecture 26 - Fluidized bed and teeter bed
Link NOC:Mass Transfer Operations-II Lecture 27 - Unsteady state fixed bed adsorbers, ion exchange
Link NOC:Mass Transfer Operations-II Lecture 28 - Crystallization, types of crystal geometry
Link NOC:Mass Transfer Operations-II Lecture 29 - Solid-liquid phase equilibrium, Theory of crystallization
Link NOC:Mass Transfer Operations-II Lecture 30 - Design of crystallizer, crystallization equipment
Link NOC:Mechanical Unit Operations Lecture 1 - Introduction of Particulate Solids
Link NOC:Mechanical Unit Operations Lecture 2 - Particle Size
Link NOC:Mechanical Unit Operations Lecture 3 - Particle Shape and Density
Link NOC:Mechanical Unit Operations Lecture 4 - Screening
Link NOC:Mechanical Unit Operations Lecture 5 - Size Analysis by Screening
Link NOC:Mechanical Unit Operations Lecture 6 - Screening Equipment, Effectiveness and Capacity
Link NOC:Mechanical Unit Operations Lecture 7 - Methods of Size Reduction
Link NOC:Mechanical Unit Operations Lecture 8 - Equipment for Size Reduction - Crushers
Link NOC:Mechanical Unit Operations Lecture 9 - Equipment for Size Reduction - Gridners
Link NOC:Mechanical Unit Operations Lecture 10 - Equipment for Size Reduction - Ultrafine Grinders and Cutting Machines
Link NOC:Mechanical Unit Operations Lecture 11 - Storage of Bulk Solids
Link NOC:Mechanical Unit Operations Lecture 12 - Solids Flow Out and their Flow Patterns
Link NOC:Mechanical Unit Operations Lecture 13 - Conveying of Bulk Solids
Link NOC:Mechanical Unit Operations Lecture 14 - Size Enlargement Methods
Link NOC:Mechanical Unit Operations Lecture 15 - Size Enlargement Equipment - 1
Link NOC:Mechanical Unit Operations Lecture 16 - Size Enlargement Equipment - 2
Link NOC:Mechanical Unit Operations Lecture 17 - Flow past Immersed Solid Objects
Link NOC:Mechanical Unit Operations Lecture 18 - Motion of Particles through Fluids - 1
Link NOC:Mechanical Unit Operations Lecture 19 - Motion of Particles through Fluids - 2
Link NOC:Mechanical Unit Operations Lecture 20 - Motion of Particles through Fluids - 3
Link NOC:Mechanical Unit Operations Lecture 21 - Flow through Beds of Solids - 1
Link NOC:Mechanical Unit Operations Lecture 22 - Flow through Beds of Solids - 2
Link NOC:Mechanical Unit Operations Lecture 23 - Flow through Fluidized Beds - 1
Link NOC:Mechanical Unit Operations Lecture 24 - Flow through Fluidized Beds - 2
Link NOC:Mechanical Unit Operations Lecture 25 - Filtration
Link NOC:Mechanical Unit Operations Lecture 26 - Principles of Cake Filtration - 1
Link NOC:Mechanical Unit Operations Lecture 27 - Principles of Cake Filtration - 2
Link NOC:Mechanical Unit Operations Lecture 28 - Filtration Equipment
Link NOC:Mechanical Unit Operations Lecture 29 - Cross Flow Filtration - 1
Link NOC:Mechanical Unit Operations Lecture 30 - Cross Flow Filtration - 2
Link NOC:Mechanical Unit Operations Lecture 31 - Gravity Sedimentation - Classifiers
Link NOC:Mechanical Unit Operations Lecture 32 - Gravity Sedimentation - Design of Thickeners - 1
Link NOC:Mechanical Unit Operations Lecture 33 - Gravity Sedimentation - Design of Thickeners - 2
Link NOC:Mechanical Unit Operations Lecture 34 - Centrifugal Separations - 1
Link NOC:Mechanical Unit Operations Lecture 35 - Centrifugal Separations - 2
Link NOC:Mechanical Unit Operations Lecture 36 - Floatation - 1
Link NOC:Mechanical Unit Operations Lecture 37 - Floatation - 2
Link Fluid Mechanics Lecture 1
Link Fluid Mechanics Lecture 2
Link Fluid Mechanics Lecture 3
Link Fluid Mechanics Lecture 4
Link Fluid Mechanics Lecture 5
Link Fluid Mechanics Lecture 6
Link Fluid Mechanics Lecture 7
Link Fluid Mechanics Lecture 8
Link Fluid Mechanics Lecture 9
Link Fluid Mechanics Lecture 10
Link Fluid Mechanics Lecture 11
Link Fluid Mechanics Lecture 12
Link Fluid Mechanics Lecture 13
Link Fluid Mechanics Lecture 14
Link Fluid Mechanics Lecture 15
Link Fluid Mechanics Lecture 16
Link Fluid Mechanics Lecture 17
Link Fluid Mechanics Lecture 18
Link Fluid Mechanics Lecture 19
Link Fluid Mechanics Lecture 20
Link Fluid Mechanics Lecture 21
Link Fluid Mechanics Lecture 22
Link Fluid Mechanics Lecture 23
Link Fluid Mechanics Lecture 24
Link Fluid Mechanics Lecture 25
Link Fluid Mechanics Lecture 26
Link Fluid Mechanics Lecture 27
Link Fluid Mechanics Lecture 28
Link Fluid Mechanics Lecture 29
Link Fluid Mechanics Lecture 30
Link Fluid Mechanics Lecture 31
Link Fluid Mechanics Lecture 32
Link Fluid Mechanics Lecture 33
Link Fluid Mechanics Lecture 34
Link Fluid Mechanics Lecture 35
Link Fluid Mechanics Lecture 36
Link Fluid Mechanics Lecture 37
Link Fluid Mechanics Lecture 38
Link Fluid Mechanics Lecture 39
Link Fluid Mechanics Lecture 40
Link Mass Transfer II Lecture 1
Link Mass Transfer II Lecture 2
Link Mass Transfer II Lecture 3
Link Mass Transfer II Lecture 4
Link Mass Transfer II Lecture 5
Link Mass Transfer II Lecture 6
Link Mass Transfer II Lecture 7
Link Mass Transfer II Lecture 8
Link Mass Transfer II Lecture 9
Link Mass Transfer II Lecture 10
Link Mass Transfer II Lecture 11
Link Mass Transfer II Lecture 12
Link Mass Transfer II Lecture 13
Link Mass Transfer II Lecture 14
Link Mass Transfer II Lecture 15
Link Mass Transfer II Lecture 16
Link Mass Transfer II Lecture 17
Link Mass Transfer II Lecture 18
Link Mass Transfer II Lecture 19
Link Mass Transfer II Lecture 20
Link Mass Transfer II Lecture 21
Link Mass Transfer II Lecture 22
Link Mass Transfer II Lecture 23
Link Mass Transfer II Lecture 24
Link Mass Transfer II Lecture 25
Link Mass Transfer II Lecture 26
Link Mass Transfer II Lecture 27
Link Mass Transfer II Lecture 28
Link Mass Transfer II Lecture 29
Link Mass Transfer II Lecture 30
Link Mass Transfer II Lecture 31
Link Mass Transfer II Lecture 32
Link Mass Transfer II Lecture 33
Link Mass Transfer II Lecture 34
Link Mass Transfer II Lecture 35
Link Mass Transfer II Lecture 36
Link Mass Transfer II Lecture 37
Link Mass Transfer II Lecture 38
Link Mass Transfer II Lecture 39
Link Mass Transfer II Lecture 40
Link Plantwide Control of Chemical Processes Lecture 1 - Introduction to the course
Link Plantwide Control of Chemical Processes Lecture 2 - Process Dynamics and Negative Feedback
Link Plantwide Control of Chemical Processes Lecture 3 - PID control
Link Plantwide Control of Chemical Processes Lecture 4 - Common Industrial Control Loops and advanced loops
Link Plantwide Control of Chemical Processes Lecture 5 - Advanced loops (Continued...) and multivariable systems
Link Plantwide Control of Chemical Processes Lecture 6 - Systematic Tuning Using Frequency Domain Analysis
Link Plantwide Control of Chemical Processes Lecture 7 - Frequency Domain Analysis
Link Plantwide Control of Chemical Processes Lecture 8 - Multivariable Systems
Link Plantwide Control of Chemical Processes Lecture 9 - RGA and dynamic decoupling
Link Plantwide Control of Chemical Processes Lecture 10 - Model based control
Link Plantwide Control of Chemical Processes Lecture 11 - Dynamic Matrix Control
Link Plantwide Control of Chemical Processes Lecture 12 - Control of Distillation Columns
Link Plantwide Control of Chemical Processes Lecture 13 - Temperature inferential distillation control
Link Plantwide Control of Chemical Processes Lecture 14 - Considerations in temperature inferential control
Link Plantwide Control of Chemical Processes Lecture 15 - Control of Complex Column Configurations
Link Plantwide Control of Chemical Processes Lecture 16 - Control of Heat Integrated Columns
Link Plantwide Control of Chemical Processes Lecture 17 - Homogenous extractive distillation
Link Plantwide Control of Chemical Processes Lecture 18 - More on complex columns and reactive distillation
Link Plantwide Control of Chemical Processes Lecture 19 - Control of reactors
Link Plantwide Control of Chemical Processes Lecture 20 - PFR controls (Continued..) & CSTRs
Link Plantwide Control of Chemical Processes Lecture 21 - CSTR heat management
Link Plantwide Control of Chemical Processes Lecture 22 - Heat Exchangers and Miscellaneous Systems
Link Plantwide Control of Chemical Processes Lecture 23 - Degrees of freedom analysis
Link Plantwide Control of Chemical Processes Lecture 24 - Degrees of freedom (Continued...)
Link Plantwide Control of Chemical Processes Lecture 25 - Illustration of considerations in control structure synthesis
Link Plantwide Control of Chemical Processes Lecture 26 - Two column recycle process
Link Plantwide Control of Chemical Processes Lecture 27 - Throughput manipulator selection
Link Plantwide Control of Chemical Processes Lecture 28 - Plantwide control structure design
Link Plantwide Control of Chemical Processes Lecture 29 - Systematizing plantwide control design
Link Plantwide Control of Chemical Processes Lecture 30 - The Luyben design procedure
Link Plantwide Control of Chemical Processes Lecture 31 - Role of equipment capacity constraints
Link Plantwide Control of Chemical Processes Lecture 32 - Recycle process case study
Link Plantwide Control of Chemical Processes Lecture 33 - Recycle process case study (Continued...)
Link Plantwide Control of Chemical Processes Lecture 34 - C4 isomerization process case study
Link Plantwide Control of Chemical Processes Lecture 35 - C4 isomerization process case study (Continued...)
Link Plantwide Control of Chemical Processes Lecture 36 - C4 isomerization process case study
Link Plantwide Control of Chemical Processes Lecture 37 - Systematic economic plantwide control design procedure
Link Plantwide Control of Chemical Processes Lecture 38 - Ethyl benzene process case study
Link Plantwide Control of Chemical Processes Lecture 39 - C4 isomerization process revisited
Link Plantwide Control of Chemical Processes Lecture 40 - Contrasting conventional and top-down approach
Link Plantwide Control of Chemical Processes Lecture 41 - Cumene process plantwide control
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 1 - Review - 1
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 2 - Review - Temperature and Pressure
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 3 - Review - Energy Conservation
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 4 - Properties - Part 1
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 5 - Properties - Part 2
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 6 - Mass-energy analysis of open system
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 7 - Energy analysis of closed system
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 8 - The Second Law of Thermodynamics
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 9 - Entropy
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 10 - Thermodynamic Calculus - 1
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 11 - Thermodynamic Calculus - 2
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 12 - Thermodynamic Calculus - 3
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 13 - Thermodynamic Calculus - 4
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 14 - Legendre Transformation and Free-energy
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 15 - Criteria for phase equilibria
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 16 - Maxwell Relation
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 17 - Stability Criteria
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 18 - Thermodynamics of phase equilibrium
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 19 - Chemical potential and fugacity
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 20 - General discussion on fugacity
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 21 - Ideal Gas Mixture - Part 1
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 22 - Ideal Gas Mixture - Part 2
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 23 - Partial Molar Properties
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 24 - Partial Molar Properties from experimental data
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 25 - Thermodynamics properties from volumetric data - 1
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 26 - Thermodynamics properties from volumetric data - 2
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 27 - Fugacity of pure liquids and solids
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 28 - Thermodynamics properties from volumetric data: effect of V and T
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 29 - Approaches to phase equilibria calculation
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 30 - Traditional Approaches to phase equilibria calculations
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 31 - Algorithms for vapor-liquid equilibria
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 32 - Probability and Multiplicity
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 33 - Multiplicity and maximising the multiplicity
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 34 - Introduction to statistical mechanics
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 35 - Partition function for independent particles
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 36 - Intermolecular Forces
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 37 - Models of Molecular Pair Potentials
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 38 - Molecular Theory of Corresponding States
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 39 - Molecular Interactions in Dense Fluid Media
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 40 - Models for Electrolyte Systems
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 41 - Membrane Osmometry
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 42 - Fugacity of liquid mixture - 1
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 43 - Fugacity of liquid mixture - 2
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 44 - Models for fugacity of liquid mixtures - 1
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 45 - Models for fugacity of liquid mixtures - 2
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 46 - Examples of Fugacity of liquids
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 47 - Stability of the Fluid Phases
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 48 - Theories of Solution - I
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 49 - Theories of Solution - II
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 50 - Polymer Solutions
Link NOC:Thermodynamics Of Fluid Phase Equilibria Lecture 51 - Example Problems on Polymer Solutions
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 1 - Introduction
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 2 - Measurability and controllability of energy
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 3 - Postulates of thermodynamics - I
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 4 - Postulates of thermodynamics - II
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 5 - Definition of intensive variables and driving forces for temperature and pressure flow
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 6 - Driving force for the matter flow
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 7 - Basic properties, phase diagram, and thermodynamic table
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 8 - Work, and heat
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 9 - First law of thermodynamics for closed system: Ideal gas behavior
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 10 - First law of thermodynamics: Example 1
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 11 - First law of thermodynamics for open system
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 12 - First law of thermodynamics: Example 2
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 13 - The second law of the thermodynamics: Review
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 14 - Carnot cycle and thermodynamic temperature
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 15 - The concept of entropy
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 16 - Maximum work and entropy of ideal gas
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 17 - Power cycles and examples
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 18 - Mathematical properties of fundamental equations
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 19 - Generalized thermodynamic potential - I
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 20 - Generalized thermodynamic potential - II
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 21 - Multivariable Calculus
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 22 - Maxwell's relations and examples
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 23 - Jacobian method and its applications
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 24 - Equilibrium and stability - I
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 25 - Equilibrium and stability - II
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 26 - Stability criteria
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 27 - Intrinsic stability of thermodynamic system
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 28 - Phase transitions
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 29 - Clapeyron Equation and Vapour Pressure Correlations
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 30 - Equation of state
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 31 - Equation of state (Continued...)
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 32 - Repulsive Interaction
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 33 - Fugacity
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 34 - Thermodynamics of mixtures
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 35 - Partial molar properties and examples
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 36 - Examples of partial molar properties for real processes
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 37 - Obtaining the partial molar properties from experimental data
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 38 - Partial molar properties of ideal gas mixtures
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 39 - Chemical potential of ideal gas mixtures
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 40 - Fugacity coefficient in terms of measurable properties
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 41 - Fugacity coefficient for mixtures
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 42 - Fugacity coefficient for ideal mixtures
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 43 - Activity coefficient for mixtures
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 44 - Gibbs - Duhem relations and its impacts on the activity
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 45 - Excess Gibbs free energy model - I
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 46 - Two suffix Margules equation
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 47 - Excess Gibbs free energy model - II
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 48 - Vapor Liquid Equilibria
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 49 - Vapor Liquid Equilibria (examples)
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 50 - Vapor Liquid Equilibria (non-ideal mixtures - I)
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 51 - Vapor Liquid Equilibria (non-ideal mixtures - II)
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 52 - Azeotropes
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 53 - Azeotrope (binary mixture)
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 54 - Liquid-Liquid equilibria - 1
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 55 - liquid-liquid equilibria (Continued...) and solid-liquid equilibria
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 56 - Solid-liquid equilibria (Continued...)
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 57 - Solid-liquid equilibria examples and properties
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 58 - Examples of boiling point elevation
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 59 - Solubility of gases in the liquid
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 60 - Chemical reaction equilibria - I
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 61 - Chemical reaction equilibria - II
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 62 - Chemical reaction equilibria - III
Link NOC:Chemical Engineering Thermodynamics (2019) Lecture 63 - Chemical reaction equilibria - IV
Link Biochemical Engineering Lecture 1 - Fundamentals of Biology & Biotechnology
Link Biochemical Engineering Lecture 2 - Glimpses of Microbial World - Bacteria
Link Biochemical Engineering Lecture 3 - Virus and Cell Organelles
Link Biochemical Engineering Lecture 4 - Carbohydrate
Link Biochemical Engineering Lecture 5 - Nucleic Acid
Link Biochemical Engineering Lecture 6 - Lipids
Link Biochemical Engineering Lecture 7 - Proteins
Link Biochemical Engineering Lecture 8 - Biochemistry & Thermodynamics of Enzymes
Link Biochemical Engineering Lecture 9 - Enzyme Kinetics : Michealis-Menten Kinetics
Link Biochemical Engineering Lecture 10 - Regulation of Enzyme Activity : Inhibition
Link Biochemical Engineering Lecture 11 - Regulation of Enzyme Activity : Inhibition (Continued...)
Link Biochemical Engineering Lecture 12 - Effects of Substrate and Inhibition, pH and Temperature on Enzyme Activity
Link Biochemical Engineering Lecture 13 - Immobilized Enzymes
Link Biochemical Engineering Lecture 14 - Immobilized Enzymes (Continued...)
Link Biochemical Engineering Lecture 15 - Interphase Mass Transfer and Reaction in Immobilized Enzymes
Link Biochemical Engineering Lecture 16 - Interphase Mass Transfer and Reaction in Immobilized Enzymes (Continued...)
Link Biochemical Engineering Lecture 17 - Effectiveness Factor in Immobilized Enzymes
Link Biochemical Engineering Lecture 18 - Bioenergetics and Glycolysis
Link Biochemical Engineering Lecture 19 - TCA Cycle
Link Biochemical Engineering Lecture 20 - Electron Transport Chain & Oxidative Phosphorylation
Link Biochemical Engineering Lecture 21 - Pentose Phosphate Pathways Glycogenesis & Glycogenolysis
Link Biochemical Engineering Lecture 22 - Urea Cycle, Gluconeogenesis and Glyoxalate Cycle
Link Biochemical Engineering Lecture 23 - Microbial Growth : Phases and Models
Link Biochemical Engineering Lecture 24 - Effect of Mass Transfer on Microbial & Fungal Growth
Link Biochemical Engineering Lecture 25 - Effect of Multiple Substrates and Inhibition on Microbial Growth
Link Biochemical Engineering Lecture 26 - Design of Bioreactors
Link Biochemical Engineering Lecture 27 - Design of Chemostats
Link Biochemical Engineering Lecture 28 - Stability of Bioreactors
Link Biochemical Engineering Lecture 29 - Stability of Bioreactors (Continued...)
Link Biochemical Engineering Lecture 30 - Introduction to Receptor - Ligand Binding
Link Biochemical Engineering Lecture 31 - Effects of Ligand Depletion and Multiple Receptors on Binding Kinetics
Link Biochemical Engineering Lecture 32 - Effects of Ligand Depletion and Multiple Receptors on Binding Kinetics (Continued...)
Link Biochemical Engineering Lecture 33 - Receptors-Mediated Endocytosis
Link Biochemical Engineering Lecture 34 - Kinetics of Receptor-Mediated Endocytosis
Link Biochemical Engineering Lecture 35 - General Model for Receptor-Mediated Endocytosis
Link Biochemical Engineering Lecture 36 - Multiple Interacting Microbial Population: Prey-Predator Models
Link Biochemical Engineering Lecture 37 - Manufacture of Biochemicals
Link Biochemical Engineering Lecture 38 - Manufacture of Biochemicals (Continued...) & Strategies for Biomolecules Separation
Link Biochemical Engineering Lecture 39 - Strategies for Biomolecules Separation (Continued...)
Link Biochemical Engineering Lecture 40 - Strategies for Biomolecules Separation (Continued...)
Link Microscale Transport Processes Lecture 1 - Introduction
Link Microscale Transport Processes Lecture 2 - Introduction (Continued...)
Link Microscale Transport Processes Lecture 3 - Lab on Chip
Link Microscale Transport Processes Lecture 4 - Lab on Chip (Continued...)
Link Microscale Transport Processes Lecture 5 - Microscale manufacturing practices
Link Microscale Transport Processes Lecture 6 - Photolithography
Link Microscale Transport Processes Lecture 7 - Photolithography (Continued...)
Link Microscale Transport Processes Lecture 8 - Deposition
Link Microscale Transport Processes Lecture 9 - Plastic microfluidic devices
Link Microscale Transport Processes Lecture 10 - Mixing
Link Microscale Transport Processes Lecture 11 - Micro Heat Pipes
Link Microscale Transport Processes Lecture 12 - Mixing (Continued...)
Link Microscale Transport Processes Lecture 13 - Mixing (Continued...)
Link Microscale Transport Processes Lecture 14 - Micro Heat Pipes (Continued...)
Link Microscale Transport Processes Lecture 15 - Mixing (Continued...)
Link Microscale Transport Processes Lecture 16 - Dispersion
Link Microscale Transport Processes Lecture 17 - Dispersion (Continued...)
Link Microscale Transport Processes Lecture 18 - Dispersion (Continued...)
Link Microscale Transport Processes Lecture 19 - Electrowetting
Link Microscale Transport Processes Lecture 20 - Electro osmosis
Link Microscale Transport Processes Lecture 21 - Electrowetting (Continued...)
Link Microscale Transport Processes Lecture 22 - Electro osmosis (Continued...)
Link Microscale Transport Processes Lecture 23 - Dielectrophoresis
Link Microscale Transport Processes Lecture 24 - Dielectrophoresis (Continued...)
Link Microscale Transport Processes Lecture 25 - Dielectrophoresis (Continued...)
Link Microscale Transport Processes Lecture 26 - Scaling dimension and issues
Link Microscale Transport Processes Lecture 27 - Slip flow
Link Microscale Transport Processes Lecture 28 - Microstructured reactor
Link Microscale Transport Processes Lecture 29 - Immiscible flow in microchannel
Link Microscale Transport Processes Lecture 30 - Immiscible flow in microchannel (Continued...)
Link Microscale Transport Processes Lecture 31 - Immiscible flow in microchannel (Continued...)
Link Microscale Transport Processes Lecture 32 - Scaling dimension and issues (Continued...)
Link Microscale Transport Processes Lecture 33 - Immiscible flow in microchannel (Continued...)
Link Microscale Transport Processes Lecture 34 - Plastic device making
Link Microscale Transport Processes Lecture 35 - Transport processes and their descriptions
Link Microscale Transport Processes Lecture 36 - Convective fluid dynamics in microchannels
Link Microscale Transport Processes Lecture 37 - Microfluidic networks
Link Microscale Transport Processes Lecture 38 - Electrohydrodynamic atomization
Link Microscale Transport Processes Lecture 39 - Electrohydrodynamic atomization (Continued...)
Link Microscale Transport Processes Lecture 40 - Interfacial phenomena in thin liquid films
Link Multiphase Flow Lecture 1 - Introduction
Link Multiphase Flow Lecture 2 - Estimation of Flow Patterns
Link Multiphase Flow Lecture 3 - Estimation of Flow Patterns (Continued...)
Link Multiphase Flow Lecture 4 - Flow Pattern Maps Fascinating Taylor Bubbles
Link Multiphase Flow Lecture 5 - Definitions and Common Terminologies
Link Multiphase Flow Lecture 6 - Definitions and Common Terminologies (Continued...)
Link Multiphase Flow Lecture 7 - Simple Analytical Models
Link Multiphase Flow Lecture 8 - The Homogeneous Flow Theory
Link Multiphase Flow Lecture 9 - The Homogeneous Flow Theory (Continued...)
Link Multiphase Flow Lecture 10 - Compressible Flow A Recapitulation
Link Multiphase Flow Lecture 11 - Compressible Flow A Recapitulation (Continued...)
Link Multiphase Flow Lecture 12 - Choked Flow Condition for Homogeneous Flow
Link Multiphase Flow Lecture 13 - Drift Flux Model
Link Multiphase Flow Lecture 14 - Drift Flux Model (Continued...)
Link Multiphase Flow Lecture 15 - Drift Flux Model (Continued...)
Link Multiphase Flow Lecture 16 - Drift Flux Model (Continued...)
Link Multiphase Flow Lecture 17 - Separated Flow Model
Link Multiphase Flow Lecture 18 - Separated Flow Model (Continued...)
Link Multiphase Flow Lecture 19 - Separated Flow Model (Continued...)
Link Multiphase Flow Lecture 20 - Separated Flow Model - Condition of Choking
Link Multiphase Flow Lecture 21 - Separated Flow Model - Condition of Choking (Continued...)
Link Multiphase Flow Lecture 22 - Separated Flow Model - Estimation of Frictional Pressure Drop and Void Fraction
Link Multiphase Flow Lecture 23 - Separated Flow Model - Estimation of Frictional Pressure Drop and Void Fraction (Continued...)
Link Multiphase Flow Lecture 24 - Separated Flow Model - Estimation of Frictional Pressure Drop and Void Fraction (Continued...)
Link Multiphase Flow Lecture 25 - Separated Flow Model - Estimation of Frictional Pressure Drop and Void Fraction (Continued...)
Link Multiphase Flow Lecture 26 - Analysis of Specific Flow Regimes
Link Multiphase Flow Lecture 27 - Analysis of Specific Flow Regimes (Continued...)
Link Multiphase Flow Lecture 28 - Analysis of Specific Flow Regimes - Slug Flow (Continued...)
Link Multiphase Flow Lecture 29 - Two Phase Flow with Phase Change - An Introduction to Boiling Heat Transfer
Link Multiphase Flow Lecture 30 - Bubble Growth
Link Multiphase Flow Lecture 31 - Different Types of Nucleation
Link Multiphase Flow Lecture 32 - Ibullition from Hot Surfaces
Link Multiphase Flow Lecture 33 - Cycle of Bubble Growth and Departure
Link Multiphase Flow Lecture 34 - Heat Transfer in Different Regimes of Boiling
Link Multiphase Flow Lecture 35 - Heat Transfer in Different Regimes of Boiling (Continued...)
Link Multiphase Flow Lecture 36 - Critical Heat Flux, Film Boiling
Link Multiphase Flow Lecture 37 - Measurement Techniques for Two Phase flow Parameters
Link Multiphase Flow Lecture 38 - Measurement Techniques for Two Phase flow Parameters - Void Fraction Measurement
Link Multiphase Flow Lecture 39 - Measurement Techniques for Two Phase flow Parameters - Void Fraction Measurement (Continued...)
Link Multiphase Flow Lecture 40 - Measurement Techniques for Two Phase flow Parameters - Estimation of Flow Patterns
Link Novel Separation Processes Lecture 1 - Fundamentals of Separation Processes
Link Novel Separation Processes Lecture 2 - Identification of Novel Separation Processes
Link Novel Separation Processes Lecture 3 - Membrane Separation Processes
Link Novel Separation Processes Lecture 4 - Membrane Separation Processes (Continued...1)
Link Novel Separation Processes Lecture 5 - Membrane Separation Processes (Continued...2)
Link Novel Separation Processes Lecture 6 - Membrane Separation Processes (Continued...3)
Link Novel Separation Processes Lecture 7 - Membrane Separation Processes (Continued...4)
Link Novel Separation Processes Lecture 8 - Membrane Separation Processes (Continued...5)
Link Novel Separation Processes Lecture 9 - Membrane Separation Processes (Continued...6)
Link Novel Separation Processes Lecture 10 - Membrane Separation Processes (Continued...7)
Link Novel Separation Processes Lecture 11 - Membrane Separation Processes (Continued...8)
Link Novel Separation Processes Lecture 12 - Membrane Separation Processes (Continued...9)
Link Novel Separation Processes Lecture 13 - Membrane Separation Processes (Continued...10)
Link Novel Separation Processes Lecture 14 - Membrane Separation Processes (Continued...11)
Link Novel Separation Processes Lecture 15 - Membrane Separation Processes (Continued...12)
Link Novel Separation Processes Lecture 16 - Membrane Separation Processes (Continued...13)
Link Novel Separation Processes Lecture 17 - Membrane Separation Processes (Continued...14)
Link Novel Separation Processes Lecture 18 - Membrane Separation Processes (Continued...15)
Link Novel Separation Processes Lecture 19 - Membrane Separation Processes (Continued...16)
Link Novel Separation Processes Lecture 20 - Membrane Separation Processes (Continued...17)
Link Novel Separation Processes Lecture 21 - Membrane Separation Processes (Continued...18)
Link Novel Separation Processes Lecture 22 - External Field Induced Membrane Separation Processes
Link Novel Separation Processes Lecture 23 - External Field Induced Membrane Separation Processes (Continued...1)
Link Novel Separation Processes Lecture 24 - External Field Induced Membrane Separation Processes (Continued...2)
Link Novel Separation Processes Lecture 25 - External Field Induced Membrane Separation Processes (Continued...3)
Link Novel Separation Processes Lecture 26 - External Field Induced Membrane Separation Processes (Continued...4)
Link Novel Separation Processes Lecture 27 - Gas Separation
Link Novel Separation Processes Lecture 28 - Gas Separation (Continued...)
Link Novel Separation Processes Lecture 29 - Surfactant Based Separation Processes
Link Novel Separation Processes Lecture 30 - Surfactant Based Separation Processes (Continued...)
Link Novel Separation Processes Lecture 31 - Micellar Enhanced Ultrafiltration
Link Novel Separation Processes Lecture 32 - Micellar Enhanced Ultrafiltration (Continued...)
Link Novel Separation Processes Lecture 33 - Liquid Membranes
Link Novel Separation Processes Lecture 34 - Liquid Membranes (Continued...)
Link Novel Separation Processes Lecture 35 - Centrifugal Separation Processes
Link Novel Separation Processes Lecture 36 - Chromatographic Separation Processes
Link Novel Separation Processes Lecture 37 - Chromatographic Separation Processes (Continued...)
Link Novel Separation Processes Lecture 38 - Ion Exchange Processes
Link Novel Separation Processes Lecture 39 - Electrophoretic Separation Methods
Link Novel Separation Processes Lecture 40 - Electrophoretic Separation Methods (Continued...)
Link Novel Separation Processes Lecture 41 - Supercritical Fluid Extraction
Link Process Control and Instrumentation Lecture 1 - Introduction to Process Control
Link Process Control and Instrumentation Lecture 2 - Introduction to Process Control (Continued...)
Link Process Control and Instrumentation Lecture 3 - Mathematical Modeling (Continued...1)
Link Process Control and Instrumentation Lecture 4 - Mathematical Modeling (Continued...2)
Link Process Control and Instrumentation Lecture 5 - Mathematical Modeling (Continued...3)
Link Process Control and Instrumentation Lecture 6 - Dynamic Behavior of Chemical Processes
Link Process Control and Instrumentation Lecture 7 - Dynamic Behavior of Chemical Processes (Continued...1)
Link Process Control and Instrumentation Lecture 8 - Dynamic Behavior of Chemical Processes (Continued...2)
Link Process Control and Instrumentation Lecture 9 - Dynamic Behavior of Chemical Processes (Continued...3)
Link Process Control and Instrumentation Lecture 10 - Dynamic Behavior of Chemical Processes (Continued...4)
Link Process Control and Instrumentation Lecture 11 - Dynamic Behavior of Chemical Processes (Continued...5)
Link Process Control and Instrumentation Lecture 12 - Dynamic Behavior of Chemical Processes (Continued...6)
Link Process Control and Instrumentation Lecture 13 - Dynamic Behavior of Chemical Processes (Continued...7)
Link Process Control and Instrumentation Lecture 14 - Dynamic Behavior of Chemical Processes (Continued...8)
Link Process Control and Instrumentation Lecture 15 - Feedback Control Schemes
Link Process Control and Instrumentation Lecture 16 - Feedback Control Schemes (Continued...1)
Link Process Control and Instrumentation Lecture 17 - Feedback Control Schemes (Continued...2)
Link Process Control and Instrumentation Lecture 18 - Feedback Control Schemes (Continued...3)
Link Process Control and Instrumentation Lecture 19 - Feedback Control Schemes (Continued...4)
Link Process Control and Instrumentation Lecture 20 - Feedback Control Schemes (Continued...5)
Link Process Control and Instrumentation Lecture 21 - Feedback Control Schemes (Continued...6)
Link Process Control and Instrumentation Lecture 22 - Feedback Control Schemes (Continued...7)
Link Process Control and Instrumentation Lecture 23 - Feedback Control Schemes (Continued...8)
Link Process Control and Instrumentation Lecture 24 - Feedback Control Schemes (Continued...9)
Link Process Control and Instrumentation Lecture 25 - Feedback Control Schemes (Continued...10)
Link Process Control and Instrumentation Lecture 26 - Feedback Control Schemes (Continued...11)
Link Process Control and Instrumentation Lecture 27 - Feedback Control Schemes (Continued...12)
Link Process Control and Instrumentation Lecture 28 - Feedback Control Schemes (Continued...13)
Link Process Control and Instrumentation Lecture 29 - Feedback Control Schemes (Continued...14)
Link Process Control and Instrumentation Lecture 30 - Advanced Control Schemes
Link Process Control and Instrumentation Lecture 31 - Advanced Control Schemes (Continued...1)
Link Process Control and Instrumentation Lecture 32 - Advanced Control Schemes (Continued...2)
Link Process Control and Instrumentation Lecture 33 - Advanced Control Schemes (Continued...3)
Link Process Control and Instrumentation Lecture 34 - Advanced Control Schemes (Continued...4)
Link Process Control and Instrumentation Lecture 35 - Instrumentation: General Principles of Measurement Systems
Link Process Control and Instrumentation Lecture 36 - Instrumentation: General Principles of Measurement Systems (Continued...1)
Link Process Control and Instrumentation Lecture 37 - Instrumentation: General Principles of Measurement Systems (Continued...2)
Link Process Control and Instrumentation Lecture 38 - Instrumentation: General Principles of Measurement Systems (Continued...3)
Link Process Control and Instrumentation Lecture 39 - Instrumentation: General Principles of Measurement Systems (Continued...4)
Link Process Control and Instrumentation Lecture 40 - Instrumentation: General Principles of Measurement Systems (Continued...5)
Link Process Control and Instrumentation Lecture 41 - Transducer Elements
Link Process Control and Instrumentation Lecture 42 - Pressure Measurement
Link Process Control and Instrumentation Lecture 43 - Pressure Measurement (Continued...1)
Link Process Control and Instrumentation Lecture 44 - Pressure Measurement (Continued...2)
Link Instability and Patterning of Thin Polymer Films Lecture 1 - Introduction
Link Instability and Patterning of Thin Polymer Films Lecture 2 - Introduction (Continued...)
Link Instability and Patterning of Thin Polymer Films Lecture 3 - Some Fundamental Surface Related Concepts - I
Link Instability and Patterning of Thin Polymer Films Lecture 4 - Surface Tension (in terms of molecular interactions)
Link Instability and Patterning of Thin Polymer Films Lecture 5 - Effect Surface Tension : Laplace Pressure
Link Instability and Patterning of Thin Polymer Films Lecture 6 - Young Laplace Equation
Link Instability and Patterning of Thin Polymer Films Lecture 7 - Rayleish Instability
Link Instability and Patterning of Thin Polymer Films Lecture 8 - Meso Scale Fabrication Approaches
Link Instability and Patterning of Thin Polymer Films Lecture 9 - Photo Lithography - I
Link Instability and Patterning of Thin Polymer Films Lecture 10 - Photo Lithography - II
Link Instability and Patterning of Thin Polymer Films Lecture 11 - Photo Lithography - III
Link Instability and Patterning of Thin Polymer Films Lecture 12 - Photo Lithography - IV
Link Instability and Patterning of Thin Polymer Films Lecture 13 - Photo Lithography - V
Link Instability and Patterning of Thin Polymer Films Lecture 14 - Nano Imprint Lithography
Link Instability and Patterning of Thin Polymer Films Lecture 15 - Nano Imprint Lithography (Continued...)
Link Instability and Patterning of Thin Polymer Films Lecture 16 - Soft Lithography - I
Link Instability and Patterning of Thin Polymer Films Lecture 17 - Soft Lithography - II
Link Instability and Patterning of Thin Polymer Films Lecture 18 - Soft Lithography - III
Link Instability and Patterning of Thin Polymer Films Lecture 19 - Soft Lithography - IV
Link Instability and Patterning of Thin Polymer Films Lecture 20 - Soft Lithography - V
Link Instability and Patterning of Thin Polymer Films Lecture 21 - Soft Lithography - VI
Link Instability and Patterning of Thin Polymer Films Lecture 22 - Atomic Force Microscope - I
Link Instability and Patterning of Thin Polymer Films Lecture 23 - Atomic Force Microscope - II
Link Instability and Patterning of Thin Polymer Films Lecture 24 - Atomic Force Microscope - III
Link Instability and Patterning of Thin Polymer Films Lecture 25 - Atomic Force Microscope - IV
Link Instability and Patterning of Thin Polymer Films Lecture 26 - Atomic Force Microscope - V
Link Instability and Patterning of Thin Polymer Films Lecture 27 - Intermolecular Forces between Particles and Surfaces - I
Link Instability and Patterning of Thin Polymer Films Lecture 28 - Intermolecular Forces between Particles and Surfaces - II
Link Instability and Patterning of Thin Polymer Films Lecture 29 - Intermolecular Forces between Particles and Surfaces - III
Link Instability and Patterning of Thin Polymer Films Lecture 30 - Intermolecular Forces between Particles and Surfaces - IV
Link Instability and Patterning of Thin Polymer Films Lecture 31 - Spontaneous instability and dwetting of thin polymer film - I
Link Instability and Patterning of Thin Polymer Films Lecture 32 - Spontaneous instability and dwetting of thin polymer film - II
Link Instability and Patterning of Thin Polymer Films Lecture 33 - Spontaneous instability and dwetting of thin polymer film - III
Link Instability and Patterning of Thin Polymer Films Lecture 34 - Spontaneous instability and dwetting of thin polymer film - IV
Link Instability and Patterning of Thin Polymer Films Lecture 35 - Spontaneous instability and dwetting of thin polymer film - V
Link Instability and Patterning of Thin Polymer Films Lecture 36 - Spontaneous instability and dwetting of thin polymer film - VI
Link Instability and Patterning of Thin Polymer Films Lecture 37 - Spontaneous instability and dwetting of thin polymer film - VII
Link Instability and Patterning of Thin Polymer Films Lecture 38 - Template Guided Dewetting
Link Instability and Patterning of Thin Polymer Films Lecture 39 - Elastic Contact Instability and Lithography
Link Instability and Patterning of Thin Polymer Films Lecture 40 - Gradient Surfaces
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 1 - Introduction to vector space
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 2 - Introduction to vector space (Continued...)
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 3 - Onto, into, one to one function
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 4 - Vectors
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 5 - Vectors (Continued...)
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 6 - Contraction Mapping
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 7 - Contraction Mapping (Continued...)
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 8 - Matrix, Determinant
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 9 - Eigenvalue Problem in Discrete Domain
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 10 - Eigenvalue Problem in Discrete Domain (Continued...)
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 11 - Eigenvalue Problem in Discrete Domain (Continued...)
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 12 - Eigenvalue Problem in Discrete Domain (Continued...)
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 13 - Stability Analysis
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 14 - Stability Analysis (Continued...)
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 15 - Stability Analysis (Continued...)
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 16 - More Examples
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 17 - Partial Differential Equations
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 18 - Partial Differential Equations (Continued...)
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 19 - Eigenvalue Problem in Continuous Domain
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 20 - Special ODEs
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 21 - Adjoint Operator
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 22 - Theorems of Eigenvalues and Eigenfunction
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 23 - Solution PDE : Separation of Variables Method
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 24 - Solution of Parabolic PDE : Separation of variables method
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 25 - Solution of Parabolic PDE : Separation of Variables Method (Continued...)
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 26 - Solution of Higher Dimensional PDEs
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 27 - Solution of Higher Dimensional PDEs (Continued...)
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 28 - Four Dimensional Parabolic PDE
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 29 - Solution of Elliptic and Hyperbolic PDE
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 30 - Solution of Elliptic and Hyperbolic PDE (Continued...)
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 31 - PDE in Cylindrical and Spherical Coordinate
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 32 - Solution of non-homogeneous PDE
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 33 - Solution of non-homogeneous PDE (Continued...)
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 34 - Solution of non-homogeneous Parabolic PDE
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 35 - Solution of non-homogeneous Elliptic PDE
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 36 - Solution of non-homogeneous Elliptic PDE (Continued...)
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 37 - Similarity Solution
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 38 - Similarity Solution (Continued...)
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 39 - Integral Method
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 40 - Laplace Transform
Link Advanced Mathematical Techniques in Chemical Engineering Lecture 41 - Fourier Transform
Link NOC:Introduction to Process Modeling in Membrane Separation Process Lecture 1 - Fundamentals of Separation Processes and Introduction of Membrane System
Link NOC:Introduction to Process Modeling in Membrane Separation Process Lecture 2 - Fundamentals of Separation Processes and Introduction of Membrane System (Continued...)
Link NOC:Introduction to Process Modeling in Membrane Separation Process Lecture 3 - Fundamentals of Separation Processes and Introduction of Membrane System (Continued...)
Link NOC:Introduction to Process Modeling in Membrane Separation Process Lecture 4 - Fundamentals of Separation Processes and Introduction of Membrane System (Continued...)
Link NOC:Introduction to Process Modeling in Membrane Separation Process Lecture 5 - Modeling of Reverse Osmosis
Link NOC:Introduction to Process Modeling in Membrane Separation Process Lecture 6 - Concentration Polarization
Link NOC:Introduction to Process Modeling in Membrane Separation Process Lecture 7 - Osmotic Pressure Controlling Filtration
Link NOC:Introduction to Process Modeling in Membrane Separation Process Lecture 8 - Osmotic Pressure Controlling Filtration (Continued...)
Link NOC:Introduction to Process Modeling in Membrane Separation Process Lecture 9 - Osmotic Pressure Controlling Filtration (Continued...)
Link NOC:Introduction to Process Modeling in Membrane Separation Process Lecture 10 - Osmotic Pressure Controlling Filtration (Continued...)
Link NOC:Introduction to Process Modeling in Membrane Separation Process Lecture 11 - Osmotic Pressure Controlling Filtration (Continued...)
Link NOC:Introduction to Process Modeling in Membrane Separation Process Lecture 12 - Osmotic Pressure Controlling Filtration (Continued...)
Link NOC:Introduction to Process Modeling in Membrane Separation Process Lecture 13 - Modeling of Gel Layer Controlling Filtration
Link NOC:Introduction to Process Modeling in Membrane Separation Process Lecture 14 - Modeling of Gel Layer Controlling Filtration (Continued...)
Link NOC:Introduction to Process Modeling in Membrane Separation Process Lecture 15 - Modeling of Gel Layer Controlling Filtration (Continued...) and Resistance in Series Models
Link NOC:Introduction to Process Modeling in Membrane Separation Process Lecture 16 - Design of Membrane Module
Link NOC:Introduction to Process Modeling in Membrane Separation Process Lecture 17 - Design of Membrane Module (Continued...)
Link NOC:Introduction to Process Modeling in Membrane Separation Process Lecture 18 - Design of Membrane Module (Continued...)
Link NOC:Introduction to Process Modeling in Membrane Separation Process Lecture 19 - Modeling of Dialysis
Link NOC:Introduction to Process Modeling in Membrane Separation Process Lecture 20 - Modeling of Dialysis (Continued...)
Link NOC:Soft Nano Technology Lecture 1 - Introduction - 1
Link NOC:Soft Nano Technology Lecture 2 - Introduction - 2
Link NOC:Soft Nano Technology Lecture 3 - Introduction - 3
Link NOC:Soft Nano Technology Lecture 4 - Fundamental Concepts Related to Surface Tension - 1
Link NOC:Soft Nano Technology Lecture 5 - Fundamental Concepts Related to Surface Tension - 2
Link NOC:Soft Nano Technology Lecture 6 - Fundamental Concepts Related to Surface Tension - 3
Link NOC:Soft Nano Technology Lecture 7 - Fundamental Concepts Related to Surface Tension - 4
Link NOC:Soft Nano Technology Lecture 8 - Components of Surface Tension - 1
Link NOC:Soft Nano Technology Lecture 9 - Components of Surface Tension - 2
Link NOC:Soft Nano Technology Lecture 10 - Sell Assembly of Surfactant Molecules
Link NOC:Soft Nano Technology Lecture 11 - Laplace Pressure
Link NOC:Soft Nano Technology Lecture 12 - Photo Lithography - 1
Link NOC:Soft Nano Technology Lecture 13 - Photo Lithography - 2
Link NOC:Soft Nano Technology Lecture 14 - Photo Lithography - 3
Link NOC:Soft Nano Technology Lecture 15 - Photo Lithography - 4
Link NOC:Soft Nano Technology Lecture 16 - Photo Lithography - 5
Link NOC:Soft Nano Technology Lecture 17 - Photo Lithography - 6
Link NOC:Soft Nano Technology Lecture 18 - Soft Lithography - I
Link NOC:Soft Nano Technology Lecture 19 - Soft Lithography - 2
Link NOC:Soft Nano Technology Lecture 20 - Soft Lithography - 3
Link NOC:Soft Nano Technology Lecture 21 - Soft Lithography - 4
Link NOC:Soft Nano Technology Lecture 22 - Soft Lithography - 5
Link NOC:Soft Nano Technology Lecture 23 - Soft Lithography - 6
Link NOC:Soft Nano Technology Lecture 24 - Atomic Force Microscope - 1
Link NOC:Soft Nano Technology Lecture 25 - Atomic Force Microscope - 2
Link NOC:Soft Nano Technology Lecture 26 - Atomic Force Microscope - 3
Link NOC:Soft Nano Technology Lecture 27 - Atomic Force Microscope - 4
Link NOC:Soft Nano Technology Lecture 28 - Atomic Force Microscope - 5
Link NOC:Soft Nano Technology Lecture 29 - Atomic Force Microscope - 6
Link NOC:Soft Nano Technology Lecture 30 - Dewetting - 1
Link NOC:Soft Nano Technology Lecture 31 - Dewetting - 2
Link NOC:Soft Nano Technology Lecture 32 - VdW Interaction Between Two Surfaces
Link NOC:Soft Nano Technology Lecture 33 - Interaction Between Two Surfaces - 2
Link NOC:Soft Nano Technology Lecture 34 - Interaction Between Two Surfaces - 3
Link NOC:Soft Nano Technology Lecture 35 - Dewetting - 3
Link NOC:Soft Nano Technology Lecture 36 - Pattern Directed Dewetting - I
Link NOC:Soft Nano Technology Lecture 37 - Pattern Directed Dewetting - II
Link NOC:Soft Nano Technology Lecture 38 - Spin Dewetting
Link NOC:Soft Nano Technology Lecture 39 - Elastic Contact Instability - I
Link NOC:Soft Nano Technology Lecture 40 - Elastic Contact Instability - II
Link NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel Lecture 1 - Brief Introduction to Multiphase Flow
Link NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel Lecture 2 - Brief Introduction to Multiphase Flow (Continued...)
Link NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel Lecture 3 - Two Phase Flow through Micro Channels
Link NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel Lecture 4 - Two Phase Flow through Micro Channels (Continued...)
Link NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel Lecture 5 - Criteria for Confinement for in Case of Two Phase Flow
Link NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel Lecture 6 - Pertinent Dimensionless Numbers in Two Phase
Link NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel Lecture 7 - Flow Pattern Maps for Milli and Micro Systems
Link NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel Lecture 8 - Pattern Transition from Energy Minimisation Principle
Link NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel Lecture 9 - Experimental Identification of Flow Regimes
Link NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel Lecture 10 - Experimental Identification of Flow Regimes (Continued...)
Link NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel Lecture 11 - Flow Regimes and Void Fraction Estimation
Link NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel Lecture 12 - Influence of Operating Parameter on Flow Patterns
Link NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel Lecture 13 - Influence of Operating Parameter on Flow Patterns (Continued...)
Link NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel Lecture 14 - Influence of Operating Parameter on Flow Patterns (Continued...)
Link NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel Lecture 15 - Influence of Operating Parameter on Flow Patterns (Continued...)
Link NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel Lecture 16 - Void Fraction Characteristic Mini and Micro Channel
Link NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel Lecture 17 - Void Fraction and Pressure Drop in Reduced Dimensions - Experimental results
Link NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel Lecture 18 - Void Fraction and Pressure Drop in Reduced Dimensions - Experimental results (Continued...)
Link NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel Lecture 19 - Theoretical Analysis of Two Phase Flow in Reduced Dimensions
Link NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel Lecture 20 - Theoretical Analysis of Two Phase Flow in Reduced Dimensions (Continued...)
Link NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel Lecture 21 - Flow Pattern based Analysis in Micro Systems - Drift Flux Model
Link NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel Lecture 22 - Flow Pattern based Modelling - Slug Flow Model
Link NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel Lecture 23 - Flow Boiling in Microchannels
Link NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel Lecture 24 - Tutorial - I
Link NOC:Adiabatic Two-Phase Flow & Flow Boiling in Microchannel Lecture 25 - Tutorial - II
Link NOC:Phase Equilibrium Thermodynamics Lecture 1 - Introduction
Link NOC:Phase Equilibrium Thermodynamics Lecture 2 - Introduction (Continued...)
Link NOC:Phase Equilibrium Thermodynamics Lecture 3 - First Law of Thermodynamics
Link NOC:Phase Equilibrium Thermodynamics Lecture 4 - Second Law of Thermodynamics
Link NOC:Phase Equilibrium Thermodynamics Lecture 5 - Second Law of Thermodynamics (Continued...)
Link NOC:Phase Equilibrium Thermodynamics Lecture 6 - Entropy Change during Spontaneous Processes
Link NOC:Phase Equilibrium Thermodynamics Lecture 7 - Criteria of Spontaneity
Link NOC:Phase Equilibrium Thermodynamics Lecture 8 - Criteria of Spontaneity (Continued...)
Link NOC:Phase Equilibrium Thermodynamics Lecture 9 - Thermodynamic Network
Link NOC:Phase Equilibrium Thermodynamics Lecture 10 - Thermodynamic Network (Continued...)
Link NOC:Phase Equilibrium Thermodynamics Lecture 11 - Tutorial 1
Link NOC:Phase Equilibrium Thermodynamics Lecture 12 - Gibbs free energy as a function of temperature and pressure
Link NOC:Phase Equilibrium Thermodynamics Lecture 13 - P-v-T behaviour of gases
Link NOC:Phase Equilibrium Thermodynamics Lecture 14 - P-v-T behaviour (Continued...)
Link NOC:Phase Equilibrium Thermodynamics Lecture 15 - P-v-T behaviour (Continued...)
Link NOC:Phase Equilibrium Thermodynamics Lecture 16 - P-v-T behaviour (Continued...)
Link NOC:Phase Equilibrium Thermodynamics Lecture 17 - Tutorial 2
Link NOC:Phase Equilibrium Thermodynamics Lecture 18 - Property estimation from P-v-T behaviour
Link NOC:Phase Equilibrium Thermodynamics Lecture 19 - Property estimation (Continued...)
Link NOC:Phase Equilibrium Thermodynamics Lecture 20 - Concept of chemical potential
Link NOC:Phase Equilibrium Thermodynamics Lecture 21 - Chemical potential (Continued...)
Link NOC:Phase Equilibrium Thermodynamics Lecture 22 - Homogeneous open systems
Link NOC:Phase Equilibrium Thermodynamics Lecture 23 - Homogeneous open systems (Continued...)
Link NOC:Phase Equilibrium Thermodynamics Lecture 24 - Heterogeneous Closed Systems
Link NOC:Phase Equilibrium Thermodynamics Lecture 25 - Tutorial 3
Link NOC:Phase Equilibrium Thermodynamics Lecture 26 - Concept of fugacity
Link NOC:Phase Equilibrium Thermodynamics Lecture 27 - Fugacity (Continued...)
Link NOC:Phase Equilibrium Thermodynamics Lecture 28 - Estimation of fugacity coefficients
Link NOC:Phase Equilibrium Thermodynamics Lecture 29 - Fugacity of condensed phase
Link NOC:Phase Equilibrium Thermodynamics Lecture 30 - Mixtures
Link NOC:Phase Equilibrium Thermodynamics Lecture 31 - Mixtures (Continued...)
Link NOC:Phase Equilibrium Thermodynamics Lecture 32 - Tutorial 4
Link NOC:Phase Equilibrium Thermodynamics Lecture 33 - Partial molar properties
Link NOC:Phase Equilibrium Thermodynamics Lecture 34 - Partial molar properties (Continued...)
Link NOC:Phase Equilibrium Thermodynamics Lecture 35 - Partial molar fugacity
Link NOC:Phase Equilibrium Thermodynamics Lecture 36 - Ideal solutions
Link NOC:Phase Equilibrium Thermodynamics Lecture 37 - Ideal solutions (Continued...)
Link NOC:Phase Equilibrium Thermodynamics Lecture 38 - Ideal solutions (Continued...)
Link NOC:Phase Equilibrium Thermodynamics Lecture 39 - Ideal solutions (Continued...)
Link NOC:Phase Equilibrium Thermodynamics Lecture 40 - Non-ideal solutions
Link NOC:Phase Equilibrium Thermodynamics Lecture 41 - Non-ideal solutions (Continued...)
Link NOC:Phase Equilibrium Thermodynamics Lecture 42 - Non-ideal solutions (Continued...)
Link NOC:Phase Equilibrium Thermodynamics Lecture 43 - Non-ideal solutions (Continued...)
Link NOC:Phase Equilibrium Thermodynamics Lecture 44 - Non-ideal solutions (Continued...)
Link NOC:Phase Equilibrium Thermodynamics Lecture 45 - Deviations from ideal dilute solutions
Link NOC:Phase Equilibrium Thermodynamics Lecture 46 - Tutorial
Link NOC:Phase Equilibrium Thermodynamics Lecture 47 - Tutorial
Link NOC:Phase Equilibrium Thermodynamics Lecture 48
Link NOC:Phase Equilibrium Thermodynamics Lecture 49
Link NOC:Phase Equilibrium Thermodynamics Lecture 50
Link NOC:Phase Equilibrium Thermodynamics Lecture 51
Link NOC:Phase Equilibrium Thermodynamics Lecture 52
Link NOC:Transport Phenomena Lecture 1 - Introduction : Newton's Law of Viscosity
Link NOC:Transport Phenomena Lecture 2 - Fourier and Fick's Laws
Link NOC:Transport Phenomena Lecture 3 - Shell Momentum Balance
Link NOC:Transport Phenomena Lecture 4 - Example of Shell Momentum Balance
Link NOC:Transport Phenomena Lecture 5 - Example of Shell Momentum Balance (Continued...)
Link NOC:Transport Phenomena Lecture 6 - Example of Shell Momentum Balance (Continued...)
Link NOC:Transport Phenomena Lecture 7 - Example of Shell Momentum Balance (Continued...)
Link NOC:Transport Phenomena Lecture 8 - Example of Shell Momentum Balance (Continued...)
Link NOC:Transport Phenomena Lecture 9 - Equations of Change for Isothermal Systems
Link NOC:Transport Phenomena Lecture 10 - Equations of Change for Isothermal Systems (Continued...)
Link NOC:Transport Phenomena Lecture 11 - Equations of Change for Isothermal Systems (Continued...)
Link NOC:Transport Phenomena Lecture 12 - Equations of Change for Isothermal Systems (Continued...)
Link NOC:Transport Phenomena Lecture 13 - Equations of Change for Isothermal Systems (Continued...)
Link NOC:Transport Phenomena Lecture 14 - Equations of Change for Isothermal Systems (Continued...)
Link NOC:Transport Phenomena Lecture 15 - Unsteady Flow
Link NOC:Transport Phenomena Lecture 16 - Boundary Layers
Link NOC:Transport Phenomena Lecture 17 - Boundary Layers (Continued...)
Link NOC:Transport Phenomena Lecture 18 - Boundary Layers (Continued...)
Link NOC:Transport Phenomena Lecture 19 - Boundary Layers (Continued...)
Link NOC:Transport Phenomena Lecture 20 - Boundary Layers (Continued...)
Link NOC:Transport Phenomena Lecture 21 - Boundary Layers (Continued...)
Link NOC:Transport Phenomena Lecture 22 - Boundary Layers (Continued...)
Link NOC:Transport Phenomena Lecture 23 - Boundary Layers (Continued...)
Link NOC:Transport Phenomena Lecture 24 - Boundary Layers (Continued...)
Link NOC:Transport Phenomena Lecture 25 - Turbulent Boundary Layers
Link NOC:Transport Phenomena Lecture 26 - Turbulent Boundary Layers (Continued...)
Link NOC:Transport Phenomena Lecture 27 - Turbulent Boundary Layers (Continued...)
Link NOC:Transport Phenomena Lecture 28 - Drag
Link NOC:Transport Phenomena Lecture 29 - Drag (Continued...)
Link NOC:Transport Phenomena Lecture 30 - Heat Transfer Basics
Link NOC:Transport Phenomena Lecture 31 - Heat Transfer Basics (Continued...)
Link NOC:Transport Phenomena Lecture 32 - 1-D Heat Conduction - Temperature Distributions
Link NOC:Transport Phenomena Lecture 33 - 1-D Heat Conduction - Shell Heat Balance
Link NOC:Transport Phenomena Lecture 34 - Shell Heat Balance
Link NOC:Transport Phenomena Lecture 35 - Viscous Dissipation
Link NOC:Transport Phenomena Lecture 36 - Transient Conduction
Link NOC:Transport Phenomena Lecture 37 - Transient Conduction (Continued...)
Link NOC:Transport Phenomena Lecture 38 - Forced Convection
Link NOC:Transport Phenomena Lecture 39 - Energy Equation
Link NOC:Transport Phenomena Lecture 40 - Energy Equation (Continued...)
Link NOC:Transport Phenomena Lecture 41 - Free Convection
Link NOC:Transport Phenomena Lecture 42 - Thermal Boundary Layer
Link NOC:Transport Phenomena Lecture 43 - Mass Transfer
Link NOC:Transport Phenomena Lecture 44 - Mass Transfer (Continued...)
Link NOC:Transport Phenomena Lecture 45 - Mass Transfer (Continued...)
Link NOC:Transport Phenomena Lecture 46 - Mass Transfer (Continued...)
Link NOC:Transport Phenomena Lecture 47 - Mass Transfer (Continued...)
Link NOC:Transport Phenomena Lecture 48 - Mass Transfer (Continued...)
Link NOC:Transport Phenomena Lecture 49 - Mass Transfer (Continued...)
Link NOC:Transport Phenomena Lecture 50 - Mass Transfer (Continued...)
Link NOC:Transport Phenomena Lecture 51 - Convection Transfer Equations
Link NOC:Transport Phenomena Lecture 52 - Boundary Layer Similarity
Link NOC:Transport Phenomena Lecture 53 - Boundary Layer - Analogy
Link NOC:Transport Phenomena Lecture 54 - Analogy - Tutorial I
Link NOC:Transport Phenomena Lecture 55 - Analogy - Tutorial II
Link NOC:Transport Phenomena Lecture 56 - Analogy - Tutorial III
Link NOC:Transport Phenomena Lecture 57 - Analogy - Tutorial IV and V
Link NOC:Transport Phenomena Lecture 58 - Tutorial on Displacement Thickness
Link NOC:Transport Phenomena Lecture 59 - Tutorial on Momentum Integral Equation
Link NOC:Transport Phenomena Lecture 60 - Summary of the Course
Link NOC:Chemical Process Instrumentation Lecture 1 - General Principles and Representation of Instruments
Link NOC:Chemical Process Instrumentation Lecture 2 - General Principles and Representation of Instruments (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 3 - General Principles and Representation of Instruments (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 4 - General Principles and Representation of Instruments (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 5 - General Principles and Representation of Instruments (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 6 - Performance Characteristics of Instruments and Data Analysis - I
Link NOC:Chemical Process Instrumentation Lecture 7 - Performance Characteristics of Instruments and Data Analysis - I (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 8 - Performance Characteristics of Instruments and Data Analysis - I (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 9 - Performance Characteristics of Instruments and Data Analysis - I (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 10 - Performance Characteristics of Instruments and Data Analysis - I (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 11 - Performance Characteristics of Instruments and Data Analysis - II
Link NOC:Chemical Process Instrumentation Lecture 12 - Performance Characteristics of Instruments and Data Analysis - II (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 13 - Performance Characteristics of Instruments and Data Analysis - II (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 14 - Performance Characteristics of Instruments and Data Analysis - II (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 15 - Performance Characteristics of Instruments and Data Analysis - II (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 16 - Transducer Elements
Link NOC:Chemical Process Instrumentation Lecture 17 - Transducer Elements (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 18 - Transducer Elements (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 19 - Transducer Elements (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 20 - Transducer Elements (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 21 - Pressure Measurement: Moderate and High Pressure Measuring Instruments
Link NOC:Chemical Process Instrumentation Lecture 22 - Pressure Measurement: Moderate and High Pressure Measuring Instruments (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 23 - Pressure Measurement: Moderate and High Pressure Measuring Instruments (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 24 - Pressure Measurement: Moderate and High Pressure Measuring Instruments (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 25 - Pressure Measurement: Moderate and High Pressure Measuring Instruments (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 26 - High Vacuum Measurement
Link NOC:Chemical Process Instrumentation Lecture 27 - High Vacuum Measurement (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 28 - High Vacuum Measurement (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 29 - High Vacuum Measurement (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 30 - Pressure Measurement
Link NOC:Chemical Process Instrumentation Lecture 31 - Temperature Measurement
Link NOC:Chemical Process Instrumentation Lecture 32 - Temperature Measurement (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 33 - Temperature Measurement (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 34 - Temperature Measurement (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 35 - Temperature Measurement (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 36 - Temperature Measurement (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 37 - Temperature Measurement (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 38 - Temperature Measurement (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 39 - Temperature Measurement (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 40 - Temperature Measurement (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 41 - Flow Measurement
Link NOC:Chemical Process Instrumentation Lecture 42 - Flow Measurement (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 43 - Flow Measurement (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 44 - Flow Measurement (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 45 - Flow Measurement (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 46 - Level Measurement
Link NOC:Chemical Process Instrumentation Lecture 47 - Level Measurement (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 48 - Level Measurement (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 49 - Level Measurement (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 50 - Level Measurement (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 51 - Miscellaneous Measurements : Composition
Link NOC:Chemical Process Instrumentation Lecture 52 - Miscellaneous Measurements : Composition (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 53 - Miscellaneous Measurements : Composition (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 54 - Miscellaneous Measurements : Composition (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 55 - Miscellaneous Measurements : Composition (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 56 - Pneumatic Control Valve
Link NOC:Chemical Process Instrumentation Lecture 57 - Pneumatic Control Valve (Continued...)
Link NOC:Chemical Process Instrumentation Lecture 58 - Pneumatic Control Valve (Continued...) and P&ID
Link NOC:Chemical Process Instrumentation Lecture 59 - GATE Questions
Link NOC:Chemical Process Instrumentation Lecture 60 - GATE Questions (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 1 - Introduction to Optimization
Link NOC:Optimization in Chemical Engineering Lecture 2 - Introduction to Optimization (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 3 - Introduction to Optimization (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 4 - Introduction of Optimization (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 5 - Introduction of Optimization (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 6 - Optimization Problem Formulation
Link NOC:Optimization in Chemical Engineering Lecture 7 - Optimization Problem Formulation (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 8 - Optimization Problem Formulation (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 9 - Optimization Problem Formulation (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 10 - Optimization Problem Formulation (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 11 - Basic Concepts of Optimization - I
Link NOC:Optimization in Chemical Engineering Lecture 12 - Basic Concepts of Optimization - I (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 13 - Basic Concepts of Optimization - I (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 14 - Basic Concepts of Optimization - I (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 15 - Basic Concepts of Optimization - I (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 16 - Basic Concepts of Optimization - II
Link NOC:Optimization in Chemical Engineering Lecture 17 - Basic Concepts of Optimization - II (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 18 - Basic Concepts of Optimization - II (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 19 - Basic Concepts of Optimization - II (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 20 - Basic Concepts of Optimization - II (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 21 - Unconstrained Single Variable Optimization: Methods and Applications (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 22 - Unconstrained Single Variable Optimization: Methods and Applications (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 23 - Unconstrained Single Variable Optimization: Methods and Applications (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 24 - Unconstrained Single Variable Optimization: Methods and Applications (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 25 - Unconstrained Single Variable Optimization: Methods and Applications (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 26 - Unconstrained Multivariable Optimization: Direct Search Methods
Link NOC:Optimization in Chemical Engineering Lecture 27 - Unconstrained Multivariable Optimization: Direct Search Methods (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 28 - Unconstrained Multivariable Optimization: Direct Search Methods (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 29 - Unconstrained Multivariable Optimization: Direct Search Methods (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 30 - Unconstrained Multivariable Optimization: Direct Search Methods (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 31 - Unconstrained Multivariable Optimization: Gradient Based Methods
Link NOC:Optimization in Chemical Engineering Lecture 32 - Unconstrained Multivariable Optimization: Gradient Based Methods (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 33 - Unconstrained Multivariable Optimization: Gradient Based Methods (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 34 - Unconstrained Multivariable Optimization: Gradient Based Methods (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 35 - Unconstrained Multivariable Optimization: Gradient Based Methods (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 36 - Introduction to Linear Programming
Link NOC:Optimization in Chemical Engineering Lecture 37 - Introduction to Linear Programming (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 38 - Introduction to Linear Programming (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 39 - Introduction to Linear Programming (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 40 - Introduction to Linear Programming (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 41 - Linear Programming - The Simplex Method
Link NOC:Optimization in Chemical Engineering Lecture 42 - Linear Programming - The Simplex Method (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 43 - Linear Programming - The Simplex Method (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 44 - Linear Programming - The Simplex Method (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 45 - Linear Programming - The Simplex Method (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 46 - Constrained Nonlinear Programming
Link NOC:Optimization in Chemical Engineering Lecture 47 - Constrained Nonlinear Programming (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 48 - Constrained Nonlinear Programming (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 49 - Constrained Nonlinear Programming (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 50 - Constrained Nonlinear Programming (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 51 - Applications of Optimization
Link NOC:Optimization in Chemical Engineering Lecture 52 - Applications of Optimization (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 53 - Applications of Optimization (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 54 - Applications of Optimization (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 55 - Applications of Optimization (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 56 - Software Tools for Optimization
Link NOC:Optimization in Chemical Engineering Lecture 57 - Software Tools for Optimization (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 58 - Software Tools for Optimization (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 59 - Software Tools for Optimization (Continued...)
Link NOC:Optimization in Chemical Engineering Lecture 60 - Software Tools for Optimization (Continued...)
Link NOC:Heat Transfer (2018) Lecture 1 - Introduction to Heat Transfer
Link NOC:Heat Transfer (2018) Lecture 2 - Introduction to Heat Transfer
Link NOC:Heat Transfer (2018) Lecture 3 - Heat Diffusion Equation
Link NOC:Heat Transfer (2018) Lecture 4 - Relevant Boundary Conditions in Conduction
Link NOC:Heat Transfer (2018) Lecture 5 - One Dimensional Steady State Conduction
Link NOC:Heat Transfer (2018) Lecture 6 - Temperature Distribution in Radial Systems
Link NOC:Heat Transfer (2018) Lecture 7 - Tutorial Problem on Critical Insulation Thickness
Link NOC:Heat Transfer (2018) Lecture 8 - Heat Source Systems
Link NOC:Heat Transfer (2018) Lecture 9 - Tutorial Problems of Heat Generating Systems
Link NOC:Heat Transfer (2018) Lecture 10 - Transient Conduction
Link NOC:Heat Transfer (2018) Lecture 11 - Lumped Capacitance (Continued...) and Tutorial Problem
Link NOC:Heat Transfer (2018) Lecture 12 - Transient heat Conduction
Link NOC:Heat Transfer (2018) Lecture 13 - Transient Conduction - Heisler Chart
Link NOC:Heat Transfer (2018) Lecture 14 - Heat Transfer from Extended Surface
Link NOC:Heat Transfer (2018) Lecture 15 - Fins and General Conduction Analysis
Link NOC:Heat Transfer (2018) Lecture 16 - Fundamentals of Convection
Link NOC:Heat Transfer (2018) Lecture 17 - Equations of Change for Non-isothermal Systems
Link NOC:Heat Transfer (2018) Lecture 18 - Equations of Change for Non-isothermal Systems (Continued...)
Link NOC:Heat Transfer (2018) Lecture 19 - Tutorial on the Application of Energy Equation
Link NOC:Heat Transfer (2018) Lecture 20 - Nusselt Number of a heated sphere in Stagnant Air
Link NOC:Heat Transfer (2018) Lecture 21 - Momentum and Thermal Boundary Layers
Link NOC:Heat Transfer (2018) Lecture 22 - The Flat Plate in Parallel Flow - Hydrodynamics and Momentum Transfer
Link NOC:Heat Transfer (2018) Lecture 23 - The Flat Plate in Parallel Flow - Heat Transfer
Link NOC:Heat Transfer (2018) Lecture 24 - The Effects of Turbulence
Link NOC:Heat Transfer (2018) Lecture 25 - Turbulent External Flow
Link NOC:Heat Transfer (2018) Lecture 26 - Heat and Momentum Transfer Analogy
Link NOC:Heat Transfer (2018) Lecture 27 - Mixed Boundary Layers
Link NOC:Heat Transfer (2018) Lecture 28 - Tutorial Problem on External Flow and Behavior of Heat Transfer Coefficient
Link NOC:Heat Transfer (2018) Lecture 29 - Tutorial Problem in External Flow and Convection
Link NOC:Heat Transfer (2018) Lecture 30 - Tutorial Problem in External Flow and Convection
Link NOC:Heat Transfer (2018) Lecture 31 - Tutorial Problem in External Flow and Convection
Link NOC:Heat Transfer (2018) Lecture 32 - Internal Flow Heat Transfer
Link NOC:Heat Transfer (2018) Lecture 33 - Internal Flow Heat Transfer (Continued...)
Link NOC:Heat Transfer (2018) Lecture 34 - Internal Flow Heat Transfer (Continued...)
Link NOC:Heat Transfer (2018) Lecture 35 - Internal Flow and Heat Transfer (Continued...)
Link NOC:Heat Transfer (2018) Lecture 36 - Internal Flow and Heat Transfer (Tutorial)
Link NOC:Heat Transfer (2018) Lecture 37 - Free Convection
Link NOC:Heat Transfer (2018) Lecture 38 - Heat Exchangers
Link NOC:Heat Transfer (2018) Lecture 39 - Heat Exchangers
Link NOC:Heat Transfer (2018) Lecture 40 - Heat Exchangers
Link NOC:Heat Transfer (2018) Lecture 41 - Tutorial Problems on Heat Exchanger Calculations
Link NOC:Heat Transfer (2018) Lecture 42 - Tutorial Problem on LMTD and Dirt Factor
Link NOC:Heat Transfer (2018) Lecture 43 - Epsilon-NTU Method - 1
Link NOC:Heat Transfer (2018) Lecture 44 - Epsilon-NTU Method - 1 (Continued...)
Link NOC:Heat Transfer (2018) Lecture 45 - Tutorial Problems on Epsilon - NTU Methods
Link NOC:Heat Transfer (2018) Lecture 46 - Tutorial Problems on Epsilon - NTU Methods
Link NOC:Heat Transfer (2018) Lecture 47 - Boiling, Evaporation and Evaporators
Link NOC:Heat Transfer (2018) Lecture 48 - Radiation - Fundamental Concepts
Link NOC:Heat Transfer (2018) Lecture 49 - Spectral Blackbody Radiation Intesity and Emissive Power
Link NOC:Heat Transfer (2018) Lecture 50 - Wein's Law, Stephen Boltzmann Law, Blackbody Radiation Function, Tutorial Problem
Link NOC:Heat Transfer (2018) Lecture 51 - Kirchhoff's Law
Link NOC:Heat Transfer (2018) Lecture 52 - Tutorial on Emissivity, Absroptivity and Blackbody Radiation Functions
Link NOC:Heat Transfer (2018) Lecture 53 - Solar Radiation and the Concept of View Factors
Link NOC:Heat Transfer (2018) Lecture 54 - Determination of View Factors
Link NOC:Heat Transfer (2018) Lecture 55 - Radiosity Blackbody Radiation Exchanges, Relevant Problem
Link NOC:Heat Transfer (2018) Lecture 56 - Network Method for Radiation Exchange in an Enclosure
Link NOC:Heat Transfer (2018) Lecture 57 - Network Method - Two and Three Zone Enclosures
Link NOC:Heat Transfer (2018) Lecture 58 - Tutorial Problem on Radiation Exhange using the Network Method
Link NOC:Heat Transfer (2018) Lecture 59 - Radiation Shields
Link NOC:Heat Transfer (2018) Lecture 60 - Gaseous Radiation (Participating Medium)
Link NOC:Flow through Porous Media Lecture 1 - Introduction (Definition Of Porous Media)
Link NOC:Flow through Porous Media Lecture 2 - Introduction (Conceptual Flow Models)
Link NOC:Flow through Porous Media Lecture 3 - Introduction (Applications)
Link NOC:Flow through Porous Media Lecture 4 - Mass Continuity (Introduction)
Link NOC:Flow through Porous Media Lecture 5 - Mass Continuity (Cartesian Coordinates)
Link NOC:Flow through Porous Media Lecture 6 - Mass Continuity (Cylindrical Coordinates)
Link NOC:Flow through Porous Media Lecture 7 - Mass Continuity (Radial Flow)
Link NOC:Flow through Porous Media Lecture 8 - Mass Continuity (Non-Uniform Permeability)
Link NOC:Flow through Porous Media Lecture 9 - Mass Continuity (Continued...)
Link NOC:Flow through Porous Media Lecture 10 - Mass Continuity (Streamlines And Potential Lines)
Link NOC:Flow through Porous Media Lecture 11 - Mass Continuity (Elementary Flow)
Link NOC:Flow through Porous Media Lecture 12 - Mass Continuity (Source/Sink)
Link NOC:Flow through Porous Media Lecture 13 - Mass Continuity (Superposition Of Elementary Flow)
Link NOC:Flow through Porous Media Lecture 14 - Mass Continuity (Superposition Of Elementary Flow) (Continued...)
Link NOC:Flow through Porous Media Lecture 15 - Transport Mechanisms (Introduction)
Link NOC:Flow through Porous Media Lecture 16 - Transport Mechanisms (Combined Mode)
Link NOC:Flow through Porous Media Lecture 17 - Transport Mechanisms (Adsorption/Pore Condensation)
Link NOC:Flow through Porous Media Lecture 18 - Transport Mechanisms (Continued...)
Link NOC:Flow through Porous Media Lecture 19 - Flow Equation (Introduction)
Link NOC:Flow through Porous Media Lecture 20 - Flow Equations (Continued...)
Link NOC:Flow through Porous Media Lecture 21 - Flow Equations (Viscous Flow in Capillary)
Link NOC:Flow through Porous Media Lecture 22 - Flow Equations (Packed Bed)
Link NOC:Flow through Porous Media Lecture 23 - Flow Equations (Fluidized Bed)
Link NOC:Flow through Porous Media Lecture 24 - Miscible Displacement (Uniform Velocity Over Capillary Cross-Section)
Link NOC:Flow through Porous Media Lecture 25 - Miscible Displacement (Laminar Flow in Capillary)
Link NOC:Flow through Porous Media Lecture 26 - Miscible Displacement (Movement of Concentration Pulse)
Link NOC:Flow through Porous Media Lecture 27 - Miscible Displacement (Step Change in Concentration)
Link NOC:Flow through Porous Media Lecture 28 - Miscible Displacement (Continued...)
Link NOC:Flow through Porous Media Lecture 29 - Miscible Displacement (Continued...)
Link NOC:Flow through Porous Media Lecture 30 - Miscible Displacement (Continued...)
Link NOC:Flow through Porous Media Lecture 31 - Miscible Displacement (Continued...)
Link NOC:Flow through Porous Media Lecture 32 - Miscible Displacement (Fractured Porous Media)
Link NOC:Flow through Porous Media Lecture 33 - Miscible Displacement (Viscous Front)
Link NOC:Flow through Porous Media Lecture 34 - Immiscible Flow
Link NOC:Flow through Porous Media Lecture 35 - Immiscible Flow (Continued...)
Link NOC:Flow through Porous Media Lecture 36 - Immiscible Flow (Continued...)
Link NOC:Flow through Porous Media Lecture 37 - Immiscible Flow (Continued...)
Link NOC:Flow through Porous Media Lecture 38 - Immiscible Flow (Continued...)
Link NOC:Flow through Porous Media Lecture 39 - Immiscible Flow (Continued...)
Link NOC:Flow through Porous Media Lecture 40 - Immiscible Flow (Continued...)
Link NOC:Flow through Porous Media Lecture 41 - IMMISCIBLE FLOW (Continued...)
Link NOC:Flow through Porous Media Lecture 42 - Immiscible Flow (Continued...)
Link NOC:Flow through Porous Media Lecture 43 - Immiscible Flow (Continued...)
Link NOC:Flow through Porous Media Lecture 44 - Immiscible Flow (Continued...)
Link NOC:Flow through Porous Media Lecture 45 - Immiscible Flow (Continued...)
Link NOC:Flow through Porous Media Lecture 46 - Immiscible Flow (Continued...)
Link NOC:Flow through Porous Media Lecture 47 - Interception Of Suspended Solids
Link NOC:Flow through Porous Media Lecture 48 - Interception Of Suspended Solids (Continued...)
Link NOC:Flow through Porous Media Lecture 49 - Interception Of Suspended Solids (Continued...)
Link NOC:Flow through Porous Media Lecture 50 - Interception Of Suspended Solids (Continued...)
Link NOC:Flow through Porous Media Lecture 51 - Interception Of Suspended Solids (Continued...)
Link NOC:Flow through Porous Media Lecture 52 - Interception Of Suspended Solids (Continued...)
Link NOC:Flow through Porous Media Lecture 53 - Deformable Porous Media
Link NOC:Flow through Porous Media Lecture 54 - Deformable Porous Media (Continued...)
Link NOC:Flow through Porous Media Lecture 55 - Deformable Porous Media (Continued...)
Link NOC:Flow through Porous Media Lecture 56 - Heat Transfer With Fluid Flow
Link NOC:Flow through Porous Media Lecture 57 - Heat Transfer With Fluid Flow (Continued...)
Link NOC:Flow through Porous Media Lecture 58 - Heat Transfer With Fluid Flow (Continued...)
Link NOC:Flow through Porous Media Lecture 59 - Characterization
Link NOC:Flow through Porous Media Lecture 60 - Characterization (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 1 - Solid particle characterization
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 2 - Solid particle characterization (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 3 - Particle size distribution
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 4 - Particle size distribution (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 5 - Particle size distribution (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 6 - Fluid - particle mechanics
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 7 - Fluid - particle mechanics (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 8 - Fluid - particle mechanics (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 9 - Fluid - particle mechanics (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 10 - Fluid - particle mechanics (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 11 - Fluid - particle mechanics (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 12 - Fluid - particle mechanics (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 13 - Fluid - particle mechanics (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 14 - Fluid - particle mechanics (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 15 - Fluid - particle mechanics (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 16 - Flow through packed beds
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 17 - Flow through packed beds (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 18 - Flow through packed beds (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 19 - Flow through packed beds (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 20 - Flow through packed beds (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 21 - Fluidization
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 22 - Fluidization (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 23 - Fluidization (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 24 - Fluidization (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 25 - Fluidization (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 26 - Sedimentation
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 27 - Sedimentation (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 28 - Sedimentation (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 29 - Sedimentation (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 30 - Sedimentation (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 31 - Filtration
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 32 - Filtration (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 33 - Filtration (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 34 - Filtration (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 35 - Filtration (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 36 - Centrifugal Separation
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 37 - Centrifugal Separation (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 38 - Centrifugal Separation (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 39 - Centrifugal Separation (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 40 - Centrifugal Separation (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 41 - Particle size reduction
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 42 - Particle size reduction (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 43 - Particle size reduction (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 44 - Particle size reduction (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 45 - Particle size reduction (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 46 - Particle size reduction (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 47 - Particle size enlargement
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 48 - Particle size enlargement (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 49 - Particle size enlargement (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 50 - Particle size enlargement (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 51 - Fluid - solid transport
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 52 - Fluid - solid transport (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 53 - Fluid - solid transport (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 54 - Fluid - solid transport (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 55 - Fluid - solid transport (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 56 - Colloids and nanoparticles
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 57 - Colloids and nanoparticles (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 58 - Colloids and nanoparticles (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 59 - Colloids and nanoparticles (Continued...)
Link NOC:Fundamentals of Particle and Fluid Solid Processing Lecture 60 - Colloids and nanoparticles (Continued...)
Link Chemical Engineering Thermodynamics Lecture 1 - Thermodynamics and the Chemical Industry
Link Chemical Engineering Thermodynamics Lecture 2 - James Prescot Joule and the first law
Link Chemical Engineering Thermodynamics Lecture 3 - Sadi Carnot and the second law
Link Chemical Engineering Thermodynamics Lecture 4 - Equilibrium and Extrema in work
Link Chemical Engineering Thermodynamics Lecture 5 - Illustrative Calculations - I
Link Chemical Engineering Thermodynamics Lecture 6 - Properties of pure substances
Link Chemical Engineering Thermodynamics Lecture 7 - The p-h chart
Link Chemical Engineering Thermodynamics Lecture 8 - Work calculation
Link Chemical Engineering Thermodynamics Lecture 9 - Illustrative Calculations - II
Link Chemical Engineering Thermodynamics Lecture 10 - Heat-Work Interconversion Devices
Link Chemical Engineering Thermodynamics Lecture 11 - Refrigeration / Thermodynamics of mixtures
Link Chemical Engineering Thermodynamics Lecture 12 - The Gibbs Duhem equation
Link Chemical Engineering Thermodynamics Lecture 13 - Models for Excess Gibbs Free Energy
Link Chemical Engineering Thermodynamics Lecture 14 - Van Laar model
Link Chemical Engineering Thermodynamics Lecture 15 - Gaseous and liquid mixtures
Link Chemical Engineering Thermodynamics Lecture 16 - Separation Work / Equations of state
Link Chemical Engineering Thermodynamics Lecture 17 - Chemical potentials in gas and condensed phases
Link Chemical Engineering Thermodynamics Lecture 18 - Vapour Liquid Equilibria - I
Link Chemical Engineering Thermodynamics Lecture 19 - Vapour Liquid Equilibria - II
Link Chemical Engineering Thermodynamics Lecture 20 - Solvent-Solvent mixtures
Link Chemical Engineering Thermodynamics Lecture 21 - Solvent-Solute mixtures
Link Chemical Engineering Thermodynamics Lecture 22 - Liquid-liquid equilibria
Link Chemical Engineering Thermodynamics Lecture 23 - An industrial example
Link Chemical Engineering Thermodynamics Lecture 24 - Liquid-liquid equilibria / Reaction Equilibria
Link Chemical Engineering Thermodynamics Lecture 25 - Reaction Equilibria
Link Chemical Engineering Thermodynamics Lecture 26 - Illustrative Examples - I
Link Chemical Engineering Thermodynamics Lecture 27 - Illustrative Examples - II
Link Chemical Engineering Thermodynamics Lecture 28 - Illustrative Examples - III
Link Chemical Engineering Thermodynamics Lecture 29 - Simultaneous Relations
Link Chemical Engineering Thermodynamics Lecture 30 - Thermodynamic Consistency / Reverse Osmosis
Link Chemical Engineering Thermodynamics Lecture 31 - Miscellaneous topics in phase equilibria
Link Chemical Engineering Thermodynamics Lecture 32 - Absorption Refrigeration
Link Chemical Engineering Thermodynamics Lecture 33 - Summary of Classical Thermodynamics
Link Chemical Engineering Thermodynamics Lecture 34 - Molecular basis of Thermodynamics - I
Link Chemical Engineering Thermodynamics Lecture 35 - Molecular basis of Thermodynamics - II
Link Computational Fluid Dynamics Lecture 1 - Motivation for CFD and Introduction to the CFD approach
Link Computational Fluid Dynamics Lecture 2 - Illustration of the CFD approach through a worked out example
Link Computational Fluid Dynamics Lecture 3 - Eulerian approach, Conservation Equation, Derivation of Mass Conservation Equation and Statement of the momentum conservation equation
Link Computational Fluid Dynamics Lecture 4 - Forces acting on a control volume; Stress tensor; Derivation of the momentum conservation equation ; Closure problem; Deformation of a fluid element in fluid flow
Link Computational Fluid Dynamics Lecture 5 - Kinematics of deformation in fluid flow; Stress vs strain rate relation; Derivation of the Navier-Stokes equations
Link Computational Fluid Dynamics Lecture 6 - Equations governing flow of incompressible flow; Initial and boundary conditions; Wellposedness of a fluid flow problem
Link Computational Fluid Dynamics Lecture 7 - Equations for some simple cases; Generic scalar transport equation form of the governing equations; Outline of the approach to the solution of the N-S equations.
Link Computational Fluid Dynamics Lecture 8 - cut out the first 30s; Spatial discretization of a simple flow domain; Taylor’s series expansion and the basis of finite difference approximation of a derivative; Central and one-sided difference approximations; Order of accuracy of finite difference ap
Link Computational Fluid Dynamics Lecture 9 - Finite difference approximation of pth order of accuracy for qth order derivative; cross -derivatives; Examples of high order accurate formulae for several derivatives
Link Computational Fluid Dynamics Lecture 10 - One -sided high order accurate approximations; Explicit and implicit formulations for the time derivatives
Link Computational Fluid Dynamics Lecture 11 - Numerical solution of the unsteady advection equation using different finite difference approximations
Link Computational Fluid Dynamics Lecture 12 - Need for analysis of a discretization scheme; Concepts of consistency, stability and convergence and the equivalence theorem of Lax ; Analysis for consistency
Link Computational Fluid Dynamics Lecture 13 - Statement of the stability problem; von Neumann stability analysis of the first order wave equation
Link Computational Fluid Dynamics Lecture 14 - Consistency and stability analysis of the unsteady diffusion equation; Analysis for two- and three -dimensional cases; Stability of implicit schemes
Link Computational Fluid Dynamics Lecture 15 - Interpretation of the stability condition; Stability analysis of the generic scalar equation and the concept of upwinding ; Diffusive and dissipative errors in numerical solution; Introduction to the concept of TVD schemes
Link Computational Fluid Dynamics Lecture 16 - Template for the generic scalar transport equation and its extension to the solution of Navier-Stokes equa tions for a compressible flow.
Link Computational Fluid Dynamics Lecture 17 - Illustration of application of the template using the MacCormack scheme for a three-dimensional compressible flow
Link Computational Fluid Dynamics Lecture 18 - Stability limits of MacCormack scheme; Limitations in extending compressible flow schemes to incompre ssible flows ; Difficulty of evaluation of pressure in incompressible flows and listing of various approaches
Link Computational Fluid Dynamics Lecture 19 - Artificial compressibility method and the streamfunction-vorticity method for the solution of NS equations and their limitations
Link Computational Fluid Dynamics Lecture 20 - Pressur e equation method for the solution of NS equations
Link Computational Fluid Dynamics Lecture 21 - Pressure-correction approach to the solution of NS equations on a staggered grid; SIMPLE and its family of methods
Link Computational Fluid Dynamics Lecture 22 - Need for effici ent solution of linear algebraic equations; Classification of approaches for the solution of linear algebraic equations.
Link Computational Fluid Dynamics Lecture 23 - Direct methods for linear algebraic equations; Gaussian elimination method
Link Computational Fluid Dynamics Lecture 24 - Gauss-Jordan method; LU decomposition method; TDMA and Thomas algorithm
Link Computational Fluid Dynamics Lecture 25 - Basic iterative methods for linear algebraic equations: Description of point -Jacobi, Gauss-Seidel and SOR methods
Link Computational Fluid Dynamics Lecture 26 - Convergence analysis of basic iterative schemes; Diagonal dominance condition for convergence; Influence of source terms on the diagonal dominance condition; Rate of convergence
Link Computational Fluid Dynamics Lecture 27 - Application to the Laplace equation
Link Computational Fluid Dynamics Lecture 28 - Advanced iterative methods: Alternating Direction Implicit Method; Operator splitting
Link Computational Fluid Dynamics Lecture 29 - Advanced iterative methods; Strongly Implicit Proc edure; Conjugate gradient method; Multigrid method
Link Computational Fluid Dynamics Lecture 30 - Illustration of the Multigrid method for the Laplace equation
Link Computational Fluid Dynamics Lecture 31 - Overview of the approach of numerical solution of NS equations for simple domains; Introduction to complexity arising from physics and geometry
Link Computational Fluid Dynamics Lecture 32 - Derivation of the energy conservation equation
Link Computational Fluid Dynamics Lecture 33 - Derivation of the species conservation equation; dealing with chemical reactions
Link Computational Fluid Dynamics Lecture 34 - Turbulence; Characteri stics of turbulent flow; Dealing with fluctuations and the concept of time-averaging
Link Computational Fluid Dynamics Lecture 35 - Derivation of the Reynolds -averaged Navier -Stokes equations; identification of the closure problem of turbulence; Boussinesq hypothesis and eddy viscosity
Link Computational Fluid Dynamics Lecture 36 - Reynol ds stresses in turbulent flow; Time and length scales of turbulence; Energy cascade; Mixing length model for eddy viscosity
Link Computational Fluid Dynamics Lecture 37 - One-equation model for turbulent flow
Link Computational Fluid Dynamics Lecture 38 - Two -equation model for turbulent flow; Numerical calculation of turbulent reacting flows
Link Computational Fluid Dynamics Lecture 39 - Calculation of near-wall region in turbulent flow; wall function approach; near-wall turbulence models
Link Computational Fluid Dynamics Lecture 40 - Need for special methods for dealing with irregular flow geometry; Outline of the Body-fitted grid approach ; Coordinate transformation to a general, 3-D curvilinear system
Link Computational Fluid Dynamics Lecture 41 - Transformation of the governing equations; Illustration for the Laplace equation; Appearance and significance of cross -derivative terms; Concepts of structured and unstructured grids.
Link Computational Fluid Dynamics Lecture 42 - Finite vol ume method for complicated flow domain; Illustration for the case of flow through a duct of triangular cross -section.
Link Computational Fluid Dynamics Lecture 43 - Finite volume method for the general case
Link Computational Fluid Dynamics Lecture 44 - Generation of a structured grid for irregular flow domain; Algebraic methods; Elliptic grid generation method
Link Computational Fluid Dynamics Lecture 45 - Unstructured grid generation; Domain nodalization; Advancing front method for triangulation
Link Computational Fluid Dynamics Lecture 46 - Delaunay triangulation method for unstructured grid generation
Link Computational Fluid Dynamics Lecture 47 - Co -located grid approach for irregular geometries; Pressure correction equation for a co -located structured grid; Pressure correction equation for a co-located unstructured grid.
Link Computational Techniques Lecture 1 - Introduction
Link Computational Techniques Lecture 2 - Computational and Error Analysis
Link Computational Techniques Lecture 3 - Linear Equations - Part 1
Link Computational Techniques Lecture 4 - Linear Equations - Part 2
Link Computational Techniques Lecture 5 - Linear Equations - Part 3
Link Computational Techniques Lecture 6 - Linear Equations - Part 4
Link Computational Techniques Lecture 7 - Linear Equations - Part 5
Link Computational Techniques Lecture 8 - Linear Equations - Part 6
Link Computational Techniques Lecture 9 - Non Linear Algebraic Equations - Part 1
Link Computational Techniques Lecture 10 - Non Linear Algebraic Equations - Part 2
Link Computational Techniques Lecture 11 - Non Linear Algebraic Equations - Part 3
Link Computational Techniques Lecture 12 - Non Linear Algebraic Equations - Part 4
Link Computational Techniques Lecture 13 - Non Linear Algebraic Equations - Part 5
Link Computational Techniques Lecture 14 - Non Linear Algebraic Equations - Part 6
Link Computational Techniques Lecture 15 - Regression and Interpolation - Part 1
Link Computational Techniques Lecture 16 - Regression and Interpolation - Part 2
Link Computational Techniques Lecture 17 - Regression and Interpolation - Part 3
Link Computational Techniques Lecture 18 - Regression and Interpolation - Part 4
Link Computational Techniques Lecture 19 - Regression and Interpolation - Part 5
Link Computational Techniques Lecture 20 - Differentiation and Integration - Part 1
Link Computational Techniques Lecture 21 - Differentiation and Integration - Part 2
Link Computational Techniques Lecture 22 - Differentiation and Integration - Part 3
Link Computational Techniques Lecture 23 - Differentiation and Integration - Part 4
Link Computational Techniques Lecture 24 - Differentiation and Integration - Part 5
Link Computational Techniques Lecture 25 - Ordinary Differential Equations (initial value problems) - Part 1
Link Computational Techniques Lecture 26 - Ordinary Differential Equations (initial value problems) - Part 2
Link Computational Techniques Lecture 27 - Ordinary Differential Equations (initial value problems) - Part 3
Link Computational Techniques Lecture 28 - Ordinary Differential Equations (initial value problems) - Part 4
Link Computational Techniques Lecture 29 - Ordinary Differential Equations (initial value problems) - Part 5
Link Computational Techniques Lecture 30 - Ordinary Differential Equations (initial value problems) - Part 6
Link Computational Techniques Lecture 31 - Ordinary Differential Equations (initial value problems) - Part 7
Link Computational Techniques Lecture 32 - Ordinary Differential Equations (initial value problems) - Part 8
Link Computational Techniques Lecture 33 - Ordinary Differential Equations (initial value problems) - Part 9
Link Computational Techniques Lecture 34 - Ordinary Differential Equations (boundary value problems) - Part 1
Link Computational Techniques Lecture 35 - Ordinary Differential Equations (boundary value problems) - Part 2
Link Computational Techniques Lecture 36 - Ordinary Differential Equations (boundary value problems) - Part 3
Link Computational Techniques Lecture 37 - Partial Differential Equations - Part 1
Link Computational Techniques Lecture 38 - Partial Differential Equations - Part 2
Link Computational Techniques Lecture 39 - Partial Differential Equations - Part 3
Link Computational Techniques Lecture 40 - Partial Differential Equations - Part 4
Link Particle Characterization (PG) Lecture 1 - Introduction: Why study particle characterization?
Link Particle Characterization (PG) Lecture 2 - Introduction: Classification of particle characteristics
Link Particle Characterization (PG) Lecture 3 - Morphological Characterization: Shape analysis methods
Link Particle Characterization (PG) Lecture 4 - Morphological Characterization: Techniques of shape assessment
Link Particle Characterization (PG) Lecture 5 - Morphological Characterization: Decision rules
Link Particle Characterization (PG) Lecture 6 - Morphological Characterization: Static vs dynamic methods of size analysis
Link Particle Characterization (PG) Lecture 7 - Morphological Characterization: Static methods of size analysis
Link Particle Characterization (PG) Lecture 8 - Morphological Characterization: Light scattering from spherical particles
Link Particle Characterization (PG) Lecture 9 - Morphological Characterization: Particle counters
Link Particle Characterization (PG) Lecture 10 - Morphological Characterization: Particle size distributions
Link Particle Characterization (PG) Lecture 11 - Morphological Characterization: Acoustic Attenuation Spectroscopy
Link Particle Characterization (PG) Lecture 12 - Morphological Characterization: Nano-particle size analysis
Link Particle Characterization (PG) Lecture 13 - Structural Characterization
Link Particle Characterization (PG) Lecture 14 - Interfacial Characterization
Link Particle Characterization (PG) Lecture 15 - Surface Adhesion: Forces
Link Particle Characterization (PG) Lecture 16 - Surface Adhesion: Electrostatic & Surface-Tension Forces
Link Particle Characterization (PG) Lecture 17 - Surface Adhesion: Adhesion Force Measurement
Link Particle Characterization (PG) Lecture 18 - Particle Removal: Methods
Link Particle Characterization (PG) Lecture 19 - Particle Removal: Wet Cleaning
Link Particle Characterization (PG) Lecture 20 - Particle Cohesion: Forces
Link Particle Characterization (PG) Lecture 21 - Particle Cohesion: Flowability Implications
Link Particle Characterization (PG) Lecture 22 - Transport Properties: Diffusion & Electrostatic Field Effects
Link Particle Characterization (PG) Lecture 23 - Transport Properties: Drag & Inertia
Link Particle Characterization (PG) Lecture 24 - Transport Properties: Deposition Fluxes & Rates
Link Particle Characterization (PG) Lecture 25 - Transport Properties: Illustrative Application
Link Particle Characterization (PG) Lecture 26 - Chemical & Compositional Characterization: Reactivity
Link Particle Characterization (PG) Lecture 27 - Chemical & Compositional Characterization: Analytical Methods
Link Particle Characterization (PG) Lecture 28 - Chemical & Compositional Characterization: XRD & AFM
Link Particle Characterization (PG) Lecture 29 - Nano-particle Characterization: Bottom-Up Synthesis Methods
Link Particle Characterization (PG) Lecture 30 - Nano-particle Characterization: Top-Down Synthesis Methods
Link Particle Characterization (PG) Lecture 31 - Nano-particle Characterization: Dispersion
Link Particle Characterization (PG) Lecture 32 - Nano-particle Characterization: Properties & Techniques
Link Particle Characterization (PG) Lecture 33 - Practical Relevance of Particle Characterization: Nano-Fluids
Link Particle Characterization (PG) Lecture 34 - Practical Relevance of Particle Characterization: Filtration
Link Particle Characterization (PG) Lecture 35 - Practical Relevance of Particle Characterization: Cleanrooms
Link Particle Characterization (PG) Lecture 36 - Practical Relevance of Particle Characterization: High-Technology Manufacturing
Link Particle Characterization (PG) Lecture 37 - Practical Relevance of Particle Characterization: Explosivity
Link Particle Characterization (PG) Lecture 38 - Practical Relevance of Particle Characterization: Environment & Human Health
Link Particle Characterization (PG) Lecture 39 - Practical Relevance of Particle Characterization: Other Applications
Link Particle Characterization (PG) Lecture 40 - Summary
Link Statistics for Experimentalists Lecture 1 - Introduction
Link Statistics for Experimentalists Lecture 2 - Random Variables
Link Statistics for Experimentalists Lecture 3 - Discrete Probability Distributions
Link Statistics for Experimentalists Lecture 4 - Example Set - I
Link Statistics for Experimentalists Lecture 5 - Continuous probability distributions
Link Statistics for Experimentalists Lecture 6 - Normal probability distribution
Link Statistics for Experimentalists Lecture 7 - Exploratory Data Analysis - Part A
Link Statistics for Experimentalists Lecture 8 - Exploratory Data Analysis - Part B
Link Statistics for Experimentalists Lecture 9 - Example Set - II
Link Statistics for Experimentalists Lecture 10 - Example Set - III
Link Statistics for Experimentalists Lecture 11 - Random samples: Sampling distribution of the mean (Part A)
Link Statistics for Experimentalists Lecture 12 - Random samples: Sampling distribution of the mean (Part B)
Link Statistics for Experimentalists Lecture 13 - Point Estimation
Link Statistics for Experimentalists Lecture 14 - Sampling distributions and the Central Limit Theorem
Link Statistics for Experimentalists Lecture 15 - Example Set - IV Part A
Link Statistics for Experimentalists Lecture 16 - Estimation of Population Parameters Using Moments
Link Statistics for Experimentalists Lecture 17 - Confidence Intervals (Part A)
Link Statistics for Experimentalists Lecture 18 - Confidence Intervals (Part B)
Link Statistics for Experimentalists Lecture 19 - The T-distribution
Link Statistics for Experimentalists Lecture 20 - Chi-square distribution
Link Statistics for Experimentalists Lecture 21 - F-Distribution
Link Statistics for Experimentalists Lecture 22 - Example Set - V
Link Statistics for Experimentalists Lecture 23 - Hypothesis Testing - Part A
Link Statistics for Experimentalists Lecture 24 - Hypothesis Testing - Part B
Link Statistics for Experimentalists Lecture 25 - Hypothesis Testing - Part C
Link Statistics for Experimentalists Lecture 26 - Analysis of Experiments involving Single Factor - Part A
Link Statistics for Experimentalists Lecture 27 - Analysis of Experiments involving Single Factor - Part B
Link Statistics for Experimentalists Lecture 28 - Blocking and Randomization
Link Statistics for Experimentalists Lecture 29 - Example Set - VI - Part A
Link Statistics for Experimentalists Lecture 30 - Example Set - VI - Part B
Link Statistics for Experimentalists Lecture 31 - Factorial Design of Experiments - Part A
Link Statistics for Experimentalists Lecture 32 - Factorial Design of Experiments - Part B: 22 Factorial Design
Link Statistics for Experimentalists Lecture 33 - Fractional Factorial Design - Part A
Link Statistics for Experimentalists Lecture 34 - Fractional Factorial Design - Part B
Link Statistics for Experimentalists Lecture 35 - Factorial Design of Experiments: Example Set (Part A)
Link Statistics for Experimentalists Lecture 36 - Factorial Design of Experiments: Example Set (Part B)
Link Statistics for Experimentalists Lecture 37 - Factorial Design of Experiments: Example Set (Part C)
Link Statistics for Experimentalists Lecture 38 - Regression Analysis: Part A
Link Statistics for Experimentalists Lecture 39 - Regression Analysis: Part B
Link Statistics for Experimentalists Lecture 40 - Hypothesis Testing in Linear Regression
Link Statistics for Experimentalists Lecture 41 - Discussion on Regression Output
Link Statistics for Experimentalists Lecture 42 - Regression Analysis: Example Set 8
Link Statistics for Experimentalists Lecture 43 - Regression Analysis: Example Set 8 (Continued...)
Link Statistics for Experimentalists Lecture 44 - Regression Analysis: Example Set 8 (Continued...)
Link Statistics for Experimentalists Lecture 45 - Orthogonal Model Fitting Concepts - Part A
Link Statistics for Experimentalists Lecture 46 - Orthogonal Model Fitting Concepts - Part B
Link Statistics for Experimentalists Lecture 47 - Experimental Design Strategies - A
Link Statistics for Experimentalists Lecture 48 - Experimental Design Strategies - B
Link Statistics for Experimentalists Lecture 49 - Experimental Design Strategies - C
Link Statistics for Experimentalists Lecture 50 - Response Surface Methodology - A
Link Statistics for Experimentalists Lecture 51 - Response Surface Methodology - B
Link Statistics for Experimentalists Lecture 52 - Optimal Designs - Part A
Link Statistics for Experimentalists Lecture 53 - Optimal Designs - Part B
Link Statistics for Experimentalists Lecture 54 - Statistics for Experimentalists - Summary Part A
Link Statistics for Experimentalists Lecture 55 - Statistics for Experimentalists - Summary Part B
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 1 - Introduction and overview of the course: Multiphase flows
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 2 - Stratified flow in a micro channel: Velocity profiles
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 3 - Stratified flow in a micro channel: Effects of physical parameters
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 4 - Flow regimes in microchannels: Modeling and Experiments
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 5 - Scaling Analysis: Introduction
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 6 - Scaling Analysis: Worked Examples
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 7 - Interfacial tension and its role in Multiphase flows
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 8 - Eulerian and Lagrangian approaches
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 9 - Reynolds Transport Theorem and the Equation of Continuity
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 10 - Derivation of Navier-Stokes equation
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 11 - Vector operations in general orthogonal coordinates: Grad., Div., Lapacian
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 12 - Normal and shear stresses on arbitrary surfaces: Force balance
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 13 - Normal and shear stresses on arbitrary surfaces: Stress Tensor formulation
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 14 - Stresses on deforming surfaces: Introduction to Perturbation Theory
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 15 - Pulsatile flow: Analytical solution
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 16 - Pulsatile flow: Analytical solution and perturbation solution for Rw 1
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 17 - Pulsatile flow: Perturbation solution for Rw 1
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 18 - Viscous heating: Apparent viscosity in a viscometer
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 19 - Domain perturbation methods: Flow between wavy walls
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 20 - Flow between wavy walls: Velocity profile
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 21 - Introduction to stability of dynamical systems: ODEs
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 22 - Stability of distributed systems (PDEs): reaction diffusion example
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 23 - Stability of a reaction-diffusion system (Continued...)
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 24 - Rayleigh-Benard convection: Physics and governing equations
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 25 - Rayleigh-Benard convection: Linear stability analysis - Part 1
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 26 - Rayleigh-Benard convection: Linear stability analysis - Part 2
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 27 - Rayleigh-Benard convection: Linear stability analysis - Part 3
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 28 - Rayleigh Benard convection: Discussion of results
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 29 - Rayleigh-Taylor ‘heavy over light’ instability
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 30 - Rayleigh-Taylor instability (Continued...)
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 31 - Capillary jet instability: Problem formulation
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 32 - Capillary jet instability: Linear stability analysis
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 33 - Capillary jet instability: Rayleigh’s Work Principle
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 34 - Tutorial Session: Solution of Assignment 4 on linear stability
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 35 - Turing patterns: Instability in reaction-diffusion systems
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 36 - Turing patterns: Results
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 37 - Marangoni convection: Generalised tangential and normal stress boundary conditions
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 38 - Marangoni convection: Stability analysis
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 39 - Flow in a circular curved channel: Governing equations and scaling
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 40 - Flow in a circular curved channel: Solution by regular perturbation
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 41 - Stability of flow through curved channels: Problem formulation
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 42 - Stability of flow through curved channels: Numerical calculation
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 43 - Viscous Fingering: Darcy’s law
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 44 - Viscous Fingering: Stability analysis
Link Multiphase flows:Analytical solutions and Stability Analysis Lecture 45 - Shallow Cavity flows
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 1 - Introduction - Lecture 1.1 A
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 2 - Introduction - Lecture 1.1 B
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 3 - Introduction - Lecture 1.2 A
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 4 - Introduction - Lecture 1.2 B
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 5 - Basic Definitions and concepts - Lecture 2.1 (Basic Definitions and concepts - Part I)
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 6 - Basic Definitions and concepts - Lecture 2.2 (Basic Definitions and concepts - Part II)
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 7 - Basic Definitions and concepts - Lecture 2.3 (Basic Definitions and concepts - Part III)
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 8 - A review of Fourier transforms - Lecture 3.1 (Continuous time Fourier series)
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 9 - A review of Fourier transforms - Lecture 3.2 (Continuous time Fourier transform)
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 10 - A review of Fourier transforms - Lecture 3.3 (Discrete time Fourier series)
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 11 - A review of Fourier transforms - Lecture 3.4 (Discrete time Fourier transform)
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 12 - A review of Fourier transforms - Lecture 3.5 (Properties of Fourier transforms)
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 13 - A review of Fourier transforms - Lecture 3.6 (Discrete Fourier transform)
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 14 - A review of Fourier transforms - MATLAB demo of Fourier transform and periodogram
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 15 - Duration and Bandwidth - Duration and Bandwidth
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 16 - Duration and Bandwidth - Bandwidth equation and Instantaneous frequency
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 17 - Duration and Bandwidth - Instantaneous frequency and analytic signals
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 18 - Duration and Bandwidth - Duration-Bandwidth principle
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 19 - Duration and Bandwidth - Requirements of time-frequency anlysis techniques
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 20 - Duration and Bandwidth - Requirements of time-frequency analysis and techniques
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 21 - Short-time Fourier transform - Short-time Fourier transform
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 22 - Short-time Fourier transform - Auxillary (MATLAB demonstration)
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 23 - Short-time Fourier transform - Properties of STFT
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 24 - Practical aspects of STFT
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 25 - Closing Remarks
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 26 - Wigner-Ville Distributions
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 27 - Properties of WVD
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 28 - Properties of WVD 2
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 29 - Discrete WVD
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 30 - Pseudo and Smoothed WVD
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 31 - Cohens class and smoothed WVD
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 32 - Cohens class and smoothed WVD
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 33 - Cohens class and Ambiguity functions
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 34 - Affine class and closing remarks
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 35 - Continuous Wavelet Transform
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 36 - Continuous Wavelet Transforms
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 37 - Scale to Frequency
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 38 - Computational aspects of CWT
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 39 - Scalogram and MATLAB demonstration
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 40 - Scalogram and MATLAB demonstration
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 41 - Scaling function
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 42 - Scaling Function
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 43 - Wavelets
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 44 - Wavelets
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 45 - Applications of CWT
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 46 - Applications of CWT
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 47 - Discrete Wavelet Transform
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 48 - Discrete Wavelet Transform.
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 49 - Orthogonal scaling function bases and MRA
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 50 - Orthogonal scaling function bases and MRA.
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 51 - Wavelet Filters and Fast DWT Algorithm
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 52 - Wavelet Filters and Fast DWT Algorithm (Continued...)
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 53 - Wavelet Filters and Fast DWT Algorithm (Continued...)
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 54 - Wavelets for DWT
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 55 - Wavelets for DWT (Continued...)
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 56 - Wavelets for DWT (Continued...)
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 57 - DWT computation
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 58 - DWT computation (Continued...)
Link NOC:Introduction to Time-Frequency Analysis and Wavelet Transforms Lecture 59 - DWT computation (Continued...)
Link Chemical Engineering Principles of CVD Processes Lecture 1 - Introduction
Link Chemical Engineering Principles of CVD Processes Lecture 2 - CVD Reactor and Process Design Fundamentals
Link Chemical Engineering Principles of CVD Processes Lecture 3 - Overview of CVD Process Fundamentals
Link Chemical Engineering Principles of CVD Processes Lecture 4 - Basics of Chemical Equilibrium Calculations and Flow Dynamics
Link Chemical Engineering Principles of CVD Processes Lecture 5 - Introduction to CVD Films
Link Chemical Engineering Principles of CVD Processes Lecture 6 - Film Structure and Properties
Link Chemical Engineering Principles of CVD Processes Lecture 7 - Pressure Effects on CVD Processes
Link Chemical Engineering Principles of CVD Processes Lecture 8 - CVD of Metals
Link Chemical Engineering Principles of CVD Processes Lecture 9 - CVD of Coatings
Link Chemical Engineering Principles of CVD Processes Lecture 10 - CVD Film Property Measurements
Link Chemical Engineering Principles of CVD Processes Lecture 11 - CVD Film Property Measurements: Qualitative and Quantitative
Link Chemical Engineering Principles of CVD Processes Lecture 12 - CVD in Tungsten Filament Lamps
Link Chemical Engineering Principles of CVD Processes Lecture 13 - CVD in Tungsten Filament Lamps: Design Aspects
Link Chemical Engineering Principles of CVD Processes Lecture 14 - CVD in Hot Corrosion
Link Chemical Engineering Principles of CVD Processes Lecture 15 - CVD Transport Phenomena: Conservation Equations
Link Chemical Engineering Principles of CVD Processes Lecture 16 - CVD Transport Phenomena: Constitutive Laws
Link Chemical Engineering Principles of CVD Processes Lecture 17 - CVD Transport Phenomena: Mass Transfer Mechanisms
Link Chemical Engineering Principles of CVD Processes Lecture 18 - CVD Transport Phenomena: Mass Transfer Analogy Condition (MTAC)
Link Chemical Engineering Principles of CVD Processes Lecture 19 - CVD Transport Phenomena: Effect of Homogeneous Reactions on MTAC
Link Chemical Engineering Principles of CVD Processes Lecture 20 - CVD Applications: Hot Filament CVD (HFCVD)
Link Chemical Engineering Principles of CVD Processes Lecture 21 - CVD Applications: Aerosol CVD (ACVD)
Link Chemical Engineering Principles of CVD Processes Lecture 22 - CVD Applications: CVD of Silicon
Link Chemical Engineering Principles of CVD Processes Lecture 23 - CVD Applications: CVD in Free-Molecular Flow Regime (FMFR)
Link Chemical Engineering Principles of CVD Processes Lecture 24 - CVD Applications: CVD of nano-Structured Films
Link Chemical Engineering Principles of CVD Processes Lecture 25 - CVD Overview
Link Chemical Engineering Principles of CVD Processes Lecture 26 - Review of CVD Basics: Part-I (PDF Lecture)
Link Chemical Engineering Principles of CVD Processes Lecture 27 - Review of CVD Basics: Part-II (PDF Lecture)
Link Chemical Engineering Principles of CVD Processes Lecture 28 - CVD Question Bank (PDF Lecture)
Link Chemical Engineering Principles of CVD Processes Lecture 29 - Basics of Nano-Structured Material Synthesis: Part-I
Link Chemical Engineering Principles of CVD Processes Lecture 30 - Basics of Nano-Structured Material Synthesis: Part-II
Link Chemical Engineering Principles of CVD Processes Lecture 31 - Undesirable CVD: Bulb-Blackening (Adobe Presenter)
Link Chemical Engineering Principles of CVD Processes Lecture 32 - Undesirable CVD: Moolten Salt Deposition in Combustion Systems (Adobe Presenter)
Link Chemical Engineering Principles of CVD Processes Lecture 33 - Undesirable CVD: Hot Corrosion (Adobe Presenter)
Link Chemical Engineering Principles of CVD Processes Lecture 34 - Multi-component Transport Fundamentals: Assumptions and Control Volumes (Adobe Presenter)
Link Chemical Engineering Principles of CVD Processes Lecture 35 - Multi-component Transport Fundamentals: Mass Conservation Equations (Adobe Presenter)
Link Chemical Engineering Principles of CVD Processes Lecture 36 - Multi-component Transport Fundamentals: Momentum and Energy Conservation (Adobe Presenter)
Link Chemical Engineering Principles of CVD Processes Lecture 37 - Multi-component Transport Fundamentals: Entropy conservation (Adobe Presenter)
Link Chemical Engineering Principles of CVD Processes Lecture 38 - Multi-component Transport Fundamentals: Constitutive Laws for Mass and Momentum (Adobe Presenter)
Link Chemical Engineering Principles of CVD Processes Lecture 39 - Multi-component Transport Fundamentals: Constitutive Laws for Energy and Entropy (Adobe Presenter)
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 1 - Motivation and Introduction - Part I
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 2 - Motivation and Introduction - Part II
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 3 - What is Chemical Engineering - Part I
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 4 - What is Chemical Engineering - Part II
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 5 - What is Chemical Reaction Engineering - Part I
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 6 - What is Chemical Reaction Engineering - Part II
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 7 - Homogeneous and Heterogeneous Reactions - Part I
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 8 - Homogeneous and Heterogeneous Reactions - Part II
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 9 - Basics of Kinetics and Contacting
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 10 - Design of Batch reactors - Part I
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 11 - Design of Batch reactors - Part II
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 12 - Basics of Plug Flow Reactor - Part I
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 13 - Basics of Plug Flow Reactor - Part II
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 14 - Design of Plug Flow Reactors - Part I
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 15 - Design of Plug Flow Reactors - Part II
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 16 - Basics of Mixed Flow Reactors
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 17 - Design of Mixed Flow Reactors
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 18 - Basics of Kinetics
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 19 - Kinetics of Heterogeneous reactions - Part I
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 20 - Kinetics of Heterogeneous reactions - Part II
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 21 - Kinetics of Heterogeneous reactions - Part III
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 22 - Kinetics of Homogeneous reactions
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 23 - Reaction rate for Homogeneous reactions
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 24 - Gas Phase Homogeneous reactions
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 25 - (Continued...) And later Reactor Design of PFR
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 26 - Reactor Design for MFR and Combination of reactors
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 27 - PFR and MFR in series.
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 28 - Unsteady state MFR and PFR
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 29 - Recycle Reactors
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 30 - Recycle Reactors (Autocatalytic reactions) - Part I
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 31 - Recycle Reactors (Autocatalytic reactions) - Part II
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 32 - Multiple Reactions - Part I
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 33 - Multiple Reactions - Part II
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 34 - Multiple Reactions - Part III
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 35 - Multiple Reactions - Part IV
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 36 - Multiple Reactions - Part V
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 37 - Multiple Reactions - Part VI
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 38 - Non-Isothermal Reactors - Part I
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 39 - Non-Isothermal Reactors - Part II
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 40 - Non-Isothermal Reactors (Graphical Design)
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 41 - Non-Isothermal Reactors contd. & Adiabatic Reactors
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 42 - Non-Isothermal Reactors (Graphical Design) (Continued...)
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 43 - Non-Isothermal Batch Reactors
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 44 - Non-isothermal Plug Flow Reactors - Part I
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 45 - Non-isothermal Plug Flow Reactors - Part II
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 46 - Adiabatic Plug Flow Reactors
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 47 - Non-isothermal Mixed Flow Reactors
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 48 - Non-isothermal Mixed Flow Reactors (Continued...) (Multiple steady states) - Part I
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 49 - Non-isothermal Mixed Flow Reactors (Continued...) (Multiple steady states) - Part II
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 50 - Non-Ideal Flow and Residence Time Distributions (RTD) basics - Part I
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 51 - Non-Ideal Flow and Residence Time Distributions (RTD) basics - Part II
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 52 - RTD for various reactors (Continued...) Part I
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 53 - RTD for various reactors (Continued...) Part II
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 54 - Diagnosing the ills of equipments and Various RTD Models
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 55 - Dispersion Model
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 56 - Dispersion with reaction Model and Tanks in Series Model
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 57 - Multi-parameter model (MFR with dead space and bypass)
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 58 - Direct use of RTD to predict conversion (Macro and Micro-fluid as well as Macro & Micro-mixing Concept) Part I
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 59 - Direct use of RTD to predict conversion (Macro and Micro-fluid as well as Macro & Micro-mixing Concept) Part II
Link Chemical Reaction Engineering 1 (Homogeneous Reactors) Lecture 60 - Direct use of RTD to predict conversion (Macro and Micro-fluid as well as Macro & Micro-mixing Concept) Part III
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 1 - Introduction to Kinetics (Gas solid non-catalytic reaction)
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 2 - Intro to Kinetics (Continued...) for catalytic reactions in different reactors
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 3 - Heterogeneous rate of reactions and different types of kinetic models for non-catalytic reactions
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 4 - Basics of Kinetics of type A & B reactions (Shrinking core model & Porous particle homogeneous model)
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 5 - Shrinking Core Model (Continued...)
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 6 - Shrinking Core Model (Continued...)
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 7 - (Continued...) & Proof of Pseudo steady state assumption
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 8 - Shrinking core model (Continued...) for type D reactions
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 9 - Shrinking core model (Continued...) for type D reactions (Continued...)
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 10 - Reactors, Homogeneous reaction model, Design of non-catalytic gas solid reactors
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 11 - Design of non-catalytic gas solid reactors (Continued...)
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 12 - Design of non-catalytic gas solid reactors (Continued...)
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 13 - Design equation for MF of solids, uniform gas composition, const. single particle size, Shrinking core model.
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 14 - Design equation for MF of solids, mixture of particles for different sizes but unchanging size, uniform gas composition, SCM
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 15 - Design equation for MF of solids with elutriation, mixture of particles of different size, uniform gas composition, SCM
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 16 - General Performance equation for non-catalytic gas solid reactions
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 17 - Catalytic reactions (LHHW Kinetic model)
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 18 - LHHW Kinetic model (Continued...) - Part I
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 19 - LHHW Kinetic model (Continued...) - Part II
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 20 - Industrially important catalytic reaction models
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 21 - Inter and Intraphase effectiveness fator
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 22 - Interface effectiveness factor & Generalized nonisothermal effectiveness factor for external mass transfer step…
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 23 - Generalized nonisothermal effectiveness factor for external mass transfer step (Continued...)
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 24 - Mass transfer correlations for various reactors
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 25 - Isothermal intraphase effectiveness factor - Part I
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 26 - Isothermal intraphase effectiveness factor - Part II
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 27 - Non-isothermal intraphase effectiveness factor
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 28 - Inter and Intraphase effectiveness factor (Continued...)
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 29 - Inter and Intraphase Mass transfer
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 30 - Packed (fixed) bed catalytic reactor design
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 31 - Graphical design of Fixed bed reactors
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 32 - Packed Bed Design (Continued...)
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 33 - Design equations for Packed bed reactor design
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 34 - Conservative Equations for Packed bed Reactor design
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 35 - Problem solving session
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 36 - Fluidized Bed Reactor Design - Part I
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 37 - Fluidized Bed Reactor Design - Part II
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 38 - Fluidized Bed Reactor Design - Part III
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 39 - Fluidized Bed Reactor Design - Part IV
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 40 - Continued... (Fluidized bed reactor Models)
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 41 - Continued... (Davidson Harrison model and Kunii Levenspiel model)
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 42 - Continued... (Kunii Levenspiel Model)
Link Chemical Reaction Engineering 2 (Heterogeneous Reactors) Lecture 43 - Slurry Reactor Design
Link NOC:MATLAB Programming for Numerical Computation Lecture 1 - Course Introduction
Link NOC:MATLAB Programming for Numerical Computation Lecture 2 - Basics of Programming using MATLAB
Link NOC:MATLAB Programming for Numerical Computation Lecture 3 - Array Operations in MATLAB
Link NOC:MATLAB Programming for Numerical Computation Lecture 4 - Loops and Execution Control
Link NOC:MATLAB Programming for Numerical Computation Lecture 5 - Tutorial: Using Arrays
Link NOC:MATLAB Programming for Numerical Computation Lecture 6 - MATLAB Files -- Scripts and Functions
Link NOC:MATLAB Programming for Numerical Computation Lecture 7 - Plotting and Output
Link NOC:MATLAB Programming for Numerical Computation Lecture 8 - How to submit MATLAB Assignment
Link NOC:MATLAB Programming for Numerical Computation Lecture 9 - Errors in Numerical Computation
Link NOC:MATLAB Programming for Numerical Computation Lecture 10 - Truncation Errors and Taylors Series
Link NOC:MATLAB Programming for Numerical Computation Lecture 11 - Round-Off Errors; and Iterative Methods
Link NOC:MATLAB Programming for Numerical Computation Lecture 12 - Step-wise Methods and Error Propagation
Link NOC:MATLAB Programming for Numerical Computation Lecture 13 - How to get MATLAB Online access (for all enrolled students of this course)
Link NOC:MATLAB Programming for Numerical Computation Lecture 14 - Differentiation in Single Variable
Link NOC:MATLAB Programming for Numerical Computation Lecture 15 - Higher Order Differentiation Formulae
Link NOC:MATLAB Programming for Numerical Computation Lecture 16 - Partial Differentials (Bonus)
Link NOC:MATLAB Programming for Numerical Computation Lecture 17 - Numerical Integration
Link NOC:MATLAB Programming for Numerical Computation Lecture 18 - Multiple Applications of Integration Formulae
Link NOC:MATLAB Programming for Numerical Computation Lecture 19 - In-Build MATLAB Integration Functions
Link NOC:MATLAB Programming for Numerical Computation Lecture 20 - Basics of Linear Algebra
Link NOC:MATLAB Programming for Numerical Computation Lecture 21 - Gauss Elimination and Back-Substitution
Link NOC:MATLAB Programming for Numerical Computation Lecture 22 - LU Decomposition and Partial Pivoting
Link NOC:MATLAB Programming for Numerical Computation Lecture 23 - Gauss Siedel Method
Link NOC:MATLAB Programming for Numerical Computation Lecture 24 - (Tutorial)
Link NOC:MATLAB Programming for Numerical Computation Lecture 25 - Tri-Diagonal Matrix Algorithm
Link NOC:MATLAB Programming for Numerical Computation Lecture 26 - Nonlinear Equations in Single Variable
Link NOC:MATLAB Programming for Numerical Computation Lecture 27 - Using MATLAB command fzero
Link NOC:MATLAB Programming for Numerical Computation Lecture 28 - Fixed Point Iteration in Single Variable
Link NOC:MATLAB Programming for Numerical Computation Lecture 29 - Newton-Raphson (single variable)
Link NOC:MATLAB Programming for Numerical Computation Lecture 30 - Using MATLAB command fsolve (multi-variable)
Link NOC:MATLAB Programming for Numerical Computation Lecture 31 - Newton-Raphson (multi Variable)
Link NOC:MATLAB Programming for Numerical Computation Lecture 32 - Introduction
Link NOC:MATLAB Programming for Numerical Computation Lecture 33 - Linear Least Squares Regression
Link NOC:MATLAB Programming for Numerical Computation Lecture 34 - Nonlinear and Functional Regression
Link NOC:MATLAB Programming for Numerical Computation Lecture 35 - Interpolation Functions in MATLAB
Link NOC:MATLAB Programming for Numerical Computation Lecture 36 - Introduction and Euler\'s Method
Link NOC:MATLAB Programming for Numerical Computation Lecture 37 - Runge-Kutta (RK-2) method
Link NOC:MATLAB Programming for Numerical Computation Lecture 38 - MATLAB ode45 algorithm
Link NOC:MATLAB Programming for Numerical Computation Lecture 39 - Higher order Runge-Kutta Methods
Link NOC:MATLAB Programming for Numerical Computation Lecture 40 - Error Analysis
Link NOC:MATLAB Programming for Numerical Computation Lecture 41 - Multi-Variable ODE
Link NOC:MATLAB Programming for Numerical Computation Lecture 42 - Stiff Systems & Solution using ode15s
Link NOC:MATLAB Programming for Numerical Computation Lecture 43 - Method of Lines for transient PDEs
Link NOC:MATLAB Programming for Numerical Computation Lecture 44 - A Final Example
Link NOC:MATLAB Programming for Numerical Computation Lecture 45 - Tutorial: How to do linear and nonlinear regression
Link NOC:Computational Fluid Dynamics Lecture 1 - Motivation
Link NOC:Computational Fluid Dynamics Lecture 2 - Flow in a rectangular duct: Problem formulation
Link NOC:Computational Fluid Dynamics Lecture 3 - Flow in a rectangular duct: Discretiztion of flow domain
Link NOC:Computational Fluid Dynamics Lecture 4 - Tutorial 1: Converting PDE to algebraic equation using FD approximation
Link NOC:Computational Fluid Dynamics Lecture 5 - Tutorial 1 (Continued...) Solution for algebraic equations using Gauss- Seidel Method
Link NOC:Computational Fluid Dynamics Lecture 6 - Flow in a triangular duct: Problem formulation
Link NOC:Computational Fluid Dynamics Lecture 7 - Flow in a triangular duct: Discretiztion of flow domain
Link NOC:Computational Fluid Dynamics Lecture 8 - Tutorial 2: Converting PDE to algebraic equation using Finite Volume method
Link NOC:Computational Fluid Dynamics Lecture 9 - Tutorial 2 (Continued...) Description of FV method and solution using G-S Method
Link NOC:Computational Fluid Dynamics Lecture 10 - Effect of grid spacing & upcoming course outline
Link NOC:Computational Fluid Dynamics Lecture 11 - Mass conservation equations
Link NOC:Computational Fluid Dynamics Lecture 12 - Momentum conservation equations
Link NOC:Computational Fluid Dynamics Lecture 13 - Forces acting on control volume
Link NOC:Computational Fluid Dynamics Lecture 14 - Kinematics of deformation in fluid flow
Link NOC:Computational Fluid Dynamics Lecture 15 - Equations governing fluid flow in incompressible fluid
Link NOC:Computational Fluid Dynamics Lecture 16 - Navier-Stokes equation for simple cases of flow
Link NOC:Computational Fluid Dynamics Lecture 17 - Energy conservation equations
Link NOC:Computational Fluid Dynamics Lecture 18 - Practical cases of fluid flow with heat transfer in CFD point of view
Link NOC:Computational Fluid Dynamics Lecture 19 - Practical cases of fluid flow with mass transfer in CFD point of view
Link NOC:Computational Fluid Dynamics Lecture 20 - Equations governing fluid flow with chemical reactions
Link NOC:Computational Fluid Dynamics Lecture 21 - Concept of wellposedness of mathematical problems
Link NOC:Computational Fluid Dynamics Lecture 22 - Introduction to finite difference methods
Link NOC:Computational Fluid Dynamics Lecture 23 - Finite difference approximation on an uniform mesh
Link NOC:Computational Fluid Dynamics Lecture 24 - Higher order and mixed derivatives
Link NOC:Computational Fluid Dynamics Lecture 25 - Solution of Poisson equation in rectangular duct-Turorial
Link NOC:Computational Fluid Dynamics Lecture 26 - Discretization of time domain
Link NOC:Computational Fluid Dynamics Lecture 27 - FD approx. on a non-uniform mesh and need of analysis of obtained discretization
Link NOC:Computational Fluid Dynamics Lecture 28 - Need for the analysis of discretized equation
Link NOC:Computational Fluid Dynamics Lecture 29 - Properties of Numerical Schemes: Accuracy, Conservation property, Boundedness, Consistency, Stability and Convergence
Link NOC:Computational Fluid Dynamics Lecture 30 - Properties of Numerical Schemes: Stability analysis
Link NOC:Computational Fluid Dynamics Lecture 31 - Tutorial on Stability Analysis
Link NOC:Computational Fluid Dynamics Lecture 32 - Analysis of Generic 1-d scalar transport equation
Link NOC:Computational Fluid Dynamics Lecture 33 - Introduction to the solution of coupled N-S equations
Link NOC:Computational Fluid Dynamics Lecture 34 - N-S equation in compressible flow- Mac Cormack Scheme
Link NOC:Computational Fluid Dynamics Lecture 35 - Stability limits of Mac-Cormack Scheme and the intro to Beam-Warming Scheme
Link NOC:Computational Fluid Dynamics Lecture 36 - Implicit Beam-Warming Scheme
Link NOC:Computational Fluid Dynamics Lecture 37 - Compressible flow to Incompressible flow
Link NOC:Computational Fluid Dynamics Lecture 38 - Solution of coupled equations: Incompressible flow
Link NOC:Computational Fluid Dynamics Lecture 39 - Artificial compressiblity method, Stream function-vorticity method
Link NOC:Computational Fluid Dynamics Lecture 40 - Pressure equation method, Staggered grid system
Link NOC:Computational Fluid Dynamics Lecture 41 - Pressure Correction Method
Link NOC:Computational Fluid Dynamics Lecture 42 - Tutorial on Pressure Correction Method
Link NOC:Computational Fluid Dynamics Lecture 43 - Tutorial on Pressure Correction Method (Continued...)
Link NOC:Computational Fluid Dynamics Lecture 44 - Introduction to the basic numerical methods
Link NOC:Computational Fluid Dynamics Lecture 45 - Direct Methods: solution of the system of algebraic equations
Link NOC:Computational Fluid Dynamics Lecture 46 - Tri-diagonal Matrix Algorithm: Derivation
Link NOC:Computational Fluid Dynamics Lecture 47 - TDMA and other iterative methods
Link NOC:Computational Fluid Dynamics Lecture 48 - Recap of basic iterative methods.
Link NOC:Computational Fluid Dynamics Lecture 49 - Convergence analysis of basic iterative methods
Link NOC:Computational Fluid Dynamics Lecture 50 - Successive Over Relaxation (SOR) method
Link NOC:Computational Fluid Dynamics Lecture 51 - Alternating Direction Implicit (ADI) method
Link NOC:Computational Fluid Dynamics Lecture 52 - Strongly Implicit Procedure (ILU) method
Link NOC:Computational Fluid Dynamics Lecture 53 - Multigrid method
Link NOC:Computational Fluid Dynamics Lecture 54 - Body Fitted Grid Approach
Link NOC:Computational Fluid Dynamics Lecture 55 - Formulation Of Finite Volume Method
Link NOC:Computational Fluid Dynamics Lecture 56 - Methods For Unstructured Grid Generation
Link NOC:Computational Fluid Dynamics Lecture 57 - Triangulation: The Advancing Front Method
Link NOC:Computational Fluid Dynamics Lecture 58 - The Advancing Front Method continuation
Link NOC:Computational Fluid Dynamics Lecture 59 - Time and length scale of turbulance
Link NOC:Computational Fluid Dynamics Lecture 60 - The turbulent closure problem
Link NOC:Computational Fluid Dynamics Lecture 61 - The generic formulation for turbulence
Link NOC:Computational Fluid Dynamics Lecture 62 - More generic formulation and summary
Link NOC:Introduction to Statistical Hypothesis Testing Lecture 1 - Motivation
Link NOC:Introduction to Statistical Hypothesis Testing Lecture 2 - Probability and statistics: Review - Part 1
Link NOC:Introduction to Statistical Hypothesis Testing Lecture 3 - Probability and Statistics: Review - Part 2
Link NOC:Introduction to Statistical Hypothesis Testing Lecture 4 - R Tutorial 1
Link NOC:Introduction to Statistical Hypothesis Testing Lecture 5 - Statistics for Hypothesis Testing - Part 1
Link NOC:Introduction to Statistical Hypothesis Testing Lecture 6 - Statistics for Hypothesis Testing - Part 2
Link NOC:Introduction to Statistical Hypothesis Testing Lecture 7 - Statistics for sample mean
Link NOC:Introduction to Statistical Hypothesis Testing Lecture 8 - Statistics for Variance and Proportion
Link NOC:Introduction to Statistical Hypothesis Testing Lecture 9 - Type I and Type II errors
Link NOC:Introduction to Statistical Hypothesis Testing Lecture 10 - p value
Link NOC:Introduction to Statistical Hypothesis Testing Lecture 11 - Hypothesis testing of means
Link NOC:Introduction to Statistical Hypothesis Testing Lecture 12 - Hypothesis testing of variance and proportions
Link NOC:Introduction to Statistical Hypothesis Testing Lecture 13 - Confidence interval construction
Link NOC:Introduction to Statistical Hypothesis Testing Lecture 14 - Hypothesis testing using confidence interval
Link NOC:Introduction to Statistical Hypothesis Testing Lecture 15 - Hypothesis testing of correlation
Link NOC:Introduction to Statistical Hypothesis Testing Lecture 16 - Statistic for linear regression
Link NOC:Introduction to Statistical Hypothesis Testing Lecture 17 - Hypothesis testing in linear regression
Link NOC:Introduction to Statistical Hypothesis Testing Lecture 18 - Power of hypothesis test
Link NOC:Introduction to Statistical Hypothesis Testing Lecture 19 - Factors affecting hypothesis test
Link NOC:Applied Time-Series Analysis Lecture 1 - Lecture 1 - Part 1 - Motivation and Overview 1
Link NOC:Applied Time-Series Analysis Lecture 2 - Lecture 1 - Part 2 - Motivation and Overview 2
Link NOC:Applied Time-Series Analysis Lecture 3 - Lecture 2 - Part 1 - Motivation and Overview 3
Link NOC:Applied Time-Series Analysis Lecture 4 - Lecture 2 - Part 2 - Motivation and Overview 4
Link NOC:Applied Time-Series Analysis Lecture 5 - Lecture 3 - Part 1 - Motivation and Overview 5
Link NOC:Applied Time-Series Analysis Lecture 6 - Lecture 3 - Part 2 - Motivation and Overview 6
Link NOC:Applied Time-Series Analysis Lecture 7 - Lecture 4 - Part 1 - Probability and Statistics Review 1A
Link NOC:Applied Time-Series Analysis Lecture 8 - Lecture 4 - Part 2 - Probability and Statistics Review 1B
Link NOC:Applied Time-Series Analysis Lecture 9 - Lecture 5 - Part 1 - Probability and Statistics Review 1C
Link NOC:Applied Time-Series Analysis Lecture 10 - Lecture 5 - Part 2 - Probability and Statistics Review 1D
Link NOC:Applied Time-Series Analysis Lecture 11 - Lecture 6 - Part 1 - Probability and Statistics Review 2A
Link NOC:Applied Time-Series Analysis Lecture 12 - Lecture 6 - Part 2 - Probability and Statistics Review 2B
Link NOC:Applied Time-Series Analysis Lecture 13 - Lecture 6 - Part 3 - Probability and Statistics Review 2C
Link NOC:Applied Time-Series Analysis Lecture 14 - Lecture 7 - Part 1 - Probability and Statistics Review 2D
Link NOC:Applied Time-Series Analysis Lecture 15 - Lecture 7 - Part 2 - Probability and Statistics Review 2E
Link NOC:Applied Time-Series Analysis Lecture 16 - Lecture 7 - Part 3 - Probability and Statistics Review 2F
Link NOC:Applied Time-Series Analysis Lecture 17 - Lecture 8 - Part 1 - Probability and Statistics Review 2G (with R Demonstration)
Link NOC:Applied Time-Series Analysis Lecture 18 - Lecture 8 - Part 2 - Probability and Statistics Review 2H (with R Demonstration)
Link NOC:Applied Time-Series Analysis Lecture 19 - Lecture 9 - Part 1 - Probability and Statistics Review 2I
Link NOC:Applied Time-Series Analysis Lecture 20 - Lecture 9 - Part 2 - Probability and Statistics Review 2J
Link NOC:Applied Time-Series Analysis Lecture 21 - Lecture 9 - Part 3 - Introduction to Random Processes 1
Link NOC:Applied Time-Series Analysis Lecture 22 - Lecture 10 - Part 1 - Introduction to Random Processes 2
Link NOC:Applied Time-Series Analysis Lecture 23 - Lecture 10 - Part 2 - Introduction to Random Processes 3
Link NOC:Applied Time-Series Analysis Lecture 24 - Lecture 11 - Part 1 - Introduction to Random Processes 4
Link NOC:Applied Time-Series Analysis Lecture 25 - Lecture 11 - Part 2 - Introduction to Random Processes 5
Link NOC:Applied Time-Series Analysis Lecture 26 - Lecture 11 - Part 3 - Autocovariance & Autocorrelation Functions 1
Link NOC:Applied Time-Series Analysis Lecture 27 - Lecture 12 - Part 1 - Autocovariance & Autocorrelation Functions 2
Link NOC:Applied Time-Series Analysis Lecture 28 - Lecture 12 - Part 2 - Autocovariance & Autocorrelation Functions 3
Link NOC:Applied Time-Series Analysis Lecture 29 - Lecture 13 - Part 1 - Autocovariance & Autocorrelation Functions 4
Link NOC:Applied Time-Series Analysis Lecture 30 - Lecture 13 - Part 2 - Autocovariance & Autocorrelation Functions 5
Link NOC:Applied Time-Series Analysis Lecture 31 - Lecture 13 - Part 3 - Autocovariance & Autocorrelation Functions 6
Link NOC:Applied Time-Series Analysis Lecture 32 - Lecture 14 - Part 1 - Autocovariance & Autocorrelation Functions 7
Link NOC:Applied Time-Series Analysis Lecture 33 - Lecture 14 - Part 2 - Autocovariance & Autocorrelation Functions 8
Link NOC:Applied Time-Series Analysis Lecture 34 - Lecture 15 - Part 1 - Autocovariance & Autocorrelation Functions 9
Link NOC:Applied Time-Series Analysis Lecture 35 - Lecture 15 - Part 2 - Partial Autocorrelation Functions
Link NOC:Applied Time-Series Analysis Lecture 36 - Lecture 16 - Part 1 - Autocorrelation and Partial-autocorrelation Functions (with R Demonstration)
Link NOC:Applied Time-Series Analysis Lecture 37 - Lecture 16 - Part 2 - Models for Linear Stationary Processes 1
Link NOC:Applied Time-Series Analysis Lecture 38 - Lecture 17 - Part 1 - Models for Linear Stationary Processes 2
Link NOC:Applied Time-Series Analysis Lecture 39 - Lecture 17 - Part 2 - Models for Linear Stationary Processes 3
Link NOC:Applied Time-Series Analysis Lecture 40 - Lecture 18 - Part 1 - Models for Linear Stationary Processes 4
Link NOC:Applied Time-Series Analysis Lecture 41 - Lecture 18 - Part 2 - Models for Linear Stationary Processes 5
Link NOC:Applied Time-Series Analysis Lecture 42 - Lecture 18 - Part 3 - Models for Linear Stationary Processes 6
Link NOC:Applied Time-Series Analysis Lecture 43 - Lecture 19 - Part 1 - Models for Linear Stationary Processes 7
Link NOC:Applied Time-Series Analysis Lecture 44 - Lecture 19 - Part 2 - Models for Linear Stationary Processes 8
Link NOC:Applied Time-Series Analysis Lecture 45 - Lecture 19 - Part 3 - Models for Linear Stationary Processes 9
Link NOC:Applied Time-Series Analysis Lecture 46 - Lecture 20 - Part 1 - Models for Linear Stationary Processes 10
Link NOC:Applied Time-Series Analysis Lecture 47 - Lecture 20 - Part 2 - Models for Linear Stationary Processes 11
Link NOC:Applied Time-Series Analysis Lecture 48 - Lecture 21 - Part 1 - Models for Linear Stationary Processes 12
Link NOC:Applied Time-Series Analysis Lecture 49 - Lecture 21 - Part 2 - Models for Linear Stationary Processes 13
Link NOC:Applied Time-Series Analysis Lecture 50 - Lecture 22 - Part 1 - Models for Linear Stationary Processes 14 (with R Demonstrations)
Link NOC:Applied Time-Series Analysis Lecture 51 - Lecture 22 - Part 2 - Models for Linear Stationary Processes 15 (with R Demonstrations)
Link NOC:Applied Time-Series Analysis Lecture 52 - Lecture 22 - Part 3 - Models for Linear Stationary Processes 16 (with R Demonstrations)
Link NOC:Applied Time-Series Analysis Lecture 53 - Lecture 23 - Part 1 - Models for Linear Non-stationary Processes 1
Link NOC:Applied Time-Series Analysis Lecture 54 - Lecture 23 - Part 2 - Models for Linear Non-stationary Processes 2 (with R Demonstrations)
Link NOC:Applied Time-Series Analysis Lecture 55 - Lecture 24 - Part 1 - Models for Linear Non-stationary Processes 3 (with R Demonstrations)
Link NOC:Applied Time-Series Analysis Lecture 56 - Lecture 24 - Part 2 - Models for Linear Non-stationary Processes 4
Link NOC:Applied Time-Series Analysis Lecture 57 - Lecture 25 - Part 1 - Models for Linear Non-stationary Processes 5
Link NOC:Applied Time-Series Analysis Lecture 58 - Lecture 25 - Part 2 - Models for Linear Non-stationary Processes 6 (with R Demonstrations)
Link NOC:Applied Time-Series Analysis Lecture 59 - Lecture 26 - Part 1 - Fourier Transforms for Deterministic Signals 1
Link NOC:Applied Time-Series Analysis Lecture 60 - Lecture 26 - Part 2 - Fourier Transforms for Deterministic Signals 2
Link NOC:Applied Time-Series Analysis Lecture 61 - Lecture 27 - Part 1 - Fourier Transforms for Deterministic Signals 3
Link NOC:Applied Time-Series Analysis Lecture 62 - Lecture 27 - Part 2 - Fourier Transforms for Deterministic Signals 4
Link NOC:Applied Time-Series Analysis Lecture 63 - Lecture 28 - Part 1 - Fourier Transforms for Deterministic Signals 5
Link NOC:Applied Time-Series Analysis Lecture 64 - Lecture 28 - Part 2 - Fourier Transforms for Deterministic Signals 6
Link NOC:Applied Time-Series Analysis Lecture 65 - Lecture 29 - Part 1 - Fourier Transforms for Deterministic Signals 7
Link NOC:Applied Time-Series Analysis Lecture 66 - Lecture 29 - Part 2 - Fourier Transforms for Deterministic Signals 8
Link NOC:Applied Time-Series Analysis Lecture 67 - Lecture 30 - Part 1 - Fourier Transforms for Deterministic Signals 9
Link NOC:Applied Time-Series Analysis Lecture 68 - Lecture 30 - Part 2 - DFT and Periodogram 1
Link NOC:Applied Time-Series Analysis Lecture 69 - Lecture 31 - Part 1 - DFT and Periodogram 2
Link NOC:Applied Time-Series Analysis Lecture 70 - Lecture 31 - Part 2 - DFT and Periodogram 3 (with R Demonstrations)
Link NOC:Applied Time-Series Analysis Lecture 71 - Lecture 32 - Part 1 - Spectral Representations of Random Processes 1
Link NOC:Applied Time-Series Analysis Lecture 72 - Lecture 32 - Part 2 - Spectral Representations of Random Processes 2
Link NOC:Applied Time-Series Analysis Lecture 73 - Lecture 33 - Part 1 - Spectral Representations of Random Processes 3
Link NOC:Applied Time-Series Analysis Lecture 74 - Lecture 33 - Part 2 - Spectral Representations of Random Processes 4
Link NOC:Applied Time-Series Analysis Lecture 75 - Lecture 33 - Part 3 - Spectral Representations of Random Processes 5
Link NOC:Applied Time-Series Analysis Lecture 76 - Lecture 34 - Part 1 - Spectral Representations of Random Processes 6
Link NOC:Applied Time-Series Analysis Lecture 77 - Lecture 34 - Part 2 - Spectral Representations of Random Processes 7
Link NOC:Applied Time-Series Analysis Lecture 78 - Lecture 35 - Part 1 - Introduction to Estimation Theory 1
Link NOC:Applied Time-Series Analysis Lecture 79 - Lecture 35 - Part 2 - Introduction to Estimation Theory 2
Link NOC:Applied Time-Series Analysis Lecture 80 - Lecture 35 - Part 3 - Introduction to Estimation Theory 3
Link NOC:Applied Time-Series Analysis Lecture 81 - Lecture 36A - Introduction to Estimation Theory -4
Link NOC:Applied Time-Series Analysis Lecture 82 - Lecture 36B - Goodness of Estimators 1 - 1
Link NOC:Applied Time-Series Analysis Lecture 83 - Lecture 37A - Goodness of Estimators 1 - 2
Link NOC:Applied Time-Series Analysis Lecture 84 - Lecture 37B - Goodness of Estimators 1 - 3
Link NOC:Applied Time-Series Analysis Lecture 85 - Lecture 37C - Goodness of Estimators 1 - 4
Link NOC:Applied Time-Series Analysis Lecture 86 - Lecture 38A - Goodness of Estimators 2 - 1
Link NOC:Applied Time-Series Analysis Lecture 87 - Lecture 38B - Goodness of Estimators 2 - 2
Link NOC:Applied Time-Series Analysis Lecture 88 - Lecture 38C - Goodness of Estimators 2 - 3
Link NOC:Applied Time-Series Analysis Lecture 89 - Lecture 39A - Goodness of Estimators 2 - 4
Link NOC:Applied Time-Series Analysis Lecture 90 - Lecture 39B - Goodness of Estimators 2 - 5 (with R demonstrations)
Link NOC:Applied Time-Series Analysis Lecture 91 - Lecture 39C - Goodness of Estimators 2 - 6
Link NOC:Applied Time-Series Analysis Lecture 92 - Lecture 40A - Goodness of Estimators 2 - 7
Link NOC:Applied Time-Series Analysis Lecture 93 - Lecture 40B - Goodness of Estimators 2 - 8
Link NOC:Applied Time-Series Analysis Lecture 94 - Lecture 41A - Estimation Methods 1 - 1
Link NOC:Applied Time-Series Analysis Lecture 95 - Lecture 41B - Estimation Methods 1 - 2
Link NOC:Applied Time-Series Analysis Lecture 96 - Lecture 42A - Estimation Methods 1 - 3
Link NOC:Applied Time-Series Analysis Lecture 97 - Lecture 42B - Estimation Methods 1 - 4
Link NOC:Applied Time-Series Analysis Lecture 98 - Lecture 42C - Estimation Methods 1 - 5
Link NOC:Applied Time-Series Analysis Lecture 99 - Lecture 43A - Estimation Methods 1 - 6 (with R demonstrations)
Link NOC:Applied Time-Series Analysis Lecture 100 - Lecture 43B - Estimation Methods 1 - 7 (with R demonstrations)
Link NOC:Applied Time-Series Analysis Lecture 101 - Lecture 44A - Estimation Methods 1 - 8
Link NOC:Applied Time-Series Analysis Lecture 102 - Lecture 44B - Estimation Methods 1 - 9
Link NOC:Applied Time-Series Analysis Lecture 103 - Lecture 44C - Estimation Methods 2 - 1
Link NOC:Applied Time-Series Analysis Lecture 104 - Lecture 45A - Estimation Methods 2 - 2
Link NOC:Applied Time-Series Analysis Lecture 105 - Lecture 45B - Estimation Methods 2 - 3
Link NOC:Applied Time-Series Analysis Lecture 106 - Lecture 46A - MLE and Bayesian Estimation - 1
Link NOC:Applied Time-Series Analysis Lecture 107 - Lecture 46B - MLE and Bayesian Estimation - 2
Link NOC:Applied Time-Series Analysis Lecture 108 - Lecture 47A - MLE and Bayesian Estimation - 3
Link NOC:Applied Time-Series Analysis Lecture 109 - Lecture 47B - MLE and Bayesian Estimation - 4
Link NOC:Applied Time-Series Analysis Lecture 110 - Lecture 48A - Estimation of Time Domain Statistics - 1
Link NOC:Applied Time-Series Analysis Lecture 111 - Lecture 48B - Estimation of Time Domain Statistics - 2
Link NOC:Applied Time-Series Analysis Lecture 112 - Lecture 49 - Periodogram as PSD Estimator
Link NOC:Rheology of Complex Materials Lecture 1 - Flow phenomena in complex materials and Microstructure - 1
Link NOC:Rheology of Complex Materials Lecture 2 - Flow phenomena in complex materials and Microstructure - 2
Link NOC:Rheology of Complex Materials Lecture 3 - Applications of rheology : mechanisms at the molecular and microscopic scales - 1
Link NOC:Rheology of Complex Materials Lecture 4 - Applications of rheology : mechanisms at the molecular and microscopic scales - 2
Link NOC:Rheology of Complex Materials Lecture 5 - Applications of rheology : some example material systems - 1
Link NOC:Rheology of Complex Materials Lecture 6 - Applications of rheology : some example material systems - 2
Link NOC:Rheology of Complex Materials Lecture 7 - Stress and strain rate - 1
Link NOC:Rheology of Complex Materials Lecture 8 - Stress and strain rate - 2
Link NOC:Rheology of Complex Materials Lecture 9 - Velocity gradient and strain rate - 1
Link NOC:Rheology of Complex Materials Lecture 10 - Velocity gradient and strain rate 1 Stress and strain rate - 3
Link NOC:Rheology of Complex Materials Lecture 11 - Kinematics for simple flows - 1
Link NOC:Rheology of Complex Materials Lecture 12 - Kinematics for simple flows - 2
Link NOC:Rheology of Complex Materials Lecture 13 - Introduction to tensors
Link NOC:Rheology of Complex Materials Lecture 14 - Rheometric flows
Link NOC:Rheology of Complex Materials Lecture 15 - Viscous response - 1
Link NOC:Rheology of Complex Materials Lecture 16 - Viscous response - 2
Link NOC:Rheology of Complex Materials Lecture 17 - Viscoelasticity - Relaxation process
Link NOC:Rheology of Complex Materials Lecture 18 - Viscoelasticity - Maxwell model
Link NOC:Rheology of Complex Materials Lecture 19 - Linear viscoelasticity - oscillatory shear - 1
Link NOC:Rheology of Complex Materials Lecture 20 - Linear viscoelasticity - oscillatory shear - 2
Link NOC:Rheology of Complex Materials Lecture 21 - Introduction to tensors - 2
Link NOC:Rheology of Complex Materials Lecture 22 - Introduction to tensors - 3
Link NOC:Rheology of Complex Materials Lecture 23 - Rheometers - 1
Link NOC:Rheology of Complex Materials Lecture 24 - Rheometers - 2
Link NOC:Rheology of Complex Materials Lecture 25 - Rheometers - 3
Link NOC:Rheology of Complex Materials Lecture 26 - Rheometers - 4
Link NOC:Rheology of Complex Materials Lecture 27 - Rheometers - 5
Link NOC:Rheology of Complex Materials Lecture 28 - Governing equations for rheology - 1
Link NOC:Rheology of Complex Materials Lecture 29 - Governing equations for rheology - 2
Link NOC:Rheology of Complex Materials Lecture 30 - Relaxation time spectrum - 1
Link NOC:Rheology of Complex Materials Lecture 31 - Relaxation time spectrum - 2
Link NOC:Rheology of Complex Materials Lecture 32 - Linear viscoelasticity: generalized Maxwell model
Link NOC:Rheology of Complex Materials Lecture 33 - Time temperature superposition
Link NOC:Rheology of Complex Materials Lecture 34 - Linear viscoelasticity: solidlike materials
Link NOC:Rheology of Complex Materials Lecture 35 - General linear viscoelasticity
Link NOC:Rheology of Complex Materials Lecture 36 - Rotational rheometry
Link NOC:Rheology of Complex Materials Lecture 37 - Review of material functions - 1
Link NOC:Rheology of Complex Materials Lecture 38 - Review of material functions - 2
Link NOC:Rheology of Complex Materials Lecture 39 - Survey of material functions for polymers - 1
Link NOC:Rheology of Complex Materials Lecture 40 - Survey of material functions for polymers - 2
Link NOC:Rheology of Complex Materials Lecture 41 - Survey of material functions for polymers - 3
Link NOC:Rheology of Complex Materials Lecture 42 - Survey of material functions for polymers - 4
Link NOC:Rheology of Complex Materials Lecture 43 - Survey of material functions for multiphase systems - 1
Link NOC:Rheology of Complex Materials Lecture 44 - Strain and convected rate - 1
Link NOC:Rheology of Complex Materials Lecture 45 - Strain and convected rate - 2
Link NOC:Rheology of Complex Materials Lecture 46 - Strain and convected rate - 3
Link NOC:Rheology of Complex Materials Lecture 47 - Strain and convected rate - 4
Link NOC:Rheology of Complex Materials Lecture 48 - Normal stresses - 1
Link NOC:Rheology of Complex Materials Lecture 49 - Normal stresses - 2
Link NOC:Rheology of Complex Materials Lecture 50 - Structured materials - yield stress
Link NOC:Rheology of Complex Materials Lecture 51 - Yield stress and thixotropic materials
Link NOC:Rheology of Complex Materials Lecture 52 - Normal stresses and stress growth
Link NOC:Rheology of Complex Materials Lecture 53 - Rheometer demonstration
Link NOC:Rheology of Complex Materials Lecture 54 - Review of material functions - 3
Link NOC:Rheology of Complex Materials Lecture 55 - Survey of material functions for multiphase macromolecular systems
Link NOC:Rheology of Complex Materials Lecture 56 - Problems during rheometry - example of cone and plate - 1
Link NOC:Rheology of Complex Materials Lecture 57 - Problems during rheometry - example of cone and plate - 2
Link NOC:Rheology of Complex Materials Lecture 58 - Strain, convected derivatives, non-linear models - 1
Link NOC:Rheology of Complex Materials Lecture 59 - Strain, convected derivatives, non-linear models - 2
Link NOC:Rheology of Complex Materials Lecture 60 - Rheometer demonstration
Link NOC:Rheology of Complex Materials Lecture 61 - Microscopic modeling of rheology - 1
Link NOC:Rheology of Complex Materials Lecture 62 - Microscopic modeling of rheology - 2
Link NOC:Rheology of Complex Materials Lecture 63 - Live Session
Link NOC:Process Control - Design, Analysis and Assessment Lecture 1 - Introduction
Link NOC:Process Control - Design, Analysis and Assessment Lecture 2 - Introductory Concepts
Link NOC:Process Control - Design, Analysis and Assessment Lecture 3 - Introduction to Modeling
Link NOC:Process Control - Design, Analysis and Assessment Lecture 4 - Introduction to Control Structures
Link NOC:Process Control - Design, Analysis and Assessment Lecture 5 - Process Modelling
Link NOC:Process Control - Design, Analysis and Assessment Lecture 6 - State Space Modeling
Link NOC:Process Control - Design, Analysis and Assessment Lecture 7 - State Space Solution
Link NOC:Process Control - Design, Analysis and Assessment Lecture 8 - Laplace Transforms - Part 1
Link NOC:Process Control - Design, Analysis and Assessment Lecture 9 - Laplace Transforms - Part 2
Link NOC:Process Control - Design, Analysis and Assessment Lecture 10 - Analysis of transfer function models - Part 1
Link NOC:Process Control - Design, Analysis and Assessment Lecture 11 - Analysis of transfer function models - Part 2
Link NOC:Process Control - Design, Analysis and Assessment Lecture 12 - Stability
Link NOC:Process Control - Design, Analysis and Assessment Lecture 13 - MATLAB Tutorial 1: Process Modelling
Link NOC:Process Control - Design, Analysis and Assessment Lecture 14 - MATLAB Tutorial 2: Time domain analysis of first order process
Link NOC:Process Control - Design, Analysis and Assessment Lecture 15 - Controller Equations
Link NOC:Process Control - Design, Analysis and Assessment Lecture 16 - Controllers and analysis of closed loop transfer functions
Link NOC:Process Control - Design, Analysis and Assessment Lecture 17 - P, PI and PID Controllers
Link NOC:Process Control - Design, Analysis and Assessment Lecture 18 - Stability analysis of closed loop systems
Link NOC:Process Control - Design, Analysis and Assessment Lecture 19 - Controller design and tuning - Part 1
Link NOC:Process Control - Design, Analysis and Assessment Lecture 20 - Controller design and tuning - Part 2
Link NOC:Process Control - Design, Analysis and Assessment Lecture 21 - Traditional Advanced Control - Part 1
Link NOC:Process Control - Design, Analysis and Assessment Lecture 22 - Traditional Advanced Control - Part 2
Link NOC:Process Control - Design, Analysis and Assessment Lecture 23 - Frequency Response Analysis - Part 1
Link NOC:Process Control - Design, Analysis and Assessment Lecture 24 - Frequency Response Analysis - Part 2
Link NOC:Process Control - Design, Analysis and Assessment Lecture 25 - Traditional Advanced Control - Part 3
Link NOC:Process Control - Design, Analysis and Assessment Lecture 26 - Traditional Advanced Control - Part 4
Link NOC:Process Control - Design, Analysis and Assessment Lecture 27 - Traditional Advanced Control - Part 5
Link NOC:Process Control - Design, Analysis and Assessment Lecture 28 - Understanding PID Gains
Link NOC:Process Control - Design, Analysis and Assessment Lecture 29 - Nyquist Stability Criterion - Part 1
Link NOC:Process Control - Design, Analysis and Assessment Lecture 30 - Nyquist Stability Criterion - Part 2
Link NOC:Process Control - Design, Analysis and Assessment Lecture 31 - Nyquist Stability Criterion - Part 3
Link NOC:Process Control - Design, Analysis and Assessment Lecture 32 - Controllers for Unstable Systems
Link NOC:Process Control - Design, Analysis and Assessment Lecture 33 - Traditional Advanced Control - Part 6
Link NOC:Process Control - Design, Analysis and Assessment Lecture 34 - Traditional Advanced Control - Part 7
Link NOC:Process Control - Design, Analysis and Assessment Lecture 35 - Multivariable Control - Part 1
Link NOC:Process Control - Design, Analysis and Assessment Lecture 36 - Multivariable Control - Part 2
Link NOC:Process Control - Design, Analysis and Assessment Lecture 37 - Model Predictive Control - Part 1
Link NOC:Process Control - Design, Analysis and Assessment Lecture 38 - Model Predictive Control - Part 2
Link NOC:Process Control - Design, Analysis and Assessment Lecture 39 - Model Predictive Control-Mathematical Formulation - Part 1
Link NOC:Process Control - Design, Analysis and Assessment Lecture 40 - Model Predictive Control-Mathematical Formulation - Part 2
Link NOC:Process Control - Design, Analysis and Assessment Lecture 41 - Model Predictive Control - Discrete Model
Link NOC:Process Control - Design, Analysis and Assessment Lecture 42 - Model Predictive Control - Putting all these together
Link NOC:Process Control - Design, Analysis and Assessment Lecture 43 - Stability Analysis-Various methods - Part 1
Link NOC:Process Control - Design, Analysis and Assessment Lecture 44 - Stability Analysis-Various methods - Part 2
Link NOC:Process Control - Design, Analysis and Assessment Lecture 45 - Stability Analysis-Various methods - Part 3
Link NOC:Process Control - Design, Analysis and Assessment Lecture 46 - PID Tuning
Link NOC:Process Control - Design, Analysis and Assessment Lecture 47 - MATLAB Tutorial-Controller Tuning - Part 1
Link NOC:Process Control - Design, Analysis and Assessment Lecture 48 - MATLAB Tutorial-Controller Tuning - Part 2
Link NOC:Process Control - Design, Analysis and Assessment Lecture 49 - MATLAB Tutorial - Controller Design - Part 1
Link NOC:Process Control - Design, Analysis and Assessment Lecture 50 - MATLAB Tutorial - Controller Design - Part 2
Link NOC:Process Control - Design, Analysis and Assessment Lecture 51 - MATLAB Tutorial - Controller Design - Part 3
Link NOC:Process Control - Design, Analysis and Assessment Lecture 52 - Conclusion Lecture
Link System Identification Lecture 1 - Motivation and Overview 1
Link System Identification Lecture 2 - Motivation and Overview 2
Link System Identification Lecture 3 - Motivation and Overview 3
Link System Identification Lecture 4 - Motivation and Overview 4
Link System Identification Lecture 5 - Journey into Identification 1
Link System Identification Lecture 6 - Journey into Identification 2
Link System Identification Lecture 7 - Journey into Identification 3
Link System Identification Lecture 8 - Journey into Identification (Case Studies) 4
Link System Identification Lecture 9 - Journey into Identification (Case Studies) 5
Link System Identification Lecture 10 - Journey into Identification (Case Studies) 6
Link System Identification Lecture 11 - Journey into Identification (Case Studies) 7
Link System Identification Lecture 12 - Journey into Identification (Case Studies) 8
Link System Identification Lecture 13 - Journey into Identification (Case Studies) 9
Link System Identification Lecture 14 - Journey into Identification (Case Studies) 10
Link System Identification Lecture 15 - Journey into Identification (Case Studies) 11
Link System Identification Lecture 16 - Journey into Identification (Case Studies) 12
Link System Identification Lecture 17 - Journey into Identification (Case Studies) 13
Link System Identification Lecture 18 - Journey into Identification (Case Studies) 14
Link System Identification Lecture 19 - Journey into Identification (Case Studies) 15
Link System Identification Lecture 20 - Journey into Identification (Case Studies) 16
Link System Identification Lecture 21 - Journey into Identification 17
Link System Identification Lecture 22 - Journey into Identification 18
Link System Identification Lecture 23 - Response-based Description 1
Link System Identification Lecture 24 - Response-based Description 2
Link System Identification Lecture 25 - Response-based Description 3
Link System Identification Lecture 26 - Response-based Description 4
Link System Identification Lecture 27 - Response-based Description 5
Link System Identification Lecture 28 - Response-based Description 6
Link System Identification Lecture 29 - Response-based Description 7
Link System Identification Lecture 30 - Response-based Description 8
Link System Identification Lecture 31 - Response-based Description 9
Link System Identification Lecture 32 - Response-based Description 10
Link System Identification Lecture 33 - Response-based Description 11
Link System Identification Lecture 34 - Response-based Description 12
Link System Identification Lecture 35 - Response-based Description 13
Link System Identification Lecture 36 - Discrete time LTI system 1
Link System Identification Lecture 37 - Discrete time LTI system 2
Link System Identification Lecture 38 - z-Domain Descriptions 1
Link System Identification Lecture 39 - z-Domain Descriptions 2
Link System Identification Lecture 40 - z-Domain Descriptions 3
Link System Identification Lecture 41 - z-Domain Descriptions 4
Link System Identification Lecture 42 - z-Domain Descriptions 5
Link System Identification Lecture 43 - z-Domain Descriptions 6
Link System Identification Lecture 44 - State Space Representation 1
Link System Identification Lecture 45 - State Space Representation 2
Link System Identification Lecture 46 - State Space Representation 3
Link System Identification Lecture 47 - State Space Representation 4
Link System Identification Lecture 48 - Sampled - Data Systems 1
Link System Identification Lecture 49 - Sampled - Data Systems 2
Link System Identification Lecture 50 - Sampled - Data Systems 3
Link System Identification Lecture 51 - Sampled - Data Systems 4
Link System Identification Lecture 52 - Sampled - Data Systems 5
Link System Identification Lecture 53 - Sampled - Data Systems 6
Link System Identification Lecture 54 - Sampled - Data Systems 7
Link System Identification Lecture 55 - Sampled - Data Systems 8
Link System Identification Lecture 56 - Probability_Random variables and moments - Review 1
Link System Identification Lecture 57 - Probability_Random variables and moments - Review 2
Link System Identification Lecture 58 - Probability_Random variables and moments - Review 3
Link System Identification Lecture 59 - Probability_Random variables and moments - Review 4
Link System Identification Lecture 60 - Probability_Random variables and moments - Review 5
Link System Identification Lecture 61 - Probability_Random variables and moments - Review 6
Link System Identification Lecture 62 - Random Processes - Review 1
Link System Identification Lecture 63 - Random Processes - Review 2
Link System Identification Lecture 64 - Random Processes - Review 3
Link System Identification Lecture 65 - Random Processes - Review 4
Link System Identification Lecture 66 - Random Processes - Review 5
Link System Identification Lecture 67 - Random Processes - Review 6 (MATLAB)
Link System Identification Lecture 68 - Random Processes - Review 7
Link System Identification Lecture 69 - Random Processes - Review 8
Link System Identification Lecture 70 - Spectral Representation 1
Link System Identification Lecture 71 - Spectral Representation 2
Link System Identification Lecture 72 - Spectral Representation 3
Link System Identification Lecture 73 - Models for Identification 1
Link System Identification Lecture 74 - Models for Identification 2
Link System Identification Lecture 75 - Models for Identification 3
Link System Identification Lecture 76 - Models for Identification 4
Link System Identification Lecture 77 - One step and multi-step ahead prediction 1
Link System Identification Lecture 78 - One step and multi-step ahead prediction 2
Link System Identification Lecture 79 - One step and multi-step ahead prediction 3
Link System Identification Lecture 80 - One step and multi-step ahead prediction 4
Link System Identification Lecture 81 - One step and multi-step ahead prediction 5
Link System Identification Lecture 82 - Introduction to estimation theory 1
Link System Identification Lecture 83 - Introduction to estimation theory 2
Link System Identification Lecture 84 - Fisher's information and properties of estimators 1
Link System Identification Lecture 85 - Fisher's information and properties of estimators 2
Link System Identification Lecture 86 - Fisher's information and properties of estimators 3
Link System Identification Lecture 87 - Fisher's information and properties of estimators 4
Link System Identification Lecture 88 - Fisher's information and properties of estimators 5
Link System Identification Lecture 89 - Fisher's information and properties of estimators 6
Link System Identification Lecture 90 - Fisher's information and properties of estimators 7
Link System Identification Lecture 91 - Fisher's information and properties of estimators 8
Link System Identification Lecture 92 - Fisher's information and properties of estimators 9
Link System Identification Lecture 93 - Fisher's information and properties of estimators 10
Link System Identification Lecture 94 - Fisher's information and properties of estimators 11
Link System Identification Lecture 95 - Fisher's information and properties of estimators 12
Link System Identification Lecture 96 - Fisher's information and properties of estimators 13
Link System Identification Lecture 97 - Fisher's information and properties of estimators 14
Link System Identification Lecture 98 - Fisher's information and properties of estimators 15
Link System Identification Lecture 99 - Estimation of non-parametric model 1
Link System Identification Lecture 100 - Estimation of non-parametric model 2
Link System Identification Lecture 101 - Estimation of non-parametric model 3
Link System Identification Lecture 102 - Estimation of non-parametric model 4
Link System Identification Lecture 103 - Estimation of non-parametric model 5
Link System Identification Lecture 104 - Estimation of non-parametric model 3
Link System Identification Lecture 105 - Estimation of non-parametric model 4
Link System Identification Lecture 106 - Estimation of non-parametric model 5
Link System Identification Lecture 107 - Estimation of parametric model 1
Link System Identification Lecture 108 - Estimation of parametric model 2
Link System Identification Lecture 109 - Estimation of parametric model 3
Link System Identification Lecture 110 - Estimation of parametric model 4
Link System Identification Lecture 111 - State-Space/Subspace identification 1
Link System Identification Lecture 112 - State-Space/Subspace identification 2
Link System Identification Lecture 113 - State-Space/Subspace identification 3
Link System Identification Lecture 114 - State-Space/Subspace identification 4
Link System Identification Lecture 115 - State-Space/Subspace identification 5
Link System Identification Lecture 116 - State-Space/Subspace identification 6
Link System Identification Lecture 117 - State-Space/Subspace identification 7
Link System Identification Lecture 118 - State-Space/Subspace identification 8
Link System Identification Lecture 119 - Input for Identification
Link System Identification Lecture 120 - Input for Identification
Link System Identification Lecture 121 - Input for Identification
Link NOC:Fluid and Particle Mechanics Lecture 1 - Introduction
Link NOC:Fluid and Particle Mechanics Lecture 2 - Fluid Stattics
Link NOC:Fluid and Particle Mechanics Lecture 3 - Newton Law of Viscosity
Link NOC:Fluid and Particle Mechanics Lecture 4 - Equation of Continuity Differential
Link NOC:Fluid and Particle Mechanics Lecture 5 - Equation of Linear Momentum - 1
Link NOC:Fluid and Particle Mechanics Lecture 6 - Equation of Linear Momentum - 2
Link NOC:Fluid and Particle Mechanics Lecture 7 - Bernoulli's Equation
Link NOC:Fluid and Particle Mechanics Lecture 8 - Solution of Navier Stokes - 1
Link NOC:Fluid and Particle Mechanics Lecture 9 - Solution of Navier Stokes - 1
Link NOC:Fluid and Particle Mechanics Lecture 10 - Introduction to cylindrical coordinate systems
Link NOC:Fluid and Particle Mechanics Lecture 11 - Continuity equation in cylindrical coordinates
Link NOC:Fluid and Particle Mechanics Lecture 12 - Solution of Navier Stokes in the Cylindrical co-ordinate system - 1
Link NOC:Fluid and Particle Mechanics Lecture 13 - Solution of Navier Stokes in the Cylindrical co-ordinate system - 2
Link NOC:Fluid and Particle Mechanics Lecture 14 - Circular poiseuille flow
Link NOC:Fluid and Particle Mechanics Lecture 15 - Shear Stress Distribution
Link NOC:Fluid and Particle Mechanics Lecture 16 - Flow between two concentric cylinder
Link NOC:Fluid and Particle Mechanics Lecture 17 - Taylor couette flow
Link NOC:Fluid and Particle Mechanics Lecture 18 - Viscosity and Momentum Transfer
Link NOC:Fluid and Particle Mechanics Lecture 19 - Device For Measuring Fluid Viscosity
Link NOC:Fluid and Particle Mechanics Lecture 20 - Fluid Properties And its Behaviour
Link NOC:Fluid and Particle Mechanics Lecture 21 - Tutorial 4
Link NOC:Fluid and Particle Mechanics Lecture 22 - Choice of Scaling Parameter
Link NOC:Fluid and Particle Mechanics Lecture 23 - Non Dimensional analysis
Link NOC:Fluid and Particle Mechanics Lecture 24 - Non-dimensional analysis - 2
Link NOC:Fluid and Particle Mechanics Lecture 25 - Non-dimensional analysis - 3 (Buckingham Pi Theorem)
Link NOC:Fluid and Particle Mechanics Lecture 26 - Non-dimensional analysis - 4 (Trinity test)
Link NOC:Fluid and Particle Mechanics Lecture 27 - Non-dimensional analysis - 5 (Concept of similarity)
Link NOC:Fluid and Particle Mechanics Lecture 28 - Characterization Of Particles - 1
Link NOC:Fluid and Particle Mechanics Lecture 29 - Characterization Of Particles - 2
Link NOC:Fluid and Particle Mechanics Lecture 30 - Motion of a Particle in a fluid
Link NOC:Fluid and Particle Mechanics Lecture 31 - Brownian motion and electophoresis
Link NOC:Fluid and Particle Mechanics Lecture 32 - Sedimentation and Seperation
Link NOC:Fluid and Particle Mechanics Lecture 33 - Settling velocity - Stoke's regime and Newton's regime
Link NOC:Fluid and Particle Mechanics Lecture 34 - Applications of settling - I
Link NOC:Fluid and Particle Mechanics Lecture 35 - Applications of settling - II
Link NOC:Fluid and Particle Mechanics Lecture 36 - Colloidal aggregates - Introduction
Link NOC:Fluid and Particle Mechanics Lecture 37 - Settling of colloidal aggregates
Link NOC:Fluid and Particle Mechanics Lecture 38 - Tutorial 5
Link NOC:Fluid and Particle Mechanics Lecture 39 - Settling of colloidal aggregates - free settling
Link NOC:Fluid and Particle Mechanics Lecture 40 - Settling in Multiple Particles System
Link NOC:Fluid and Particle Mechanics Lecture 41 - Flow Through Packed Bed
Link NOC:Fluid and Particle Mechanics Lecture 42 - Pressure Drop Through Packed Bed
Link NOC:Fluid and Particle Mechanics Lecture 43 - Tutorial 6
Link NOC:Fluid and Particle Mechanics Lecture 44 - Pressure Droped Through Packed bed Continue
Link NOC:Fluid and Particle Mechanics Lecture 45 - Fluidized Bed - 1
Link NOC:Fluid and Particle Mechanics Lecture 46 - Fluidized Bed - 2
Link NOC:Fluid and Particle Mechanics Lecture 47 - Filtration - 1
Link NOC:Fluid and Particle Mechanics Lecture 48 - Filtration - 2
Link NOC:Fluid and Particle Mechanics Lecture 49 - Tutorial 7
Link NOC:Fluid and Particle Mechanics Lecture 50 - Laminar and Turbulent Flows - 1
Link NOC:Fluid and Particle Mechanics Lecture 51 - Laminar and Turbulent Flows - 2
Link NOC:Fluid and Particle Mechanics Lecture 52 - Laminar and Turbulent Flows - 3
Link NOC:Fluid and Particle Mechanics Lecture 53 - Turbulent Stress and Turbulent Shear Layer
Link NOC:Fluid and Particle Mechanics Lecture 54 - Turbulent Flow near a wall and in a pipe
Link NOC:Fluid and Particle Mechanics Lecture 55 - Effect of rough Walls
Link NOC:Fluid and Particle Mechanics Lecture 56 - Roughness in Turbulent Pipe Flow
Link NOC:Fluid and Particle Mechanics Lecture 57 - Pipes of non-circular cross section
Link NOC:Fluid and Particle Mechanics Lecture 58 - Minnor Losses, Sudden Expansion and Contraction
Link NOC:Fluid and Particle Mechanics Lecture 59 - Friction Losses in Sudden Expansion
Link NOC:Fluid and Particle Mechanics Lecture 60 - Tutorial 8
Link NOC:Fluid and Particle Mechanics Lecture 61 - Momentum and Kinetic Energy Correction Factor
Link NOC:Fluid and Particle Mechanics Lecture 62 - pressure drop in pipes which connected in series
Link NOC:Fluid and Particle Mechanics Lecture 63 - Pressure Drop in Pipes Which Connected in Parallel
Link NOC:Fluid and Particle Mechanics Lecture 64 - Pressure Drop in Pipes Which Connected at Junction
Link NOC:Fluid and Particle Mechanics Lecture 65 - Boundary Layer
Link NOC:Fluid and Particle Mechanics Lecture 66 - Boundary Layer - Momentum Integral Analysis - 1
Link NOC:Fluid and Particle Mechanics Lecture 67 - Boundary Layer - Momentum Integral Analysis - 2
Link NOC:Fluid and Particle Mechanics Lecture 68 - Boundary Layer - Differential Approach
Link NOC:Fluid and Particle Mechanics Lecture 69 - Laminar and Turbulent Boundary Layer
Link NOC:Fluid and Particle Mechanics Lecture 70 - Tutorial 9
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 1 - Measurement and Prediction - Part 1
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 2 - Measurement and Prediction - Part 2
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 3 - Overview of Transport Phenomena
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 4 - Scope of Course
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 5 - Continuum Hypothesis
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 6 - Lagrangian and Eulerian Descriptions - Part 1
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 7 - Lagrangian and Eulerian Descriptions - Part 2
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 8 - Substantial Derivative - Part 1
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 9 - Substantial Derivative - Part 2
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 10 - Substantial Derivative Example - 1
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 11 - Substantial Derivative Example - 2
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 12 - Visualization of Flow Patterns: Streamline, Pathline
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 13 - Visualization of Flow Patterns: Streakline
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 14 - Streamline, Pathline: Steady Flow Example
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 15 - Streamline, Pathline, Streakline: Unsteady Flow Example
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 16 - System and Control Volume
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 17 - Reynolds transport theorem : Introduction
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 18 - Reynolds transport theorem : Simplified form
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 19 - Reynolds transport theorem : General form - Part 1
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 20 - Reynolds transport theorem : General form - Part 2
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 21 - Integral and differential balances
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 22 - Integral total mass balance
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 23 - Integral total mass balance : Simplification
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 24 - Integral total mass balance : Examples
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 25 - Differential total mass balance - Part 1
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 26 - Differential total mass balance - Part 2
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 27 - Differential total mass balance : Examples - Part 1
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 28 - Differential total mass balance : Examples - Part 2
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 29 - Integral linear momentum balance - Part 1
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 30 - Integral linear momentum balance - Part 2
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 31 - Integral linear momentum balance : Examples - Part 1
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 32 - Integral linear momentum balance : Examples - Part 2
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 33 - Integral linear momentum balance : Examples - Part 3
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 34 - Differential linear momentum balance : Introduction
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 35 - Differential linear momentum balance : Transient, convection and body force terms
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 36 - Stress vector - Part 1
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 37 - Stress vector - Part 2
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 38 - Stress tensor - Part 1
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 39 - Stress tensor - Part 2
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 40 - Cauchy's formula
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 41 - Components of Stress Vector : Example
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 42 - Properties of stress tensor - Part 1
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 43 - Properties of stress tensor - Part 2
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 44 - Total stress tensor for fluids
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 45 - Comparison of solids and fluids
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 46 - Fluids at rest
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 47 - Differential linear momentum balance : Surface force terms
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 48 - Differential linear momentum balance : All terms
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 49 - Convective momentum flux tensor
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 50 - Differential linear momentum balance : Closure problem
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 51 - Normal Strain and Shear Strain - Part 1
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 52 - Normal Strain and Shear Strain - Part 2
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 53 - Displacement Field and Displacement Gradient - Part 1
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 54 - Displacement Field and Displacement Gradient - Part 2
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 55 - Strain Displacement Gradient Relation : Example
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 56 - Strain Displacement Gradient Relation : Normal and shear strain
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 57 - Strain Displacement Gradient Relation : Rotation and volumetric strain
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 58 - Strain Displacement Gradient Relation : Examples
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 59 - Displacement Gradient Tensor
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 60 - Components of Total Displacement - Part 1
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 61 - Components of Total Displacement - Part 2
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 62 - Strain Tensor and Rotation Tensor - Part 1
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 63 - Components of Total Displacement : Example
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 64 - Normal and Shear Strain Rate
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 65 - Strain Rate Velocity Gradient Relation
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 66 - Volumetric Strain Rate
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 67 - Velocity Gradient Tenso
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 68 - Strain Rate : Example 1
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 69 - Strain Rate : Example 2
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 70 - Stress Strain Relation : Introduction
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 71 - Material Properties
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 72 - Hooke’s Law : Strain-stress Relation
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 73 - Relation Between Material Properties
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 74 - Hooke’s Law : Stress-strain Relation
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 75 - Hooke’s Law : Examples
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 76 - Stress Strain Rate Relation : Introduction
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 77 - Newton’s Law of Viscosity : 1D Form
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 78 - Newton’s Law of Viscosity : 3D Form
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 79 - Navier Stokes Equation
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 80 - Fluid at Rest : Pressure Distribution
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 81 - Hydrostatic Pressure Distribution in Liquid
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 82 - Hydrostatic Pressure Distribution in Gas
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 83 - Fluid in Rigid Body Motion : Pressure Distribution
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 84 - Flow Regimes : Laminar and Turbulent flow
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 85 - Euler Equation
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 86 - Bernoulli Equation : Inviscid Flow
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 87 - Bernoulli Equation : Example 1
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 88 - Bernoulli Equation : Irrotational Flow
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 89 - Bernoulli Equation : Example 2
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 90 - Planar Couette Flow : Governing Equations
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 91 - Planar Couette Flow : Velocity and Pressure Distribution
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 92 - Planar Couette Flow : Shear Force
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 93 - Planar Poiseuille Flow : Governing Equations
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 94 - Planar Poiseuille Flow : Velocity and Pressure Distribution
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 95 - Planar Poiseuille Flow : Shear force
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 96 - Planar Poiseuille Flow : Shear Stress Distribution
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 97 - Viscous Stress vs. Molecular Momentum Flux - Part 1
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 98 - Viscous Stress vs. Molecular Momentum Flux - Part 2
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 99 - Linear Momentum Balance : Fluid Mechanics vs. Momentum Transport - Part 1
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 100 - Linear Momentum Balance : Fluid Mechanics vs. Momentum Transport - Part 2
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 101 - Viscous Stress vs. Molecular Momentum Flux - Part 3
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 102 - Integral Energy Balance - Part 1
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 103 - Integral Energy Balance - Part 2
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 104 - Simplification of Integral Energy Balance
Link NOC:Continuum Mechanics and Transport Phenomena Lecture 105 - Integral Energy Balance : Examples
Link Chemical Technology - I Lecture 1 - Introduction to Chemical process Industries
Link Chemical Technology - I Lecture 2 - Raw material for Organic Chemical Industries
Link Chemical Technology - I Lecture 3 - Unit processes and unit operations in organic chemical Industries
Link Chemical Technology - I Lecture 4 - Coal and coal as chemicals feed stock
Link Chemical Technology - I Lecture 5 - Coal carbonization and Coke oven plant
Link Chemical Technology - I Lecture 6 - Gasification of Coal,Petrocoke and Biomass
Link Chemical Technology - I Lecture 7 - Introduction to Pulp and paper Industry, Raw material for paper industry and Technological development
Link Chemical Technology - I Lecture 8 - Pulping and Bleaching
Link Chemical Technology - I Lecture 9 - Recovery of Chemicals
Link Chemical Technology - I Lecture 10 - Stock preparation and paper making
Link Chemical Technology - I Lecture 11 - Introduction to Soap and detergent, Soap making and Recovery of Glycerine
Link Chemical Technology - I Lecture 12 - Synthetic detergent and Linear alkyl benzene
Link Chemical Technology - I Lecture 13 - Sugar and Fermentation industry
Link Chemical Technology - I Lecture 14 - Ethanol as Biofuel and Chemical feed stock
Link Chemical Technology - I Lecture 15 - Introduction : Staus of Petroleum refinery, Crude oil and Natural gas origin, occurrence, exploration, drilling and processing, Fuel norms
Link Chemical Technology - I Lecture 16 - Evaluation of Crude oil,Petroleum Products and Apetrochemicals
Link Chemical Technology - I Lecture 17 - Crude oil Distillation
Link Chemical Technology - I Lecture 18 - Thermal Cracking: Visbreaking and Delayed Coking
Link Chemical Technology - I Lecture 19 - Catalytic cracking: Fluid Catalytic cracking and Hydro cracking
Link Chemical Technology - I Lecture 20 - Catalytic reforming
Link Chemical Technology - I Lecture 21 - Alkylation, Isomerisation and Polymerisation
Link Chemical Technology - I Lecture 22 - Desulphurisation Processes and Recovery of Sulphur
Link Chemical Technology - I Lecture 23 - Profile of petrochemical Industry and its structure
Link Chemical Technology - I Lecture 24 - Naphtha and gas cracking for production of olefins
Link Chemical Technology - I Lecture 25 - Recovery of chemicals from FCC and steam cracking
Link Chemical Technology - I Lecture 26 - Synthesis gas and its derivatives: Hydrogen, CO, Methanol, Formaldehyde
Link Chemical Technology - I Lecture 27 - Ethylene derivatives: Ethylene Oxide, Ethylene glycol, Ethylene dichloride and Vinyl chloride
Link Chemical Technology - I Lecture 28 - Propylene, Propylene oxide and Isopropanol
Link Chemical Technology - I Lecture 29 - Aromatics Production
Link Chemical Technology - I Lecture 30 - Aromatics product profile, Ethyl benzene & Styrene, Cumene and phenol, Bisphenol, Aniline
Link Chemical Technology - I Lecture 31 - Introduction to polymer, Elastomer and Synthetic Fibre, Polymerisation
Link Chemical Technology - I Lecture 32 - Polymers:Polyolefins, Polyethylene, Polypropylene Polystyrene
Link Chemical Technology - I Lecture 33 - Polyvinylchloride, polycarbonate, thermoset resin: phenolformaldehyde, uriaformaldehyde and melamineformaldehyde
Link Chemical Technology - I Lecture 34 - Elastomers: Styrene butadiene Rubber(SBR), Poly butadiene, Nitrile rubber
Link Chemical Technology - I Lecture 35 - Polymides or Nylons(PA)
Link Chemical Technology - I Lecture 36 - DMT and Terephtalic Acid, Polyester, PET resin, PTB resin
Link Chemical Technology - I Lecture 37 - Acrylic Fibre, Modified Acrylic Fibre, Acrylonitrile, Acrolein, Propylene Finber, Polyurethane
Link Chemical Technology - I Lecture 38 - Viscose Rayon and Acetate rayon
Link Chemical Technology - I Lecture 39 - Pesticide
Link Chemical Technology - I Lecture 40 - Dye and Intermediates
Link Process Integration Lecture 1 - Process integration, methods and area of application
Link Process Integration Lecture 2 - Fundamental concepts related to heat integration - Part 1
Link Process Integration Lecture 3 - Fundamental concepts related to heat integration - Part 2
Link Process Integration Lecture 4 - Data extraction
Link Process Integration Lecture 5 - Hot composite curves
Link Process Integration Lecture 6 - Cold composite curves
Link Process Integration Lecture 7 - Hot and cold composite curves and the pinch
Link Process Integration Lecture 8 - Threshold problems
Link Process Integration Lecture 9 - Energy targeting procedure
Link Process Integration Lecture 10 - Problem Table Algorithm - Part 1
Link Process Integration Lecture 11 - Grand composite curve
Link Process Integration Lecture 12 - Problem Table Algorithm - Part 2
Link Process Integration Lecture 13 - Number of units target
Link Process Integration Lecture 14 - Shell targeting - Part 1
Link Process Integration Lecture 15 - Area targeting - Part 1
Link Process Integration Lecture 16 - Area targeting - Part 2
Link Process Integration Lecture 17 - Coast targeting - Part 1
Link Process Integration Lecture 18 - Coast targeting - Part 2
Link Process Integration Lecture 19 - Supertargeting- optimization of Δ t min
Link Process Integration Lecture 20 - Global & stream specific Δt min and its relevance
Link Process Integration Lecture 21 - Topology Trap
Link Process Integration Lecture 22 - Rules for Pinch Design Method (PDM) - Part 1
Link Process Integration Lecture 23 - Rules for Pinch Design Method (PDM) - Part 2
Link Process Integration Lecture 24 - Application of PDM for MER Hen Synthesis
Link Process Integration Lecture 25 - Design for threshold problems
Link Process Integration Lecture 26 - Design for single pinch problems
Link Process Integration Lecture 27 - Design for multi pinch problems
Link Process Integration Lecture 28 - HEN optimization
Link Process Integration Lecture 29 - Remaining problem analysis
Link Process Integration Lecture 30 - Driving Force Plot
Link Process Integration Lecture 31 - Low Temperature process Design - Part 1
Link Process Integration Lecture 32 - Low Temperature process Design - Part 2
Link Process Integration Lecture 33 - Integration of Gas turbine with process - Part 1
Link Process Integration Lecture 34 - Integration of Gas turbine with process - Part 2
Link Process Integration Lecture 35 - Placement and Integration of Distillation Column
Link Process Integration Lecture 36 - Heat Integration of evaporators
Link Process Integration Lecture 37 - Integration of heat pump
Link Process Integration Lecture 38 - Placement of Heat Engine, Heat pump and Reactors
Link Process Integration Lecture 39 - Integration of Furnace
Link Process Integration Lecture 40 - Problem solving using HINT Software - Part 1
Link Process Integration Lecture 41 - Problem solving using HINT Software - Part 2
Link Process Integration Lecture 42 - Problem solving using HINT Software - Part 3
Link Process Integration Lecture 43 - Problem solving using HINT Software - Part 4
Link Mechanical Operations Lecture 1 - Introduction
Link Mechanical Operations Lecture 2 - Characterization of a single particle - 1
Link Mechanical Operations Lecture 3 - Characterization of a single particle - 2
Link Mechanical Operations Lecture 4 - Characterization of collection of particles - 1
Link Mechanical Operations Lecture 5 - Characterization of collection of particles - 2
Link Mechanical Operations Lecture 6 - Fine grain size distribution
Link Mechanical Operations Lecture 7 - Effectiveness of screen - 1
Link Mechanical Operations Lecture 8 - Effectiveness of screen - 2
Link Mechanical Operations Lecture 9 - Industrial screening equipment
Link Mechanical Operations Lecture 10 - Size reduction
Link Mechanical Operations Lecture 11 - Laws of comminution
Link Mechanical Operations Lecture 12 - Examples of Laws of comminution - 1
Link Mechanical Operations Lecture 13 - Examples of Laws of comminution - 2
Link Mechanical Operations Lecture 14 - Size reduction equipment - 1
Link Mechanical Operations Lecture 15 - Size reduction equipment - 2
Link Mechanical Operations Lecture 16 - Particle dynamics - 1
Link Mechanical Operations Lecture 17 - Particle dynamics - 2
Link Mechanical Operations Lecture 18 - Particle dynamics-Examples
Link Mechanical Operations Lecture 19 - Classification and Jigging - 1
Link Mechanical Operations Lecture 20 - Classification and Jigging - 2
Link NOC:Waste to Energy Conversion Lecture 1 - Introduction - 1
Link NOC:Waste to Energy Conversion Lecture 2 - Introduction - 2
Link NOC:Waste to Energy Conversion Lecture 3 - Characterization of wastes - 1
Link NOC:Waste to Energy Conversion Lecture 4 - Characterization of wastes - 2
Link NOC:Waste to Energy Conversion Lecture 5 - Characterization of wastes - 3
Link NOC:Waste to Energy Conversion Lecture 6 - Tutorial on Chatacterization of wastes
Link NOC:Waste to Energy Conversion Lecture 7 - Energy production from wastes through incineration - 1
Link NOC:Waste to Energy Conversion Lecture 8 - Energy production from wastes through incineration - 2
Link NOC:Waste to Energy Conversion Lecture 9 - Tutorial on incineration
Link NOC:Waste to Energy Conversion Lecture 10 - Energy production from wastes through gasification - 1
Link NOC:Waste to Energy Conversion Lecture 11 - Energy production from wastes through gasification - 2
Link NOC:Waste to Energy Conversion Lecture 12 - Syngas utilization - 1
Link NOC:Waste to Energy Conversion Lecture 13 - Syngas utilization - 2
Link NOC:Waste to Energy Conversion Lecture 14 - Energy production from wastes through pyrolysis - 1
Link NOC:Waste to Energy Conversion Lecture 15 - Energy production from wastes through pyrolysis - 2
Link NOC:Waste to Energy Conversion Lecture 16 - Tutorial on gasification
Link NOC:Waste to Energy Conversion Lecture 17 - Tutorial on Pyrolysis
Link NOC:Waste to Energy Conversion Lecture 18 - Densification of solids - 1
Link NOC:Waste to Energy Conversion Lecture 19 - Densification of solids - 2
Link NOC:Waste to Energy Conversion Lecture 20 - Efficiency improvement of power plant - 1
Link NOC:Waste to Energy Conversion Lecture 21 - Efficiency improvement of power plant - 2
Link NOC:Waste to Energy Conversion Lecture 22 - Energy production from waste plastics - 1
Link NOC:Waste to Energy Conversion Lecture 23 - Energy production from waste plastics - 2
Link NOC:Waste to Energy Conversion Lecture 24 - Gas clean up - 1
Link NOC:Waste to Energy Conversion Lecture 25 - Gas clean up - 2
Link NOC:Waste to Energy Conversion Lecture 26 - Energy production from organic wastes through anaerobic digestion - 1
Link NOC:Waste to Energy Conversion Lecture 27 - Energy production from organic wastes through anaerobic digestion - 2
Link NOC:Waste to Energy Conversion Lecture 28 - Design of anaerobic digester
Link NOC:Waste to Energy Conversion Lecture 29 - Introduction to Microbial fuel cells
Link NOC:Waste to Energy Conversion Lecture 30 - Energy production from organic wastes through fermentation - 1
Link NOC:Waste to Energy Conversion Lecture 31 - Energy production from organic wastes through fermentation - 2
Link NOC:Waste to Energy Conversion Lecture 32 - Tutorial on anaerobic digestion
Link NOC:Waste to Energy Conversion Lecture 33 - Tutorial on fermentation
Link NOC:Waste to Energy Conversion Lecture 34 - Energy production from wastes through transesterification - 1
Link NOC:Waste to Energy Conversion Lecture 35 - Energy production from wastes through transesterification - 2
Link NOC:Waste to Energy Conversion Lecture 36 - Tutorial on transesterification
Link NOC:Waste to Energy Conversion Lecture 37 - Cultivation of algal biomass and treatment of waste water - 1
Link NOC:Waste to Energy Conversion Lecture 38 - Cultivation of algal biomass and treatment of waste water - 2
Link NOC:Waste to Energy Conversion Lecture 39 - Energy production form algal biomass - 1
Link NOC:Waste to Energy Conversion Lecture 40 - Energy production form algal biomass - 2
Link NOC:Unit Operations of Particulate Matter Lecture 1 - Introduction
Link NOC:Unit Operations of Particulate Matter Lecture 2 - Sedimentation and Batch Sedimentation Test - 1
Link NOC:Unit Operations of Particulate Matter Lecture 3 - Sedimentation and Batch Sedimentation Test - 2
Link NOC:Unit Operations of Particulate Matter Lecture 4 - Centrifugal Sedimentation and Equipment - 1
Link NOC:Unit Operations of Particulate Matter Lecture 5 - Centrifugal Sedimentation and Equipment - 2
Link NOC:Unit Operations of Particulate Matter Lecture 6 - Filtration - 1
Link NOC:Unit Operations of Particulate Matter Lecture 7 - Filtration - 2
Link NOC:Unit Operations of Particulate Matter Lecture 8 - Filtration - 3
Link NOC:Unit Operations of Particulate Matter Lecture 9 - Continuous Filtration - 1
Link NOC:Unit Operations of Particulate Matter Lecture 10 - Continuous Filtration - 2
Link NOC:Unit Operations of Particulate Matter Lecture 11 - Fluidisation - 1
Link NOC:Unit Operations of Particulate Matter Lecture 12 - Fluidisation - 2
Link NOC:Unit Operations of Particulate Matter Lecture 13 - Liquid Fluidisation
Link NOC:Unit Operations of Particulate Matter Lecture 14 - Gas Fluidisation - 1
Link NOC:Unit Operations of Particulate Matter Lecture 15 - Gas Fluidisation - 2
Link NOC:Unit Operations of Particulate Matter Lecture 16 - Flotation - 1
Link NOC:Unit Operations of Particulate Matter Lecture 17 - Flotation - 2
Link NOC:Unit Operations of Particulate Matter Lecture 18 - Transportaion of solids - 1
Link NOC:Unit Operations of Particulate Matter Lecture 19 - Transportaion of solids - 2
Link NOC:Unit Operations of Particulate Matter Lecture 20 - Transportaion of solids - 3
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 1 - Introduction to the course, Macromolecules and Life, Molecular flexibility
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 2 - Classification of polymers, Types of polymerization, Average molecular weights and polydispersity
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 3 - Motivation to study polymer physics
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 4 - Random Walk Models of Single Chain I: end-to-end distance of a polymer chain, freely jointed chain, drunkard walk
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 5 - Random Walk Models of Single Chain II: general random walk on a lattice
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 6 - Random Walk Models of Single Chain III: Freely rotating chain, definition of persistence length
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 7 - Models of semiflexible chains (Kratky Porod Model) - Part I
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 8 - Models of semiflexible chains (Kratky Porod Model) - Part II
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 9 - Probability density of an ideal chain - Part I
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 10 - Probability density of an ideal chain - Part II
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 11 - Entropic Elasticity, Bead-Spring Model, Simulations of random walk models
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 12 - Derivation of Diffusion equation, Einstein notation
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 13 - Definition of Radius of gyration
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 14 - Radius of gyration for an ideal chain, concept of ideality
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 15 - Nonbonded interactions, hydrophobic and hydrophilic behaviour
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 16 - Definition of excluded volume; good, bad, and theta solvent
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 17 - Virial expansion, Flory theory for good solvent
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 18 - Flory theory for bad solvent, self-similarity and fractal nature of polymers
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 19 - Derivation of fractal dimension, concentration regimes and overlap concentration
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 20 - Size, shape, and structure. Gyration tensor and measures of asphericity.
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 21 - Order-disorder transition
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 22 - Scattering experiments, Pair correlation function
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 23 - Structure of polymer chain, Introduction to Monte Carlo simulations of polymer chains
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 24 - Monte Carlo algorithm: Detailed Balance, Metropolis algorithm
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 25 - Practical aspects of Monte Carlo simulation
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 26 - Molecular Dynamics Simulations, Review of Thermodynamics
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 27 - Solution Thermodynamics - I
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 28 - Solution Thermodynamics - II
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 29 - Solution Thermodynamics - III
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 30 - Solution Thermodynamics - IV
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 31 - Phase separation regime, Introduction to lattice model of solutions
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 32 - Lattice Model of Solutions - I
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 33 - Lattice Model of Solutions - II
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 34 - Phase behaviour of liquid solutions
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 35 - Lattice models of polymeric systems
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 36 - Brownian motion - I
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 37 - Brownian motion - II
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 38 - Brownian motion - III
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 39 - Brownian motion - IV
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 40 - Brownian motion - V
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 41 - Rouse Model - I
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 42 - Rouse Model - II
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 43 - Rouse Model - III
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 44 - Rouse Model - IV
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 45 - Problems in Rouse Model, Hydrodynamic Interactions
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 46 - Zimm Model - I
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 47 - Zimm Model - II
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 48 - Continuum Mechanics - I
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 49 - Continuum Mechanics - II
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 50 - Kuhn’s Theory of Rubber Elasticity
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 51 - Elasticity of polymer network
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 52 - Microscopic definition of stress tensor - I
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 53 - Microscopic definition of stress tensor - II, Dumbbell model, introduction to Rouse model
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 54 - Models for entangled polymeric systems - I
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 55 - Models for entangled polymeric systems - II
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 56 - Rheology of complex fluids
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 57 - Rheometers and rheological tests - I
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 58 - Rheometers and rheological tests - II
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 59 - Maxwell model - I
Link NOC:Introduction to Polymer Physics (IIT-R) Lecture 60 - Maxwell model - II, Closing notes
Link NOC:Equipment Design: Mechanical Aspects Lecture 1 - Introduction
Link NOC:Equipment Design: Mechanical Aspects Lecture 2 - Stress and Strain Relationship - 1
Link NOC:Equipment Design: Mechanical Aspects Lecture 3 - Stress and Strain Relationship - 2
Link NOC:Equipment Design: Mechanical Aspects Lecture 4 - Terminologies
Link NOC:Equipment Design: Mechanical Aspects Lecture 5 - Design of shell
Link NOC:Equipment Design: Mechanical Aspects Lecture 6 - Design of heads - 1
Link NOC:Equipment Design: Mechanical Aspects Lecture 7 - Design of heads - 2
Link NOC:Equipment Design: Mechanical Aspects Lecture 8 - Design of heads - 3
Link NOC:Equipment Design: Mechanical Aspects Lecture 9 - Compensation for Opening - 1
Link NOC:Equipment Design: Mechanical Aspects Lecture 10 - Compensation for Opening - 2
Link NOC:Equipment Design: Mechanical Aspects Lecture 11 - L D ratio
Link NOC:Equipment Design: Mechanical Aspects Lecture 12 - Design of Flanges - 1.1
Link NOC:Equipment Design: Mechanical Aspects Lecture 13 - Design of Flanges - 1.2
Link NOC:Equipment Design: Mechanical Aspects Lecture 14 - Design of Flanges - 2.1
Link NOC:Equipment Design: Mechanical Aspects Lecture 15 - Design of Flanges - 2.2
Link NOC:Equipment Design: Mechanical Aspects Lecture 16 - Design of support - 1
Link NOC:Equipment Design: Mechanical Aspects Lecture 17 - Design of support - 2
Link NOC:Equipment Design: Mechanical Aspects Lecture 18 - Vessel under external pressure - 1
Link NOC:Equipment Design: Mechanical Aspects Lecture 19 - Vessel under external pressure - 2
Link NOC:Equipment Design: Mechanical Aspects Lecture 20 - Vessel under very high pressure
Link NOC:Chemical Process Safety Lecture 1 - Safety and Accident Loss Statistics
Link NOC:Chemical Process Safety Lecture 2 - Risk Management and Hazardous Substance Rules
Link NOC:Chemical Process Safety Lecture 3 - Nature of Accident and major disasters
Link NOC:Chemical Process Safety Lecture 4 - Fundamental Principles: Scale up and Runaway Reactions
Link NOC:Chemical Process Safety Lecture 5 - Problems related to Safety and Accident Loss Statistics
Link NOC:Chemical Process Safety Lecture 6 - Toxicology: Introduction, Routes and Exposure
Link NOC:Chemical Process Safety Lecture 7 - Toxicology: Elimination, Responses, Treatment
Link NOC:Chemical Process Safety Lecture 8 - Dose Response Relationship
Link NOC:Chemical Process Safety Lecture 9 - Dose Response and Threshold Dose: Predictive models and Extrapolation
Link NOC:Chemical Process Safety Lecture 10 - Industrial Hygiene: Regulations and Identification
Link NOC:Chemical Process Safety Lecture 11 - Material Safety Data Sheet - I
Link NOC:Chemical Process Safety Lecture 12 - Material Safety Data Sheet - II
Link NOC:Chemical Process Safety Lecture 13 - Industrial Hygiene: Evaluation
Link NOC:Chemical Process Safety Lecture 14 - Noise, vibration and Radiation
Link NOC:Chemical Process Safety Lecture 15 - Industrial Hygiene: Control
Link NOC:Chemical Process Safety Lecture 16 - Problems related to Industrial Hygiene
Link NOC:Chemical Process Safety Lecture 17 - Introduction to Source Models
Link NOC:Chemical Process Safety Lecture 18 - Source Models for Gas
Link NOC:Chemical Process Safety Lecture 19 - Source Models for Pool Boiling
Link NOC:Chemical Process Safety Lecture 20 - Source Model Problems
Link NOC:Chemical Process Safety Lecture 21 - Fire and Explosions: Introduction
Link NOC:Chemical Process Safety Lecture 22 - Fire and Explosions: Flammability Characteristics
Link NOC:Chemical Process Safety Lecture 23 - Explosion and its Classification - I
Link NOC:Chemical Process Safety Lecture 24 - Explosion and its Classification - II
Link NOC:Chemical Process Safety Lecture 25 - Fire Extinguishers - I
Link NOC:Chemical Process Safety Lecture 26 - Fire Extinguishers - II
Link NOC:Chemical Process Safety Lecture 27 - Problems related to Fire and Explosion
Link NOC:Chemical Process Safety Lecture 28 - Designs to prevent Fire and Explosion: Inerting and Purging
Link NOC:Chemical Process Safety Lecture 29 - Designs to prevent Fire and Explosion: Static Electricity
Link NOC:Chemical Process Safety Lecture 30 - General Design Methods to prevent Fire
Link NOC:Chemical Process Safety Lecture 31 - Sprinklers - I
Link NOC:Chemical Process Safety Lecture 32 - Sprinklers - II
Link NOC:Chemical Process Safety Lecture 33 - Introduction to Reliefs
Link NOC:Chemical Process Safety Lecture 34 - Type of Reliefs
Link NOC:Chemical Process Safety Lecture 35 - Relief Scenario
Link NOC:Chemical Process Safety Lecture 36 - Relief Sizing
Link NOC:Chemical Process Safety Lecture 37 - Hazard and Hazard Identification: Introduction
Link NOC:Chemical Process Safety Lecture 38 - Hazard Identification Methods and HAZOP
Link NOC:Chemical Process Safety Lecture 39 - Safety Reviews and Risk Assessment - I
Link NOC:Chemical Process Safety Lecture 40 - Risk Assessment - II
Link NOC:Chemical Process Safety Lecture 41 - Review of Probability Theory
Link NOC:Chemical Process Safety Lecture 42 - Event Trees: Quantitative Risk Analysis
Link NOC:Chemical Process Safety Lecture 43 - Fault Trees: Quantitative Risk Analysis
Link NOC:Chemical Process Safety Lecture 44 - Cause Consequence Analysis and Layer of Protection Analysis
Link NOC:Chemical Process Safety Lecture 45 - Bow-Tie Analysis
Link NOC:Chemical Process Safety Lecture 46 - Accident Research: Introduction
Link NOC:Chemical Process Safety Lecture 47 - Accident Causation Theories
Link NOC:Chemical Process Safety Lecture 48 - Accident Investigation Procedure - I
Link NOC:Chemical Process Safety Lecture 49 - Accident Investigation Procedure - II
Link NOC:Chemical Process Safety Lecture 50 - Jaipur Terminal Fire, India: October 29, 2009
Link NOC:Chemical Process Safety Lecture 51 - The Flixborough UK, Cyclohexane Disaster: June 01, 1974
Link NOC:Chemical Process Safety Lecture 52 - Seveso Accident: July 10, 1976
Link NOC:Chemical Process Safety Lecture 53 - The Chernobyl Nuclear Disaster: April 26, 1986
Link NOC:Chemical Process Safety Lecture 54 - Bhopal Gas Tragedy: December 03, 1984
Link NOC:Chemical Process Safety Lecture 55 - Bhopal Gas Tragedy: Investigation
Link NOC:Chemical Process Safety Lecture 56 - Nuclear Radiation
Link NOC:Chemical Process Safety Lecture 57 - Process Safety Management
Link NOC:Chemical Process Safety Lecture 58 - Personal Protective Equipments
Link NOC:Chemical Process Safety Lecture 59 - Safety: Laws and Regulations
Link NOC:Chemical Process Safety Lecture 60 - Nuclear Disaster: Earthquake
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 1 - Introduction
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 2 - Coal as a Source of Energy
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 3 - Characterization of Coal
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 4 - Conventional Route for Energy Production from Coal
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 5 - Tutorial 1
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 6 - Cleaner Route for Energy Production from Coal
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 7 - Gasification of Coal - 1
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 8 - Gasification of Coal - 2
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 9 - Direct Liquefaction of Coal
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 10 - Tutorial 2
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 11 - Petroleum as a Source of Energy
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 12 - Characteristics of Crude Oil and Petroleum Products
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 13 - Refining of Crude Oil for Liquid Fuels Production
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 14 - Conversion of Intermediate Products
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 15 - Tutorial 3
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 16 - Impurities Removal from Liquid Fuels
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 17 - Residue Upgradation - 1
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 18 - Residue Upgradation - 2
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 19 - Heavy Crude Oil Processing
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 20 - Tutorial 4
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 21 - Properties and Routes for Energy Production
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 22 - Syn Gas Production from Natural Gas
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 23 - Syn Gas to Liquid Fuel Production
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 24 - Hydrogen Production from Natural Gas
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 25 - Tutorial 5
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 26 - Solar Energy - 1
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 27 - Solar Energy - 2
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 28 - Wind Energy - 1
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 29 - Wind Energy - 2
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 30 - Tutorial 6
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 31 - Hydro Energy - 1
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 32 - Hydro Energy - 2
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 33 - Geothermal Energy
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 34 - Tidal Energy
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 35 - Tutorial 7
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 36 - Energy from Biomass and Wastes 1 (Biological Route)
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 37 - Energy from Biomass and Wastes 2 (Chemical Route)
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 38 - Energy from Biomass and Wastes 3 (Physical Route)
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 39 - Energy Conversations
Link NOC:Technologies for Clean and Renewable Energy Production Lecture 40 - Tutorial 8
Link Chemical Reaction Engineering Lecture 1 - Introduction & Overview
Link Chemical Reaction Engineering Lecture 2 - Basic concepts : Representation of Chemical Reactions
Link Chemical Reaction Engineering Lecture 3 - Thermodynamics of Chemical Reactions - Part I
Link Chemical Reaction Engineering Lecture 4 - Thermodynamics of Chemical Reactions - Part II
Link Chemical Reaction Engineering Lecture 5 - Chemical Reaction Kinetics - Overview
Link Chemical Reaction Engineering Lecture 6 - Chemical Reaction Kinetics & Reactor Design
Link Chemical Reaction Engineering Lecture 7 - Chemical Reactor Design
Link Chemical Reaction Engineering Lecture 8 - Problem Solving: Thermodynamics & Kinetics
Link Chemical Reaction Engineering Lecture 9 - Complec Reactions - Introduction
Link Chemical Reaction Engineering Lecture 10 - Complex Reactions - Yield & Selectivity
Link Chemical Reaction Engineering Lecture 11 - Complex Reactions - Quasi Steady State and Quasi Equilibrium Approximations
Link Chemical Reaction Engineering Lecture 12 - Complex Reactions - Kinetics of Chain Reactions & polymerization
Link Chemical Reaction Engineering Lecture 13 - Catalytic reactions - Introduction
Link Chemical Reaction Engineering Lecture 14 - Catalytic reactions - Adsorption & Desorption
Link Chemical Reaction Engineering Lecture 15 - Catalytic reactions - Kinetics
Link Chemical Reaction Engineering Lecture 16 - Monomolecular Reaction Network & Lumping Analysis
Link Chemical Reaction Engineering Lecture 17 - Problem solving: Complex reactions
Link Chemical Reaction Engineering Lecture 18 - Gas-solid Catalytic Reactions - External diffusion
Link Chemical Reaction Engineering Lecture 19 - Gas-solid Catalytic Reactions - Transport in Catalyst Pellet
Link Chemical Reaction Engineering Lecture 20 - Gas-solid Catalytic Reactions - Diffusion & Reaction - I
Link Chemical Reaction Engineering Lecture 21 - Gas-solid Catalytic Reactions - Diffusion & Reaction - II
Link Chemical Reaction Engineering Lecture 22 - Gas-solid Catalytic Reactions - Diffusion & Reaction - III
Link Chemical Reaction Engineering Lecture 23 - Gas-solid Catalytic Reactions - Nonisothermal effects
Link Chemical Reaction Engineering Lecture 24 - Gas-solid Noncatalytic Reactions
Link Chemical Reaction Engineering Lecture 25 - Gas-Liquid Reactions
Link Chemical Reaction Engineering Lecture 26 - Problem solving: Heterogenous reactions
Link Chemical Reaction Engineering Lecture 27 - Chemical Reactor Design: Mass & Energy Balances
Link Chemical Reaction Engineering Lecture 28 - Chemical Reactor Design: Mass & Energy Balances for Heterogenous Reactions
Link Chemical Reaction Engineering Lecture 29 - Nonisothermal Reactor Operation
Link Chemical Reaction Engineering Lecture 30 - Case Study - Ethane dehyrogenation
Link Chemical Reaction Engineering Lecture 31 - Case Study - Hydrogenation of Oil
Link Chemical Reaction Engineering Lecture 32 - Case Study - Ammonia Synthesis
Link Chemical Reaction Engineering Lecture 33 - Autothermal reactors
Link Chemical Reaction Engineering Lecture 34 - Parametric Sensitivity
Link Chemical Reaction Engineering Lecture 35 - CSTR - multiple steady states
Link Chemical Reaction Engineering Lecture 36 - Stability Analysis - Basics
Link Chemical Reaction Engineering Lecture 37 - Stability Analysis - Examples
Link Chemical Reaction Engineering Lecture 38 - Nonideal flow and reactor performance - I
Link Chemical Reaction Engineering Lecture 39 - Nonideal flow and reactor performance - II
Link Chemical Reaction Engineering Lecture 40 - Problem solving: Reactor Design
Link Fundamentals of Transport Processes Lecture 1 - Introduction
Link Fundamentals of Transport Processes Lecture 2 - Dimensional Analysis
Link Fundamentals of Transport Processes Lecture 3 - Dimensional Analysis (Continued...)
Link Fundamentals of Transport Processes Lecture 4 - Dimensionless Groups
Link Fundamentals of Transport Processes Lecture 5 - Continuum description
Link Fundamentals of Transport Processes Lecture 6 - Mechanisms of diffusion - I
Link Fundamentals of Transport Processes Lecture 7 - Mechanisms of diffusion - II
Link Fundamentals of Transport Processes Lecture 8 - Unidirectional Transport Cartesian Coordinates - I
Link Fundamentals of Transport Processes Lecture 9 - Unidirectional Transport Cartesian Coordinates - II Similarity Solutions
Link Fundamentals of Transport Processes Lecture 10 - Unidirectional Transport Cartesian Coordinates - III Similarity Solutions
Link Fundamentals of Transport Processes Lecture 11 - Unidirectional Transport Cartesian Coordinates - IV Seperation of Variables
Link Fundamentals of Transport Processes Lecture 12 - Unidirectional Transport Cartesian Coordinates - V Seperation of Variables
Link Fundamentals of Transport Processes Lecture 13 - Unidirectional Transport Cartesian Coordinates - VI Oscillatory Flows
Link Fundamentals of Transport Processes Lecture 14 - Unidirectional Transport Cartesian Coordinates - VII Momentum Source in the Flow
Link Fundamentals of Transport Processes Lecture 15 - Unidirectional Transport Cartesian Coordinates - VIII Heat & Mass Sources
Link Fundamentals of Transport Processes Lecture 16 - Unidirectional Transport Cylindrical Coordinates - I Conservation Equations
Link Fundamentals of Transport Processes Lecture 17 - Unidirectional Transport Cylindrical Coordinates - II Similarity Solutions
Link Fundamentals of Transport Processes Lecture 18 - Unidirectional Transport Cylindrical Coordinates - III Seperation of Variables
Link Fundamentals of Transport Processes Lecture 19 - Unidirectional Transport Cylindrical Coordinates - IV Steady flow in a pipe
Link Fundamentals of Transport Processes Lecture 20 - Unidirectional Transport Cylindrical Coordinates - V Oscillatory flow in a pipe
Link Fundamentals of Transport Processes Lecture 21 - Unidirectional Transport Cylindrical Coordinates - VI Oscillatory flow in a pipe Regular Perturbation Expansion
Link Fundamentals of Transport Processes Lecture 22 - Unidirectional Transport Cylindrical Coordinates - VII Oscillatory flow in a pipe Singular Perturbation Expansion
Link Fundamentals of Transport Processes Lecture 23 - Unidirectional Transport Spherical Coordinates - I Balance Equation
Link Fundamentals of Transport Processes Lecture 24 - Unidirectional Transport Spherical Coordinates - II Seperation of Variables
Link Fundamentals of Transport Processes Lecture 25 - Mass & Energy Conservation Cartesian Coordinates
Link Fundamentals of Transport Processes Lecture 26 - Mass & Energy Conservation Cartesian Coordinates Heat Conduction in a Cube
Link Fundamentals of Transport Processes Lecture 27 - Mass & Energy Conservation Spherical Coordinates Balance Laws
Link Fundamentals of Transport Processes Lecture 28 - Mass & Energy Conservation Cylindrical Coordinates
Link Fundamentals of Transport Processes Lecture 29 - Diffusion Equation Spherical Co-ordinates Seperation of Variables
Link Fundamentals of Transport Processes Lecture 30 - Diffusion Equation Spherical Co-ordinates Seperation of Variables (Continued...)
Link Fundamentals of Transport Processes Lecture 31 - Diffusion Equation Spherical Co-ordinates Effective Conductivity of a Composite
Link Fundamentals of Transport Processes Lecture 32 - Diffusion Equation Spherical Harmonics
Link Fundamentals of Transport Processes Lecture 33 - Diffusion Equation Delta Functions
Link Fundamentals of Transport Processes Lecture 34 - Diffusion Equation Multipole Expansions
Link Fundamentals of Transport Processes Lecture 35 - Diffusion Equation Greens Function Formulations
Link Fundamentals of Transport Processes Lecture 36 - High Peclet Number Transport Flow Past a Flat Plate
Link Fundamentals of Transport Processes Lecture 37 - High Peclet Number Transport Heat Transfer from a Spherical Particle - I
Link Fundamentals of Transport Processes Lecture 38 - High Peclet Number Transport Heat Transfer from a Spherical Particle - II
Link Fundamentals of Transport Processes Lecture 39 - High Peclet Number Transport Heat Transfer from a Gas Bubble
Link Fundamentals of Transport Processes Lecture 40 - Summary
Link Fundamentals of Transport Processes - II Lecture 1 - Review of Fundamentals of Transport Processors I
Link Fundamentals of Transport Processes - II Lecture 2 - Introduction
Link Fundamentals of Transport Processes - II Lecture 3 - Vectors and Tensors
Link Fundamentals of Transport Processes - II Lecture 4 - Vector calculus
Link Fundamentals of Transport Processes - II Lecture 5 - Vector calculus
Link Fundamentals of Transport Processes - II Lecture 6 - Curvilinear co-ordinates
Link Fundamentals of Transport Processes - II Lecture 7 - Kinematics
Link Fundamentals of Transport Processes - II Lecture 8 - Rate of deformation tensor
Link Fundamentals of Transport Processes - II Lecture 9 - Mass conservation equation
Link Fundamentals of Transport Processes - II Lecture 10 - Momentum conservation equation
Link Fundamentals of Transport Processes - II Lecture 11 - Angular momentum conservation equation
Link Fundamentals of Transport Processes - II Lecture 12 - Boundary conditions
Link Fundamentals of Transport Processes - II Lecture 13 - Mechanical energy conservation
Link Fundamentals of Transport Processes - II Lecture 14 - Unidirectional flow
Link Fundamentals of Transport Processes - II Lecture 15 - Viscous flows
Link Fundamentals of Transport Processes - II Lecture 16 - Viscous flows
Link Fundamentals of Transport Processes - II Lecture 17 - Flow around a sphere
Link Fundamentals of Transport Processes - II Lecture 18 - Force on moving sphere
Link Fundamentals of Transport Processes - II Lecture 19 - Torque on rotating sphere
Link Fundamentals of Transport Processes - II Lecture 20 - Effective viscosity of a suspension
Link Fundamentals of Transport Processes - II Lecture 21 - Flow in a corner
Link Fundamentals of Transport Processes - II Lecture 22 - Lubrication flow
Link Fundamentals of Transport Processes - II Lecture 23 - Lubrication flow
Link Fundamentals of Transport Processes - II Lecture 24 - Inertia of a low Reynolds number
Link Fundamentals of Transport Processes - II Lecture 25 - Potential flow
Link Fundamentals of Transport Processes - II Lecture 26 - Potential flow around a sphere
Link Fundamentals of Transport Processes - II Lecture 27 - Two-dimensional potential flow
Link Fundamentals of Transport Processes - II Lecture 28 - Two-dimensional potential flow
Link Fundamentals of Transport Processes - II Lecture 29 - Flow around a cylinder
Link Fundamentals of Transport Processes - II Lecture 30 - Conformal transforms in potential flow
Link Fundamentals of Transport Processes - II Lecture 31 - Boundary layer theory
Link Fundamentals of Transport Processes - II Lecture 32 - Boundary layer past a flat plate
Link Fundamentals of Transport Processes - II Lecture 33 - Stagnation point flow
Link Fundamentals of Transport Processes - II Lecture 34 - Falkner-Skan Boundary Layer Solutions
Link Fundamentals of Transport Processes - II Lecture 35 - Falkner-Skan Boundary Layer Solutions
Link Fundamentals of Transport Processes - II Lecture 36 - Vorticity Dynamics
Link Fundamentals of Transport Processes - II Lecture 37 - Vorticity Dynamics
Link Fundamentals of Transport Processes - II Lecture 38 - Turbulence
Link Fundamentals of Transport Processes - II Lecture 39 - Turbulence
Link Fundamentals of Transport Processes - II Lecture 40 - Turbulent flow in a channel
Link Modern Instrumental Methods of Analysis Lecture 1 - Introduction to the Modern Instrumental Methods of Analysis
Link Modern Instrumental Methods of Analysis Lecture 2 - Atomic Structure
Link Modern Instrumental Methods of Analysis Lecture 3 - Physical Properties of Electromagnetic Radiation
Link Modern Instrumental Methods of Analysis Lecture 4 - Interaction of Matter with Radiation
Link Modern Instrumental Methods of Analysis Lecture 5 - Ultraviolet and Visible Spectrophotometry-1 (i. Theoretical Aspects)
Link Modern Instrumental Methods of Analysis Lecture 6 - Ultraviolet and Visible Spectrophotometry-2 (ii. Theoretical Aspects)
Link Modern Instrumental Methods of Analysis Lecture 7 - Ultraviolet and Visible Spectrophotometry-3 (iii. Theoretical Aspects)
Link Modern Instrumental Methods of Analysis Lecture 8 - Ultraviolet and Visible Spectrophotometry-4 (iv. Instrumentation)
Link Modern Instrumental Methods of Analysis Lecture 9 - Ultraviolet and Visible Spectrophotometry-5 (v. Instrumentation)
Link Modern Instrumental Methods of Analysis Lecture 10 - Ultraviolet and Visible Spectrophotometry-6 (vi. Applications)
Link Modern Instrumental Methods of Analysis Lecture 11 - Fluorescence and Phosphorescence Spectrophotometry-1 (i. Theoretical Aspects)
Link Modern Instrumental Methods of Analysis Lecture 12 - Fluorescence and Phosphorescence Spectrophotometry-2 (ii. Instrumentation)
Link Modern Instrumental Methods of Analysis Lecture 13 - Fluorescence and Phosphorescence Spectrophotometry-3 (iii. Application)
Link Modern Instrumental Methods of Analysis Lecture 14 - Atomic Fluorescence (i. Theoretical aspects)
Link Modern Instrumental Methods of Analysis Lecture 15 - X- Ray Analytical Techniques-1 (ii. Instrumentation)
Link Modern Instrumental Methods of Analysis Lecture 16 - X- Ray Analytical Techniques-2 (iii. Applications)
Link Modern Instrumental Methods of Analysis Lecture 17 - Atomic Absorption Spectrometry-1 (i. Theoretical Aspects)
Link Modern Instrumental Methods of Analysis Lecture 18 - Atomic Absorption Spectrometry-2 (ii.Theoretical Aspects)
Link Modern Instrumental Methods of Analysis Lecture 19 - Atomic Absorption Spectrometry-3 (iii. Instrumentation)
Link Modern Instrumental Methods of Analysis Lecture 20 - Atomic Absorption Spectrometry-4 (iv. Instrumentation)
Link Modern Instrumental Methods of Analysis Lecture 21 - Atomic Absorption Spectrometry-5 (v. Instrumentation)
Link Modern Instrumental Methods of Analysis Lecture 22 - Atomic Absorption Spectrometry-6 (vi. Signal handling)
Link Modern Instrumental Methods of Analysis Lecture 23 - Atomic Absorption Spectrometry-7 (vii. Interferences)
Link Modern Instrumental Methods of Analysis Lecture 24 - Atomic Absorption Spectrometry-8 (viii. Hydride Generation AAS)
Link Modern Instrumental Methods of Analysis Lecture 25 - Atomic Absorption Spectrometry-9 (ix.Cold Vapour Mercury AAS)
Link Modern Instrumental Methods of Analysis Lecture 26 - Electrothermal Atomic Absorption Spectrometry-10 (x. Electrothermal Aspects)
Link Modern Instrumental Methods of Analysis Lecture 27 - Electrothermal Atomic Absorption Spectrometry-11 (xi. Practical Aspects)
Link Modern Instrumental Methods of Analysis Lecture 28 - Inductively Coupled Plasma Atomic Emission Spectrometry-1 (i. Theoretical Aspects)
Link Modern Instrumental Methods of Analysis Lecture 29 - Inductively Coupled Plasma Atomic Emission Spectrometry-2 (ii. Instrumentation)
Link Modern Instrumental Methods of Analysis Lecture 30 - Inductively Coupled Plasma Atomic Emission Spectrometry-3 (iii. Comparison of ICP & AAS)
Link Modern Instrumental Methods of Analysis Lecture 31 - Infrared Spectroscopy-1 (i. Theoretical Aspects)
Link Modern Instrumental Methods of Analysis Lecture 32 - Infrared Spectroscopy-2 (ii. Practical Aspects)
Link Modern Instrumental Methods of Analysis Lecture 33 - Infrared Spectroscopy-3 (iii. Nondispensive IR, Mass spectrometer)
Link Modern Instrumental Methods of Analysis Lecture 34 - Introduction to Mass Spectrometry
Link Modern Instrumental Methods of Analysis Lecture 35 - Introduction to Nuclear Magnetic Resonance Spectroscopy
Link Modern Instrumental Methods of Analysis Lecture 36 - Fundamentals of Electrochemical Techniques-1 (i. Introduction)
Link Modern Instrumental Methods of Analysis Lecture 37 - Fundamentals of Electrochemical Techniques-2 (ii. Introduction) (Continued...)
Link Modern Instrumental Methods of Analysis Lecture 38 - Polarography-1 (i. Introduction)
Link Modern Instrumental Methods of Analysis Lecture 39 - Polarography-2 (ii. Applications)
Link Modern Instrumental Methods of Analysis Lecture 40 - Chromatography-1 (i. Introduction)
Link Modern Instrumental Methods of Analysis Lecture 41 - Gas chromatography-1 (i. Instrumentation)
Link Modern Instrumental Methods of Analysis Lecture 42 - Gas chromatography-2 (ii. Applications)
Link Modern Instrumental Methods of Analysis Lecture 43 - Gas chromatography-3 (iii. Applications)
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 1 - Why do we study transport processes?
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 2 - Transport by convection and diffusion
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 3 - Non-dimensional analysis of beams
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 4 - Dimensional analysis: Force on a particle settling in a fluid
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 5 - Dimensional analysis: Heat transfer in a heat exchanger
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 6 - Dimensional analysis: Mass transfer from a particle suspended in a fluid
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 7 - Dimensional analysis: Power of an impeller
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 8 - Dimensional analysis: Scaling up of an impeller
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 9 - Dimensional analysis: Convection and diffusion
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 10 - Dimensional analysis: Physical interpretation of dimensionless groups
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 11 - Dimensional analysis: Correlations for dimensionless groups
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 12 - Dimensional analysis: Natural and forced convection
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 13 - Continuum description of fluids
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 14 - Conservation equations and constitutive relations
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 15 - Diffusion: Mechanism of mass diffusion in gases
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 16 - Diffusion: Estimation of mass diffusion coefficient
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 17 - Diffusion: Momentum diffusion coefficient
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 18 - Diffusion: Thermal diffusion coefficient
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 19 - Unidirectional transport: Conservation equation for heat and mass transfer
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 20 - Unidirectional transport: Conservation equation for momentum transfer
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 21 - Unidirectional transport: Similarity solution for infinite domain
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 22 - Unidirectional transport: Similarity solution for infinite domain continued
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 23 - Unidirectional transport: Similarity solution for mass transfer into a falling film
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 24 - Unidirectional transport: Similarity solution for decay of a pulse
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 25 - Unidirectional transport: Similarity solution for decay of a pulse continued
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 26 - Unidirectional transport: Separation of variables for transport in a finite domain
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 27 - Unidirectional transport: Separation of variables for transport in a finite domain (Continued...)
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 28 - Unidirectional transport: Separation of variables for transport in a finite domain (Continued...)
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 29 - Unidirectional transport: Separation of variables for transport in a finite domain (Continued...)
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 30 - Unidirectional transport: Balance laws in cylindrical co-ordinates. Heat transfer across the wall of a pipe
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 31 - Unidirectional transport: Balance laws in cylindrical co-ordinates. Unsteady heat conduction from a cylinder
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 32 - Unidirectional transport: Balance laws in cylindrical co-ordinates. Unsteady heat conduction from a cylinder (Continued...)
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 33 - Unidirectional transport: Balance laws in cylindrical co-ordinates. Unsteady heat conduction from a cylinder (Continued...)
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 34 - Unidirectional transport: Balance laws in cylindrical co-ordinates. Similarity solution for heat conduction from a wire
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 35 - Unidirectional transport: Effect of body force in momentum transfer. Falling film
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 36 - Unidirectional transport: Effect of pressure in momentum transfer. Flow in a pipe.
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 37 - Unidirectional transport: Friction factor for flow in a pipe
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 38 - Unidirectional transport: Laminar and turbulent flow in a pipe
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 39 - Unidirectional transport: Laminar and turbulent flow in a pipe
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 40 - Unidirectional transport: Oscillatory flow in a pipe. Solution using complex variables
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 41 - Unidirectional transport: Oscillatory flow in a pipe. Solution using complex variables
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 42 - Unidirectional transport: Oscillatory flow in a pipe. Solution using complex variables (Continued...)
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 43 - Unidirectional transport: Oscillatory flow in a pipe. Low and high Reynolds number solutions
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 44 - Unidirectional transport: Spherical co-ordiantes. Heat conduction from a sphere
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 45 - Mass and energy balance equations in Cartesian co-ordinates
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 46 - Mass and energy balance equations in Cartesian co-ordinates Vector notation
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 47 - Mass and energy balance equations in spherical co-ordinates
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 48 - Mass and energy balance equations in spherical co-ordinates
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 49 - Momentum balance: Incompressible Navier-Stokes equations
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 50 - Balance equation: Convection and diffusion dominated regimes
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 51 - Diffusion equation: Heat conduction in a rectangular solid
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 52 - Diffusion equation: Heat conduction in a rectangular solid (Continued...)
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 53 - Diffusion equation: Heat conduction around a spherical inclusion
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 54 - Diffusion equation: Heat conduction around a spherical inclusion
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 55 - Diffusion equation: Effective conductivity of a composite
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 56 - Diffusion equation: Spherical harmonic solutions
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 57 - Diffusion equation: Conduction from a point source
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 58 - Diffusion equation: Method of Greens functions
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 59 - Diffusion equation: Method of images
Link NOC:Transport Processes I: Heat and Mass Transfer Lecture 60 - Diffusion equation: Equivalence of spherical harmonics and multipole expansion
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 1 - Course Introduction
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 2 - Atomic structure
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 3 - Interaction of EM radiation with matter
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 4 - Atomic and molecular orbitals
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 5 - Interaction of EM radiation with matter - I
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 6 - Interaction of EM radiation with matter - II
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 7 - Interaction of interaction of EM radiation with matter - III
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 8 - Emission and absorption spectra
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 9 - MO theory
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 10 - Structure – property relationship of organic compounds
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 11 - Woodword Fieser rules, structure – property relationship
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 12 - Beer-Lamberts law
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 13 - Deviations from Beer-Lamberts law, relative concentration error, instrumentation - I
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 14 - UV-Visible spectrophotometry, instrumentation - II
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 15 - UV-Visible spectrophotometry, instrumentation - III
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 16 - UV-Visible spectrophotometry, instrumentation - IV
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 17 - Quantitative analysis – I
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 18 - Quantitative analysis – II
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 19 - Quantitative analysis – III
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 20 - Quantitative analysis – IV
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 21 - Fluorescence spectrophotometry – I
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 22 - Fluorescence spectrophotometry - II
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 23 - Fluorescence spectrophotometry - III
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 24 - Instrumentation
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 25 - Chemical analysis, applications
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 26 - Chemiluminiscence, principles
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 27 - Status of spectrophotometry vis a vis environment
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 28 - Separations methods
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 29 - Method development
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 30 - Boron, chloride
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 31 - Fluoride
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 32 - Phenols
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 33 - Arsenic, Free chlorine
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 34 - Magnesium
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 35 - Nonionic surfactants, iron, phosphate
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 36 - Nitrite , manganese
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 37 - Cadmium, copper, lead
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 38 - Total hardness, zinc
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 39 - Nitrate, chromium
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 40 - Determination of aluminum, cyanide, sulphate
Link NOC:Atomic and Molecular Absorption Spectrometry for Pollution Monitoring Lecture 41 - Sulphate, ammonia, Conclusions
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 1 - Course Introduction
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 2 - Atomic structure - I
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 3 - Atomic structure - II
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 4 - Electronic arrangement in the Elements - I
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 5 - Electronic arrangement in the Elements - II
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 6 - Interaction of EM radiation with matter - I
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 7 - Interaction of EM radiation with matter - II
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 8 - Interaction of EM radiation with matter - III
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 9 - Interaction of EM radiation with matter - IV
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 10 - Theoretical basis of AAS - I
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 11 - Theoretical basis of AAS - II
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 12 - Theoretical basis of AAS - III
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 13 - Theoretical basis of AAS - IV
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 14 - Instrumentation in AAS - I
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 15 - Instrumentation in AAS - I (Continued...) Radiation Sources
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 16 - Instrumentation in AAS Radiation Sources: Sample introduction
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 17 - Instrumentation in AAS - III : Burners
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 18 - Instrumentation in AAS - IV : Flame Processes
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 19 - Instrumentation in AAS - V : Atomization Processes
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 20 - Instrumentation in AAS - VI : Optics
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 21 - Instrumentation in AAS - VII : Optics and Detectors
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 22 - Interferences in AAS
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 23 - Background correction on flame AAS - I
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 24 - Interferences in AAS - II
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 25 - Interferences in AAS - III
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 26 - Hydride Generation AAS - I
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 27 - Hydride Generation AAS and Cold Vapour Hg AAS
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 28 - Cold vapor Hg AAS Flame Emission
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 29 - Mercury cold vapour technique, FAES and Electrothermal AAS
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 30 - Electrothermal AAS - II
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 31 - GF AAS Interferences - I
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 32 - GF AAS Interferences - II
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 33 - Interference in ETAAS GF AAS : Individual elements
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 34 - Individual Elements AAS
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 35 - Methods, Nomenclature and techniques : Individual Elements
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 36 - Technology and Applications - I
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 37 - Technology and Applications - II
Link NOC:Trace and Ultra-trace Analysis of Metals using Atomic Absorption Spectrometry Lecture 38 - Conclusions
Link NOC:Inductive Couple Plasma Atomic Emmission Spectrometry for Pollution Monitoring Lecture 1 - Introduction to Pollution Control - I
Link NOC:Inductive Couple Plasma Atomic Emmission Spectrometry for Pollution Monitoring Lecture 2 - Introduction to Pollution Control - II
Link NOC:Inductive Couple Plasma Atomic Emmission Spectrometry for Pollution Monitoring Lecture 3 - Atomic structure - I
Link NOC:Inductive Couple Plasma Atomic Emmission Spectrometry for Pollution Monitoring Lecture 4 - Atomic structure - II
Link NOC:Inductive Couple Plasma Atomic Emmission Spectrometry for Pollution Monitoring Lecture 5 - Atomic structure - III
Link NOC:Inductive Couple Plasma Atomic Emmission Spectrometry for Pollution Monitoring Lecture 6 - Atomic structure - IV
Link NOC:Inductive Couple Plasma Atomic Emmission Spectrometry for Pollution Monitoring Lecture 7 - Nature of electromagnetic radiation
Link NOC:Inductive Couple Plasma Atomic Emmission Spectrometry for Pollution Monitoring Lecture 8 - Interaction of EM radiation with matter - I
Link NOC:Inductive Couple Plasma Atomic Emmission Spectrometry for Pollution Monitoring Lecture 9 - Interaction of EM radiation with matter - II
Link NOC:Inductive Couple Plasma Atomic Emmission Spectrometry for Pollution Monitoring Lecture 10 - Instrumentation for ICP AES - I
Link NOC:Inductive Couple Plasma Atomic Emmission Spectrometry for Pollution Monitoring Lecture 11 - Instrumentation for ICP AES - II
Link NOC:Inductive Couple Plasma Atomic Emmission Spectrometry for Pollution Monitoring Lecture 12 - Instrumentation for ICP AES - III
Link NOC:Inductive Couple Plasma Atomic Emmission Spectrometry for Pollution Monitoring Lecture 13 - Instrumentation for ICP AES - IV - Optical mountings
Link NOC:Inductive Couple Plasma Atomic Emmission Spectrometry for Pollution Monitoring Lecture 14 - Instrumentation for ICP AES - V - Detectors
Link NOC:Inductive Couple Plasma Atomic Emmission Spectrometry for Pollution Monitoring Lecture 15 - Instrumentation for ICP AES - VI - ICP Torches
Link NOC:Inductive Couple Plasma Atomic Emmission Spectrometry for Pollution Monitoring Lecture 16 - Instrumentation for ICP AES - VII - Plasma characteristics
Link NOC:Inductive Couple Plasma Atomic Emmission Spectrometry for Pollution Monitoring Lecture 17 - Instrumentation for ICP AES - VIII - Instruments
Link NOC:Inductive Couple Plasma Atomic Emmission Spectrometry for Pollution Monitoring Lecture 18 - Practice and Applications of ICP AES - I - Nebulizers
Link NOC:Inductive Couple Plasma Atomic Emmission Spectrometry for Pollution Monitoring Lecture 19 - Practice and Applications of ICP AES - II - Sample handling
Link NOC:Inductive Couple Plasma Atomic Emmission Spectrometry for Pollution Monitoring Lecture 20 - Practice and Applications of ICP AES - III - Chemical analysis
Link NOC:Inductive Couple Plasma Atomic Emmission Spectrometry for Pollution Monitoring Lecture 21 - Practice and Applications of ICP AES - IV - Chemical analysis
Link NOC:Inductive Couple Plasma Atomic Emmission Spectrometry for Pollution Monitoring Lecture 22 - Practice and Applications of ICP AES - V - Chemical analysis
Link NOC:Infrared Spectroscopy for Pollution Monitoring Lecture 1 - Introduction to Analytical Science and Infrared Spectroscopy
Link NOC:Infrared Spectroscopy for Pollution Monitoring Lecture 2 - Environmental Analytical Science
Link NOC:Infrared Spectroscopy for Pollution Monitoring Lecture 3 - Techniques of Elemental Analysis
Link NOC:Infrared Spectroscopy for Pollution Monitoring Lecture 4 - Atomic Structure - I
Link NOC:Infrared Spectroscopy for Pollution Monitoring Lecture 5 - Atomic Structure - II
Link NOC:Infrared Spectroscopy for Pollution Monitoring Lecture 6 - Atomic Structure - III
Link NOC:Infrared Spectroscopy for Pollution Monitoring Lecture 7 - Atomic Structure - IV
Link NOC:Infrared Spectroscopy for Pollution Monitoring Lecture 8 - Interaction of electromagnetic radiation with matter - I
Link NOC:Infrared Spectroscopy for Pollution Monitoring Lecture 9 - Interaction of electromagnetic radiation with matter - II
Link NOC:Infrared Spectroscopy for Pollution Monitoring Lecture 10 - Interaction of electromagnetic radiation with matter - III
Link NOC:Infrared Spectroscopy for Pollution Monitoring Lecture 11 - Interaction of electromagnetic radiation with matter - IV
Link NOC:Infrared Spectroscopy for Pollution Monitoring Lecture 12 - Interaction of electromagnetic radiation with matter - V
Link NOC:Infrared Spectroscopy for Pollution Monitoring Lecture 13 - Interaction of electromagnetic radiation with matter - VI
Link NOC:Infrared Spectroscopy for Pollution Monitoring Lecture 14 - Infrared spectroscopy - Introduction
Link NOC:Infrared Spectroscopy for Pollution Monitoring Lecture 15 - Infra Red Instrumentation
Link NOC:Infrared Spectroscopy for Pollution Monitoring Lecture 16 - Fourier Transform Infrared Spectroscopy
Link NOC:Infrared Spectroscopy for Pollution Monitoring Lecture 17 - Sample Handling in IR
Link NOC:Infrared Spectroscopy for Pollution Monitoring Lecture 18 - Instrumentation in IR
Link NOC:Infrared Spectroscopy for Pollution Monitoring Lecture 19 - Applications of IR
Link NOC:Infrared Spectroscopy for Pollution Monitoring Lecture 20 - IR Spectra Interpretation
Link NOC:Infrared Spectroscopy for Pollution Monitoring Lecture 21 - IR Gas Analysers
Link NOC:Organo Metallic Chemistry Lecture 1 - Introduction of Organometallic Chemistry
Link NOC:Organo Metallic Chemistry Lecture 2 - Counting of Electrons
Link NOC:Organo Metallic Chemistry Lecture 3 - Ligand Substitution Reactions
Link NOC:Organo Metallic Chemistry Lecture 4 - Oxidative Addition [1.Concerted Mechanism]
Link NOC:Organo Metallic Chemistry Lecture 5 - Oxidative Addition [2.SN2 Mechanism]
Link NOC:Organo Metallic Chemistry Lecture 6 - Oxidative Addition [3. Radical Mechanism]
Link NOC:Organo Metallic Chemistry Lecture 7 - Reductive Elimination
Link NOC:Organo Metallic Chemistry Lecture 8 - Migratory Insertion and Elimination Reactions
Link NOC:Organo Metallic Chemistry Lecture 9 - Migration and Insertion Reactions
Link NOC:Organo Metallic Chemistry Lecture 10 - Alpha-Migratory Insertion and alpha-Elimination Reactions
Link NOC:Organo Metallic Chemistry Lecture 11 - Beta-Migratory Insertion
Link NOC:Organo Metallic Chemistry Lecture 12 - Beta-Elimination Reaction
Link NOC:Organo Metallic Chemistry Lecture 13 - Alpha-Abstraction and beta-Abstraction
Link NOC:Organo Metallic Chemistry Lecture 14 - 4-Center Reactions; [2+2] Reactions
Link NOC:Organo Metallic Chemistry Lecture 15 - External Attack by a Ligand and Reductive Coupling
Link NOC:Organo Metallic Chemistry Lecture 16 - Hydrogenation Reaction
Link NOC:Organo Metallic Chemistry Lecture 17 - Hydrogenation Reaction [Dihydride Catalyst]
Link NOC:Organo Metallic Chemistry Lecture 18 - Stereoselective Hydrogenation Reaction
Link NOC:Organo Metallic Chemistry Lecture 19 - Carbonylation Reaction [1. Monsanto Acetic Acid Process 2. Hydroformylation 3. Hydrocarboxylation]
Link NOC:Organo Metallic Chemistry Lecture 20 - Carbonylation Reaction [1. Hydroformylation 2. Hydrocarboxylation 3. Hydrocyanation]
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 1 - Fundamentals of Chemical thermodynamics
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 2 - Work
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 3 - Tutorial-1
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 4 - First Law of Thermodynamics
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 5 - Tutorial-2
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 6 - Adiabatic processes
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 7 - Entropy
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 8 - Entropy and Second Law: Basics
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 9 - Entropy and Second Law: Applications
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 10 - Third Law of Thermodynamics
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 11 - Discussion on Helmholtz energy
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 12 - Discussion on Gibbs Energy
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 13 - Maxwell relations, Properties of Gibbs energy
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 14 - Further discussion on properties of Gibbs energy
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 15 - Fugacity
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 16 - Tutorial session
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 17 - Tutorial session
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 18 - Chemical potential of a substance in mixture
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 19 - Chemical potential of Liquids, Raoult’s Law, Henry’s Law
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 20 - Thermodynamics of mixing, Excess functions
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 21 - Partial molar volume
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 22 - Activities (Accounting for deviations from Ideal behaviour)
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 23 - Tutorial on thermodynamics of mixing and deviations from ideality
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 24 - Further discussion on relation between C p and C v
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 25 - Chemical Equilibrium
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 26 - Perfect gas equilibria
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 27 - Equilibrium constant
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 28 - Effect of pressure on equilibrium constant and equilibrium composition
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 29 - Effect of temperature on equilibria
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 30 - Biological standard states and pH
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 31 - Tutorial 1 - Equilibrium constant
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 32 - Tutorial 2 - Equilibrium constant
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 33 - Acids and bases and Equilibrium concepts
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 34 - pH Scale Strong and weak acids and bases
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 35 - Strong and weak acids and bases
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 36 - Acid-base titrations
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 37 - pH curve for titration of weak acid with strong base Buffers and indicators
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 38 - Thermodynamics in systems of biological interest
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 39 - Calorimetry
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 40 - Differential scanning calorimetry (DSC)
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 41 - Further discussion on Differential Scanning Calorimetry (DSC)
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 42 - Explaining Differential Scanning Calorimetric Profiles (DSC Profiles)
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 43 - Applications of DSC in thermal unfolding of proteins and protein-solvent interactions
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 44 - Further discussion on applications of DSC in thermal unfolding of proteins and protein-solvent interactions
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 45 - Isothermal Titration calorimetry (ITC)
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 46 - Further discussion on Isothermal Titration calorimetry (ITC)
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 47 - ITC Experimental Design and Isothermal Titration Calorimetry (ITC) in Drug Design
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 48 - Isothermal Titration Calorimetry (ITC) in Drug Design
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 49 - Isothermal Titration Calorimetry (ITC) in Engineering Binding Affinity
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 50 - Calorimetry in identifying partially folded states of proteins (Molten Globule State)
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 51 - Thermodynamic Characterization of Partially Folded States of Proteins
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 52 - Quantitative Thermodynamic Characterization of Partially Folded States of Proteins
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 53 - ITC in Drug-Protein Interactions
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 54 - Identifying sites for Drug-Protein Interactions by ITC
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 55 - Identifying sites for Drug-Protein Interactions, DSC of Protein-Ligand Complexes. Enthalpy-Entropy Compensation
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 56 - Estimation of Binding Constants in Strong to Ultratight Protein-Ligand, Interactions Using Differential Scanning Calorimetry
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 57 - Continuation of discussion on... Estimation of Binding Constants in Strong to UltratightProtein-Ligand Interactions Using Differential Scanning Calorimetry
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 58 - Thermal unfolding of protein by non-calorimetric methods, Addressing thermodynamics of the process
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 59 - Titration Calorimetry as a tool to determine thermodynamic and Kinetic parameters of enzymes
Link NOC:Chemical and Biological Thermodynamics - Principles to Applications Lecture 60 - Summary of the course
Link NOC:Chemistry of Main Group Elements Lecture 1 - Classification of Elements and Periodic Properties
Link NOC:Chemistry of Main Group Elements Lecture 2 - Periodic Properties, Periodic Trends and Classification of Main Group Compounds
Link NOC:Chemistry of Main Group Elements Lecture 3 - Classification of Main Group Compounds
Link NOC:Chemistry of Main Group Elements Lecture 4 - Effective Nuclear Charge
Link NOC:Chemistry of Main Group Elements Lecture 5 - Structure and Bonding Aspects: Lewis Structures and VSEPR Theory
Link NOC:Chemistry of Main Group Elements Lecture 6 - Structure and Bonding Aspects: VSEPR Theory
Link NOC:Chemistry of Main Group Elements Lecture 7 - Structure and Bonding Aspects: Valence Bond Theory
Link NOC:Chemistry of Main Group Elements Lecture 8 - Structure and Bonding Aspects: Valence Bond Theory
Link NOC:Chemistry of Main Group Elements Lecture 9 - Structure and Bonding Aspects: MO Theory
Link NOC:Chemistry of Main Group Elements Lecture 10 - Structure and Bonding Aspects: MO Theory
Link NOC:Chemistry of Main Group Elements Lecture 11 - Structure and Bonding Aspects: MO Theory
Link NOC:Chemistry of Main Group Elements Lecture 12 - Structure and Bonding Aspects: MO Theory
Link NOC:Chemistry of Main Group Elements Lecture 13 - Chemistry of Hydrogen
Link NOC:Chemistry of Main Group Elements Lecture 14 - Chemistry of Hydrogen
Link NOC:Chemistry of Main Group Elements Lecture 15 - Chemistry of Hydrogen, Hydrides and Hydrogen Bonding
Link NOC:Chemistry of Main Group Elements Lecture 16 - Chemistry of Group 1 Elements
Link NOC:Chemistry of Main Group Elements Lecture 17 - Chemistry of Group 1 Elements
Link NOC:Chemistry of Main Group Elements Lecture 18 - Chemistry of Group 1 Elements
Link NOC:Chemistry of Main Group Elements Lecture 19 - Chemistry of Group 1 Elements
Link NOC:Chemistry of Main Group Elements Lecture 20 - Chemistry of Group 2 Elements
Link NOC:Chemistry of Main Group Elements Lecture 21 - Chemistry of Group 2 Elements
Link NOC:Chemistry of Main Group Elements Lecture 22 - Chemistry of Group 2 Elements
Link NOC:Chemistry of Main Group Elements Lecture 23 - Chemistry of Group 2 Elements
Link NOC:Chemistry of Main Group Elements Lecture 24 - Chemistry of Group 2 Elements
Link NOC:Chemistry of Main Group Elements Lecture 25 - Chemistry of Group 13 Elements
Link NOC:Chemistry of Main Group Elements Lecture 26 - Chemistry of Group 13 Elements
Link NOC:Chemistry of Main Group Elements Lecture 27 - Chemistry of Group 13 Elements
Link NOC:Chemistry of Main Group Elements Lecture 28 - Chemistry of Group 13 Elements
Link NOC:Chemistry of Main Group Elements Lecture 29 - Chemistry of Group 13 Elements
Link NOC:Chemistry of Main Group Elements Lecture 30 - Wades Rules
Link NOC:Chemistry of Main Group Elements Lecture 31 - Chemistry of Group 13 Elements
Link NOC:Chemistry of Main Group Elements Lecture 32 - Chemistry of Group 14 Elements
Link NOC:Chemistry of Main Group Elements Lecture 33 - Chemistry of Group 14 Elements
Link NOC:Chemistry of Main Group Elements Lecture 34 - Chemistry of Group 14 Elements
Link NOC:Chemistry of Main Group Elements Lecture 35 - Chemistry of Group 14 Elements
Link NOC:Chemistry of Main Group Elements Lecture 36 - Chemistry of Group 14 Elements
Link NOC:Chemistry of Main Group Elements Lecture 37 - Chemistry of Group 14 Elements
Link NOC:Chemistry of Main Group Elements Lecture 38 - Chemistry of Group 14 Elements
Link NOC:Chemistry of Main Group Elements Lecture 39 - Chemistry of Group 15 Elements
Link NOC:Chemistry of Main Group Elements Lecture 40 - Chemistry of Group 15 Elements
Link NOC:Chemistry of Main Group Elements Lecture 41 - Chemistry of Group 15 Elements
Link NOC:Chemistry of Main Group Elements Lecture 42 - Chemistry of Group 15 Elements
Link NOC:Chemistry of Main Group Elements Lecture 43 - Chemistry of Group 15 Elements
Link NOC:Chemistry of Main Group Elements Lecture 44 - Chemistry of Group 15 Elements
Link NOC:Chemistry of Main Group Elements Lecture 45 - Chemistry of Group 15 Elements
Link NOC:Chemistry of Main Group Elements Lecture 46 - Chemistry of Group 15 Elements
Link NOC:Chemistry of Main Group Elements Lecture 47 - Chemistry of Group 16 Elements
Link NOC:Chemistry of Main Group Elements Lecture 48 - Chemistry of Group 16 Elements
Link NOC:Chemistry of Main Group Elements Lecture 49 - Chemistry of Group 16 Elements
Link NOC:Chemistry of Main Group Elements Lecture 50 - Chemistry of Group 16 Elements
Link NOC:Chemistry of Main Group Elements Lecture 51 - Chemistry of Group 16 Elements
Link NOC:Chemistry of Main Group Elements Lecture 52 - Chemistry of Group 17 Elements
Link NOC:Chemistry of Main Group Elements Lecture 53 - Chemistry of Group 17 Elements
Link NOC:Chemistry of Main Group Elements Lecture 54 - Chemistry of Group 18 Elements
Link NOC:Chemistry of Main Group Elements Lecture 55 - Chemistry of Group 12 Elements
Link NOC:Chemistry of Main Group Elements Lecture 56 - Organometallic Compounds of Main Group Elements
Link NOC:Chemistry of Main Group Elements Lecture 57 - Organometallic Compounds of Main Group Elements
Link NOC:Chemistry of Main Group Elements Lecture 58 - Organometallic Compounds of Main Group Elements
Link NOC:Chemistry of Main Group Elements Lecture 59 - Organometallic Compounds of Main Group Elements
Link NOC:Chemistry of Main Group Elements Lecture 60 - Overall Summary
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 1 - History of Organometallic Compounds
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 2 - Polarity and Reactivity of M−C bonds
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 3 - Reactivity of Organometallic Compounds
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 4 - Reactivity of Organometallic Compounds
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 5 - 18 Valence Electron Rule and Classification
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 6 - 18 Valence Electron Rule and Classification
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 7 - Reactivity and types of Organometallic compounds
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 8 - Sigma-Donor Ligands
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 9 - Preparation of Sigma-Alkyl Compounds
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 10 - Preparation and Properties of Sigma-Alkyl Compounds
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 11 - Properties of Sigma-Alkyl Compounds
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 12 - β−elimination in Sigma-Alkyl Compounds
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 13 - β−elimination in Detail
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 14 - TM Sigma-Alkyl Complexes and its Application
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 15 - TM Sigma-Alkyl Complexes and its Application
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 16 - C−H Activation
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 17 - C−H Activation in Details
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 18 - C−H Activation in Details
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 19 - Characterization of C−H Activation
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 20 - Bonding in C−H Activation
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 21 - C−C Bond Activation
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 22 - C−C Bond Activation
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 23 - C−C Bond Activation in Details
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 24 - Transition Metal Perfluoroalkyl (RF−TM) Complexes
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 25 - Preparation of Transition Metal Perfluoroalkyl (RF−TM) Complexes
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 26 - C−F Activation
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 27 - Transition Metal Alkenyl/Aryl Complexes
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 28 - Transition Metal Aryl Complexes
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 29 - Transition Metal Aryl/Alkyne Complexes
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 30 - Transition Metal Alkyne/Carbene Complexes
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 31 - Transition Metal Carbene Complexes: Preparations
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 32 - Transition Metal Carbene Complexes: Properties
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 33 - Transition Metal Carbene Complexes: Reactivities
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 34 - Transition Metal Carbene Complexes: Reactivities
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 35 - Transition Metal Carbene Complexes: Reactivities
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 36 - Transition Metal Carbene Complexes: Reactivities
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 37 - Reactivity of Schrock type Carbene Complexes and Transition Metal Carbynes
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 38 - Transition Metal Carbynes: Preparation
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 39 - Transition Metal Carbynes: Properties
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 40 - Transition Metal Carbynes: Properties
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 41 - Properties of Transition Metal Carbynes And Transition Metal Carbonyls
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 42 - Transition Metal Carbonyls
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 43 - Transition Metal Carbonyls
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 44 - Transition Metal Carbonyls: Bonding Properties
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 45 - Transition Metal Carbonyls: Bonding properties
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 46 - Transition Metal Carbonyls: Reactivities
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 47 - Transition Metal Carbonyls: Reactivity and Carbonyl Metallates
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 48 - Transition Metal Carbonyl Hydrides
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 49 - Application of Carbonyl Metallates and Metal Halides
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 50 - Application of Metal Halides and Metal Alkenes
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 51 - Transition Metal Olefin Complexes
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 52 - Transition Metal Olefin Complexes
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 53 - Transition Metal Olefin Complexes: Reactivity
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 54 - Bonding Properties in Olefin Complexes
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 55 - Transition Metal Diolefin Complexes
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 56 - Transition Metal Diolefin and Alkyne Complexes
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 57 - Transition Metal Alkyne Complexes
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 58 - Transition Metal Alkyne Complexes: Reactivity
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 59 - Transition Metal Alkyne Complexes: Reactivity
Link NOC:Transition Metal Organometallic Chemistry - Principles to Applications Lecture 60 - Summary: Transition Metal Organometallic Chemistry: Principles to Applications
Link NOC:Metal Mediated Synthesis-I Lecture 1 - Assymetric Hydrogenation
Link NOC:Metal Mediated Synthesis-I Lecture 2 - Transition Metal Carbenes Fischerand Schrock Carbenes
Link NOC:Metal Mediated Synthesis-I Lecture 3 - Olefin Metathesis
Link NOC:Metal Mediated Synthesis-I Lecture 4 - Alkyne Metathesis
Link NOC:Metal Mediated Synthesis-I Lecture 5 - Cyclopropanation Reaction
Link NOC:Metal Mediated Synthesis-I Lecture 6 - Catalytic Cyclopropanation Reaction and Introduction to Cross Coupling Reaction
Link NOC:Metal Mediated Synthesis-I Lecture 7 - Kumada Coupling Reaction
Link NOC:Metal Mediated Synthesis-I Lecture 8 - Suzuki Coupling Reaction
Link NOC:Metal Mediated Synthesis-I Lecture 9 - Stille Coupling Reaction
Link NOC:Metal Mediated Synthesis-I Lecture 10 - Assymetric Suzuki Coupling Reaction
Link NOC:Metal Mediated Synthesis-I Lecture 11 - Sonogashira Coupling Reaction
Link NOC:Metal Mediated Synthesis-I Lecture 12 - Heck Coupling Reaction
Link NOC:Metal Mediated Synthesis-I Lecture 13 - Assymetric Heck Reaction Introduction to Buchwald-Hartwig Coupling Reaction
Link NOC:Metal Mediated Synthesis-I Lecture 14 - Buchwald-Hartwig Coupling Reaction
Link NOC:Metal Mediated Synthesis-I Lecture 15 - Role of Ligands its Influence in Buchwald-Hartwig Coupling Reaction
Link NOC:Metal Mediated Synthesis-I Lecture 16 - Oxidative Cyclization Process
Link NOC:Metal Mediated Synthesis-I Lecture 17 - Application of Oxidative Cyclization in Natural Product Synthesis
Link NOC:Metal Mediated Synthesis-I Lecture 18 - Synthesis of Reactive Metallacycle Intermediate Via-Beta-Abstraction and their Applications
Link NOC:Metal Mediated Synthesis-I Lecture 19 - Kulinkovich Reaction and its Mechanism
Link NOC:Metal Mediated Synthesis-I Lecture 20 - Pauson–Khand Reaction
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 1 - Overview of inorganic chemistry of life
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 2 - Elements in biology and or life
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 3 - Selection and criteria for elements
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 4 - Biomolecules
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 5 - Coordination in enzymes
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 6 - Amino acids, peptides and proteins - An introduction
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 7 - Nucleoside, nucleotide and nucleic acids and DNA: An introduction
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 8 - General introduction of metalloproteins
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 9 - Coordination chemistry aspects - An introduction
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 10 - Stability and lability
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 11 - Techniques used inorganic chemistry life
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 12 - Techniques used inorganic chemistry life (Continued...)
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 13 - Techniques used inorganic chemistry life (Continued...)
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 14 - Techniques used inorganic chemistry life (Continued...)
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 15 - Recap on metalloenzymes
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 16 - Role of Alkali, Alkaline earth elements in life
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 17 - Role of Alkali, Alkaline earth elements in life (Continued...)
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 18 - Role of Alkali, Alkaline earth elements in life (Continued...) Ion transport and ionophores
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 19 - Role of Alkali, Alkaline earth elements in life (Continued...) Ion transport and ionophores
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 20 - Functioning of ATPases and nucleases [Na,K]ATPase
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 21 - Role of vanadium in life - General perspectives
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 22 - Role of vanadium in life - Haloperoxidases
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 23 - Enzymes based on manganese in life
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 24 - Role of Iron in life - General perspectives
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 25 - Role of Iron in life - Transport systems
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 26 - Role of Iron in life - Transport and Storage systems
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 27 - Role of Iron in life - Electron transfer
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 28 - Role of Iron in life - Perspectives of electron transfer proteins
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 29 - Role of Iron in life - Monooxygenases: Cytochrome P450
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 30 - Role of Iron in life - Mono-and di-oxygenases
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 31 - Role of Iron in life - Reductases
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 32 - Role of Iron in life - Reductases and Phosphatases
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 33 - Role of Iron in life - Reductases and Phosphatases (Continued...)
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 34 - Role of Cobalt in life
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 35 - Role of Nickel in life - General perspectives
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 36 - Role of Nickel in life - Hydrolase, hydrogenase and SOD
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 37 - Role of Nickel in life - Carbonmonoxide dehydrogenase (CODH)
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 38 - Role of Copper in life - General perspectives
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 39 - Role of Copper in life - Type I and Type 2 copper enzymes
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 40 - Role of Copper in life - Multicenter copper oxidases and SOD
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 41 - Role of Zinc in life - General perspectives including oxidoreductases and hydrolases
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 42 - Role of Zinc in life - Carbonic anhydrase and carboxypeptidase
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 43 - Role of Zinc in life - Transferases, ligages and isomerases
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 44 - Role of Molybdenum in life - Introductory aspects
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 45 - Role of Molybdenum in life - Nitrogenase
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 46 - Role of Molybdenum in life - Oxidoreductases
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 47 - Role of Mercury in the environment - Mercury reductase
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 48 - Role of Selenium in life - Glutathione perioxidase
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 49 - Inorganics in medicine - Introductory aspects and cis-platin
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 50 - Inorganics in medicine - Apoptosis
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 51 - Inorganics in medicine - PDT, MRI and Barium tests
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 52 - Inorganics in medicine - Titanium in biomedical
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 53 - Highlights of the course - Part I
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 54 - Highlights of the course - Part II
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 55 - Highlights of the course - Part III
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 56 - Highlights of the course - Part IV
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 57 - Tutorials - Part I
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 58 - Tutorials - Part II
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 59 - Tutorials - Part III
Link NOC:Inorganic Chemistry of Life: Principles and Perspectives Lecture 60 - Tutorials - Part IV and overall
Link NOC:Symmetry and Group Theory Lecture 1 - Symmetry point group: Introduction
Link NOC:Symmetry and Group Theory Lecture 2 - Symmetry point group: Examples - Part I
Link NOC:Symmetry and Group Theory Lecture 3 - Symmetry point group: Examples - Part II
Link NOC:Symmetry and Group Theory Lecture 4 - Symmetry point group: Examples - Part III
Link NOC:Symmetry and Group Theory Lecture 5 - Symmetry point group: Examples - Part IV
Link NOC:Symmetry and Group Theory Lecture 6 - Transformation matrices and Matrix representation
Link NOC:Symmetry and Group Theory Lecture 7 - More on Matrix representation: Cartesian coordinates in C2v point group
Link NOC:Symmetry and Group Theory Lecture 8 - Matrix representation: the way ahead
Link NOC:Symmetry and Group Theory Lecture 9 - Introduction to Group Theory
Link NOC:Symmetry and Group Theory Lecture 10 - Group Multiplication Tables
Link NOC:Symmetry and Group Theory Lecture 11 - Groups and subgroups
Link NOC:Symmetry and Group Theory Lecture 12 - Classes, Similarity transformations
Link NOC:Symmetry and Group Theory Lecture 13 - Introduction to Matrices
Link NOC:Symmetry and Group Theory Lecture 14 - Application of matrices in solution of simultaneous equations
Link NOC:Symmetry and Group Theory Lecture 15 - Matrix eigenvalue equation
Link NOC:Symmetry and Group Theory Lecture 16 - Matrix eigenvalue equation: an example
Link NOC:Symmetry and Group Theory Lecture 17 - Similarity Transformations
Link NOC:Symmetry and Group Theory Lecture 18 - Back to transformation matrices
Link NOC:Symmetry and Group Theory Lecture 19 - Matrix representation revisited
Link NOC:Symmetry and Group Theory Lecture 20 - Function space and Transformation Operators
Link NOC:Symmetry and Group Theory Lecture 21 - Transformation Operators form the same group as transformation matrices
Link NOC:Symmetry and Group Theory Lecture 22 - Transformation Operators form a unitary representation for orthonormal basis
Link NOC:Symmetry and Group Theory Lecture 23 - Transformation Operators: Switching Bases
Link NOC:Symmetry and Group Theory Lecture 24 - Equivalent representations
Link NOC:Symmetry and Group Theory Lecture 25 - Unitary Transformation
Link NOC:Symmetry and Group Theory Lecture 26 - Unitary Transformations (Continued...)
Link NOC:Symmetry and Group Theory Lecture 27 - Reducible and Irreducible Representations
Link NOC:Symmetry and Group Theory Lecture 28 - Irreducible Representations and Great Orthogonality Theorem
Link NOC:Symmetry and Group Theory Lecture 29 - Character Tables: C2v
Link NOC:Symmetry and Group Theory Lecture 30 - Character Tables: C2v and C3v
Link NOC:Symmetry and Group Theory Lecture 31 - Practice Session: Review of Some Questions and Solutions
Link NOC:Symmetry and Group Theory Lecture 32 - Reducible to Irreducible Representations
Link NOC:Symmetry and Group Theory Lecture 33 - Character Tables of Cyclic Groups
Link NOC:Symmetry and Group Theory Lecture 34 - Symmetry of Normal Modes: D3h
Link NOC:Symmetry and Group Theory Lecture 35 - Symmetry of Normal Modes: D3h (Continued...)
Link NOC:Symmetry and Group Theory Lecture 36 - Symmetry of Normal Modes: a shortcut
Link NOC:Symmetry and Group Theory Lecture 37 - Recap: Reducible Representation for Normal Modes
Link NOC:Symmetry and Group Theory Lecture 38 - Contribution of internal motion to normal modes
Link NOC:Symmetry and Group Theory Lecture 39 - Normal mode analysis: some examples
Link NOC:Symmetry and Group Theory Lecture 40 - Infrared and Raman spectroscopy
Link NOC:Symmetry and Group Theory Lecture 41 - IR and Raman activity
Link NOC:Symmetry and Group Theory Lecture 42 - IR and Raman activity: examples
Link NOC:Symmetry and Group Theory Lecture 43 - Symmetry Adapted Linear Combinations (SALC)
Link NOC:Symmetry and Group Theory Lecture 44 - SALC:BeH2
Link NOC:Symmetry and Group Theory Lecture 45 - SALC:CH4 Introduction
Link NOC:Symmetry and Group Theory Lecture 46 - SALC:CH4
Link NOC:Symmetry and Group Theory Lecture 47 - Projection Operators
Link NOC:Symmetry and Group Theory Lecture 48 - Projection Operators (Continued...)
Link NOC:Symmetry and Group Theory Lecture 49 - Generating SALC’s using Projection Operators
Link NOC:Symmetry and Group Theory Lecture 50 - Generating SALC’s using Projection Operators (Continued...)
Link NOC:Symmetry and Group Theory Lecture 51 - Oh complex and Group-subgroup relation
Link NOC:Symmetry and Group Theory Lecture 52 - Group-Subgroup Relation
Link NOC:Symmetry and Group Theory Lecture 53 - SALCs as Pi-MO andCyclopropenyl group
Link NOC:Symmetry and Group Theory Lecture 54 - SALCs as Pi-MO, Cyclopropenyl group
Link NOC:Symmetry and Group Theory Lecture 55 - SALCs as Pi-MO, Benzene
Link NOC:Symmetry and Group Theory Lecture 56 - LCAO Huckel approximation
Link NOC:Symmetry and Group Theory Lecture 57 - Huckel approximation: Naphthalene
Link NOC:Symmetry and Group Theory Lecture 58 - Stationary states, Multiplicity, Ethylene
Link NOC:Symmetry and Group Theory Lecture 59 - Napthalene - I
Link NOC:Symmetry and Group Theory Lecture 60 - Napthalene - II
Link NOC:Symmetry and Group Theory Lecture 61 - Napthalene - III
Link NOC:Symmetry and Group Theory Lecture 62 - Transition Metal Complexes: CFT and LFT
Link NOC:Symmetry and Group Theory Lecture 63 - Jahn-Teller Theorem, Tetragonal Distortion MOT:ML6, Sigma and Pi Bonds
Link NOC:Symmetry and Group Theory Lecture 64 - MOT approach of bonding,H2O,Ferrocene
Link NOC:Symmetry and Group Theory Lecture 65 - MOT approach of bonding,H2O,Ferrocene
Link NOC:Symmetry and Group Theory Lecture 66 - Derivation: Great Orthogonality Theorem - I (Schurrs Lemma 1)
Link NOC:Symmetry and Group Theory Lecture 67 - Derivation: Great Orthogonality Theorem - II (Schurrs Lemma 2)
Link NOC:Symmetry and Group Theory Lecture 68 - Derivation: Great Orthogonality Theorem - III
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 1 - Introduction to Computational Chemistry
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 2 - Writing Simple Programs: Compilation and Execution
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 3 - Programming Techniques 1 - Evaluating the sine function
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 4 - Programming Techniques 2 - Do loops and if statements
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 5 - Programming Techniques 3 - Roots of a quadratic equation and arrays
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 6 - Programming Techniques 4 - Arrays and matrices
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 7 - Practical Session of Programming 1
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 8 - Programming Techniques 5 - Formats, Functions and Subroutines
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 9 - Programming Techniques 6 - Functions and Subroutines, arranging numbers in as ascending order
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 10 - Programming Techniques 7 - Functions and Subroutines, and the common statement
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 11 - Numerical Methods. Analysis of errors
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 12 - Practical Session on Programming 2 - The exponential function
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 13 - Practical Session on Programming 3 - Functions and Subroutines
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 14 - Interpolation Methods-1
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 15 - Interpolation Methods-2: Newton’s and Lagrange Interpolation
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 16 - Errors in interpolation, Matrix operations
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 17 - Gauss elimination method for matrix inversion
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 18 - Matrix diagonalization, Similarity transformations
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 19 - Matrix inversion, Matrix diagonalization
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 20 - Curve fitting, Newton Raphson method
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 21 - Random numbers, Numerical integration using Simpson’s rule
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 22 - Numerical Integration and Differential Equations
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 23 - Practical Session on Programming 3: Random numbers, Simpson’s rule; Introduction to Scilab
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 24 - Scilab-2: Matrix equations and Roots of Polynomials
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 25 - Scilab-3: Functions, Integrals, Differential Equations and graphs
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 26 - Scilab-4: Curve Fitting and Execution of Scilab programs
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 27 - Scilab-5: Legendre polynomials, Multiple plots and Curve fitting
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 28 - Scilab-6: Integral Transforms; Introduction to Molecular Dynamics (MD)
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 29 - Classical Molecular Dynamics-2, Force Fields and Equations of Motion
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 30 - Classical Molecular Dynamics-3, Force Fields and MD Algorithms
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 31 - Classical MD-4 Thermodynamic Properties and Distribution Functions.
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 32 - Classical MD-5, Execution of programs on liquid argon
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 33 - Molecular Dynamics using Gromacs-1
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 34 - Molecular Dynamics using Gromacs-2: Simulating Liquid Argon
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 35 - Molecular Dynamics using Gromacs-3: Installing Gromacs
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 36 - Molecular Dynamics using Gromacs-4: Liquid Water: Input Files
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 37 - Molecular Dynamics using Gromacs-5: Liquid Water: Analysis of Results
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 38 - Molecular Dynamics using Gromacs-6: Mixture of Water and Methanol
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 39 - Molecular Dynamics using Gromacs-7: Gromacs Installation
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 40 - Molecular Dynamics using Gromacs-8: Simulation of s-peptide
Link NOC:Computational Chemistry and Classical Molecular Dynamics Lecture 41 - Molecular Dynamics using Gromacs-9: Free Energy of Solvation of Methane, Concluding remarks
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 1 - Frequency Domain Spectroscopy: An Introduction
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 2 - Schematics of Instrumentation for FD Spectroscopy
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 3 - Sensitivity Light Collection and Signal to Noise Ratio
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 4 - Time Domain Spectroscopy
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 5 - Frequency Modulation for Fourier Transform Spectroscopy
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 6 - Rigid Rotor Model for Diatomic Molecules
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 7 - Recapitulation of Quantum Mechanics
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 8 - Conditions for Microwave Activity - I
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 9 - Conditions for Microwave Activity - II
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 10 - Microwave Spectra: Diatomic Molecules
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 11 - Simple Harmonic Oscillator
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 12 - Selection Rule
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 13 - High Resolution IR Spectra
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 14 - Anharmonic Oscillator and Raman Effect
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 15 - Semi Classical Treatment: Radiation-Matter
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 16 - Time Dependent Perturbation Theory
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 17 - Transition Moment Integral
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 18 - Transition Probability and Natural Linewidth
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 19 - Einstein Treatment
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 20 - Relationship Between Theoretical and Experimental Quantities
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 21 - Level System: Concluding Remark - I
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 22 - Level System: Concluding Remark - II
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 23 - Laser Basic
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 24 - Applications of Laser in Spectroscopy
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 25 - Laser in Spectroscopy : Ultrafast Dynamics
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 26 - Snapshot of Bond Breaking
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 27 - Raman Effect
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 28 - Raman Spectroscopy: Quantum Theory of Raman Effect
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 29 - Raman Spectroscopy and Beyond Dipole Approximation
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 30 - Symmetry in Chemistry : An Introduction
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 31 - Symmetry Operations : Transformation Matrices
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 32 - Representations Reducible and Irreducible
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 33 - Matrix Representation of Symmetry Point Group
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 34 - Group Theory : Character Table
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 35 - Character Table : Compendium of Irreducible Representations
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 36 - Mulliken Nomenclature, 2D Irreducible Representations and Bases
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 37 - Character Tables for Different Symmetry Point Groups
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 38 - Wave Functions as Basis
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 39 - Symmetry of Atomic and Molecular Orbitals
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 40 - Polyatomic Molecules : Normal Modes of Vibration
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 41 - Determination of Symmetries of Normal Modes of Vibration - I
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 42 - Determination of Symmetries of Normal Modes of Vibration - II
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 43 - A Shortcut to Symmetry of Normal Modes
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 44 - Normal Modes : Internal Motion IR and Raman Activity
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 45 - IR and Raman Activity - I
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 46 - IR and Raman Activity - II
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 47 - Electronic Spectroscopy : Introduction
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 48 - Electronic Spectra
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 49 - Rotational Fine Structure
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 50 - Symmetry of Electronic States
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 51 - Electronic States of Oxygen
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 52 - Electronic States and Transitions of Benzene
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 53 - Vibronic Coupling
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 54 - Electronic Spectrum of Benzene
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 55 - Basics of NMR Spectroscopy - I
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 56 - Basics of NMR Spectroscopy - II
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 57 - Spin Spin Coupling- AX systems
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 58 - Coupling in A2 systems
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 59 - Coupling in A2 systems (Continued...)
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 60 - NMR: Spectra and Measurement, FT NMR 900 Pulses
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 61 - FT NMR 1800 Pulses and Relaxation Phenomenon
Link NOC:Molecular Spectroscopy: A Physical Chemists Perspective Lecture 62 - Relaxation Phenomenon: Inversion Recovery
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 1 - Transition Metal Allyl and Enyl Complexes
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 2 - Transition Metal Allyl and Enyl complexes: Preparation
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 3 - Transition Metal Allyl and Enyl complexes: Preparation
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 4 - Transition Metal Allyl and Enyl Complexes: Reactivity and Transition Metal Sandwich Complexes
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 5 - Types of Transition Metal Sandwich Complexes
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 6 - Transition Metal Cyclobutadiene Complexes
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 7 - Transition Metal Cyclobutadiene Complexes: Preparations
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 8 - Transition Metal Cyclobutadiene Complexes: Reactivity
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 9 - Transition Metal Cyclopentadiene Complexes
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 10 - Transition Metal Cyclopentadiene Complexes: Preparation and Properties
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 11 - Transition Metal Cyclopentadiene Complexes: Bonding Properties
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 12 - Transition Metal Cyclopentadiene Complexes: Molecular Orbital Diagram
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 13 - Transition Metal Cyclopentadiene Complexes: Reactivity of Metallocene
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 14 - Transition Metal Cyclopentadiene Complexes: Reactivity of Ferrocene
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 15 - Transition Metal Cyclopentadienyl Carbonyl Complexes: Preparation
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 16 - Transition Metal Cyclopentadienyl Carbonyl Complexes: Reactivity
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 17 - Transition Metal Cyclopentadienyl Nitrosyl Complexes
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 18 - Transition Metal Cyclopentadienyl Hydride Complexes
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 19 - Transition Metal Cyclopentadienyl Hydride and Halide Complexes
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 20 - Transition Metal Cyclopentadienyl Halide Complexes
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 21 - Transition Metal Cyclopentadienyl Halide and Transition Metal Arene Complexes
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 22 - Transition Metal Arene Complexes: Preparation, Structure and Bonding
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 23 - Transition Metal Arene Complexes: Structure and Bonding
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 24 - Transition Metal Arene Complexes: Reactivity
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 25 - Transition Metal Arene Complexes: Reactivity
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 26 - Transition Metal Arene Carbonyl Complexes: Reactivity
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 27 - Transition Metal Arene Carbonyl Complexes: Reactivity
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 28 - Transition Metal Arene Cyclopentadienyl Complexes
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 29 - Transition Metal Arene Cyclopentadienyl and C7H7 Complexes
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 30 - Transition Metal C7H7 Complexes: Preparation
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 31 - Transition Metal C7H7 Complexes: Reactivity
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 32 - Transition Metal C8H8 and C7H7 Complexes
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 33 - Transition Metal C8H8 Complexes: Properties
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 34 - Transition Metal π- complexes of heterocycles
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 35 - C–C Cross Coupling Reactions
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 36 - C–C Cross Coupling Reactions: Allylic Alkylation
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 37 - C–C Cross Coupling Reactions: Heck Reaction
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 38 - C–C Cross Coupling Reactions: Suzuki Reaction
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 39 - C–C Cross Coupling Reactions: Suzuki Reaction
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 40 - C–C Cross Coupling Reactions: Stille Reaction
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 41 - C–C Cross Coupling Reactions: Stille Coupling
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 42 - C–C Cross Coupling Reactions: Sonogashira Coupling
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 43 - Hydrocyanation Reactions
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 44 - C−heteroatom Coupling
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 45 - C−heteroatom Coupling: Arylamination
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 46 - C−Heteroatom Coupling: Hydroamination
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 47 - C−Heteroatom Coupling: Hydroboration
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 48 - C−Heteroatom Coupling: Hydrosilation
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 49 - Organometallic Catalysis Reactions: Olefin oxidation
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 50 - Organometallic Catalysis Reactions: Olefin oxidation
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 51 - Organometallic Catalysis Reactions: Enantioselective Sharpless Epoxidation
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 52 - Organometallic Catalysis Reactions: Water Gas Shift Reaction
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 53 - Organometallic Catalysis Reactions: Fisher Tropsch Synthesis
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 54 - Organometallic Catalysis Reactions: Fisher Tropsch Mechanism
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 55 - Organometallic Catalysis Reactions: Carbonylation of alcohols
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 56 - Organometallic Catalysis Reactions: Hydrogenation of Alkenes
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 57 - Organometallic Catalysis Reactions: Asymmetric Hydrogenation of Alkenes
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 58 - Organometallic Catalysis Reactions: Asymmetric Hydrogenation of Alkenes
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 59 - Organometallic Catalysis Reactions: Hydroformylation
Link NOC:Advanced Transition Metal Organometallic Chemistry Lecture 60 - Summary of Advanced Transition Metal Organometallic Chemistry
Link NOC:Mechanisms in Organic Chemistry Lecture 1 - Introduction to Reaction Mechanisms
Link NOC:Mechanisms in Organic Chemistry Lecture 2 - Writing Reaction Mechanisms: Arrow pushing
Link NOC:Mechanisms in Organic Chemistry Lecture 3 - Types of Polar Reactions
Link NOC:Mechanisms in Organic Chemistry Lecture 4 - The Radical Reactions
Link NOC:Mechanisms in Organic Chemistry Lecture 5 - Reaction Co-ordinate Diagrams
Link NOC:Mechanisms in Organic Chemistry Lecture 6 - The Hammond Postulate
Link NOC:Mechanisms in Organic Chemistry Lecture 7 - Kinetic versus Thermodynamic Control
Link NOC:Mechanisms in Organic Chemistry Lecture 8 - Curtin-Hammett Principle
Link NOC:Mechanisms in Organic Chemistry Lecture 9 - An Introduction to Reaction Kinetics
Link NOC:Mechanisms in Organic Chemistry Lecture 10 - Deriving the Rate Laws
Link NOC:Mechanisms in Organic Chemistry Lecture 11 - Distinguishing Reaction Mechanisms Using Rate Laws
Link NOC:Mechanisms in Organic Chemistry Lecture 12 - Methods to Monitor a Reaction
Link NOC:Mechanisms in Organic Chemistry Lecture 13 - The Hammett Equation
Link NOC:Mechanisms in Organic Chemistry Lecture 14 - Linear Free Energy Relationships (LFER)
Link NOC:Mechanisms in Organic Chemistry Lecture 15 - Hammett Plots for Electronic Effects
Link NOC:Mechanisms in Organic Chemistry Lecture 16 - Scales used in Hammett Plots
Link NOC:Mechanisms in Organic Chemistry Lecture 17 - Deviation from Linear Free Energy Relationships
Link NOC:Mechanisms in Organic Chemistry Lecture 18 - LFER for Sterics: The Taft Parameters
Link NOC:Mechanisms in Organic Chemistry Lecture 19 - Solvent Effects - Part A
Link NOC:Mechanisms in Organic Chemistry Lecture 20 - Solvent Effects - Part B
Link NOC:Mechanisms in Organic Chemistry Lecture 21 - Kinetic Isotope Effect
Link NOC:Mechanisms in Organic Chemistry Lecture 22 - Primary Kinetic Isotope Effect
Link NOC:Mechanisms in Organic Chemistry Lecture 23 - Secondary Kinetic Isotope Effect - Part A
Link NOC:Mechanisms in Organic Chemistry Lecture 24 - Secondary Kinetic Isotope Effect - Part B
Link NOC:Mechanisms in Organic Chemistry Lecture 25 - Heavy Atom Isotope Effects
Link NOC:Mechanisms in Organic Chemistry Lecture 26 - Equilibrium Isotope Effects
Link NOC:Mechanisms in Organic Chemistry Lecture 27 - Isotope Labelling
Link NOC:Mechanisms in Organic Chemistry Lecture 28 - Trapping Intermediates - Part A
Link NOC:Mechanisms in Organic Chemistry Lecture 29 - Trapping Intermediates - Part B
Link NOC:Mechanisms in Organic Chemistry Lecture 30 - Trapping Intermediates - Part C
Link NOC:Mechanisms in Organic Chemistry Lecture 31 - Checking for Common Intermediates
Link NOC:Mechanisms in Organic Chemistry Lecture 32 - Catalysis - Part A
Link NOC:Mechanisms in Organic Chemistry Lecture 33 - Catalysis - Part B
Link NOC:Mechanisms in Organic Chemistry Lecture 34 - Specific Catalysis
Link NOC:Mechanisms in Organic Chemistry Lecture 35 - General Catalysis - Part A
Link NOC:Mechanisms in Organic Chemistry Lecture 36 - General Catalysis - Part B
Link NOC:Mechanisms in Organic Chemistry Lecture 37 - Enzyme Catalysis
Link NOC:Mechanisms in Organic Chemistry Lecture 38 - Electrophilic Catalysis
Link NOC:Mechanisms in Organic Chemistry Lecture 39 - Other Types of Catalysis
Link NOC:Mechanisms in Organic Chemistry Lecture 40 - Course Summary
Link NOC:Metals in Biology Lecture 1 - Importance of metals in biology
Link NOC:Metals in Biology Lecture 2 - Choice, uptake and assembly of metal ions in cells
Link NOC:Metals in Biology Lecture 3 - Control and use of metal ions concentration in biological systems
Link NOC:Metals in Biology Lecture 4 - Metal mediated folding of biopolymers
Link NOC:Metals in Biology Lecture 5 - Study of binding mode of calcium and zinc in proteins
Link NOC:Metals in Biology Lecture 6 - Electron transfer (ET) in living systems
Link NOC:Metals in Biology Lecture 7 - Oxygen transport and activation
Link NOC:Metals in Biology Lecture 8 - Hydrolytic Enzymes - Part I - Carbonic anhydrase and Liver alcohol dehydrogenase
Link NOC:Metals in Biology Lecture 9 - Hydrolytic Enzymes - Part II - Carbopeptidase
Link NOC:Metals in Biology Lecture 10 - Hydrolytic Enzymes - Part III - Arginase and Urease
Link NOC:Metals in Biology Lecture 11 - Hemerythrin and azidomethemerythrin
Link NOC:Metals in Biology Lecture 12 - Dioxygen reactivity in copper
Link NOC:Metals in Biology Lecture 13 - Cu-O2 intermediates
Link NOC:Metals in Biology Lecture 14 - Copper-Oxygen chemistry - Part I - Mononuclear copper-oxygen
Link NOC:Metals in Biology Lecture 15 - Copper-Oxygen chemistry - Part II - Cu-O2 complexes
Link NOC:Metals in Biology Lecture 16 - Copper-Oxygen chemistry - Part III - Reactivity summary
Link NOC:Metals in Biology Lecture 17 - Iron Catalyzed oxidation of unactivated sp3 C-H bonds - Part I
Link NOC:Metals in Biology Lecture 18 - Iron catalyzed oxidation of unactivated sp3 C-H bonds - Part II
Link NOC:Metals in Biology Lecture 19 - Iron catalyzed oxidation of unactivated sp3 C-H bonds - Part III
Link NOC:Metals in Biology Lecture 20 - Nitrous oxide reductase and its model complex
Link NOC:Metals in Biology Lecture 21 - Cytochrome C-oxidase
Link NOC:Metals in Biology Lecture 22 - Systematic variations in O-O stretch in Iron-oxo-copper ligand complex
Link NOC:Metals in Biology Lecture 23 - Mononuclear nonheme iron (NHI) enzymes
Link NOC:Metals in Biology Lecture 24 - Alpha-Keto Glutarate dependent Halogenases
Link NOC:Metals in Biology Lecture 25 - Cytochrome P450 - Part I - Introduction
Link NOC:Metals in Biology Lecture 26 - Cytochrome P450 - Part II - Reactions
Link NOC:Metals in Biology Lecture 27 - Cytochrome P450 - Part III - Mechanism
Link NOC:Metals in Biology Lecture 28 - Cytochrome P450 - Part IV - Role of Cystine ligand and distal charge relay
Link NOC:Metals in Biology Lecture 29 - Methane monooxygenase
Link NOC:Metals in Biology Lecture 30 - Dinuclear Iron active sites for CH4 to CH4OH conversion and its Mechanism
Link NOC:Metals in Biology Lecture 31 - Concerted Vs radical pathway for CH4 to CH4OH conversion
Link NOC:Metals in Biology Lecture 32 - Photosynthesis - Part I
Link NOC:Metals in Biology Lecture 33 - Photosynthesis - Part II
Link NOC:Metals in Biology Lecture 34 - Pumps and channels
Link NOC:Metals in Biology Lecture 35 - Quick summary on O2 transport
Link NOC:Metals in Biology Lecture 36 - Summary of Dioxygen reactivity in copper
Link NOC:Metals in Biology Lecture 37 - Summary of Dioxygen reactivity in iron
Link NOC:Metals in Biology Lecture 38 - Summary of Fe-O2 chemistry
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 1 - Basic concepts
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 2 - Resonance absorption
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 3 - Bloch Equations
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 4 - Relaxation
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 5 - Introduction to Chemical Shift
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 6 - Factors affecting Isotropic Chemical Shifts
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 7 - Spin-Spin Coupling
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 8 - Interpretation of multiplet structure using first order analysis
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 9 - Analysis of NMR spectra of molecules
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 10 - Quantum Mechanical Analysis - Part I
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 11 - Quantum Mechanical Analysis - Part II
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 12 - Dynamic effects in the NMR Spectra
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 13 - Fourier Transform NMR
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 14 - Theorems on Fourier Transform
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 15 - Practical aspects of Fourier Transform NMR spectra
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 16 - Data Processing in Fourier Transform NMR
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 17 - Dynamic range in Fourier Transform NMR
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 18 - Spin Echo and Solvent Suppression
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 19 - Spin Decoupling in FT NMR and Relaxation Measurements
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 20 - Polarization Transfer
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 21 - Nuclear Overhauser Effect
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 22 - Steady state NOE and Transient NOE
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 23 - Distance and NOE
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 24 - Selective Population Inversion
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 25 - INEPT and Sensitivity Enhancement
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 26 - Rotating Frame Experiments
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 27 - Density matrix description of NMR - I
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 28 - Density matrix description of NMR - II
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 29 - Density matrix description of NMR - III
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 30 - Time evolution of density operator
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 31 - Density matrix description of NMR - IV
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 32 - Evolution of density operator in the presence of RF
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 33 - Product operator formalism
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 34 - Product operator formalism (Continued...)
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 35 - Product operator formalism (Continued...)
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 36 - Time evolution of basis operators
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 37 - Observable and Non-observable basis operators, Spin echo
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 38 - Spin echo (Continued...)
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 39 - INEPT
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 40 - Multidimensional NMR Spectroscopy
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 41 - Two Dimensional NMR - Part I
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 42 - Two Dimensional NMR - Part II
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 43 - Types of 2D NMR Spectra
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 44 - Two Dimensional Separation of Interaction in NMR
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 45 - Two Dimensional Correlation Experiments - I
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 46 - Two Dimensional Correlation Experiments - II
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 47 - Two Dimensional Correlation Experiments - III
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 48 - Double Quantum Filtered COSY (DQF-COSY)
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 49 - Two Dimensional Nuclear Overhauser Effect Spectroscopy (2D- NOESY)
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 50 - Constant-time COSY
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 51 - Scaling in 2D NMR
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 52 - Total Correlation Spectroscopy
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 53 - 2D Heteronuclear Experiment - I
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 54 - 2D Heteronuclear Experiment - II
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 55 - Multidimensional NMR
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 56 - Structure Determination of Peptides by NMR - I
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 57 - Structure Determination of Peptides by NMR - II
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 58 - Protein-Ligand Interaction - I
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 59 - Protein-Ligand Interaction - II
Link NOC:NMR Spectroscopy for Chemists and Biologists Lecture 60 - Diffusion Ordered Spectroscopy
Link Bio-Physical Chemistry Lecture 1 - A Course on Bio-physical Chemistry
Link Bio-Physical Chemistry Lecture 2 - Protein Structure
Link Bio-Physical Chemistry Lecture 3 - Secondary Structure of Proteins
Link Bio-Physical Chemistry Lecture 4 - Secondary Structure of Proteins (Continued...)
Link Bio-Physical Chemistry Lecture 5 - Tertiary Structure
Link Bio-Physical Chemistry Lecture 6 - Forces in Protein Folding
Link Bio-Physical Chemistry Lecture 7 - Forces in Protein Folding (Continued...)
Link Bio-Physical Chemistry Lecture 8 - Electrostatics (Continued...)
Link Bio-Physical Chemistry Lecture 9 - Intermolecular Interactions
Link Bio-Physical Chemistry Lecture 10 - Dipole-Dipole Interaction
Link Bio-Physical Chemistry Lecture 11 - Electrostatics (Continued...)
Link Bio-Physical Chemistry Lecture 12 - Hydrophobic Effect
Link Bio-Physical Chemistry Lecture 13 - Hydrophobic Effect (Continued...)
Link Bio-Physical Chemistry Lecture 14 - Hydrogen Bonding
Link Bio-Physical Chemistry Lecture 15 - Protein Stability Curves
Link Bio-Physical Chemistry Lecture 16 - Thermodynamics of Protein Unfolding
Link Bio-Physical Chemistry Lecture 17 - Thermodynamics of Protein Unfolding (Continued...)
Link Bio-Physical Chemistry Lecture 18 - Mechanism of Chemical Denaturation
Link Bio-Physical Chemistry Lecture 19 - Pressure Induced Denaturation (The P-T Diagram)
Link Bio-Physical Chemistry Lecture 20 - Protein Folding Pathways and Energy Landscapes
Link Bio-Physical Chemistry Lecture 21 - Diffusion
Link Bio-Physical Chemistry Lecture 22 - Diffusion (Continued...)
Link Bio-Physical Chemistry Lecture 23 - Diffusion (Continued...)
Link Bio-Physical Chemistry Lecture 24 - Langevin Equation and Brownian Motion
Link Bio-Physical Chemistry Lecture 25 - Langevin Equation and Brownian Motion (Continued...)
Link Bio-Physical Chemistry Lecture 26 - Langevin Equation and Brownian Motion (Continued...)
Link Bio-Physical Chemistry Lecture 27 - Protein Folding : Mechanisms and Kinetics
Link Bio-Physical Chemistry Lecture 28 - Protein Folding : Mechanisms and Kinetics (Continued...)
Link Bio-Physical Chemistry Lecture 29 - Protein Folding : Mechanisms and Kinetics (Continued...)
Link Bio-Physical Chemistry Lecture 30 - Protein Folding : The Chevron-Plot
Link Bio-Physical Chemistry Lecture 31 - Protein Folding Kinetics : Rapid Mixing and Relaxation Techniques
Link Bio-Physical Chemistry Lecture 32 - Protein Folding Kinetics : Rapid Mixing and Relaxation Techniques (Continued...)
Link Bio-Physical Chemistry Lecture 33 - Protein Folding Kinetics : Rapid Mixing and Relaxation Techniques (Continued...)
Link Bio-Physical Chemistry Lecture 34 - Protein Folding Kinetics : Rapid Mixing and Relaxation Techniques (Continued...)
Link Bio-Physical Chemistry Lecture 35 - Experimental Tools
Link Bio-Physical Chemistry Lecture 36 - Spectroscopy : The Franck Condon Principle
Link Bio-Physical Chemistry Lecture 37 - Spectroscopy : The Franck Condon Principle (Continued...)
Link Bio-Physical Chemistry Lecture 38 - Electronic Spectroscopy Absorption and Fluorescence
Link Bio-Physical Chemistry Lecture 39 - Fluorescence
Link Bio-Physical Chemistry Lecture 40 - Fluorescence Quenching
Link Bio-Physical Chemistry Lecture 41 - Infrared Spectroscopy of Proteins
Link Bio-Physical Chemistry Lecture 42 - Infrared Spectroscopy of Proteins (Continued...)
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 1 - Introduction to Spectroscopy - I
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 2 - Introduction to Spectroscopy - II
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 3 - Introduction to Spectroscopy - III
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 4 - Introduction to Spectroscopy - IV
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 5 - Introduction to Spectroscopy - V
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 6 - Introduction to Spectroscopy - VI
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 7 - Rotational, rotational Raman Spectroscopy theory and Application - I
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 8 - Rotational, rotational Raman Spectroscopy theory and Application - II
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 9 - Vibrational Spectroscopy Theory and Application - I
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 10 - Vibrational, Rotational-Vibrational, Raman Spectroscopy - II
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 11 - Vibrational, Rotational-Vibrational, Raman Spectroscopy - III
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 12 - Problems on Rotational, Vibrational and Raman Spectroscopy
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 13 - Atomic Spectroscopy - I
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 14 - Atomic Spectroscopy - II
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 15 - Atomic Spectroscopy - III
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 16 - Atomic Spectroscopy - IV
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 17 - Atomic and Molecular Spectroscopy
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 18 - Electronic Spectra of Diatomic Molecules and UV-Vis Spectroscopy
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 19 - UV-Visible Spectroscopy of Conjugated Molecules
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 20 - UV-Vis Spectroscopy and its Applications - I
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 21 - UV-Vis Spectroscopy and its Applications - II
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 22 - UV-Vis and Fluorescence Spectroscopy
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 23 - Fluorescence Spectroscopy (Continued...)
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 24 - Application of Fluorescence Spectroscopy
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 25 - Application of Steady-State Fluorescence
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 26 - Time- resolved Fluorescence Spectroscopy
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 27 - Microscopy
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 28 - Contrast in Microscopy, Fluorescence Microscopy
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 29 - Fluorescence Microscopy and Application
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 30 - Principle of NMR
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 31 - NMR data processing and Chemical shift
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 32 - Structure Informations from NMR
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 33 - Structure Calculation and 2D-NMR Spectroscopy
Link NOC:Spectroscopic Techniques for Pharmaceutical and Biopharmaceutical Industries Lecture 34 - Mass Spectroscopy
Link NOC:Introductory Non-Linear Dynamics Lecture 1 - Introduction, Stability, Phase Space and Invariant Sets - 1
Link NOC:Introductory Non-Linear Dynamics Lecture 2 - Introduction, Stability, Phase Space and Invariant Sets - 2
Link NOC:Introductory Non-Linear Dynamics Lecture 3 - Introduction, Stability, Phase Space and Invariant Sets - 3
Link NOC:Introductory Non-Linear Dynamics Lecture 4 - Maps and Flows. Simple Examples of Dynamics Systems - 1
Link NOC:Introductory Non-Linear Dynamics Lecture 5 - Maps and Flows. Simple Examples of Dynamics Systems - 2
Link NOC:Introductory Non-Linear Dynamics Lecture 6 - Logistic map. Simple Examples of Bifurcations
Link NOC:Introductory Non-Linear Dynamics Lecture 7 - Bifurcation Diagrams. Period 3 Implies Chaos. Characterizing Chaos
Link NOC:Introductory Non-Linear Dynamics Lecture 8 - Characterizing The Period-Doubling Route to Chaos
Link NOC:Introductory Non-Linear Dynamics Lecture 9 - Lyapunov Exponents; Invariant measures
Link NOC:Introductory Non-Linear Dynamics Lecture 10 - Intermittency. Crises
Link NOC:Introductory Non-Linear Dynamics Lecture 11 - Fractals
Link NOC:Introductory Non-Linear Dynamics Lecture 12 - Chaos in Flows. The Lorenz and Rossler Systems
Link NOC:Introductory Non-Linear Dynamics Lecture 13 - The Baker and Horseshoe Maps
Link NOC:Introductory Non-Linear Dynamics Lecture 14 - Hamiltonian Chaos - 1
Link NOC:Introductory Non-Linear Dynamics Lecture 15 - Hamiltonian Chaos - 2
Link NOC:Principles of Organic Synthesis Lecture 1 - Aldol Reaction
Link NOC:Principles of Organic Synthesis Lecture 2 - Perkin, Claisen and Thorpe Reactions
Link NOC:Principles of Organic Synthesis Lecture 3 - Reaction of Enolates
Link NOC:Principles of Organic Synthesis Lecture 4 - Mannich Reaction
Link NOC:Principles of Organic Synthesis Lecture 5 - Reaction of Alkenes and Carbonyl Compounds
Link NOC:Principles of Organic Synthesis Lecture 6 - Friedel-Crafts and Prins Reactions
Link NOC:Principles of Organic Synthesis Lecture 7 - Grignard Reagents
Link NOC:Principles of Organic Synthesis Lecture 8 - Organolithium Reagents
Link NOC:Principles of Organic Synthesis Lecture 9 - Organocopper, Organozinc and Organomercury Reagents
Link NOC:Principles of Organic Synthesis Lecture 10 - Ritter Reaction and Gabriel Synthesis
Link NOC:Principles of Organic Synthesis Lecture 11 - Reactions of imines and enamines, synthesis of alkaloids and amino acids
Link NOC:Principles of Organic Synthesis Lecture 12 - Reactions of electrophilic and nucleophilic nitrogens, synthesis of amino acids and peptides
Link NOC:Principles of Organic Synthesis Lecture 13 - Principles, effect of substituents and carbon-carbon bond formation
Link NOC:Principles of Organic Synthesis Lecture 14 - Formylation/acylation and related reactions
Link NOC:Principles of Organic Synthesis Lecture 15 - Nitration, Sulfonation and other reactions
Link NOC:Principles of Organic Synthesis Lecture 16 - Principle, Substitution mechanism and reactions of Benzyne
Link NOC:Principles of Organic Synthesis Lecture 17 - Schiemann Reaction, Ullmann reaction and Stephens-Castro coupling
Link NOC:Principles of Organic Synthesis Lecture 18 - Ziegler Alkylation, Chichibabin Reaction, Von Richter Rearrangement, Smiles Rearrangement, Bamberger Rearrangement and Bucherer Reaction
Link NOC:Principles of Organic Synthesis Lecture 19 - Preparation, properties and reactions
Link NOC:Principles of Organic Synthesis Lecture 20 - Coupling reactions, Japp-Klingemann reaction and Tiffeneau-Demjanov rearrangement
Link NOC:Principles of Organic Synthesis Lecture 21 - Applications of diazonium salts
Link NOC:Principles of Organic Synthesis Lecture 22 - Wagner-Meerwein rearrangment, Pinacol rearrangment, Benzilic acid rearrangment and Arndt-Eistert synthesis
Link NOC:Principles of Organic Synthesis Lecture 23 - Rearrangement of halogen, oxygen, sulfur and nitrogen containing centre
Link NOC:Principles of Organic Synthesis Lecture 24 - Rearrangement to electron-Rich carbon
Link NOC:Principles of Organic Synthesis Lecture 25 - Reactivity and several reactions
Link NOC:Principles of Organic Synthesis Lecture 26 - Reactions of sulfur and silicon containing reagents
Link NOC:Principles of Organic Synthesis Lecture 27 - Preparation and reactions of organoborane and organotin reagents
Link NOC:Principles of Organic Synthesis Lecture 28 - Formation of carbon-carbon and carbon-halogen bonds
Link NOC:Principles of Organic Synthesis Lecture 29 - Cu, Mn, Sm, and Sn Based Reactions, Acyloin Condensation
Link NOC:Principles of Organic Synthesis Lecture 30 - C-N, C-O bond formation and decarboxylation
Link NOC:Reagents in Organic Synthesis Lecture 1 - Chromium Based Reagents for Oxidation
Link NOC:Reagents in Organic Synthesis Lecture 2 - Non-metal based Reagents for Oxidation
Link NOC:Reagents in Organic Synthesis Lecture 3 - Organic Peroxides
Link NOC:Reagents in Organic Synthesis Lecture 4 - Oxidation Mediated by DDQ, CAN and SeO2
Link NOC:Reagents in Organic Synthesis Lecture 5 - Oxidation Mediated by Mn and Ag
Link NOC:Reagents in Organic Synthesis Lecture 6 - Oxidation by Ru, Hypervalent Iodine, Al and Na based Reagents
Link NOC:Reagents in Organic Synthesis Lecture 7 - Na and Li Metal based Reduction
Link NOC:Reagents in Organic Synthesis Lecture 8 - Hydride based Reduction
Link NOC:Reagents in Organic Synthesis Lecture 9 - Hydrogenation
Link NOC:Reagents in Organic Synthesis Lecture 10 - Al, Zn and Li Based Reagents for Reduction
Link NOC:Reagents in Organic Synthesis Lecture 11 - Reduction With Boranes, Diimide and Trialkylsilanes
Link NOC:Reagents in Organic Synthesis Lecture 12 - Li Based Reagents in Organic Synthesis
Link NOC:Reagents in Organic Synthesis Lecture 13 - Mg and Na Based Reagents in Organic Synthesis
Link NOC:Reagents in Organic Synthesis Lecture 14 - B Based Reagents in Organic Synthesis
Link NOC:Reagents in Organic Synthesis Lecture 15 - B and Al Based Reagents in Organic Synthesis
Link NOC:Reagents in Organic Synthesis Lecture 16 - S Based Reagents in Organic Synthesis
Link NOC:Reagents in Organic Synthesis Lecture 17 - P Based Reagents in Organic Synthesis
Link NOC:Reagents in Organic Synthesis Lecture 18 - Si and Pb Based Reagents in Organic Synthesis
Link NOC:Reagents in Organic Synthesis Lecture 19 - Sn and Bi Based Reagents in Organic Synthesis
Link NOC:Reagents in Organic Synthesis Lecture 20 - Ti Based Reagents in Organic Synthesis
Link NOC:Reagents in Organic Synthesis Lecture 21 - Ru Based Reagents in Organic Synthesis
Link NOC:Reagents in Organic Synthesis Lecture 22 - Pd Based Reagents in Organic Synthesis
Link NOC:Reagents in Organic Synthesis Lecture 23 - Cu Based Reagents in Organic Synthesis
Link NOC:Reagents in Organic Synthesis Lecture 24 - Cr and Mn Based Reagents in Organic Synthesis
Link NOC:Reagents in Organic Synthesis Lecture 25 - Zn and Hg Based Reagents in Organic Synthesis
Link NOC:Reagents in Organic Synthesis Lecture 26 - Au Based Reagents in Organic Synthesis
Link NOC:Reagents in Organic Synthesis Lecture 27 - Fe and Co Based Reagents in Organic Synthesis
Link NOC:Reagents in Organic Synthesis Lecture 28 - Ag and Rh Based Reagents in Organic Synthesis
Link NOC:Reagents in Organic Synthesis Lecture 29 - Ni, Pt and Ir Based Reagents in Organic Synthesis
Link NOC:Reagents in Organic Synthesis Lecture 30 - Introduction to Lanthanides and Sm Based Reagents
Link NOC:Reagents in Organic Synthesis Lecture 31 - Samarium(Ii) Iodide Based Reagents in Organic Synthesis
Link NOC:Reagents in Organic Synthesis Lecture 32 - Sm and Yb Based Reagents in Organic Synthesis
Link NOC:Thermodynamics: Classical to Statistical Lecture 1 - Cocepts of heat and work; First Law of Thermodynamics
Link NOC:Thermodynamics: Classical to Statistical Lecture 2 - Concepts of enthalpy and heat capacity
Link NOC:Thermodynamics: Classical to Statistical Lecture 3 - Introduction to entropy
Link NOC:Thermodynamics: Classical to Statistical Lecture 4 - Calculation of entropy for various processes
Link NOC:Thermodynamics: Classical to Statistical Lecture 5 - Gibbs and Helmholtz free energy
Link NOC:Thermodynamics: Classical to Statistical Lecture 6 - Introduction to chemical potential
Link NOC:Thermodynamics: Classical to Statistical Lecture 7 - Clapeyron equation and phase transition; concept of fugacity
Link NOC:Thermodynamics: Classical to Statistical Lecture 8 - Calculation of fugacity; free energy of mixing
Link NOC:Thermodynamics: Classical to Statistical Lecture 9 - Partial molar quantities; excess thermodynamic quantities
Link NOC:Thermodynamics: Classical to Statistical Lecture 10 - Concept of activity and activity coefficients; Debye-Huckel limiting law
Link NOC:Thermodynamics: Classical to Statistical Lecture 11 - Phase Diagram of one component systems
Link NOC:Thermodynamics: Classical to Statistical Lecture 12 - Phase Diagram of two component systems
Link NOC:Thermodynamics: Classical to Statistical Lecture 13 - Phase Diagram of three component system; one dimensional random walk
Link NOC:Thermodynamics: Classical to Statistical Lecture 14 - Macroscopic and microscopic states; Boltzmann distribution; Canonical partition function
Link NOC:Thermodynamics: Classical to Statistical Lecture 15 - Calculation of different thermodynamical quantities using canonical partition function
Link NOC:Thermodynamics: Classical to Statistical Lecture 16 - Introduction to molecular partition function
Link NOC:Thermodynamics: Classical to Statistical Lecture 17 - Translational, electronic and nuclear partition function
Link NOC:Thermodynamics: Classical to Statistical Lecture 18 - Rotational partition function
Link NOC:Thermodynamics: Classical to Statistical Lecture 19 - Vibrational partitition function; Introduction to grand canonical ensemble
Link NOC:Thermodynamics: Classical to Statistical Lecture 20 - Grand canonical distribution; Introduction to microcanonical ensemble
Link NOC:Thermodynamics: Classical to Statistical Lecture 21 - Problems on classical thermodynamics - 1
Link NOC:Thermodynamics: Classical to Statistical Lecture 22 - Problems on classical thermodynamics - 2
Link NOC:Thermodynamics: Classical to Statistical Lecture 23 - Problems on statistical thermodynamics - 1
Link NOC:Thermodynamics: Classical to Statistical Lecture 24 - Problems on statistical thermodynamics - 2
Link NOC:Thermodynamics: Classical to Statistical Lecture 25 - Problems on statistical thermodynamics - 3
Link NOC:Thermodynamics: Classical to Statistical Lecture 26 - Fermi-Dirac and Bose-Einstein statistics
Link NOC:Thermodynamics: Classical to Statistical Lecture 27 - Ideal Fermi gas
Link NOC:Thermodynamics: Classical to Statistical Lecture 28 - Ideal Bose gas;Introduction to Bose-Einstein condensation
Link NOC:Thermodynamics: Classical to Statistical Lecture 29 - Bose-Einstein condensations
Link NOC:Thermodynamics: Classical to Statistical Lecture 30 - Nuclear spin statistics; Ortho- and para-hydrogens
Link NOC:Thermodynamics: Classical to Statistical Lecture 31 - Specific Heats of solids
Link NOC:Thermodynamics: Classical to Statistical Lecture 32 - Problems on statistical thermodynamics - 4
Link NOC:Thermodynamics: Classical to Statistical Lecture 33 - Advance problems - 1
Link NOC:Thermodynamics: Classical to Statistical Lecture 34 - Advance Problems - 2
Link NOC:Thermodynamics: Classical to Statistical Lecture 35 - Advance Problems - 3
Link NOC:Thermodynamics: Classical to Statistical Lecture 36 - Advance Problems - 4
Link NOC:Thermodynamics: Classical to Statistical Lecture 37 - Advance Problems - 5
Link Chemistry of Materials Lecture 1 - Introduction to Materials Chemistry
Link Chemistry of Materials Lecture 2 - Preparative routes: Conventional - Precursor technique - I
Link Chemistry of Materials Lecture 3 - Preparative routes: Conventional - Precursor technique - II
Link Chemistry of Materials Lecture 4 - Preparative routes: Un Conventional - Soncochemistry technique - II
Link Chemistry of Materials Lecture 5 - Preparative routes: Un Conventional - Soncochemistry technique - II
Link Chemistry of Materials Lecture 6 - Preparative routes: Un Conventional - Combustion technique
Link Chemistry of Materials Lecture 7 - Preparative routes: Un Conventional - Microwave technique
Link Chemistry of Materials Lecture 8 - Preparative routes: High Pressure - Hydrothermal Technique
Link Chemistry of Materials Lecture 9 - Preparative routes: Coventional Solid State Technique
Link Chemistry of Materials Lecture 10 - Molecular Beam Epitaxy: Monolayers to Multilayers
Link Chemistry of Materials Lecture 11 - Pulsed Laser Deposition: Oxide thin films
Link Chemistry of Materials Lecture 12 - Pulsed Electron Deposition: From oxides to polymeric films and devices
Link Chemistry of Materials Lecture 13 - Sputtering deposited thin films and applications
Link Chemistry of Materials Lecture 14 - Crystal growth-Single crystals.
Link Chemistry of Materials Lecture 15 - Applications of X-ray diffraction
Link Chemistry of Materials Lecture 16 - Applications of X-ray Photoelectron spectroscopy
Link Chemistry of Materials Lecture 17 - Applications of X-ray Absorption spectroscopy
Link Chemistry of Materials Lecture 18 - Applications of Thermal analysis techniques
Link Chemistry of Materials Lecture 19 - Applications of Scanning Tunneling microscopy
Link Chemistry of Materials Lecture 20 - Applications of Electron Microscopy
Link Chemistry of Materials Lecture 21 - Case Study of ZnO
Link Chemistry of Materials Lecture 22 - Magnetic materials - I
Link Chemistry of Materials Lecture 23 - Magnetic Materials - II
Link Chemistry of Materials Lecture 24 - Magnetic Materials - III & Related Phenomena
Link Chemistry of Materials Lecture 25 - Shape Memory Materials
Link Chemistry of Materials Lecture 26 - Spintronic Materials - I Colossal Magentoresistive Oxides
Link Chemistry of Materials Lecture 27 - Spintronic Materials - II Giant Magnetoresistive Materials
Link Chemistry of Materials Lecture 28 - Spintronic Materials - III Tunelling Magnetoresistive Materials
Link Chemistry of Materials Lecture 29 - Spintronic Materials - IV Dilute Magnetic Semicondcutors
Link Chemistry of Materials Lecture 30 - High Tc Superconductors
Link Chemistry of Materials Lecture 31 - The New Carbon family - I - Fullerenes and Nanotubes
Link Chemistry of Materials Lecture 32 - The New Carbon family - II - Graphene
Link Chemistry of Materials Lecture 33 - Optoelectronic Materials - I - OLEDS
Link Chemistry of Materials Lecture 34 - Optoelectronic Materials - II - OLEDS
Link Chemistry of Materials Lecture 35 - Inorganic Phosphors - I
Link Chemistry of Materials Lecture 36 - Inorganic Phosphors - II
Link Chemistry of Materials Lecture 37 - Phosphor Materials
Link Chemistry of Materials Lecture 38 - Solar Cells
Link Chemistry of Materials Lecture 39 - Interview with C N R Rao and Interview with E C Subba Rao
Link Chemistry of Materials Lecture 40 - Perceptions & Projections
Link Mathematics for Chemistry Lecture 1 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 2 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 3 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 4 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 5 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 6 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 7 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 8 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 9 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 10 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 11 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 12 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 13 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 14 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 15 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 16 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 17 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 18 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 19 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 20 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 21 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 22 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 23 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 24 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 25 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 26 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 27 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 28 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 29 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 30 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 31 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 32 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 33 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 34 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 35 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 36 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 37 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 38 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 39 - Mathematics for Chemistry
Link Mathematics for Chemistry Lecture 40 - Mathematics for Chemistry
Link Advance Analytical Course Lecture 1 - Advance Analytical Course
Link Advance Analytical Course Lecture 2 - Advance Analytical Course
Link Advance Analytical Course Lecture 3 - Advance Analytical Course
Link Advance Analytical Course Lecture 4 - Advance Analytical Course
Link Advance Analytical Course Lecture 5 - Advance Analytical Course
Link Advance Analytical Course Lecture 6 - Advance Analytical Course
Link Advance Analytical Course Lecture 7 - Advance Analytical Course
Link Advance Analytical Course Lecture 8 - Advance Analytical Course
Link Advance Analytical Course Lecture 9 - Advance Analytical Course
Link Advance Analytical Course Lecture 10 - Advance Analytical Course
Link Advance Analytical Course Lecture 11 - Advance Analytical Course
Link Advance Analytical Course Lecture 12 - Advance Analytical Course
Link Advance Analytical Course Lecture 13 - Advance Analytical Course
Link Advance Analytical Course Lecture 14 - Advance Analytical Course
Link Advance Analytical Course Lecture 15 - Advance Analytical Course
Link Advance Analytical Course Lecture 16 - Advance Analytical Course
Link Advance Analytical Course Lecture 17 - Advance Analytical Course
Link Advance Analytical Course Lecture 18 - Advance Analytical Course
Link Advance Analytical Course Lecture 19 - Advance Analytical Course
Link Advance Analytical Course Lecture 20 - Advance Analytical Course
Link Advance Analytical Course Lecture 21 - Advance Analytical Course
Link Advance Analytical Course Lecture 22 - Advance Analytical Course
Link Advance Analytical Course Lecture 23 - Advance Analytical Course
Link Advance Analytical Course Lecture 24 - Advance Analytical Course
Link Advance Analytical Course Lecture 25 - Advance Analytical Course
Link Advance Analytical Course Lecture 26 - Advance Analytical Course
Link Advance Analytical Course Lecture 27 - Advance Analytical Course
Link Advance Analytical Course Lecture 28 - Advance Analytical Course
Link Advance Analytical Course Lecture 29 - Advance Analytical Course
Link Advance Analytical Course Lecture 30 - Advance Analytical Course
Link Advance Analytical Course Lecture 31 - Advance Analytical Course
Link Advance Analytical Course Lecture 32 - Advance Analytical Course
Link Advance Analytical Course Lecture 33 - Advance Analytical Course
Link Advance Analytical Course Lecture 34 - Advance Analytical Course
Link Advance Analytical Course Lecture 35 - Advance Analytical Course
Link Advance Analytical Course Lecture 36 - Advance Analytical Course
Link Advance Analytical Course Lecture 37 - Advance Analytical Course
Link Advance Analytical Course Lecture 38 - Advance Analytical Course
Link Advance Analytical Course Lecture 39 - Advance Analytical Course
Link Advance Analytical Course Lecture 40 - Advance Analytical Course
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 1
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 2
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 3
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 4
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 5
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 6
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 7
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 8
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 9
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 10
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 11
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 12
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 13
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 14
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 15
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 16
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 17
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 18
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 19
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 20
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 21
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 22
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 23
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 24
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 25
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 26
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 27
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 28
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 29
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 30
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 31
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 32
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 33
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 34
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 35
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 36
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 37
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 38
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 39
Link NOC:Chemical Applications of Symmetry and Group Theory Lecture 40
Link NOC:Mathematics for Chemistry Lecture 1 - Errors, precision and accuracy
Link NOC:Mathematics for Chemistry Lecture 2 - Probability and distributions
Link NOC:Mathematics for Chemistry Lecture 3 - Gaussian distribution and integrals
Link NOC:Mathematics for Chemistry Lecture 4 - Gaussian distribution, integrals, averages
Link NOC:Mathematics for Chemistry Lecture 5 - Practice problems 1
Link NOC:Mathematics for Chemistry Lecture 6 - Vectors and Vector Spaces
Link NOC:Mathematics for Chemistry Lecture 7 - Linear Independence
Link NOC:Mathematics for Chemistry Lecture 8 - Scalar and vector fields
Link NOC:Mathematics for Chemistry Lecture 9 - Gradient, divergence and curl
Link NOC:Mathematics for Chemistry Lecture 10 - Practice problems 2
Link NOC:Mathematics for Chemistry Lecture 11 - Line integrals, Potential Theory
Link NOC:Mathematics for Chemistry Lecture 12 - Surface and Volume Integrals
Link NOC:Mathematics for Chemistry Lecture 13 - Matrices
Link NOC:Mathematics for Chemistry Lecture 14 - Linear Systems, Cramer's Rule
Link NOC:Mathematics for Chemistry Lecture 15 - Practice Problems 3
Link NOC:Mathematics for Chemistry Lecture 16 - Rank and Inverse of a Matrix
Link NOC:Mathematics for Chemistry Lecture 17 - Eigenvalues and Eigenvectors
Link NOC:Mathematics for Chemistry Lecture 18 - Special matrices
Link NOC:Mathematics for Chemistry Lecture 19 - Spectral decomposition and Normal modes
Link NOC:Mathematics for Chemistry Lecture 20 - Practice Problems 4
Link NOC:Mathematics for Chemistry Lecture 21 - Differential equations, Order
Link NOC:Mathematics for Chemistry Lecture 22 - Exact and Inexact differentials
Link NOC:Mathematics for Chemistry Lecture 23 - Integrating Factors
Link NOC:Mathematics for Chemistry Lecture 24 - System of 1st order ODEs, matrix methods
Link NOC:Mathematics for Chemistry Lecture 25 - Practice Problems 5
Link NOC:Mathematics for Chemistry Lecture 26 - Types of 2nd order ODEs, nature of solutions
Link NOC:Mathematics for Chemistry Lecture 27 - Homogeneous 2nd order ODEs
Link NOC:Mathematics for Chemistry Lecture 28 - Homogeneous and nonhomogeneous equations
Link NOC:Mathematics for Chemistry Lecture 29 - Nonhomogeneous equations – Variation of parameters
Link NOC:Mathematics for Chemistry Lecture 30 - Practice Problems 6
Link NOC:Mathematics for Chemistry Lecture 31 - Power series method for solving Legendre DE
Link NOC:Mathematics for Chemistry Lecture 32 - Properties of Legendre Polynomials
Link NOC:Mathematics for Chemistry Lecture 33 - Associated Legendre Polynomials, Spherical Harmonics
Link NOC:Mathematics for Chemistry Lecture 34 - Hermite Polynomials, Solution of Quantum Harmonic Oscillator
Link NOC:Mathematics for Chemistry Lecture 35 - Practice Problems 7
Link NOC:Mathematics for Chemistry Lecture 36 - Conditions for power series solution
Link NOC:Mathematics for Chemistry Lecture 37 - Frobenius Method, Bessel Functions
Link NOC:Mathematics for Chemistry Lecture 38 - Properties of Bessel Functions, circular boundary problems
Link NOC:Mathematics for Chemistry Lecture 39 - Leguerre Polynomials, solution to radial part of H-atom
Link NOC:Mathematics for Chemistry Lecture 40 - Practice Problems 8
Link NOC:Quantum Computing Lecture 1 - Introduction - Motivation and Overview
Link NOC:Quantum Computing Lecture 2 - Introduction - Technical Details
Link NOC:Quantum Computing Lecture 3 - Introduction - Basic tools
Link NOC:Quantum Computing Lecture 4 - Computational Tools
Link NOC:Quantum Computing Lecture 5 - Quantum Measurement and Teleportation
Link NOC:Quantum Computing Lecture 6 - Quantum Teleportation and Cryptography
Link NOC:Quantum Computing Lecture 7 - DJ Algorithm and Implementation Aspects
Link NOC:Quantum Computing Lecture 8 - Grover's Algorithm
Link NOC:Quantum Computing Lecture 9 - Basics of Shor's Algorithm
Link NOC:Quantum Computing Lecture 10 - Shor's Algorithm and Quantum Fourier Transform (QFT)
Link NOC:Quantum Computing Lecture 11 - Basics of Quantum Mechanics
Link NOC:Quantum Computing Lecture 12 - Modern look at Quantum Mechanics
Link NOC:Quantum Computing Lecture 13 - Basics of NMR
Link NOC:Quantum Computing Lecture 14 - Concepts in NMR Quantum Computing
Link NOC:Quantum Computing Lecture 15 - Laser Basics
Link NOC:Quantum Computing Lecture 16 - Continuous Wave Lasers
Link NOC:Quantum Computing Lecture 17 - Pulsed Lasers
Link NOC:Quantum Computing Lecture 18 : Optical Implementation 'Linear Approach
Link NOC:Quantum Computing Lecture 19 : Various Aspects of Linear Optical Quantum Computing
Link NOC:Quantum Computing Lecture 20 : Laser Experimental Implementation for Grover's Algorithm
Link NOC:Quantum Computing Lecture 21 - Optical Implementation
Link NOC:Quantum Computing Lecture 22 - Solutions to problem set - 1
Link NOC:Quantum Computing Lecture 23 - Basics of Ion Traps
Link NOC:Quantum Computing Lecture 24 - Applications of Ion Traps in QIQC
Link NOC:Quantum Computing Lecture 25 - Reviewing Concepts and clarifying problems - 1
Link NOC:Quantum Computing Lecture 26 - Reviewing Concepts and clarifying problems - 2
Link NOC:Quantum Computing Lecture 27 - Qubits used in Commercial Quantum Computing
Link NOC:Quantum Computing Lecture 28 - Spintronics Quantum Computing
Link NOC:Quantum Computing Lecture 29 - Back to Basics - I
Link NOC:Quantum Computing Lecture 30 - Back to Basics - II
Link NOC:Quantum Computing Lecture 31 - Understanding Implementation Issues from the Basics - I
Link NOC:Quantum Computing Lecture 32 - Understanding Implementation Issues from the Basics - II
Link NOC:Quantum Computing Lecture 33 - Implementation with Solid-State Super conducting Qubits
Link NOC:Quantum Computing Lecture 34 - Concept of Density Matrix for Quantum Computing
Link NOC:Quantum Computing Lecture 35 - Understanding the ensemble of Qubits from Density Matrix
Link NOC:Quantum Computing Lecture 36 - Understanding Quantum Measurement, Entanglement etc. in Quantum Computing using Density Matrix
Link NOC:Quantum Computing Lecture 37 - Principles: Quantum Mechanics and Computers
Link NOC:Quantum Computing Lecture 38 - Measurements: Single vs Ensemble Averaged
Link NOC:Quantum Computing Lecture 39 - Working of Quantum Computers: NMR QC
Link NOC:Quantum Computing Lecture 40 - Academic Development in Quantum Computing - I
Link NOC:Quantum Computing Lecture 41 - Academic Development in Quantum Computing - II
Link NOC:Quantum Computing Lecture 42 - Commercial Development in Quantum Computing Implementation
Link NOC:Quantum Computing Lecture 43 - Use of Atomic Quibts in Quantum Computing
Link NOC:Quantum Computing Lecture 44 - Futuristic Aspects in Implementing Quantum Computing - I
Link NOC:Quantum Computing Lecture 45 - Futuristic Aspects in Implementing Quantum Computing - II
Link NOC:Basics of Fluroscence Spectroscopy Lecture 1
Link NOC:Basics of Fluroscence Spectroscopy Lecture 2
Link NOC:Basics of Fluroscence Spectroscopy Lecture 3
Link NOC:Basics of Fluroscence Spectroscopy Lecture 4
Link NOC:Basics of Fluroscence Spectroscopy Lecture 5
Link NOC:Basics of Fluroscence Spectroscopy Lecture 6
Link NOC:Basics of Fluroscence Spectroscopy Lecture 7
Link NOC:Basics of Fluroscence Spectroscopy Lecture 8
Link NOC:Basics of Fluroscence Spectroscopy Lecture 9
Link NOC:Basics of Fluroscence Spectroscopy Lecture 10
Link NOC:Basics of Fluroscence Spectroscopy Lecture 11
Link NOC:Basics of Fluroscence Spectroscopy Lecture 12
Link NOC:Basics of Fluroscence Spectroscopy Lecture 13
Link NOC:Basics of Fluroscence Spectroscopy Lecture 14
Link NOC:Basics of Fluroscence Spectroscopy Lecture 15
Link NOC:Basics of Fluroscence Spectroscopy Lecture 16
Link NOC:Basics of Fluroscence Spectroscopy Lecture 17
Link NOC:Basics of Fluroscence Spectroscopy Lecture 18
Link NOC:Basics of Fluroscence Spectroscopy Lecture 19
Link NOC:Basics of Fluroscence Spectroscopy Lecture 20
Link NOC:Basics of Fluroscence Spectroscopy Lecture 21
Link NOC:Basics of Fluroscence Spectroscopy Lecture 22
Link NOC:Basics of Fluroscence Spectroscopy Lecture 23
Link NOC:Basics of Fluroscence Spectroscopy Lecture 24
Link NOC:Basics of Fluroscence Spectroscopy Lecture 25
Link NOC:Basics of Fluroscence Spectroscopy Lecture 26
Link NOC:Basics of Fluroscence Spectroscopy Lecture 27
Link NOC:Basics of Fluroscence Spectroscopy Lecture 28
Link NOC:Basics of Fluroscence Spectroscopy Lecture 29
Link NOC:Basics of Fluroscence Spectroscopy Lecture 30
Link NOC:Basics of Fluroscence Spectroscopy Lecture 31
Link NOC:Basics of Fluroscence Spectroscopy Lecture 32
Link NOC:Basics of Fluroscence Spectroscopy Lecture 33
Link NOC:Basics of Fluroscence Spectroscopy Lecture 34
Link NOC:Basics of Fluroscence Spectroscopy Lecture 35
Link NOC:Basics of Fluroscence Spectroscopy Lecture 36
Link NOC:Basics of Fluroscence Spectroscopy Lecture 37
Link NOC:Basics of Fluroscence Spectroscopy Lecture 38
Link NOC:Basics of Fluroscence Spectroscopy Lecture 39
Link NOC:Basics of Fluroscence Spectroscopy Lecture 40
Link NOC:Laser - Fundamentals and Applications Lecture 1 - Unique properties of LASERs and their applications
Link NOC:Laser - Fundamentals and Applications Lecture 2 - LASER and its history
Link NOC:Laser - Fundamentals and Applications Lecture 3 - Interaction of Light with matter
Link NOC:Laser - Fundamentals and Applications Lecture 4 - Einsteins Concept of stimulated emission
Link NOC:Laser - Fundamentals and Applications Lecture 5 - Calculation of Einsteins coefficient
Link NOC:Laser - Fundamentals and Applications Lecture 6 - Population inversion, 2-level system and 3-level system
Link NOC:Laser - Fundamentals and Applications Lecture 7 - 3-level System and 4-level system
Link NOC:Laser - Fundamentals and Applications Lecture 8 - Components of LASERs
Link NOC:Laser - Fundamentals and Applications Lecture 9 - Modes of LASER cavity and standing waves
Link NOC:Laser - Fundamentals and Applications Lecture 10 - Transverse Modes of LASER cavity
Link NOC:Laser - Fundamentals and Applications Lecture 11 - Threshold Condition
Link NOC:Laser - Fundamentals and Applications Lecture 12 - Properties of Laser: Directionality and Intensity
Link NOC:Laser - Fundamentals and Applications Lecture 13 - Properties of Laser: Coherence and Monochromaticity
Link NOC:Laser - Fundamentals and Applications Lecture 14 - Continuous and Pulsed Lasers
Link NOC:Laser - Fundamentals and Applications Lecture 15 - Some Numerical problem
Link NOC:Laser - Fundamentals and Applications Lecture 16 - Cavity Dumping
Link NOC:Laser - Fundamentals and Applications Lecture 17 - Q-switching
Link NOC:Laser - Fundamentals and Applications Lecture 18 - Q-switching and Pockels effect
Link NOC:Laser - Fundamentals and Applications Lecture 19 - Passive Q-switching, Mode-Locking
Link NOC:Laser - Fundamentals and Applications Lecture 20 - Mode Locking
Link NOC:Laser - Fundamentals and Applications Lecture 21 - Mode - locking
Link NOC:Laser - Fundamentals and Applications Lecture 22 - Mode - locking (Continued...)
Link NOC:Laser - Fundamentals and Applications Lecture 23 - Passive Mode - locking and Types of LASERs
Link NOC:Laser - Fundamentals and Applications Lecture 24 - Solid state LASERs
Link NOC:Laser - Fundamentals and Applications Lecture 25 - Semiconductor LASERs and Gas LASERs
Link NOC:Laser - Fundamentals and Applications Lecture 26 - Gas LASERs
Link NOC:Laser - Fundamentals and Applications Lecture 27 - Chemical and Dye LASERs
Link NOC:Laser - Fundamentals and Applications Lecture 28 - Introduction to Non Linear Optics
Link NOC:Laser - Fundamentals and Applications Lecture 29 - Non Linear Optics
Link NOC:Laser - Fundamentals and Applications Lecture 30 - 2nd order Nonlinear optics
Link NOC:Laser - Fundamentals and Applications Lecture 31 - Non-linear optical processes
Link NOC:Laser - Fundamentals and Applications Lecture 32 - Aspects of SHG and Application of non-linear optics
Link NOC:Laser - Fundamentals and Applications Lecture 33 - Application of LASER: LIDAR
Link NOC:Laser - Fundamentals and Applications Lecture 34 - Application of Laser: Laser Spectroscopy
Link NOC:Laser - Fundamentals and Applications Lecture 35 - Application of Laser: Enrichment of Isotope
Link NOC:Laser - Fundamentals and Applications Lecture 36 - Laser Induced Chemistry
Link NOC:Laser - Fundamentals and Applications Lecture 37 - Laser Induced Chemistry and Ultrafast chemical Dynamics
Link NOC:Laser - Fundamentals and Applications Lecture 38 - Lasers in Medical Sciences
Link NOC:Laser - Fundamentals and Applications Lecture 39 - Lasers in Material sciences and engineering and Optical Communications
Link NOC:Laser - Fundamentals and Applications Lecture 40 - Laser safety and summary
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 1 - Vectors, Vector Operations and Linear Independence
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 2 - Vector Operations, Generalization of Vectors
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 3 - Vector Differentiation, Vector Transformations
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 4 - Vector Integration, Line, Surface and Volume Integrals
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 5 - Practice Problems
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 6 - Matrix as a vector transformation, linear system
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 7 - Special Matrices: Symmetric, Orthogonal, Complex
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 8 - Rotational Matrices, Eigenvalues and Eigenvectors
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 9 - Determinants, Matrix Inverse
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 10 - Practice Problems
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 11 - Step Function, Delta Function
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 12 - Gamma Function, Error Function
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 13 - Spherical Polar Coordinates
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 14 - Cylindrical Polar Coordinates, Integrals
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 15 - Recap of Module 3, Practice Problems
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 16 - ODEs and PDEs, First order ODEs, system of 1st order ODEs
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 17 - First order ODEs, exact integrals, integrating factors
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 18 - System of first order ODEs, Linear first order ODEs
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 19 - General solution of a system of linear first order ODEs with constant coefficients
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 20 - Recap of Module 4, Practice problems
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 21 - Homogeneous 2nd Order ODE, Basis Functions
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 22 - Nonhomogeneous 2nd Order ODE
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 23 - Power Series Method of Solving ODEs
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 24 - Frobenius Method / Power Series Method
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 25 - Time-independent Schrodinger Equation for H-atom
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 26 - Maxima and Minima, Taylor Series
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 27 - Taylor Series for functions of several variables
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 28 - Critical Points of Functions
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 29 - Lagranges Method of Undetermined Multipliers
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 30 - Recap of Module 6, Practice Problems
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 31 - Nonlinear Differential Equations
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 32 - Phase Plane of A Pendulum
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 33 - Stability of Critical Points
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 34 - Population Dynamics Models
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 35 - Recap of Module 7, Practice Problems
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 36 - Fourier Series, Fourier Expansion of Periodic Functions
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 37 - (Part A): Fourier Expansions and Differential Equations
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 38 - (Part B): Fourier Expansions and Differential Equations
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 39 - Orthogonal Eigenfunctions, Sturm-Liouville Theory
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 40 - Recap of Module 8, Practice Problems
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 41 - Fourier Transforms
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 42 - Properties of Fourier Transforms
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 43 - Fourier Transforms and Partial Differential Equations
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 44 - Laplace Transforms
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 45 - Recap of Module 9, Practice Problems
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 46 - Partial Differential Equations, Boundary Conditions
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 47 - Separation of Variables
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 48 - (Part A): Two-dimensional Wave Equation, Bessel Functions
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 49 - (Part B): Two-dimensional Wave Equation, Bessel Functions
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 50 - Recap of Module 10, Practice Problems
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 51 - Discrete and Continuous Random Variables
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 52 - Probability Distribution Functions
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 53 - Poisson Distribution, Gaussain Distribution
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 54 - Error Estimates, Least Square Fit, Correlation Functions
Link NOC:Advanced Mathematical Methods for Chemistry Lecture 55 - Recap of Module 11, Practice Problems
Link NOC:Solid State Chemistry Lecture 1 - Nature of solid state and the solid state materials
Link NOC:Solid State Chemistry Lecture 2 - Thermodynamics of solids
Link NOC:Solid State Chemistry Lecture 3 - Crystallisation Kinetics
Link NOC:Solid State Chemistry Lecture 4 - Synthetic Strategy
Link NOC:Solid State Chemistry Lecture 5 - Review of week 1 and Practice problems
Link NOC:Solid State Chemistry Lecture 6 - Unit Cells
Link NOC:Solid State Chemistry Lecture 7 - Conventional Unit Cell and Primitive Unit Cell
Link NOC:Solid State Chemistry Lecture 8 - Bravais Lattices
Link NOC:Solid State Chemistry Lecture 9 - Bravais Lattices, Basis and crystal
Link NOC:Solid State Chemistry Lecture 10 - Summery of week 2 and Practices Problems
Link NOC:Solid State Chemistry Lecture 11 - Symmetry In Crystals, Point Symmetries
Link NOC:Solid State Chemistry Lecture 12 - Reflections, Inversions and Rotoinversions
Link NOC:Solid State Chemistry Lecture 13 - Schonflies and Hermann-Mauguin Conventions
Link NOC:Solid State Chemistry Lecture 14 - Fractional Coordinates, Planer Visualization
Link NOC:Solid State Chemistry Lecture 15 - Review of week 3 And Practice Problems
Link NOC:Solid State Chemistry Lecture 16 - Combining symmetry operations, translational symmetries
Link NOC:Solid State Chemistry Lecture 17 - Screw Axis
Link NOC:Solid State Chemistry Lecture 18 - Glide Planes
Link NOC:Solid State Chemistry Lecture 19 - Symmetry and Symmetry Notations
Link NOC:Solid State Chemistry Lecture 20 - Summary of week 4 and Practice Problems
Link NOC:Solid State Chemistry Lecture 21 - Crystal Systems
Link NOC:Solid State Chemistry Lecture 22 - Crystal Systems and Unit Cells
Link NOC:Solid State Chemistry Lecture 23 - Point Groups
Link NOC:Solid State Chemistry Lecture 24 - Space Groups
Link NOC:Solid State Chemistry Lecture 25 - Week 5 Summary and Practice Problems
Link NOC:Solid State Chemistry Lecture 26 - 32 Crystal Classes Based on Symmetry
Link NOC:Solid State Chemistry Lecture 27 - Notation for 32 Crystal Classes
Link NOC:Solid State Chemistry Lecture 28 - Short Form of Hermann-Mauguin Notations
Link NOC:Solid State Chemistry Lecture 29 - Hermann - Mauguin notation for Space Groups
Link NOC:Solid State Chemistry Lecture 30 - Summary and Practice Problems
Link NOC:Solid State Chemistry Lecture 31 - Coordination number, Voids
Link NOC:Solid State Chemistry Lecture 32 - Lattice Imperfections and Crystals
Link NOC:Solid State Chemistry Lecture 33 - Line Planner and Bulk defects and crystals
Link NOC:Solid State Chemistry Lecture 34 - Thermodynamics of defects in crystals
Link NOC:Solid State Chemistry Lecture 35 - Review of Week 7,Practice Problems
Link NOC:Solid State Chemistry Lecture 36 - Miller Planes, Miller Indices
Link NOC:Solid State Chemistry Lecture 37 - Miller Indices for Hexagonal Systems, Distance between Planes
Link NOC:Solid State Chemistry Lecture 38 - X-ray diffraction, Bragg's Law, Reciprocal Lattice
Link NOC:Solid State Chemistry Lecture 39 - Reciprocal Lattice, XRD instrumentation
Link NOC:Solid State Chemistry Lecture 40 - Review of week 8, Practice Problems
Link NOC:Solid State Chemistry Lecture 41 - XRD - Analysis of Pattern
Link NOC:Solid State Chemistry Lecture 42 - Geometric Structure Factor - Missing Peaks
Link NOC:Solid State Chemistry Lecture 43 - X-Ray Crystallography
Link NOC:Solid State Chemistry Lecture 44 - Electron Microscopy
Link NOC:Solid State Chemistry Lecture 45 - Review of Week 9. Practice Problems
Link NOC:Solid State Chemistry Lecture 46 - Closed - Packed Structures and Voids
Link NOC:Solid State Chemistry Lecture 47 - Crystal Structures of Binary Compounds
Link NOC:Solid State Chemistry Lecture 48 - Perovskites and Spinals
Link NOC:Solid State Chemistry Lecture 49 - Space filling Polyhedra, Alloys
Link NOC:Solid State Chemistry Lecture 50 - Summary of Week 10 and Practice Problems
Link NOC:Solid State Chemistry Lecture 51 - Free electron Models
Link NOC:Solid State Chemistry Lecture 52 - Bloch Theorem
Link NOC:Solid State Chemistry Lecture 53 - Band Theory of Solids
Link NOC:Solid State Chemistry Lecture 54 - Bands in Higher Dimensions
Link NOC:Solid State Chemistry Lecture 55 - Summary of Week 11 and Practice Problems
Link NOC:Solid State Chemistry Lecture 56 - More about Band Theory, Crystal Momentum
Link NOC:Solid State Chemistry Lecture 57 - Density of States
Link NOC:Solid State Chemistry Lecture 58 - Metals, Insulators and Semiconductors
Link NOC:Solid State Chemistry Lecture 59 - Band Gap and Optical Properties
Link NOC:Solid State Chemistry Lecture 60 - Summary of Week 12 and Practice Problems
Link NOC:Bioinorganic Chemistry Lecture 1 - General Introduction and Prospects
Link NOC:Bioinorganic Chemistry Lecture 2 - Metals in Biology: Nature's Selection of Elements in Life
Link NOC:Bioinorganic Chemistry Lecture 3 - Metals in Biology: Control, Use and Enzymatic Action
Link NOC:Bioinorganic Chemistry Lecture 4 - Metals in Biology: Choice of Redox Active Metal Ions
Link NOC:Bioinorganic Chemistry Lecture 5 - Metals in Biology: Importance of Cobalt in Coenzyme-B12
Link NOC:Bioinorganic Chemistry Lecture 6 - Design Principles Used in Chemical Biology: Some Noteworthy Examples!
Link NOC:Bioinorganic Chemistry Lecture 7 - Design Principles Used in Chemical Biology: Role of Proteins in Controlling Reactivity!
Link NOC:Bioinorganic Chemistry Lecture 8 - Design Principles Used in Chemical Biology: Blue-Copper Proteins
Link NOC:Bioinorganic Chemistry Lecture 9 - Design Principles Used in Chemical Biology: Fixation of Nitrogen from Air
Link NOC:Bioinorganic Chemistry Lecture 10 - Life with Oxygen: Molecular and Chemical Properties of O2
Link NOC:Bioinorganic Chemistry Lecture 11 - Life with Oxygen: Cytochrome c oxidase
Link NOC:Bioinorganic Chemistry Lecture 12 - Life with Oxygen: Superoxide Dismutase Activity
Link NOC:Bioinorganic Chemistry Lecture 13 - Life with Oxygen: Catalase and Peroxidase Activities
Link NOC:Bioinorganic Chemistry Lecture 14 - Life with Oxygen: Oxygenase Activity
Link NOC:Bioinorganic Chemistry Lecture 15 - Life with Oxygen: O2-Carrying Proteins Hemocyanin and Hemerythrin
Link NOC:Bioinorganic Chemistry Lecture 16 - Life with Oxygen: O2-Carrying Proteins Hemoglobin and Myoglobin
Link NOC:Bioinorganic Chemistry Lecture 17 - Life with Oxygen: Reversible O2-binding and Transport
Link NOC:Bioinorganic Chemistry Lecture 18 - Life with Oxygen: Heme Oxygenase Activity
Link NOC:Bioinorganic Chemistry Lecture 19 - Metals in Medicine: Introduction to Medicinal Inorganic Chemistry
Link NOC:Bioinorganic Chemistry Lecture 20 - Metals in Medicine: Platinum-based Anti-Cancer Drugs
Link Bio-inorganic chemistry Lecture 1 - Introduction
Link Bio-inorganic chemistry Lecture 2 - Iron Storage and Transport - I
Link Bio-inorganic chemistry Lecture 3 - Iron Storage and Transport - II
Link Bio-inorganic chemistry Lecture 4 - Iron Storage and Transport - III
Link Bio-inorganic chemistry Lecture 5 - Electron Transport Proteins - I
Link Bio-inorganic chemistry Lecture 6 - Electron transport Proteins - II
Link Bio-inorganic chemistry Lecture 7 - Electron Transport Proteins - III
Link Bio-inorganic chemistry Lecture 8 - Electron Transport Proteins - IV
Link Bio-inorganic chemistry Lecture 9 - Electron Transport Proteins - V
Link Bio-inorganic chemistry Lecture 10 - Electron Transport Proteins - VI
Link Bio-inorganic chemistry Lecture 11 - Electron Transport Proteins - VII
Link Bio-inorganic chemistry Lecture 12 - Electron Transport Proteins - VIII
Link Bio-inorganic chemistry Lecture 13 - Electron Transport Proteins - IX
Link Bio-inorganic chemistry Lecture 14 - Electron Transfer in Photosynthesis - I
Link Bio-inorganic chemistry Lecture 15 - Electron Transfer in Photosynthesis - II
Link Bio-inorganic chemistry Lecture 16 - Manganese Enzymes
Link Bio-inorganic chemistry Lecture 17 - Nickel Enzymes - I
Link Bio-inorganic chemistry Lecture 18 - Nickel Enzymes - II
Link Bio-inorganic chemistry Lecture 19 - Nickel Enzymes - III
Link Bio-inorganic chemistry Lecture 20 - Nickel Enzymes - IV
Link Bio-inorganic chemistry Lecture 21 - Nickel Enzymes - V
Link Bio-inorganic chemistry Lecture 22 - Molybdenum Enzymes - I
Link Bio-inorganic chemistry Lecture 23 - Molybdenum Enzymes - II
Link Bio-inorganic chemistry Lecture 24 - Molybdenum Enzymes - III
Link Bio-inorganic chemistry Lecture 25 - Molybdenum Enzymes - IV
Link Bio-inorganic chemistry Lecture 26 - Molybdenum Enzymes - V
Link Bio-inorganic chemistry Lecture 27 - Molybdenum Enzymes - VI
Link Bio-inorganic chemistry Lecture 28 - Molybdenum and Tungsten in Biology
Link Bio-inorganic chemistry Lecture 29 - Tungsten Enzymes - I
Link Bio-inorganic chemistry Lecture 30 - Tungsten Enzymes - II
Link Bio-inorganic chemistry Lecture 31 - Tungsten Enzymes - III
Link Bio-inorganic chemistry Lecture 32 - Tungsten Enzymes - IV
Link Bio-inorganic chemistry Lecture 33 - Vanadium Enzymes - I
Link Bio-inorganic chemistry Lecture 34 - Vanadium Enzymes - II
Link Bio-inorganic chemistry Lecture 35 - Vanadium Enzymes - III
Link Bio-inorganic chemistry Lecture 36 - Vanadium Enzymes - IV
Link Bio-inorganic chemistry Lecture 37 - Non-metals in Biology - I
Link Bio-inorganic chemistry Lecture 38 - Non-metals in Biology - II
Link Bio-inorganic chemistry Lecture 39 - Non-metals in Biology - III
Link Bio-inorganic chemistry Lecture 40 - Non-metals in Biology - IV
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 1 - Introduction
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 2 - Definition
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 3 - Classification of Ligands - I
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 4 - Classification of Ligands - II
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 5 - Ligands - III and Nomenclature - I
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 6 - Nomenclature - II
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 7 - Coordination Number - I
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 8 - Coordination Number - II
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 9 - Coordination Number - III
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 10 - Coordination Number - IV
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 11 - Isomerism - I
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 12 - Isomerism - II
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 13 - Coordination Equilibria - I
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 14 - Coordination Equilibria - II
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 15 - Bonding in Complexes - I
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 16 - Bonding in Complexes - II
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 17 - Bonding in Complexes - III
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 18 - Bonding in Complexes - IV
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 19 - Jahn-Teller Effect
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 20 - Spin Crossover and Colour
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 21 - Optical Spectra
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 22 - d-d Transitions
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 23 - Charge Transfer
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 24 - Orgel Diagram
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 25 - Tanabe Sugano Diagram
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 26 - MLCT Transitions
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 27 - Application of CFT
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 28 - Spinels
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 29 - Magnetochemistry
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 30 - Magnetic Properties
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 31 - Magnetic Measurements
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 32 - Ligand Field Theory
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 33 - Sigma Orbitals
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 34 - Pi Orbitals
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 35 - Reaction Mechanism - I
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 36 - Reaction Mechanism - II
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 37 - Reaction Mechanism - III
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 38 - Reaction Mechanism - IV
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 39 - Reaction Mechanism - V
Link Co-ordination Chemistry (Chemistry of Transition Elements) Lecture 40 - Biological Inorganic Chemistry
Link Heterocyclic Chemistry Lecture 1 - Definition and Scope
Link Heterocyclic Chemistry Lecture 2 - Single - Step Methods for IVPs
Link Heterocyclic Chemistry Lecture 3 - Systematic Nomenclature
Link Heterocyclic Chemistry Lecture 4 - Nomenclature (Continued...) and Important Names
Link Heterocyclic Chemistry Lecture 5 - Overview of Structure Determination in Heterocyclic Chemistry
Link Heterocyclic Chemistry Lecture 6 - 15N NMR in Heterocyclic Chemistry
Link Heterocyclic Chemistry Lecture 7 - Effects of Ring Nitrogen - A
Link Heterocyclic Chemistry Lecture 8 - Effects of Ring Nitrogen - B
Link Heterocyclic Chemistry Lecture 9 - Effects of Ring Nitrogen - C
Link Heterocyclic Chemistry Lecture 10 - Oxidation in Heterocyclic Chemistry
Link Heterocyclic Chemistry Lecture 11 - Oxidation in Heterocyclic Chemistry (Continued...)
Link Heterocyclic Chemistry Lecture 12 - Reduction in Heterocyclic Chemistry
Link Heterocyclic Chemistry Lecture 13 - Radicals in Heterocylic Chemistry - I
Link Heterocyclic Chemistry Lecture 14 - Radicals in Heterocylic Chemistry - II
Link Heterocyclic Chemistry Lecture 15 - Lithiation for 5-membered heterocycles
Link Heterocyclic Chemistry Lecture 16 - Lithiation for 5-membered heterocycles (Continued...)
Link Heterocyclic Chemistry Lecture 17 - Lithiation of 6-membered heterocycle and non-aromatic heterocycles
Link Heterocyclic Chemistry Lecture 18 - Magnetiation and Zincation in Heterocyclic Chemistry
Link Heterocyclic Chemistry Lecture 19 - Transition metal catalyzed cross coupling
Link Heterocyclic Chemistry Lecture 20 - Transition metal catalyzed cross coupling (Continued...)
Link Heterocyclic Chemistry Lecture 21 - Dehydrogenative (Oxidative) cross coupling
Link Heterocyclic Chemistry Lecture 22 - Tert-amino effect in heterocycle synthesis
Link Heterocyclic Chemistry Lecture 23 - [4 plus 2] cycloaddition in heterocyclic chemistry
Link Heterocyclic Chemistry Lecture 24 - [4 plus 2] cycloaddition in heterocyclic chemistry (Continued...)
Link Heterocyclic Chemistry Lecture 25 - [3 plus 2] Cycloaddition in heterocyclic chemistry
Link Heterocyclic Chemistry Lecture 26 - Cycloaddition : Revisited
Link Heterocyclic Chemistry Lecture 27 - [4 plus 3] Cycloaddition
Link Heterocyclic Chemistry Lecture 28 - [5 plus 2] Cycloaddition
Link Heterocyclic Chemistry Lecture 29 - [2 plus 2 plus 2] Cycloaddition
Link Heterocyclic Chemistry Lecture 30 - Pyrrole Synthesis - I
Link Heterocyclic Chemistry Lecture 31 - Pyrrole Synthesis - II
Link Heterocyclic Chemistry Lecture 32 - Indole Synthesis - I
Link Heterocyclic Chemistry Lecture 33 - Indole Synthesis - II
Link Heterocyclic Chemistry Lecture 34 - Furan Synthesis
Link Heterocyclic Chemistry Lecture 35 - Thiophene Synthesis
Link Heterocyclic Chemistry Lecture 36 - Oxazole, Imidazole and Thiazole Synthesis
Link Heterocyclic Chemistry Lecture 37 - Pyridine Synthesis
Link Heterocyclic Chemistry Lecture 38 - Synthesis of Quinolines and Isoquinolines
Link Heterocyclic Chemistry Lecture 39 - Bycyclic Polyheteroatomic Heterocycles
Link Heterocyclic Chemistry Lecture 40 - Heterocyclic Rearrangements
Link Organic Photochemistry and Pericyclic Reactions Lecture 1 - Introduction to Organic Photochemistry
Link Organic Photochemistry and Pericyclic Reactions Lecture 2 - Introduction to Organic Photochemistry (Continued...)
Link Organic Photochemistry and Pericyclic Reactions Lecture 3 - Reactivity of n-pi*
Link Organic Photochemistry and Pericyclic Reactions Lecture 4 - α - cleavage - I
Link Organic Photochemistry and Pericyclic Reactions Lecture 5 - α - cleavage - II
Link Organic Photochemistry and Pericyclic Reactions Lecture 6 - α - cleavage - III
Link Organic Photochemistry and Pericyclic Reactions Lecture 7 - β - cleavage
Link Organic Photochemistry and Pericyclic Reactions Lecture 8 - Intramolecular Hydrogen Abstraction - I
Link Organic Photochemistry and Pericyclic Reactions Lecture 9 - Intramolecular Hydrogen Abstraction - II
Link Organic Photochemistry and Pericyclic Reactions Lecture 10 - Intramolecular Hydrogen Abstraction - III
Link Organic Photochemistry and Pericyclic Reactions Lecture 11 - Intramolecular Hydrogen Abstraction
Link Organic Photochemistry and Pericyclic Reactions Lecture 12 - Addition to Π - System
Link Organic Photochemistry and Pericyclic Reactions Lecture 13 - Intramolecular Paterno-Buchi Reaction
Link Organic Photochemistry and Pericyclic Reactions Lecture 14 - Energy of Electron Transfer Reaction
Link Organic Photochemistry and Pericyclic Reactions Lecture 15 - Reactivity of Π - Π*
Link Organic Photochemistry and Pericyclic Reactions Lecture 16 - Addition Reaction of Π - Π*
Link Organic Photochemistry and Pericyclic Reactions Lecture 17 - Addition Reaction of Π - Π* (Continued...)
Link Organic Photochemistry and Pericyclic Reactions Lecture 18 - Di-Pi Methane Rearrangement
Link Organic Photochemistry and Pericyclic Reactions Lecture 19 - Photochemistry of Cyclohexanone
Link Organic Photochemistry and Pericyclic Reactions Lecture 20 - Singlet Oxygen Chemistry
Link Organic Photochemistry and Pericyclic Reactions Lecture 21 - Carbenes and Nitrenes
Link Organic Photochemistry and Pericyclic Reactions Lecture 22 - Remote Functionalisation
Link Organic Photochemistry and Pericyclic Reactions Lecture 23 - Introduction to Pericyclic Reaction
Link Organic Photochemistry and Pericyclic Reactions Lecture 24 - Sigmatropic Reactions - I
Link Organic Photochemistry and Pericyclic Reactions Lecture 25 - Sigmatropic Reactions - II
Link Organic Photochemistry and Pericyclic Reactions Lecture 26 - Sigmatropic Reactions - III
Link Organic Photochemistry and Pericyclic Reactions Lecture 27 - Cycloaddition Reactions - I
Link Organic Photochemistry and Pericyclic Reactions Lecture 28 - Cycloaddition Reactions - II
Link Organic Photochemistry and Pericyclic Reactions Lecture 29 - Cycloaddition - Diels-Alder Reactions
Link Organic Photochemistry and Pericyclic Reactions Lecture 30 - Cycloaddition - Diels-Alder Reactions (Continued...)
Link Organic Photochemistry and Pericyclic Reactions Lecture 31 - Cycloaddition - Ene Reactions
Link Organic Photochemistry and Pericyclic Reactions Lecture 32 - 1,3 Dipolar Cycloaddition - I
Link Organic Photochemistry and Pericyclic Reactions Lecture 33 - 1,3 Dipolar Cycloaddition - II
Link Organic Photochemistry and Pericyclic Reactions Lecture 34 - Electrocyclic Reaction - I
Link Organic Photochemistry and Pericyclic Reactions Lecture 35 - Electrocyclic Reaction - II
Link Organic Photochemistry and Pericyclic Reactions Lecture 36 - Practice Problems in Pericyclic Reaction - I
Link Organic Photochemistry and Pericyclic Reactions Lecture 37 - Practice Problems in Pericyclic Reaction - II
Link Organic Photochemistry and Pericyclic Reactions Lecture 38 - Practice Problems in Pericyclic Reaction - III
Link Organic Photochemistry and Pericyclic Reactions Lecture 39 - Chelotropic Reaction
Link Organic Photochemistry and Pericyclic Reactions Lecture 40 - Application of Photochemistry
Link Polymer Chemistry Lecture 1 - Introduction to Polymers
Link Polymer Chemistry Lecture 2 - Introduction to Polymers (Continued...)
Link Polymer Chemistry Lecture 3 - Introduction to Polymers (Continued...)
Link Polymer Chemistry Lecture 4 - Step - growth Polymerization
Link Polymer Chemistry Lecture 5 - Step - growth Polymerization (Continued...)
Link Polymer Chemistry Lecture 6 - Step - growth Polymerization (Continued...)
Link Polymer Chemistry Lecture 7 - Step - growth Polymerization (Continued...)
Link Polymer Chemistry Lecture 8 - Step - growth Polymerization (Continued...)
Link Polymer Chemistry Lecture 9 - Radical Chain Polymerization
Link Polymer Chemistry Lecture 10 - Radical Chain Polymerization (Continued...)
Link Polymer Chemistry Lecture 11 - Radical Chain Polymerization (Continued...)
Link Polymer Chemistry Lecture 12 - Radical Chain Polymerization (Continued...)
Link Polymer Chemistry Lecture 13 - Radical Chain Polymerization (Continued...)
Link Polymer Chemistry Lecture 14 - Radical Chain Polymerization (Continued...)
Link Polymer Chemistry Lecture 15 - Radical Chain Polymerization (Continued...)
Link Polymer Chemistry Lecture 16 - Radical Chain Polymerization (Continued...)
Link Polymer Chemistry Lecture 17 - Ionic Chain Polymerization
Link Polymer Chemistry Lecture 18 - Ionic Chain Polymerization (Continued...)
Link Polymer Chemistry Lecture 19 - Ionic Chain Polymerization (Continued...) and Chain Copolymerization
Link Polymer Chemistry Lecture 20 - Chain Copolymerization (Continued...)
Link Polymer Chemistry Lecture 21 - Chain Copolymerization (Continued...)
Link Polymer Chemistry Lecture 22 - Chain Copolymerization (Continued...) and Ring Opening Polymerization
Link Polymer Chemistry Lecture 23 - Polymer Stereochemistry and Coordination Polymerization
Link Polymer Chemistry Lecture 24 - Polymer Stereochemistry and Coordination Polymerization (Continued...)
Link Polymer Chemistry Lecture 25 - Polymer Solutions
Link Polymer Chemistry Lecture 26 - Polymer Solutions (Continued...)
Link Polymer Chemistry Lecture 27 - Polymer Solutions (Continued...)
Link Polymer Chemistry Lecture 28 - Polymer Solutions (Continued...) and Chain Dimensions
Link Polymer Chemistry Lecture 29 - Chain Dimensions (Continued...) and Frictional Properties of Solution
Link Polymer Chemistry Lecture 30 - Frictional Properties of Solutions (Continued...) and Determination of Molecular Weight
Link Polymer Chemistry Lecture 31 - Determination of Molecular Weight of Polymers (Continued...)
Link Polymer Chemistry Lecture 32 - Determination of Molecular Weight of Polymers (Continued...)
Link Polymer Chemistry Lecture 33 - Determination of Molecular Weight of Polymers (Continued...)
Link Polymer Chemistry Lecture 34 - Structural Analysis of Polymers by Spectroscopic Methods
Link Polymer Chemistry Lecture 35 - Amorphous and Crystalline State : Tg and Tm
Link Polymer Chemistry Lecture 36 - Amorphous and Crystalline State : Tg and Tm (Continued...)
Link Polymer Chemistry Lecture 37 - Polymer Properties and Evaluation : Mechanical Properties
Link Polymer Chemistry Lecture 38 - Polymer Properties and Evaluation : Mechanical Properties (Continued...) and Other Properties
Link Polymer Chemistry Lecture 39 - Other Properties (Continued...) and Polymer Additives
Link Polymer Chemistry Lecture 40 - Polymer Additives (Continued...)
Link Polymer Chemistry Lecture 41 - Polymer Additives (Continued...), Blends, Concluding Remarks
Link Rate processes Lecture 1 - Rate Processes
Link Rate processes Lecture 2 - Reaction Rates and Rate Laws
Link Rate processes Lecture 3 - Effect of Temperature on Reaction Rate
Link Rate processes Lecture 4 - Effect of Temperature on Reaction Rate (Continued...)
Link Rate processes Lecture 5 - Complex Reaction
Link Rate processes Lecture 6 - Complex Reaction (Continued...)
Link Rate processes Lecture 7 - Complex Reaction (Continued...)
Link Rate processes Lecture 8 - Complex Reaction (Continued...)
Link Rate processes Lecture 9 - Theories of Reaction Rate
Link Rate processes Lecture 10 - Theories of Reaction Rate (Continued...)
Link Rate processes Lecture 11 - Theories of Reaction Rate (Continued...)
Link Rate processes Lecture 12 - Theories of Reaction Rate (Continued...)
Link Rate processes Lecture 13 - Theories of Reaction Rate (Continued...)
Link Rate processes Lecture 14 - Kinetics of Some Specific Reactions
Link Rate processes Lecture 15 - Kinetics of Some Specific Reactions (Continued...)
Link Rate processes Lecture 16 - Enzyme Inhibition
Link Rate processes Lecture 17 - Oscillatory Reactions
Link Rate processes Lecture 18 - Acid Base Catalysis
Link Rate processes Lecture 19 - Acid Base Catalysis (Continued...)
Link Rate processes Lecture 20 - Kinetic Isotope Effects
Link Rate processes Lecture 21 - Fast Reactions
Link Rate processes Lecture 22 - Fast Reactions (Continued...)
Link Rate processes Lecture 23 - Magneto Kinetics
Link Rate processes Lecture 24 - Reactions in Solutions
Link Rate processes Lecture 25 - Reactions in Solutions (Continued...)
Link Rate processes Lecture 26 - Kinetics at Electrodes
Link Rate processes Lecture 27 - Kinetics at Electrodes (Continued...)
Link Rate processes Lecture 28 - Ultrafast Process
Link Rate processes Lecture 29 - Ultrafast Process (Continued...)
Link Rate processes Lecture 30 - Ultrafast Process (Continued...)
Link Rate processes Lecture 31 - Reaction Dynamics
Link Rate processes Lecture 32 - Reaction Dynamics (Continued...)
Link Rate processes Lecture 33 - Reaction Dynamics (Continued...)
Link Rate processes Lecture 34 - Reaction Dynamics : Scattering
Link Rate processes Lecture 35 - Reaction Dynamics : Scattering (Continued...)
Link Rate processes Lecture 36 - Reaction Dynamics : Controlling Reagents etc
Link Rate processes Lecture 37 - Reaction Dynamics : Controlling Reagents etc (Continued...)
Link Rate processes Lecture 38 - Reaction Dynamics : Controlling Reagents etc (Continued...)
Link Rate processes Lecture 39 - Reaction Dynamics : Concluding
Link Rate processes Lecture 40 - Concluding Remarks
Link NOC:Biochemistry Lecture 1 - Amino Acid 1
Link NOC:Biochemistry Lecture 2 - Amino Acid 2
Link NOC:Biochemistry Lecture 3 - Protein Structure - I
Link NOC:Biochemistry Lecture 4 - Protein Structure - II
Link NOC:Biochemistry Lecture 5 - Protein Structure - III
Link NOC:Biochemistry Lecture 6 - Protein Structure - IV
Link NOC:Biochemistry Lecture 7 - Enzymes - I
Link NOC:Biochemistry Lecture 8 - Enzymes - II
Link NOC:Biochemistry Lecture 9 - Enzymes - III
Link NOC:Biochemistry Lecture 10 - Myoglobin and Hemoglobin
Link NOC:Biochemistry Lecture 11 - Enzyme Mechanisms - I
Link NOC:Biochemistry Lecture 12 - Enzyme Mechanisms - II
Link NOC:Biochemistry Lecture 13 - Nucleic Acids - I
Link NOC:Biochemistry Lecture 14 - Nucleic Acids - II
Link NOC:Biochemistry Lecture 15 - Nucleic Acids - III
Link NOC:Biochemistry Lecture 16 - Nucleic Acids - I
Link NOC:Biochemistry Lecture 17 - Nucleic Acids - II
Link NOC:Biochemistry Lecture 18 - Nucleic Acids - III
Link NOC:Biochemistry Lecture 19 - Vitamins and Coenzymes - I
Link NOC:Biochemistry Lecture 20 - Vitamins and Coenzymes - II
Link NOC:Biochemistry Lecture 21 - Carbohydrates - I
Link NOC:Biochemistry Lecture 22 - Carbohydrates - II
Link NOC:Biochemistry Lecture 23 - Bioenergetics - I
Link NOC:Biochemistry Lecture 24 - Bioenergetics - II
Link NOC:Biochemistry Lecture 25 - Metabolism - I
Link NOC:Biochemistry Lecture 26 - Metabolism - II
Link NOC:Biochemistry Lecture 27 - Metabolism - III
Link NOC:Analytical Chemistry Lecture 1 - Chemicals and Materials Analysis
Link NOC:Analytical Chemistry Lecture 2 - Methods
Link NOC:Analytical Chemistry Lecture 3 - Methods (Continued...)
Link NOC:Analytical Chemistry Lecture 4 - Methods (Continued...)
Link NOC:Analytical Chemistry Lecture 5 - Methods (Continued...)
Link NOC:Analytical Chemistry Lecture 6 - Role of Analytical Chemistry
Link NOC:Analytical Chemistry Lecture 7 - Techniques, Wet Ashing
Link NOC:Analytical Chemistry Lecture 8 - Apparatus and Weighing
Link NOC:Analytical Chemistry Lecture 9 - Filtration, Ignition
Link NOC:Analytical Chemistry Lecture 10 - Crucibles, Filter Papers and their Uses
Link NOC:Analytical Chemistry Lecture 11 - Chemical Equilibria
Link NOC:Analytical Chemistry Lecture 12 - Chemical Equilibria (Continued...)
Link NOC:Analytical Chemistry Lecture 13 - Chemical Equilibria (Continued...)
Link NOC:Analytical Chemistry Lecture 14 - Chemical Equilibria (Continued...)
Link NOC:Analytical Chemistry Lecture 15 - Chemical Equilibria (Continued...)
Link NOC:Analytical Chemistry Lecture 16 - Spectrochemic Methods - I
Link NOC:Analytical Chemistry Lecture 17 - Spectrochemic Methods - I (Continued...)
Link NOC:Analytical Chemistry Lecture 18 - Spectrochemic Methods - I (Continued...)
Link NOC:Analytical Chemistry Lecture 19 - Spectrochemic Methods - I (Continued...)
Link NOC:Analytical Chemistry Lecture 20 - Spectrochemic Methods - I (Continued...)
Link NOC:Analytical Chemistry Lecture 21 - Spectrochemical Methods - II
Link NOC:Analytical Chemistry Lecture 22 - Spectrochemical Methods - II (Continued...)
Link NOC:Analytical Chemistry Lecture 23 - Spectrochemical Methods - III (Continued...)
Link NOC:Analytical Chemistry Lecture 24 - Spectrochemical Methods - IV (Continued...)
Link NOC:Analytical Chemistry Lecture 25 - Spectrochemical Methods - V (Continued...)
Link NOC:Analytical Chemistry Lecture 26 - Spectrochemical Methods - III
Link NOC:Analytical Chemistry Lecture 27 - Spectrochemical Methods - III (Continued...)
Link NOC:Analytical Chemistry Lecture 28 - Spectrochemical Methods - III (Continued...)
Link NOC:Analytical Chemistry Lecture 29 - Spectrochemical Methods - III (Continued...)
Link NOC:Analytical Chemistry Lecture 30 - Spectrochemical Methods - III (Continued...)
Link NOC:Analytical Chemistry Lecture 31 - Thermal Methods of Analysis - I
Link NOC:Analytical Chemistry Lecture 32 - Thermal Methods of Analysis - I (Continued...)
Link NOC:Analytical Chemistry Lecture 33 - Thermal Methods of Analysis - I (Continued...)
Link NOC:Analytical Chemistry Lecture 34 - Thermal Methods of Analysis - I (Continued...)
Link NOC:Analytical Chemistry Lecture 35 - Thermal Methods of Analysis - I (Continued...)
Link NOC:Analytical Chemistry Lecture 36 - Thermal Methods of Analysis - II
Link NOC:Analytical Chemistry Lecture 37 - Thermal Methods of Analysis - II (Continued...)
Link NOC:Analytical Chemistry Lecture 38 - Thermal Methods of Analysis - II (Continued...)
Link NOC:Analytical Chemistry Lecture 39 - Thermal Methods of Analysis - II (Continued...)
Link NOC:Analytical Chemistry Lecture 40 - Thermal Methods of Analysis - II (Continued...)
Link NOC:Analytical Chemistry Lecture 41 - Electrochemical Methods - I
Link NOC:Analytical Chemistry Lecture 42 - Electrochemical Methods - I (Continued...)
Link NOC:Analytical Chemistry Lecture 43 - Electrochemical Methods - I (Continued...)
Link NOC:Analytical Chemistry Lecture 44 - Electrochemical Methods - I (Continued...)
Link NOC:Analytical Chemistry Lecture 45 - Electrochemical Methods - I (Continued...):
Link NOC:Analytical Chemistry Lecture 46 - Electrochemical Methods - II
Link NOC:Analytical Chemistry Lecture 47 - Electrochemical Methods - II (Continued...)
Link NOC:Analytical Chemistry Lecture 48 - Electrochemical Methods - II (Continued...)
Link NOC:Analytical Chemistry Lecture 49 - Electrochemical Methods - II (Continued...)
Link NOC:Analytical Chemistry Lecture 50 - Electrochemical Methods - II (Continued...)
Link NOC:Analytical Chemistry Lecture 51 - Electrochemical Methods - III
Link NOC:Analytical Chemistry Lecture 52 - Electrochemical Methods - III (Continued...)
Link NOC:Analytical Chemistry Lecture 53 - Electrochemical Methods - III (Continued...)
Link NOC:Analytical Chemistry Lecture 54 - Electrochemical Methods - III (Continued...)
Link NOC:Analytical Chemistry Lecture 55 - Electrochemical Methods - III (Continued...)
Link NOC:Analytical Chemistry Lecture 56 - Applications
Link NOC:Analytical Chemistry Lecture 57 - Applications (Continued...)
Link NOC:Analytical Chemistry Lecture 58 - Applications (Continued...)
Link NOC:Analytical Chemistry Lecture 59 - Applications (Continued...)
Link NOC:Analytical Chemistry Lecture 60 - Applications (Continued...)
Link NOC:Stereochemistry Lecture 1 - Constitution and Configuration
Link NOC:Stereochemistry Lecture 2 - Chirality, Symmetry Elements
Link NOC:Stereochemistry Lecture 3 - Project Ion Formulae Rules for Drawing
Link NOC:Stereochemistry Lecture 4 - Project Ion Formulae Rules for Drawing
Link NOC:Stereochemistry Lecture 5 - Newmann Projection, Saw Horse Projection, Wedge Formula
Link NOC:Stereochemistry Lecture 6 - Chirotopicity and Stereogenicity
Link NOC:Stereochemistry Lecture 7 - Absolute Configuration
Link NOC:Stereochemistry Lecture 8 - Absolute Configuration (Continued...)
Link NOC:Stereochemistry Lecture 9 - Problems on the above topics
Link NOC:Stereochemistry Lecture 10 - Topicity
Link NOC:Stereochemistry Lecture 11 - Axial Chirality in Allenes, Biphenyls
Link NOC:Stereochemistry Lecture 12 - Relative Configuration, Prochiral Faces and Prochiral Centres
Link NOC:Stereochemistry Lecture 13 - Chirality in Heteroatom Systems
Link NOC:Stereochemistry Lecture 14 - Conformations and Conformers
Link NOC:Stereochemistry Lecture 15 - Conformational Analysis of Acyclic Molecules
Link NOC:Stereochemistry Lecture 16 - Conformational Analysis of Acyclic Molecules (Continued...)
Link NOC:Stereochemistry Lecture 17 - Conformations of Acyclic Molecues Containing Heteroatoms
Link NOC:Stereochemistry Lecture 18 - Conformations of Cyclic Systems
Link NOC:Stereochemistry Lecture 19 - Conformations of Cyclic Systems (Continued...)
Link NOC:Stereochemistry Lecture 20 - Conformation of Cyclobutane and Cyclopentane
Link NOC:Stereochemistry Lecture 21 - Conformation of Cyclohexane
Link NOC:Stereochemistry Lecture 22 - Energy Changes During Flipping
Link NOC:Stereochemistry Lecture 23 - Energy Comparison between Chair and Boat Conformations
Link NOC:Stereochemistry Lecture 24 - Conformational Analysis of Substituted Cyclohexanes
Link NOC:Stereochemistry Lecture 25 - Conformational Analysis of Substituted Cyclohexanes (Continued...)
Link NOC:Stereochemistry Lecture 26 - Conformational Analysis of Substituted Cyclohexanes (Continued...)
Link NOC:Stereochemistry Lecture 27 - Conformational Analysis of Substituted Cyclohexanes (Continued...)
Link NOC:Stereochemistry Lecture 28 - Conformational Analysis of Systems with Preference for Axial Groups
Link NOC:Stereochemistry Lecture 29 - Conformation and Reactivity
Link NOC:Stereochemistry Lecture 30 - Conformation and Reactivity (Continued...)
Link NOC:Stereochemistry Lecture 31 - Conformation and Reactivity (Continued...)
Link NOC:Stereochemistry Lecture 32 - Stereoelectronic Effects
Link NOC:Stereochemistry Lecture 33 - Stereoelectronic Effects (Continued...)
Link NOC:Stereochemistry Lecture 34 - Substitution and Elimination in Cyclohexane Systems
Link NOC:Stereochemistry Lecture 35 - Stereospecific and Stereoselective Reactions and Asymmetric Synthesis (Elementary Idea)
Link NOC:Stereochemistry Lecture 36 - Asymmetric Induction: Nucleophilic Addition to Chiral Carbonyl Compounds
Link NOC:Stereochemistry Lecture 37 - Asymmetric Induction: Nucleophilic Addition to Chiral Carbonyl Compounds (Continued...)
Link NOC:Stereochemistry Lecture 38 - Asymmetric Induction (Continued...)
Link NOC:Stereochemistry Lecture 39 - Facial Selectivity and Examples of Asymmetric Synthesis
Link NOC:Stereochemistry Lecture 40 - Revisiting the Contents Covered
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 1 - Introductory Remarks
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 2 - Introductory remarks (Continued...)
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 3 - Introductory remarks and some rapid fire quiz
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 4 - Retro Quiz based on simple Transformation
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 5 - Transformation based strategy for a given target
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 6 - Tf/Fg/SM based strategy and its exploratioin
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 7 - Tf/SM/Fg based approaches to solve some basic problems
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 8 - Tf/SM/Fg based strategy and its exploration
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 9 - Tf/SM/Fg based strategy and its exploration for some simple target molecules
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 10 - Tf/SM/Fg based strategy and its exploration
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 11 - Tf/SM/Fg based strategies and its exploration
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 12 - Tf/Fg/SM based strategies and its exploration
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 13 - Tf/Fg/SM based approaches and its exploration
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 14 - Tf/Fg/SM based strategies and its exploration
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 15 - Multiple Tf based strategy for small molecule disconnection
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 16 - Multiple Tf based strategies
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 17 - Specific Tf such as Barton's nitrile ester photolysis
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 18 - Specific transformation
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 19 - Selective transformations
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 20 - Functional Group (Fg) based strategies
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 21 - Functional group based strategy
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 22 - Fg based strategy
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 23 - Fg based strategy
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 24 - Fg based strategy based on protecting groups
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 25 - Fg based strategy
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 26 - Protecting group based strategic disconnection
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 27 - Fg group based strategy
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 28 - Fg based strategy
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 29 - Fg based strategies
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 30 - Fg based strategy
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 31 - Fg based strategy
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 32 - Fg based strategy
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 33 - Starting material (SM) based strategy
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 34 - Fg/Tf/SM based strategies
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 35 - Fg/Tf/SM based strategies
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 36 - Fg/Tf/SM based strategies
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 37 - Fg based strategies
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 38 - Fg based strategies in combination with SM and Tf
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 39 - Fg/SM/Tf based combined strategies
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 40 - Fg/SM/Tf based combined strategies
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 41 - Fg based strategies
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 42 - Fg based strategies
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 43 - Symmetry based strategy
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 44 - Symmetry based strategies
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 45 - Symmetry based strategies
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 46 - Symmetry based strategy
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 47 - Symmetry based strategies
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 48 - Symmetry based strategies
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 49 - Topological based strategies
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 50 - Topological strategies
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 51 - Topological strategies
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 52 - Stereochemical strategies
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 53 - Stereochemical strategies
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 54 - Stereochemical strategies
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 55 - Stereochemical Strategies
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 56 - Stereochemical strategies
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 57 - Stereochemical strategies
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 58 - Stereochemical strategies
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 59 - Synthon concept revisited
Link NOC:A Study Guide in Organic Retrosynthesis - Problem Solving Approach Lecture 60 - Concluding remarks
Link NOC:Introduction to Molecular Thermodynamics Lecture 1 - Review of Classical Thermodynamics - Part I
Link NOC:Introduction to Molecular Thermodynamics Lecture 2 - Review of Classical Thermodynamics - Part II
Link NOC:Introduction to Molecular Thermodynamics Lecture 3 - Thermodynamic potentials - Part 1
Link NOC:Introduction to Molecular Thermodynamics Lecture 4 - Thermodynamic potentials - Part 2
Link NOC:Introduction to Molecular Thermodynamics Lecture 5 - Microstates of a system
Link NOC:Introduction to Molecular Thermodynamics Lecture 6 - Microstates of a System (Continued...)
Link NOC:Introduction to Molecular Thermodynamics Lecture 7 - Microstates of a system (Continued...)
Link NOC:Introduction to Molecular Thermodynamics Lecture 8 - Microstates of a system (Continued...)
Link NOC:Introduction to Molecular Thermodynamics Lecture 9 - Microstates of a system
Link NOC:Introduction to Molecular Thermodynamics Lecture 10 - Microstates of a system
Link NOC:Introduction to Molecular Thermodynamics Lecture 11 - Microstates of a system (Continued...)
Link NOC:Introduction to Molecular Thermodynamics Lecture 12 - Microstates of a system (Continued...)
Link NOC:Introduction to Molecular Thermodynamics Lecture 13 - Microstates of a System (Continued...)
Link NOC:Introduction to Molecular Thermodynamics Lecture 14 - Fundamentals of Statistical Mechanics
Link NOC:Introduction to Molecular Thermodynamics Lecture 15 - Statistical Ensembles
Link NOC:Introduction to Molecular Thermodynamics Lecture 16 - Microstates of a system
Link NOC:Introduction to Molecular Thermodynamics Lecture 17 - Canonical ensemble - Part I
Link NOC:Introduction to Molecular Thermodynamics Lecture 18 - Canonical Ensemble - Part I (Continued...)
Link NOC:Introduction to Molecular Thermodynamics Lecture 19 - Canonical Ensemble - Part II
Link NOC:Introduction to Molecular Thermodynamics Lecture 20 - Canonical Ensemble - Part III
Link NOC:Introduction to Molecular Thermodynamics Lecture 21 - Ideal gas
Link NOC:Introduction to Molecular Thermodynamics Lecture 22 - Ideal gases (Continued...)
Link NOC:Introduction to Molecular Thermodynamics Lecture 23 - Ideal gases (Continued...)
Link NOC:Introduction to Molecular Thermodynamics Lecture 24 - Ideal gases (Continued...)
Link NOC:Introduction to Molecular Thermodynamics Lecture 25 - Statistical thermodynamics of ideal gases (Continued...)
Link NOC:Introduction to Molecular Thermodynamics Lecture 26 - Statistical Thermodynamics of ideal gases (Continued...)
Link NOC:Introduction to Molecular Thermodynamics Lecture 27 - Statistical thermodynamics of ideal gases (Continued...)
Link NOC:Introduction to Molecular Thermodynamics Lecture 28 - Statistical thermodynamics of ideal gases (Continued...)
Link NOC:Introduction to Molecular Thermodynamics Lecture 29 - Statistical thermodynamics of ideal gases (Continued...)
Link NOC:Introduction to Molecular Thermodynamics Lecture 30 - Statistical thermodynamics of diatomic ideal gases
Link NOC:Introduction to Molecular Thermodynamics Lecture 31 - Statistical thermodynamics of ideal gas
Link NOC:Introduction to Molecular Thermodynamics Lecture 32 - Chemical reaction equilibrium
Link NOC:Introduction to Molecular Thermodynamics Lecture 33 - Specific heat of solids
Link NOC:Introduction to Molecular Thermodynamics Lecture 34 - Application of Molecular Thermodynamics
Link NOC:Introduction to Molecular Thermodynamics Lecture 35 - Introduction to classical statistical mechanics
Link NOC:Introduction to Molecular Thermodynamics Lecture 36 - Introduction to classical statistical mechanics (Continued...)
Link NOC:Introduction to Molecular Thermodynamics Lecture 37 - Classical Statistical Mechanics
Link NOC:Introduction to Molecular Thermodynamics Lecture 38 - Classical Statistical Mechanics
Link NOC:Introduction to Molecular Thermodynamics Lecture 39 - Classical Statistical Mechanics
Link NOC:Introduction to Molecular Thermodynamics Lecture 40 - Rate of Chemical Reaction
Link NOC:Molecules in Motion Lecture 1 - Kinetic theory of gases
Link NOC:Molecules in Motion Lecture 2 - Kinetic theory of gases (Continued...)
Link NOC:Molecules in Motion Lecture 3 - Kinetic theory of gases (Continued...)
Link NOC:Molecules in Motion Lecture 4 - Kinetic theory of gases (Continued...)
Link NOC:Molecules in Motion Lecture 5 - Kinetic theory of gases (Continued...)
Link NOC:Molecules in Motion Lecture 6 - Kinetic theory of gases (Continued...)
Link NOC:Molecules in Motion Lecture 7 - Kinetic theory of gases (Continued...)
Link NOC:Molecules in Motion Lecture 8 - Kinetic theory of gases (Continued...)
Link NOC:Molecules in Motion Lecture 9 - Kinetic theory of gases (Continued...)
Link NOC:Molecules in Motion Lecture 10 - Kinetic theory of gases (Continued...)
Link NOC:Molecules in Motion Lecture 11 - Transport properties
Link NOC:Molecules in Motion Lecture 12 - Transport properties (Continued...)
Link NOC:Molecules in Motion Lecture 13 - Transport properties of gases
Link NOC:Molecules in Motion Lecture 14 - Molecular motion in Liquids
Link NOC:Molecules in Motion Lecture 15 - Molecular motion in Liquids (Continued...)
Link NOC:Molecules in Motion Lecture 16 - Molecular motion in Liquids (Continued...)
Link NOC:Molecules in Motion Lecture 17 - Molecular motion in Liquids (Continued...)
Link NOC:Molecules in Motion Lecture 18 - Molecular motion in Liquids (Continued...)
Link NOC:Molecules in Motion Lecture 19 - Molecular motion in Liquids (Continued...)
Link NOC:Molecules in Motion Lecture 20 - Molecular motion in Liquids (Continued...)
Link NOC:Molecules in Motion Lecture 21 - Molecular motion in Liquids (Continued...)
Link NOC:Molecules in Motion Lecture 22 - Molecular motion in Liquids (Continued...)
Link NOC:Molecules in Motion Lecture 23 - Molecular motion in Liquids (Continued...)
Link NOC:Molecules in Motion Lecture 24 - Molecular motion in Liquids (Continued...)
Link NOC:Molecules in Motion Lecture 25 - Molecular motion in Liquids (Continued...)
Link NOC:Molecules in Motion Lecture 26 - Molecular motion in Liquids (Continued...)
Link NOC:Molecules in Motion Lecture 27 - Molecular motion in Liquids (Continued...)
Link NOC:Molecules in Motion Lecture 28 - Molecular motion in Liquids (Continued...)
Link NOC:Molecules in Motion Lecture 29 - Molecular motion in Liquids (Continued...)
Link NOC:Molecules in Motion Lecture 30 - Molecular motion in Liquids (Continued...)
Link NOC:Molecules in Motion Lecture 31 - Molecular motion in Liquids (Continued...)
Link NOC:Molecules in Motion Lecture 32 - Molecular motion in Liquids (Continued...)
Link NOC:Molecules in Motion Lecture 33 - Molecular motion in Liquids (Continued...)
Link NOC:Molecules in Motion Lecture 34 - Molecular motion in Liquids (Continued...)
Link NOC:Molecules in Motion Lecture 35 - Molecular motion in Liquids (Continued...)
Link NOC:Molecules in Motion Lecture 36 - Molecular motion in Liquids (Continued...)
Link NOC:Molecules in Motion Lecture 37 - Molecular motion in Liquids (Continued...)
Link NOC:Molecules in Motion Lecture 38 - Molecular motion in gases
Link NOC:Molecules in Motion Lecture 39 - Molecular motion in gases
Link NOC:Molecules in Motion Lecture 40 - Molecular motion in gases
Link NOC:Experimental Biochemistry Lecture 1 - Introduction
Link NOC:Experimental Biochemistry Lecture 2 - Buffers
Link NOC:Experimental Biochemistry Lecture 3 - Introduction to Biochemistry Laboratory Equipments and Safety Measures
Link NOC:Experimental Biochemistry Lecture 4 - Practical Aspects of Making Buffer
Link NOC:Experimental Biochemistry Lecture 5 - Making Tris Buffer (pH=8.2)
Link NOC:Experimental Biochemistry Lecture 6 - Making Phosphate Buffer (100mM)
Link NOC:Experimental Biochemistry Lecture 7 - Amino Acids and Their Properties
Link NOC:Experimental Biochemistry Lecture 8 - Amino Acid Titrations
Link NOC:Experimental Biochemistry Lecture 9 - pI Determination of Glycine
Link NOC:Experimental Biochemistry Lecture 10 - pI Determination of Lysine
Link NOC:Experimental Biochemistry Lecture 11 - Summary
Link NOC:Experimental Biochemistry Lecture 12 - UV and Visible Spectroscopy
Link NOC:Experimental Biochemistry Lecture 13 - Fluorescence Spectroscopy
Link NOC:Experimental Biochemistry Lecture 14 - UV/Visible Spectra of Amino Acids and Proteins
Link NOC:Experimental Biochemistry Lecture 15 - Fluorescence Spectra of Amino Acids and proteins
Link NOC:Experimental Biochemistry Lecture 16 - Spectroscopic Techniques Summary
Link NOC:Experimental Biochemistry Lecture 17 - Protein Folding and Denaturation - I
Link NOC:Experimental Biochemistry Lecture 18 - Protein Folding and Denaturation - II
Link NOC:Experimental Biochemistry Lecture 19 - Urea denaturation of HSA studied by UV/Vis absorbance
Link NOC:Experimental Biochemistry Lecture 20 - Temperature denaturation of HSA studied by UV/Vis absorbance
Link NOC:Experimental Biochemistry Lecture 21 - Denaturation of HSA by GdnHCl studied by Trp fluorescence
Link NOC:Experimental Biochemistry Lecture 22 - Protein Folding and Denaturation Summary
Link NOC:Experimental Biochemistry Lecture 23 - Chromatographic Techniques - I
Link NOC:Experimental Biochemistry Lecture 24 - Chromatographic Techniques - II
Link NOC:Experimental Biochemistry Lecture 25 - Protein Purification by Size Exclusion Chromatography (SEC)
Link NOC:Experimental Biochemistry Lecture 26 - Protein Purification by Affinity Chromatography
Link NOC:Experimental Biochemistry Lecture 27 - Gel Electrophoresis of DNA and Proteins - Part I
Link NOC:Experimental Biochemistry Lecture 28 - Gel Electrophoresis of DNA and Proteins - Part II
Link NOC:Experimental Biochemistry Lecture 29 - Gel Electrophoresis of DNA and Proteins - Part II
Link NOC:Experimental Biochemistry Lecture 30 - Isolation and Characterization of Proteins Part - I
Link NOC:Experimental Biochemistry Lecture 31 - Isolation and Characterization of Proteins Part - II
Link NOC:Experimental Biochemistry Lecture 32 - Isolation and Purification of Proteins
Link NOC:Experimental Biochemistry Lecture 33 - Quality and Quantity of the Isolated Protein
Link NOC:Experimental Biochemistry Lecture 34 - Enzyme Kinetics - I
Link NOC:Experimental Biochemistry Lecture 35 - Enzyme Kinetics - II
Link NOC:Experimental Biochemistry Lecture 36 - Enzyme Kinetics (by using enzyme from apple juice)
Link NOC:Experimental Biochemistry Lecture 37 - Enzyme Kinetics (by using enzyme from apple juice) (Continued...)
Link NOC:Experimental Biochemistry Lecture 38 - Isolation and Characterization of DNA Part - I
Link NOC:Experimental Biochemistry Lecture 39 - Isolation and Characterization of DNA Part - II
Link NOC:Experimental Biochemistry Lecture 40 - Bacterial Culture for Plasmid DNA Isolation
Link NOC:Experimental Biochemistry Lecture 41 - Isolation of Plasmid DNA
Link NOC:Experimental Biochemistry Lecture 42 - Isolation and Characterization of DNA Summary
Link NOC:Experimental Biochemistry Lecture 43 - Basics of rDNA Technology Part - I
Link NOC:Experimental Biochemistry Lecture 44 - Basics of rDNA Technology Part - II
Link NOC:Experimental Biochemistry Lecture 45 - Cloning : Polymerase Chain Reaction, Restriction Enzyme Digestion and Ligation
Link NOC:Experimental Biochemistry Lecture 46 - DNA Transformation
Link NOC:Experimental Biochemistry Lecture 47 - Protein-Ligand Interaction
Link NOC:Experimental Biochemistry Lecture 48 - Protein-Ligand Interaction (Continued...)
Link NOC:Experimental Biochemistry Lecture 49 - Interaction study of HSA protein with Curcumin and Gallic acid using UV-Vis spectroscopy
Link NOC:Experimental Biochemistry Lecture 50 - Interaction study of HSA protein with Circumin and Gallic acid using UV-Vis spectroscopy (Continued...)
Link NOC:Experimental Biochemistry Lecture 51 - Analysis of the Structure of Protein ligand complex
Link NOC:Experimental Biochemistry Lecture 52 - Immunoassay Techniques
Link NOC:Experimental Biochemistry Lecture 53 - Western Blotting Technique
Link NOC:Industrial Inorganic Chemistry Lecture 1 - Introduction
Link NOC:Industrial Inorganic Chemistry Lecture 2 - Importance of chemical industry, chemicals from materials
Link NOC:Industrial Inorganic Chemistry Lecture 3 - Bulk and commodity chemicals
Link NOC:Industrial Inorganic Chemistry Lecture 4 - Fine and speciality chemicals
Link NOC:Industrial Inorganic Chemistry Lecture 5 - Water
Link NOC:Industrial Inorganic Chemistry Lecture 6 - Hydrogen
Link NOC:Industrial Inorganic Chemistry Lecture 7 - Inorganic peroxide compounds
Link NOC:Industrial Inorganic Chemistry Lecture 8 - Nitrogen compounds
Link NOC:Industrial Inorganic Chemistry Lecture 9 - Chloramine and Hydroxylamine
Link NOC:Industrial Inorganic Chemistry Lecture 10 - Nitric acid, Ostwald process and uses
Link NOC:Industrial Inorganic Chemistry Lecture 11 - Phosphorus and its components
Link NOC:Industrial Inorganic Chemistry Lecture 12 - Phosphoric acid salts
Link NOC:Industrial Inorganic Chemistry Lecture 13 - Tetrapotassium diphosphate preparation
Link NOC:Industrial Inorganic Chemistry Lecture 14 - Hydroxy apatite
Link NOC:Industrial Inorganic Chemistry Lecture 15 - P4S10 and phosphide preparation
Link NOC:Industrial Inorganic Chemistry Lecture 16 - Sulfur and copper (1) phosphide
Link NOC:Industrial Inorganic Chemistry Lecture 17 - Sulfur compounds and sulfur from H2S and SO2
Link NOC:Industrial Inorganic Chemistry Lecture 18 - Sulfuric acid, catalyst and S2Cl2, applications
Link NOC:Industrial Inorganic Chemistry Lecture 19 - Sulfur dichloride, thionyl chloride
Link NOC:Industrial Inorganic Chemistry Lecture 20 - Thiosulfates and dithionite
Link NOC:Industrial Inorganic Chemistry Lecture 21 - Sodium hydroxyl methanesulfinate and hydrogen sulfide
Link NOC:Industrial Inorganic Chemistry Lecture 22 - Halogen and halogen compounds
Link NOC:Industrial Inorganic Chemistry Lecture 23 - Fluorine and inorganic fluorides
Link NOC:Industrial Inorganic Chemistry Lecture 24 - Hydrogen fluoride and aluminum fluoride
Link NOC:Industrial Inorganic Chemistry Lecture 25 - Cryolite and other industrially important fluoride salts
Link NOC:Industrial Inorganic Chemistry Lecture 26 - Electrochemical fluorination, sulfonyl fluorides
Link NOC:Industrial Inorganic Chemistry Lecture 27 - Chloralkali electrolysis
Link NOC:Industrial Inorganic Chemistry Lecture 28 - Ion conduction membrane in electrolysis
Link NOC:Industrial Inorganic Chemistry Lecture 29 - Hydrochloric acid manufacture
Link NOC:Industrial Inorganic Chemistry Lecture 30 - Bromine and bromine compounds
Link NOC:Industrial Inorganic Chemistry Lecture 31 - Hydrogen bromide and alkali bromates
Link NOC:Industrial Inorganic Chemistry Lecture 32 - Iodine and iodine compounds
Link NOC:Industrial Inorganic Chemistry Lecture 33 - Mineral fertilizers
Link NOC:Industrial Inorganic Chemistry Lecture 34 - Nitrogen fertilizer and Urea
Link NOC:Industrial Inorganic Chemistry Lecture 35 - Potassium fertilizer
Link NOC:Industrial Inorganic Chemistry Lecture 36 - Metals and their compounds: Lithium
Link NOC:Industrial Inorganic Chemistry Lecture 37 - Sodium and its compounds
Link NOC:Industrial Inorganic Chemistry Lecture 38 - Potassium and its compounds
Link NOC:Industrial Inorganic Chemistry Lecture 39 - Magnesium and its compounds
Link NOC:Industrial Inorganic Chemistry Lecture 40 - Calcium and its compounds
Link NOC:Industrial Inorganic Chemistry Lecture 41 - Barium and its compounds
Link NOC:Industrial Inorganic Chemistry Lecture 42 - Chromium and its compounds
Link NOC:Industrial Inorganic Chemistry Lecture 43 - Manganese and its industrially important compounds
Link NOC:Industrial Inorganic Chemistry Lecture 44 - Silicon and its compounds
Link NOC:Industrial Inorganic Chemistry Lecture 45 - Organosilicon compounds, organoalkoxysilanes
Link NOC:Industrial Inorganic Chemistry Lecture 46 - Organomercapto silanes and silicones
Link NOC:Industrial Inorganic Chemistry Lecture 47 - Silicone rubber
Link NOC:Industrial Inorganic Chemistry Lecture 48 - Inorganic solids: glass
Link NOC:Industrial Inorganic Chemistry Lecture 49 - Zeolites
Link NOC:Industrial Inorganic Chemistry Lecture 50 - Inorganic Fibres: asbestos, textile glass and optical fibres
Link NOC:Industrial Inorganic Chemistry Lecture 51 - Glass fibre production and construction materials
Link NOC:Industrial Inorganic Chemistry Lecture 52 - Ceramics and its manufacturing processes
Link NOC:Industrial Inorganic Chemistry Lecture 53 - Specialty ceramic products
Link NOC:Industrial Inorganic Chemistry Lecture 54 - Ferrites and porcelain enamel
Link NOC:Industrial Inorganic Chemistry Lecture 55 - Layers of enamelling
Link NOC:Industrial Inorganic Chemistry Lecture 56 - Carbon modifications: Glassy carbon, foamed carbon, carbon black
Link NOC:Industrial Inorganic Chemistry Lecture 57 - Activated carbon
Link NOC:Industrial Inorganic Chemistry Lecture 58 - Metallic hard materials: Carbides, borides, silicides
Link NOC:Industrial Inorganic Chemistry Lecture 59 - Fillers and inorganic pigments
Link NOC:Industrial Inorganic Chemistry Lecture 60 - Oxide pigments, luminescent pigments, corrosion protection pigments, magnetic pigments
Link NOC:Reactive Intermediates Carbene and Nitrene Lecture 1 - Introduction
Link NOC:Reactive Intermediates Carbene and Nitrene Lecture 2 - Structure and Geometry of Carbenes
Link NOC:Reactive Intermediates Carbene and Nitrene Lecture 3 - Structure and Geometry of Carbenes (Continued...)
Link NOC:Reactive Intermediates Carbene and Nitrene Lecture 4 - Generation of Carbene
Link NOC:Reactive Intermediates Carbene and Nitrene Lecture 5 - Generation of Carbene (Continued...)
Link NOC:Reactive Intermediates Carbene and Nitrene Lecture 6 - Generation of Carbene (Continued...)
Link NOC:Reactive Intermediates Carbene and Nitrene Lecture 7 - Reaction of Carbene
Link NOC:Reactive Intermediates Carbene and Nitrene Lecture 8 - Reaction of Carbene (Continued...)
Link NOC:Reactive Intermediates Carbene and Nitrene Lecture 9 - Reaction of Carbene (Continued...)
Link NOC:Reactive Intermediates Carbene and Nitrene Lecture 10 - Reaction of Carbene (Continued...)
Link NOC:Reactive Intermediates Carbene and Nitrene Lecture 11 - Reaction of Carbene (Continued...)
Link NOC:Reactive Intermediates Carbene and Nitrene Lecture 12 - Reaction of Carbene (Continued...)
Link NOC:Reactive Intermediates Carbene and Nitrene Lecture 13 - Reaction of Carbene (Continued...)
Link NOC:Reactive Intermediates Carbene and Nitrene Lecture 14 - Reaction of Carbene (Continued...)
Link NOC:Reactive Intermediates Carbene and Nitrene Lecture 15 - Reaction of Carbene (Continued...)
Link NOC:Reactive Intermediates Carbene and Nitrene Lecture 16 - Nitrene
Link NOC:Reactive Intermediates Carbene and Nitrene Lecture 17 - Nitrene (Continued...)
Link NOC:Reactive Intermediates Carbene and Nitrene Lecture 18 - Reaction of Nitrene
Link NOC:Reactive Intermediates Carbene and Nitrene Lecture 19 - Reaction of Nitrene (Continued...)
Link NOC:Reactive Intermediates Carbene and Nitrene Lecture 20 - Reaction of Nitrene (Continued...)
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 1 - A brief introduction to Molecules of Life: Structure of Amino acids and their various charged forms
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 2 - Biological Macromolecules and Small molecules: Importance and functions
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 3 - Amino Acids: The building block of proteins
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 4 - Amino acids: separation and detection, Electrophoresis and Ninhydrin reaction
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 5 - Method of determination of Amino acid sequence: primary structure of polypeptide/protein
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 6 - Selective peptide bond cleavage: Enzymatic and Non-enzymatic methods
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 7 - Peptide synthesis: Protecting groups for amine and carboxyl functionality
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 8 - Peptide synthesis (Continued...) Protection, coupling and deprotection method
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 9 - Recent development of coupling agents; Merrifield’s method of solid phase peptide synthesis
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 10 - Hierarchial structure of proteins: Secondary, tertiary and quaternary structure
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 11 - Ramachandran plot and protein purification techniques
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 12 - Protein purification techniques (Continued...)
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 13 - Introduction to Enzymes and its kinetics
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 14 - Enzyme catalysed reactions and introduction to catalytic activity of proteases
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 15 - Enzyme Kinetics (Continued...)
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 16 - Concept of Enzyme Inhibition
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 17 - Concept of Enzyme Inhibition (Continued...)
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 18 - Problems on Enzyme Kinetics and Enzyme Inhibition
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 19 - Synthetic Biology
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 20 - Synthetic Biology (Continued...)
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 21 - Synthetic Biology (Continued...)
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 22 - Nucleic Acid
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 23 - Nucleic Acid (Continued...)
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 24 - DNA sequencing method
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 25 - DNA sequencing method (Continued...)
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 26 - DNA sequencing method (Continued...)
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 27 - Synthesis of oligonucleotide
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 28 - Central dogma: DNA replication, transcription and translation
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 29 - Central dogma: DNA replication, transcription and translation (Continued...)
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 30 - Central dogma: DNA replication, transcription and translation (Continued...)
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 31 - Central dogma: DNA replication, transcription and translation (Continued...)
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 32 - Central dogma: DNA replication, transcription and translation (Continued...)
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 33 - Molecular Biology
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 34 - Molecular Biology (Continued...)
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 35 - Chemistry of cofactors/coenzymes
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 36 - Chemistry of cofactors/coenzymes (Continued...)
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 37 - Chemistry of cofactors/coenzymes (Continued...)
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 38 - Chemistry of cofactors/coenzymes (Continued...)
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 39 - Chemistry of cofactors/coenzymes (Continued...)
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 40 - Chemistry of cofactors/coenzymes (Continued...)
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 41 - Introduction to Drug Discovery Process
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 42 - Fundamental Principles of Drug Development Process
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 43 - Combinatorial chemistry
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 44 - Neurotransmitters
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 45 - Catechol amine based and GABA neurotransmitters
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 46 - Hypertension: humoral mechanism and renin/angiotensin system
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 47 - Inhibitor design of angiotensin converting enzyme
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 48 - Antimicrobial drugs
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 49 - Chemistry of penicillins
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 50 - Resistance to beta-lactam antibiotics
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 51 - Mechanistic studies of beta-lactamase
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 52 - Non beta-lactam antibiotics
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 53 - Mechanistic enzymology of Isopenicillin N synthase
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 54 - Polyketide Biosynthesis
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 55 - Biosynthesis of macrolide polyketides and introduction to virus
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 56 - Anti-viral drugs
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 57 - Cancer and Chemotherapy
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 58 - Anti-cancer drugs (Continued...)
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 59 - Aromatase inhibition and Anti-ulcer drugs
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 60 - Cholesterol lowering agents
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 61 - Cholesterol Biosynthesis
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 62 - Pharmakinetics and pharmadynamics
Link NOC:Organic Chemistry in Biology and Drug Development Lecture 63 - QSAR principles
Link Principles and Application of Electron Paramagnetic Resonance Lecture 1 - Remembering the Masters: From Zeeman to Zavoisky
Link Principles and Application of Electron Paramagnetic Resonance Lecture 2 - Introduction to EPR spectroscopy
Link Principles and Application of Electron Paramagnetic Resonance Lecture 3 - Electron-Nuclear Hyperfine Interaction - I
Link Principles and Application of Electron Paramagnetic Resonance Lecture 4 - Electron-Nuclear Hyperfine Interaction - II
Link Principles and Application of Electron Paramagnetic Resonance Lecture 5 - Magnetic Moment in Magnetic Field - I
Link Principles and Application of Electron Paramagnetic Resonance Lecture 6 - Magnetic Moment in Magnetic Field - II
Link Principles and Application of Electron Paramagnetic Resonance Lecture 7 - EPR Instrumentations - I
Link Principles and Application of Electron Paramagnetic Resonance Lecture 8 - EPR Instrumentations - II
Link Principles and Application of Electron Paramagnetic Resonance Lecture 9 - EPR Instrumentations - III
Link Principles and Application of Electron Paramagnetic Resonance Lecture 10 - EPR Instrumentations - IV
Link Principles and Application of Electron Paramagnetic Resonance Lecture 11 - Quantum Mechanical Description of EPR - I
Link Principles and Application of Electron Paramagnetic Resonance Lecture 12 - Quantum Mechanical Description of EPR - II
Link Principles and Application of Electron Paramagnetic Resonance Lecture 13 - Introduction to Spin Relaxation
Link Principles and Application of Electron Paramagnetic Resonance Lecture 14 - Theory of First-order EPR Spectra - I
Link Principles and Application of Electron Paramagnetic Resonance Lecture 15 - Theory of First-order EPR Spectra - II
Link Principles and Application of Electron Paramagnetic Resonance Lecture 16 - How to Analyse First-order EPR Spectra
Link Principles and Application of Electron Paramagnetic Resonance Lecture 17 - How to Record EPR Spectra
Link Principles and Application of Electron Paramagnetic Resonance Lecture 18 - Second-order Effects on EPR Spectra
Link Principles and Application of Electron Paramagnetic Resonance Lecture 19 - Photochemistry and EPR Spectroscopy
Link Principles and Application of Electron Paramagnetic Resonance Lecture 20 - Electron Spin Polarisation - I
Link Principles and Application of Electron Paramagnetic Resonance Lecture 21 - Electron Spin Polarisation - II
Link Principles and Application of Electron Paramagnetic Resonance Lecture 22 - Anisotropic Interactions in EPR Spectroscopy
Link Principles and Application of Electron Paramagnetic Resonance Lecture 23 - Theoretical Basis of isotropic Hyperfine Coupling
Link Principles and Application of Electron Paramagnetic Resonance Lecture 24 - Spin Relaxation and Bloch Equations - I
Link Principles and Application of Electron Paramagnetic Resonance Lecture 25 - Spin Relaxation and Bloch Equations - II
Link NOC:Chemistry-I Lecture 1
Link NOC:Chemistry-I Lecture 2
Link NOC:Chemistry-I Lecture 3 - Part I
Link NOC:Chemistry-I Lecture 3 - Part II
Link NOC:Chemistry-I Lecture 4 - Part I
Link NOC:Chemistry-I Lecture 4 - Part II
Link NOC:Chemistry-I Lecture 4 - Part III
Link NOC:Chemistry-I Lecture 5 - Part I
Link NOC:Chemistry-I Lecture 5 - Part II
Link NOC:Chemistry-I Lecture 5 - Part III
Link NOC:Chemistry-I Lecture 5 - Part IV
Link NOC:Chemistry-I Lecture 5 - Part V
Link NOC:Chemistry-I Lecture 6 - Part I
Link NOC:Chemistry-I Lecture 6 - Part II
Link NOC:Chemistry-I Lecture 6 - Part III
Link NOC:Chemistry-I Lecture 6 - Part IV
Link NOC:Chemistry-I Lecture 7 - Part I
Link NOC:Chemistry-I Lecture 7 - Part II
Link NOC:Chemistry-I Lecture 8 - Part I
Link NOC:Chemistry-I Lecture 8 - Part II
Link NOC:Chemistry-I Lecture 8 - Part III
Link NOC:Chemistry-I Lecture 9 - Part I
Link NOC:Chemistry-I Lecture 9 - Part II
Link NOC:Chemistry-I Lecture 9 - Part III
Link NOC:Chemistry-I Lecture 10
Link NOC:Chemistry-II Lecture 1 - Electromagnetic radiation
Link NOC:Chemistry-II Lecture 2 - Interaction of radiation with matter
Link NOC:Chemistry-II Lecture 3 - Introduction to chemical applications
Link NOC:Chemistry-II Lecture 4 - Analysis of spectra
Link NOC:Chemistry-II Lecture 5 - Radiation densities and Einstein's semi classical model
Link NOC:Chemistry-II Lecture 6 - Introduction to quantum mechanics - I
Link NOC:Chemistry-II Lecture 7 - Introduction to quantum mechanics - II
Link NOC:Chemistry-II Lecture 8 - Born-Oppenheimer approximation
Link NOC:Chemistry-II Lecture 9 - Beer-Lambert law
Link NOC:Chemistry-II Lecture 10 - Diatomic Vibration Spectra Hermonic Model
Link NOC:Chemistry-II Lecture 11 - Diatomic Vibration Morse Oscillator Model
Link NOC:Chemistry-II Lecture 12 - Normal Vibrational modes Triatomic molecules
Link NOC:Chemistry-II Lecture 13 - Normal Vibrational modes Polyatomic molecules
Link NOC:Chemistry-II Lecture 14 - Vibrational Polyatomic Infrared Spectroscopy Local Modes and Group Frequencies
Link NOC:Chemistry-II Lecture 15 - Microwave spectra of di-atomic molecules
Link NOC:Chemistry-II Lecture 16 - Diatomic Molecules Microwave Energies and Transitions
Link NOC:Chemistry-II Lecture 17 - Methodology of solving problems
Link NOC:Chemistry-II Lecture 18 - Rotational and Vibrational Line Intensities
Link NOC:Chemistry-II Lecture 19 - Microwave Spectra of Polyatomic molecules (Symmetric tops)
Link NOC:Chemistry-II Lecture 20 - Video Tutorial 2 : Part - I
Link NOC:Chemistry-II Lecture 21 - Video Tutorial 2 : Part - II
Link NOC:Chemistry-II Lecture 22 - Introduction to Tensors
Link NOC:Chemistry-II Lecture 23 - Polarizability Tensor
Link NOC:Chemistry-II Lecture 24 - Introduction to Rotational Raman Spectra.
Link NOC:Chemistry-II Lecture 25 - Review of basic concepts in Molecular Spectroscopy
Link NOC:Chemistry-II Lecture 26 - Review of Microwave Spectroscopy
Link NOC:Chemistry-II Lecture 27 - Review of Elementary Vibrational Spectroscopy
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 1
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 2
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 3
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 4
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 5
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 6
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 7
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 8
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 9
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 10
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 11
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 12
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 13
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 14
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 15
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 16
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 17
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 18
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 19
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 20
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 21
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 22
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 23
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 24
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 25
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 26
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 27
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 28
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 29
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 30
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 31
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 32
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 33
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 34
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 35
Link NOC:Application of Spectroscopic Methods in Molecular Structure Determination Module 36
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 1 - Activation of chemical reactions. Thermal and photochemical methods
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 2 - MOs of polyene and their symmetry properties and methods of analyzing pericyclic reactions
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 3 - Introduction to electrocyclic reactions and Woodward Hoffmann rules
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 4 - Electrocyclic reactions – examples of 3, 4 and 5 membered ring systems (2e and 4e systems)
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 5 - Electrocyclic reactions – examples of 6 and larger ring systems (6e and more)
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 6 - Tutorial session 1
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 7 - Cycloaddtion reactions - Introduction and Woodward Hoffmann rules - [2+2] cycloadditions
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 8 - Cycloaddition reactions – ketene cycloadditions
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 9 - Cycloaddition reactions – Diels-Alder reaction - Woodward Hoffmann rule - Regiochemistry and Stereochemistry aspects
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 10 - Diels Alder reaction - synthetic applications
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 11 - Diels Alder reaction continued - Hetero diene and dienophile - Lewis acid mediated - asymmetric
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 12 - 1,3-Dipolar cycloaddition reactions
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 13 - 1,3-Dipolar cycloaddition reactions (Continued...)
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 14 - [4pi+4pi], [4pi+6pi] and higher order cycloaddition reactions
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 15 - Tutorial session 2 on cycloaddition reactions
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 16 - Pericyclic reactions – Sigmatropic rearrangements – Introduction and [1,3] migrations
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 17 - Pericyclic reactions – Sigmatropic rearrangements (Continued...) [1,5] H and C migrations and Cope rearrangement
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 18 - Pericyclic reactions – Sigmatropic rearrangements (Continued...) oxy Cope and Claisen Rearrangement
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 19 - Pericyclic reactions – Sigmatropic rearrangements (Continued...)
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 20 - Pericyclic reactions – Sigmatropic rearrangements (Continued...) [2,3] sigmatropic shifts and higher order rearrangements Completed
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 21 - Pericyclic reactions – Sigmatropic rearrangements (Continued...) Wittig rearrangement and higher order Sigmatropic shifts
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 22 - Pericyclic reactions – Chelotropic reactions - introduction, SO2 extrusion reactions
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 23 - Pericyclic reactions – Tutorial session 3 - Problems on sigmatropic reactions
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 24 - Chelotropic reactions 2
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 25 - The Ene Reaction
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 26 - Tutorial session - 4
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 27 - Introduction to organic photochemistry
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 28 - Photochemistry of alkenes cis-trans isomerization
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 29 - Photochemistry of alkenes (Continued...)
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 30 - Photochemistry of carbonyl compounds, Norrish type1 and 2 reactions
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 31 - Photochemistry of carbonyl compounds, enone and dienone photochemistry
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 32 - Photochemistry of Nitrogen compounds
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 33 - Photochemistry of aromatic compounds
Link NOC:Pericyclic Reactions and Organic Photochemistry Lecture 34 - Photoinduced electron transfer reactions
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 1 - Lecture 1 - Historical context and experiments: Introducing the Schrödinger equation
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 2 - Lecture 2 - Bohr's atom, De Broglie Matter Waves and Schrodinger equation
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 3 - Lecture 3 - Electromagnetic Radiation
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 4 - Lecture 4 - Interaction of Radiation with Matter
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 5 - Lecture 5 - Molecular Spectroscopy
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 6 - Lecture 6 - Elementary Mathematical Functions 1
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 7 - Lecture 7 - Review of Properties of Elementary Functions II
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 8 - Lecture 8 - Time Dependent Schrödinger Equation & Time Independent Schrödinger Equation
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 9 - Lecture 9 - Schrödinger Equation Particle in a One-dimensional Box : Part I
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 10 - Lecture 10 - Schrödinger Equation Particle in a One-dimensional Box : Part II
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 11 - Lecture 11 - Schrödinger Equation Particle in Two-dimensional Box : Part I
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 12 - Lecture 12 - Particle in Two-dimensional Box : Part II Uncertainty Principle
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 13 - Lecture 13 - Particle in Two-dimensional Box : Part III Expectation Values
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 14 - Lecture 14 - The Quantum Mechanics of Hydrogen Atom - Part I
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 15 - Lecture 15 - The Quantum Mechanics of Hydrogen Atom - Part II
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 16 - Lecture 16 - The Quantum Mechanics of Hydrogen Atom - Part III
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 17 - Lecture 17 - The Quantum Mechanics of Hydrogen Atom - Part IV
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 18 - Lecture 18 - The Quantum Mechanics of Hydrogen Atom - Part V
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 19 - Lecture 19A - Assignment 1 Solution/Hints
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 20 - Lecture 19B - Assignment 1 Solution/Hints
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 21 - Lecture 19C - Assignment 1 Solution/Hints
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 22 - Lecture 19D - Assignment 1 Solution/Hints
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 23 - Lecture 19E - Assignment 1 Solution/Hints
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 24 - Lecture 20 - Harmonic Oscillator Model - Part I
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 25 - Lecture 21 - Harmonic Oscillator Model - Part II
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 26 - Lecture 22 - Harmonic Oscillator Model - Part III
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 27 - Lecture 23 - Harmonic Oscillator Model - Part IV
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 28 - Lecture 24 - Particle on a Ring - Part I
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 29 - Lecture 25 - Particle on a Ring - Part II
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 30 - Lecture 26 - Heisenberg’s Uncertainty Relation
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 31 - Lecture 27A - Operators, Commutators, Eigenvalues and Eigenvectors
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 32 - Lecture 27B - Operators, Commutators, Eigenvalues and Eigenvectors
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 33 - Lecture 28 - Introduction to Chemical Applications
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 34 - Lecture 29 - Radiation Densities and Einstein’s Semiclassical model
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 35 - Lecture 30 - Born Oppenheimer Approximation
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 36 - Lecture 31 - Beer Lambert Law
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 37 - Lecture 32 - Diatomic Vibrational Spectra Harmonic Model
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 38 - Lecture 33 - Diatomic Vibration Morse Oscillator Model
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 39 - Lecture 34 - Molecular Vibrations in Polyatomic Molecules - Qualitative Account
Link NOC:Chemistry I:Introduction To Quantum Chemistry And Molecular Spectroscopy Lecture 40 - Lecture 35 - Polyatomic Vibrations - Illustrative examples of normal vibrations
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 1 - Introduction to Chemical Thermodynamics and Kinetics
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 2 - Properties of gases - Part 1
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 3 - Properties of gases - Part 2
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 4 - Introduction - Part 1
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 5 - Introduction - Part 2
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 6 - First law - Part 1
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 7 - First law - Part 2
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 8 - First law - Part 3
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 9 - First law - Part 4
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 10 - First law - Part 5
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 11 - Second law - Part 1
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 12 - Second law - Part 2
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 13 - Spontaneity and equilibrium - Part 1
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 14 - Spontaneity and equilibrium - Part 2
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 15 - Spontaneity and equilibrium - Part 3
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 16 - Phase equilibrium - Part 1
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 17 - Phase equilibrium - Part 2
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 18 - Phase equilibrium - Part 3
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 19 - Mixtures - Part 1
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 20 - Mixtures - Part 2
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 21 - Chemical Equilibrium - Part 1
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 22 - Chemical Equilibrium - Part 2
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 23 - Chemical Equilibrium - Part 3
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 24 - Chemical Equilibrium - Part 4
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 25 - Chemical Equilibrium - Part 5
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 26 - Electrochemistry
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 27 - Surfaces and interfaces
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 28 - Chemical Kinetics: Rate laws - Part 1
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 29 - Chemical Kinetics: Rate laws - Part 2
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 30 - Chemical Kinetics: Rate laws - Part 3
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 31 - Chemical Kinetics: Rate laws - Part 4
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 32 - Chemical Kinetics: Mechanisms - Part 1
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 33 - Chemical Kinetics: Mechanisms - Part 2
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 34 - Chemical Kinetics: Mechanisms - Part 3
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 35 - Chemical Kinetics: Mechanisms - Part 4
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 36 - Chemical Kinetics: Mechanisms - Part 5
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 37 - Chemical Kinetics: Mechanisms - Part 6
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 38 - Reaction dynamics - Part 1
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 39 - Reaction dynamics - Part 2
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 40 - Reaction dynamics - Part 3
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 41 - Reaction dynamics - Part 4
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 42 - Reaction dynamics - Part 5
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 43 - Reaction dynamics - Part 6
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 44 - Reaction dynamics - Part 7
Link NOC:Introduction to Chemical Thermodynamics and Kinetics Lecture 45 - Live Session
Link NOC:Chemical Crystallography Lecture 1 - Introduction to X-Ray Crystallography
Link NOC:Chemical Crystallography Lecture 2 - Sources of X-Rays, Crystal Systems and Bravais lattices
Link NOC:Chemical Crystallography Lecture 3 - Crystallographic Symmetries
Link NOC:Chemical Crystallography Lecture 4 - Equivalent Points and 1D Lattices
Link NOC:Chemical Crystallography Lecture 5 - 5 Fold Symmetry and 2D Lattices
Link NOC:Chemical Crystallography Lecture 6 - 2D Space Lattices
Link NOC:Chemical Crystallography Lecture 7 - Crystallographic Point Groups
Link NOC:Chemical Crystallography Lecture 8 - Stereographic Projections of Point Groups
Link NOC:Chemical Crystallography Lecture 9 - Understanding of Crystallographic Space Groups
Link NOC:Chemical Crystallography Lecture 10 - 2D Projection of Space Groups
Link NOC:Chemical Crystallography Lecture 11 - Tutorial - 01
Link NOC:Chemical Crystallography Lecture 12 - 3D Space Groups and Equivalent Points
Link NOC:Chemical Crystallography Lecture 13 - Obtaining Equivalent Points by Shifting of Origin
Link NOC:Chemical Crystallography Lecture 14 - Representation of Orthorhombic and Tetragonal Space Groups
Link NOC:Chemical Crystallography Lecture 15 - Miller Indices for Crystallographic Directions and Planes
Link NOC:Chemical Crystallography Lecture 16 - Miller Indices and Planar Densities
Link NOC:Chemical Crystallography Lecture 17 - Tutorial - 02
Link NOC:Chemical Crystallography Lecture 18 - Cubic Structues and atomic packing factors
Link NOC:Chemical Crystallography Lecture 19 - Ceramic Structures
Link NOC:Chemical Crystallography Lecture 20 - Theory of X-Ray Diffraction
Link NOC:Chemical Crystallography Lecture 21 - Tutorial - 03
Link NOC:Chemical Crystallography Lecture 22 - Origin of Reciprocal Lattice
Link NOC:Chemical Crystallography Lecture 23 - Bragg's Law in Reciprocal Lattice and Origin of Systematic Absences
Link NOC:Chemical Crystallography Lecture 24 - Systematic Absences and Crystallisation Methods
Link NOC:Chemical Crystallography Lecture 25 - Special Method of Crystallisation
Link NOC:Chemical Crystallography Lecture 26 - Tutorial
Link NOC:Chemical Crystallography Lecture 27 - Single Crystal X-Ray Diffraction Data Collection
Link NOC:Chemical Crystallography Lecture 28 - Diffractometers
Link NOC:Chemical Crystallography Lecture 29 - Diffractometers and Detectors
Link NOC:Chemical Crystallography Lecture 30 - Laue's and Bragg's Analysis
Link NOC:Chemical Crystallography Lecture 31 - Experimental Methods and Theoretical Understanding of X-Ray Diffraction
Link NOC:Chemical Crystallography Lecture 32 - Derivation of Friedel's Law from Structure Factor by Vector Space Diagram
Link NOC:Chemical Crystallography Lecture 33 - Structure Fcator and Electron Density
Link NOC:Chemical Crystallography Lecture 34 - Systematic Absence Conditions from Special Structure Factor Expression
Link NOC:Chemical Crystallography Lecture 35 - Structure Refinement
Link NOC:Chemical Crystallography Lecture 36 - Single Crystal X-Ray Diffractometer
Link NOC:Chemical Crystallography Lecture 37 - Understanding the X-Ray Data
Link NOC:Chemical Crystallography Lecture 38 - Data Handling (Solution and Refinement) using Various Crystallographic Packages
Link NOC:Chemical Crystallography Lecture 39 - Structure Solution using Apex II (Bruker Diffractometer)
Link NOC:Chemical Crystallography Lecture 40 - Structure Solution using Olex 2 (Rigaku Diffractometer)
Link NOC:Chemical Crystallography Lecture 41 - Disorders in Crystal Structures
Link NOC:Chemical Crystallography Lecture 42 - Disorder Treatment using Olex 2
Link NOC:Chemical Crystallography Lecture 43 - Cambridge Structure Database and its Application
Link NOC:Chemical Crystallography Lecture 44 - Data Reduction - Absorption Correction
Link NOC:Chemical Crystallography Lecture 45 - Data Reduction - Lorentz and Polarization Correction
Link NOC:Chemical Crystallography Lecture 46 - Data Reduction - Scale and Temperature Factor
Link NOC:Chemical Crystallography Lecture 47 - Identification from Intensity Statistics the Correct Crystal System and Presence of Inversion Center
Link NOC:Chemical Crystallography Lecture 48 - Identification from Intensity Statistics the presence of 2 fold axis in Lattice
Link NOC:Chemical Crystallography Lecture 49 - Phase Problem
Link NOC:Chemical Crystallography Lecture 50 - Direct Methods - Part 1
Link NOC:Chemical Crystallography Lecture 51 - Direct Methods - Part 2
Link NOC:Chemical Crystallography Lecture 52 - Sigma 1 and Triplet Relationship
Link NOC:Chemical Crystallography Lecture 53 - Patterson Method
Link NOC:Chemical Crystallography Lecture 54 - Powder X-Ray Diffractometer - Theory
Link NOC:Chemical Crystallography Lecture 55 - Powder X-Ray Diffractometer - Lab
Link NOC:Chemical Crystallography Lecture 56 - Polymorphs
Link NOC:Chemical Crystallography Lecture 57 - Polymorphs
Link NOC:Chemical Crystallography Lecture 58 - Review of Reciprocal Lattice
Link NOC:Chemical Crystallography Lecture 59 - Review of Reciprocal Lattice
Link NOC:Chemical Crystallography Lecture 60 - Review of Reciprocal Lattice and Bragg's Law in Reciprocal Lattice
Link NOC:Chemical Crystallography Lecture 61 - Ewald's Sphere and Limiting Sphere
Link NOC:Chemical Crystallography Lecture 62 - Origin of/Introduction to Systematic absences
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 1 - Review of Classical Thermodynamics - 1
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 2 - Review of Classical Thermodynamics - 2
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 3 - Review of Classical Thermodynamics - 3
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 4 - Review of Classical Thermodynamics - 4
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 5 - Review of Classical Thermodynamics - 5
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 6 - Molecular Interactions - 1
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 7 - Molecular Interactions - 2
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 8 - Molecular Interactions - 3
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 9 - Molecular Interactions - 4
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 10 - Molecular Interactions - 5
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 11 - Transport Phenomena - 1
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 12 - Transport Phenomena - 2
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 13 - Transport Phenomena - 3
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 14 - Review of Chemical Kinetics - 1
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 15 - Review of Chemical Kinetics - 2
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 16 - Review of Chemical Kinetics - 3
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 17 - Review of Chemical Kinetics - 4
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 18 - Review of Chemical Kinetics - 5
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 19 - Advanced Topic in Chemical Kinetics - 1
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 20 - Advanced Topic in Chemical Kinetics - 2
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 21 - Advanced Topic in Chemical Kinetics - 3
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 22 - Introduction to statistical thermodynamics - 1
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 23 - Introduction to statistical thermodynamics - 2
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 24 - Introduction to statistical thermodynamics - 3
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 25 - Introduction to bimolecular reaction dynamics - 1
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 26 - Introduction to bimolecular reaction dynamics - 2
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 27 - Introduction to bimolecular reaction dynamics - 3
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 28 - Introduction to bimolecular reaction dynamics - 4
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 29 - Unimolecular reaction - 1
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 30 - Unimolecular reaction - 2
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 31 - Introduction to solution phase reactions dynamics - 1
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 32 - Introduction to solution phase reactions dynamics - 2
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 33 - Introduction to solution phase reactions dynamics - 3
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 34 - Introduction to solution phase reactions dynamics - 4
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 35 - Introduction to solution phase reactions dynamics - 5
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 36 - Non-ideal solutions, Activity of ions (Debye-Huckel theory) - 1
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 37 - Non-ideal solutions, Activity of ions (Debye-Huckel theory) - 2
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 38 - Electrochemistry: Insights into electrode processes, Ionic conductivity - 1
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 39 - Electrochemistry: Insights into electrode processes, Ionic conductivity - 2
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 40 - Reaction Dynamics: Femtosecond Pump Probe Spectroscopy
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 41 - Chemical Kinetics: Hydrolysis of an ester
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 42 - Transport Phenomena: Coefficient of viscosity
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 43 - Equilibrium constant using partition method
Link NOC:Advanced Chemical Thermodynamics and Kinetics Lecture 44 - Photochemistry: Degradation of a dye
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 1 - Welcome
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 2 - Elementary Mathematical Functions Used in Our Course
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 3 - Schrodinger Equation: Particle in a One Dimensional Box
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 4 - Particle in a One dimensional Box: Probabilities and Expectation Values
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 5 - Elementary Mathematics: Introduction to Matrix Algebra - Part 1
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 6 - Elementary Mathematics: Introduction to Matrix Algebra - Part 2
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 7 - Elementary Mathematics: Matrix Eigenvalues and Eigenfunctions - Part I
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 8 - Elementary Mathematics: Matrix Eigenvalues and Eigenfunctions - Part II
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 9 - Particle in a Two Dimensional Box (Infinite Barrier)
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 10 - Heisenberg’s Uncertainty Principle
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 11 - Expectation Values and Postulates in Quantum Mechanics
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 12 - Problems and Solutions for Particle in One and Two Dimensional Boxes
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 13 - Linear Vector Spaces: Matrix Representations
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 14 - Linear Vector Spaces and Operators: Dirac’s Bracket Notation
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 15 - Simple Harmonic Oscillator: Classical Hamiltonian
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 16 - Simple Harmonic Oscillator: Quantum Mechanical Solutions
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 17 - Simple Harmonic Oscillator: Wave Functions, Probabilities and Average Values
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 18 - Simple Harmonic Oscillator: Average Values for Position and Momentum
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 19 - Particle on a Ring: The Quantum Model
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 20 - Particle on a Ring: Expectation Values for Angular Momentum
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 21 - Coordinate Transformation
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 22 - Problems and Solutions for Harmonic Oscillator
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 23 - Hydrogen Atom: The Hamiltonian in Spherical Polar Coordinates
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 24 - Hydrogen Atom: Separation of the Schrödinger Equation
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 25 - Hydrogen Atom: Radial and Angular Solutions and Animations - Part I
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 26 - Hydrogen Atom: Radial and Angular Solutions and Animations - Part II
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 27 - Hydrogen Atom: Radial Solutions and Probabilities
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 28 - Power Series Method for Differential Equation - I
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 29 - Hermite’s Differential Equation
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 30 - Legendre and Associated Legendre Equation
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 31 - Born-Oppenheimer Approximation
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 32 - Introduction to Angular Momentum
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 33 - Spin ½ Angular Momentum
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 34 - Spin Angular Momentum and Coupling of Two Spin-1/2 Angular Momenta
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 35 - Coupling of Two Angular Momenta
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 36 - Video Tutorial for Hermite polynomials and hydrogen atom - Part 1
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 37 - Video Tutorials - Part 2
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 38 - Variational Principle in Quantum Chemistry: Linear superposition Principle
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 39 - Introduction to Variational Principle in Quantum Chemistry
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 40 - Variational Method: Method of Lagrange Multipliers
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 41 - Hydrogen Molecule Ion: The Molecular Orbital Method
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 42 - Hydrogen Molecule Ion: Calculations and Results
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 43 - Hydrogen Molecule: The Valence Bond Method
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 44 - Hydrogen Molecule: Calculations and Molecular Orbital Method
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 45 - Video Tutorials on Angular Momentum (Orbital and Spin) and Variational Method - Part 1
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 46 - Video Tutorials on Angular Momentum (Orbital and Spin) and Variational Method - Part 2
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 47 - Introduction to Quantum Mechanical Perturbation Theory
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 48 - First Order Time Independent perturbation Theory for Non-Degenerate states
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 49 - First and Second Order Time Independent Perturbation Theory for Non-Degenerate States
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 50 - First and Second Order Time Independent Perturbation Theory: Simple Examples
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 51 - Time Independent Perturbation Theory for Degenerate States: First Order
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 52 - General MO method for Homonuclear Diatomic Molecules
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 53 - General MO method for Heteronuclear Diatomic Molecules
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 54 - Introduction to Hybridization and Valence Bond for Polyatomic Molecules
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 55 - HÜckel Molecular Orbital Theory - I
Link NOC:Chemistry: Atomic Structure and Chemical Bonding Lecture 56 - HÜckel Molecular Orbital Theory - II
Link NOC:Electrochemical Impedance Spectroscopy Lecture 1 - Electrochemistry, double layer, 3 electrode systems, supporting electrolyte
Link NOC:Electrochemical Impedance Spectroscopy Lecture 2 - Rate constant, concept of impedance, Z of electrical elements, differential impedance
Link NOC:Electrochemical Impedance Spectroscopy Lecture 3 - Time domain results
Link NOC:Electrochemical Impedance Spectroscopy Lecture 4 - Graphical representation of data (Complex plane, Bode)
Link NOC:Electrochemical Impedance Spectroscopy Lecture 5 - Introduction to other techniques
Link NOC:Electrochemical Impedance Spectroscopy Lecture 6 - Tutorial 01
Link NOC:Electrochemical Impedance Spectroscopy Lecture 7 - Type of analyzers, single and multi sine
Link NOC:Electrochemical Impedance Spectroscopy Lecture 8 - FFT details, frequency range and resolution, cross correlation
Link NOC:Electrochemical Impedance Spectroscopy Lecture 9 - Multi sine, odd harmonic, non-harmonics, crest factor, spectral leakage
Link NOC:Electrochemical Impedance Spectroscopy Lecture 10 - Windowing
Link NOC:Electrochemical Impedance Spectroscopy Lecture 11 - Tutorial 02
Link NOC:Electrochemical Impedance Spectroscopy Lecture 12 - Introduction to KKT
Link NOC:Electrochemical Impedance Spectroscopy Lecture 13 - Linearity, causality, stability, impedance vs. admittance, measurement model
Link NOC:Electrochemical Impedance Spectroscopy Lecture 14 - Linear KKT illustration
Link NOC:Electrochemical Impedance Spectroscopy Lecture 15 - Tutorial 03
Link NOC:Electrochemical Impedance Spectroscopy Lecture 16 - Introduction to EEC, Choice of circuits, confidence intervals, AIC
Link NOC:Electrochemical Impedance Spectroscopy Lecture 17 - EEC fitting, initial values, distinguishability
Link NOC:Electrochemical Impedance Spectroscopy Lecture 18 - Zero/pole representation, Rt and Rp
Link NOC:Electrochemical Impedance Spectroscopy Lecture 19 - Maxwell, Voigt, Ladder circuits, choice of initial values illustrated
Link NOC:Electrochemical Impedance Spectroscopy Lecture 20 - Tutorial 04
Link NOC:Electrochemical Impedance Spectroscopy Lecture 21 - Simple electron transfer reaction
Link NOC:Electrochemical Impedance Spectroscopy Lecture 22 - Two step reaction with an intermediate (1 of 3)
Link NOC:Electrochemical Impedance Spectroscopy Lecture 23 - Two step reaction with an intermediate (2 of 3)
Link NOC:Electrochemical Impedance Spectroscopy Lecture 24 - Two step reaction with an intermediate (3 of 3)
Link NOC:Electrochemical Impedance Spectroscopy Lecture 25 - E-EAR reaction, negative resistance (1 of 2)
Link NOC:Electrochemical Impedance Spectroscopy Lecture 26 - E-EAR reaction, negative resistance (2 of 2)
Link NOC:Electrochemical Impedance Spectroscopy Lecture 27 - Three step reaction with two adsorbed intermediates
Link NOC:Electrochemical Impedance Spectroscopy Lecture 28 - Catalytic mechanism
Link NOC:Electrochemical Impedance Spectroscopy Lecture 29 - Examples with Frumkin or Temkin isotherms
Link NOC:Electrochemical Impedance Spectroscopy Lecture 30 - Challenges in RMA
Link NOC:Electrochemical Impedance Spectroscopy Lecture 31 - Patterns Reported in Experiments
Link NOC:Electrochemical Impedance Spectroscopy Lecture 32 - Warburg part - 1
Link NOC:Electrochemical Impedance Spectroscopy Lecture 33 - Warburg part - 2
Link NOC:Electrochemical Impedance Spectroscopy Lecture 34 - Warburg part - 3
Link NOC:Electrochemical Impedance Spectroscopy Lecture 35 - Bounded Warburg
Link NOC:Electrochemical Impedance Spectroscopy Lecture 36 - CPE
Link NOC:Electrochemical Impedance Spectroscopy Lecture 37 - Porous electrodes
Link NOC:Electrochemical Impedance Spectroscopy Lecture 38 - Films, PDM
Link NOC:Electrochemical Impedance Spectroscopy Lecture 39 - PDM
Link NOC:Electrochemical Impedance Spectroscopy Lecture 40 - Applications
Link NOC:Electrochemical Impedance Spectroscopy Lecture 41 - NLEIS. Introduction and mathematical background
Link NOC:Electrochemical Impedance Spectroscopy Lecture 42 - Electron Transfer reaction
Link NOC:Electrochemical Impedance Spectroscopy Lecture 43 - Two step reaction
Link NOC:Electrochemical Impedance Spectroscopy Lecture 44 - Two step reaction (Continued...)
Link NOC:Electrochemical Impedance Spectroscopy Lecture 45 - Rt and Rp estimation
Link NOC:Electrochemical Impedance Spectroscopy Lecture 46 - Galvanostatic simulations
Link NOC:Electrochemical Impedance Spectroscopy Lecture 47 - Instabilities
Link NOC:Electrochemical Impedance Spectroscopy Lecture 48 - Solution resistance effects
Link NOC:Electrochemical Impedance Spectroscopy Lecture 49 - Detection on nonlinearities using KKT
Link NOC:Electrochemical Impedance Spectroscopy Lecture 50 - Frumkin and Temkin isotherms
Link NOC:Electrochemical Impedance Spectroscopy Lecture 51 - NLEIS Experimental aspects. FFT, PSD, THD
Link NOC:Electrochemical Impedance Spectroscopy Lecture 52 - Application - other techniques HA, EFM
Link NOC:Medicinal Chemistry Lecture 1 - Introduction to Medicinal Chemistry - Part I
Link NOC:Medicinal Chemistry Lecture 2 - Introduction to Medicinal Chemistry - Part II
Link NOC:Medicinal Chemistry Lecture 3 - Intermolecular Binding Forces
Link NOC:Medicinal Chemistry Lecture 4 - Protein Structure and Function
Link NOC:Medicinal Chemistry Lecture 5 - Tutorial 1 - Acidity, Basicity and Related concepts
Link NOC:Medicinal Chemistry Lecture 6 - Tutorial 2 - Basic Concepts of Thermodynamics and Kinetics
Link NOC:Medicinal Chemistry Lecture 7 - Enzyme Catalysis - Part I
Link NOC:Medicinal Chemistry Lecture 8 - Enzyme Catalysis - Part II
Link NOC:Medicinal Chemistry Lecture 9 - Tutorial 3 - Binding Forces, Protein Structure and Function
Link NOC:Medicinal Chemistry Lecture 10 - Introduction to Receptors
Link NOC:Medicinal Chemistry Lecture 11 - Receptor Types and Functions
Link NOC:Medicinal Chemistry Lecture 12 - Tutorial 4 - Receptors, Binding Interactions, Ion Channels
Link NOC:Medicinal Chemistry Lecture 13 - Nucleic Acids
Link NOC:Medicinal Chemistry Lecture 14 - RNA and Protein Synthesis
Link NOC:Medicinal Chemistry Lecture 15 - Tutorial 5 - Nucleic acids, and Basics of Molecular Biology
Link NOC:Medicinal Chemistry Lecture 16 - Enzymes as Drug Targets
Link NOC:Medicinal Chemistry Lecture 17 - Enzyme Kinetics and Inhibition
Link NOC:Medicinal Chemistry Lecture 18 - Tutorial 6 - Enzyme Kinetics, Various Modes of Inhibition etc.
Link NOC:Medicinal Chemistry Lecture 19 - Receptors as Drug Targets - Part I
Link NOC:Medicinal Chemistry Lecture 20 - Receptors as Drug Targets - Part II
Link NOC:Medicinal Chemistry Lecture 21 - Tutorial 7 - Receptor-Drug Interactions, Stereochemistry, Chirality, Nomenclature
Link NOC:Medicinal Chemistry Lecture 22 - Receptor-Drug Interactions.
Link NOC:Medicinal Chemistry Lecture 23 - Stereochemistry and Conformation
Link NOC:Medicinal Chemistry Lecture 24 - Tutorial 8 - Determination of Drug-Receptor Interactions, Conformation of Cyclic and Acyclic Structures etc.
Link NOC:Medicinal Chemistry Lecture 25 - Nucleic Acids as Drug Targets - Part I
Link NOC:Medicinal Chemistry Lecture 26 - Nucleic Acids as Drug Targets - Part II
Link NOC:Medicinal Chemistry Lecture 27 - Miscellaneous Drug Targets
Link NOC:Medicinal Chemistry Lecture 28 - Tutorial 9 - Nucleic Acids and Related Topics
Link NOC:Medicinal Chemistry Lecture 29 - Mechanisms in Biological Chemistry - Part I
Link NOC:Medicinal Chemistry Lecture 30 - Mechanisms in Biological Chemistry - Part II
Link NOC:Medicinal Chemistry Lecture 31 - Mechanisms in Biological Chemistry - Part III
Link NOC:Medicinal Chemistry Lecture 32 - Pharmacokinetics - Part I
Link NOC:Medicinal Chemistry Lecture 33 - Pharmacokinetics - Part II
Link NOC:Medicinal Chemistry Lecture 34 - Drug Metabolism - Part I
Link NOC:Medicinal Chemistry Lecture 35 - Drug Metabolism - Part II
Link NOC:Medicinal Chemistry Lecture 36 - Drug Metabolism - Part III
Link NOC:Medicinal Chemistry Lecture 37 - Drug Metabolism - Part IV
Link NOC:Medicinal Chemistry Lecture 38 - Tutorial 10 - ADME
Link NOC:Medicinal Chemistry Lecture 39 - Drug Administration Routes - Part I
Link NOC:Medicinal Chemistry Lecture 40 - Drug Administration Routes - Part II
Link NOC:Medicinal Chemistry Lecture 41 - Finding a Lead - Part I
Link NOC:Medicinal Chemistry Lecture 42 - Finding a Lead - Part II
Link NOC:Medicinal Chemistry Lecture 43 - Drug Screening
Link NOC:Medicinal Chemistry Lecture 44 - Tutorial 11 - Drug administration routes and finding a lead
Link NOC:Medicinal Chemistry Lecture 45 - Optimizing Drug-Target Interactions - Part I
Link NOC:Medicinal Chemistry Lecture 46 - Optimizing Drug-Target Interactions - Part II
Link NOC:Medicinal Chemistry Lecture 47 - Optimizing Drug-Target Interactions - Part III
Link NOC:Medicinal Chemistry Lecture 48 - Optimizing Drug-Target Interactions - Part IV
Link NOC:Medicinal Chemistry Lecture 49 - Tutorial 12
Link NOC:Medicinal Chemistry Lecture 50 - Optimizing Access to the Target
Link NOC:Medicinal Chemistry Lecture 51 - Prodrugs
Link NOC:Medicinal Chemistry Lecture 52 - Prodrugs and Drug Alliances
Link NOC:Medicinal Chemistry Lecture 53 - Endogenous Compounds, Peptidomimetics and Oligonucleotides as Drugs
Link NOC:Medicinal Chemistry Lecture 54 - Tutorial 13- Optimizing Access-Prodrugs
Link NOC:Medicinal Chemistry Lecture 55 - Combinatorial and parallel synthesis
Link NOC:Medicinal Chemistry Lecture 56 - Computer in Medicinal Chemistry
Link NOC:Medicinal Chemistry Lecture 57 - Antibacterial agents - 1
Link NOC:Medicinal Chemistry Lecture 58 - Antibacterial agents - 2
Link NOC:Medicinal Chemistry Lecture 59 - Tutorial14-Combinatorial and parallel synthesis, computers in med chem and anti-bacterial agents
Link NOC:Medicinal Chemistry Lecture 60 - Anti-viral agents - 1
Link NOC:Medicinal Chemistry Lecture 61 - Anti-viral agents - 2
Link NOC:Medicinal Chemistry Lecture 62 - Anti-cancer agents - 1
Link NOC:Medicinal Chemistry Lecture 63 - Anti-cancer agents - 2
Link NOC:Medicinal Chemistry Lecture 64 - Cholinergics
Link NOC:Medicinal Chemistry Lecture 65 - Anti-ulcer agents
Link NOC:Medicinal Chemistry Lecture 66 - QSAR - 1
Link NOC:Medicinal Chemistry Lecture 67 - QSAR - 2
Link NOC:Medicinal Chemistry Lecture 68 - QSAR - 3
Link NOC:Medicinal Chemistry Lecture 69 - Drug Resistance and Synergy
Link NOC:Chemical Principles-II Lecture 1 - Introduction to The Thermodynamics
Link NOC:Chemical Principles-II Lecture 2 - History of Thermodynamic
Link NOC:Chemical Principles-II Lecture 3 - Thermodynamic Systems and Variables
Link NOC:Chemical Principles-II Lecture 4 - Zeroth Law of Thermodynamic
Link NOC:Chemical Principles-II Lecture 5 - Microscopic Definition of Temperature - Part 1
Link NOC:Chemical Principles-II Lecture 6 - Microscopic Definition of Temperature - Part 2
Link NOC:Chemical Principles-II Lecture 7 - Different Forms of Energy
Link NOC:Chemical Principles-II Lecture 8 - Real Gas and Virial Equation
Link NOC:Chemical Principles-II Lecture 9 - Van der Waals Gas
Link NOC:Chemical Principles-II Lecture 10 - Work and Heat - Part 1
Link NOC:Chemical Principles-II Lecture 11 - Work and Heat - Part 2
Link NOC:Chemical Principles-II Lecture 12 - First Law of Thermodynamics
Link NOC:Chemical Principles-II Lecture 13 - Microscopic Definition of Heat and Work
Link NOC:Chemical Principles-II Lecture 14 - Work done at a Constant Temperature
Link NOC:Chemical Principles-II Lecture 15 - Heat is a path function
Link NOC:Chemical Principles-II Lecture 16 - Joule-Thomson Effect (For Ideal Gases)
Link NOC:Chemical Principles-II Lecture 17 - Joule-Thomson Effect (For Van der Waals gas)
Link NOC:Chemical Principles-II Lecture 18 - Adiabatic Reversible Work
Link NOC:Chemical Principles-II Lecture 19 - Adiabatic Irreversible Work
Link NOC:Chemical Principles-II Lecture 20 - Tutorial Problem - 1
Link NOC:Chemical Principles-II Lecture 21 - Tutorial Problem - 2
Link NOC:Chemical Principles-II Lecture 22 - Thermochemistry - Part 1
Link NOC:Chemical Principles-II Lecture 23 - Thermochemistry - Part 2
Link NOC:Chemical Principles-II Lecture 24 - Second Law of Thermodynamics
Link NOC:Chemical Principles-II Lecture 25 - Statements of the Second Law of Thermodynamics
Link NOC:Chemical Principles-II Lecture 26 - Carnot Cycle and Definition of Entropy
Link NOC:Chemical Principles-II Lecture 27 - Ideal Stirling Engine
Link NOC:Chemical Principles-II Lecture 28 - Gasoline Engine and Diesel Engine
Link NOC:Chemical Principles-II Lecture 29 - Carnot’ Cycle: The Most Efficient Engine
Link NOC:Chemical Principles-II Lecture 30 - Thermodynamic Temperature
Link NOC:Chemical Principles-II Lecture 31 - Definition of Entropy
Link NOC:Chemical Principles-II Lecture 32 - Tutorial Problem - 3
Link NOC:Chemical Principles-II Lecture 33 - Tutorial Problem - 4
Link NOC:Chemical Principles-II Lecture 34 - Tutorial Problem - 5
Link NOC:Chemical Principles-II Lecture 35 - Tutorial Problem - 6
Link NOC:Chemical Principles-II Lecture 36 - Tutorial Problem - 7
Link NOC:Chemical Principles-II Lecture 37 - Tutorial Problem - 8
Link NOC:Chemical Principles-II Lecture 38 - Statistical Formulation of the Second Law
Link NOC:Chemical Principles-II Lecture 39 - Probability
Link NOC:Chemical Principles-II Lecture 40 - Microstates and Distributions
Link NOC:Chemical Principles-II Lecture 41 - Permutation and Combination
Link NOC:Chemical Principles-II Lecture 42 - Two-Level Systems
Link NOC:Chemical Principles-II Lecture 43 - Most Probable Distribution
Link NOC:Chemical Principles-II Lecture 44 - Calculation with Multi-Level systems
Link NOC:Chemical Principles-II Lecture 45 - Calculation with Multi-Level systems with fixed energy - Part 1
Link NOC:Chemical Principles-II Lecture 46 - Calculation with Multi-Level systems with fixed energy - Part 2
Link NOC:Chemical Principles-II Lecture 47 - Calculation with Multi-Level systems with fixed energy - Part 3
Link NOC:Chemical Principles-II Lecture 48 - Bose-Einstein, Fermi-Dirac and Maxwell-Boltzmann distribution
Link NOC:Chemical Principles-II Lecture 49 - Most Probable Distribution is the Boltzmann Distribution
Link NOC:Chemical Principles-II Lecture 50 - Demonstration of Boltzmann Distribution
Link NOC:Chemical Principles-II Lecture 51 - Estimating Entropy for Various Processes
Link NOC:Chemical Principles-II Lecture 52 - Microscopic equivalent of Heat and Work
Link NOC:Chemical Principles-II Lecture 53 - Probability and Boltzmann Distribution
Link NOC:Chemical Principles-II Lecture 54 - Thermodynamic Observables: It is all in the Average
Link NOC:Chemical Principles-II Lecture 55 - Tutorial Problem - 9
Link NOC:Chemical Principles-II Lecture 56 - Tutorial Problem - 10
Link NOC:Chemical Principles-II Lecture 57 - Tutorial Problem - 11
Link NOC:Chemical Principles-II Lecture 58 - Tutorial Problem - 12
Link NOC:Chemical Principles-II Lecture 59 - Thermodynamic free energy
Link NOC:Chemical Principles-II Lecture 60 - Condition for Spontaneity
Link NOC:Chemical Principles-II Lecture 61 - Legendre Transformation of Thermodynamic Potentials
Link NOC:Chemical Principles-II Lecture 62 - Maxwell Relations and Applications
Link NOC:Chemical Principles-II Lecture 63 - Thermodynamic Relations using Jacobian Method - Part 1
Link NOC:Chemical Principles-II Lecture 64 - Thermodynamic Relations using Jacobian Method - Part 2
Link NOC:Chemical Principles-II Lecture 65 - Tutorial Problem - 13
Link NOC:Chemical Principles-II Lecture 66 - Tutorial Problem - 14
Link NOC:Chemical Principles-II Lecture 67 - Tutorial Problem - 15
Link NOC:Chemical Principles-II Lecture 68 - Tutorial Problem - 16
Link NOC:Chemical Principles-II Lecture 69 - Chemical Principle II - Overview and Road Ahead
Link Organic Chemistry Lab Certification Lecture 1 - Feedback on Techniques in Organic Chemistry
Link Organic Chemistry Lab Certification Lecture 2 - Introduction to Claesen - Condensation
Link Organic Chemistry Lab Certification Lecture 3 - Introduction to Claesen - Condensation
Link Organic Chemistry Lab Certification Lecture 4 - How to separate different components from a mixture using column chromatography
Link Organic Chemistry Lab Certification Lecture 5 - Flurescence phenomenon
Link Organic Chemistry Lab Certification Lecture 6 - Reaction Mechanism and Sterochemistry
Link Organic Chemistry Lab Certification Lecture 7 - Chemiluminescence Phenomenon
Link Organic Chemistry Lab Certification Lecture 8 - Post Lab Questions
Link NOC:Introductory Organic Chemistry-I Lecture 1 - Introduction Structure of atom and molecules
Link NOC:Introductory Organic Chemistry-I Lecture 2 - Introduction to Molecular Orbital Theory - Part 1
Link NOC:Introductory Organic Chemistry-I Lecture 3 - Introduction to Molecular Orbital Theory - Part 2
Link NOC:Introductory Organic Chemistry-I Lecture 4 - Tutorial 01
Link NOC:Introductory Organic Chemistry-I Lecture 5 - Learning Objectives for week 2
Link NOC:Introductory Organic Chemistry-I Lecture 6 - Alkanes and Cycloalkanes - Part 1
Link NOC:Introductory Organic Chemistry-I Lecture 7 - Alkanes and Cycloalkanes - Part 2
Link NOC:Introductory Organic Chemistry-I Lecture 8 - Conformational Analysis of Cyclohexane - Part 1
Link NOC:Introductory Organic Chemistry-I Lecture 9 - Conformational Analysis of Cyclohexane - Part 2
Link NOC:Introductory Organic Chemistry-I Lecture 10 - Physical Properties of Alkanes
Link NOC:Introductory Organic Chemistry-I Lecture 11 - Nomenclature of Alkanes, Cycloalkanes and Bicycloalkanes
Link NOC:Introductory Organic Chemistry-I Lecture 12 - Tutorial 02
Link NOC:Introductory Organic Chemistry-I Lecture 13 - Learning Objectives for week 3
Link NOC:Introductory Organic Chemistry-I Lecture 14 - Chirality and Stereochemistry - Part 1
Link NOC:Introductory Organic Chemistry-I Lecture 15 - Chirality and Stereochemistry - Part 2
Link NOC:Introductory Organic Chemistry-I Lecture 16 - Chirality and Stereochemistry - Part 3
Link NOC:Introductory Organic Chemistry-I Lecture 17 - Tutorial 03
Link NOC:Introductory Organic Chemistry-I Lecture 18 - Learning Objectives for week 4
Link NOC:Introductory Organic Chemistry-I Lecture 19 - Acids and Bases - Part 1
Link NOC:Introductory Organic Chemistry-I Lecture 20 - Acids and Bases - Part 2
Link NOC:Introductory Organic Chemistry-I Lecture 21 - Acids and Bases - Part 3
Link NOC:Introductory Organic Chemistry-I Lecture 22 - Tutorial 04
Link NOC:Introductory Organic Chemistry-I Lecture 23 - Learning Objectives for week 5
Link NOC:Introductory Organic Chemistry-I Lecture 24 - Arrow Pushing mechanism in Organic Chemistry
Link NOC:Introductory Organic Chemistry-I Lecture 25 - Alkenes_Structure, Properties and Nomenclature
Link NOC:Introductory Organic Chemistry-I Lecture 26 - Reactions of Alkenes - Part 1
Link NOC:Introductory Organic Chemistry-I Lecture 27 - Reactions of Alkenes - Part 2
Link NOC:Introductory Organic Chemistry-I Lecture 28 - Reactions of Alkenes - Part 3
Link NOC:Introductory Organic Chemistry-I Lecture 29 - Tutorial 05 - Part 1
Link NOC:Introductory Organic Chemistry-I Lecture 30 - Tutorial 05 - Part 2
Link NOC:Introductory Organic Chemistry-I Lecture 31 - Learning Objectives for week 6
Link NOC:Introductory Organic Chemistry-I Lecture 32 - Reactions of Alkenes - Part 4
Link NOC:Introductory Organic Chemistry-I Lecture 33 - Reactions of Alkenes - Part 5
Link NOC:Introductory Organic Chemistry-I Lecture 34 - Alkynes
Link NOC:Introductory Organic Chemistry-I Lecture 35 - Reactions of Alkynes - Part 1
Link NOC:Introductory Organic Chemistry-I Lecture 36 - Reactions of Alkynes - Part 2
Link NOC:Introductory Organic Chemistry-I Lecture 37 - Tutorial-6
Link NOC:Introductory Organic Chemistry-I Lecture 38 - Learning Objectives for week 7
Link NOC:Introductory Organic Chemistry-I Lecture 39 - Substitution and Elimination - Part 1
Link NOC:Introductory Organic Chemistry-I Lecture 40 - Substitution and Elimination - Part 2
Link NOC:Introductory Organic Chemistry-I Lecture 41 - Substitution and Elimination - Part 3
Link NOC:Introductory Organic Chemistry-I Lecture 42 - Substitution and Elimination - Part 4
Link NOC:Introductory Organic Chemistry-I Lecture 43 - Substitution and Elimination - Part 5
Link NOC:Introductory Organic Chemistry-I Lecture 44 - Tutorial-7
Link NOC:Introductory Organic Chemistry-I Lecture 45 - Learning Objectives for week 8
Link NOC:Introductory Organic Chemistry-I Lecture 46 - Alcohols - Part 1
Link NOC:Introductory Organic Chemistry-I Lecture 47 - Alcohols - Part 2
Link NOC:Introductory Organic Chemistry-I Lecture 48 - Alcohols - Part 3
Link NOC:Introductory Organic Chemistry-I Lecture 49 - Ethers and Epoxides - Part 1
Link NOC:Introductory Organic Chemistry-I Lecture 50 - Ethers and Epoxides - Part 2
Link NOC:Introductory Organic Chemistry-I Lecture 51 - Aromaticity
Link NOC:Introductory Organic Chemistry-I Lecture 52 - Tutorial-8
Link Essentials in Immunolgy Lecture 1 - Introduction to the immune system
Link Essentials in Immunolgy Lecture 2 - Cells and Organs of the immune system - Part 1
Link Essentials in Immunolgy Lecture 3 - Cells and Organs of the immune system - Part 2
Link Essentials in Immunolgy Lecture 4 - Cells and Organs of the immune system - Part 3
Link Essentials in Immunolgy Lecture 5 - Innate immunity - Part 1
Link Essentials in Immunolgy Lecture 6 - Innate immunity - Part 2
Link Essentials in Immunolgy Lecture 7 - Development and differentiation of B cells - Part 1
Link Essentials in Immunolgy Lecture 8 - Signaling in B cells
Link Essentials in Immunolgy Lecture 9 - Organization of immunoglobulin genes and Mechanism of immunoglobulin gene rearrangement
Link Essentials in Immunolgy Lecture 10 - Generation of antibody diversity
Link Essentials in Immunolgy Lecture 11 - Immunoglobulin class switching Regulation of Immunoglobulin gene regulation
Link Essentials in Immunolgy Lecture 12 - Structures and functions of Immunoglobulin’s
Link Essentials in Immunolgy Lecture 13 - The three complement pathways
Link Essentials in Immunolgy Lecture 14 - Hypersensitivity type 1
Link Essentials in Immunolgy Lecture 15 - Hypersensitivity types 2, 3 ,4 and Autoimmunity
Link Essentials in Immunolgy Lecture 16 - Autoimmunity Autoimmuno-deficiencies f the B cells
Link Essentials in Immunolgy Lecture 17 - Autoimmuno-deficiencies f the B cells
Link Essentials in Immunolgy Lecture 18 - Cancer
Link Essentials in Immunolgy Lecture 19 - The major histocompatibility complex - Part 1
Link Essentials in Immunolgy Lecture 20 - The major histocompatibility complex - Part 2
Link Essentials in Immunolgy Lecture 21 - The major histocompatibility complex - Part 3
Link Essentials in Immunolgy Lecture 22 - The Major Histocompatibility Complex
Link Essentials in Immunolgy Lecture 23 - The Major Histocompatibility Complex: MHC class I pathway
Link Essentials in Immunolgy Lecture 24 - The Major Histocompatibility Complex: MHC class II pathway
Link Essentials in Immunolgy Lecture 25 - T cell receptors
Link Essentials in Immunolgy Lecture 26 - T cell Activation
Link Essentials in Immunolgy Lecture 27 - T cell Activation / Differentiation
Link Essentials in Immunolgy Lecture 28 - T cell synapse, motility and subsets
Link Essentials in Immunolgy Lecture 29 - T cell survival
Link Essentials in Immunolgy Lecture 30 - Cytokines - Part 1
Link Essentials in Immunolgy Lecture 31 - Cytokines - Part 2
Link Essentials in Immunolgy Lecture 32 - Autoimmunity
Link Essentials in Immunolgy Lecture 33 - Immunodeficiency
Link Essentials in Immunolgy Lecture 34 - Host response mechanisms during infectious diseases - Part 1
Link Essentials in Immunolgy Lecture 35 - Host response mechanisms during infectious diseases - Part 2
Link Essentials in Immunolgy Lecture 36 - Transplantation immunology
Link Essentials in Immunolgy Lecture 37 - Vaccines
Link Essentials in Immunolgy Lecture 38 - Antigens and Immunogens
Link Essentials in Immunolgy Lecture 39 - Synthetic vaccines
Link Essentials in Immunolgy Lecture 40 - Evolution of the immune system
Link Eukaryotic Gene Expression - basics and benefits Lecture 1 - Eukaryotic RNA polymerases and basal transcription factors
Link Eukaryotic Gene Expression - basics and benefits Lecture 2 - Diversity in core promoter elements
Link Eukaryotic Gene Expression - basics and benefits Lecture 3 - Diversity in general transcription factors
Link Eukaryotic Gene Expression - basics and benefits Lecture 4 - Proximal & Distal Promoter Elements, Enhancers and Silencers, Gene-specific Regulators
Link Eukaryotic Gene Expression - basics and benefits Lecture 5 - Transcription factors - DNA binding domains
Link Eukaryotic Gene Expression - basics and benefits Lecture 6 - Transcription factors - Transcription activation domain
Link Eukaryotic Gene Expression - basics and benefits Lecture 7 - Role of chromatin in eukaryotic gene regulation
Link Eukaryotic Gene Expression - basics and benefits Lecture 8 - Role of histones in eukaryotic gene regulation
Link Eukaryotic Gene Expression - basics and benefits Lecture 9 - Role of DNA methylation in eukaryotic gene regulation
Link Eukaryotic Gene Expression - basics and benefits Lecture 10 - Chromatin remodelling & gene regulation
Link Eukaryotic Gene Expression - basics and benefits Lecture 11 - mRNA processing - Role of RNA Pol II in mRNA capping and mRNA splicing
Link Eukaryotic Gene Expression - basics and benefits Lecture 12 - mRNA processing - Role of RNA Pol II in polyadenylation & mRNA editing
Link Eukaryotic Gene Expression - basics and benefits Lecture 13 - Regulation of RNA Pol I transcription
Link Eukaryotic Gene Expression - basics and benefits Lecture 14 - Regulation of RNA Pol III transcription
Link Eukaryotic Gene Expression - basics and benefits Lecture 15 - Signal Transduction Pathways - Introduction
Link Eukaryotic Gene Expression - basics and benefits Lecture 16 - Regulation of gene expression by cyclicAMP
Link Eukaryotic Gene Expression - basics and benefits Lecture 17 - Regulation of gene expression by second messengers other than cAMP
Link Eukaryotic Gene Expression - basics and benefits Lecture 18 - Regulation of gene expression by Protein Kinase C
Link Eukaryotic Gene Expression - basics and benefits Lecture 19 - Regulation of gene expression by Growth factors
Link Eukaryotic Gene Expression - basics and benefits Lecture 20 - Regulation of gene expression by cytokines
Link Eukaryotic Gene Expression - basics and benefits Lecture 21 - Regulation of gene expression by steroid hormones
Link Eukaryotic Gene Expression - basics and benefits Lecture 22 - Regulation of gene expression by type II nuclear receptors
Link Eukaryotic Gene Expression - basics and benefits Lecture 23 - Mechanism of transcriptional activation by nuclear receptors
Link Eukaryotic Gene Expression - basics and benefits Lecture 24 - Gene Regulation during Drosophila Development
Link Eukaryotic Gene Expression - basics and benefits Lecture 25 - Signal transduction pathways involved in embryonic development
Link Eukaryotic Gene Expression - basics and benefits Lecture 26 - Homeotic genes
Link Eukaryotic Gene Expression - basics and benefits Lecture 27 - Epigenetic regulation of gene expression during development
Link Eukaryotic Gene Expression - basics and benefits Lecture 28 - Embryonic stem cells and Transcription factor-mediated epigenetic reprogramming
Link Eukaryotic Gene Expression - basics and benefits Lecture 29 - Cloning and Expression vectors
Link Eukaryotic Gene Expression - basics and benefits Lecture 30 - Eukaryotic protein expression systems - I
Link Eukaryotic Gene Expression - basics and benefits Lecture 31 - Eukaryotic protein expression systems - II
Link Eukaryotic Gene Expression - basics and benefits Lecture 32 - Eukaryotic protein expression systems - III: Gene expression in mammalian cells using viral vectors
Link Eukaryotic Gene Expression - basics and benefits Lecture 33 - Human Gene Therapy
Link Eukaryotic Gene Expression - basics and benefits Lecture 34 - DNA vaccines
Link Eukaryotic Gene Expression - basics and benefits Lecture 35 - Transgenic animals
Link Eukaryotic Gene Expression - basics and benefits Lecture 36 - Transgenic plants
Link Eukaryotic Gene Expression - basics and benefits Lecture 37 - Knockout mic
Link Eukaryotic Gene Expression - basics and benefits Lecture 38 - Regulation of Eukaryotic Gene Expression by Small RNAs (RNA Interference, RNAi)
Link Eukaryotic Gene Expression - basics and benefits Lecture 39 - Genomics & Proteomics
Link Eukaryotic Gene Expression - basics and benefits Lecture 40 - Metabolic Engineering & Synthetic Biology
Link Introductory Quantum Chemistry Lecture 1 - Wave Paticle Duality
Link Introductory Quantum Chemistry Lecture 2 - Standing Waves
Link Introductory Quantum Chemistry Lecture 3 - Path Integrals and Schrodinger Equation
Link Introductory Quantum Chemistry Lecture 4 - Postulates - Part 1
Link Introductory Quantum Chemistry Lecture 5 - Postulates - Part 2
Link Introductory Quantum Chemistry Lecture 6 - Postulates - Part 3
Link Introductory Quantum Chemistry Lecture 7 - Separting Variables and Particle in a Box - Part 1
Link Introductory Quantum Chemistry Lecture 8 - Particle in a box - Part 2
Link Introductory Quantum Chemistry Lecture 9 - Particle in a box - Part 3
Link Introductory Quantum Chemistry Lecture 10 - Particle in a box-time dependent states-Expectations values and time dependent states
Link Introductory Quantum Chemistry Lecture 11 - Particle in a 3 dimensional box
Link Introductory Quantum Chemistry Lecture 12 - Particle in a well of finite depth
Link Introductory Quantum Chemistry Lecture 13 - Finite well, Delta and Step Functions
Link Introductory Quantum Chemistry Lecture 14 - Finite well (Continued...)
Link Introductory Quantum Chemistry Lecture 15 - Tunneling - Part 1
Link Introductory Quantum Chemistry Lecture 16 - Tunneling - Part 2
Link Introductory Quantum Chemistry Lecture 17 - Schrodinger equation for Harmonic Oscillator
Link Introductory Quantum Chemistry Lecture 18 - Harmonic Oscillator - The Series Solution
Link Introductory Quantum Chemistry Lecture 19 - Harmonic Oscillator - Generating function
Link Introductory Quantum Chemistry Lecture 20 - Harmonic Oscillator - Orthogonality of Eigenfunctions
Link Introductory Quantum Chemistry Lecture 21 - Hydrogen Atom: Separating centre of mass motion and integral motion
Link Introductory Quantum Chemistry Lecture 22 - Hydrogen Atom: Polar Co-ordinates
Link Introductory Quantum Chemistry Lecture 23 - Hydrogen atom continued : Separation of variables
Link Introductory Quantum Chemistry Lecture 24 - Hydrogen atom : Finding the functions Θ (θ) and Φ(φ)
Link Introductory Quantum Chemistry Lecture 25 - Finding R(r)
Link Introductory Quantum Chemistry Lecture 26 - Atomic Orbitals - Part 1
Link Introductory Quantum Chemistry Lecture 27 - Atomic Orbitals - Part 2
Link Introductory Quantum Chemistry Lecture 28 - Atomic Orbitals - Part 3
Link Introductory Quantum Chemistry Lecture 29 - Atomic Orbitals - Part 4 and Hermitian Operators
Link Introductory Quantum Chemistry Lecture 30 - Measurement, Uncertainty Principle
Link Introductory Quantum Chemistry Lecture 31 - Generalized Uncertainty Principle
Link Introductory Quantum Chemistry Lecture 32 - Generalized Uncertainty Principle (Continued...)
Link Introductory Quantum Chemistry Lecture 33 - Angular Momentum
Link Introductory Quantum Chemistry Lecture 34 - Angular Momentum (Continued...)
Link Introductory Quantum Chemistry Lecture 35 - Angular Momentum (Continued...) and Spin
Link Introductory Quantum Chemistry Lecture 36 - Pertubation Theory
Link Introductory Quantum Chemistry Lecture 37 - Pertubation Theory (Continued...)
Link Introductory Quantum Chemistry Lecture 38 - Variation Method - Introduction
Link Introductory Quantum Chemistry Lecture 39 - Variation Method - Proof and Illustration
Link Introductory Quantum Chemistry Lecture 40 - He atom wave function with spin included - Paulis principle
Link Introductory Quantum Chemistry Lecture 41 - Hydrogen Molecular ion - Linear variation method
Link Introductory Quantum Chemistry Lecture 42 - Hydrogen Molecular ion (Continued...)
Link Introductory Quantum Chemistry Lecture 43 - Hydrogen Molecular ion (Continued...)
Link Introductory Quantum Chemistry Lecture 44 - Molecuar Orbitals The Hydrogen Molecule
Link Introductory Quantum Chemistry Lecture 45 - MO and VB theory
Link Introductory Quantum Chemistry Lecture 46 - MO theory of diatoms
Link Introductory Quantum Chemistry Lecture 47 - Di-atomics (Continued...)
Link Introductory Quantum Chemistry Lecture 48 - Hybridization Huckel theory
Link Introductory Quantum Chemistry Lecture 49 - Huckel MO Theory (Continued...)
Link Introduction to Organometallic Chemistry Lecture 1 - Introduction to Organometallic chemistry
Link Introduction to Organometallic Chemistry Lecture 2 - Metal carbonyl complexes
Link Introduction to Organometallic Chemistry Lecture 3 - Metal carbonyls - Part II
Link Introduction to Organometallic Chemistry Lecture 4 - Ligand substitution reactions
Link Introduction to Organometallic Chemistry Lecture 5 - Substitutes for carbonyl ligands
Link Introduction to Organometallic Chemistry Lecture 6 - Carbene complexes
Link Introduction to Organometallic Chemistry Lecture 7 - Carbene complexes (Continued...)
Link Introduction to Organometallic Chemistry Lecture 8 - Non-Carbon Ancillary ligands
Link Introduction to Organometallic Chemistry Lecture 9 - Non-Carbon Ancillary ligands (Continued...)
Link Introduction to Organometallic Chemistry Lecture 10 - Metal alkyl complexes
Link Introduction to Organometallic Chemistry Lecture 11 - Ligand Insertion Reactions
Link Introduction to Organometallic Chemistry Lecture 12 - Metal alkene complexes
Link Introduction to Organometallic Chemistry Lecture 13 - Alkynes ?2 bonding
Link Introduction to Organometallic Chemistry Lecture 14 - Metal dihydrogen and hydrides
Link Introduction to Organometallic Chemistry Lecture 15 - Migratory Insertion reaction with alkynes
Link Introduction to Organometallic Chemistry Lecture 16 - ηm (m=4 dienes and m=2n,polyenes)
Link Introduction to Organometallic Chemistry Lecture 17 - Oxidative addition & Vaskas complex mechanism
Link Introduction to Organometallic Chemistry Lecture 18 - Reductive elimination
Link Introduction to Organometallic Chemistry Lecture 19 - Reductive Elimination mechanism
Link Introduction to Organometallic Chemistry Lecture 20 - Oxidative coupling with C-C bond formation
Link Introduction to Organometallic Chemistry Lecture 21 - Metathesis reactions
Link Introduction to Organometallic Chemistry Lecture 22 - Metal-allyls - ? 3 complexes-synthesis, bonding
Link Introduction to Organometallic Chemistry Lecture 23 - Metal-allyls - η 3 complexes-fluxionality, reactivity
Link Introduction to Organometallic Chemistry Lecture 24 - C-C single bond forming reactions
Link Introduction to Organometallic Chemistry Lecture 25 - ? 5 Cyclopentadienyl - complexes
Link Introduction to Organometallic Chemistry Lecture 26 - η6 arene Metal complexes
Link Introduction to Organometallic Chemistry Lecture 27 - Half sandwich complexes
Link Introduction to Organometallic Chemistry Lecture 28 - Reactivity changes in coordinated ligands
Link Introduction to Organometallic Chemistry Lecture 29 - The isolobal analogy
Link Introduction to Organometallic Chemistry Lecture 30 - Fluxional Properties of Organometallics
Link Introduction to Organometallic Chemistry Lecture 31 - Quantifying Steric and electronic factors
Link Introduction to Organometallic Chemistry Lecture 32 - Hydrogenation reactions
Link Introduction to Organometallic Chemistry Lecture 33 - Addition of HX to olefins
Link Introduction to Organometallic Chemistry Lecture 34 - Reactions with CO insertion
Link Introduction to Organometallic Chemistry Lecture 35 - Organometallics promoted C-X coupling
Link Introduction to Organometallic Chemistry Lecture 36 - Organometallic polymerization
Link Introduction to Organometallic Chemistry Lecture 37 - C-H activation
Link Introduction to Organometallic Chemistry Lecture 38 - Asymmetric Catalysis
Link Introduction to Organometallic Chemistry Lecture 39 - Medicinal applications of organometallic complexes
Link Introduction to Organometallic Chemistry Lecture 40 - Special Properties and Applications
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 1 - Introduction to NMR spectroscopy
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 2 - The alignment of nuclear spins in presence of magnetic field
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 3 - Introduction to rotating frame
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 4 - Free induction decay and Fourier transformation of FID
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 5 - NMR Hardware
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 6 - The concept of chemical shift
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 7 - Factors that affect chemical shifts
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 8 - Chemical shift referencing
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 9 - J-coupling
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 10 - Recap of basics
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 11 - Introduction to general one dimensional NMR experiment
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 12 - Practical aspects of recording a 1D NMR experiment - I
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 13 - Practical aspects of recording a 1D NMR experiment - II
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 14 - Practical aspects of recording a 1D NMR experiment - III
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 15 - NMR Data processing
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 16 - Basic aspects of 1D proton NMR analysis
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 17 - Analysis of an example 1D proton spectrum
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 18 - Analysis of 1D 1H NMR spectra of molecules - I
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 19 - Analysis of 1D 1H NMR spectra of molecules - II
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 20 - 1D 13C NMR
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 21 - Why do we need 2D NMR
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 22 - A qualitative explanation of how 2D NMR experiment works
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 23 - Principles of 2D COSY and Total correlation spectroscopy (2D TOCSY)
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 24 - 2D NOE-spectroscopy
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 25 - 2D NOESY and 2D ROESY
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 26 - What is heteronuclear correlation NMR spectroscopy
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 27 - Sensitivity enhancement of heternuclei via polarization transfer
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 28 - Heteronucler multiple quantum NMR spectroscopy (2D HMQC) and Heteronuclear single quantum NMR spectroscopy (2D HSQC)
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 29 - Practical aspects of recording and processing 2D HMQC or HSQC
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 30 - HMBC and its utility
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 31 - 2D HSQC TOCSY and its analysis with examples
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 32 - Structure determination of molecules by NMR
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 33 - Structure determination of peptides - I
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 34 - Structure determination of peptides - II
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 35 - Structure determination of peptides - III
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 36 - Chemical exchange
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 37 - Hydrogen or deuterium exchange
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 38 - Diffusion ordered spectroscopy DOSY I
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 39 - DOSY II
Link NOC:Principles and Applications of NMR Spectroscopy Lecture 40 - STD NMR for drug target interactions
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 1 - Introduction to NMR spectroscopy
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 2 - Energy levels in NMR spectroscopy: Quantum mechanical model and Vector model
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 3 - Observing the NMR signal
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 4 - Basic concepts in 1D NMR: Chemical shift and Spin-spin coupling
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 5 - Basic concepts in 1D NMR: Nuclear Spin Relaxation, 1H NMR and 13C NMR
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 6 - Basic concepts in 2D NMR spectroscopy
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 7 - Principles of 2D correlation spectroscopy COSY
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 8 - Principles of 2D Total correlation spectroscopy (TOCSY)
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 9 - 2D Nuclear Overhauser Effect Spectroscopy (NOESY)
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 10 - 2D NOESY and 2D ROESY
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 11 - Principles of 2D Heteronuclear NMR
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 12 - 2D Heteronuclear NMR: HSQC
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 13 - Heteronuclear multiple quantum coherence (HMQC) and single quantum coherence (HSQC) - Part I
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 14 - Heteronuclear multiple quantum coherence (HMQC) and single quantum coherence (HSQC) - Part II
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 15 - 2D HSQC-TOCSY
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 16 - 3D NMR Spectroscopy - Part I
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 17 - 3D NMR Spectroscopy - Part II
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 18 - 3D HNCA and 3D HNCO
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 19 - 3D HNCACB and 3D HN(CO)CACB
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 20 - Protein Backbone resonance assignment and side chain resonance assignment
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 21 - Basic concepts of protein structure
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 22 - Introduction to Structure Determination of Bio-Molecules by NMR
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 23 - Over-expression of proteins in Bacteria
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 24 - Isotope labeling of proteins for NMR studies - Part I
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 25 - Isotope labeling of proteins for NMR studies - Part II
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 26 - Isotope labeling of proteins for NMR studies - Part III
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 27 - Isotope labeling of proteins for NMR studies - Part IV
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 28 - Resonance assignments of Proteins - Part I
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 29 - Resonance assignments of Proteins - Part II
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 30 - Resonance assignments of Proteins - Part III
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 31 - Determination of protein secondary structure from NMR data: CSI method
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 32 - Determination of protein secondary structure from NMR data: J coupling based method
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 33 - Determination of protein tertiary structure from NMR data - Part I
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 34 - 3D NOESY HSQC
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 35 - Determination of protein tertiary structure from NMR data - Part II
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 36 - Understanding Protein ligand interaction by NMR : Chemical shift perturbation
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 37 - Understanding Protein ligand interaction by NMR : Chemical exchange
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 38 - Understanding Protein ligand interaction by NMR : T2 Filter
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 39 - Understanding Protein ligand interaction by NMR : STD NMR
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 40 - Understanding Protein ligand interaction by NMR : Transfer NOE NMR
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 41 - Understanding Protein ligand interaction by NMR : Diffusion ordered Spectroscopy (DOSY) - Part I
Link NOC:Multidimensional NMR Spectroscopy for Structural Studies of Biomolecules Lecture 42 - Understanding Protein ligand interaction by NMR : Diffusion ordered Spectroscopy (DOSY) - Part II
Link NOC:Symmetry and Structure in the Solid State Lecture 1 - Symmetry in 3D World
Link NOC:Symmetry and Structure in the Solid State Lecture 2 - Two Fold Axis Representation with the Help of Esher Diagrams
Link NOC:Symmetry and Structure in the Solid State Lecture 3 - Pure Rotation Axes
Link NOC:Symmetry and Structure in the Solid State Lecture 4 - Properties of Crystal
Link NOC:Symmetry and Structure in the Solid State Lecture 5 - Point Group Generation
Link NOC:Symmetry and Structure in the Solid State Lecture 6 - Combination ofSymmetry Elements
Link NOC:Symmetry and Structure in the Solid State Lecture 7 - Arrangement of Symmetry Equivalent Objects
Link NOC:Symmetry and Structure in the Solid State Lecture 8 - Introduction to Plane Lattices
Link NOC:Symmetry and Structure in the Solid State Lecture 9 - Bravais Lattices
Link NOC:Symmetry and Structure in the Solid State Lecture 10 - Details of Stereographic Projections
Link NOC:Symmetry and Structure in the Solid State Lecture 11 - Stereographic Projections (Continued)
Link NOC:Symmetry and Structure in the Solid State Lecture 12 - Point Group and Crystal Systems - 1
Link NOC:Symmetry and Structure in the Solid State Lecture 13 - Point Group and Crystal Systems - 2
Link NOC:Symmetry and Structure in the Solid State Lecture 14 - Point Groups to Space Groups
Link NOC:Symmetry and Structure in the Solid State Lecture 15 - Translation componentsin Monoclinic System
Link NOC:Symmetry and Structure in the Solid State Lecture 16 - Additional Symmetry Elements
Link NOC:Symmetry and Structure in the Solid State Lecture 17 - Additional Symmetry Elements (Continued...)
Link NOC:Symmetry and Structure in the Solid State Lecture 18 - Space Groups - 1
Link NOC:Symmetry and Structure in the Solid State Lecture 19 - Space Groups - 2
Link NOC:Symmetry and Structure in the Solid State Lecture 20 - Space Groups - 3
Link NOC:Symmetry and Structure in the Solid State Lecture 21 - Space Groups - 4
Link NOC:Symmetry and Structure in the Solid State Lecture 22 - Additional Information on Space Groups
Link NOC:Symmetry and Structure in the Solid State Lecture 23 - Details of Space Groups - 1
Link NOC:Symmetry and Structure in the Solid State Lecture 24 - Details of Space Groups - 2
Link NOC:Symmetry and Structure in the Solid State Lecture 25 - Details of Space Groups - 3
Link NOC:Symmetry and Structure in the Solid State Lecture 26 - Details of Space Groups - 4
Link NOC:Symmetry and Structure in the Solid State Lecture 27 - Crystal Structure of Calcium Carbonate
Link NOC:Symmetry and Structure in the Solid State Lecture 28 - Crystal Structure of Some Minerals
Link NOC:Symmetry and Structure in the Solid State Lecture 29 - Atoms in the Crystal: Positions and Relevant Properties
Link NOC:Symmetry and Structure in the Solid State Lecture 30 - Crystallographic Directions and Planes
Link NOC:Symmetry and Structure in the Solid State Lecture 31 - Interference of Waves
Link NOC:Symmetry and Structure in the Solid State Lecture 32 - X Ray Scattering ; optical Analogy
Link NOC:Symmetry and Structure in the Solid State Lecture 33 - X Ray Scattering ; Fourier transforms
Link NOC:Symmetry and Structure in the Solid State Lecture 34 - X Ray Scattering ; Deriving Laue Conditions from scattering theory
Link NOC:Symmetry and Structure in the Solid State Lecture 35 - X Ray Scattering ; Laue conditions to Bragg ‘s Law, Introduction to Reciprocal lattice
Link NOC:Symmetry and Structure in the Solid State Lecture 36 - Bragg's Law in Reciprocal Space - 1
Link NOC:Symmetry and Structure in the Solid State Lecture 37 - Bragg's Law in Reciprocal Space - 2
Link NOC:Symmetry and Structure in the Solid State Lecture 38 - Calculation of Intensities - 1
Link NOC:Symmetry and Structure in the Solid State Lecture 39 - Calculation of Intensities - 2
Link NOC:Symmetry and Structure in the Solid State Lecture 40 - Conversion from Direct to reciprocal space, the inverse relations
Link NOC:Symmetry and Structure in the Solid State Lecture 41 - Diffraction and Reciprocal Space (Continued...)
Link NOC:Symmetry and Structure in the Solid State Lecture 42 - Limits of Resolution
Link NOC:Symmetry and Structure in the Solid State Lecture 43 - Concept of Structure Factors
Link NOC:Symmetry and Structure in the Solid State Lecture 44 - Systematic Absences - 1
Link NOC:Symmetry and Structure in the Solid State Lecture 45 - Systematic Absences - 2
Link NOC:Symmetry and Structure in the Solid State Lecture 46 - Systematic Absences - 3
Link NOC:Symmetry and Structure in the Solid State Lecture 47 - Friedel's Law and Laue classes
Link NOC:Symmetry and Structure in the Solid State Lecture 48 - Experimental Aspects of Data Collection
Link NOC:Symmetry and Structure in the Solid State Lecture 49 - Structure Determination - 1
Link NOC:Symmetry and Structure in the Solid State Lecture 50 - Structure Determination - 2
Link NOC:Symmetry and Structure in the Solid State Lecture 51 - Data Reduction
Link NOC:Symmetry and Structure in the Solid State Lecture 52 - Fourier Syntheses
Link NOC:Symmetry and Structure in the Solid State Lecture 53 - Patterson Method - 1
Link NOC:Symmetry and Structure in the Solid State Lecture 54 - Patterson Method - 2
Link NOC:Symmetry and Structure in the Solid State Lecture 55 - Direct Method
Link NOC:Symmetry and Structure in the Solid State Lecture 56 - Powder Diffraction - 1
Link NOC:Symmetry and Structure in the Solid State Lecture 57 - Powder Diffraction - 2
Link NOC:Symmetry and Structure in the Solid State Lecture 58 - Powder Diffraction - 3
Link NOC:Symmetry and Structure in the Solid State Lecture 59 - Quantum Crystallography - 1
Link NOC:Symmetry and Structure in the Solid State Lecture 60 - Quantum Crystallography - 2
Link NOC:Symmetry and Structure in the Solid State Lecture 61 - Intermolecular Interactions
Link NOC:Ultrafast Optics and Spectroscopy Lecture 1
Link NOC:Ultrafast Optics and Spectroscopy Lecture 2
Link NOC:Ultrafast Optics and Spectroscopy Lecture 3
Link NOC:Ultrafast Optics and Spectroscopy Lecture 4
Link NOC:Ultrafast Optics and Spectroscopy Lecture 5
Link NOC:Ultrafast Optics and Spectroscopy Lecture 6
Link NOC:Ultrafast Optics and Spectroscopy Lecture 7
Link NOC:Ultrafast Optics and Spectroscopy Lecture 8 - Nonlinear Effects
Link NOC:Ultrafast Optics and Spectroscopy Lecture 9 - Nonlinear Effects (Continued...)
Link NOC:Ultrafast Optics and Spectroscopy Lecture 10 - Nonlinear Effects (Continued...)
Link NOC:Ultrafast Optics and Spectroscopy Lecture 11 - Nonlinear Effects (Continued...)
Link NOC:Ultrafast Optics and Spectroscopy Lecture 12 - Nonlinear Effects (Continued...)
Link NOC:Ultrafast Optics and Spectroscopy Lecture 13 - Nonlinear Effects (Continued...)
Link NOC:Ultrafast Optics and Spectroscopy Lecture 14 - Nonlinear Effects (Continued...)
Link NOC:Ultrafast Optics and Spectroscopy Lecture 15 - Dispersion Effects
Link NOC:Ultrafast Optics and Spectroscopy Lecture 16 - Nonlinear and Dispersion Effects (Continued...)
Link NOC:Ultrafast Optics and Spectroscopy Lecture 17 - Nonlinear and Dispersion Effects (Continued...)
Link NOC:Ultrafast Optics and Spectroscopy Lecture 18 - Transverse Electromagnetic Mode
Link NOC:Ultrafast Optics and Spectroscopy Lecture 19 - Transverse Electromagnetic Mode (Continued...)
Link NOC:Ultrafast Optics and Spectroscopy Lecture 20 - Construction of Ultrafast Laser
Link NOC:Ultrafast Optics and Spectroscopy Lecture 21 - Construction of Ultrafast Laser (Continued...)
Link NOC:Ultrafast Optics and Spectroscopy Lecture 22 - Construction of Ultrafast Laser (Continued...)
Link NOC:Ultrafast Optics and Spectroscopy Lecture 23 - Measurement of Ultrafast Pulse
Link NOC:Ultrafast Optics and Spectroscopy Lecture 24 - Measurement of Ultrafast Pulse (Continued...)
Link NOC:Ultrafast Optics and Spectroscopy Lecture 25 - Measurement Techniques in Ultrafast Spectroscopy
Link NOC:Ultrafast Optics and Spectroscopy Lecture 26 - Kinetic Model of Ultrafast Spectroscopy
Link NOC:Ultrafast Optics and Spectroscopy Lecture 27 - Kinetic Model of Ultrafast Spectroscopy (Continued...)
Link NOC:Ultrafast Optics and Spectroscopy Lecture 28 - Quantum Mechanical Model of Ultrafast Spectroscopy
Link NOC:Ultrafast Optics and Spectroscopy Lecture 29 - Ultrafast Physical Chemistry: Photophysics and Photochemistry
Link NOC:Ultrafast Optics and Spectroscopy Lecture 30 - Ultrafast Physical Chemistry: Solid State
Link NOC:Ultrafast Optics and Spectroscopy Lecture 31 - Ultrafast Physical Chemistry: Transition Metal Complexes and Biomolecules
Link NOC:Ultrafast Optics and Spectroscopy Lecture 32 - Maxwell’s Equations
Link NOC:Ultrafast Optics and Spectroscopy Lecture 33 - Maxwell’s Equations (Continued...)
Link NOC:Ultrafast Optics and Spectroscopy Lecture 34 - Ab Initio Molecular Dynamics - 1
Link NOC:Ultrafast Optics and Spectroscopy Lecture 35 - Ab Initio Molecular Dynamics - 2
Link NOC:Ultrafast Optics and Spectroscopy Lecture 36 - Ab Initio Molecular Dynamics - 3
Link NOC:Ultrafast Optics and Spectroscopy Lecture 37 - Ab Initio Molecular Dynamics - 4
Link NOC:Ultrafast Optics and Spectroscopy Lecture 38 - Attosecond Chemical Dynamics - 1
Link NOC:Ultrafast Optics and Spectroscopy Lecture 39 - Attosecond Chemical Dynamics - 2
Link NOC:Ultrafast Optics and Spectroscopy Lecture 40 - Attosecond Chemical Dynamics - 3
Link NOC:Ultrafast Optics and Spectroscopy Lecture 41 - Attosecond Chemical Dynamics - 4
Link NOC:Ultrafast Optics and Spectroscopy Lecture 42 - Femtochemistry of Nanocatalysis - 1
Link NOC:Ultrafast Optics and Spectroscopy Lecture 43 - Femtochemistry of Nanocatalysis - 2
Link Advanced Geotechnical Engineering Lecture 1
Link Advanced Geotechnical Engineering Lecture 2
Link Advanced Geotechnical Engineering Lecture 3
Link Advanced Geotechnical Engineering Lecture 4
Link Advanced Geotechnical Engineering Lecture 5
Link Advanced Geotechnical Engineering Lecture 6
Link Advanced Geotechnical Engineering Lecture 7
Link Advanced Geotechnical Engineering Lecture 8
Link Advanced Geotechnical Engineering Lecture 9
Link Advanced Geotechnical Engineering Lecture 10
Link Advanced Geotechnical Engineering Lecture 11
Link Advanced Geotechnical Engineering Lecture 12
Link Advanced Geotechnical Engineering Lecture 13
Link Advanced Geotechnical Engineering Lecture 14
Link Advanced Geotechnical Engineering Lecture 15
Link Advanced Geotechnical Engineering Lecture 16
Link Advanced Geotechnical Engineering Lecture 17
Link Advanced Geotechnical Engineering Lecture 18
Link Advanced Geotechnical Engineering Lecture 19
Link Advanced Geotechnical Engineering Lecture 20
Link Advanced Geotechnical Engineering Lecture 21
Link Advanced Geotechnical Engineering Lecture 22
Link Advanced Geotechnical Engineering Lecture 23
Link Advanced Geotechnical Engineering Lecture 24
Link Advanced Geotechnical Engineering Lecture 25
Link Advanced Geotechnical Engineering Lecture 26
Link Advanced Geotechnical Engineering Lecture 27
Link Advanced Geotechnical Engineering Lecture 28
Link Advanced Geotechnical Engineering Lecture 29
Link Advanced Geotechnical Engineering Lecture 30
Link Advanced Geotechnical Engineering Lecture 31
Link Advanced Geotechnical Engineering Lecture 32
Link Advanced Geotechnical Engineering Lecture 33
Link Advanced Geotechnical Engineering Lecture 34
Link Advanced Geotechnical Engineering Lecture 35
Link Advanced Geotechnical Engineering Lecture 36
Link Advanced Geotechnical Engineering Lecture 37
Link Advanced Geotechnical Engineering Lecture 38
Link Advanced Geotechnical Engineering Lecture 39
Link Advanced Geotechnical Engineering Lecture 40
Link Advanced Geotechnical Engineering Lecture 41
Link Advanced Geotechnical Engineering Lecture 42
Link Advanced Geotechnical Engineering Lecture 43
Link Advanced Geotechnical Engineering Lecture 44
Link Advanced Geotechnical Engineering Lecture 45
Link Advanced Geotechnical Engineering Lecture 46
Link Advanced Geotechnical Engineering Lecture 47
Link Advanced Geotechnical Engineering Lecture 48
Link Advanced Geotechnical Engineering Lecture 49
Link Advanced Geotechnical Engineering Lecture 50
Link Advanced Geotechnical Engineering Lecture 51
Link Advanced Geotechnical Engineering Lecture 52
Link Advanced Geotechnical Engineering Lecture 53
Link Advanced Geotechnical Engineering Lecture 54
Link Advanced Geotechnical Engineering Lecture 55
Link Advanced Geotechnical Engineering Lecture 56
Link Advanced Geotechnical Engineering Lecture 57
Link Advanced Geotechnical Engineering Lecture 58
Link Advanced Geotechnical Engineering Lecture 59
Link Advanced Geotechnical Engineering Lecture 60
Link Soil Dynamics Lecture 1 - Introduction
Link Soil Dynamics Lecture 2 - Degrees of Freedom, SDOF System, Types of Vibrations
Link Soil Dynamics Lecture 3 - SDOF System, Types of Vibrations, Free Vibration
Link Soil Dynamics Lecture 4 - Problems on Tortional Motion
Link Soil Dynamics Lecture 5 - Damped Free Vibrations
Link Soil Dynamics Lecture 6 - Damped Free Vibrations, Definition of Critical Damping and problems
Link Soil Dynamics Lecture 7 - Decay of Motion
Link Soil Dynamics Lecture 8 - Forced Vibrations, Dynamic Magnification Factor
Link Soil Dynamics Lecture 9 - Maxwells Diagram of DMF, Discussion on Phase
Link Soil Dynamics Lecture 10 - Transmissibility Ratio, Response to Arbitrary, Step and Pulse Excitations
Link Soil Dynamics Lecture 11 - Response to Arbitrary, Step and Pulse Excitations, Response to Impact Load
Link Soil Dynamics Lecture 12 - Vibration Isolation, Vibrations Measuring Instruments
Link Soil Dynamics Lecture 13 - Solutions of Quiz Questions, Multi-Degree of Freedom (MDOF) Systems
Link Soil Dynamics Lecture 14 - (MDOF) System : Equation of Motion, Longitudinal Waves in an Infinitely long rod
Link Soil Dynamics Lecture 15 - 3 Dimensional Wave Propagation, Waves in semi-infinite media, Rayleigh Wave
Link Soil Dynamics Lecture 16 - Love Wave, Waves in layered medium, 3D case-Inclined wave, Earthquake Waves
Link Soil Dynamics Lecture 17 - Earthquake Waves; P-waves, S-waves, 3 circle method, Estimation of Earthquake Epicentre
Link Soil Dynamics Lecture 18 - Stresses in Soil Element, Field Tests, Seismic Reflection Test
Link Soil Dynamics Lecture 19 - Seismic Refraction Test, SASW Test, Laboratory & Model Tests
Link Soil Dynamics Lecture 20 - Centrifuge Tests Stress Strain Behavior of Cyclically Loaded Soils
Link Soil Dynamics Lecture 21 - Estimation of Gmax, Modulus Reduction Curves, Variation of Damping Ratio, Cyclic Plate load Test
Link Soil Dynamics Lecture 22 - Liquefaction, Preliminary sceening, Simplified Procedure for Liquefaction
Link Soil Dynamics Lecture 23 - Cyclic Stress Ratio, Evaluation of CRR, Correction Factors, Corrections for SPT
Link Soil Dynamics Lecture 24 - Becker Penetrometer Test (BPT), Cone Penetrometer Test (CPT), SPT v BPT, SASW Test
Link Soil Dynamics Lecture 25 - Types of Machine Foundations, Methods of Analysis, Design of Machine Foundations as per IS:2974 (Part-1)-1969
Link Soil Dynamics Lecture 26 - Tschebotarioff's
Link Soil Dynamics Lecture 27 - Problem on Tschebotarioff's method contd., Mass-Spring-Dashpot (MSD) Model
Link Soil Dynamics Lecture 28 - MSD Model- Yawing mode of Vibration, Use of MSD model for analysis
Link Soil Dynamics Lecture 29 - Problems on Use of MSD Model for Analysis, Rocking mode of Vibrations
Link Soil Dynamics Lecture 30 - Torsional Mode/Yawing Mode, Constant Force type excitation, EHS Theory
Link Soil Dynamics Lecture 31 - EHS Theory, Vibrational Control
Link Soil Dynamics Lecture 32 - Use of EHS Theory for analysis
Link Soil Dynamics Lecture 33 - Use of EHS Theory for analysis II
Link Soil Dynamics Lecture 34 - Liquefaction mitigation methods,Vibro Compaction,Densification Techniques
Link Soil Dynamics Lecture 35 - Soil Improvement methods,Dynamic Compaction,Reinforcement Techniques
Link Soil Dynamics Lecture 36 - Force-based Analysis,Dynamic analysis using MSD model
Link Soil Dynamics Lecture 37 - Behaviour of Subgrade Soil below Rail Track
Link Soil Dynamics Lecture 38 - Quiz
Link Structural Dynamics Lecture 1 - Introduction
Link Structural Dynamics Lecture 2 - Inverse Power Method
Link Structural Dynamics Lecture 3 - Dynamics of SDOF Structure
Link Structural Dynamics Lecture 4 - SDOF Response to Harmonic Loads
Link Structural Dynamics Lecture 5 - Response of SDOF Structure to Harmonic Loading
Link Structural Dynamics Lecture 6 - Response to Harmonic Loading
Link Structural Dynamics Lecture 7 - Response to Harmonic Loading (Continue...)
Link Structural Dynamics Lecture 8 - Transmissibility & Base Isolation
Link Structural Dynamics Lecture 9 - Dynamic Characteristics & Periodic Loading
Link Structural Dynamics Lecture 10 - Pulse Loading
Link Structural Dynamics Lecture 11 - Pulse Load Response Characteristics & Impulse Loading
Link Structural Dynamics Lecture 12 - Frequency Domain Response Analysis
Link Structural Dynamics Lecture 13 - Methods of Analysis for General Loading
Link Structural Dynamics Lecture 14 - Numerical Analysis of Response of Single Degree of Freedom Structure & Time Domain Approaches
Link Structural Dynamics Lecture 15 - Response Analysis of Single Degree of Freedom System for Earthquake Loads
Link Structural Dynamics Lecture 16 - Earthquake Response Analysis for Single Degree of Freedom Structures
Link Structural Dynamics Lecture 17 - Generalized Single Degree of Freedom Systems Equations of Motions
Link Structural Dynamics Lecture 18 - Generalized Single Degree of Freedom Systems Equations of Motions
Link Structural Dynamics Lecture 19 - Generalized Single Degree of Freedom Systems Equations of Motions
Link Structural Dynamics Lecture 20 - Generalized Single Degree of Freedom Systems Equations of Motion & Free Vibrations
Link Structural Dynamics Lecture 21 - Equations of Motion for Multi Degree of Freedom Structures
Link Structural Dynamics Lecture 22 - Equations of Motion for Multi Degree of Freedom Systems
Link Structural Dynamics Lecture 23 - Multi Degree of Freedom Structure Equations of Motions
Link Structural Dynamics Lecture 24 - Multi Degree of Freedom Structure Equations of Motions & Free Vibration
Link Structural Dynamics Lecture 25 - Free Vibration for Multi Degree of Freedom Structures
Link Structural Dynamics Lecture 26 - Free Vibration for Multi Degree of Freedom Structures
Link Structural Dynamics Lecture 27 - Practical Free Vibration Analysis
Link Structural Dynamics Lecture 28 - Dynamic Response of Multi Degree of Freedom Systems
Link Structural Dynamics Lecture 29 - Dynamic Response of Multi Degree of Freedom Structures
Link Structural Dynamics Lecture 30 - Damping for Multi Degree of Freedom Structures
Link Structural Dynamics Lecture 31 - Earthquake Response of Multi Degree of Freedom Structures
Link Structural Dynamics Lecture 32 - Earthquake Response of Multi Degree of Freedom Structures
Link Structural Dynamics Lecture 33 - Dynamic Analysis of Buildings
Link Structural Dynamics Lecture 34 - Introduction to Dynamics of Continuous Systems
Link Structural Dynamics Lecture 35 - Free Vibration Response of Continuous Systems
Link Structural Dynamics Lecture 36 - Free Vibration & Dynamic Response of Continuous Systems
Link Structural Dynamics Lecture 37 - Dynamic Response of Continuous Systems
Link Structural Dynamics Lecture 38 - Examples for Dynamic Response of Continuous Systems
Link Watershed Management Lecture 1 - Introduction to Watershed Management
Link Watershed Management Lecture 2 - Watershed Management & Stakeholder Analysis
Link Watershed Management Lecture 3 - Watershed Management Policies
Link Watershed Management Lecture 4 - Sustainable Watershed Management
Link Watershed Management Lecture 5 - Agricultural Practices & Watershed Management
Link Watershed Management Lecture 6 - Soil Erosion & Conservation
Link Watershed Management Lecture 7 - Watershed Management in Arid Regions & Strategic Planning
Link Watershed Management Lecture 8 - Integrated Water Resources Management
Link Watershed Management Lecture 9 - Conjuctive Use of Water Resources
Link Watershed Management Lecture 10 - Rainwater Harvesting System
Link Watershed Management Lecture 11 - Rainwater Harvesting & Roof Catchment System
Link Watershed Management Lecture 12 - Watershed Characteristics
Link Watershed Management Lecture 13 - Watershed Delineation & Modeling
Link Watershed Management Lecture 14 - Hydrologic Processes
Link Watershed Management Lecture 15 - Watershed Modeling
Link Watershed Management Lecture 16 - Hydrologic Modeling
Link Watershed Management Lecture 17 - Numerical Watershed Modeling
Link Watershed Management Lecture 18 - Subsurface & Groundwater Flows
Link Watershed Management Lecture 19 - Social & Community Aspects of Watershed Management
Link Watershed Management Lecture 20 - Socio-economy, Private Sector Participation & Gender Issues
Link Watershed Management Lecture 21 - Integrated Development, Water Legislation & Implementation Issues
Link Watershed Management Lecture 22 - GIS & Applications in Watershed Management
Link Watershed Management Lecture 23 - Remote Sensing & Applications in Watershed Management
Link Watershed Management Lecture 24 - Decision Support Systems & Applications in Watershed Management
Link Watershed Management Lecture 25 - Integrated Watershed Modeling Using Numerical Methods, GIS & Remote Sensing
Link Watershed Management Lecture 26 - Applications of Knowledge Based Models in Watershed Management
Link Watershed Management Lecture 27 - Surface Water Quality & Pollution Issues
Link Watershed Management Lecture 28 - Groundwater Pollution Problems & Transport Processes
Link Watershed Management Lecture 29 - Water Quality Modeling
Link Watershed Management Lecture 30 - Environmental Guidelines for Water Quality Management
Link Watershed Management Lecture 31 - Storm Water Management
Link Watershed Management Lecture 32 - Urban Drainage System
Link Watershed Management Lecture 33 - Flood Routing
Link Watershed Management Lecture 34 - Flood Control & Management
Link Watershed Management Lecture 35 - Drought Assessment
Link Watershed Management Lecture 36 - Drought Analysis
Link Watershed Management Lecture 37 - Drought Mitigation
Link Watershed Management Lecture 38 - Water Conservation
Link Watershed Management Lecture 39 - Water Recycling
Link Watershed Management Lecture 40 - Water Reclaimation & Reuse
Link Fluid Mechanics Lecture 1 - Fluid Mechanics
Link Fluid Mechanics Lecture 2 - Fundamental Concepts of Fluid Flow & Fluid Statics
Link Fluid Mechanics Lecture 3 - Fluid Statics
Link Fluid Mechanics Lecture 4 - Fluid Statics
Link Fluid Mechanics Lecture 5 - Fluid Statics
Link Fluid Mechanics Lecture 6 - Kinematics of Fluid Flow
Link Fluid Mechanics Lecture 7 - Kinematics of Fluid Flow
Link Fluid Mechanics Lecture 8 - Kinematics of Fluid Flow
Link Fluid Mechanics Lecture 9 - Kinematics of Fluid Flow
Link Fluid Mechanics Lecture 10 - Kinematics of Fluid Flow
Link Fluid Mechanics Lecture 11 - Kinematics & Dynamics of Fluid Flow
Link Fluid Mechanics Lecture 12 - Dynamics of Fluid Flow
Link Fluid Mechanics Lecture 13 - Dynamics of Fluid Flow
Link Fluid Mechanics Lecture 14 - Dynamics of Fluid Flow
Link Fluid Mechanics Lecture 15 - Dynamics of Fluid Flow
Link Fluid Mechanics Lecture 16 - Dynamics of Fluid Flow
Link Fluid Mechanics Lecture 17 - Laminar and Turbulent Flows
Link Fluid Mechanics Lecture 18 - Laminar and Turbulent Flows
Link Fluid Mechanics Lecture 19 - Laminar and Turbulent Flows
Link Fluid Mechanics Lecture 20 - Laminar and Turbulent Flows
Link Fluid Mechanics Lecture 21 - Laminar and Turbulent Flows
Link Fluid Mechanics Lecture 22 - Laminar and Turbulent Flows
Link Fluid Mechanics Lecture 23 - Dimensional Analysis
Link Fluid Mechanics Lecture 24 - Dimensional Analysis
Link Fluid Mechanics Lecture 25 - Dimensional Analysis
Link Fluid Mechanics Lecture 26 - Navier-Stocks Equations and Applications
Link Fluid Mechanics Lecture 27 - Navier-Stocks Equations and Applications
Link Fluid Mechanics Lecture 28 - Navier-Stocks Equations and Applications
Link Fluid Mechanics Lecture 29 - Navier-Stocks Equations and Applications
Link Fluid Mechanics Lecture 30 - Boundary Layer Theory and Applications
Link Fluid Mechanics Lecture 31 - Boundary Layer Theory and Applications
Link Fluid Mechanics Lecture 32 - Boundary Layer Theory and Applications
Link Fluid Mechanics Lecture 33 - Boundary Layer Theory and Applications
Link Fluid Mechanics Lecture 34 - Boundary Layer Theory and Applications
Link Fluid Mechanics Lecture 35 - Boundary Layer Theory and Applications
Link Fluid Mechanics Lecture 36 - Pipe Flow Systems
Link Fluid Mechanics Lecture 37 - Pipe Flow Systems
Link Fluid Mechanics Lecture 38 - Pipe Flow Systems
Link Fluid Mechanics Lecture 39 - Pipe Flow Systems
Link Fluid Mechanics Lecture 40 - Pipe Flow Systems
Link Fluid Mechanics Lecture 41 - Pipe Flow Systems
Link Fluid Mechanics Lecture 42 - Pipe Flow Systems
Link Soil Mechanics Lecture 1 - Soil Mechanics
Link Soil Mechanics Lecture 2 - Soil Mechanics
Link Soil Mechanics Lecture 3 - Soil Mechanics
Link Soil Mechanics Lecture 4 - Soil Mechanics
Link Soil Mechanics Lecture 5 - Soil Mechanics
Link Soil Mechanics Lecture 6 - Soil Mechanics
Link Soil Mechanics Lecture 7 - Soil Mechanics
Link Soil Mechanics Lecture 8 - Soil Mechanics
Link Soil Mechanics Lecture 9 - Soil Mechanics
Link Soil Mechanics Lecture 10 - Soil Mechanics
Link Soil Mechanics Lecture 11 - Compaction of Soils - I
Link Soil Mechanics Lecture 12 - Soil Mechanics
Link Soil Mechanics Lecture 13 - Soil Mechanics
Link Soil Mechanics Lecture 14 - Compaction of Soils - IV
Link Soil Mechanics Lecture 15 - Compaction of Soils - V
Link Soil Mechanics Lecture 16 - Compaction of Soils - VI
Link Soil Mechanics Lecture 17 - Effective Stress - I
Link Soil Mechanics Lecture 18 - Effective Stress - II
Link Soil Mechanics Lecture 19 - Effective Stress - III
Link Soil Mechanics Lecture 20 - Flow of water through soils - I
Link Soil Mechanics Lecture 21 - Flow of water through soils - II
Link Soil Mechanics Lecture 22 - Flow of water through soils - III
Link Soil Mechanics Lecture 23 - Flow of water through soils - IV
Link Soil Mechanics Lecture 24 - Flow of water through soils - V
Link Soil Mechanics Lecture 25 - Flow of water through soils - VI
Link Soil Mechanics Lecture 26 - Flow of water through soils - VII
Link Soil Mechanics Lecture 27 - Flow of water through soils - VIII
Link Soil Mechanics Lecture 28 - Soil Mechanics
Link Soil Mechanics Lecture 29 - Soil Mechanics
Link Soil Mechanics Lecture 30 - Soil Mechanics
Link Soil Mechanics Lecture 31 - Soil Mechanics
Link Soil Mechanics Lecture 32 - Soil Mechanics
Link Soil Mechanics Lecture 33 - Soil Mechanics
Link Soil Mechanics Lecture 34 - Soil Mechanics
Link Soil Mechanics Lecture 35 - Soil Mechanics
Link Soil Mechanics Lecture 36 - Soil Mechanics
Link Soil Mechanics Lecture 37 - Soil Mechanics
Link Soil Mechanics Lecture 38 - Soil Mechanics
Link Soil Mechanics Lecture 39 - Soil Mechanics
Link Soil Mechanics Lecture 40 - Soil Mechanics
Link Soil Mechanics Lecture 41 - Soil Mechanics
Link Soil Mechanics Lecture 42 - Soil Mechanics
Link Soil Mechanics Lecture 43 - Soil Mechanics
Link Soil Mechanics Lecture 44 - Soil Mechanics
Link Soil Mechanics Lecture 45 - Soil Mechanics
Link Soil Mechanics Lecture 46 - Soil Mechanics
Link Soil Mechanics Lecture 47 - Soil Mechanics
Link Soil Mechanics Lecture 48 - Soil Mechanics
Link Soil Mechanics Lecture 49 - Soil Mechanics
Link Soil Mechanics Lecture 50 - Soil Mechanics
Link Soil Mechanics Lecture 51 - Soil Mechanics
Link Soil Mechanics Lecture 52 - Soil Mechanics
Link Soil Mechanics Lecture 53 - Soil Mechanics
Link Soil Mechanics Lecture 54 - Soil Mechanics
Link Soil Mechanics Lecture 55 - Soil Mechanics
Link Soil Mechanics Lecture 56 - Soil Mechanics
Link Soil Mechanics Lecture 57 - Soil Mechanics
Link Structural Analysis II Lecture 1
Link Structural Analysis II Lecture 2
Link Structural Analysis II Lecture 3
Link Structural Analysis II Lecture 4
Link Structural Analysis II Lecture 5
Link Structural Analysis II Lecture 6
Link Structural Analysis II Lecture 7
Link Structural Analysis II Lecture 8
Link Structural Analysis II Lecture 9
Link Structural Analysis II Lecture 10
Link Structural Analysis II Lecture 11
Link Structural Analysis II Lecture 12
Link Structural Analysis II Lecture 13
Link Structural Analysis II Lecture 14
Link Structural Analysis II Lecture 15
Link Structural Analysis II Lecture 16
Link Structural Analysis II Lecture 17
Link Structural Analysis II Lecture 18
Link Structural Analysis II Lecture 19
Link Structural Analysis II Lecture 20
Link Structural Analysis II Lecture 21
Link Structural Analysis II Lecture 22
Link Structural Analysis II Lecture 23
Link Structural Analysis II Lecture 24
Link Structural Analysis II Lecture 25
Link Structural Analysis II Lecture 26
Link Structural Analysis II Lecture 27
Link Structural Analysis II Lecture 28
Link Structural Analysis II Lecture 29
Link Structural Analysis II Lecture 30
Link Structural Analysis II Lecture 31
Link Structural Analysis II Lecture 32
Link Structural Analysis II Lecture 33
Link Structural Analysis II Lecture 34
Link Structural Analysis II Lecture 35
Link Structural Analysis II Lecture 36
Link Structural Analysis II Lecture 37
Link Structural Analysis II Lecture 38
Link Structural Analysis II Lecture 39
Link Structural Analysis II Lecture 40
Link Geotechnical Earthquake Engineering Lecture 1 - Introduction to Geotechnical Earthquake Engineering - Part I
Link Geotechnical Earthquake Engineering Lecture 2 - Introduction to Geotechnical Earthquake Engineering - Part II
Link Geotechnical Earthquake Engineering Lecture 3 - Basics of Vibration Theory
Link Geotechnical Earthquake Engineering Lecture 4 - Engineering Seismology - Part - I
Link Geotechnical Earthquake Engineering Lecture 5 - Engineering Seismology - Part - II
Link Geotechnical Earthquake Engineering Lecture 6 - Engineering Seismology - Part - III
Link Geotechnical Earthquake Engineering Lecture 7 - Engineering Seismology - Part - IV
Link Geotechnical Earthquake Engineering Lecture 8 - Engineering Seismology - Part - V
Link Geotechnical Earthquake Engineering Lecture 9 - Engineering Seismology - Part - VI
Link Geotechnical Earthquake Engineering Lecture 10 - Strong Ground Motion - Part I
Link Geotechnical Earthquake Engineering Lecture 11 - Strong Ground Motion - Part II
Link Geotechnical Earthquake Engineering Lecture 12 - Strong Ground Motion - Part III
Link Geotechnical Earthquake Engineering Lecture 13 - Strong Ground Motion - Part IV
Link Geotechnical Earthquake Engineering Lecture 14 - Strong Ground Motion - Part V
Link Geotechnical Earthquake Engineering Lecture 15 - Strong Ground Motion - Part VI
Link Geotechnical Earthquake Engineering Lecture 16 - Strong Ground Motion - Part VII
Link Geotechnical Earthquake Engineering Lecture 17 - Wave Propagation - Part I
Link Geotechnical Earthquake Engineering Lecture 18 - Wave Propagation - Part II
Link Geotechnical Earthquake Engineering Lecture 19 - Wave Propagation - Part III
Link Geotechnical Earthquake Engineering Lecture 20 - Wave Propagation - Part IV
Link Geotechnical Earthquake Engineering Lecture 21 - Dynamic Soil Properties - Part I
Link Geotechnical Earthquake Engineering Lecture 22 - Dynamic Soil Properties - Part II
Link Geotechnical Earthquake Engineering Lecture 23 - Seismic Hazard Analysis - Part I
Link Geotechnical Earthquake Engineering Lecture 24 - Seismic Hazard Analysis - Part II
Link Geotechnical Earthquake Engineering Lecture 25 - Seismic Hazard Analysis - Part III
Link Geotechnical Earthquake Engineering Lecture 26 - Seismic Hazard Analysis - Part IV
Link Geotechnical Earthquake Engineering Lecture 27 - Seismic Hazard Analysis - Part V
Link Geotechnical Earthquake Engineering Lecture 28 - Seismic Hazard Analysis - Part VI
Link Geotechnical Earthquake Engineering Lecture 29 - Seismic Hazard Analysis - Part VII
Link Geotechnical Earthquake Engineering Lecture 30 - Seismic Hazard Analysis - Part VIII
Link Geotechnical Earthquake Engineering Lecture 31 - Site Response Analysis - Part I
Link Geotechnical Earthquake Engineering Lecture 32 - Site Response Analysis - Part II
Link Geotechnical Earthquake Engineering Lecture 33 - Site Response Analysis - Part III
Link Geotechnical Earthquake Engineering Lecture 34 - Seismic Analysis and Design of Various Geotechnical Structures - Part I
Link Geotechnical Earthquake Engineering Lecture 35 - Seismic Analysis and Design of Various Geotechnical Structures - Part II
Link Geotechnical Earthquake Engineering Lecture 36 - Seismic Analysis and Design of Various Geotechnical Structures - Part III
Link Geotechnical Earthquake Engineering Lecture 37 - Seismic Analysis and Design of Various Geotechnical Structures - Part IV
Link Geotechnical Earthquake Engineering Lecture 38 - Seismic Analysis and Design of Various Geotechnical Structures - Part V
Link Geotechnical Earthquake Engineering Lecture 39 - Seismic Analysis and Design of Various Geotechnical Structures - Part VI
Link Geotechnical Earthquake Engineering Lecture 40 - Seismic Analysis and Design of Various Geotechnical Structures - Part VII
Link Geotechnical Earthquake Engineering Lecture 41 - Seismic Analysis and Design of Various Geotechnical Structures - Part VIII
Link Geotechnical Earthquake Engineering Lecture 42 - Quiz
Link Geotechnical Earthquake Engineering Lecture 43 - Seismic Analysis and Design of Various Geotechnical Structures - Part IX
Link Geosynthetics Engineering: In Theory and Practice Lecture 1 - Introduction
Link Geosynthetics Engineering: In Theory and Practice Lecture 2 - Introduction to Reinforced Earth
Link Geosynthetics Engineering: In Theory and Practice Lecture 3 - Introduction to Reinforced Earth
Link Geosynthetics Engineering: In Theory and Practice Lecture 4 - Introduction to Reinforced Earth
Link Geosynthetics Engineering: In Theory and Practice Lecture 5 - Introduction to Reinforced Earth
Link Geosynthetics Engineering: In Theory and Practice Lecture 6 - An Overview of Geosynthetics - Part I
Link Geosynthetics Engineering: In Theory and Practice Lecture 7 - An Overview of Geosynthetics - Part II
Link Geosynthetics Engineering: In Theory and Practice Lecture 8 - An Overview of Geosynthetics - Part III
Link Geosynthetics Engineering: In Theory and Practice Lecture 9 - An Overview of Gosynthetics
Link Geosynthetics Engineering: In Theory and Practice Lecture 10 - Geosynthetic Properties and Test Methods
Link Geosynthetics Engineering: In Theory and Practice Lecture 11 - Geosynthetic Properties and Test Methods
Link Geosynthetics Engineering: In Theory and Practice Lecture 12 - Geosynthetic Properties and Test Methods
Link Geosynthetics Engineering: In Theory and Practice Lecture 13 - Geosynthetic Properties and Test Methods
Link Geosynthetics Engineering: In Theory and Practice Lecture 14 - Geosynthetic Properties and Test Methods
Link Geosynthetics Engineering: In Theory and Practice Lecture 15 - Geosynthetic in Filtration, Drainage and Erosion Control
Link Geosynthetics Engineering: In Theory and Practice Lecture 16 - Geosynthetic in Filtration, Drainage and Erosion Control
Link Geosynthetics Engineering: In Theory and Practice Lecture 17 - Geosynthetic in Filtration, Drainage and Erosion Control
Link Geosynthetics Engineering: In Theory and Practice Lecture 18 - Geosynthetic in Filtration, Drainage and Erosion Control
Link Geosynthetics Engineering: In Theory and Practice Lecture 19 - Geosynthetic in Filtration, Drainage and Erosion Control
Link Geosynthetics Engineering: In Theory and Practice Lecture 20 - Geosynthetic in pavements
Link Geosynthetics Engineering: In Theory and Practice Lecture 21 - Geosynthetic in pavements
Link Geosynthetics Engineering: In Theory and Practice Lecture 22 - Geosynthetic in pavements
Link Geosynthetics Engineering: In Theory and Practice Lecture 23 - Geosynthetic in pavements
Link Geosynthetics Engineering: In Theory and Practice Lecture 24 - Geosynthetic in pavements
Link Geosynthetics Engineering: In Theory and Practice Lecture 25 - Geosynthetic in pavements
Link Geosynthetics Engineering: In Theory and Practice Lecture 26 - Geosynthetics for Reinforced Soil Retaining Walls
Link Geosynthetics Engineering: In Theory and Practice Lecture 27 - Geosynthetics for Reinforced Soil Retaining Walls
Link Geosynthetics Engineering: In Theory and Practice Lecture 28 - Geosynthetics for Reinfroced Soil Retaining Walls
Link Geosynthetics Engineering: In Theory and Practice Lecture 29 - Geosynthetics for Reinforced Soil Retaining Walls
Link Geosynthetics Engineering: In Theory and Practice Lecture 30 - Geosynthetics for Reinforced Soil Retaining Walls
Link Geosynthetics Engineering: In Theory and Practice Lecture 31 - Geosynthetics for Reinforced Soil Retaining Walls
Link Geosynthetics Engineering: In Theory and Practice Lecture 32 - Geosynthetics for Reinforced Soil Retaining Walls
Link Geosynthetics Engineering: In Theory and Practice Lecture 33 - Geosynthetics for Reinforced Soil Retaining Walls
Link Geosynthetics Engineering: In Theory and Practice Lecture 34 - Geosynthetics for Reinforced Soil Retaining Walls
Link Geosynthetics Engineering: In Theory and Practice Lecture 35 - Geosynthetics for Reinforced Soil Retaining Walls
Link Geosynthetics Engineering: In Theory and Practice Lecture 36 - Geosynthetic for Steep Slopes
Link Geosynthetics Engineering: In Theory and Practice Lecture 37 - Geosynthetic for Steep Slopes
Link Geosynthetics Engineering: In Theory and Practice Lecture 38 - Geosynthetic for Steep Slopes
Link Geosynthetics Engineering: In Theory and Practice Lecture 39 - Geosynthetic for Steep Slopes
Link Geosynthetics Engineering: In Theory and Practice Lecture 40 - Geosynthetic for Embankments on Soft Foundations
Link Geosynthetics Engineering: In Theory and Practice Lecture 41 - Geosynthetic for Embankments on Soft Foundations
Link Geosynthetics Engineering: In Theory and Practice Lecture 42 - Geosynthetic for Embankments on Soft Foundations
Link Geosynthetics Engineering: In Theory and Practice Lecture 43 - Geosynthetic for Ground Improvement
Link Geosynthetics Engineering: In Theory and Practice Lecture 44 - Geosynthetic for Ground Improvement
Link Geosynthetics Engineering: In Theory and Practice Lecture 45 - Geosynthetic for Ground Improvement
Link Geosynthetics Engineering: In Theory and Practice Lecture 46 - Geosynthetic for Ground Improvement
Link Geosynthetics Engineering: In Theory and Practice Lecture 47 - Geosynthetic for Ground Improvement
Link Geosynthetics Engineering: In Theory and Practice Lecture 48 - Geosynthetic for Ground Improvement
Link Geosynthetics Engineering: In Theory and Practice Lecture 49 - Geosynthetic for Ground Improvement
Link Geosynthetics Engineering: In Theory and Practice Lecture 50 - Geosynthetic for Improvement in Bearing Capacity
Link Geosynthetics Engineering: In Theory and Practice Lecture 51 - Designing with Geotextile Tube
Link Geosynthetics Engineering: In Theory and Practice Lecture 52 - Designing with Geotextile Tube
Link Geosynthetics Engineering: In Theory and Practice Lecture 53 - Design of Geosynthetic for Landfills
Link Geosynthetics Engineering: In Theory and Practice Lecture 54 - Design of Geosynthetic for Landfills
Link Geosynthetics Engineering: In Theory and Practice Lecture 55 - Design of Geosynthetic for Landfill
Link Geosynthetics Engineering: In Theory and Practice Lecture 56 - Design of Geosynthetic for Landfill
Link Geosynthetics Engineering: In Theory and Practice Lecture 57 - Design of Geosynthetic for Landfill
Link Geosynthetics Engineering: In Theory and Practice Lecture 58 - Designing With Geofoam
Link Geosynthetics Engineering: In Theory and Practice Lecture 59 - Designing With Geofoam
Link Geosynthetics Engineering: In Theory and Practice Lecture 60 - Designing With Geofoam
Link Geosynthetics Engineering: In Theory and Practice Lecture 61 - Designing With Geofoam
Link Geosynthetics Engineering: In Theory and Practice Lecture 62 - Designing With Geofoam
Link Geosynthetics Engineering: In Theory and Practice Lecture 63 - Designing With Geofoam
Link NOC:Geotechnical Engineering Laboratory Lecture 1 - Soil Processing
Link NOC:Geotechnical Engineering Laboratory Lecture 2 - Specific Gravity and Field Density
Link NOC:Geotechnical Engineering Laboratory Lecture 3 - Field Density
Link NOC:Geotechnical Engineering Laboratory Lecture 4 - Grain Size Analysis
Link NOC:Geotechnical Engineering Laboratory Lecture 5 - Grain Size Analysis (Continued...)
Link NOC:Geotechnical Engineering Laboratory Lecture 6 - Grain Size Analysis (Continued...)
Link NOC:Geotechnical Engineering Laboratory Lecture 7 - Atterberg Limit
Link NOC:Geotechnical Engineering Laboratory Lecture 8 - Compaction
Link NOC:Geotechnical Engineering Laboratory Lecture 9 - Compaction (Continued...)
Link NOC:Geotechnical Engineering Laboratory Lecture 10 - Compaction (Continued...)
Link NOC:Geotechnical Engineering Laboratory Lecture 11 - Compaction and Permeability
Link NOC:Geotechnical Engineering Laboratory Lecture 12 - Permeability
Link NOC:Geotechnical Engineering Laboratory Lecture 13 - Permeability and Shear Strength
Link NOC:Geotechnical Engineering Laboratory Lecture 14 - Shear Strength
Link NOC:Geotechnical Engineering Laboratory Lecture 15 - Shear Strength (Continued...)
Link NOC:Geotechnical Engineering Laboratory Lecture 16 - Shear Strength (Continued...)
Link NOC:Geotechnical Engineering Laboratory Lecture 17 - Shear Strength (Continued...)
Link NOC:Geotechnical Engineering Laboratory Lecture 18 - Shear Strength (Continued...)
Link NOC:Geotechnical Engineering Laboratory Lecture 19 - Shear Strength (Continued...)
Link NOC:Geotechnical Engineering Laboratory Lecture 20 - Consolidation
Link NOC:Geotechnical Engineering Laboratory Lecture 21 - Consolidation (Continued...)
Link NOC:Geotechnical Engineering Laboratory Lecture 22 - Consolidation (Continued...)
Link NOC:Geosynthetics Testing Laboratory Lecture 1 - Introduction
Link NOC:Geosynthetics Testing Laboratory Lecture 2 - Types of Geosynthetics
Link NOC:Geosynthetics Testing Laboratory Lecture 3 - Functions
Link NOC:Geosynthetics Testing Laboratory Lecture 4 - Tests for Physical Properties and tensile strength of geosynthetics
Link NOC:Geosynthetics Testing Laboratory Lecture 5 - Tensile Modulus
Link NOC:Geosynthetics Testing Laboratory Lecture 6 - Drop Cone Test
Link NOC:Geosynthetics Testing Laboratory Lecture 7 - Puncture Resistance Test
Link NOC:Geosynthetics Testing Laboratory Lecture 8 - Puncture Resistance Test and Burst Strength Test
Link NOC:Geosynthetics Testing Laboratory Lecture 9 - Grab Tensile Test
Link NOC:Geosynthetics Testing Laboratory Lecture 10 - Grab Tensile Test and Triaxial Test
Link NOC:Geosynthetics Testing Laboratory Lecture 11 - Triaxial and Pullout Test
Link NOC:Geosynthetics Testing Laboratory Lecture 12 - Pullout Test
Link NOC:Geosynthetics Testing Laboratory Lecture 13 - Sewn Seam Strength, Permittivity and Transmissivity
Link NOC:Geosynthetics Testing Laboratory Lecture 14 - Hydraulic Properties and abrasion Test of geosynthetics
Link NOC:Geosynthetics Testing Laboratory Lecture 15 - Endurance properties of Geosynthetics
Link NOC:Geosynthetics Testing Laboratory Lecture 16 - Density, Water Absorption and Compressive Properties tests of Geofoam
Link NOC:Geosynthetics Testing Laboratory Lecture 17 - Compressive Properties of Geofoam
Link NOC:Geosynthetics Testing Laboratory Lecture 18 - Compressive and Tensile Properties of Geofoam
Link NOC:Geosynthetics Testing Laboratory Lecture 19 - Tensile and Shear Properties of Geofoam
Link NOC:Geosynthetics Testing Laboratory Lecture 20 - Shear and Flexural Properties of Geofoam
Link NOC:Geosynthetics Testing Laboratory Lecture 21 - Flexural Properties and Flammability Test of Geofoam
Link NOC:Environmental Geotechnics Lecture 1 - Overview - 1
Link NOC:Environmental Geotechnics Lecture 2 - Overview - 2
Link NOC:Environmental Geotechnics Lecture 3 - Overview - 3
Link NOC:Environmental Geotechnics Lecture 4 - Civil Engineering
Link NOC:Environmental Geotechnics Lecture 5 - Recent Trends in civil engineering
Link NOC:Environmental Geotechnics Lecture 6 - Recent Trends and Subject organization
Link NOC:Environmental Geotechnics Lecture 7 - Civil Engineering and Soil Mechanics
Link NOC:Environmental Geotechnics Lecture 8 - Soil mechanics
Link NOC:Environmental Geotechnics Lecture 9 - Recent Trends in Soil mechanics
Link NOC:Environmental Geotechnics Lecture 10 - Soil contamination
Link NOC:Environmental Geotechnics Lecture 11 - Soil Improvement and wastes
Link NOC:Environmental Geotechnics Lecture 12 - Contaminant transport in soils
Link NOC:Environmental Geotechnics Lecture 13 - Soil- water- Environment Interaction
Link NOC:Environmental Geotechnics Lecture 14 - Basic concepts of analysis
Link NOC:Environmental Geotechnics Lecture 15 - Particle Energy Field Theory
Link NOC:Environmental Geotechnics Lecture 16 - Waste and types
Link NOC:Environmental Geotechnics Lecture 17 - Municipal and Industrial solid waste
Link NOC:Environmental Geotechnics Lecture 18 - Industrial non-hazardous and Hazardous wastes
Link NOC:Environmental Geotechnics Lecture 19 - Application of Industrial by-products
Link NOC:Environmental Geotechnics Lecture 20 - Introduction to Characterization of waste
Link NOC:Environmental Geotechnics Lecture 21 - Geomaterial characterization - 1
Link NOC:Environmental Geotechnics Lecture 22 - Geomaterial characterization - 2 (Morphological and physical characterization)
Link NOC:Environmental Geotechnics Lecture 23 - Geomaterial characterization - 3 (Chemical characterization)
Link NOC:Environmental Geotechnics Lecture 24 - Geomaterial characterization - 4 (Mercury Intrusive Porosimeter)
Link NOC:Environmental Geotechnics Lecture 25 - Geomaterial characterization - 5 (Specific Surface Area - I)
Link NOC:Environmental Geotechnics Lecture 26 - Geomaterial characterization - 6 (Specific surface area - II)
Link NOC:Environmental Geotechnics Lecture 27 - Geomaterial characterization - 7
Link NOC:Environmental Geotechnics Lecture 28 - Geomaterial characterization - 8 (Pore solution studies - I)
Link NOC:Environmental Geotechnics Lecture 29 - Geomaterial characterization - 9 (Pore solution studies - II)
Link NOC:Environmental Geotechnics Lecture 30 - Geomaterial characterization - 10 (Assessing soil contamination)
Link NOC:Environmental Geotechnics Lecture 31 - Geomaterial characterization - 11
Link NOC:Environmental Geotechnics Lecture 32 - Contaminant transport through porous media - 1
Link NOC:Environmental Geotechnics Lecture 33 - Contaminant transport through porous media - 2
Link NOC:Environmental Geotechnics Lecture 34 - Contaminant transport through porous media - 3
Link NOC:Environmental Geotechnics Lecture 35 - Contaminant transport through porous media - 4
Link NOC:Environmental Geotechnics Lecture 36 - Contaminant transport through porous media - 5
Link NOC:Environmental Geotechnics Lecture 37 - Sorption and Desorption characteristics of geomaterials - 1
Link NOC:Environmental Geotechnics Lecture 38 - Sorption and Desorption characteristics of geomaterials - 2
Link NOC:Environmental Geotechnics Lecture 39 - Sorption and Desorption characteristics of geomaterials - 3
Link NOC:Environmental Geotechnics Lecture 40 - Thermal Characterisation - 1
Link NOC:Environmental Geotechnics Lecture 41 - Thermal characterization - 2
Link NOC:Environmental Geotechnics Lecture 42 - Thermal characterisation - 3
Link NOC:Environmental Geotechnics Lecture 43 - Electrical characterization - 1
Link NOC:Environmental Geotechnics Lecture 44 - Electrical characterization - 2
Link NOC:Environmental Geotechnics Lecture 45 - Electrical characterization - 3
Link NOC:Environmental Geotechnics Lecture 46 - Electrical characterization - 4
Link NOC:Environmental Geotechnics Lecture 47 - Electrical characterization - 5
Link NOC:Environmental Geotechnics Lecture 48 - Swelling, shrinkage and cracking characteristics of soil - 1
Link NOC:Environmental Geotechnics Lecture 49 - Swelling, shrinkage and cracking characteristics of soil - 2
Link NOC:Environmental Geotechnics Lecture 50 - Swelling, shrinkage and cracking characteristics of soil - 3
Link NOC:Environmental Geotechnics Lecture 51 - Swelling, shrinkage and cracking characteristics of soil - 4
Link NOC:Environmental Geotechnics Lecture 52 - Swelling, shrinkage and cracking characteristics of soil - 5
Link NOC:Environmental Geotechnics Lecture 53 - Swelling, shrinkage and cracking characteristics of soil - 6
Link Concrete Technology Lecture 1 - Production and Composition
Link Concrete Technology Lecture 2 - Structure and Hydration
Link Concrete Technology Lecture 3 - Structure and Hydration
Link Concrete Technology Lecture 4 - Properties and Tests
Link Concrete Technology Lecture 5 - Types and Use
Link Concrete Technology Lecture 6 - Aggregates (Size, Shape)
Link Concrete Technology Lecture 7 - Packing, FM, SM
Link Concrete Technology Lecture 8 - Properties
Link Concrete Technology Lecture 9 - Chemical Admixtures
Link Concrete Technology Lecture 10 - Chemical Admixtures
Link Concrete Technology Lecture 11 - Mineral Admixtures
Link Concrete Technology Lecture 12 - Mineral Admixtures
Link Concrete Technology Lecture 13 - Mineral Admixtures
Link Concrete Technology Lecture 14 - Mix Proportioning of Concrete: General Principles
Link Concrete Technology Lecture 15 - Mix design of Concrete: General and IS Method
Link Concrete Technology Lecture 16 - Mix Design of Concrete: Is Example and British (DOE) Method
Link Concrete Technology Lecture 17 - Mix Design of concrete: ACI 211 Method
Link Concrete Technology Lecture 18 - Mix Design of concrete: Packing Density, Rheology
Link Concrete Technology Lecture 19 - Batching and Mixing of concrete: General Principles
Link Concrete Technology Lecture 20 - RMC and Transporting Concrete
Link Concrete Technology Lecture 21 - Workability and Pumping of Concrete
Link Concrete Technology Lecture 22 - Compaction and Curing Concrete
Link Concrete Technology Lecture 23 - Strength of Concrete: Factors Affecting
Link Concrete Technology Lecture 24 - Strength of Concrete: Aggregate Contribution
Link Concrete Technology Lecture 25 - Strength of Concrete: Factors Affecting Test Results
Link Concrete Technology Lecture 26 - Mechanical Properties of Concrete:Elastic Moduls, Poision'Ratio, Fatigue, Impact
Link Concrete Technology Lecture 27 - Creep of Concrete
Link Concrete Technology Lecture 28 - Creep and Shrinkage of Concrete
Link Concrete Technology Lecture 29 - Shrinkage of Concrete
Link Concrete Technology Lecture 30 - Shrinkage of Concrete
Link Concrete Technology Lecture 31 - Fundamental Concepts, Degradation Process, Attacks
Link Concrete Technology Lecture 32 - Frost Action and Rebar Corrosion
Link Concrete Technology Lecture 33 - Carbonation and Chloride Affect
Link Concrete Technology Lecture 34 - Rebar Corrosion
Link Concrete Technology Lecture 35 - Rebar Corrosion and General Strateggy
Link Concrete Technology Lecture 36 - High Strength Concrete
Link Concrete Technology Lecture 37 - High Strength Matrics and SCC
Link Concrete Technology Lecture 38 - Self Compacting Concrete
Link Concrete Technology Lecture 39 - Fiber Concrete
Link Concrete Technology Lecture 40 - Fiber and Roller Compacted Concrete
Link Concrete Technology Lecture 41 - Special Concrete and Sustainability
Link Seismic Analysis of Structures Lecture 1 - Seismology
Link Seismic Analysis of Structures Lecture 2 - Seismology (Continued...)
Link Seismic Analysis of Structures Lecture 3 - Seismology (Continued...)
Link Seismic Analysis of Structures Lecture 4 - Seismology (Continued...)
Link Seismic Analysis of Structures Lecture 5 - Seismic Inputs
Link Seismic Analysis of Structures Lecture 6 - Seismic Inputs (Continued...)
Link Seismic Analysis of Structures Lecture 7 - Seismic Inputs (Continued...)
Link Seismic Analysis of Structures Lecture 8 - Seismic Inputs (Continued...)
Link Seismic Analysis of Structures Lecture 9 - Response Analysis for Specified Ground Motion
Link Seismic Analysis of Structures Lecture 10 - Response Analysis for Specified Ground Motion (Continued...)
Link Seismic Analysis of Structures Lecture 11 - Response Analysis for Specified Ground Motion (Continued...)
Link Seismic Analysis of Structures Lecture 12 - Response Analysis for Specified Ground Motion (Continued...)
Link Seismic Analysis of Structures Lecture 13 - Response Analysis for Specified Ground Motion (Continued...)
Link Seismic Analysis of Structures Lecture 14 - Response Analysis for Specified Ground Motion (Continued...)
Link Seismic Analysis of Structures Lecture 15 - Frequency Domain Spectral Analysis
Link Seismic Analysis of Structures Lecture 16 - Frequency Domain Spectral Analysis.
Link Seismic Analysis of Structures Lecture 17 - Frequency Domain Spectral Analysis (Continued...)
Link Seismic Analysis of Structures Lecture 18 - Frequency Domain Spectral Analysis (Continued...)
Link Seismic Analysis of Structures Lecture 19 - Frequency Domain Spectral Analysis (Continued...)
Link Seismic Analysis of Structures Lecture 20 - Response Spectrum Method of Analysis
Link Seismic Analysis of Structures Lecture 21 - Response Spectrum Method of Analysis.
Link Seismic Analysis of Structures Lecture 22 - Response Spectrum Method of Analysis (Continued...)
Link Seismic Analysis of Structures Lecture 23 - Response Spectrum Method of Analysis (Continued...)
Link Seismic Analysis of Structures Lecture 24 - Response Spectrum Method of Analysis (Continued...)
Link Seismic Analysis of Structures Lecture 25 - Inelastic Seismic Response of Structures
Link Seismic Analysis of Structures Lecture 26 - Inelastic Seismic Response of Structures (Continued...)
Link Seismic Analysis of Structures Lecture 27 - Inelastic Seismic Response of Structures (Continued...)
Link Seismic Analysis of Structures Lecture 28 - Inelastic Seismic Response of Structures (Continued...)
Link Seismic Analysis of Structures Lecture 29 - Inelastic Seismic Response of Structures (Continued...)
Link Seismic Analysis of Structures Lecture 30 - Inelastic Seismic Response of Structures (Continued...)
Link Building materials and Construction Lecture 1 - Functions Of Buildings
Link Building materials and Construction Lecture 2 - Role Of Material In Construction
Link Building materials and Construction Lecture 3 - Concrete:Material
Link Building materials and Construction Lecture 4 - Concrete Production (Continued...)
Link Building materials and Construction Lecture 5 - Concrete Production (Continued...)
Link Building materials and Construction Lecture 6 - Concrete:Production Pumping, Placing
Link Building materials and Construction Lecture 7 - Concrete:Production Curing
Link Building materials and Construction Lecture 8 - Cement: Hydration
Link Building materials and Construction Lecture 9 - Cement and Cementitious Material
Link Building materials and Construction Lecture 10 - Fresh Concrete
Link Building materials and Construction Lecture 11 - Fresh Concrete : Role of Mix Parameters
Link Building materials and Construction Lecture 12 - Fresh Concrete : Role of Admixtures
Link Building materials and Construction Lecture 13 - Fresh Concrete : Segregation Bleeding
Link Building materials and Construction Lecture 14 - Strength of Concrete - I
Link Building materials and Construction Lecture 15 - Strength of Concrete - II
Link Building materials and Construction Lecture 16 - Strength of Concrete - III
Link Building materials and Construction Lecture 17 - Mechanical Properties of Concrete - I
Link Building materials and Construction Lecture 18 - Mechanical Properties of Concrete - II
Link Building materials and Construction Lecture 19 - Strength of Concrete : Non Destructive
Link Building materials and Construction Lecture 20 - Durability of Concrete - I
Link Building materials and Construction Lecture 21 - Durability of Concrete - II
Link Building materials and Construction Lecture 22 - Durability of Concrete - III
Link Building materials and Construction Lecture 23 - Cement Aggregate and Water Selection
Link Building materials and Construction Lecture 24 - Mix Design of Concrete
Link Building materials and Construction Lecture 25 - Mix Design Of concrete IS Method
Link Building materials and Construction Lecture 26 - Mix Design Of Concrete: British
Link Building materials and Construction Lecture 27 - Masonry : Materials
Link Building materials and Construction Lecture 28 - Masonry : Walls
Link Building materials and Construction Lecture 29 - Masonry : Walls; Resistance - I
Link Building materials and Construction Lecture 30 - Masonry : Walls; Resistance - II
Link Building materials and Construction Lecture 31 - Walls : Functional Performances
Link Building materials and Construction Lecture 32 - Walls : Defects and Durability
Link Building materials and Construction Lecture 33 - Metals Fundamentals
Link Building materials and Construction Lecture 34 - Metals and Iron Systems
Link Building materials and Construction Lecture 35 - Steel : Uses in Construction
Link Building materials and Construction Lecture 36 - Steel : Uses in Rebar
Link Building materials and Construction Lecture 37 - Polymer in Construction
Link Building materials and Construction Lecture 38 - Polymer in Construction : Uses
Link Building materials and Construction Lecture 39 - Glass and Timber : Glass
Link Building materials and Construction Lecture 40 - Glass and Timber : Timber
Link Building materials and Construction Lecture 41 - Roof and Floor Construction
Link Water Management Lecture 1 - Introduction to Irrigation Water Management
Link Water Management Lecture 2 - Soil - Water - Plant Relationships
Link Water Management Lecture 3 - Soil - Water - Plant Relationships (Continued...)
Link Water Management Lecture 4 - Soil - Water - Plant Relationships (Continued...)
Link Water Management Lecture 5 - Soil - Water - Plant Relationships (Continued...)
Link Water Management Lecture 6 - Soil - Water - Plant Relationships (Continued...) and Infiltration
Link Water Management Lecture 7 - Crop Water Requirements
Link Water Management Lecture 8 - Crop Water Requirements (Continued...)
Link Water Management Lecture 9 - Crop Water Requirements (Continued...)
Link Water Management Lecture 10 - Crop Water Requirements (Continued...)
Link Water Management Lecture 11 - Crop Water Requirements (Continued...)
Link Water Management Lecture 12 - Crop Water Requirements (Continued...)
Link Water Management Lecture 13 - Crop Water Requirements (continued...)
Link Water Management Lecture 14 - Irrigation Efficiencies - Part I
Link Water Management Lecture 15 - Irrigation Efficiencies - Part II and Irrigation Methods and their Suitability
Link Water Management Lecture 16 - Irrigation Methods - III
Link Water Management Lecture 17 - Irrigation Methods - IV
Link Water Management Lecture 18 - Irrigation Methods - V
Link Water Management Lecture 19 - Irrigation Methods - VI
Link Water Management Lecture 20 - Irrigation Methods and their Suitability
Link Water Management Lecture 21 - Border Irrigation System - I
Link Water Management Lecture 22 - Border Irrigation System - II
Link Water Management Lecture 23 - Border Irrigation System - III
Link Water Management Lecture 24 - Border Irrigation System - IV
Link Water Management Lecture 25 - Furrow Irrigation System - I
Link Water Management Lecture 26 - Furrow Irrigation System - II
Link Water Management Lecture 27 - Furrow Irrigation System - III
Link Water Management Lecture 28 - Furrow Irrigation System - IV
Link Water Management Lecture 29 - Sprinkler Irrigation System - I
Link Water Management Lecture 30 - Sprinkler Irrigation System - II
Link Water Management Lecture 31 - Sprinkler Irrigation System - III
Link Water Management Lecture 32 - Sprinkler Irrigation System - IV
Link Water Management Lecture 33 - Sprinkler Irrigation System - V
Link Water Management Lecture 34 - Sprinkler Irrigation System - VI
Link Water Management Lecture 35 - Sprinkler Irrigation System - VII
Link Water Management Lecture 36 - Sprinkler Irrigation System - VIII
Link Water Management Lecture 37 - Drip Irrigation System - I
Link Water Management Lecture 38 - Drip Irrigation System - II
Link Water Management Lecture 39 - Drip Irrigation System - III
Link Water Management Lecture 40 - Drip Irrigation System - IV
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 1 - Introduction to Geoenvironmental Engineering
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 2 - Sources and Impact of Contamination
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 3 - Waste-Soil Interaction
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 4 - Solid Waste Generation and Disposal
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 5 - Waste Minimization by Integrated Solid Waste Management (ISWM)
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 6 - Integrated Solid Waste Management (ISWM) - Case Studies
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 7 - Principles of Landfilling
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 8 - Planning of Landfills - Part 1
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 9 - Planning of Landfills - Part 2
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 10 - Liners for Landfills - Part 1
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 11 - Liners for Landfills - Part 2
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 12 - Liners for Landfills - Part 3
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 13 - Liners for Landfills - Part 4
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 14 - Covers for Landfills - Part 1
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 15 - Covers for Landfills - Part 2
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 16 - Generation and Control of Leachate
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 17 - Generation and Control of Landfill Gas
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 18 - Stability of Slopes - Part 1
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 19 - Stability of Slopes - Part 2
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 20 - Stability of Slopes - Part 3
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 21 - (Lecture Missing)
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 22 - Some Solved Examples
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 23 - Subsurface Monitoring Around Landfills - Part 1
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 24 - Subsurface Monitoring Around Landfills - Part 2
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 25 - Cost of Geotechnical Components of Landfills
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 26 - Construction and Operation of Landfills
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 27 - Site Selection for Landfills
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 28 - Closure, Rehabilitation and Expansion of MSW Landfills
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 29 - Control and Remedial Measures at Contaminated Sites - Part 1
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 30 - Control and Remedial Measures at Contaminated Sites - Part 2
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 31 - Slurry Disposal on Land
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 32 - Disposal of Slurry Waste in Ponds and Impoundments and Dry Waste in Mounds
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 33 - Geotechnical Properties of Coal Ash and Mine Tailings - Part 1
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 34 - Geotechnical Properties of Coal Ash and Mine Tailings - Part 2
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 35 - Planning and Design of Slurry Ponds
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 36 - Stability of Incrementally Raised Embankments - Part 1
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 37 - Stability of Incrementally Raised Embankments - Part 2
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 38 - Remedial Measures for Slope Failures in Embankments / Dykes of Slurry Ponds
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 39 - Environmental Control at Slurry Ponds
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 40 - Geotechnical Reuse of Waste Materials - Part 1
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 41 - Geotechnical Reuse of Waste Materials - Part 2
Link NOC:Geoenvironmental Engineering (Environmental Geotechnology) Landfills, Slurry Ponds and Contaminated Sites Lecture 42 - End-of-the-Course Review
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 1 - Introduction to Environmental Factors - 1
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 2 - Introduction to Environmental Factors - 2
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 3 - Introduction to Environmental Factors - 3
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 4 - Introduction to Environmental Factors - 4
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 5 - Introduction to Environmental Factors - 5
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 6 - Introduction to Environmental Factors - 6
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 7 - Introduction to Environmental Factors - 7
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 8 - Comfort and Heat Transfer Concepts
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 9 - Heat Flow in Buildings - 1
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 10 - Heat Flow in buildings - 2
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 11 - Heat Flow in buildings - 3
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 12 - Admittance Method - 1
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 13 - Admittance Method - 2
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 14 - Heat Flow in buildings - 1 (Frequency Domain)
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 15 - Heat Flow in buildings - 2 (Frequency Domain)
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 16 - Heat Flow in buildings - 2 (Frequency Domain)
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 17 - Heat flow in buildings
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 18 - Admittance Method
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 19 - Comfort - 1
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 20 - Comfort - 2
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 21 - Comfort and Thermal Design of Buildings - 1
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 22 - Comfort and Thermal Design of Buildings - 2
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 23 - Comfort and Thermal Design of Buildings - 3
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 24 - Thermal Design of Unconditioned Building
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 25 - External Shading Multipliers for external suns shading
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 26 - Passive Concepts
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 27 - Design for Thermal Efficiency
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 28 - Ventilation - 1
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 29 - Ventilation - 2
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 30 - Natural ventilation design
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 31 - Noise and Acoustic Fundamentals - 1
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 32 - Noise and Acoustic Fundamentals - 2
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 33 - Noise and Acoustic Fundamentals - 3
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 34 - Noise and Acoustic Fundamentals, Noise Outdoors
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 35 - Noise outdoors
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 36 - Sound within enclosure - 1
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 37 - Sound within enclosure - 2
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 38 - Sound within enclosure - 3
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 39 - Sound within enclosure - 4
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 40 - Sound within enclosure - 5
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 41 - Sound within enclosure - 6
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 42 - Sound within enclosure, isolation
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 43 - Isolation - 1
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 44 - Isolation - 2
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 45 - Auditorium - 1
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 46 - Auditorium - 2
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 47 - Daylighting - 1
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 48 - Daylighting - 2
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 49 - Daylighting - 3
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 50 - Daylighting - 4
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 51 - Daylighting - 5
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 52 - Daylighting - 6
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 53 - Artificial Lighting
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 54 - Design Sky models
Link NOC:Energy Efficiency, Acoustics and Daylighting in Building Lecture 55 - Live Session
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 1 - Basic concepts of Fire Protection - I
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 2 - Basic concepts of Fire Protection - II
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 3 - Fire Resistance
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 4 - Introduction Process of Combustion
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 5 - ventilation and fuel Process of Combustion controlled fire
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 6 - Process of Combustion: Flashover condition
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 7 - Effect of Fire on Construction Materials
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 8 - Design for Fire Resistance: Steel
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 9 - Design for Fire Resistance: Steel
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 10 - Design for Fire Resistance: Concrete
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 11 - Fire Safety: Urban Planning
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 12 - Fire Safety: Escape and Refuge
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 13 - Fire safety: Internal planning, Detection and Suppression
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 14 - Fire Safety: Detection and Suppression
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 15 - Introduction to Lift Design
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 16 - Design of Lift systems
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 17 - Design of Lift systems: expected stops and floor of reversal
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 18 - Design of Lift systems: Different cases
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 19 - Design of Lift systems: Simulation and arrangement and Escalators
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 20 - Introduction to System and Flow Systems
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 21 - Water Supply System: Constant Demand
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 22 - Water Supply System: Variable Demand and Diversity Factor
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 23 - Diversity factor (Continued...)
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 24 - Control Systems
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 25 - Introduction to HVAC
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 26 - Governing Equations for HVAC Process
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 27 - Numerical Problem on HVAC System
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 28 - Numerical Problem on HVAC System (Continued...)
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 29 - Psychrometric Chart: Equation based Approach
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 30 - Flow in Pipe Networks and Fixture Units
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 31 - Flow in Pipe Networks (Continued...) and Design of Water Supply Distribution System
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 32 - Design of Water Supply Distribution System (Continued...) and Flow in Waste Water pipes
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 33 - Electrical Systems (introduction)
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 34 - Design of Electrical Systems
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 35 - Intelligent Building
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 36 - Life cycle cost and basics of building maintenance
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 37 - Stages of maintenance management
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 38 - Planning for building maintenance
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 39 - Periodicity of maintenance management
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 40 - Estimation of repair cycle
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 41 - Cost profile of maintenance
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 42 - Lamp replacement
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 43 - Building inspection, Planned and Ad-hoc maintenance
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 44 - Condition survey and health evaluation of buildings
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 45 - Diagnosis of building by visual survey
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 46 - Case studies of visual survey
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 47 - Effect of corrosion and Alkali Aggregate Reaction
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 48 - Sampling and choice of test location
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 49 - Non Destructive Testing - 1
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 50 - Non Destructive Testing - 2
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 51 - Core strength test
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 52 - Carbonation and Chloride measurement
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 53 - Electrical methods of progress measurement
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 54 - Repair, Rehabilitation and Retrofit
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 55 - Periodicity and economics of condition survey
Link NOC:Fire Protection, Services and Maintenance Management of Building Lecture 56 - Interpretation of test results
Link NOC:Sustainable Materials and Green Buildings Lecture 1 - Introduction and Planet Equivalent
Link NOC:Sustainable Materials and Green Buildings Lecture 2 - Basics of Carbon Cycle
Link NOC:Sustainable Materials and Green Buildings Lecture 3 - Factors Affecting carbon Cycle
Link NOC:Sustainable Materials and Green Buildings Lecture 4 - Fundamentals of Sustainability
Link NOC:Sustainable Materials and Green Buildings Lecture 5 - Role of Materials and Embodied Energy
Link NOC:Sustainable Materials and Green Buildings Lecture 6 - Case Study for Energy in Building
Link NOC:Sustainable Materials and Green Buildings Lecture 7 - Calculation of Ecological Footprint
Link NOC:Sustainable Materials and Green Buildings Lecture 8 - Role of Cement in Sustainability and Calculation of Chemical Exergy
Link NOC:Sustainable Materials and Green Buildings Lecture 9 - Fuel for Cement
Link NOC:Sustainable Materials and Green Buildings Lecture 10 - Cemebtitious/Supplementary Cementitious Materials and Their Characterization
Link NOC:Sustainable Materials and Green Buildings Lecture 11 - Strength of Concrete With Supplementary Cementitious Materials and Composite Cements
Link NOC:Sustainable Materials and Green Buildings Lecture 12 - Types of Composite Cements
Link NOC:Sustainable Materials and Green Buildings Lecture 13 - Alternative Fuel for cement and Embodied Energy
Link NOC:Sustainable Materials and Green Buildings Lecture 14 - Life Cycle Embodied Energy and Concrete Sustainability
Link NOC:Sustainable Materials and Green Buildings Lecture 15 - Strength of Concrete and Use of Admixtures
Link NOC:Sustainable Materials and Green Buildings Lecture 16 - Curing Methods and Use of Waste Water for Mixing and Curing
Link NOC:Sustainable Materials and Green Buildings Lecture 17 - Modern Composite Concrete
Link NOC:Sustainable Materials and Green Buildings Lecture 18 - Recycled Aggregate-ITZ and Proessing
Link NOC:Sustainable Materials and Green Buildings Lecture 19 - Classification of Recycled Aggregate: Crushing and Grinding of Aggregates
Link NOC:Sustainable Materials and Green Buildings Lecture 20 - Crushing and Grinding: Bond's Law+Operational Energy: U-Value
Link NOC:Sustainable Materials and Green Buildings Lecture 21 - Operational Energy: Thermal Conductivity Models
Link NOC:Sustainable Materials and Green Buildings Lecture 22 - Operational Energy: Thermal Conductivity Models (Continued...)
Link NOC:Sustainable Materials and Green Buildings Lecture 23 - Operational Energy: Estimation of Thermal Conductivity
Link NOC:Sustainable Materials and Green Buildings Lecture 24 - Thermal Diffusivity and Clay Bricks
Link NOC:Sustainable Materials and Green Buildings Lecture 25 - Types of Bricks Kilns and Carbon Balance
Link NOC:Sustainable Materials and Green Buildings Lecture 26 - Carbon Balance, Comparison of Various Types of Brick Kilns and Sealants, Paints, Adhesive
Link NOC:Sustainable Materials and Green Buildings Lecture 27 - Sealants, Health Hazards of Building Materials and Emission Models
Link NOC:Sustainable Materials and Green Buildings Lecture 28 - Emission Models and Testing
Link NOC:Sustainable Materials and Green Buildings Lecture 29 - Energy Efficient Design of Buildings
Link NOC:Sustainable Materials and Green Buildings Lecture 30 - Design Optimization of Buildings
Link NOC:Sustainable Materials and Green Buildings Lecture 31 - Building Design Optimization Using Genetic Algorithm
Link NOC:Sustainable Materials and Green Buildings Lecture 32 - Urban Heat Island: Radiation Concepts
Link NOC:Sustainable Materials and Green Buildings Lecture 33 - Urban Heat Island: Urban Canopy Layer
Link NOC:Sustainable Materials and Green Buildings Lecture 34 - Evapotranspiration: Theory and Models
Link NOC:Sustainable Materials and Green Buildings Lecture 35 - Evapotranspiration: Case Study and Surface Water Balance
Link NOC:Sustainable Materials and Green Buildings Lecture 36 - Energy Conservation Building Code (ECBC2007)
Link NOC:Sustainable Materials and Green Buildings Lecture 37 - Energy Conservation Building Code (ECBC2007) (Continued...)
Link NOC:Sustainable Materials and Green Buildings Lecture 38 - ECBC Compliant Methodology
Link NOC:Sustainable Materials and Green Buildings Lecture 39 - OTTV Methodology
Link NOC:Sustainable Materials and Green Buildings Lecture 40 - Solar Energy and Solar Cells
Link NOC:Sustainable Materials and Green Buildings Lecture 41 - Solar Photo Volatic Cells
Link NOC:Sustainable Materials and Green Buildings Lecture 42 - Solar Water Heating
Link NOC:Sustainable Materials and Green Buildings Lecture 43 - Design Strategies and the Green Design Process
Link NOC:Sustainable Materials and Green Buildings Lecture 44 - Green Building Rating Systems
Link NOC:Sustainable Materials and Green Buildings Lecture 45 - Autoclaved Aerated Concrete, Insulated Precast System and Insulated Precast Forms
Link NOC:Sustainable Materials and Green Buildings Lecture 46 - Insulated Concrete Form and Tunnel Form
Link NOC:Sustainable Materials and Green Buildings Lecture 47 - Modular Construction
Link NOC:Scheduling Techniques in Projects Lecture 1 - Introduction to Projects
Link NOC:Scheduling Techniques in Projects Lecture 2 - Inputs to Scheduling
Link NOC:Scheduling Techniques in Projects Lecture 3 - Critical Path Method
Link NOC:Scheduling Techniques in Projects Lecture 4 - Precedence Diagramming Method
Link NOC:Scheduling Techniques in Projects Lecture 5 - Line of Balance Method
Link NOC:Scheduling Techniques in Projects Lecture 6 - Resource-driven Scheduling
Link NOC:Scheduling Techniques in Projects Lecture 7 - Information-driven Scheduling
Link NOC:Scheduling Techniques in Projects Lecture 8 - Dependency Structure Matrix - I
Link NOC:Scheduling Techniques in Projects Lecture 9 - Dependency Structure Matrix - II
Link NOC:Scheduling Techniques in Projects Lecture 10 - Dependency Structure Matrix - III
Link NOC:Scheduling Techniques in Projects Lecture 11 - Beeline Diagramming Method
Link NOC:Scheduling Techniques in Projects Lecture 12 - Other Scheduling Techniques
Link Advanced Hydraulics Lecture 1 - Introduction - advanced hydraulics & course structure
Link Advanced Hydraulics Lecture 2 - Various classifications of open channel flows
Link Advanced Hydraulics Lecture 3 - Flow classifications & velocity distribution
Link Advanced Hydraulics Lecture 4 - Pressure distribution
Link Advanced Hydraulics Lecture 5 - Equation of continuity & energy
Link Advanced Hydraulics Lecture 6 - Specific energy & critical flow
Link Advanced Hydraulics Lecture 7 - Energy, momentum & specific force
Link Advanced Hydraulics Lecture 8 - Computation of critical flow - Part 1
Link Advanced Hydraulics Lecture 9 - Critical flow computations
Link Advanced Hydraulics Lecture 10 - Introduction to uniform flow
Link Advanced Hydraulics Lecture 11 - Manning's equation and normal depth
Link Advanced Hydraulics Lecture 12 - Uniform Flow Computations - Part 1
Link Advanced Hydraulics Lecture 13 - Uniform flow in compound sections, concept of normal slope
Link Advanced Hydraulics Lecture 14 - Uniform flow approximation for flood discharge
Link Advanced Hydraulics Lecture 15 - Design of channels for uniform flow
Link Advanced Hydraulics Lecture 16 - Design of channels using uniform flow
Link Advanced Hydraulics Lecture 17 - Design of erodible channels
Link Advanced Hydraulics Lecture 18 - Introduction to gradually varied flows
Link Advanced Hydraulics Lecture 19 - Gradually varied flow equations
Link Advanced Hydraulics Lecture 20 - Classification of gradually varied flow - Part 1
Link Advanced Hydraulics Lecture 21 - Classification of gradually varied flow - Part 2
Link Advanced Hydraulics Lecture 22 - Gradually varied flow profiles with change in bed slopes
Link Advanced Hydraulics Lecture 23 - GVF profile properties and transitional depths
Link Advanced Hydraulics Lecture 24 - Gradually varied flow computations - Part 1
Link Advanced Hydraulics Lecture 25 - Gradually varied flow computations RK method - Part 2
Link Advanced Hydraulics Lecture 26 - Standard step method for gradually varied flow computations
Link Advanced Hydraulics Lecture 27 - Spatially varied flow
Link Advanced Hydraulics Lecture 28 - Features on spatially varied flow
Link Advanced Hydraulics Lecture 29 - Rapidly varied flow - introduction
Link Advanced Hydraulics Lecture 30 - Theoretical aspects of hydraulic jump
Link Advanced Hydraulics Lecture 31 - Characteristics of jumps in rectangular channel
Link Advanced Hydraulics Lecture 32 - Features of hydraulic jumps
Link Advanced Hydraulics Lecture 33 - Jumps as energy dissipators
Link Advanced Hydraulics Lecture 34 - Jump controls
Link Advanced Hydraulics Lecture 35 - Surges - Part 1
Link Advanced Hydraulics Lecture 36 - Surges - Part 2
Link Advanced Hydraulics Lecture 37 - Channel transitions - Part 1
Link Advanced Hydraulics Lecture 38 - Channel transitions - Part 2
Link Advanced Hydraulics Lecture 39 - Channel transitions - Part 3
Link Advanced Hydraulics Lecture 40 - Application of momentum principles
Link Advanced Hydraulics Lecture 41 - Pumps - 1
Link Advanced Hydraulics Lecture 42 - Turbines - Part 3 (pumps, turbines)
Link Advanced Hydraulics Lecture 43 - Turbines, cavitation
Link Design of Steel Structures Lecture 1 - Introduction to Design of Steel Structures
Link Design of Steel Structures Lecture 2 - Connections
Link Design of Steel Structures Lecture 3 - Riveted Connections
Link Design of Steel Structures Lecture 4 - Design of Rivet Joint
Link Design of Steel Structures Lecture 5 - Welding
Link Design of Steel Structures Lecture 6 - Design of Fillet and Butt Welds
Link Design of Steel Structures Lecture 7 - Bolted Connection
Link Design of Steel Structures Lecture 8 - Eccentric Connections: Rivet Joints
Link Design of Steel Structures Lecture 9 - Design of Eccentric Connection With Load Lying in Plane of Joint Rivet Bolt
Link Design of Steel Structures Lecture 10 - Eccentric Connection With Load Perpendicular to Plane of Riveted Joint
Link Design of Steel Structures Lecture 11 - Analysis and Design of Join with Seat Connection
Link Design of Steel Structures Lecture 12 - Eccentric Connection
Link Design of Steel Structures Lecture 13 - Load Lying Perpendicular to the Plane of Weld Joint
Link Design of Steel Structures Lecture 14 - Tension Member
Link Design of Steel Structures Lecture 15 - Design of Tension Member
Link Design of Steel Structures Lecture 16 - Design of Tension Member: Gusset Plates. Lug Angles and Tension Splices
Link Design of Steel Structures Lecture 17 - Design of Tension Member: Subjected to Axial and Bending
Link Design of Steel Structures Lecture 18 - Compression Member
Link Design of Steel Structures Lecture 19 - Design of Compression Member
Link Design of Steel Structures Lecture 20 - Design of Eccentrically Loaded tension Member
Link Design of Steel Structures Lecture 21 - Built up Compression Member
Link Design of Steel Structures Lecture 22 - Design of Built up Compression Member
Link Design of Steel Structures Lecture 23 - Lacing for Built Up Compression Member
Link Design of Steel Structures Lecture 24 - Design of Lacing System
Link Design of Steel Structures Lecture 25 - Design of Batten Plates
Link Design of Steel Structures Lecture 26 - Introduction to Flexural Members: Beams
Link Design of Steel Structures Lecture 27 - Design Procedure of Beam Members
Link Design of Steel Structures Lecture 28 - Design of Laterally Supported Beams
Link Design of Steel Structures Lecture 29 - Design of Laterally Unsupported Beams
Link Design of Steel Structures Lecture 30 - Built-Up Beams
Link Design of Steel Structures Lecture 31 - Built-Up Beams: Curtailment of the Flange Plates and Shear Connections
Link Design of Steel Structures Lecture 32 - Design of a Built-Up Beams
Link Design of Steel Structures Lecture 33 - Design of Shear Connections and Purlins
Link Design of Steel Structures Lecture 34 - Gantry Girders
Link Design of Steel Structures Lecture 35 - Design of Gantry Girders
Link Design of Steel Structures Lecture 36 - Introduction to Plate Girders - Part 1
Link Design of Steel Structures Lecture 37 - Introduction to Plate Girders - Part 2
Link Design of Steel Structures Lecture 38 - Design of a Plate Girder
Link Design of Steel Structures Lecture 39 - Column Base - Part 1
Link Design of Steel Structures Lecture 40 - Column Base - Part 2
Link Hydraulics Lecture 1 - Introduction to Hydraulics
Link Hydraulics Lecture 2 - Open Channel Hydraulics - Part 1
Link Hydraulics Lecture 3 - Open Channel Hydraulics - Part 2
Link Hydraulics Lecture 4 - Velocity and Pressure Distribution
Link Hydraulics Lecture 5 - Practical use of velocity co-efficient in channel flow
Link Hydraulics Lecture 6 - Conservation Principles & ioioGoverning Equations
Link Hydraulics Lecture 7 - Uniform Flow
Link Hydraulics Lecture 8 - Uniform Flow Formula
Link Hydraulics Lecture 9 - Computation of Uniform Flow - Part 1
Link Hydraulics Lecture 10 - Computation of Uniform Flow - Part 2
Link Hydraulics Lecture 11 - Uniform Flow in Mobile Boundary Channel
Link Hydraulics Lecture 12 - Incipient Motion Condition and Regime of Flow
Link Hydraulics Lecture 13 - Concept of Specific Energy
Link Hydraulics Lecture 14 - Computation of Critical Depth
Link Hydraulics Lecture 15 - Specific Force, Critical Depth & Sequent Depth
Link Hydraulics Lecture 16 - Non-uniform Flow: Gradually Varied Flow
Link Hydraulics Lecture 17 - Classification of Gradually Varied Flow
Link Hydraulics Lecture 18 - Characteristic of Gradually Varied Flow
Link Hydraulics Lecture 19 - Characteristic of Gradually Varied Flow & its Computation
Link Hydraulics Lecture 20 - Gradually Varied Flow & its Computation
Link Hydraulics Lecture 21 - Computation of Gradually Varied Flow
Link Hydraulics Lecture 22 - Gradually Varied Flow: Numerical Methods and Problem Solving
Link Hydraulics Lecture 23 - Rapidly Varied Flow: Hydraulic Jump
Link Hydraulics Lecture 24 - Hydraulic Jump
Link Hydraulics Lecture 25 - Flow Over Hump and Channel Contraction
Link Hydraulics Lecture 26 - Canal Design - 1
Link Hydraulics Lecture 27 - Canal Design - 2
Link Hydraulics Lecture 28 - Design of Alluvial Channel - 1
Link Hydraulics Lecture 29 - Design of Alluvial Channel - 2
Link Hydraulics Lecture 30 - Design of Alluvial Channel - 3
Link Hydraulics Lecture 31 - Unsteady Flow: Waves and its Classification
Link Hydraulics Lecture 32 - Unsteady Flow Part - 2
Link Hydraulics Lecture 33 - Unsteady Flow Part - 3
Link Hydraulics Lecture 34 - Pipe Flow: Friction Loss
Link Hydraulics Lecture 35 - Pipe Flow: Losses in Pipes
Link Hydraulics Lecture 36 - Pipe in Series & Parallel
Link Hydraulics Lecture 37 - Pipe Network Analysis
Link Hydraulics Lecture 38 - Water Hammer & Surge Tank
Link Hydraulics Lecture 39 - Pipe Flow Friction Loss
Link Hydraulics Lecture 40 - Pipe Flow: Losses in Pipe
Link NOC:Higher Surveying Lecture 1 - Introduction to Higher Surveying
Link NOC:Higher Surveying Lecture 2 - Understanding reference system, reference frame, and coordinate system for Earth
Link NOC:Higher Surveying Lecture 3 - Coordinate and datum transformations
Link NOC:Higher Surveying Lecture 4 - Projected coordinate system
Link NOC:Higher Surveying Lecture 5 - Fundamentals of astronomy
Link NOC:Higher Surveying Lecture 6 - Applications of concepts of astronomy
Link NOC:Higher Surveying Lecture 7 - Time
Link NOC:Higher Surveying Lecture 8 - Application of concepts of astronomy and time
Link NOC:Higher Surveying Lecture 9 - Fundamental concepts of error, accuracy, and error propagation
Link NOC:Higher Surveying Lecture 10 - Applications of error propagation
Link NOC:Higher Surveying Lecture 11 - Observation Equation Method of adjustments
Link NOC:Higher Surveying Lecture 12 - Condition Equation Method and Combined Method of adjustments
Link NOC:Higher Surveying Lecture 13 - Analysis of adjustments and reporting of errors
Link NOC:Higher Surveying Lecture 14 - Global Positioning System (GPS)
Link NOC:Higher Surveying Lecture 15 - Introduction to Photogrammetry
Link NOC:Higher Surveying Lecture 16 - Vertical photogrammetry
Link NOC:Higher Surveying Lecture 17 - Stereo photogrammetry
Link NOC:Higher Surveying Lecture 18 - Analytical photogrammetry - I
Link NOC:Higher Surveying Lecture 19 - Analytical photogrammetry - II
Link NOC:Higher Surveying Lecture 20 - Photogrammetric products
Link NOC:Higher Surveying Lecture 21 - Image matching
Link NOC:Higher Surveying Lecture 22 - Close range photogrammetry
Link NOC:Higher Surveying Lecture 23 - Fundamentals of LiDAR
Link NOC:Higher Surveying Lecture 24 - LiDAR data acquisition
Link NOC:Higher Surveying Lecture 25 - Geolocation and errors of LiDAR data
Link NOC:Higher Surveying Lecture 26 - Information extraction from LiDAR data
Link NOC:Higher Surveying Lecture 27 - RADAR fundamenetals - I
Link NOC:Higher Surveying Lecture 28 - RADAR fundamenetals - II
Link NOC:Higher Surveying Lecture 29 - RADAR fundamenetals - III
Link NOC:Higher Surveying Lecture 30 - Radargrammetry
Link NOC:Higher Surveying Lecture 31 - Geoscience perspective for RADAR applications
Link NOC:Higher Surveying Lecture 32 - Fundamental concepts of hydrographic survey
Link NOC:Higher Surveying Lecture 33 - Field procedures for hydrographic Surveying
Link NOC:Higher Surveying Lecture 34 - Modern techniques for hydrographic Survey
Link NOC:Higher Surveying Lecture 35 - Navigation
Link NOC:Higher Surveying Lecture 36 - Conclusive lecture
Link NOC:Unsaturated Soil Mechanics Lecture 1 - Fundamental Aspects of Unsaturated Soil Mechanics and its Basic Principles
Link NOC:Unsaturated Soil Mechanics Lecture 2 - Phases of Unsaturated Soils-I
Link NOC:Unsaturated Soil Mechanics Lecture 3 - Phases of Unsaturated Soils-II
Link NOC:Unsaturated Soil Mechanics Lecture 4 - Equilibrium between Air and Water Phases
Link NOC:Unsaturated Soil Mechanics Lecture 5 - Capillary Phenomenon in Unsaturated Soils - I
Link NOC:Unsaturated Soil Mechanics Lecture 6 - Capillary Phenomenon in Unsaturated Soils - II
Link NOC:Unsaturated Soil Mechanics Lecture 7 - Summary: Fundamental Principles and Constitutive Relationships
Link NOC:Unsaturated Soil Mechanics Lecture 8 - Concept of Water Retention and Soil Water Characteristics - I
Link NOC:Unsaturated Soil Mechanics Lecture 9 - Concept of Water Retention and Soil Water Characteristics - II
Link NOC:Unsaturated Soil Mechanics Lecture 10 - Hydraulic conductivity functions and determination of state variables
Link NOC:Unsaturated Soil Mechanics Lecture 11 - Suction Measurement/Control Techniques - I
Link NOC:Unsaturated Soil Mechanics Lecture 12 - Suction Measurement/Control Techniques - II
Link NOC:Unsaturated Soil Mechanics Lecture 13 - Summary: Suction Measurement and Control Techniques
Link NOC:Unsaturated Soil Mechanics Lecture 14 - HCF Determination
Link NOC:Unsaturated Soil Mechanics Lecture 15 - SWCC and HCF Models
Link NOC:Unsaturated Soil Mechanics Lecture 16 - HCF Modelling
Link NOC:Unsaturated Soil Mechanics Lecture 17 - Fitting of SWCC and HCF modelling
Link NOC:Unsaturated Soil Mechanics Lecture 18 - Pedo-transfer Functions (PTF)
Link NOC:Unsaturated Soil Mechanics Lecture 19 - Steady-State Flow Through Soils
Link NOC:Unsaturated Soil Mechanics Lecture 20 - Steady-State and Transient Flow
Link NOC:Unsaturated Soil Mechanics Lecture 21 - Analytical Methods for Transient Flow - I
Link NOC:Unsaturated Soil Mechanics Lecture 22 - Analytical Methods for Transient Flow - II
Link NOC:Unsaturated Soil Mechanics Lecture 23 - Shear Strength of Unsaturated Soils
Link NOC:Unsaturated Soil Mechanics Lecture 24 - Suction-Controlled Direct Shear Test
Link NOC:Unsaturated Soil Mechanics Lecture 25 - Suction-Controlled Triaxial Test
Link NOC:Unsaturated Soil Mechanics Lecture 26 - Extended M-C Criterion - I
Link NOC:Unsaturated Soil Mechanics Lecture 27 - Extended M-C Criterion - II
Link NOC:Unsaturated Soil Mechanics Lecture 28 - Extended M-C Criterion - III
Link NOC:Unsaturated Soil Mechanics Lecture 29 - Concept of Suction Stress - I
Link NOC:Unsaturated Soil Mechanics Lecture 30 - Concept of Suction Stress - II
Link NOC:Unsaturated Soil Mechanics Lecture 31 - Concept of Suction Stress - III
Link NOC:Unsaturated Soil Mechanics Lecture 32 - Summary: Shear Strength of Unsaturated Soils and Introduction to Volume Change
Link NOC:Unsaturated Soil Mechanics Lecture 33 - Swelling Behaviour of Soils
Link NOC:Unsaturated Soil Mechanics Lecture 34 - Estimation of Swelling Pressure in the Laboratory and Behaviour of Collapsible soil
Link NOC:Unsaturated Soil Mechanics Lecture 35 - Volume Change Behaviour of Bentonite and Kaolin Clay
Link NOC:Unsaturated Soil Mechanics Lecture 36 - Demonstration of Various Experiments Related to Unsaturated Soil Mechanics
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 1 - Introduction
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 2 - Phases and classification of subsurface Investigation
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 3 - Test Pits+ Borings
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 4 - Ground water table and rock drilling
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 5 - Standard Penetration Test
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 6 - Cone Penetration Test
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 7 - Dilatometer Test
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 8 - Pressuremeter Test
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 9 - Seismic reflection method
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 10 - Seismic refraction method
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 11 - Electrical Resistivity Survey
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 12 - Magnetic Survey
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 13 - Surface wave method
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 14 - Gravity Survey
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 15 - Offshore Investigation
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 16 - Geophysical Investigation in Offshore Environment
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 17 - Sampling and Geotechnical Investigations in Offshore Environment
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 18 - Important Terminologies in Offshore Environment
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 19 - Dynamic Testing in Pile Driving
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 20 - Dynamic Testing in Pile (Low Strain)
Link NOC:Subsurface Exploration: Importance and Techniques Involved Lecture 21 - Conclusion
Link NOC:Fluid Mechanics Lecture 1 - Basic Concepts of Fluid
Link NOC:Fluid Mechanics Lecture 2 - Properties of Fluid
Link NOC:Fluid Mechanics Lecture 3 - Fluid Flow Analysis
Link NOC:Fluid Mechanics Lecture 4 - Concepts of Hydrostatic
Link NOC:Fluid Mechanics Lecture 5 - Measurement of Pressure and Hydrostatic forces
Link NOC:Fluid Mechanics Lecture 6 - Buoyancy, Metacentre, Stability and Rigid body motion
Link NOC:Fluid Mechanics Lecture 7 - Reynolds Transport Theorem
Link NOC:Fluid Mechanics Lecture 8 - Conservation of Mass
Link NOC:Fluid Mechanics Lecture 9 - Conservation of Momentum
Link NOC:Fluid Mechanics Lecture 10 - Conservation of Momentum Applications
Link NOC:Fluid Mechanics Lecture 11 - Bernoulli’s Equation
Link NOC:Fluid Mechanics Lecture 12 - Applications of Bernoulli’s Equation
Link NOC:Fluid Mechanics Lecture 13 - Fluid Statics Applications: Example Problems
Link NOC:Fluid Mechanics Lecture 14 - Conservation of Momentum: Example problems
Link NOC:Fluid Mechanics Lecture 15 - Bernoulli’s Equation: Problems Solving on Black Board
Link NOC:Fluid Mechanics Lecture 16 - Lagrangian and Eulerian Descriptions
Link NOC:Fluid Mechanics Lecture 17 - Motion and deformation of fluid elements
Link NOC:Fluid Mechanics Lecture 18 - Problems Solving on Black Board
Link NOC:Fluid Mechanics Lecture 19 - Dimensional Homogeneity
Link NOC:Fluid Mechanics Lecture 20 - Dimensional Analysis and Similarity
Link NOC:Fluid Mechanics Lecture 21 - Laminar and Turbulent Flows
Link NOC:Fluid Mechanics Lecture 22 - Losses in Pipe Fittings
Link NOC:Fluid Mechanics Lecture 23 - Flow in Noncircular Conduits and Multiple Path Pipe flow
Link NOC:Remote Sensing and GIS Lecture 1 - Overview and Introduction
Link NOC:Remote Sensing and GIS Lecture 2 - Basics of Remote Sensing
Link NOC:Remote Sensing and GIS Lecture 3 - Error corrections in satellite image
Link NOC:Remote Sensing and GIS Lecture 4 - Error Identification and Correction - I
Link NOC:Remote Sensing and GIS Lecture 5 - Error Identification and Correction - II
Link NOC:Remote Sensing and GIS Lecture 6 - Error Identification and Correction - III
Link NOC:Remote Sensing and GIS Lecture 7 - DIP - I
Link NOC:Remote Sensing and GIS Lecture 8 - DIP - II
Link NOC:Remote Sensing and GIS Lecture 9 - DIP - III
Link NOC:Remote Sensing and GIS Lecture 10 - DIP - IV
Link NOC:Remote Sensing and GIS Lecture 11 - Image Classification - I
Link NOC:Remote Sensing and GIS Lecture 12 - Image Classification - II
Link NOC:Remote Sensing and GIS Lecture 13 - Photogrammetry
Link NOC:Remote Sensing and GIS Lecture 14 - Thermal Remote Sensing
Link NOC:Remote Sensing and GIS Lecture 15 - Microwave Remote Sensing
Link NOC:Remote Sensing and GIS Lecture 16 - HRS - I
Link NOC:Remote Sensing and GIS Lecture 17 - HRS - II
Link NOC:Remote Sensing and GIS Lecture 18 - HRS - III
Link NOC:Remote Sensing and GIS Lecture 19 - HRS - IV
Link NOC:Remote Sensing and GIS Lecture 20 - HRS - V
Link NOC:Remote Sensing and GIS Lecture 21 - GIS - I
Link NOC:Remote Sensing and GIS Lecture 22 - GIS - II
Link NOC:Remote Sensing and GIS Lecture 23 - Applications of Remote Sensing and GIS - I
Link NOC:Remote Sensing and GIS Lecture 24 - Applications of Remote Sensing and GIS - II
Link Advanced Hydrology Lecture 1
Link Advanced Hydrology Lecture 2
Link Advanced Hydrology Lecture 3
Link Advanced Hydrology Lecture 4
Link Advanced Hydrology Lecture 5
Link Advanced Hydrology Lecture 6
Link Advanced Hydrology Lecture 7
Link Advanced Hydrology Lecture 8
Link Advanced Hydrology Lecture 9
Link Advanced Hydrology Lecture 10
Link Advanced Hydrology Lecture 11
Link Advanced Hydrology Lecture 12
Link Advanced Hydrology Lecture 13
Link Advanced Hydrology Lecture 14
Link Advanced Hydrology Lecture 15
Link Advanced Hydrology Lecture 16
Link Advanced Hydrology Lecture 17
Link Advanced Hydrology Lecture 18
Link Advanced Hydrology Lecture 19
Link Advanced Hydrology Lecture 20
Link Advanced Hydrology Lecture 21
Link Advanced Hydrology Lecture 22
Link Advanced Hydrology Lecture 23
Link Advanced Hydrology Lecture 24
Link Advanced Hydrology Lecture 25
Link Advanced Hydrology Lecture 26
Link Advanced Hydrology Lecture 27
Link Advanced Hydrology Lecture 28
Link Advanced Hydrology Lecture 29
Link Advanced Hydrology Lecture 30
Link Advanced Hydrology Lecture 31
Link Advanced Hydrology Lecture 32
Link Advanced Hydrology Lecture 33
Link Advanced Hydrology Lecture 34
Link Advanced Hydrology Lecture 35
Link Advanced Hydrology Lecture 36
Link Advanced Hydrology Lecture 37
Link Advanced Hydrology Lecture 38
Link Advanced Hydrology Lecture 39
Link Advanced Hydrology Lecture 40
Link Advanced Hydrology Lecture 41
Link Advanced Hydrology Lecture 42
Link Advanced Hydrology Lecture 43
Link Advanced Hydrology Lecture 44
Link Concrete Engineering and Technology Lecture 1 - Introduction and course overview
Link Concrete Engineering and Technology Lecture 2 - Constituents of concrete - Part 1 of 2
Link Concrete Engineering and Technology Lecture 3 - Constituents of concrete - Part 2 of 2
Link Concrete Engineering and Technology Lecture 4 - Admixtures in concrete – mineral and chemical
Link Concrete Engineering and Technology Lecture 5 - Hydration of cement
Link Concrete Engineering and Technology Lecture 6 - Basic properties of concrete
Link Concrete Engineering and Technology Lecture 7 - Proportioning of concrete mixes - Part 1 of 3
Link Concrete Engineering and Technology Lecture 8 - Proportioning of concrete mixes - Part 2 of 3
Link Concrete Engineering and Technology Lecture 9 - Proportioning of concrete mixes - Part 3 of 3
Link Concrete Engineering and Technology Lecture 10 - Pores and porosity in concrete
Link Concrete Engineering and Technology Lecture 11 - Porosimetry – measuring pores in concrete
Link Concrete Engineering and Technology Lecture 12 - Principles of quality control in concrete construction
Link Concrete Engineering and Technology Lecture 13 - Quality control and acceptance criteria for concrete based on compressive strength
Link Concrete Engineering and Technology Lecture 14 - Fibre reinforced concrete
Link Concrete Engineering and Technology Lecture 15 - High strength concrete
Link Concrete Engineering and Technology Lecture 16 - Mass concrete - Part 1 of 2
Link Concrete Engineering and Technology Lecture 17 - Mass concrete - Part 2 of 2
Link Concrete Engineering and Technology Lecture 18 - Concreting in cold weather
Link Concrete Engineering and Technology Lecture 19 - Concreting in hot weather
Link Concrete Engineering and Technology Lecture 20 - Roller compacted concrete
Link Concrete Engineering and Technology Lecture 21 - Self-compacting concrete
Link Concrete Engineering and Technology Lecture 22 - Testing self-compacting concrete
Link Concrete Engineering and Technology Lecture 23 - Shotcrete and underwater concrete
Link Concrete Engineering and Technology Lecture 24 - Alkali – aggregate reaction - Part 1 of 2
Link Concrete Engineering and Technology Lecture 25 - Alkali – aggregate reaction - Part 2 of 2
Link Concrete Engineering and Technology Lecture 26 - Reinforcement corrosion in concrete
Link Concrete Engineering and Technology Lecture 27 - Chloride penetration in concrete
Link Concrete Engineering and Technology Lecture 28 - Using epoxy-coated bars in concrete structures
Link Concrete Engineering and Technology Lecture 29 - Using FRP as reinforcement in concrete structures - Part 1 of 2
Link Concrete Engineering and Technology Lecture 30 - Using FRP as reinforcement in concrete structures - Part 2 of 2
Link Concrete Engineering and Technology Lecture 31 - Grouting and importance of formwork in concrete construction
Link Concrete Engineering and Technology Lecture 32 - Carbonation and freezing & thawing in concrete structures
Link Concrete Engineering and Technology Lecture 33 - Using recycled aggregates in concrete construction
Link Concrete Engineering and Technology Lecture 34 - Basic non-destructive testing for concrete structures
Link Concrete Engineering and Technology Lecture 35 - Measuring permeability in concrete
Link Concrete Engineering and Technology Lecture 36 - Some additional topics
Link Concrete Engineering and Technology Lecture 37 - Considerations in repair of concrete structures - Part 1 of 2
Link Concrete Engineering and Technology Lecture 38 - Considerations in repair of concrete structures - Part 2 of 2
Link Concrete Engineering and Technology Lecture 39 - Laboratory demonstration
Link Concrete Engineering and Technology Lecture 40 - Review of the course
Link Environmental Air Pollution Lecture 1 - Introduction to Atmosphere
Link Environmental Air Pollution Lecture 2 - Air Pollution Systems
Link Environmental Air Pollution Lecture 3 - Air Quality Standards
Link Environmental Air Pollution Lecture 4 - Types and Forms of Air Pollutants
Link Environmental Air Pollution Lecture 5 - Measurement Units and Particulate classification
Link Environmental Air Pollution Lecture 6 - Interpretation and Particle size Distribution
Link Environmental Air Pollution Lecture 7 - Atmospheric formation of Air Pollutants - I
Link Environmental Air Pollution Lecture 8 - Atmospheric formation of Air Pollutants - II
Link Environmental Air Pollution Lecture 9 - Atmospheric formation of Air Pollutants - III
Link Environmental Air Pollution Lecture 10 - Kinetics of Air pollution and combustion processes
Link Environmental Air Pollution Lecture 11 - Internal Combustion Engine and Air Pollution - I
Link Environmental Air Pollution Lecture 12 - Internal Combustion Engine and Air Pollution - II
Link Environmental Air Pollution Lecture 13 - Air Pollution and Health - I
Link Environmental Air Pollution Lecture 14 - Air Pollution and Health - II
Link Environmental Air Pollution Lecture 15 - Emission Inventory
Link Environmental Air Pollution Lecture 16 - Sources of Air Pollution
Link Environmental Air Pollution Lecture 17 - Emission from Fugitive Sources and Sulfuric Acid Production
Link Environmental Air Pollution Lecture 18 - Aluminium Production and Air Pollution - I
Link Environmental Air Pollution Lecture 19 - Aluminium Production and Air Pollution - II
Link Environmental Air Pollution Lecture 20 - Coke Production and Air Pollution
Link Environmental Air Pollution Lecture 21 - Examples for Practice
Link Environmental Air Pollution Lecture 22 - Meteorological Measurements and their interpretation
Link Environmental Air Pollution Lecture 23 - Examples for Practice - Dispersion Modeling
Link Environmental Air Pollution Lecture 24 - Vertical Temperature Profile of Atmosphere
Link Environmental Air Pollution Lecture 25 - Stability, Mixing Height and Plume Behavior - I
Link Environmental Air Pollution Lecture 26 - Stability, Mixing Height and Plume Behavior - II
Link Environmental Air Pollution Lecture 27 - Examples - Solar Radiation Based Stability Calculation
Link Environmental Air Pollution Lecture 28 - Air Quality Modeling - I
Link Environmental Air Pollution Lecture 29 - Air Quality Modeling - II
Link Environmental Air Pollution Lecture 30 - Derivation of Gaussian Model
Link Environmental Air Pollution Lecture 31 - Gaussian Model - Useful Formulation
Link Environmental Air Pollution Lecture 32 - Plume rise, Area and Line Source Model
Link Environmental Air Pollution Lecture 33 - Air Quality Modeling - Maximum Ground Level concentration
Link Environmental Air Pollution Lecture 34 - Examples of Air Quality Modeling
Link Environmental Air Pollution Lecture 35 - Air Pollution Control Devices - I
Link Environmental Air Pollution Lecture 36 - Air Pollution Control Devices - II
Link Environmental Air Pollution Lecture 37 - Source Emission Monitoring
Link Environmental Air Pollution Lecture 38 - Receptor Source Modeling
Link Environmental Air Pollution Lecture 39 - Environmental laws
Link Surveying Module 1 - Lecture 1
Link Surveying Module 2 - Lecture 1
Link Surveying Module 2 - Lecture 2
Link Surveying Module 2 - Lecture 3
Link Surveying Module 2 - Lecture 4
Link Surveying Module 2 - Lecture 5
Link Surveying Module 3 - Lecture 1
Link Surveying Module 3 - Lecture 2
Link Surveying Module 3 - Lecture 3
Link Surveying Module 3 - Lecture 4
Link Surveying Module 4 - Lecture 1
Link Surveying Module 4 - Lecture 2
Link Surveying Module 5 - Lecture 1
Link Surveying Module 5 - Lecture 2
Link Surveying Module 5 - Lecture 3
Link Surveying Module 5 - Lecture 4
Link Surveying Module 5 - Lecture 5
Link Surveying Module 5 - Lecture 6
Link Surveying Module 6 - Lecture 1
Link Surveying Module 6 - Lecture 2
Link Surveying Module 6 - Lecture 3
Link Surveying Module 7 - Lecture 1
Link Surveying Module 7 - Lecture 2
Link Surveying Module 7 - Lecture 3
Link Surveying Module 7 - Lecture 4
Link Surveying Module 7 - Lecture 5
Link Surveying Module 8 - Lecture 1
Link Surveying Module 8 - Lecture 2
Link Surveying Module 9 - Lecture 1
Link Surveying Module 9 - Lecture 2
Link Surveying Module 9 - Lecture 3
Link Surveying Module 9 - Lecture 4
Link Surveying Module 9 - Lecture 5
Link Surveying Module 10 - Lecture 1
Link Surveying Module 11 - Lecture 1
Link Surveying Module 11 - Lecture 2
Link Surveying Module 11 - Lecture 3
Link Surveying Module 12 - Lecture 1
Link Surveying Module 12 - Lecture 2
Link Surveying Module 12 - Lecture 3
Link Water Resources Engineering Lecture 1
Link Water Resources Engineering Lecture 2
Link Water Resources Engineering Lecture 3
Link Water Resources Engineering Lecture 4
Link Water Resources Engineering Lecture 5
Link Water Resources Engineering Lecture 6
Link Water Resources Engineering Lecture 7
Link Water Resources Engineering Lecture 8
Link Water Resources Engineering Lecture 9
Link Water Resources Engineering Lecture 10
Link Water Resources Engineering Lecture 11
Link Water Resources Engineering Lecture 12
Link Water Resources Engineering Lecture 13
Link Water Resources Engineering Lecture 14
Link Water Resources Engineering Lecture 15
Link Water Resources Engineering Lecture 16
Link Water Resources Engineering Lecture 17
Link Water Resources Engineering Lecture 18
Link Water Resources Engineering Lecture 19
Link Water Resources Engineering Lecture 20
Link Water Resources Engineering Lecture 21
Link Water Resources Engineering Lecture 22
Link Water Resources Engineering Lecture 23
Link Water Resources Engineering Lecture 24
Link Water Resources Engineering Lecture 25 (Lecture Missing)
Link Water Resources Engineering Lecture 26
Link Water Resources Engineering Lecture 27
Link Water Resources Engineering Lecture 28
Link Water Resources Engineering Lecture 29
Link Geotechnical Measurements and Explorations Lecture 1 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 2 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 3 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 4 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 5 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 6 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 7 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 8 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 9 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 10 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 11 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 12 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 13 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 14 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 15 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 16 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 17 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 18 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 19 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 20 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 21 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 22 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 23 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 24 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 25 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 26 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 27 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 28 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 29 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 30 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 31 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 32 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 33 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 34 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 35 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 36 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 37 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 38 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 39 - Geotechnical Measurements & Explorations
Link Geotechnical Measurements and Explorations Lecture 40 - Geotechnical Measurements & Explorations
Link Application of Soil Mechanics Lecture 1 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 2 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 3 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 4 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 5 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 6 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 7 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 8 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 9 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 10 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 11 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 12 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 13 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 14 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 15 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 16 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 17 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 18 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 19 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 20 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 21 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 22 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 23 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 24 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 25 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 26 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 27 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 28 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 29 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 30 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 31 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 32 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 33 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 34 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 35 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 36 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 37 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 38 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 39 - Application of Soil Mechanics
Link Application of Soil Mechanics Lecture 40 - Application of Soil Mechanics
Link NOC:Geology and Soil Mechanics Lecture 1 - Description of soil, Engineering Geology Of Soils and Thier Formation
Link NOC:Geology and Soil Mechanics Lecture 2 - Index Properties Of Soil
Link NOC:Geology and Soil Mechanics Lecture 3 - Index Properties Of Soil - A
Link NOC:Geology and Soil Mechanics Lecture 4 - Index Properties Of Soil - B
Link NOC:Geology and Soil Mechanics Lecture 5 - Index Properties Of Soil - C
Link NOC:Geology and Soil Mechanics Lecture 6 - Index Properties Of soil - D
Link NOC:Geology and Soil Mechanics Lecture 7 - Classification Of Soils - A
Link NOC:Geology and Soil Mechanics Lecture 8 - Classification Of Soils - B
Link NOC:Geology and Soil Mechanics Lecture 9 - Classification Of Soils And Clay Mineralogy - A
Link NOC:Geology and Soil Mechanics Lecture 10 - Classification Of Soils And Clay Mineralogy - B
Link NOC:Geology and Soil Mechanics Lecture 11 - Soil compaction - A
Link NOC:Geology and Soil Mechanics Lecture 12 - Soil compaction - B
Link NOC:Geology and Soil Mechanics Lecture 13 - Soil compaction - C
Link NOC:Geology and Soil Mechanics Lecture 14 - Soil compaction - D
Link NOC:Geology and Soil Mechanics Lecture 15 - Soil compaction and Permeability
Link NOC:Geology and Soil Mechanics Lecture 16 - Permeability - A
Link NOC:Geology and Soil Mechanics Lecture 17 - Permeability - B
Link NOC:Geology and Soil Mechanics Lecture 18 - Permeability - C
Link NOC:Geology and Soil Mechanics Lecture 19 - Problems on permeability
Link NOC:Geology and Soil Mechanics Lecture 20 - Seepage
Link NOC:Geology and Soil Mechanics Lecture 21 - Seepage - A
Link NOC:Geology and Soil Mechanics Lecture 22 - Seepage - B
Link NOC:Geology and Soil Mechanics Lecture 23 - Seepage and In situ stress
Link NOC:Geology and Soil Mechanics Lecture 24 - In situ stresses - A
Link NOC:Geology and Soil Mechanics Lecture 25 - In situ stresses - B
Link NOC:Geology and Soil Mechanics Lecture 26 - In situ stresses - A
Link NOC:Geology and Soil Mechanics Lecture 27 - In situ stresses - B
Link NOC:Geology and Soil Mechanics Lecture 28 - In situ stresses - C
Link NOC:Geology and Soil Mechanics Lecture 29 - Consolidation - A
Link NOC:Geology and Soil Mechanics Lecture 30 - Consolidation - B
Link NOC:Geology and Soil Mechanics Lecture 31 - Consolidation - A
Link NOC:Geology and Soil Mechanics Lecture 32 - Consolidation - B
Link NOC:Geology and Soil Mechanics Lecture 33 - Consolidation - C
Link NOC:Geology and Soil Mechanics Lecture 34 - Consolidation - D
Link NOC:Geology and Soil Mechanics Lecture 35 - Consolidation - E
Link NOC:Geology and Soil Mechanics Lecture 36 - Consolidation - F
Link NOC:Geology and Soil Mechanics Lecture 37 - Shear strength of Soil - A
Link NOC:Geology and Soil Mechanics Lecture 38 - Shear strength of Soil - B
Link NOC:Geology and Soil Mechanics Lecture 39 - Shear strength of Soil - C
Link NOC:Geology and Soil Mechanics Lecture 40 - Shear Strength of Soils
Link NOC:Geology and Soil Mechanics Lecture 41 - Shear Strength of Soils.
Link NOC:Geology and Soil Mechanics Lecture 42 - Shear Strength of Soils..
Link NOC:Geology and Soil Mechanics Lecture 43 - Shear strength of Soil
Link NOC:Geology and Soil Mechanics Lecture 44 - Shear strength of Soil- e
Link NOC:Geology and Soil Mechanics Lecture 45 - Shear strength of Soil_B
Link NOC:Geology and Soil Mechanics Lecture 46 - Problem on shear strength of soil
Link NOC:Geology and Soil Mechanics Lecture 47 - Problem on shear strength of soil -a
Link NOC:Geology and Soil Mechanics Lecture 48 - Problem on shear strength of soil -a
Link NOC:Geology and Soil Mechanics Lecture 49 - Earth Pressure on retaining wall
Link NOC:Geology and Soil Mechanics Lecture 50 - Earth Pressure on retaining wall -A
Link NOC:Geology and Soil Mechanics Lecture 51 - Tutorial on Index properties of soil
Link NOC:Geology and Soil Mechanics Lecture 52 - Tutorial on compaction
Link NOC:Geology and Soil Mechanics Lecture 53 - Tutorial on Permeability - a
Link NOC:Geology and Soil Mechanics Lecture 54 - Tutorial on Permeability - b
Link NOC:Geology and Soil Mechanics Lecture 55 - Tutorial On Consoildation
Link NOC:Geology and Soil Mechanics Lecture 56 - Tutorial on consoildation - a
Link NOC:Geology and Soil Mechanics Lecture 57 - Tutorial on Sheer Strength
Link NOC:Geology and Soil Mechanics Lecture 58 - Tutorial on Sheer Strength - a
Link NOC:Geology and Soil Mechanics Lecture 59 - Earth Pressure on Retaining Wall - a
Link NOC:Geology and Soil Mechanics Lecture 60 - Earth Pressure on Retaining Wall - 1
Link NOC:Geology and Soil Mechanics Lecture 61 - Earth Pressure Theories and Problems on Earth Pressure on Retaining Wall
Link NOC:Geology and Soil Mechanics Lecture 62 - Problems on Earth Pressure on Retaining Wall Edit Lesson
Link NOC:Geology and Soil Mechanics Lecture 63 - Problems on Earth Pressure on Retaining Wall - 2
Link NOC:Geology and Soil Mechanics Lecture 64 - Problems on Earth Pressure Theories - 3
Link NOC:Geology and Soil Mechanics Lecture 65 - Problems on Earth Pressure Theories - 4
Link NOC:Engineering Graphics Lecture 1 - Course Objectives, Lettering and Numbering
Link NOC:Engineering Graphics Lecture 2 - Geometric Constructions - Part I
Link NOC:Engineering Graphics Lecture 3 - Geometric Constructions - Part II
Link NOC:Engineering Graphics Lecture 4 - Orthographic Projections - Part I
Link NOC:Engineering Graphics Lecture 5 - Orthographic Projections - Part II
Link NOC:Engineering Graphics Lecture 6 - Orthographic Projections - Part III
Link NOC:Engineering Graphics Lecture 7 - Orthographic Projections - Part IV
Link NOC:Engineering Graphics Lecture 8 - Orthographic Projections - Part V
Link NOC:Engineering Graphics Lecture 9 - Isometric Projections - Part I
Link NOC:Engineering Graphics Lecture 10 - Isometric Projections - Part II
Link NOC:Engineering Graphics Lecture 11 - Isometric Projections - Part III
Link NOC:Engineering Graphics Lecture 12 - Isometric Projections - Part IV
Link NOC:Engineering Graphics Lecture 13 - Isometric Projections - Part V and Oblique Projections - Part I
Link NOC:Engineering Graphics Lecture 14 - Oblique Projections - Part II
Link NOC:Engineering Graphics Lecture 15 - Sectioning
Link NOC:Engineering Graphics Lecture 16 - Hatching
Link NOC:Engineering Graphics Lecture 17 - Orthographic Projections - Assemblies
Link NOC:Engineering Graphics Lecture 18 - Missing Lines and Missing Views
Link NOC:Engineering Graphics Lecture 19 - Perspective View - Part I
Link NOC:Engineering Graphics Lecture 20 - Perspective View - Part II
Link NOC:Engineering Graphics Lecture 21 - Perspective View - Part III
Link NOC:Engineering Graphics Lecture 22 - Angular Perspective and Circles in perspective
Link NOC:Engineering Graphics Lecture 23 - Perspective View examples and Space Geometry
Link NOC:Engineering Graphics Lecture 24 - Space Geometry (Continued...)
Link NOC:Engineering Graphics Lecture 25 - True Length, Point View and Slope of Oblique lines
Link NOC:Engineering Graphics Lecture 26 - Space Geometry - Introduction
Link NOC:Engineering Graphics Lecture 27 - Space Geometry - Part 2
Link NOC:Engineering Graphics Lecture 28 - Auxiliary View, Lines, Planes
Link NOC:Engineering Graphics Lecture 29 - Relationship between Lines and Planes, Planes and Planes
Link NOC:Engineering Graphics Lecture 30 - Intersection of Solids
Link NOC:Engineering Graphics Lecture 31 - AUTOCAD
Link NOC:Engineering Graphics Lecture 32 - Development of Surfaces
Link NOC:Earth Sciences for Civil Engineering Lecture 1 - Introduction to Geosciences in Civil Engineering - Part 1
Link NOC:Earth Sciences for Civil Engineering Lecture 2 - Introduction to Geosciences in Civil Engineering - Part 2
Link NOC:Earth Sciences for Civil Engineering Lecture 3 - Plate Tectonics and Continental Drift - Part 2
Link NOC:Earth Sciences for Civil Engineering Lecture 4 - Plate Tectonics and Continental Drift - Part 3
Link NOC:Earth Sciences for Civil Engineering Lecture 5 - Plate Tectonics and Continental Drift - Part 4
Link NOC:Earth Sciences for Civil Engineering Lecture 6 - Rock Forming Minerals and their Properties - Part 1
Link NOC:Earth Sciences for Civil Engineering Lecture 7 - Rock types and their Properties - Part 1
Link NOC:Earth Sciences for Civil Engineering Lecture 8 - Rock types and their Properties - Part 2
Link NOC:Earth Sciences for Civil Engineering Lecture 9 - Rock types and their Properties - Part 3
Link NOC:Earth Sciences for Civil Engineering Lecture 10 - Rock types and their Properties - Part 4
Link NOC:Earth Sciences for Civil Engineering Lecture 11 - Rock types and their properties - Part 5
Link NOC:Earth Sciences for Civil Engineering Lecture 12 - Rock types and their properties - Part 6
Link NOC:Earth Sciences for Civil Engineering Lecture 13 - Rock types and their properties - Part-6 Seismology and the internal structure of the earth - Part 1
Link NOC:Earth Sciences for Civil Engineering Lecture 14 - Seismology and the internal structure of the earth - Part 2
Link NOC:Earth Sciences for Civil Engineering Lecture 15 - Seismology and the internal structure of the earth - Part 3 Edit Lesson
Link NOC:Earth Sciences for Civil Engineering Lecture 16 - Seismology and the internal structure of the earth - Part 4
Link NOC:Earth Sciences for Civil Engineering Lecture 17 - Seismology and the internal structure of the earth - Part 5 and Geological Structures - Part 1
Link NOC:Earth Sciences for Civil Engineering Lecture 18 - Geological Structures - Part 2
Link NOC:Earth Sciences for Civil Engineering Lecture 19 - Geological Structures - Part 3
Link NOC:Earth Sciences for Civil Engineering Lecture 20 - Geological Structures - Part 4
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 1 - Introduction to Geological Hazards and Enviromental Impact - Part 1
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 2 - Introduction to Geological Hazards and Enviromental Impact - Part 2
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 3 - Introduction to Geological Hazards and Enviromental Impact - Part 3
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 4 - Active Faults and its Related Hazards in India - Part 1
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 5 - Active Faults and its Related Hazards in India - Part 2
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 6 - Active faults and its related hazards in India - Part 3
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 7 - Active faults and its related hazards in India - Part 4
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 8 - Active faults its related hazards in India - Part 5
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 9 - Active faults its related hazards in India - Part 6
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 10 - Active faults its related hazards in India - Part 7 and Civil Engineering applications - geological considerations in dams, tunnels - Part 1
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 11 - Civil Engineering applications – geological considerations in dams, tunnels - Part 2
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 12 - Civil Engineering applications – geological considerations in dams, tunnels - Part 3 and Tsunami and related hazard - Part 1
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 13 - Tsunami and related hazard - Part 2
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 14 - Tsunami and related hazard - Part 3
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 15 - Landslide and subsidence - Part 1
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 16 - Landslide and subsidence - Part 2
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 17 - Landslide and subsidence - Part 3
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 18 - Flood and related hazard - Part 1
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 19 - Flood and related hazard - Part 2
Link NOC:Earth Sciences for Civil Engineering - Part 2 Lecture 20 - Groundwater
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 1 - Lecture 1 - Introduction to the course
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 2 - Lecture 2 - Concrete - A Three Phase System
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 3 - Lecture 3 - Basic Properties of Concrete
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 4 - Lecture 4 - Portland Cement
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 5 - Lecture 5 - Portland Cement (Continued...)
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 6 - Lecture 6 - Introduction (Aggregates) - 1
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 7 - Lecture 7 - Introduction (Aggregates) - 2
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 8 - Lecture 8 - Introduction (Aggregates) - 3
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 9 - Lecture 9 - Introduction (Concrete Mixture Proportioning Strategies)
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 10 - Lecture 10 - Introduction (Chemical Admixtures)
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 11 - Lecture-11 - Portland Cement Based Paste Systems - I
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 12 - Lecture 12 - Portland Cement Based Paste Systems - II
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 13 - Lecture 13 - Portland Cement Based Paste Systems - III
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 14 - Lecture 14 - Portland Cement Paste Based Systems - IV
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 15 - Lecture 15 - Portland Cement Based Paste Systems - V
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 16 - Lecture 16 - 18 Part 1 - Portland Cement Based Paste Systems - VI
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 17 - Lecture 16 - 18 Part 2 - Portland Cement Based Paste Systems - VII
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 18 - Lecture 19 - Heat of hydration of Portland Cement
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 19 - Lecture 20 - Mass Concrete
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 20 - Lecture 21-22 - Mineral Admixtures - 1
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 21 - Lecture 23-24 - Mineral Admixtures - 2
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 22 - Lecture 25-27 - Mineral Admixtures - 3
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 23 - Lecture 28-30 - Mineral Admixtures - 4
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 24 - Lecture 31 - From paste to concrete
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 25 - Lecture 32 - Demonstration
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 26 - Lecture 33 - Pores and porosity - A revisit
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 27 - Lecture 34 - Measuring permeability of concrete
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 28 - Lecture 35 - Behavior under load
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 29 - Lecture 36 - Curing of concrete
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 30 - Lecture 37 - Stress strain behaviour
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 31 - Lecture 38 - Durability of concrete - I
Link NOC:Hydration, Porosity and Strength of Cementitious Materials Lecture 32 - Lecture 39 - Durability of concrete - II - Specifications
Link NOC:Mechanics of Solids Lecture 1 - Course Handout
Link NOC:Mechanics of Solids Lecture 2 - Analysis of Mechanical System
Link NOC:Mechanics of Solids Lecture 3 - Conditions of equilibrium in 2D and 3D
Link NOC:Mechanics of Solids Lecture 4 - FBD with examples on modelling of typical supports and joints
Link NOC:Mechanics of Solids Lecture 5 - Support Conditions
Link NOC:Mechanics of Solids Lecture 6 - FBD of Frame Structures
Link NOC:Mechanics of Solids Lecture 7 - Stability of Truss
Link NOC:Mechanics of Solids Lecture 8 - Solutions of Plane Truss
Link NOC:Mechanics of Solids Lecture 9 - Method of Sections
Link NOC:Mechanics of Solids Lecture 10 - Friction 2
Link NOC:Mechanics of Solids Lecture 11 - Tutorial on Truss
Link NOC:Mechanics of Solids Lecture 12 - Tutorial on Friction
Link NOC:Mechanics of Solids Lecture 13 - Force Displacement Relationship
Link NOC:Mechanics of Solids Lecture 14 - Hoop Stresses
Link NOC:Mechanics of Solids Lecture 15 - Mechanism of belt around wheel
Link NOC:Mechanics of Solids Lecture 16 - Tutorial on Force Displacement Relationship and Geometric Compatibility - 1
Link NOC:Mechanics of Solids Lecture 17 - Tutorial on Force Displacement Relationship and Geometric Compatibility - 2
Link NOC:Mechanics of Solids Lecture 18 - Tutorial on Force Displacement Relationship and Geometric Compatibility - 3
Link NOC:Mechanics of Solids Lecture 19 - Concept of Stress
Link NOC:Mechanics of Solids Lecture 20 - Plane Stress
Link NOC:Mechanics of Solids Lecture 21 - State of Stresses
Link NOC:Mechanics of Solids Lecture 22 - Mohrs Circle representation of plane stress
Link NOC:Mechanics of Solids Lecture 23 - Construction of Mohrs Circle
Link NOC:Mechanics of Solids Lecture 24 - Principal Stresses and Introduction to Concept of Strain
Link NOC:Mechanics of Solids Lecture 25 - Normal Strain and Shear Strain
Link NOC:Mechanics of Solids Lecture 26 - Strain Transformation
Link NOC:Mechanics of Solids Lecture 27 - Strain Measurement
Link NOC:Mechanics of Solids Lecture 28 - Tutorial
Link NOC:Mechanics of Solids Lecture 29 - Tutorial on Concept of Strain.
Link NOC:Mechanics of Solids Lecture 30 - Elastic Stress Strain Relationship
Link NOC:Mechanics of Solids Lecture 31 - Von Mises Yield Criteria
Link NOC:Mechanics of Solids Lecture 32 - Tresca Criteria
Link NOC:Mechanics of Solids Lecture 33 - True Stress Strain
Link NOC:Mechanics of Solids Lecture 34 - Tutorial 2
Link NOC:Mechanics of Solids Lecture 35 - Forces and Moments Transmitted by Slender Members
Link NOC:Mechanics of Solids Lecture 36 - Bending Moment
Link NOC:Mechanics of Solids Lecture 37 - Shear Force and Bending Moment Diagrams
Link NOC:Mechanics of Solids Lecture 38 - Differential Equation Relationship
Link NOC:Mechanics of Solids Lecture 39 - Tutorial 3
Link NOC:Mechanics of Solids Lecture 40 - Tutorial 4
Link NOC:Mechanics of Solids Lecture 41 - Torsion
Link NOC:Mechanics of Solids Lecture 42 - Stress Components
Link NOC:Mechanics of Solids Lecture 43 - Tutorial A
Link NOC:Mechanics of Solids Lecture 44 - Tutorial B
Link NOC:Mechanics of Solids Lecture 45 - Stresses due to Bending
Link NOC:Mechanics of Solids Lecture 46 - Equilibrium Requirements
Link NOC:Mechanics of Solids Lecture 47 - Beam Transmitting both Shear Force and Bending Moment
Link NOC:Mechanics of Solids Lecture 48 - Shear Stress Distribution
Link NOC:Mechanics of Solids Lecture 49 - Distribution of Shear Stress in I Beam
Link NOC:Mechanics of Solids Lecture 50 - Tutorial 1
Link NOC:Mechanics of Solids Lecture 51 - Deflections due to Bending
Link NOC:Mechanics of Solids Lecture 52 - Integration of Moment Curvature Relation
Link NOC:Mechanics of Solids Lecture 53 - Superposition Continued
Link NOC:Mechanics of Solids Lecture 54 - Load Deflection Differential Equation
Link NOC:Mechanics of Solids Lecture 55 - Castigliano’s Theorem
Link NOC:Mechanics of Solids Lecture 56 - Strain Energy Methods
Link NOC:Mechanics of Solids Lecture 57 - Introduction to Concept of Elastic Instability
Link NOC:Mechanics of Solids Lecture 58 - Critical Load
Link NOC:Mechanics of Solids Lecture 59 - Critical Load for Flexible Columns
Link NOC:Mechanics of Solids Lecture 60 - Concluding Lecture
Link NOC:Principles of Construction Management Lecture 1 - Introduction to the course
Link NOC:Principles of Construction Management Lecture 2 - Interdisciplinary nature of modern construction projects
Link NOC:Principles of Construction Management Lecture 3 - Overview of steps in execution of a project
Link NOC:Principles of Construction Management Lecture 4 - Illustrative examples for evaluation of bids based on different schemes
Link NOC:Principles of Construction Management Lecture 5 - Resource management in construction projects
Link NOC:Principles of Construction Management Lecture 6 - Estimating quantities
Link NOC:Principles of Construction Management Lecture 7 - Description of items
Link NOC:Principles of Construction Management Lecture 8 - Estimation of project cost
Link NOC:Principles of Construction Management Lecture 9 - Discussion on the case study of boundary wall
Link NOC:Principles of Construction Management Lecture 10 - Running account bills
Link NOC:Principles of Construction Management Lecture 11 - Economic decision making in construction projects
Link NOC:Principles of Construction Management Lecture 12 - Depreciation of construction equipment
Link NOC:Principles of Construction Management Lecture 13 - Repayment of a loan
Link NOC:Principles of Construction Management Lecture 14 - Introduction to planning and scheduling
Link NOC:Principles of Construction Management Lecture 15 - Introduction to planning and scheduling (Continued...)
Link NOC:Principles of Construction Management Lecture 16 - Project scheduling
Link NOC:Principles of Construction Management Lecture 17 - Uncertainties in duration of activities -Using PERT in scheduling
Link NOC:Principles of Construction Management Lecture 18 - Project monitoring and control systems
Link NOC:Principles of Construction Management Lecture 19 - Resource leveling and allocation
Link NOC:Principles of Construction Management Lecture 20 - Crashing of networks
Link NOC:Principles of Construction Management Lecture 21 - Introduction to construction safety
Link NOC:Principles of Construction Management Lecture 22 - Accidents in construction industry - I
Link NOC:Principles of Construction Management Lecture 23 - Accidents in construction industry - II
Link NOC:Principles of Construction Management Lecture 24 - Personal protective equipment
Link NOC:Principles of Construction Management Lecture 25 - Implications of construction accidents
Link NOC:Principles of Construction Management Lecture 26 - Safety organization and safety officer
Link NOC:Principles of Construction Management Lecture 27 - Quality control in construction
Link NOC:Principles of Construction Management Lecture 28 - Quality in construction - welding
Link NOC:Principles of Construction Management Lecture 29 - Epoxy coated bars
Link NOC:Principles of Construction Management Lecture 30 - Quality control of grouts in ducts of post-tensioned PC members
Link NOC:Principles of Construction Management Lecture 31 - Quality control (QC) issues in concrete
Link NOC:Principles of Construction Management Lecture 32 - Legal issues in Construction Management - An Introduction
Link NOC:Principles of Construction Management Lecture 33 - Essentials of a Good Contract
Link NOC:Principles of Construction Management Lecture 34 - Dispute Resolution in Construction Projects
Link NOC:Principles of Construction Management Lecture 35 - Types of Construction Contracts - Definitions
Link NOC:Principles of Construction Management Lecture 36 - Closing the Discussion on Legal Aspects
Link NOC:Principles of Construction Management Lecture 37 - Quality Control - Concrete Sewer Pipeline
Link NOC:Foundation Design Lecture 1 - (1A) Subsoil Investigation or Site Investigation - Part 1
Link NOC:Foundation Design Lecture 2 - (1B) Subsoil Investigation or Site Investigation - Part 2
Link NOC:Foundation Design Lecture 3 - (2A) Subsoil Investigation or Site Investigation - Part 3
Link NOC:Foundation Design Lecture 4 - (2B) Subsoil Investigation or Site Investigation - Part 4
Link NOC:Foundation Design Lecture 5 - (3A) Subsoil Investigation or Site Investigation - Part 5
Link NOC:Foundation Design Lecture 6 - (3B) Subsoil Investigation or Site Investigation - Part 6
Link NOC:Foundation Design Lecture 7 - (4A) Subsoil Investigation or Site Investigation - Part 7
Link NOC:Foundation Design Lecture 8 - (4B) Foundations
Link NOC:Foundation Design Lecture 9 - (5A) Bearing Capacity Of Shallow Foundations - Part 1
Link NOC:Foundation Design Lecture 10 - (5B) Bearing Capacity Of Shallow Foundations - Part 2
Link NOC:Foundation Design Lecture 11 - (6A) Bearing Capacity Of Shallow Foundations - Part 3
Link NOC:Foundation Design Lecture 12 - (6B) Bearing Capacity Of Shallow Foundations - Part 4
Link NOC:Foundation Design Lecture 13 - (7A) Bearing Capacity Of Shallow Foundations - Part 5
Link NOC:Foundation Design Lecture 14 - (7B) Bearing Capacity Of Shallow Foundations - Part 6
Link NOC:Foundation Design Lecture 15 - (8A) Settlement Analysis - Part 1
Link NOC:Foundation Design Lecture 16 - (8B) Settlement Analysis - Part 2
Link NOC:Foundation Design Lecture 17 - (9A) Settlement Analysis - Part 3
Link NOC:Foundation Design Lecture 18 - (9B) Stress distribution in soils - Part 1
Link NOC:Foundation Design Lecture 19 - (10A) Stress distribution in soils - Part 2
Link NOC:Foundation Design Lecture 20 - (10B) Stress distribution in soils - Part 3
Link NOC:Foundation Design Lecture 21 - (11A) Stress distribution in soils - Part 4
Link NOC:Foundation Design Lecture 22 - (11B) Stress distribution in soils - Part 5
Link NOC:Foundation Design Lecture 23 - (12A) Examples based on bearing capacity and settlement
Link NOC:Foundation Design Lecture 24 - (12B) Design of foundation - Part 1
Link NOC:Foundation Design Lecture 25 - (13A) Design of Foundation - Part 2
Link NOC:Foundation Design Lecture 26 - (13B) Design of Foundation - Part 3
Link NOC:Foundation Design Lecture 27 - (14A) Design of Foundation - Part 4
Link NOC:Foundation Design Lecture 28 - (14B) Design of Foundation - Part 5
Link NOC:Foundation Design Lecture 29 - (15A) Types of foundations (Combined Footing)
Link NOC:Foundation Design Lecture 30 - (15B) Design of Raft Foundation
Link NOC:Foundation Design Lecture 31 - (16A) Earth Pressure Theories - Part 1
Link NOC:Foundation Design Lecture 32 - (16B) Earth Pressure Theories - Part 2
Link NOC:Foundation Design Lecture 33 - (17A) Earth Pressure Theories - Part 3
Link NOC:Foundation Design Lecture 34 - (17B) Earth Pressure Theories - Part 4
Link NOC:Foundation Design Lecture 35 - (18A) Earth Pressure Theories - Part 5
Link NOC:Foundation Design Lecture 36 - (18B) Deep Foundation - Part 1
Link NOC:Foundation Design Lecture 37 - (18C) Deep Foundation - Part 2
Link NOC:Foundation Design Lecture 38 - (18D) Deep Foundation - Part 3
Link NOC:Foundation Design Lecture 39 - (20A) Deep Foundation - Part 4
Link NOC:Foundation Design Lecture 40 - (20B) Deep Foundation - Part 5
Link NOC:Photogeology In Terrain Evaluation Lecture 1 - Introduction to Remote Sensing - Photogeology
Link NOC:Photogeology In Terrain Evaluation Lecture 2 - Introduction to Remote Sensing - Photogeology
Link NOC:Photogeology In Terrain Evaluation Lecture 3 - Fundamental Principle in Remote Sensing
Link NOC:Photogeology In Terrain Evaluation Lecture 4 - Aerial Photography
Link NOC:Photogeology In Terrain Evaluation Lecture 5 - Stereo-photos and their Importance
Link NOC:Photogeology In Terrain Evaluation Lecture 6 - Photo-interpretation Techniques
Link NOC:Photogeology In Terrain Evaluation Lecture 7 - Photogrammetry and its Significance
Link NOC:Photogeology In Terrain Evaluation Lecture 8 - Sensors, Cameras and Panchromatic Data
Link NOC:Photogeology In Terrain Evaluation Lecture 9 - Stereoscopy and Methods
Link NOC:Photogeology In Terrain Evaluation Lecture 10 - Relief Displacement on Aerial Photographs
Link NOC:Photogeology In Terrain Evaluation Lecture 11 - Fluvial Processes and Landforms
Link NOC:Photogeology In Terrain Evaluation Lecture 12 - Geomorphology of River Channels
Link NOC:Photogeology In Terrain Evaluation Lecture 13 - Drainage Basins and their Features
Link NOC:Photogeology In Terrain Evaluation Lecture 14 - Morphometric Parameters of Fluvial Channels
Link NOC:Photogeology In Terrain Evaluation Lecture 15 - Drainage Patterns and their Morphology
Link NOC:Photogeology In Terrain Evaluation Lecture 16 - Determination of Flightline (Lab)
Link NOC:Photogeology In Terrain Evaluation Lecture 17 - Determination of Flightline (Lab)
Link NOC:Photogeology In Terrain Evaluation Lecture 18 - Exercise on Relief Displacement
Link NOC:Photogeology In Terrain Evaluation Lecture 19 - Exercise on Stereoscopic Parallax
Link NOC:Photogeology In Terrain Evaluation Lecture 20 - Exercise on Stereoscopic Parallax
Link NOC:Photogeology In Terrain Evaluation Lecture 21 - Generation of Digital Elevation Model and Anaglyph
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 1 - Introduction to Geological Structures, Photo interpretation and Terrain evaluation
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 2 - Photo interpretation/identification of Landforms associated with Folds - 1
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 3 - Photo interpretation/identification of Landforms associated with Folds - 2
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 4 - Identification of features related to ongoing Crustal Deformation and Mountain Building process
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 5 - Identification of Fault Topography
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 6 - Photogeology:Interpretations of Tectonic Landforms
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 7 - Photo Interpretations: Demarcation of Faults and related Landforms - 1
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 8 - Photo Interpretations
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 9 - Photo Interpretations
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 10 - Photo-Interpretations: Lithology and Geomorphic Mapping
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 11 - Photo Interpretations: Lithology of Sedimentary and Intrusive Igneous Rocks
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 12 - Photo Interpretations: Lithology of Metamorphic and Extrusive Igneous Rocks
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 13 - Photo Interpretations: Coastal and Fluvial Landforms - 1
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 14 - Photo Interpretations: Coastal and Fluvial Landforms - 2
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 15 - Photo Interpretations: Aeolian Landforms and their Surface Expressions
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 16 - Exercise on Identification of Geological Structures and related Landforms
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 17 - Exercise on Identification of Geomorphic Features related to Various Environments
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 18 - Exercise on Identification of Tectonic Features and Geomorphic Mapping using Satellite Data
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 19 - Exercise on Identification of Geological Structures and Geomorphic Landforms on Aerial/Satellite Photos
Link NOC:Photogeology In Terrain Evaluation - Part 2 Lecture 20 - Exercise on Morphometric Parameters and 3D observation of the Earth Surface Features
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 1 - Overview of the Course
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 2 - Introduction
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 3 - General Discussion on Construction Projects
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 4 - Time value of money
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 5 - Economic Decision Making - I
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 6 - Economic decision making - II
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 7 - Incremental Rate of Return (IROR)
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 8 - Benefit cost ratio
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 9 - Sensitivity analysis - Part 1
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 10 - Sensitivity analysis - Part 2
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 11 - Break-even analysis - Part 1
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 12 - Break-even analysis - Part 2
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 13 - Depreciation of construction equipment
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 14 - Effect of depreciation on cash flows
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 15 - Effect of depreciation and inflation on economic decision making
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 16 - Replacement analysis
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 17 - Risk analysis - Part 1
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 18 - Risk analysis - Part 2
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 19 - Risk analysis - Part 3
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 20 - Simulation - Part 1
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 21 - Simulation - Part 2
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 22 - Bidding - Part 1
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 23 - Bidding - Part 2
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 24 - Bidding - Part 3
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 25 - Bidding - Part 4
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 26 - Bidding - Part 5
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 27 - Bidding - Part 6
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 28 - Bidding - Part 7
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 29 - Introduction to accounting - Part 1
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 30 - Introduction to accounting - Part 2
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 31 - Introduction to accounting - Part 3
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 32 - Revenue recognition
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 33 - Construction Contract Status Reports
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 34 - Assets and Liabilities
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 35 - Accounting statements - case study
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 36 - Working capital
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 37 - Financing resources for working capital
Link NOC:Introduction to Accounting and Finance for Civil Engineers Lecture 38 - Ratio analysis
Link NOC:Natural Hazards - Part 1 Lecture 1 - Introduction to Natural Hazards
Link NOC:Natural Hazards - Part 1 Lecture 2 - Introduction to Natural Hazards (Types of Hazard)
Link NOC:Natural Hazards - Part 1 Lecture 3 - Introduction to Natural Hazards (Earth as a system)
Link NOC:Natural Hazards - Part 1 Lecture 4 - Introduction to Natural Hazards (Cyclones and Earthquakes - Part I)
Link NOC:Natural Hazards - Part 1 Lecture 5 - Introduction to Natural Hazards (Cyclones and Earthquakes - Part II)
Link NOC:Natural Hazards - Part 1 Lecture 6 - Introduction to Natural Hazards (Disaster Management)
Link NOC:Natural Hazards - Part 1 Lecture 7 - Introduction to Natural Hazards (Seismic Zonation of India and Landslide)
Link NOC:Natural Hazards - Part 1 Lecture 8 - Introduction to Natural Hazards (Flood and Tsunami)
Link NOC:Natural Hazards - Part 1 Lecture 9 - Introduction to Natural Hazards (Disaster Prediction and Warning)
Link NOC:Natural Hazards - Part 1 Lecture 10 - Introduction to Natural Hazards (Recent Natural Calamities in India and Worldwide)
Link NOC:Natural Hazards - Part 1 Lecture 11 - Plate tectonics and related hazards - Part I
Link NOC:Natural Hazards - Part 1 Lecture 12 - Plate tectonics and related hazards - Part II
Link NOC:Natural Hazards - Part 1 Lecture 13 - Plate tectonics and related hazards - Part III
Link NOC:Natural Hazards - Part 1 Lecture 14 - Active fault and Paleoseismology
Link NOC:Natural Hazards - Part 1 Lecture 15 - Case study on 2015 Gorkha Earthquake
Link NOC:Natural Hazards - Part 1 Lecture 16 - Earthquake and related hazard - Part I
Link NOC:Natural Hazards - Part 1 Lecture 17 - Earthquake and related hazard - Part II
Link NOC:Natural Hazards - Part 1 Lecture 18 - Earthquake and related hazard - Part III
Link NOC:Natural Hazards - Part 1 Lecture 19 - Ground Effects and Evaluation of Earthquake Hazards - Part I
Link NOC:Natural Hazards - Part 1 Lecture 20 - Ground Effects and Evaluation of Earthquake Hazards - Part II
Link NOC:Natural Hazards - Part 1 Lecture 21 - Ground Effects and Evaluation of Earthquake Hazards - Part III
Link NOC:Natural Hazards - Part 1 Lecture 22 - Liquefaction and Related Geological Features
Link NOC:Natural Hazards - Part 1 Lecture 23 - Motoring Seismic Activity - Part I
Link NOC:Natural Hazards - Part 1 Lecture 24 - Motoring Seismic Activity - Part II
Link NOC:Natural Hazards - Part 1 Lecture 25 - Volcano and Related Hazard - Part I
Link NOC:Natural Hazards - Part 1 Lecture 26 - Volcano and Related Hazard - Part II
Link NOC:Natural Hazards - Part 1 Lecture 27 - Introduction to Landslides
Link NOC:Natural Hazards - Part 1 Lecture 28 - Types of Landslide and Related Hazards
Link NOC:Natural Hazards - Part 1 Lecture 29 - Civil Engineering applications geological considerations in dams, tunnels - Part 2
Link NOC:Natural Hazards - Part 1 Lecture 30 - Civil Engineering applications geological considerations in dams, tunnels - Part 3 and Tsunami and related hazard - Part 1
Link NOC:Natural Hazards - Part 1 Lecture 31 - Tsunami and related hazard - Part 2
Link NOC:Natural Hazards - Part 1 Lecture 32 - Tsunami and related hazard - Part 3
Link NOC:Natural Hazards - Part 1 Lecture 33 - Landslide and subsidence - Part I
Link NOC:Natural Hazards - Part 1 Lecture 34 - Flood and Related Hazards - Part I
Link NOC:Natural Hazards - Part 1 Lecture 35 - Flood and Related Hazards - Part II
Link NOC:Natural Hazards - Part 1 Lecture 36 - Flood and Related Hazards - Part III
Link NOC:Natural Hazards - Part 1 Lecture 37 - Flood and Related Hazards - Part IV
Link NOC:Natural Hazards - Part 1 Lecture 38 - Flood and Related Hazards - Part V
Link NOC:Natural Hazards - Part 1 Lecture 39 - Introduction to Tsunami
Link NOC:Natural Hazards - Part 1 Lecture 40 - Tsunami and Related Hazards - Part I
Link NOC:Natural Hazards - Part 1 Lecture 41 - Tsunami and Related Hazards - Part II
Link NOC:Natural Hazards - Part 1 Lecture 42 - Tsunami and Related Hazards - Part III
Link NOC:Natural Hazards - Part 1 Lecture 43 - Tsunami Modelling
Link NOC:Structural Dynamics for Civil Engineers - SDOF Systems Lecture 1 - Introduction to Structural Dynamics
Link NOC:Structural Dynamics for Civil Engineers - SDOF Systems Lecture 2 - Modelling of Dynamic System
Link NOC:Structural Dynamics for Civil Engineers - SDOF Systems Lecture 3 - Undamped Free vibration
Link NOC:Structural Dynamics for Civil Engineers - SDOF Systems Lecture 4 - Damped Free Vibrations
Link NOC:Structural Dynamics for Civil Engineers - SDOF Systems Lecture 5 - Coulomb Damped Free Vibrations
Link NOC:Structural Dynamics for Civil Engineers - SDOF Systems Lecture 6 - Forced Vibrations - Part 1
Link NOC:Structural Dynamics for Civil Engineers - SDOF Systems Lecture 7 - Forced Vibrations - Part 2
Link NOC:Structural Dynamics for Civil Engineers - SDOF Systems Lecture 8 - Examples
Link NOC:Structural Dynamics for Civil Engineers - SDOF Systems Lecture 9 - Harmonic Vibration Examples
Link NOC:Structural Dynamics for Civil Engineers - SDOF Systems Lecture 10 - Vibrations under Periodic Forces
Link NOC:Structural Dynamics for Civil Engineers - SDOF Systems Lecture 11 - Energy and Damping
Link NOC:Structural Dynamics for Civil Engineers - SDOF Systems Lecture 12 - Response to Arbitrary excitations
Link NOC:Structural Dynamics for Civil Engineers - SDOF Systems Lecture 13 - Response to Pulse Excitations
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 1 - Introduction to Geomorphic processes- Landforms and Landscapes - Part I
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 2 - Introduction to Geomorphic Processes- Landforms and Landscapes - Part II
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 3 - Introduction to Geomorphic Processes- Landforms and Landscapes - Part III
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 4 - Earth Energy Budget - Part I
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 5 - Earth Energy Budget - Part II
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 6 - Earth and Environment
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 7 - Surface and Ground Water System and Management - Part I
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 8 - Surface and Ground Water System and Management - Part II
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 9 - Surface and Ground Water System and Management - Part III
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 10 - Interior of the Earth and Plate Tectonics - Part I
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 11 - Interior of the Earth and Plate Tectonics - Part II
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 12 - Interior of the Earth and Plate Tectonics - Part III
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 13 - Interior of the Earth and Plate Tectonics - Part IV
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 14 - Interior of the Earth and Plate Tectonics - Part V
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 15 - Fluvial Processes and Related Landforms - Part I
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 16 - Fluvial Processes and Related Landforms - Part II
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 17 - Fluvial Processes and Related Landforms - Part III
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 18 - Fluvial Processes and Related Landforms - Part IV
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 19 - Fluvial Processes and Related Landforms - Part V
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 20 - Fluvial Processes and Related Landforms - Part VI
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 21 - Fluvial Processes and Related Landforms - Part VII
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 22 - Fluvial Processes and Related Landforms - Part VIII
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 23 - Fluvial Processes and Related Landforms - Part IX
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 24 - Tectonic Geomorphology - Part I
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 25 - Tectonic Geomorphology - Part II
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 26 - Tectonic Geomorphology - Part III
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 27 - Tectonic Geomorphology - Part IV
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 28 - Tectonic Geomorphology - Part V
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 29 - Glacial Landforms - Part I
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 30 - Glacial Landforms - Part II
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 31 - Glacial Landforms - Part III
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 32 - Coastal Processes and Landforms - Part I
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 33 - Coastal Processes and Landforms - Part II
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 34 - Coastal Processes and Landforms - Part III
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 35 - Aeolian Processes and Landforms - Part I
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 36 - Aeolian Processes and Landforms - Part II
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 37 - Tectonic Geomorphology of Kachchh - Part I
Link NOC:Geomorphic Processes: Landforms and Landscapes Lecture 38 - Tectonic Geomorphology of Kachchh - Part II
Link NOC:Structural Geology Lecture 1 - Introduction - I
Link NOC:Structural Geology Lecture 2 - Introduction - II
Link NOC:Structural Geology Lecture 3 - Structural Elements and Measurements
Link NOC:Structural Geology Lecture 4 - How to measure strike-dip-pitch/rake-plunge
Link NOC:Structural Geology Lecture 5 - Stereographic Projection in Structural Geology
Link NOC:Structural Geology Lecture 6 - Concept of Strain and Deformation - Part I
Link NOC:Structural Geology Lecture 7 - Concept of Strain and Deformation - Part II
Link NOC:Structural Geology Lecture 8 - Strain Measurement
Link NOC:Structural Geology Lecture 9 - Stress - Part I
Link NOC:Structural Geology Lecture 10 - Stress - Part II
Link NOC:Structural Geology Lecture 11 - Basics of Rheology - Part I
Link NOC:Structural Geology Lecture 12 - Basics of Rheology - Part II
Link NOC:Structural Geology Lecture 13 - Basics of Rheology - Part III
Link NOC:Structural Geology Lecture 14 - Complex Rheology
Link NOC:Structural Geology Lecture 15 - Role of External Parameters
Link NOC:Structural Geology Lecture 16 - Crystal Defects and associated structures
Link NOC:Structural Geology Lecture 17 - Cataclastic Deformation
Link NOC:Structural Geology Lecture 18 - Intracrystalline Deformation
Link NOC:Structural Geology Lecture 19 - Diffusive Mass Transfer
Link NOC:Structural Geology Lecture 20 - Planar Fabrics (Foliation/ Cleavage/ Schistosity) - I
Link NOC:Structural Geology Lecture 21 - Planar Fabrics (Foliation/ Cleavage/ Schistosity) - II
Link NOC:Structural Geology Lecture 22 - Linear Fabrics (Lineation)
Link NOC:Structural Geology Lecture 23 - Folds and Folding: Basic Concepts
Link NOC:Structural Geology Lecture 24 - Folds and Folding: Classifications
Link NOC:Structural Geology Lecture 25 - Folds and Folding: Dip Isogons and Mechanisms
Link NOC:Structural Geology Lecture 26 - Folds and Folding: Superposed Folding
Link NOC:Structural Geology Lecture 27 - Porphyroblasts
Link NOC:Structural Geology Lecture 28 - Boudinage and Pinch-and-Swell Structures - I
Link NOC:Structural Geology Lecture 29 - Boudinage and Pinch-and-Swell Structures - II
Link NOC:Structural Geology Lecture 30 - Stereonet Problem I: True dip from two apparent dips
Link NOC:Structural Geology Lecture 31 - Stereonet Problem II: True dip from strike and one apparent dip
Link NOC:Structural Geology Lecture 32 - Stereonet Problem III: Pole to the Plane
Link NOC:Structural Geology Lecture 33 - Stereonet Problem IV: Fold axis and Axial plane
Link NOC:Structural Geology Lecture 34 - Stereonet Problem V: Fold geometry from pole data of two limbs
Link NOC:Structural Geology Lecture 35 - Fractures and Joints - I
Link NOC:Structural Geology Lecture 36 - Fractures and Joints - II
Link NOC:Structural Geology Lecture 37 - Faults and Faulting - I
Link NOC:Structural Geology Lecture 38 - Stereonet Problem VI - Fold geometry from interlimb angle and fold axes
Link NOC:Structural Geology Lecture 39 - Stereonet Problem VII - Fold geometry from pitch of the limbs on another plane
Link NOC:Structural Geology Lecture 40 - Faults and Faulting - II
Link NOC:Structural Geology Lecture 41 - Ductile Shear Zones - I
Link NOC:Structural Geology Lecture 42 - Ductile Shear Zones - II
Link NOC:Structural Geology Lecture 43 - Basic of Litho-Structural Mapping
Link NOC:Structural Geology Lecture 44 - Paleostress analysis
Link NOC:Structural Geology Lecture 45 - Graphical Problem
Link NOC:Structural Geology Lecture 46 - Three point problem
Link NOC:Structural Geology Lecture 47 - Construction of Topographic Profile
Link NOC:Structural Geology Lecture 48 - Construction of Geological Cross-section
Link Advanced Foundation Engineering Lecture 1 - Introduction
Link Advanced Foundation Engineering Lecture 2 - Soil Exploration
Link Advanced Foundation Engineering Lecture 3 - Soil Exploration - Penetration Tests
Link Advanced Foundation Engineering Lecture 4 - Soil Exploration - Geophysical Exploration
Link Advanced Foundation Engineering Lecture 5 - Shallow Foundation - Introduction
Link Advanced Foundation Engineering Lecture 6 - Shallow Foundation : Bearing Capacity - I
Link Advanced Foundation Engineering Lecture 7 - Shallow Foundation : Bearing Capacity - II
Link Advanced Foundation Engineering Lecture 8 - Shallow Foundation : Bearing Capacity - III
Link Advanced Foundation Engineering Lecture 9 - Shallow Foundation : Bearing Capacity - IV
Link Advanced Foundation Engineering Lecture 10 - Shallow Foundation : Bearing Capacity - V
Link Advanced Foundation Engineering Lecture 11 - Shallow Foundation - Settlement Calculation - I
Link Advanced Foundation Engineering Lecture 12 - Shallow Foundation - Settlement Calculation - II
Link Advanced Foundation Engineering Lecture 13 - Shallow Foundation - Settlement Calculation - III
Link Advanced Foundation Engineering Lecture 14 - Design of Shallow Foundation
Link Advanced Foundation Engineering Lecture 15 - Design of Raft Foundation
Link Advanced Foundation Engineering Lecture 16 - Deep Foundation - Introduction
Link Advanced Foundation Engineering Lecture 17 - Pile Foundation - Load Carrying Capacity - I
Link Advanced Foundation Engineering Lecture 18 - Pile Foundation - Load Carrying Capacity - II
Link Advanced Foundation Engineering Lecture 19 - Pile Foundation - Load Carrying Capacity - III and Settlement Calculation
Link Advanced Foundation Engineering Lecture 20 - Tension and Lateral Loaded Piles
Link Advanced Foundation Engineering Lecture 21 - Well Foundation
Link Advanced Foundation Engineering Lecture 22 - Well Foundation (Continued...)
Link Advanced Foundation Engineering Lecture 23 - Design of Retaining Wall
Link Advanced Foundation Engineering Lecture 24 - Design of Retaining Wall (Continued...)
Link Advanced Foundation Engineering Lecture 25 - Design of Sheet Piles
Link Advanced Foundation Engineering Lecture 26 - Design of Sheet Piles (Continued...)
Link Advanced Foundation Engineering Lecture 27 - Design of Sheet Piles (Continued...)
Link Advanced Foundation Engineering Lecture 28 - Design of Sheet Piles (Continued...)
Link Advanced Foundation Engineering Lecture 29 - Reinforced Earth
Link Advanced Foundation Engineering Lecture 30 - Reinforced Retaining Wall
Link Advanced Foundation Engineering Lecture 31 - Seismic Design of Retaining Wall
Link Advanced Foundation Engineering Lecture 32 - Seismic Design of Retaining Walls (Continued...)
Link Advanced Foundation Engineering Lecture 33 - Soil - Foundation Interaction
Link Advanced Foundation Engineering Lecture 34 - Soil - Foundation Interaction (Continued...)
Link Advanced Foundation Engineering Lecture 35 - Soil - Foundation Interaction (Continued...)
Link Advanced Foundation Engineering Lecture 36 - Soil - Foundation Interaction (Continued...)
Link Advanced Foundation Engineering Lecture 37 - Soil - Foundation Interaction (Continued...)
Link Advanced Foundation Engineering Lecture 38 - Soil - Foundation Interaction (Continued...)
Link Advanced Foundation Engineering Lecture 39 - Soil - Foundation Interaction (Continued...)
Link Advanced Foundation Engineering Lecture 40 - Soil - Foundation Interaction (Continued...)
Link Ground Water Hydrology Lecture 1 - Introduction : Ground Water (GW) Utilization and Historical Background, GW in hydrologic Cycle
Link Ground Water Hydrology Lecture 2 - Ground Water in & % Hydrologic Cycle (Continued...), Ground Water Budget, Ground Water Level Fluctuations and Environmental Influence
Link Ground Water Hydrology Lecture 3 - Ground water Level Fluctuations and Environmental Influence (Continued...) Literature/Data/Internet Resources
Link Ground Water Hydrology Lecture 4 - Ground water Level Fluctuations and Environmental Influence (Continued...) Literature/Data/Internet Resources
Link Ground Water Hydrology Lecture 5 - Occurrence and Movement of Ground Water : Origin and Age of Ground Water, Rock Properties Affecting Ground Water, Ground Water Column
Link Ground Water Hydrology Lecture 6 - Zones of Aeration and Saturation; Aquifers and their characteristics/classification
Link Ground Water Hydrology Lecture 7 - Aquifer Classification (Continued...), Ground water Basins and Springs; Dorcy's Law; Permeability
Link Ground Water Hydrology Lecture 8 - Determination pf Permeability :Heterogeneity and Anisotropy
Link Ground Water Hydrology Lecture 9 - Ground Water (GW) flowrates and flow directions; general flow equations through porous media
Link Ground Water Hydrology Lecture 10 - General Flow Equations Through Porous Media (Continued...), Dupuit's Assumptions
Link Ground Water Hydrology Lecture 11 - 1-D Unconfined Ground water Flows; Steady Flow into Wells
Link Ground Water Hydrology Lecture 12 - Steady Flow into Wells (Continued...); Unsteady Flow into Wells
Link Ground Water Hydrology Lecture 13 - Unsteady Flow into Wells (Continued...)
Link Ground Water Hydrology Lecture 14 - Unsteady Radial Flow in Confined and Unconfined Aquifers
Link Ground Water Hydrology Lecture 15 - Unsteady Radial Flow in Leaky Aquifers (Continued...); Well Flow Near Aquifer Boundaries
Link Ground Water Hydrology Lecture 16 - Well Flow for Special Conditions; Partially Penetrating Wells; Horizontal Wells and Collector Wells;Multiple Well Systems
Link Ground Water Hydrology Lecture 17 - Well Completion;Well Development; Well Protection; Well Rehabilitation; Well testing for Yields
Link Ground Water Hydrology Lecture 18 - Well Protection/Rehabilitation/Testing for yield (Continued...); Artificial Ground Water Recharge : Concept and Methods
Link Ground Water Hydrology Lecture 19 - Concept and methods of Artificial Ground Water Recharge (Continued...); Recharge Mounds and Induced Recharge
Link Ground Water Hydrology Lecture 20 - Induced Recharge (Continued...); Wastewater recharge for reuse; Water spreading
Link Ground Water Hydrology Lecture 21 - Pollution and Quality Analysis of Ground Water : Sources of Pollution of GW-Municipal, Industrial,Agricultural and Miscellaneous
Link Ground Water Hydrology Lecture 22 - Ground Water Pollution from Industrial, Agricultural and Miscellaneous Sources (Continued...)
Link Ground Water Hydrology Lecture 23 - Ground Water Pollution from Miscellaneous Sources (Continued...), Attenuation and Underground Distribution of Pollutants
Link Ground Water Hydrology Lecture 24 - Potential Evaluation of Ground water Pollution; Physical/Chemical/Biological analysis of Ground Water quality; Criteria and measures of Ground water quality
Link Ground Water Hydrology Lecture 25 - Ground water salinity and samples ;Graphical representations of ground water quality
Link Ground Water Hydrology Lecture 26 - Graphical representations of ground water quality (Continued...), Surface/Sub-Surface Investigation Of Ground Water:Geological/geophysical exploration;Remote sensing/electrical resistivity methods
Link Ground Water Hydrology Lecture 27 - Surface Investigation of ground water (Continued...):Electrical resistivity seismic refraction/gravity/magnetic methods
Link Ground Water Hydrology Lecture 28 - Seismic refraction/gravity/magnetic methods (Continued...);Sub-surface investigation of ground water: Geographical/resistivity methods
Link Ground Water Hydrology Lecture 29 - Sub-surface investigation of ground water (Continued...): Geographical/resistivity/spontaneous potential/radiation of methods of logging
Link Ground Water Hydrology Lecture 30 - Radiation method of logging (Continued...); Temperature/caliper/fluid conductivity/fluid velocity/miscellaneous logging methods
Link Ground Water Hydrology Lecture 31 - Saline Water Intrusion in Aquifers:Occurence, Features affecting aquifers,Bodon - Ghyben - Hergberg Principle
Link Ground Water Hydrology Lecture 32 - Saline Water Intrusion in Aquifers : Bodon - Ghyben - Hergberg principle (Continued...), Analytical Solution of Saline Water Intrusion in Coastal Aquifer
Link Ground Water Hydrology Lecture 33 - Saline Water Intrusion in Aquifers : Analytical Solution of Saline Water Intrusion in Coastal Aquifer (Continued...), Density dependent salt water intrusion model
Link Ground Water Hydrology Lecture 34 - Saline Water Intrusion in Aquifers : Geochemical Investigations, Control of salt water intrusion, Practical Modeling of salt water intrusion
Link Ground Water Hydrology Lecture 35 - Modeling and Management of Ground Water : Ground Water Simulation Models, Ground Water Management Model : Confined Aquifer
Link Ground Water Hydrology Lecture 36 - Modeling and Management of Ground Water : Ground Water Management Model : Confined and Unconfined Aquifer, Linked Simulation - Optimization, Meta Model Based Approach
Link Ground Water Hydrology Lecture 37 - Modeling and Management of Ground Water : Contaminant Source Identification , Monitoring Network Design
Link Ground Water Hydrology Lecture 38 - Modeling and Management of Ground Water : Aquifer Yield and Ground Water Availability, Effects of Ground Water Development, Regional Scale Development of Ground Water
Link Ground Water Hydrology Lecture 39 - Modeling and Management of Ground Water : Conjunctive Surface - Subsurface Modeling of Overland Flow including flow through Vadose zone
Link Ground Water Hydrology Lecture 40 - Modeling and Management of Ground Water : Ground Water - Surface Water Interaction
Link Numerical Methods in Civil Engineering Lecture 1 - Introduction to Numerical Methods
Link Numerical Methods in Civil Engineering Lecture 2 - Error Analysis
Link Numerical Methods in Civil Engineering Lecture 3 - Introduction to Linear Systems - I
Link Numerical Methods in Civil Engineering Lecture 4 - Linear Systems - II
Link Numerical Methods in Civil Engineering Lecture 5 - Linear Systems - III
Link Numerical Methods in Civil Engineering Lecture 6 - Linear Systems - Error Bounds
Link Numerical Methods in Civil Engineering Lecture 7 - Error Bounds and Iterative Methods for Solving Linear Systems
Link Numerical Methods in Civil Engineering Lecture 8 - Iterative Methods for Solving Linear Systems - I
Link Numerical Methods in Civil Engineering Lecture 9 - Iterative Methods - II
Link Numerical Methods in Civil Engineering Lecture 10 - Iterative Methods - III
Link Numerical Methods in Civil Engineering Lecture 11 - Iterative Methods for Eigen Value Extraction
Link Numerical Methods in Civil Engineering Lecture 12 - Solving Nonlinear Equations - I
Link Numerical Methods in Civil Engineering Lecture 13 - Solving Nonlinear Equations - II
Link Numerical Methods in Civil Engineering Lecture 14 - Solving Multi Dimensional Nonlinear Equations - I
Link Numerical Methods in Civil Engineering Lecture 15 - Solving Multi Dimensional Nonlinear Equations - II
Link Numerical Methods in Civil Engineering Lecture 16 - ARC Length and Gradient Based Methods
Link Numerical Methods in Civil Engineering Lecture 17 - Gradient Based Methods
Link Numerical Methods in Civil Engineering Lecture 18 - Conjugate Gradient Method - I
Link Numerical Methods in Civil Engineering Lecture 19 - Conjugate Gradient Method - II
Link Numerical Methods in Civil Engineering Lecture 20 - Nonlinear Conjugate Gradient and Introduction to PDEs
Link Numerical Methods in Civil Engineering Lecture 21 - Eigenfunction Solutions for the Wave Equation
Link Numerical Methods in Civil Engineering Lecture 22 - Analytical Methods for Solving the Wave Equation
Link Numerical Methods in Civil Engineering Lecture 23 - Analytical Methods for Hyperbolic and Parabolic PDEs
Link Numerical Methods in Civil Engineering Lecture 24 - Analytical Methods for Parabolic and Elliptic PDEs
Link Numerical Methods in Civil Engineering Lecture 25 - Analytical Methods for Elliptic PDE\'s
Link Numerical Methods in Civil Engineering Lecture 26 - Series Solutions for Elliptic PDE\'s and Introduction to Differential Operators
Link Numerical Methods in Civil Engineering Lecture 27 - Differential Operators - I
Link Numerical Methods in Civil Engineering Lecture 28 - Differential Operators - II
Link Numerical Methods in Civil Engineering Lecture 29 - Differential Operators - III
Link Numerical Methods in Civil Engineering Lecture 30 - Interpolation
Link Numerical Methods in Civil Engineering Lecture 31 - Polynomial Fitting
Link Numerical Methods in Civil Engineering Lecture 32 - Orthogonal Polynomials - I
Link Numerical Methods in Civil Engineering Lecture 33 - Orthogonal Polynomials - II
Link Numerical Methods in Civil Engineering Lecture 34 - Orthogonal Polynomials - III
Link Numerical Methods in Civil Engineering Lecture 35 - Spline Functions
Link Numerical Methods in Civil Engineering Lecture 36 - Orthogonal Basis Functions for Solving PDE\'s - I
Link Numerical Methods in Civil Engineering Lecture 37 - Orthogonal Basis Functions for Solving PDE\'s - II
Link Numerical Methods in Civil Engineering Lecture 38 - Integral Equations - I
Link Numerical Methods in Civil Engineering Lecture 39 - Integral Equations - II
Link Numerical Methods in Civil Engineering Lecture 40 - Integral Equations - III
Link Probability Methods in Civil Engineering Lecture 1 - Introduction - Role of Probability in Civil Engineering
Link Probability Methods in Civil Engineering Lecture 2 - Random Events and Probability Concept
Link Probability Methods in Civil Engineering Lecture 3 - Set Theory and Set Operations
Link Probability Methods in Civil Engineering Lecture 4 - Axioms of Probability
Link Probability Methods in Civil Engineering Lecture 5 - Probability of Events
Link Probability Methods in Civil Engineering Lecture 6 - Concept and Defination of Random Variables
Link Probability Methods in Civil Engineering Lecture 7 - Probability Distribution of Random Variables
Link Probability Methods in Civil Engineering Lecture 8 - CDF and Descriptors of Random Variables
Link Probability Methods in Civil Engineering Lecture 9 - Further Descriptors of Random Variables
Link Probability Methods in Civil Engineering Lecture 10 - Discrete Probability Distribution
Link Probability Methods in Civil Engineering Lecture 11 - Probability Distribution of Continuous RVs
Link Probability Methods in Civil Engineering Lecture 12 - Probability Distribution of Continuous RVs (Continued...1)
Link Probability Methods in Civil Engineering Lecture 13 - Probability Distribution of Continuous RVs (Continued...2)
Link Probability Methods in Civil Engineering Lecture 14 - Functions of Single Random Variables
Link Probability Methods in Civil Engineering Lecture 15 - Functions of Random Variables - Different Methods
Link Probability Methods in Civil Engineering Lecture 16 - Functions of Random Variables - Different Methods (Continued...)
Link Probability Methods in Civil Engineering Lecture 17 - Expectation and Moments of Functions of RV
Link Probability Methods in Civil Engineering Lecture 18 - Expectation and Moments of Functions of RV (Continued...)
Link Probability Methods in Civil Engineering Lecture 19 - Joint Probability Distribution
Link Probability Methods in Civil Engineering Lecture 20 - Marginal Probability Distribution
Link Probability Methods in Civil Engineering Lecture 21 - Conditional Probability Distribution
Link Probability Methods in Civil Engineering Lecture 22 - Conditional Probability Distribution (Continued...)
Link Probability Methods in Civil Engineering Lecture 23 - Properties of Multiple Random Variables
Link Probability Methods in Civil Engineering Lecture 24 - Properties of Multiple Random Variables (Continued...)
Link Probability Methods in Civil Engineering Lecture 25 - MGF of Multivariate RVs and Multivariate Probability Distributions
Link Probability Methods in Civil Engineering Lecture 26 - Multivariate Distribution and Functions of Multiple Random Variables
Link Probability Methods in Civil Engineering Lecture 27 - Functions of Multiple Random Variables (Continued...1)
Link Probability Methods in Civil Engineering Lecture 28 - Functions of Multiple Random Variables (Continued...2)
Link Probability Methods in Civil Engineering Lecture 29 - Introduction to Copulas
Link Probability Methods in Civil Engineering Lecture 30 - Introduction to Copulas (Continued...)
Link Probability Methods in Civil Engineering Lecture 31 - Probability Models using Normal Distribution
Link Probability Methods in Civil Engineering Lecture 32 - Probability Models using Log Normal and Exponential Distribution
Link Probability Methods in Civil Engineering Lecture 33 - Probability Models using Gamma and Extreme Value Distribution
Link Probability Methods in Civil Engineering Lecture 34 - Probability Models using Discrete Probability Distributions
Link Probability Methods in Civil Engineering Lecture 35 - Sampling Distribution and Parameter Estimation
Link Probability Methods in Civil Engineering Lecture 36 - Sampling Distribution and Parameter Estimation (Continued...)
Link Probability Methods in Civil Engineering Lecture 37 - Hypothesis Testing
Link Probability Methods in Civil Engineering Lecture 38 - Goodness - of - fit tests
Link Probability Methods in Civil Engineering Lecture 39 - Regression Analyses and Correlation
Link Probability Methods in Civil Engineering Lecture 40 - Regression Analyses and Correlation (Continued...)
Link Design of Reinforced Concrete Structures Lecture 1 - Introduction - I
Link Design of Reinforced Concrete Structures Lecture 2 - Materials
Link Design of Reinforced Concrete Structures Lecture 3 - Different Methods of Design of Reinforced Concrete Structures
Link Design of Reinforced Concrete Structures Lecture 4 - Working Stress Method
Link Design of Reinforced Concrete Structures Lecture 5 - Working Stress Method (Continued...)
Link Design of Reinforced Concrete Structures Lecture 6 - Limit State of Collapse Flexure - I
Link Design of Reinforced Concrete Structures Lecture 7 - Limit State of Collapse Flexure - II
Link Design of Reinforced Concrete Structures Lecture 8 - Design of Doubly Reinforced Beam Flexure - I
Link Design of Reinforced Concrete Structures Lecture 9 - Design of Doubly Reinforced Beam Flexure - II
Link Design of Reinforced Concrete Structures Lecture 10 - Design of Doubly Reinforced Beam Flexure
Link Design of Reinforced Concrete Structures Lecture 11 - Limit State of Collapse Shear
Link Design of Reinforced Concrete Structures Lecture 12 - Design for Shear
Link Design of Reinforced Concrete Structures Lecture 13 - Design for Shear (Continued...)
Link Design of Reinforced Concrete Structures Lecture 14 - Design of Slabs - Part I
Link Design of Reinforced Concrete Structures Lecture 15 - Design of Slabs - Part II
Link Design of Reinforced Concrete Structures Lecture 16 - Design of Slabs - Part III
Link Design of Reinforced Concrete Structures Lecture 17 - Design of Slabs - Part IV
Link Design of Reinforced Concrete Structures Lecture 18 - Design of Slabs - Part V
Link Design of Reinforced Concrete Structures Lecture 19 - Design of Columns - Part I
Link Design of Reinforced Concrete Structures Lecture 20 - Design of Columns - Part II
Link Design of Reinforced Concrete Structures Lecture 21 - Design of Columns - Part III
Link Design of Reinforced Concrete Structures Lecture 22 - Design of Columns - Part IV
Link Design of Reinforced Concrete Structures Lecture 23 - Design of Columns - Part V
Link Design of Reinforced Concrete Structures Lecture 24 - Design of Footings - Part I
Link Design of Reinforced Concrete Structures Lecture 25 - Design of Footings - Part II
Link Design of Reinforced Concrete Structures Lecture 26 - Design of Staircases
Link Design of Reinforced Concrete Structures Lecture 27 - Design for Torsion - Part I
Link Design of Reinforced Concrete Structures Lecture 28 - Design for Torsion - Part II
Link Design of Reinforced Concrete Structures Lecture 29 - Design of RC Slender Columns
Link Design of Reinforced Concrete Structures Lecture 30 - Deflection of RC Beams
Link Engineering Geology Lecture 1 - Introduction to Engineering Geology
Link Engineering Geology Lecture 2 - Geologic Structures
Link Engineering Geology Lecture 3 - Geologic Maps and Stratigraphic Sections
Link Engineering Geology Lecture 4 - Remote Sensing in Engineering Geology
Link Engineering Geology Lecture 5 - Physical Properties of Minerals
Link Engineering Geology Lecture 6 - Crystallography and Optical Properties
Link Engineering Geology Lecture 7 - Chemical Characteristics of Minerals
Link Engineering Geology Lecture 8 - Origin And Types of Rocks
Link Engineering Geology Lecture 9 - Origin And Types of Soils
Link Engineering Geology Lecture 10 - Igneous Rocks
Link Engineering Geology Lecture 11 - Sedimentary Rocks
Link Engineering Geology Lecture 12 - Metamorphic Rocks
Link Engineering Geology Lecture 13 - Weathering
Link Engineering Geology Lecture 14 - Sediment Transport and Deposition
Link Engineering Geology Lecture 15 - Introduction to Subsurface Exploration
Link Engineering Geology Lecture 16 - Introduction to Subsurface Exploration
Link Engineering Geology Lecture 17 - Sampling and Non - Intrusive Methods
Link Engineering Geology Lecture 18 - Index Properties and Classification of Soils
Link Engineering Geology Lecture 19 - Index Properties of Rock and Rock Mass
Link Engineering Geology Lecture 20 - Stress-Strain Behavior of Soil and Rock - I
Link Engineering Geology Lecture 21 - Stress-Strain Behavior of Soil and Rock - II
Link Engineering Geology Lecture 22 - In-situ State of Stress
Link Engineering Geology Lecture 23 - Geologic Considerations in Tunneling
Link Engineering Geology Lecture 24 - Geologic Considerations in Dam Construction
Link Engineering Geology Lecture 25 - Groundwater - Preliminaries
Link Engineering Geology Lecture 26 - Groundwater Flow - I
Link Engineering Geology Lecture 27 - Groundwater Flow - II
Link Engineering Geology Lecture 28 - Groundwater Related Engineering Issues
Link Engineering Geology Lecture 29 - Groundwater Over Utilization
Link Engineering Geology Lecture 30 - Plate Tectonics
Link Engineering Geology Lecture 31 - Plate Tectonics - 2 and Earthquake
Link Engineering Geology Lecture 32 - Earthquake Hazard Assessment
Link Engineering Geology Lecture 33 - Geologic Hazards - Seismicity and Volcanism
Link Engineering Geology Lecture 34 - Geologic Hazards - Shoreline Processes
Link Engineering Geology Lecture 35 - Geologic Hazards - Shoreline Processes
Link Engineering Geology Lecture 36 - Geologic Hazards - Landslide Hazards - Zoning
Link Engineering Geology Lecture 37 - Geologic Hazards Subsidence , Collapsible Soils
Link Engineering Geology Lecture 38 - Preparation of Geologic Sections
Link Engineering Geology Lecture 39 - Index testing of soil & rocks
Link Engineering Geology Lecture 40 - Identification of minerals and rock samples
Link Introduction to Transportation Engineering Lecture 1 - Transportation Engineering
Link Introduction to Transportation Engineering Lecture 2 - Elements of Concern and Components
Link Introduction to Transportation Engineering Lecture 3 - Traffic Stream Characteristics
Link Introduction to Transportation Engineering Lecture 4 - Traffic Studies : Part - I
Link Introduction to Transportation Engineering Lecture 5 - Traffic Studies : Part - II
Link Introduction to Transportation Engineering Lecture 6 - Highway Capacity and Level of Service
Link Introduction to Transportation Engineering Lecture 7 - Intersection Control and Signalization
Link Introduction to Transportation Engineering Lecture 8 - Functional Classification, Design Elements
Link Introduction to Transportation Engineering Lecture 9 - Cross Section Elements
Link Introduction to Transportation Engineering Lecture 10 - Stopping Sight Distance And Decision Sight
Link Introduction to Transportation Engineering Lecture 11 - Overtaking, Intermediate and Headlight Sight
Link Introduction to Transportation Engineering Lecture 12 - Intersection Sight Distance - I
Link Introduction to Transportation Engineering Lecture 13 - Intersection Sight Distance - II
Link Introduction to Transportation Engineering Lecture 14 - Horizontal Alignment - I
Link Introduction to Transportation Engineering Lecture 15 - Horizontal Alignment - II
Link Introduction to Transportation Engineering Lecture 16 - Horizontal Alignment - III
Link Introduction to Transportation Engineering Lecture 17 - Horizontal Alignment - IV
Link Introduction to Transportation Engineering Lecture 18 - Horizontal Alignment - V
Link Introduction to Transportation Engineering Lecture 19 - Horizontal Alignment - VI
Link Introduction to Transportation Engineering Lecture 20 - Vertical Alignment - I
Link Introduction to Transportation Engineering Lecture 21 - Vertical Alignment - II
Link Introduction to Transportation Engineering Lecture 22 - Vertical Alignment - III
Link Introduction to Transportation Engineering Lecture 23 - Highway Alignment
Link Introduction to Transportation Engineering Lecture 24 - Principles of Pavement Design
Link Introduction to Transportation Engineering Lecture 25 - Traffic Loading - I
Link Introduction to Transportation Engineering Lecture 26 - Traffic Loading - II
Link Introduction to Transportation Engineering Lecture 27 - Pavement Materials - I
Link Introduction to Transportation Engineering Lecture 28 - Pavement Materials - II
Link Introduction to Transportation Engineering Lecture 29 - Pavement Materials - III
Link Introduction to Transportation Engineering Lecture 30 - Pavement Materials - IV
Link Introduction to Transportation Engineering Lecture 31 - Pavement Materials - V
Link Introduction to Transportation Engineering Lecture 32 - Design of Bituminous Mixes - I
Link Introduction to Transportation Engineering Lecture 33 - Design of Bituminous Mixes - II
Link Introduction to Transportation Engineering Lecture 34 - Analysis of Flexible Pavements
Link Introduction to Transportation Engineering Lecture 35 - Analysis of Concrete Pavements
Link Introduction to Transportation Engineering Lecture 36 - Flexible Pavement Design Indian Roads Congress
Link Introduction to Transportation Engineering Lecture 37 - Flexible Pavement Design AASHTO Method - 1993
Link Introduction to Transportation Engineering Lecture 38 - Concrete Pavement Design Indian Congress Method
Link Introduction to Transportation Engineering Lecture 39 - Concrete Pavement Design PCA and AASHTO Methods
Link Introduction to Transportation Engineering Lecture 40 - Pavement Evaluation and Rehabilitation
Link Introduction to Transportation Engineering Lecture 41 - Overlay Design - IRC Method
Link Strength of Materials Lecture 1 - Introduction - Strength of Materials
Link Strength of Materials Lecture 2 - Analysis of Stress - I
Link Strength of Materials Lecture 3 - Analysis of Stress - II
Link Strength of Materials Lecture 4 - Analysis of Stress - III
Link Strength of Materials Lecture 5 - Analysis of Stress - IV
Link Strength of Materials Lecture 6 - Analysis of Stress - V
Link Strength of Materials Lecture 7 - Analysis of Strain - I
Link Strength of Materials Lecture 8 - Analysis of Strain - II
Link Strength of Materials Lecture 9 - Analysis of Strain - III
Link Strength of Materials Lecture 10 - Analysis of Strain - IV
Link Strength of Materials Lecture 11 - Analysis of Strain - V
Link Strength of Materials Lecture 12 - Analysis of Strain - VI
Link Strength of Materials Lecture 13 - Analysis of Strain - VII
Link Strength of Materials Lecture 14 - Analysis of Strain - VIII
Link Strength of Materials Lecture 15 - Application of Stress/Strain
Link Strength of Materials Lecture 16 - Application of Stress / Strain
Link Strength of Materials Lecture 17 - Application of Stress / Strain
Link Strength of Materials Lecture 18 - Torsion - I
Link Strength of Materials Lecture 19 - Torsion - II
Link Strength of Materials Lecture 20 - Torsion - III
Link Strength of Materials Lecture 21 - Torsion - IV
Link Strength of Materials Lecture 22 - Bending of Beams - I
Link Strength of Materials Lecture 23 - Bending of Beams - II
Link Strength of Materials Lecture 24 - Bending of Beams - III
Link Strength of Materials Lecture 25 - Bending of Beams - IV
Link Strength of Materials Lecture 26 - Stresses in Beams - I
Link Strength of Materials Lecture 27 - Stresses in Beams - II
Link Strength of Materials Lecture 28 - Stresses in Beams - III
Link Strength of Materials Lecture 29 - Stresses in Beams - IV
Link Strength of Materials Lecture 30 - Deflection of Beams - I
Link Strength of Materials Lecture 31 - Deflection of Beams - II
Link Strength of Materials Lecture 32 - Deflection of Beams - III
Link Strength of Materials Lecture 33 - Deflection of Beams - IV
Link Strength of Materials Lecture 34 - Combined Stresses - I
Link Strength of Materials Lecture 35 - Combined Stresses - II
Link Strength of Materials Lecture 36 - Combined Stresses - III
Link Strength of Materials Lecture 37 - Stability of Columns - I
Link Strength of Materials Lecture 38 - Stability of Columns - II
Link Strength of Materials Lecture 39 - Springs - I
Link Strength of Materials Lecture 40 - Springs - II
Link NOC:Probability Methods in Civil Engineering Lecture 1 - Random Events and Probability Concept
Link NOC:Probability Methods in Civil Engineering Lecture 2 - Set Theory and Set Operations
Link NOC:Probability Methods in Civil Engineering Lecture 3 - Axioms of Probability
Link NOC:Probability Methods in Civil Engineering Lecture 4 - Probability of Events
Link NOC:Probability Methods in Civil Engineering Lecture 5 - Concept and definition of Random variables
Link NOC:Probability Methods in Civil Engineering Lecture 6 - Probability distribution of random variables
Link NOC:Probability Methods in Civil Engineering Lecture 7 - CDF and Descriptors of Random Variables
Link NOC:Probability Methods in Civil Engineering Lecture 8 - Further Descriptors of Random Variables
Link NOC:Probability Methods in Civil Engineering Lecture 9 - Discrete Probability Distribution
Link NOC:Probability Methods in Civil Engineering Lecture 10 - Probability Distribution of Continuous RVs
Link NOC:Probability Methods in Civil Engineering Lecture 11 - Probability Distribution of Continuous RVs (Continued.....1)
Link NOC:Probability Methods in Civil Engineering Lecture 12 - Probability Distribution of Continuous RVs (Continued.....2)
Link NOC:Probability Methods in Civil Engineering Lecture 13 - Functions of Single Random Variables
Link NOC:Probability Methods in Civil Engineering Lecture 14 - Functions of Different Variables - Different Methods
Link NOC:Probability Methods in Civil Engineering Lecture 15 - Functions of Random Variables : Different Methods (Continued...)
Link NOC:Probability Methods in Civil Engineering Lecture 16 - Probability Models using Normal Distribution
Link NOC:Probability Methods in Civil Engineering Lecture 17 - Probability Models using Log Normal and Exponential Distribution
Link NOC:Probability Methods in Civil Engineering Lecture 18 - Probability Models using Gamma and Extreme Value Distribution
Link NOC:Probability Methods in Civil Engineering Lecture 19 - Probability Models using Discrete Probability Distributions
Link NOC:Probability Methods in Civil Engineering Lecture 20 - Sampling Distribution and Parameter Estimation
Link NOC:Probability Methods in Civil Engineering Lecture 21 - Sampling Distribution and Parameter Estimation (Continued...)
Link NOC:Probability Methods in Civil Engineering Lecture 22 - Hypothesis Testing
Link NOC:Probability Methods in Civil Engineering Lecture 23 - Goodness of Fit-Tests
Link NOC:Probability Methods in Civil Engineering Lecture 24 - Regression Analyses and Correlation
Link NOC:Probability Methods in Civil Engineering Lecture 25 - Regression Analyses and Correlation (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 1 - Visual Semantics for Visual Communication
Link NOC:Visual Semiotics for Visual Communication Lecture 2 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 3 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 4 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 5 - Introduction to Millimeter-Wave Technology (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 6 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 7 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 8 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 9 - Introduction to Millimeter-Wave Technology
Link NOC:Visual Semiotics for Visual Communication Lecture 10 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 11 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 12 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 13 - Conceptual Model and Affordances
Link NOC:Visual Semiotics for Visual Communication Lecture 14 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 15 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 16 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 17 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 18 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 19 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Visual Semiotics for Visual Communication Lecture 20 - Visual Semantics for Visual Communication (Continued...)
Link NOC:Life Cycle Assessment Lecture 1 - Life Cycle Assessment - Introduction
Link NOC:Life Cycle Assessment Lecture 2 - Life Cycle Assessment - Introduction
Link NOC:Life Cycle Assessment Lecture 3 - LCA and Sustainability
Link NOC:Life Cycle Assessment Lecture 4 - LCA and Environmental Systems
Link NOC:Life Cycle Assessment Lecture 5 - LCA and Water, Food and Energy
Link NOC:Life Cycle Assessment Lecture 6 - RISK Assement and LCA Frameworks
Link NOC:Life Cycle Assessment Lecture 7 - RISK Assessment - Toxicology
Link NOC:Life Cycle Assessment Lecture 8 - RISK Assessment Methods
Link NOC:Life Cycle Assessment Lecture 9 - RISK Assessment Methods (Continued...)
Link NOC:Life Cycle Assessment Lecture 10 - Environmental Risk Assessment
Link NOC:Life Cycle Assessment Lecture 11 - Environmental Data Collection and LCA Methodology
Link NOC:Life Cycle Assessment Lecture 12 - Environmental Data Collection and LCA Methodology (Continued...)
Link NOC:Life Cycle Assessment Lecture 13 - Environmental Data Collection and LCA Methodology (Continued...)
Link NOC:Life Cycle Assessment Lecture 14 - Environmental Data Collection and LCA Methodology (Continued...)
Link NOC:Life Cycle Assessment Lecture 15 - LCA Methodology
Link NOC:Life Cycle Assessment Lecture 16 - LCA - A Detailed Methodology
Link NOC:Life Cycle Assessment Lecture 17 - LCA - A Detailed Methodology (Continued...)
Link NOC:Life Cycle Assessment Lecture 18 - LCA Benefits and Drawbacks
Link NOC:Life Cycle Assessment Lecture 19 - History of LCA
Link NOC:Life Cycle Assessment Lecture 20 - The ISO Framework
Link NOC:Life Cycle Assessment Lecture 21 - Unit Process, Data and LCI Databases
Link NOC:Life Cycle Assessment Lecture 22 - Unit Process and System Boundary (Continued...)
Link NOC:Life Cycle Assessment Lecture 23 - Inventory Data and LCIA
Link NOC:Life Cycle Assessment Lecture 24 - LCIA
Link NOC:Life Cycle Assessment Lecture 25 - LCA Interpretation
Link NOC:Life Cycle Assessment Lecture 26 - ISO 14040
Link NOC:Life Cycle Assessment Lecture 27 - Key Points of a Good LCA and Example LCA
Link NOC:Life Cycle Assessment Lecture 28 - Chemical Release in Environment
Link NOC:Life Cycle Assessment Lecture 29 - Green Sustainable Materials
Link NOC:Life Cycle Assessment Lecture 30 - Green Sustainable Materials (Continued...)
Link NOC:Life Cycle Assessment Lecture 31 - Design for Sustainability
Link NOC:Life Cycle Assessment Lecture 32 - Design for Sustainability (Continued...)
Link NOC:Life Cycle Assessment Lecture 33 - Design for Sustainability (Continued...)
Link NOC:Life Cycle Assessment Lecture 34 - Sustainable Engineering Design Principles
Link NOC:Life Cycle Assessment Lecture 35 - Sustainable Engineering Design Principles (Continued...)
Link NOC:Life Cycle Assessment Lecture 36 - Summary and Case Studies
Link NOC:Life Cycle Assessment Lecture 37 - Summary and Case Studies (Continued...)
Link NOC:Life Cycle Assessment Lecture 38 - Summary and Case Studies (Continued...)
Link NOC:Life Cycle Assessment Lecture 39 - Tutorial I
Link NOC:Life Cycle Assessment Lecture 40 - Tutorial II
Link NOC:Integrated Waste Management for a Smart City Lecture 1 - Introduction
Link NOC:Integrated Waste Management for a Smart City Lecture 2 - Introduction (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 3 - Introduction (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 4 - Introduction (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 5 - Introduction (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 6 - Introduction (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 7 - Municipal Solid Waste Chracteristics and Quantities
Link NOC:Integrated Waste Management for a Smart City Lecture 8 - Municipal Solid Waste Chracteristics and Quantities (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 9 - Municipal Solid Waste Chracteristics and Quantities (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 10 - Municipal Solid Waste Chracteristics and Quantities (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 11 - MSW Characteristics - Thermal Properties and Chemical Composition
Link NOC:Integrated Waste Management for a Smart City Lecture 12 - Chemical Analysis Procedure
Link NOC:Integrated Waste Management for a Smart City Lecture 13 - Chemical Analysis Procedure (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 14 - Working with Data and Statistical Methods
Link NOC:Integrated Waste Management for a Smart City Lecture 15 - Waste Management Rules 2016
Link NOC:Integrated Waste Management for a Smart City Lecture 16 - Waste Management Rules 2016 (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 17 - Swachh Bharat Mission and Smart Cities Program Overview
Link NOC:Integrated Waste Management for a Smart City Lecture 18 - Storage of Solid Waste
Link NOC:Integrated Waste Management for a Smart City Lecture 19 - MSW Collection System
Link NOC:Integrated Waste Management for a Smart City Lecture 20 - MSW Collection System (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 21 - Waste Collection and Transport
Link NOC:Integrated Waste Management for a Smart City Lecture 22 - Waste Collection and Transport (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 23 - Waste Collection and Transport (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 24 - Waste Collection and Transport (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 25 - Waste Collection and Transport (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 26 - Collection System
Link NOC:Integrated Waste Management for a Smart City Lecture 27 - Collection System (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 28 - Review of MSW Management in Proposed Smart Cities
Link NOC:Integrated Waste Management for a Smart City Lecture 29 - Biological Treatment of Waste
Link NOC:Integrated Waste Management for a Smart City Lecture 30 - Biological Treatment of Waste (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 31 - Biological Treatment of Waste (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 32 - Biological Treatment of Waste (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 33 - Biological Treatment of Waste (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 34 - Thermal Treatment
Link NOC:Integrated Waste Management for a Smart City Lecture 35 - Thermal Treatment (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 36 - Thermal Treatment (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 37 - Thermal Treatment (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 38 - Thermal Treatment (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 39 - Thermal Treatment (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 40 - Landfill Disposal
Link NOC:Integrated Waste Management for a Smart City Lecture 41 - Landfill Disposal (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 42 - Landfill Disposal (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 43 - Landfill Disposal (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 44 - Landfill Disposal (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 45 - Landfill Disposal (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 46 - Landfill Disposal (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 47 - Landfill Disposal (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 48 - Construction and Demolition Waste Management
Link NOC:Integrated Waste Management for a Smart City Lecture 49 - Construction and Demolition Waste Management (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 50 - Construction and Demolition Waste Management (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 51 - Construction and Demolition Waste Management (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 52 - Construction and Demolition Waste Management (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 53 - E-Waste Management
Link NOC:Integrated Waste Management for a Smart City Lecture 54 - E-Waste Management (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 55 - E-Waste Management (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 56 - E-Waste Management (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 57 - E-Waste Management (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 58 - E-Waste Management (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 59 - E-Waste Management (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 60 - E-Waste Management (Continued...)
Link NOC:Integrated Waste Management for a Smart City Lecture 61 - Tutorial - I
Link NOC:Integrated Waste Management for a Smart City Lecture 62 - Tutorial - II
Link NOC:Computational Hydraulics Lecture 1 - Introduction to Computational Hydraulics
Link NOC:Computational Hydraulics Lecture 2 - Problem Definition and Governing Equations (GE)
Link NOC:Computational Hydraulics Lecture 3 - Classification of Problems based on Initial Condition (IC) and/or Boundary Conditions (BC)
Link NOC:Computational Hydraulics Lecture 4 - Classification of Differential Equations
Link NOC:Computational Hydraulics Lecture 5 - Numerical Methods : Overview
Link NOC:Computational Hydraulics Lecture 6 - Finite Difference Approximation
Link NOC:Computational Hydraulics Lecture 7 - Ordinary Differential Equation : IVP
Link NOC:Computational Hydraulics Lecture 8 - Ordinary Differential Equation : BVP
Link NOC:Computational Hydraulics Lecture 9 - Partial Differential Equation : BVP
Link NOC:Computational Hydraulics Lecture 10 - Partial Differential Equation : IBVP
Link NOC:Computational Hydraulics Lecture 11 - Partial Differential Equation : Numerical Stability of IBVP
Link NOC:Computational Hydraulics Lecture 12 - Partial Differential Equation : Numerical Stability of One Dimensional PDE
Link NOC:Computational Hydraulics Lecture 13 - Finite Volume Method - Overview
Link NOC:Computational Hydraulics Lecture 14 - Finite Volume Method - BVP
Link NOC:Computational Hydraulics Lecture 15 - Finite Volume Method - IBVP
Link NOC:Computational Hydraulics Lecture 16 - Finite Volume Method - Conservation Law
Link NOC:Computational Hydraulics Lecture 17 - Upwind Approach
Link NOC:Computational Hydraulics Lecture 18 - Godunov Approach
Link NOC:Computational Hydraulics Lecture 19
Link NOC:Computational Hydraulics Lecture 20
Link NOC:Computational Hydraulics Lecture 21 - Mesh-Tree Method : Polynomial Interpolation Method
Link NOC:Computational Hydraulics Lecture 22 - Mesh-Free Method : Moving Least Squares Method
Link NOC:Computational Hydraulics Lecture 23 - Mesh-Free Method : Space-Time Moving Least Squares Method
Link NOC:Computational Hydraulics Lecture 24 - Numerical Method : Matrix Structure and Scilab
Link NOC:Computational Hydraulics Lecture 25 - Algebraic Equation : Gauss Elimination Method
Link NOC:Computational Hydraulics Lecture 26 - Algebraic Equation : LU Decomposition Method
Link NOC:Computational Hydraulics Lecture 27 - Algebraic Equation : Tri Diagonal Matrix Method
Link NOC:Computational Hydraulics Lecture 28 - Algebraic Equation : Jacobis Method
Link NOC:Computational Hydraulics Lecture 29 - Algebraic Equation : Gauss - Seidel Method
Link NOC:Computational Hydraulics Lecture 30 - Algebraic Equation : Newton Raphson Method
Link NOC:Computational Hydraulics Lecture 31 - One-Dimensional Flow
Link NOC:Computational Hydraulics Lecture 32 - Steady Two-Dimensional Flow
Link NOC:Computational Hydraulics Lecture 33 - Unsteady Two-Dimensional Flow using Finite Difference Method
Link NOC:Computational Hydraulics Lecture 34
Link NOC:Computational Hydraulics Lecture 35
Link NOC:Computational Hydraulics Lecture 36
Link NOC:Computational Hydraulics Lecture 37
Link NOC:Computational Hydraulics Lecture 38
Link NOC:Computational Hydraulics Lecture 39
Link NOC:Computational Hydraulics Lecture 40 - Steady Channel Flow : Channel Network without reverse Flow
Link NOC:Computational Hydraulics Lecture 41 - Steady Channel Flow : Channel Network without reverse Flow (Continued...)
Link NOC:Computational Hydraulics Lecture 42 - Steady Channel Flow : Channel Network with reverse Flow
Link NOC:Computational Hydraulics Lecture 43 - Steady Channel Flow : Channel Network with reverse Flow (Continued...)
Link NOC:Computational Hydraulics Lecture 44
Link NOC:Computational Hydraulics Lecture 45
Link NOC:Computational Hydraulics Lecture 46
Link NOC:Computational Hydraulics Lecture 47
Link NOC:Computational Hydraulics Lecture 48
Link NOC:Computational Hydraulics Lecture 49 - Unsteady Flow in Pipes
Link NOC:Computational Hydraulics Lecture 50 - Surface Water and Ground Water Interaction
Link NOC:Computational Hydraulics Lecture 51 - Course Summary
Link NOC:Design of Steel Structures Lecture 1 - Introduction to Design of Steel Structures (Limit State Method)
Link NOC:Design of Steel Structures Lecture 2 - Steel as a Structural Material
Link NOC:Design of Steel Structures Lecture 3 - Limit State Design
Link NOC:Design of Steel Structures Lecture 4 - Introduction to Connections
Link NOC:Design of Steel Structures Lecture 5 - Introduction to Bolt Connections
Link NOC:Design of Steel Structures Lecture 6 - Design of Ordinary Black Bolts
Link NOC:Design of Steel Structures Lecture 7 - Worked out Examples on Design of Ordinary Black Bolts
Link NOC:Design of Steel Structures Lecture 8 - Design of High Strength Friction Grip Bolts
Link NOC:Design of Steel Structures Lecture 9 - Weld connection
Link NOC:Design of Steel Structures Lecture 10 - Design of Fillet Welds
Link NOC:Design of Steel Structures Lecture 11 - Design of Butt Welds
Link NOC:Design of Steel Structures Lecture 12 - Design of Plug and Slot Weld
Link NOC:Design of Steel Structures Lecture 13 - Eccentric Connection (Load Lying in Plane of Bolted Joint)
Link NOC:Design of Steel Structures Lecture 14 - Design of Eccentric Connection (Load Lying in Plane of Bolted Joint)
Link NOC:Design of Steel Structures Lecture 15 - Eccentric Connection (Load Lying in Plane of Welded Joint)
Link NOC:Design of Steel Structures Lecture 16 - Eccentric Connection (Load Lying Perpendicular to Plane of Bolted Joint)
Link NOC:Design of Steel Structures Lecture 17 - Design of Eccentric Connection (Load Lying Perpendicular to Plane of Bolted Joint)
Link NOC:Design of Steel Structures Lecture 18 - Eccentric Connection (Load Lying Perpendicular to Plane of Welded Joint)
Link NOC:Design of Steel Structures Lecture 19 - Tension Members and Net Area
Link NOC:Design of Steel Structures Lecture 20 - Calculation of Net Area in Tension Members
Link NOC:Design of Steel Structures Lecture 21 - Net area, Staggered bolt, Chain bolt, Staggered pitch, Deduction of area
Link NOC:Design of Steel Structures Lecture 22 - Strength Calculation of Tension Members
Link NOC:Design of Steel Structures Lecture 23 - Strength of Tension Members with Weld Connection
Link NOC:Design of Steel Structures Lecture 24 - Steps for Design of Tension Members
Link NOC:Design of Steel Structures Lecture 25 - Design Calculation for Tension Members
Link NOC:Design of Steel Structures Lecture 26 - Design of Gusset Plate
Link NOC:Design of Steel Structures Lecture 27 - Lug Angles
Link NOC:Design of Steel Structures Lecture 28 - Splices in Tension Members
Link NOC:Design of Steel Structures Lecture 29 - Compression Members
Link NOC:Design of Steel Structures Lecture 30 - Design Strength of Compression Members
Link NOC:Design of Steel Structures Lecture 31 - Compressive Strength
Link NOC:Design of Steel Structures Lecture 32 - Compressive Strength of Angle Struts
Link NOC:Design of Steel Structures Lecture 33 - Compressive Strength of Double Angles
Link NOC:Design of Steel Structures Lecture 34 - Design of Compression Members
Link NOC:Design of Steel Structures Lecture 35 - Design of Builtup Compression Members
Link NOC:Design of Steel Structures Lecture 36 - Lacing Systems
Link NOC:Design of Steel Structures Lecture 37 - Design of Lacing Systems
Link NOC:Design of Steel Structures Lecture 38 - Connection Design of Lacing Systems
Link NOC:Design of Steel Structures Lecture 39 - Design of Double Lacing System
Link NOC:Design of Steel Structures Lecture 40 - Batten Plates
Link NOC:Design of Steel Structures Lecture 41 - Design of Batten Plates using Bolt Connection
Link NOC:Design of Steel Structures Lecture 42 - Design of Batten Plates using Weld Connection
Link NOC:Design of Steel Structures Lecture 43 - Design of Column Splices
Link NOC:Design of Steel Structures Lecture 44 - Design of Column Splices due to Shear
Link NOC:Design of Steel Structures Lecture 45 - Introduction to Flexural Members: Beams
Link NOC:Design of Steel Structures Lecture 46 - Failure Modes of Flexural Members
Link NOC:Design of Steel Structures Lecture 47 - Laterally Supported Beams
Link NOC:Design of Steel Structures Lecture 48 - Design of Laterally Supported Beams
Link NOC:Design of Steel Structures Lecture 49 - Laterally Supported Beams with High Shear
Link NOC:Design of Steel Structures Lecture 50 - Laterally Unsupported Beams
Link NOC:Design of Steel Structures Lecture 51 - Strength Calculation of Laterally Unsupported Beams
Link NOC:Design of Steel Structures Lecture 52
Link NOC:Design of Steel Structures Lecture 53
Link NOC:Design of Steel Structures Lecture 54
Link NOC:Design of Steel Structures Lecture 55
Link NOC:Design of Steel Structures Lecture 56
Link NOC:Design of Steel Structures Lecture 57
Link NOC:Design of Steel Structures Lecture 58 - Worked out Example for Gantry Girder
Link NOC:Design of Steel Structures Lecture 59 - Slab Base
Link NOC:Design of Steel Structures Lecture 60 - Design of Slab Base
Link NOC:Design of Steel Structures Lecture 61 - Eccentrically Loaded Base Plate
Link NOC:Design of Steel Structures Lecture 62 - Gusset Base
Link NOC:Design of Steel Structures Lecture 63 - Design of Gusset Base
Link NOC:Reinforced Concrete Road Bridges Lecture 1 - Introdudction
Link NOC:Reinforced Concrete Road Bridges Lecture 2 - Classification of Bridges
Link NOC:Reinforced Concrete Road Bridges Lecture 3 - General Features of Design
Link NOC:Reinforced Concrete Road Bridges Lecture 4 - IRC Loading
Link NOC:Reinforced Concrete Road Bridges Lecture 5 - Design Codes
Link NOC:Reinforced Concrete Road Bridges Lecture 6 - Working Stress Method
Link NOC:Reinforced Concrete Road Bridges Lecture 7 - Limit State Method of Design as per IS456:2000
Link NOC:Reinforced Concrete Road Bridges Lecture 8 - Limit State Method of Design as per IRC 112:2011
Link NOC:Reinforced Concrete Road Bridges Lecture 9 - Design of Slab Bridges - Part I
Link NOC:Reinforced Concrete Road Bridges Lecture 10 - Design of Slab Bridges - Part II
Link NOC:Reinforced Concrete Road Bridges Lecture 11 - Design of Slab Bridges - Part III
Link NOC:Reinforced Concrete Road Bridges Lecture 12 - Design of Slab Bridges - Part IV
Link NOC:Reinforced Concrete Road Bridges Lecture 13 - Design of Slab Bridges - Part V
Link NOC:Reinforced Concrete Road Bridges Lecture 14 - Design of Slab Bridges - Part VI
Link NOC:Reinforced Concrete Road Bridges Lecture 15 - Abutment
Link NOC:Reinforced Concrete Road Bridges Lecture 16 - Design of RCC T Beam Bridge - Part I
Link NOC:Reinforced Concrete Road Bridges Lecture 17 - Design of RCC T Beam Bridge - Part II
Link NOC:Reinforced Concrete Road Bridges Lecture 18 - Design of RCC T Beam Bridge - Part III
Link NOC:Reinforced Concrete Road Bridges Lecture 19 - Design of RCC T Beam Bridge - Part IV
Link NOC:Reinforced Concrete Road Bridges Lecture 20 - Summary and Closure
Link NOC:Structural Analysis - I Lecture 1 - Introduction
Link NOC:Structural Analysis - I Lecture 2 - Idealization of Structures, Threats and Responses
Link NOC:Structural Analysis - I Lecture 3 - Static Equilibrium
Link NOC:Structural Analysis - I Lecture 4 - Determinate and Indeterminate Structures
Link NOC:Structural Analysis - I Lecture 5 - Review of Bending Moment and Shear Force Diagram of Beam
Link NOC:Structural Analysis - I Lecture 6 - Tutorial - I
Link NOC:Structural Analysis - I Lecture 7 - Analysis of Statically Determinate Structures: Truss
Link NOC:Structural Analysis - I Lecture 8 - Analysis of Truss: Method of Joints
Link NOC:Structural Analysis - I Lecture 9 - Analysis of Truss: Method of Joints (Continued...)
Link NOC:Structural Analysis - I Lecture 10 - Analysis of Truss: Method of Sections
Link NOC:Structural Analysis - I Lecture 11 - Analysis of Truss: Method of Sections (Continued...)
Link NOC:Structural Analysis - I Lecture 12 - Analysis of Statically Determinate Structures: Method of Virtual Work
Link NOC:Structural Analysis - I Lecture 13 - Analysis of Statically Determinate Structures: Method of Virtual Work (Continued...)
Link NOC:Structural Analysis - I Lecture 14 - Analysis of Statically Determinate Structures: Method of Virtual Work (Continued...)
Link NOC:Structural Analysis - I Lecture 15 - Analysis of Statically Determinate Structures: Method of Virtual Work (Continued...)
Link NOC:Structural Analysis - I Lecture 16 - Analysis of Statically Determinate Structures: Method of Virtual Work (Continued...)
Link NOC:Structural Analysis - I Lecture 17 - Deflection of Beams and Frames
Link NOC:Structural Analysis - I Lecture 18 - Deflection of Beams and Frames (Continued...)
Link NOC:Structural Analysis - I Lecture 19 - Deflection of Beams and Frames (Continued...)
Link NOC:Structural Analysis - I Lecture 20 - Deflection of Beams and Frames (Continued...)
Link NOC:Structural Analysis - I Lecture 21 - Deflection of Beams and Frames (Continued...)
Link NOC:Structural Analysis - I Lecture 22 - Deflection of Beams and Frames (Continued...)
Link NOC:Structural Analysis - I Lecture 23 - Deflection of Beams and Frames (Continued...)
Link NOC:Structural Analysis - I Lecture 24 - Deflection of Beams and Frames (Continued...)
Link NOC:Structural Analysis - I Lecture 25 - Deflection of Beams and Frames (Continued...)
Link NOC:Structural Analysis - I Lecture 26 - Deflection of Beams and Frames (Continued...)
Link NOC:Structural Analysis - I Lecture 27 - Deflection of Beams and Frames (Continued...)
Link NOC:Structural Analysis - I Lecture 28 - Influence Line Diagram and moving Loads
Link NOC:Structural Analysis - I Lecture 29 - Influence Line Diagram and moving Loads (Continued...)
Link NOC:Structural Analysis - I Lecture 30 - Influence Line Diagram and moving Loads (Continued...)
Link NOC:Structural Analysis - I Lecture 31 - Influence Line Diagram and moving Loads (Continued...)
Link NOC:Structural Analysis - I Lecture 32 - Influence Line Diagram and moving Loads (Continued...)
Link NOC:Structural Analysis - I Lecture 33 - Analysis of Statically Indeterminate Structures
Link NOC:Structural Analysis - I Lecture 34 - Analysis of Statically Indeterminate Structures (Continued...)
Link NOC:Structural Analysis - I Lecture 35 - Analysis of Statically Indeterminate Structures (Continued...)
Link NOC:Structural Analysis - I Lecture 36 - Analysis of Statically Indeterminate Structures (Continued...)
Link NOC:Structural Analysis - I Lecture 37 - Analysis of Statically Indeterminate Structures (Continued...)
Link NOC:Structural Analysis - I Lecture 38 - Analysis of Statically Indeterminate Structures: Method of Consistent Deformations
Link NOC:Structural Analysis - I Lecture 39 - Analysis of Statically Indeterminate Structures: Method of Consistent Deformations (Continued...)
Link NOC:Structural Analysis - I Lecture 40 - Analysis of Statically Indeterminate Structures: Method of Consistent Deformations (Continued...)
Link NOC:Structural Analysis - I Lecture 41 - Analysis of Statically Indeterminate Structures: Method of Consistent Deformations (Continued...)
Link NOC:Structural Analysis - I Lecture 42 - Analysis of Statically Indeterminate Structures by Force Method
Link NOC:Structural Analysis - I Lecture 43 - Analysis of Statically Indeterminate Structures by Force Method (Continued...)
Link NOC:Structural Analysis - I Lecture 44 - Analysis of Statically Indeterminate Structures by Force Method (Continued...)
Link NOC:Structural Analysis - I Lecture 45 - Analysis of Statically Indeterminate Structures by Force Method (Continued...)
Link NOC:Structural Analysis - I Lecture 46 - Analysis of Statically Indeterminate Structures by Force Method (Continued...)
Link NOC:Structural Analysis - I Lecture 47 - Analysis of Indeterminate Structures by Displacement Methods
Link NOC:Structural Analysis - I Lecture 48 - Analysis of Indeterminate Structures by Displacement Methods (Continued...)
Link NOC:Structural Analysis - I Lecture 49 - Analysis of Indeterminate Structures by Displacement Methods (Continued...)
Link NOC:Structural Analysis - I Lecture 50 - Analysis of Indeterminate Structures by Displacement Methods (Continued...)
Link NOC:Structural Analysis - I Lecture 51 - Analysis of Indeterminate Structures by Displacement Methods (Continued...)
Link NOC:Structural Analysis - I Lecture 52 - Analysis of Indeterminate Structures by Displacement Methods (Continued...)
Link NOC:Structural Analysis - I Lecture 53 - Analysis of Indeterminate Structures by Displacement Methods (Continued...)
Link NOC:Structural Analysis - I Lecture 54 - Analysis of Indeterminate Structures by Displacement Methods (Continued...)
Link NOC:Structural Analysis - I Lecture 55 - Analysis of Indeterminate Structures by Displacement Methods (Continued...)
Link NOC:Structural Analysis - I Lecture 56 - Analysis of Indeterminate Structures by Displacement Methods (Continued...)
Link NOC:Structural Analysis - I Lecture 57 - Direct Stiffness Method
Link NOC:Structural Analysis - I Lecture 58 - Direct Stiffness Method (Continued...)
Link NOC:Structural Analysis - I Lecture 59 - Direct Stiffness Method (Continued...)
Link NOC:Structural Analysis - I Lecture 60 - Direct Stiffness Method (Continued...)
Link NOC:Structural Analysis - I Lecture 61 - Direct Stiffness Method (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 1 - Rock cycle
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 2 - Soil Formation
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 3 - Soil Classification
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 4 - Soil Classification (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 5 - Soil Classification (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 6 - Three-phase diagram
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 7 - Three-phase diagram (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 8 - Permeability and seepage
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 9 - Permeability and Seepage (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 10 - Permeability and seepage (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 11 - Permeability And Seepage
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 12 - Permeability And Seepage (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 13 - Permeability And Seepage (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 14 - Compaction Of Soils
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 15 - Compaction Of Soils (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 16 - Deep Dynamic Compaction
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 17 - Permeability/Compaction (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 18 - Effective Stress
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 19 - Effective Stress (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 20 - Effective Stress Aplication
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 21 - Vertical Stress Distribution
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 22 - Boussinesq Point Load Formula
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 23 - Vertical Stress For Distributed Load
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 24 - Vertical Stress
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 25 - Vertical Stress (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 26 - Vertical Stress (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 27 - Shear Strength
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 28 - Shear Strength (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 29 - Shear Strength (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 30 - Shear Strength (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 31 - Shear Strength (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 32 - Shear Strength (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 33 - Shear Strength (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 34 - Shear Strength (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 35 - Shear Strength (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 36 - Shear Strength (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 37 - Compressibility Of Soils
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 38 - Compressibility Of Soils (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 39 - Compressibility Of Soils (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 40 - Compressibility Of Soils (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 41 - Compressibility Of Soils (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 42 - Compressibility Of Soils (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 43 - Compressibility Of Soils (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 44 - Compressibility And Settlement Of Soil
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 45 - Compressibility And Settlement (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 46 - Compressibility And Secondary Compression
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 47 - Earth Pressure
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 48 - Earth Pressure (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 49 - Earth Pressure (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 50 - Earth Pressure (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 51 - Earth Pressure (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 52 - Earth Pressure (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 53 - Earth Pressure (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 54 - Earth Pressure (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 55 - Stability Of Slopes
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 56 - Stability Of Slopes (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 57 - Stability Of Slopes (Continued...)
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 58 - Slope Stability
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 59 - Slope Stabilty
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 60 - Concluding Remarks
Link NOC:Soil Mechanics, Geotechnical Engineering-I Lecture 61 - Live Session
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 1 - E-Waste Overview
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 2 - E-waste Overview
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 3 - E-waste Overview
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 4 - E-waste Management Overview
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 5 - E-waste Management Overview
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 6 - Environmental and Public Health Issues
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 7 - Environmental and Public Health Issues (Continued...)
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 8 - E-waste Health Risk Assessment
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 9 - Environmental and Public Health Issues (Continued...)
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 10 - Environmental and Public Health Issues (Continued...)
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 11 - Recovery of Materials from E-Waste
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 12 - Metal Recovery Process
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 13 - Recovery of Metals from Electronic Waste
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 14 - Recovery of Metals from Electronic Waste
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 15 - Recovery of Metals from Electronic Waste
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 16 - E-waste Management
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 17 - E-waste Management
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 18 - E-waste Management
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 19 - Electronics and LCA
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 20 - LCA applications for Electronics
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 21 - Tutorial-I
Link NOC:Electronic Waste Management - Issues and Challenges Lecture 22 - Tutorial-II
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 1 - Introduction
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 2 - Mineral Deposits in Space and Time
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 3 - Mineral Deposits in Space and Time (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 4 - Mineral Deposits in Time, Attributes of Mineral Deposits and Theories of Mineral Deposits
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 5 - Classification of Mineral Deposits
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 6 - Magmatic Processes
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 7 - Magmatic Processes
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 8 - Magmatic Processes
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 9 - Magmatic Processes
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 10 - Sedimentary Processes and Resultant Mineral Deposits
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 11 - Sedimentary Processes and Resultant Deposits
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 12 - Sedimentary Processes and Resultant Deposits
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 13 - Sedimentary Processes and Resultant Deposits
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 14 - Sedimentary Processes and Resultant Deposits
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 15 - Morphology of Ore Deposits
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 16 - Hydrothermal Processes
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 17 - Hydrothermal Processe (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 18 - Hydrothermal Processes
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 19 - Hydrothermal Processes
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 20 - Hydrothermal Processes
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 21 - Hydrothermal Processes (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 22 - Hydrothermal Processes (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 23 - Hydrothermal Processes (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 24 - Hydrothermal Systems
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 25 - Hydrothermal Systems (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 26 - Hydrothermal Processes and Resultant Deposits
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 27 - Hydrothermal Processes and Resultant Deposits (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 28 - Hydrothermal Processes and Resultant Mineralization
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 29 - Indian Mineral Deposits
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 30 - Indian Mineral Deposits (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 31 - Indian Mineral Deposits (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 32 - Mineral Exploration
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 33 - Mineral Exploration (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 34 - Mineral Exploration (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 35 - Mineral Exploration (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 36 - Mineral Exploration (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 37 - Mineral Exploration (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 38 - Mineral Exploration (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 39 - Mineral Exploration (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 40 - Mineral Exploration (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 41 - Mineral Exploration (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 42 - Mineral Exploration (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 43 - Mineral Exploration (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 44 - Mineral Exploration (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 45 - Mineral Inventory Estimation
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 46 - Mineral Inventory Estimation (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 47 - Mineral Inventory Estimation (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 48 - Mineral Inventory Estimation (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 49 - Geostatistical Method of Mineral Inventory Estimation
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 50 - Geostatistical Method of Mineral Inventory Estimation (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 51 - Mineral Economics
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 52 - Mineral Economics (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 53 - Mineral Economics (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 54 - Mineral Economics (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 55 - Mineral Economics (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 56 - Environmental Impact of Mineral Resource Exploitation
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 57 - Environmental Impact of Mineral Resource Exploitation (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 58 - Environmental Impact of Mineral Resource Exploitation (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 59 - Environmental Impact of Mineral Resource Exploitation (Continued...)
Link NOC:Mineral Resources - Geology, Exploration, Economics and Environment Lecture 60 - Environmental Impact of Mineral Resource Exploitation (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 1 - Importance of Mineral Processing
Link NOC:Introduction to Mineral Processing Lecture 2 - Importance to Mineral Processing (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 3 - Importance of Mineral Processing (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 4 - Importance of Mineral Processing (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 5 - Importance of Mineral Processing (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 6 - Particle Characterization
Link NOC:Introduction to Mineral Processing Lecture 7 - Particle Characterization (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 8 - Particle Characterization (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 9 - Particle Characterization (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 10 - Particle Characterization (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 11 - Particle Characterization (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 12 - Sampling
Link NOC:Introduction to Mineral Processing Lecture 13 - Sampling (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 14 - Plant Sampling
Link NOC:Introduction to Mineral Processing Lecture 15 - Plant Sampling (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 16 - Comminution
Link NOC:Introduction to Mineral Processing Lecture 17 - Comminution (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 18 - Comminution Fundamentals
Link NOC:Introduction to Mineral Processing Lecture 19 - Comminution Fundamentals (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 20 - Crushers
Link NOC:Introduction to Mineral Processing Lecture 21 - Crushers (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 22 - Crushers (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 23 - Grinding
Link NOC:Introduction to Mineral Processing Lecture 24 - Grinding (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 25 - Grinding (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 26 - Grinding (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 27 - Grinding (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 28 - Industrial Screening
Link NOC:Introduction to Mineral Processing Lecture 29 - Industrial Screening (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 30 - Industrial Screening (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 31 - Industrial Screening (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 32 - Industrial Screening (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 33 - Industrial Screening (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 34 - Industrial Screening (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 35 - Movement of Solids in Fluids
Link NOC:Introduction to Mineral Processing Lecture 36 - Movement of Solids in Fluids (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 37 - Movement of Solids in Fluids (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 38 - Classifier
Link NOC:Introduction to Mineral Processing Lecture 39 - Classifier (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 40 - Hydrocyclone
Link NOC:Introduction to Mineral Processing Lecture 41 - Hydrocyclone (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 42 - Hydrocyclone (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 43 - Hydrocyclone (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 44 - Hydrocyclone (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 45 - Mass Balancing
Link NOC:Introduction to Mineral Processing Lecture 46 - Mass Balancing (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 47 - Closed-Circuit Grinding
Link NOC:Introduction to Mineral Processing Lecture 48 - Gravity Concentration
Link NOC:Introduction to Mineral Processing Lecture 49 - Gravity Concentration (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 50 - Gravity Concentration (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 51 - Gravity Concentration (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 52 - Gravity Concentration (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 53 - Flotation
Link NOC:Introduction to Mineral Processing Lecture 54 - Flotation (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 55 - Flotation (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 56 - Flotation Chemicals
Link NOC:Introduction to Mineral Processing Lecture 57 - Flotation Chemicals (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 58 - Flotation Chemicals (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 59 - Flotation Machines
Link NOC:Introduction to Mineral Processing Lecture 60 - Flotation Machines (Continued...)
Link NOC:Introduction to Mineral Processing Lecture 61 - Magnetic Separation
Link NOC:Introduction to Mineral Processing Lecture 62 - Electric Separation
Link NOC:Introduction to Mineral Processing Lecture 63 - Flow Sheets
Link NOC:Introduction to Mineral Processing Lecture 64 - Flow Sheets (Continued...)
Link NOC:Foundation Engineering Lecture 1 - Introduction
Link NOC:Foundation Engineering Lecture 2 - Introduction (Continued...)
Link NOC:Foundation Engineering Lecture 3 - Shear Strength
Link NOC:Foundation Engineering Lecture 4 - Soil Exploration - Boring
Link NOC:Foundation Engineering Lecture 5 - Standard Penetration Test
Link NOC:Foundation Engineering Lecture 6 - Standard Penetration Test and Cone Penetration Test
Link NOC:Foundation Engineering Lecture 7 - Cone Penetration Test and Other In-Situ Tests
Link NOC:Foundation Engineering Lecture 8 - Types of Samples
Link NOC:Foundation Engineering Lecture 9 - Geophysical Exploration - I
Link NOC:Foundation Engineering Lecture 10 - Geophysical Exploration - II
Link NOC:Foundation Engineering Lecture 11 - Shallow Foundation - Bearing Capacity I
Link NOC:Foundation Engineering Lecture 12 - Shallow Foundation - Bearing Capacity II
Link NOC:Foundation Engineering Lecture 13 - Shallow Foundation - Bearing Capacity III
Link NOC:Foundation Engineering Lecture 14 - Shallow Foundation - Bearing Capacity IV
Link NOC:Foundation Engineering Lecture 15 - Shallow Foundation - Bearing Capacity V
Link NOC:Foundation Engineering Lecture 16 - Shallow Foundation - Settlement I
Link NOC:Foundation Engineering Lecture 17 - Shallow Foundation - Settlement II
Link NOC:Foundation Engineering Lecture 18 - Shallow Foundation - Settlement III
Link NOC:Foundation Engineering Lecture 19 - Shallow Foundation - Settlement IV
Link NOC:Foundation Engineering Lecture 20 - Shallow Foundation - Settlement V
Link NOC:Foundation Engineering Lecture 21 - Shallow Foundation - Design I
Link NOC:Foundation Engineering Lecture 22 - Shallow Foundation - Design II
Link NOC:Foundation Engineering Lecture 23 - Shallow Foundation - Design III
Link NOC:Foundation Engineering Lecture 24 - Shallow Foundation - Design IV
Link NOC:Foundation Engineering Lecture 25 - Shallow Foundation - Design V
Link NOC:Foundation Engineering Lecture 26 - Shallow Foundation - Design VI
Link NOC:Foundation Engineering Lecture 27 - Pile Foundation - I
Link NOC:Foundation Engineering Lecture 28 - Pile Foundation - II
Link NOC:Foundation Engineering Lecture 29 - Pile Foundation - III
Link NOC:Foundation Engineering Lecture 30 - Pile Foundation - IV
Link NOC:Foundation Engineering Lecture 31 - Pile Foundation - V
Link NOC:Foundation Engineering Lecture 32 - Pile Foundation - VI
Link NOC:Foundation Engineering Lecture 33 - Pile Foundation - VII
Link NOC:Foundation Engineering Lecture 34 - Pile Foundation - VIII
Link NOC:Foundation Engineering Lecture 35 - Pile Foundation - IX
Link NOC:Foundation Engineering Lecture 36 - Pile Foundation - X
Link NOC:Foundation Engineering Lecture 37 - Pile Foundation - XI
Link NOC:Foundation Engineering Lecture 38 - Pile Foundation - XII
Link NOC:Foundation Engineering Lecture 39 - Pile Foundation - XIII
Link NOC:Foundation Engineering Lecture 40 - Pile Foundation - XIV
Link NOC:Foundation Engineering Lecture 41 - Earth Pressure - I
Link NOC:Foundation Engineering Lecture 42 - Earth Pressure - II
Link NOC:Foundation Engineering Lecture 43 - Earth Pressure - III
Link NOC:Foundation Engineering Lecture 44 - Earth Pressure - IV
Link NOC:Foundation Engineering Lecture 45 - Earth Pressure - V
Link NOC:Foundation Engineering Lecture 46 - Earth Pressure - VI
Link NOC:Foundation Engineering Lecture 47 - Earth Pressure - VII
Link NOC:Foundation Engineering Lecture 48 - Earth Pressure and Retaining Wall
Link NOC:Foundation Engineering Lecture 49 - Retaining Wall - II
Link NOC:Foundation Engineering Lecture 50 - Retaining Wall - III
Link NOC:Foundation Engineering Lecture 51 - Retaining Wall - IV
Link NOC:Foundation Engineering Lecture 52 - Retaining Wall - V and Sheet Piles - I
Link NOC:Foundation Engineering Lecture 53 - Sheet Piles - II
Link NOC:Foundation Engineering Lecture 54 - Sheet Piles - III
Link NOC:Foundation Engineering Lecture 55 - Sheet Piles - IV
Link NOC:Foundation Engineering Lecture 56 - Sheet Piles - V
Link NOC:Foundation Engineering Lecture 57 - Sheet Piles - VI
Link NOC:Foundation Engineering Lecture 58 - Sheet Piles and Braced Excavation
Link NOC:Foundation Engineering Lecture 59 - Braced Excavation and Underground Conduits
Link NOC:Foundation Engineering Lecture 60 - Underground Conduits - II
Link NOC:Theory of Elasticity Lecture 1 - Introduction
Link NOC:Theory of Elasticity Lecture 2 - Introduction to Tensor
Link NOC:Theory of Elasticity Lecture 3 - Introduction to Tensor (Continued...)
Link NOC:Theory of Elasticity Lecture 4 - Introduction to Tensor (Continued...)
Link NOC:Theory of Elasticity Lecture 5 - Introduction to Tensor (Continued...)
Link NOC:Theory of Elasticity Lecture 6 - Introduction to Tensor (Continued...)
Link NOC:Theory of Elasticity Lecture 7 - Concept of Stress and Strain
Link NOC:Theory of Elasticity Lecture 8 - Concept of Stress and Strain (Continued...)
Link NOC:Theory of Elasticity Lecture 9 - Concept of Stress and Strain (Continued...)
Link NOC:Theory of Elasticity Lecture 10 - Concept of Stress and Strain (Continued...)
Link NOC:Theory of Elasticity Lecture 11 - Concept of Stress and Strain (Continued...)
Link NOC:Theory of Elasticity Lecture 12 - Constitutive Relation - I
Link NOC:Theory of Elasticity Lecture 13 - Constitutive Relation - I (Continued...)
Link NOC:Theory of Elasticity Lecture 14 - Constitutive Relation - I (Continued...)
Link NOC:Theory of Elasticity Lecture 15 - Constitutive Relation - I (Continued...)
Link NOC:Theory of Elasticity Lecture 16 - Constitutive Relation - I (Continued...)
Link NOC:Theory of Elasticity Lecture 17 - Constitutive Relation - II
Link NOC:Theory of Elasticity Lecture 18 - Constitutive Relation - II (Continued...)
Link NOC:Theory of Elasticity Lecture 19 - Constitutive Relation - II (Continued...)
Link NOC:Theory of Elasticity Lecture 20 - Constitutive Relation - II (Continued...)
Link NOC:Theory of Elasticity Lecture 21 - Constitutive Relation - II (Continued...)
Link NOC:Theory of Elasticity Lecture 22 - Formulation of Boundary Value Problems
Link NOC:Theory of Elasticity Lecture 23 - Formulation of Boundary Value Problems (Continued...)
Link NOC:Theory of Elasticity Lecture 24 - Formulation of Boundary Value Problems (Continued...)
Link NOC:Theory of Elasticity Lecture 25 - Formulation of Boundary Value Problems (Continued...)
Link NOC:Theory of Elasticity Lecture 26 - Formulation of Boundary Value Problems (Continued...)
Link NOC:Theory of Elasticity Lecture 27 - Solution of Boundary Value Problems
Link NOC:Theory of Elasticity Lecture 28 - Solution of Boundary Value Problems (Continued...)
Link NOC:Theory of Elasticity Lecture 29 - Solution of Boundary Value Problems (Continued...)
Link NOC:Theory of Elasticity Lecture 30 - Solution of Boundary Value Problems (Continued...)
Link NOC:Theory of Elasticity Lecture 31 - Solution of Boundary Value Problems (Continued...)
Link NOC:Theory of Elasticity Lecture 32 - Solution of Boundary Value Problems (Continued...)
Link NOC:Theory of Elasticity Lecture 33 - Problems in Flexure
Link NOC:Theory of Elasticity Lecture 34 - Problems in Flexure (Continued...)
Link NOC:Theory of Elasticity Lecture 35 - Problems in Flexure (Continued...)
Link NOC:Theory of Elasticity Lecture 36 - Problems in Flexure (Continued...)
Link NOC:Theory of Elasticity Lecture 37 - Problems in Flexure (Continued...)
Link NOC:Theory of Elasticity Lecture 38 - Boundary Value Problems in Elasticity
Link NOC:Theory of Elasticity Lecture 39 - Boundary Value Problems in Elasticity (Continued...)
Link NOC:Theory of Elasticity Lecture 40 - Boundary Value Problems in Elasticity (Continued...)
Link NOC:Theory of Elasticity Lecture 41 - Boundary Value Problems in Elasticity (Continued...)
Link NOC:Theory of Elasticity Lecture 42 - Boundary Value Problems in Elasticity (Continued...)
Link NOC:Theory of Elasticity Lecture 43 - Complex Variable Method
Link NOC:Theory of Elasticity Lecture 44 - Complex Variable Method (Continued...)
Link NOC:Theory of Elasticity Lecture 45 - Complex Variable Method (Continued...)
Link NOC:Theory of Elasticity Lecture 46 - Complex Variable Method (Continued...)
Link NOC:Theory of Elasticity Lecture 47 - Complex Variable Method (Continued...)
Link NOC:Theory of Elasticity Lecture 48 - Complex Variable Method (Continued...)
Link NOC:Theory of Elasticity Lecture 49 - Thermoelasticity
Link NOC:Theory of Elasticity Lecture 50 - Thermoelasticity (Continued...)
Link NOC:Theory of Elasticity Lecture 51 - Thermoelasticity (Continued...)
Link NOC:Theory of Elasticity Lecture 52 - Thermoelasticity (Continued...)
Link NOC:Theory of Elasticity Lecture 53 - Thermoelasticity (Continued...)
Link NOC:Theory of Elasticity Lecture 54 - Photo-Elasticity
Link NOC:Theory of Elasticity Lecture 55 - Photo-Elasticity (Continued...)
Link NOC:Theory of Elasticity Lecture 56 - Photo-Elasticity (Continued...)
Link NOC:Theory of Elasticity Lecture 57 - Photo-Elasticity (Continued...)
Link NOC:Theory of Elasticity Lecture 58 - Photo-Elasticity (Continued...)
Link NOC:Theory of Elasticity Lecture 59 - Introduction to Nonlinear Elasticity
Link NOC:Theory of Elasticity Lecture 60 - Closure
Link NOC:Wastewater Treatment and Recycling Lecture 1 - Course Introduction
Link NOC:Wastewater Treatment and Recycling Lecture 2 - Sources and Types of Wastewater
Link NOC:Wastewater Treatment and Recycling Lecture 3 - Pollutants in Wastewater: Point and Non-point Sources
Link NOC:Wastewater Treatment and Recycling Lecture 4 - Wastewater Management: Concept of Treatment and Recycling
Link NOC:Wastewater Treatment and Recycling Lecture 5 - Wastewater Management: Issues and Challenges
Link NOC:Wastewater Treatment and Recycling Lecture 6 - Wastewater Generation and Quantity Estimation
Link NOC:Wastewater Treatment and Recycling Lecture 7 - Quantity Estimation of Sewage
Link NOC:Wastewater Treatment and Recycling Lecture 8 - Population Forecasting Methods
Link NOC:Wastewater Treatment and Recycling Lecture 9 - Quantity Estimation of Sewage Flow
Link NOC:Wastewater Treatment and Recycling Lecture 10 - Sewage Quantity Estimation: Practice Problems
Link NOC:Wastewater Treatment and Recycling Lecture 11 - Wastewater Characteristics: Quality Parameters
Link NOC:Wastewater Treatment and Recycling Lecture 12 - Wastewater Characteristics: Quality Parameters (Continued...)
Link NOC:Wastewater Treatment and Recycling Lecture 13 - Wastewater Characteristics: Quality Parameters (Continued...)
Link NOC:Wastewater Treatment and Recycling Lecture 14 - Wastewater Characteristics: Quality Parameters (Continued...)
Link NOC:Wastewater Treatment and Recycling Lecture 15 - Wastewater Characteristics: Practice Problems
Link NOC:Wastewater Treatment and Recycling Lecture 16 - Fate and Transport of Contaminants Discharged in River
Link NOC:Wastewater Treatment and Recycling Lecture 17 - Effects on DO and BOD Natural Purification in Rivers: Effects on DO and BOD
Link NOC:Wastewater Treatment and Recycling Lecture 18 - BOD and Variations in streams Receiving Waste water
Link NOC:Wastewater Treatment and Recycling Lecture 19 - Natural Purification: Practice Problems
Link NOC:Wastewater Treatment and Recycling Lecture 20 - Engineered Treatment of Waste water:Concept of mass balance
Link NOC:Wastewater Treatment and Recycling Lecture 21 - Mass Balance: Application in Specific Cases
Link NOC:Wastewater Treatment and Recycling Lecture 22 - Mass Balance in Reactors: Application and Practice Problems
Link NOC:Wastewater Treatment and Recycling Lecture 23 - Basic of Municipal Wastewater Treatment
Link NOC:Wastewater Treatment and Recycling Lecture 24 - Wastewater Treatment Units: Screening
Link NOC:Wastewater Treatment and Recycling Lecture 25 - Wastewater Treatment Units: Grit Removal and Equalization
Link NOC:Wastewater Treatment and Recycling Lecture 26 - Watsewater Treatment Units: Primary Sedimentation
Link NOC:Wastewater Treatment and Recycling Lecture 27 - Wastewater Treatment Units: Primary Sedimentation
Link NOC:Wastewater Treatment and Recycling Lecture 28 - Secondary Treatment Processes: Introduction to Biological Treatment of Wastewater
Link NOC:Wastewater Treatment and Recycling Lecture 29 - Biological Treatment of Wastewater: Microbial Growth and its Kinetics
Link NOC:Wastewater Treatment and Recycling Lecture 30 - Biological Treatment of Wastewater: Microbial Growth Kinetics
Link NOC:Wastewater Treatment and Recycling Lecture 31 - Biological Treatment of Wastewater: Activated Sludge Process
Link NOC:Wastewater Treatment and Recycling Lecture 32 - Biological Treatment of Wastewater: ASP, TF and RCB
Link NOC:Wastewater Treatment and Recycling Lecture 33 - Secondary Treatment Processes: Introduction to Anaerobic Treatment of Wastewater
Link NOC:Wastewater Treatment and Recycling Lecture 34 - Anaerobic Degradation Processes
Link NOC:Wastewater Treatment and Recycling Lecture 35 - Anaerobic Degradation: Characteristics and Applications
Link NOC:Wastewater Treatment and Recycling Lecture 36 - Anaerobic Treatment of Wastewater: UASB Reactor
Link NOC:Wastewater Treatment and Recycling Lecture 37 - Anaerobic Treatment of Wastewater: Other High Rate Anaerobic Processes
Link NOC:Wastewater Treatment and Recycling Lecture 38 - Introduction to Sludge Management
Link NOC:Wastewater Treatment and Recycling Lecture 39 - Wastewater Sludge: Quantity and Characteristics
Link NOC:Wastewater Treatment and Recycling Lecture 40 - Wastewater Sludge Processing and Treatment: Sludge Thickening
Link NOC:Wastewater Treatment and Recycling Lecture 41 - Wastewater Sludge Processing and Treatment: Sludge Stabilization and Conditioning
Link NOC:Wastewater Treatment and Recycling Lecture 42 - Wastewater Sludge Processing and Treatment: Dewatering, Hygienisation, Disposal/Reuse
Link NOC:Wastewater Treatment and Recycling Lecture 43 - Tertiary (Advanced) Treatment of Wastewater
Link NOC:Wastewater Treatment and Recycling Lecture 44 - Tertiary Treatment: Nutrients Removal
Link NOC:Wastewater Treatment and Recycling Lecture 45 - Tertiary Treatment: Adsorption and Ion Exchange
Link NOC:Wastewater Treatment and Recycling Lecture 46 - Tertiary Treatment: Membrane Processes
Link NOC:Wastewater Treatment and Recycling Lecture 47 - Tertiary Treatment: Disinfection and Chemical Treatments
Link NOC:Wastewater Treatment and Recycling Lecture 48 - Wastewater Treatment Systems: Options and Conventional Approach
Link NOC:Wastewater Treatment and Recycling Lecture 49 - Wastewater Treatment Systems: Integrated Systems: Wetlands
Link NOC:Wastewater Treatment and Recycling Lecture 50 - Alternate Wastewater Treatment Systems: SBR and SBBR
Link NOC:Wastewater Treatment and Recycling Lecture 51 - Alternate Wastewater Treatment Systems: MBR and MBBR
Link NOC:Wastewater Treatment and Recycling Lecture 52 - Concept of Wastewater Reuse and Recycling
Link NOC:Wastewater Treatment and Recycling Lecture 53 - Wastewater Reuse and Recycling Opportunities
Link NOC:Wastewater Treatment and Recycling Lecture 54 - Wastewater Reuse and Recycling Potential and Requirements
Link NOC:Wastewater Treatment and Recycling Lecture 55 - Wastewater Reuse and Recycling Regulatory Guidelines
Link NOC:Wastewater Treatment and Recycling Lecture 56 - Wastewater Reuse and Recycling: Centralized Vs Decentralized Recycling
Link NOC:Wastewater Treatment and Recycling Lecture 57 - Wastewater Reuse and Recycling: Challenges, Risks and Research Trends
Link NOC:Wastewater Treatment and Recycling Lecture 58 - Decision Making in Wastewater Reuse and Recycling
Link NOC:Wastewater Treatment and Recycling Lecture 59 - Public Acceptance for Recycled Water Use
Link NOC:Wastewater Treatment and Recycling Lecture 60 - Wastewater Reuse and Recycling: Global Practices and Case Studies
Link NOC:Wastewater Treatment and Recycling Lecture 61 - Course Summary
Link NOC:Wastewater Treatment and Recycling Lecture 62 - Course Summary (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 1 - Introduction
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 2 - Introduction (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 3 - Introduction (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 4 - Introduction (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 5 - Introduction (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 6 - Microthermometry
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 7 - Microthermometry: Principles
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 8 - Microthermometry: Principles (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 9 - Microthermometry: Principles (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 10 - Fluid Inclusion Petrography
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 11 - Aqueous Fluid Inclusions
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 12 - Aqueous Fluid Inclusions (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 13 - Response to Heating Experiment
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 14 - Aqueous Fluid Inclusions (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 15 - Aqueous Fluid Inclusions (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 16 - Pure Carbonic Inclusion
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 17 - Pure Carbonic Inclusion (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 18 - Microthermometry of Aqueous-Carbonic Inclusion
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 19 - Microthermometry of Aqueous-Carbonic Inclusion (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 20 - Microthermometry of Aqueous-Carbonic Fluid Inclusion
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 21 - Application of Fluid Inclusion to Ore Environment
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 22 - Application of Fluid Inclusion Studies to Ore Environment
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 23 - Application of fluid Inclusion to Ore Forming Environments
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 24 - Application of fluid Inclusion to Ore Forming Environments (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 25 - Application of fluid Inclusion to Ore Forming Environments (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 26 - Application of fluid Inclusion to Deformation, Metamorphism
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 27 - Application of fluid Inclusion to Deformation, Metamorphism (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 28 - Application of fluid Inclusion to Deformation, Metamorphism (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 29 - Application of fluid Inclusion to Deformation, Metamorphism (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 30 - Application of fluid Inclusion to Deformation, Metamorphism (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 31 - Analysis of Fluid Inclusion
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 32 - Analysis of Fluid Inclusion (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 33 - Analysis of Fluid Inclusion (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 34 - Analysis of Fluid Inclusion (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 35 - Analysis of Fluid Inclusion (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 36 - Computer Software for Fluid Inclusion Data
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 37 - Computer Software for Fluid Inclusion Data (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 38 - Computer Software for Fluid Inclusion Data (Continued...)
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 39 - Review of the Course
Link NOC:Fluid Inclusion in Mineral Principles, Methodology, Practice and Application Lecture 40 - Review of the Course (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 1 - Introduction
Link NOC:Matrix Method of Structural Analysis Lecture 2 - Review of Structural Analysis - I
Link NOC:Matrix Method of Structural Analysis Lecture 3 - Review of Structural Analysis - I (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 4 - Review of Structural Analysis - I (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 5 - Review of Structural Analysis - I (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 6 - Review of Structural Analysis - I (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 7 - Review of Structural Analysis - I (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 8 - Review of Structural Analysis - I (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 9 - Review of Structural Analysis - I (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 10 - Review of Structural Analysis - I (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 11 - Matrix Algebra Review
Link NOC:Matrix Method of Structural Analysis Lecture 12 - Matrix Algebra Review (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 13 - Matrix Algebra Review (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 14 - Matrix Algebra Review (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 15 - Matrix Algebra Review (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 16 - Matrix Method of Analysis of Trusses
Link NOC:Matrix Method of Structural Analysis Lecture 17 - Matrix Method of Analysis of Trusses (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 18 - Matrix Method of Analysis of Trusses (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 19 - Matrix Method of Analysis of Trusses (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 20 - Matrix Method of Analysis of Trusses (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 21 - Matrix Method of Analysis: Beams
Link NOC:Matrix Method of Structural Analysis Lecture 22 - Matrix Method of Analysis: Beams (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 23 - Matrix Method of Analysis: Beams (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 24 - Matrix Method of Analysis: Beams (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 25 - Matrix Method of Analysis: Beams (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 26 - Matrix Method of Analysis: Frame (2D)
Link NOC:Matrix Method of Structural Analysis Lecture 27 - Matrix Method of Analysis: Frame (2D) (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 28 - Matrix Method of Analysis: Frame (2D) (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 29 - Matrix Method of Analysis: Frame (2D) (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 30 - Matrix Method of Analysis: Frame (2D) (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 31 - Computer Implementation
Link NOC:Matrix Method of Structural Analysis Lecture 32 - Computer Implementation (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 33 - Analysis of 3D Truss
Link NOC:Matrix Method of Structural Analysis Lecture 34 - Analysis of 3D Truss (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 35 - Analysis of Beam
Link NOC:Matrix Method of Structural Analysis Lecture 36 - Introduction to Finite Element Method
Link NOC:Matrix Method of Structural Analysis Lecture 37 - Introduction to Finite Element Method (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 38 - Introduction to Finite Element Method (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 39 - Introduction to Finite Element Method (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 40 - Introduction to Finite Element Method (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 41 - Introduction to Finite Element Method (Continued...)
Link NOC:Matrix Method of Structural Analysis Lecture 42 - Introduction to Finite Element Method (Continued...)
Link NOC:Plastic Waste Management Lecture 1 - Plastics - What is Plastic
Link NOC:Plastic Waste Management Lecture 2 - Plastics - Types
Link NOC:Plastic Waste Management Lecture 3 - Plastics - Types (Continued...)
Link NOC:Plastic Waste Management Lecture 4 - Plastics - Uses and Global Statistics
Link NOC:Plastic Waste Management Lecture 5 - Plastics - Global Statistics
Link NOC:Plastic Waste Management Lecture 6 - Plastic Waste Sources
Link NOC:Plastic Waste Management Lecture 7 - Plastic Waste Sources (Continued...)
Link NOC:Plastic Waste Management Lecture 8 - Plastic Waste Sources and Production
Link NOC:Plastic Waste Management Lecture 9 - Global Sources
Link NOC:Plastic Waste Management Lecture 10 - Global and Indian data
Link NOC:Plastic Waste Management Lecture 11 - Plastic Waste Management Rules 2016 (India)
Link NOC:Plastic Waste Management Lecture 12 - Plastic Waste Management Rules (Continued...)
Link NOC:Plastic Waste Management Lecture 13 - Plastic Waste Management Rules (Continued...)
Link NOC:Plastic Waste Management Lecture 14 - Plastic Waste Management Rules (Continued...)
Link NOC:Plastic Waste Management Lecture 15 - Global Rules and Regulations
Link NOC:Plastic Waste Management Lecture 16 - Plastic Bans including China Sword Policy Implication on Global Plastic Waste Management
Link NOC:Plastic Waste Management Lecture 17 - Plastic Bans - Global Examples
Link NOC:Plastic Waste Management Lecture 18 - Plastic Bans - China Sword Policy
Link NOC:Plastic Waste Management Lecture 19 - Plastic Bans - China Sword Policy Impacts
Link NOC:Plastic Waste Management Lecture 20 - Plastic Bans - Impact on Global Plastic Waste Management
Link NOC:Plastic Waste Management Lecture 21 - Impact of Plastic Pollution on Marine Life
Link NOC:Plastic Waste Management Lecture 22 - Impact of Plastic Pollution on Marine Life (Continued...)
Link NOC:Plastic Waste Management Lecture 23 - Plastic Pollution Impacts on Marine and Wildlife
Link NOC:Plastic Waste Management Lecture 24 - Plastic Pollution : Health and Environmental Impact
Link NOC:Plastic Waste Management Lecture 25 - Plastic Pollution : Health and Environmental Impact (Continued...)
Link NOC:Plastic Waste Management Lecture 26 - Plastic Waste Management Practices : Recycling and Waste Plastics
Link NOC:Plastic Waste Management Lecture 27 - Plastic Waste Management : Mechanical and Feedstock Recycling
Link NOC:Plastic Waste Management Lecture 28 - Plastic Waste Management : Feedstock Recycling - Pyrolysis and Waste to Energy
Link NOC:Plastic Waste Management Lecture 29 - Plastic Waste Management : Landfilling, Other Applications
Link NOC:Plastic Waste Management Lecture 30 - Use of Waste Plastics in Road Construction
Link NOC:Plastic Waste Management Lecture 31 - Possible Alternate Materials to Plastics - Greener Alternatives
Link NOC:Plastic Waste Management Lecture 32 - Biodegradable Plastics
Link NOC:Plastic Waste Management Lecture 33 - Greener Plastic Products
Link NOC:Plastic Waste Management Lecture 34 - Biobased Plastic Products
Link NOC:Plastic Waste Management Lecture 35 - How to Quantify Something is Green
Link NOC:Plastic Waste Management Lecture 36 - Plastics Resource Recovery and Circular Economy
Link NOC:Plastic Waste Management Lecture 37 - Plastics Resource Recovery and Intro to Circular Economy
Link NOC:Plastic Waste Management Lecture 38 - Plastics and Circular Economy
Link NOC:Plastic Waste Management Lecture 39 - Plastics and Circular Economy - Case Studies
Link NOC:Plastic Waste Management Lecture 40 - Plastics and Circular Economy - Case Studies (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 1 - Quick Review of Soil Mechanics
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 2 - Quick Review of Soil Mechanics (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 3 - Quick Review of Soil Mechanics (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 4 - Quick Review of Soil Mechanics (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 5 - Quick Review of Soil Mechanics (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 6 - Foundation Engineering Introduction
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 7 - Foundation Engineering Introduction (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 8 - Foundation Engineering Introduction (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 9 - Shallow Foundation and Bearing Capacity
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 10 - Shallow Foundation and Bearing Capacity (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 11 - Shallow Foundation and Bearing Capacity (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 12 - Shallow Foundation
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 13 - Shallow Foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 14 - Shallow Foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 15 - Shallow Foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 16 - Shallow Foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 17 - Settlement of Foundation
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 18 - Settlement of Foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 19 - Settlement of Foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 20 - Settlement of Foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 21 - Settlement of Foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 22 - Settlement of Foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 23 - Geotechnical Investigation
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 24 - Geotechnical Investigation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 25 - Geotechnical Investigation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 26 - Geotechnical Investigation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 27 - Geotechnical Investigation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 28 - Earth Pressure Theories
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 29 - Earth Pressure Theories (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 30 - Earth Pressure Theories (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 31 - Earth Pressure Theories (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 32 - Earth Pressure Theories (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 33 - Stability analysis of earth retaining wall
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 34 - Stability analysis of earth retaining wall (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 35 - Stability analysis of earth retaining wall (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 36 - Stability of earth retaining wall
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 37 - Pile foundation
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 38 - Pile foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 39 - Pile foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 40 - Pile foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 41 - Pile foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 42 - Pile foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 43 - Pile foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 44 - Pile foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 45 - Pile foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 46 - Pile foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 47 - Sheet pile wall
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 48 - Sheet pile wall (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 49 - Anchor bulkhead
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 50 - Anchor bulkhead (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 51 - Deep excavation
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 52 - Deep excavation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 53 - Introduction to machine foundation
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 54 - Introduction to machine foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 55 - Introduction to machine foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 56 - Introduction to machine foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 57 - Introduction to machine foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 58 - Introduction to machine foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 59 - Introduction to machine foundation (Continued...)
Link NOC:Geotechnical Engineering-II Foundation Engineering Lecture 60 - Summary
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 1 - Introduction
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 2 - Preliminaries
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 3 - Balance Equations Preliminaries - I
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 4 - Tutorial 1 - Balance Equations Preliminaries - I
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 5 - Balance Equations Preliminaries - II
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 6 - Tutorial 2 - Balance Equations Preliminaries - II
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 7 - Macroscopic Balances - I
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 8 - Macroscopic Balances - II
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 9 - Macroscopic Balances - III
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 10 - Tutorial 3 - Macroscopic Balances
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 11 - Tutorial 4 - Macroscopic Balances
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 12 - Tutorial 5 - Systems with chemical reactions
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 13 - Tutorial 6 - Material balance involving chemical reactions
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 14 - Tutorial 7 - Energy interactions in reacting systems Energy interactions in reacting systems
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 15 - Tutorial 8 - Energy interactions in reacting systems
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 16 - Solution of Macroscopic Balance Equations - I
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 17 - Solution of Macroscopic Balance Equations - II
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 18 - Tutorial 9 - Solution of Macroscopic Balance Equations - I
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 19 - Tutorial 10 - Solution of Macroscopic Balance Equations - II
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 20 - Mathematical Solution of Macroscopic Balance Equations
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 21 - Mathematical Solution of Macroscopic Balance Equations
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 22 - Numerical Solution of Macroscopic Balance Equations
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 23 - Numerical evaluation of integrations in macroscopic balance equations
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 24 - Microscopic Balances - I
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 25 - Microscopic Balances - II
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 26 - Microscopic Balances - III
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 27 - Microscopic Balances - IV
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 28 - Microscopic Balances - V
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 29 - Microscopic Balances - VI
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 30 - Microscopic Balances - VII
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 31 - Microscopic Balance Illustrations - I
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 32 - Microscopic Balance Illustrations - II
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 33 - Microscopic Balance Illustrations - III
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 34 - Microscopic Balance Illustrations - IV
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 35 - Microscopic Balance Illustrations - V
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 36 - Matrix Techniques - I
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 37 - Matrix Techniques - II
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 38 - Regression
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 39 - Interpolation
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 40 - Illustration of Interpolation
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 41 - Illustration of Regression
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 42 - Tutorial on macroscopic energy balance
Link NOC:Mass, Momentum and Energy Balances in Engineering Analysis Lecture 43 - Selective Mathematical Concepts in Transport Phenomena
Link Advanced Structural Analysis Lecture 1 - Review of Basic Structural Analysis - I
Link Advanced Structural Analysis Lecture 2 - Review of Basic Structural Analysis - I
Link Advanced Structural Analysis Lecture 3 - Review of Basic Structural Analysis - I
Link Advanced Structural Analysis Lecture 4 - Review of Basic Structural Analysis - I
Link Advanced Structural Analysis Lecture 5 - Review of Basic Structural Analysis - I
Link Advanced Structural Analysis Lecture 6 - Review of Basic Structural Analysis - I
Link Advanced Structural Analysis Lecture 7 - Review of Basic Structural Analysis - II
Link Advanced Structural Analysis Lecture 8 - Review of Basic Structural Analysis - II
Link Advanced Structural Analysis Lecture 9 - Review of Basic Structural Analysis - II
Link Advanced Structural Analysis Lecture 10 - Review of Basic Structural Analysis - II
Link Advanced Structural Analysis Lecture 11 - Review of Basic Structural Analysis - II
Link Advanced Structural Analysis Lecture 12 - Review of Basic Structural Analysis - II
Link Advanced Structural Analysis Lecture 13 - Review of Basic Structural Analysis - II
Link Advanced Structural Analysis Lecture 14 - Review of Basic Structural Analysis - II
Link Advanced Structural Analysis Lecture 15 - Review of Basic Structural Analysis - II
Link Advanced Structural Analysis Lecture 16 - Review of Basic Structural Analysis - II
Link Advanced Structural Analysis Lecture 17 - Basic Matrix Concepts
Link Advanced Structural Analysis Lecture 18 - Basic Matrix Concepts
Link Advanced Structural Analysis Lecture 19 - Basic Matrix Concepts
Link Advanced Structural Analysis Lecture 20 - Basic Matrix Concepts
Link Advanced Structural Analysis Lecture 21 - Basic Matrix Concepts
Link Advanced Structural Analysis Lecture 22 - Matrix Analysis of Structures with Axial Elements
Link Advanced Structural Analysis Lecture 23 - Matrix Analysis of Structures with Axial Elements
Link Advanced Structural Analysis Lecture 24 - Matrix Analysis of Structures with Axial Elements
Link Advanced Structural Analysis Lecture 25 - Matrix Analysis of Structures with Axial Elements
Link Advanced Structural Analysis Lecture 26 - Matrix Analysis of Structures with Axial Elements
Link Advanced Structural Analysis Lecture 27 - Matrix Analysis of Beams and Grids
Link Advanced Structural Analysis Lecture 28 - Matrix Analysis of Beams and Grids
Link Advanced Structural Analysis Lecture 29 - Matrix Analysis of Beams and Grids
Link Advanced Structural Analysis Lecture 30 - Matrix Analysis of Beams and Grids
Link Advanced Structural Analysis Lecture 31 - Matrix Analysis of Beams and Grids
Link Advanced Structural Analysis Lecture 32 - Matrix Analysis of Beams and Grids
Link Advanced Structural Analysis Lecture 33 - Matrix Analysis of Plane and Space Frames
Link Advanced Structural Analysis Lecture 34 - Matrix Analysis of Plane and Space Frames
Link Advanced Structural Analysis Lecture 35 - Matrix Analysis of Plane and Space Frames
Link Advanced Structural Analysis Lecture 36 - Matrix Analysis of Plane and Space Frames
Link Advanced Structural Analysis Lecture 37 - Matrix Analysis of Plane and Space Frames
Link Advanced Structural Analysis Lecture 38 - Analysis of elastic instability and second-order effects
Link Advanced Structural Analysis Lecture 39 - Analysis of elastic instability and second-order effects
Link Advanced Structural Analysis Lecture 40 - Analysis of elastic instability and second-order effects
Link Advanced Structural Analysis Lecture 41 - Life beyond Structures & Analysis
Link Finite Element Analysis Lecture 1
Link Finite Element Analysis Lecture 2
Link Finite Element Analysis Lecture 3
Link Finite Element Analysis Lecture 4
Link Finite Element Analysis Lecture 5
Link Finite Element Analysis Lecture 6
Link Finite Element Analysis Lecture 7
Link Finite Element Analysis Lecture 8
Link Finite Element Analysis Lecture 9
Link Finite Element Analysis Lecture 10
Link Finite Element Analysis Lecture 11
Link Finite Element Analysis Lecture 12
Link Finite Element Analysis Lecture 13
Link Finite Element Analysis Lecture 14
Link Finite Element Analysis Lecture 15
Link Finite Element Analysis Lecture 16
Link Finite Element Analysis Lecture 17
Link Finite Element Analysis Lecture 18
Link Finite Element Analysis Lecture 19
Link Finite Element Analysis Lecture 20
Link Finite Element Analysis Lecture 21
Link Finite Element Analysis Lecture 22
Link Finite Element Analysis Lecture 23
Link Finite Element Analysis Lecture 24
Link Finite Element Analysis Lecture 25
Link Finite Element Analysis Lecture 26
Link Finite Element Analysis Lecture 27
Link Finite Element Analysis Lecture 28
Link Finite Element Analysis Lecture 29
Link Finite Element Analysis Lecture 30
Link Finite Element Analysis Lecture 31
Link Finite Element Analysis Lecture 32
Link Finite Element Analysis Lecture 33
Link Finite Element Analysis Lecture 34
Link Finite Element Analysis Lecture 35
Link Finite Element Analysis Lecture 36
Link Finite Element Analysis Lecture 37
Link Finite Element Analysis Lecture 38
Link Finite Element Analysis Lecture 39
Link Finite Element Analysis Lecture 40
Link Geosynthetics and Reinforced Soil Structures Lecture 1 - Introduction & Need for Geosynthetics
Link Geosynthetics and Reinforced Soil Structures Lecture 2 - Types and Functions of Geosynthetics
Link Geosynthetics and Reinforced Soil Structures Lecture 3 - Polymers in Geosynthetics and Manufacturing Techniques
Link Geosynthetics and Reinforced Soil Structures Lecture 4 - Strength Analysis of Reinforced Soils - I
Link Geosynthetics and Reinforced Soil Structures Lecture 5 - Strength Analysis of Reinforced Soils - II
Link Geosynthetics and Reinforced Soil Structures Lecture 6 - Testing of Geosynthetics - I
Link Geosynthetics and Reinforced Soil Structures Lecture 7 - Testing of Geosynthetics - II
Link Geosynthetics and Reinforced Soil Structures Lecture 8 - Testing of Geosynthetics - III
Link Geosynthetics and Reinforced Soil Structures Lecture 9 - Different Types of Soil Retaining Structures
Link Geosynthetics and Reinforced Soil Structures Lecture 10 - Construction Aspects of Geosynthetic Reinforced Soil Retaining Walls
Link Geosynthetics and Reinforced Soil Structures Lecture 11 - Design Codes for Reinforced Soil Retaining Walls
Link Geosynthetics and Reinforced Soil Structures Lecture 12 - External Stability Analysis of Reinforced Soil Retaining Walls
Link Geosynthetics and Reinforced Soil Structures Lecture 13 - Seismic Loads and Internal Stability Analysis of Reinforced Soil Walls
Link Geosynthetics and Reinforced Soil Structures Lecture 14 - Testing Requirements for Reinforced Soil Retaining Walls
Link Geosynthetics and Reinforced Soil Structures Lecture 15 - Design Example of Reinforced Soil Retaining Walls - I
Link Geosynthetics and Reinforced Soil Structures Lecture 16 - Design Example of Reinforced Soil Retaining Walls - II
Link Geosynthetics and Reinforced Soil Structures Lecture 17 - Design Example of Reinforced Soil Retaining Walls - III
Link Geosynthetics and Reinforced Soil Structures Lecture 18 - Design Example of Reinforced Soil Retaining Walls - IV
Link Geosynthetics and Reinforced Soil Structures Lecture 19 - Case Study of Construction of Very High Tiered Reinforced Soil Walls
Link Geosynthetics and Reinforced Soil Structures Lecture 20 - Controlled Yielding to Reduce Lateral Earth Pressures on Rigid Walls
Link Geosynthetics and Reinforced Soil Structures Lecture 21 - Geosynthetic Reinforced Soil Embankments - I
Link Geosynthetics and Reinforced Soil Structures Lecture 22 - Geosynthetic Reinforced Soil Embankments - II
Link Geosynthetics and Reinforced Soil Structures Lecture 23 - Two-Part Wedge Analysis of Reinforced Soil Embankments
Link Geosynthetics and Reinforced Soil Structures Lecture 24 - Soil Embankments Supported on Geocell Mattresses
Link Geosynthetics and Reinforced Soil Structures Lecture 25 - Accelerated Pre-Consolidation of Soft Clay Soils Using Geosynthetics
Link Geosynthetics and Reinforced Soil Structures Lecture 26 - Geosynthetic Reinforced Pile Systems for High Embankments
Link Geosynthetics and Reinforced Soil Structures Lecture 27 - Geosynthetic Encasement for Stronger and Stiffer Stone Columns
Link Geosynthetics and Reinforced Soil Structures Lecture 28 - Response of Footings Resting on Reinforced Foundation Soils
Link Geosynthetics and Reinforced Soil Structures Lecture 29 - Bearing Capacity Analysis of Footings Resting on Reinforced Foundation Soils
Link Geosynthetics and Reinforced Soil Structures Lecture 30 - Design and Construction of Container Yards Using Geosynthetics
Link Geosynthetics and Reinforced Soil Structures Lecture 31 - Geosynthetics in Flexible Pavements - I
Link Geosynthetics and Reinforced Soil Structures Lecture 32 - Geosynthetics in Flexible Pavements - II
Link Geosynthetics and Reinforced Soil Structures Lecture 33 - Geosynthetics in Flexible Pavements and Carbon Foot Print Analysis
Link Geosynthetics and Reinforced Soil Structures Lecture 34 - Filtration of Soils Using Geosynthetics
Link Geosynthetics and Reinforced Soil Structures Lecture 35 - Drainage Applications of Geosynthetics
Link Geosynthetics and Reinforced Soil Structures Lecture 36 - Erosion Control of Soils Using Geosynthetics
Link Geosynthetics and Reinforced Soil Structures Lecture 37 - Sustainable Infrastructure Development & Natural Geosynthetics
Link Geosynthetics and Reinforced Soil Structures Lecture 38 - Introduction to Geosynthetics in Landfills
Link Geosynthetics and Reinforced Soil Structures Lecture 39 - Case Study of the Construction of Airport Runway at Pakyong, Sikkim Using Geosynthetics (Guest Lecture)
Link Geosynthetics and Reinforced Soil Structures Lecture 40 - Landfill Engineering Systems (Guest Lecture)
Link Modern Construction Materials Lecture 1 - Prologue
Link Modern Construction Materials Lecture 2 - The Science, Engineering and Technology of Materials An Introduction - I
Link Modern Construction Materials Lecture 3 - The Science, Engineering and Technology of Materials An Introduction - II
Link Modern Construction Materials Lecture 4 - Review of Atomic Bonding - I
Link Modern Construction Materials Lecture 5 - Review of Atomic Bonding - II
Link Modern Construction Materials Lecture 6 - Structure of Solids - I
Link Modern Construction Materials Lecture 7 - Structure of Solids - II
Link Modern Construction Materials Lecture 8 - Structure of Solids - III
Link Modern Construction Materials Lecture 9 - Movement of Atoms in Solids
Link Modern Construction Materials Lecture 10 - Development of Microstructure - I
Link Modern Construction Materials Lecture 11 - Development of Microstructure - II
Link Modern Construction Materials Lecture 12 - Surface Properties
Link Modern Construction Materials Lecture 13 - Response to Stress - Part 1
Link Modern Construction Materials Lecture 14 - Response to Stress - Part 2
Link Modern Construction Materials Lecture 15 - Response to Stress - Part 3
Link Modern Construction Materials Lecture 16 - Failure Theories
Link Modern Construction Materials Lecture 17 - Fracture Mechanics - Part 1
Link Modern Construction Materials Lecture 18 - Fracture Mechanics - Part 2
Link Modern Construction Materials Lecture 19 - Rheology of Liquids and Solids
Link Modern Construction Materials Lecture 20 - Thermal Properties
Link Modern Construction Materials Lecture 21 - Review of Construction Materials
Link Modern Construction Materials Lecture 22 - Wood and Wood Products - 1
Link Modern Construction Materials Lecture 23 - Wood and Wood Products - 2
Link Modern Construction Materials Lecture 24 - Wood and Wood Products - Guest Lecture
Link Modern Construction Materials Lecture 25 - Polymers
Link Modern Construction Materials Lecture 26 - Fibre Reinforced Polymer - 1
Link Modern Construction Materials Lecture 27 - Fibre Reinforced Polymer - 2
Link Modern Construction Materials Lecture 28 - Metals - Part 1
Link Modern Construction Materials Lecture 29 - Metals - Part 2
Link Modern Construction Materials Lecture 30 - Metals - Part 3
Link Modern Construction Materials Lecture 31 - Bituminous Material - Part 1
Link Modern Construction Materials Lecture 32 - Bituminous Material - Part 2
Link Modern Construction Materials Lecture 33 - Concrete - Part 1
Link Modern Construction Materials Lecture 34 - Concrete - Part 2
Link Modern Construction Materials Lecture 35 - Concrete - Part 3
Link Modern Construction Materials Lecture 36 - Concrete - Part 4
Link Modern Construction Materials Lecture 37 - Concrete - Part 5
Link Modern Construction Materials Lecture 38 - Glass - Guest Lecture
Link Modern Construction Materials Lecture 39 - Social Perception - Guest Lecture
Link Modern Construction Materials Lecture 40 - Water Proofing - Guest Lecture
Link Modern Construction Materials Lecture 41 - Floor Finishes - Guest Lecture
Link Modern Construction Materials Lecture 42 - Anchors - Guest Lecture
Link Urban transportation planning Lecture 1 - Introduction
Link Urban transportation planning Lecture 2 - Introduction (Continued...)
Link Urban transportation planning Lecture 3 - Introduction (Continued...)
Link Urban transportation planning Lecture 4 - Course Outline
Link Urban transportation planning Lecture 5 - Conceptual Aspects
Link Urban transportation planning Lecture 6 - Conceptual Aspects (Continued...)
Link Urban transportation planning Lecture 7 - Conceptual Aspects (Continued...)
Link Urban transportation planning Lecture 8 - Conceptual Aspects (Continued...)
Link Urban transportation planning Lecture 9 - Trip Generation Analysis
Link Urban transportation planning Lecture 10 - Trip Generation Analysis (Continued...)
Link Urban transportation planning Lecture 11 - Trip Generation Analysis (Continued...)
Link Urban transportation planning Lecture 12 - Trip Generation Analysis (Continued...)
Link Urban transportation planning Lecture 13 - Modal Split Analysis
Link Urban transportation planning Lecture 14 - Modal Split Analysis (Continued...)
Link Urban transportation planning Lecture 15 - Modal Split Analysis (Continued...)
Link Urban transportation planning Lecture 16 - Modal Split Analysis (Continued...)
Link Urban transportation planning Lecture 17 - Modal Split Analysis (Continued...)
Link Urban transportation planning Lecture 18 - Modal Split Analysis (Continued...)
Link Urban transportation planning Lecture 19 - Modal Split Analysis (Continued...)
Link Urban transportation planning Lecture 20 - Trip Distribution Analysis
Link Urban transportation planning Lecture 21 - Trip Distribution Analysis (Continued...)
Link Urban transportation planning Lecture 22 - Trip Distribution Analysis (Continued...)
Link Urban transportation planning Lecture 23 - Trip Distribution Analysis (Continued...)
Link Urban transportation planning Lecture 24 - Trip Distribution Analysis (Continued...)
Link Urban transportation planning Lecture 25 - Trip Distribution Analysis (Continued...)
Link Urban transportation planning Lecture 26 - Trip Distribution Analysis (Continued...)
Link Urban transportation planning Lecture 27 - Route Assignment
Link Urban transportation planning Lecture 28 - Route Assignment (Continued...)
Link Urban transportation planning Lecture 29 - Route Assignment (Continued...)
Link Urban transportation planning Lecture 30 - Route Assignment (Continued...)
Link Urban transportation planning Lecture 31 - Transportation Surveys
Link Urban transportation planning Lecture 32 - Transportation Surveys (Continued...)
Link Urban transportation planning Lecture 33 - Transportation Surveys (Continued...)
Link Urban transportation planning Lecture 34 - Transport Related Land-Use Models
Link Urban transportation planning Lecture 35 - Transport Related Land-Use Models (Continued...)
Link Urban transportation planning Lecture 36 - Transport Related Land-Use Models (Continued...)
Link Urban transportation planning Lecture 37 - Urban Structure
Link Urban transportation planning Lecture 38 - Urban Structure (Continued...)
Link Urban transportation planning Lecture 39 - Urban Goods Movement
Link Urban transportation planning Lecture 40 - Urban Goods Movement (Continued...)
Link Mechanics of Solids Lecture 1 - Planar Rigid Body
Link Mechanics of Solids Lecture 2 - Degrees of freedom
Link Mechanics of Solids Lecture 3 - Equations of Equilibrium
Link Mechanics of Solids Lecture 4 - Planar rigid body Statics - Example 1
Link Mechanics of Solids Lecture 5 - Rigid Body Statics - Example 2
Link Mechanics of Solids Lecture 6 - Structural Systems with rigid bodies
Link Mechanics of Solids Lecture 7 - Types of 1-D Structural Elements
Link Mechanics of Solids Lecture 8 - Trusses - Axial members
Link Mechanics of Solids Lecture 9 - Analysis of Truss Systems
Link Mechanics of Solids Lecture 10 - Stability of Structural systems
Link Mechanics of Solids Lecture 11 - Trusses - additional discussions
Link Mechanics of Solids Lecture 12 - Trusses - Method of Sections
Link Mechanics of Solids Lecture 13 - Beams - Example 1
Link Mechanics of Solids Lecture 14 - Beams - BMD & SFD
Link Mechanics of Solids Lecture 15 - Beams - loading, shear and BM relationships
Link Mechanics of Solids Lecture 16 - Virtual work method
Link Mechanics of Solids Lecture 17 - Virtual displacements
Link Mechanics of Solids Lecture 18 - Finding virtual displacements
Link Mechanics of Solids Lecture 19 - Virtual Work Method - Example 1
Link Mechanics of Solids Lecture 20 - Virtual Work Method - Example 2
Link Mechanics of Solids Lecture 21 - Static Friction - an understanding
Link Mechanics of Solids Lecture 22 - Belt Friction
Link Mechanics of Solids Lecture 23 - Friction : Solving Problems
Link Mechanics of Solids Lecture 24 - General concepts - rigid bodies
Link Mechanics of Solids Lecture 25 - Motion of a rigid body = a translation + a rotation
Link Mechanics of Solids Lecture 26 - Motion of a point of the rigid body
Link Mechanics of Solids Lecture 27 - Motion of one point on a rigid body relative to another
Link Mechanics of Solids Lecture 28 - Understanding rotational motion r_dot = w x r
Link Mechanics of Solids Lecture 29 - Kinematics velocity and acceleration
Link Mechanics of Solids Lecture 30 - Understanding Coriolis Acceleration
Link Mechanics of Solids Lecture 31 - Kinematics - Solving problems
Link Mechanics of Solids Lecture 32 - Equations of motion of a rigid body
Link Mechanics of Solids Lecture 33 - Tips and Techniques 1/2
Link Mechanics of Solids Lecture 34 - Tips and Techniques 2/2
Link Mechanics of Solids Lecture 35 - Solving Problems 1/4
Link Mechanics of Solids Lecture 36 - Solving Problems 2/4
Link Mechanics of Solids Lecture 37 - Solving Problems 3/4
Link Mechanics of Solids Lecture 38 - Solving Problems 4/4
Link Mechanics of Solids Lecture 39 - Engineering Statics - Solving problems
Link Pre-stressed Concrete Structures Lecture 1 - Prestressing System
Link Pre-stressed Concrete Structures Lecture 2 - Types of Prestressing
Link Pre-stressed Concrete Structures Lecture 3 - Prestressing System and Devices (Pre-Tensioning)
Link Pre-stressed Concrete Structures Lecture 4 - Prestressing System and Devices (Post-Tensioning)
Link Pre-stressed Concrete Structures Lecture 5 - Concrete - Part-1
Link Pre-stressed Concrete Structures Lecture 6 - Concrete, Grout - Part-2
Link Pre-stressed Concrete Structures Lecture 7 - Prestressing Steel
Link Pre-stressed Concrete Structures Lecture 8 - Losses in Prestress
Link Pre-stressed Concrete Structures Lecture 9 - Friction & Anchorage Slip
Link Pre-stressed Concrete Structures Lecture 10 - Creep,Shrinkage & Relaxation Losses
Link Pre-stressed Concrete Structures Lecture 11 - Analysis of Members
Link Pre-stressed Concrete Structures Lecture 12 - Analysis of Members Under Flexure
Link Pre-stressed Concrete Structures Lecture 13 - Cracking Moment,Kern Point and Pressure Line
Link Pre-stressed Concrete Structures Lecture 14 - Analysis of Rectangular sections
Link Pre-stressed Concrete Structures Lecture 15 - Analysis of Flanged Sections
Link Pre-stressed Concrete Structures Lecture 16 - Analysis of Partially Prestressed Section
Link Pre-stressed Concrete Structures Lecture 17 - Design of Members
Link Pre-stressed Concrete Structures Lecture 18 - Design of Members for Flexure (Type1 Members)
Link Pre-stressed Concrete Structures Lecture 19 - Design of Members for Flexure (Type1 & Type3)
Link Pre-stressed Concrete Structures Lecture 20 - Choice of Sections and Determination of Limiting
Link Pre-stressed Concrete Structures Lecture 21 - Magnel`s Graphical Method
Link Pre-stressed Concrete Structures Lecture 22 - Detailing Requirements
Link Pre-stressed Concrete Structures Lecture 23 - Analysis and Design for Shear and Torsion
Link Pre-stressed Concrete Structures Lecture 24 - Design for Shear - Part-1
Link Pre-stressed Concrete Structures Lecture 25 - Design for Shear - Part-2
Link Pre-stressed Concrete Structures Lecture 26 - Analysis of Torsion
Link Pre-stressed Concrete Structures Lecture 27 - Analysis of Torsion - Part-1
Link Pre-stressed Concrete Structures Lecture 28 - Analysis of Torsion - Part-2
Link Pre-stressed Concrete Structures Lecture 29 - Calculations of Deflection and Crack Width
Link Pre-stressed Concrete Structures Lecture 30 - Transmission of Prestress
Link Pre-stressed Concrete Structures Lecture 31 - Post-tensioned Members
Link Pre-stressed Concrete Structures Lecture 32 - Cantilever Beams
Link Pre-stressed Concrete Structures Lecture 33 - Continuous Beams - Part-1
Link Pre-stressed Concrete Structures Lecture 34 - Continuous Beams - Part-2
Link Pre-stressed Concrete Structures Lecture 35 - Composite Sections
Link Pre-stressed Concrete Structures Lecture 36 - One-Way Slabs
Link Pre-stressed Concrete Structures Lecture 37 - Two-Way Slabs - Part-1
Link Pre-stressed Concrete Structures Lecture 38 - Two-Way Slabs - Part-2
Link Pre-stressed Concrete Structures Lecture 39 - compression Members
Link Pre-stressed Concrete Structures Lecture 40 - Circular Prestressing, Conclusion
Link Water and Waste Water Engineering Lecture 1 - Introduction To Water & Waste Water Engineering
Link Water and Waste Water Engineering Lecture 2 - Water & Waste Water Quality Enhancement
Link Water and Waste Water Engineering Lecture 3 - Water & Waste Water Quantity Estimation
Link Water and Waste Water Engineering Lecture 4 - Water & Waste Water Quantity Estimation (Continued...)
Link Water and Waste Water Engineering Lecture 5 - Water & Waste Water Characteristics
Link Water and Waste Water Engineering Lecture 6 - Water & Waste Water Characteristics (Continued...)
Link Water and Waste Water Engineering Lecture 7 - Water Treatment System Unit Operations
Link Water and Waste Water Engineering Lecture 8 - Sedimentation
Link Water and Waste Water Engineering Lecture 9 - Sedimentation (Continued...)
Link Water and Waste Water Engineering Lecture 10 - Coagulation & Flocculation
Link Water and Waste Water Engineering Lecture 11 - Coagulation & Flocculation (Continued...)
Link Water and Waste Water Engineering Lecture 12 - Softening
Link Water and Waste Water Engineering Lecture 13 - Filtration
Link Water and Waste Water Engineering Lecture 14 - Filtration (Continued...)
Link Water and Waste Water Engineering Lecture 15 - Disinfection
Link Water and Waste Water Engineering Lecture 16 - Introduction To Domestic Waste Water Treatment
Link Water and Waste Water Engineering Lecture 17 - Physical Unit Processes For Waste Water Treatment
Link Water and Waste Water Engineering Lecture 18 - Introduction To Microbiology
Link Water and Waste Water Engineering Lecture 19 - Microbiology - (Continued...)
Link Water and Waste Water Engineering Lecture 20 - Waste Water Treatment Reactor Analysis
Link Water and Waste Water Engineering Lecture 21 - Biological Unit Processes - Activated Sludge Process
Link Water and Waste Water Engineering Lecture 22 - Activated Sludge Process - Modification
Link Water and Waste Water Engineering Lecture 23 - Activated Sludge Process (Continued...)
Link Water and Waste Water Engineering Lecture 24 - Aeration,Nitrification And Denitrification
Link Water and Waste Water Engineering Lecture 25 - Natural Waste Water Treatment Systems: Ponds & Lagoons
Link Water and Waste Water Engineering Lecture 26 - Attached Growth Aerobic Process: Trickling Filters And Rotating Biological Contractors
Link Water and Waste Water Engineering Lecture 27 - Anaerobic Treatment
Link Water and Waste Water Engineering Lecture 28 - Anaerobic Process-UASB Reactor (Continued...)
Link Water and Waste Water Engineering Lecture 29 - UASB- Continued & Sludge Treatment
Link Water and Waste Water Engineering Lecture 30 - Sludge Treatment (Continued...)
Link Water and Waste Water Engineering Lecture 31 - Sludge Treatment (Continued...) & Waste Water Disposal
Link Water and Waste Water Engineering Lecture 32 - Waste Water Disposal And Reuse
Link Water and Waste Water Engineering Lecture 33 - Advanced Waste Water Treatment
Link Water and Waste Water Engineering Lecture 34 - Adsorption
Link Water and Waste Water Engineering Lecture 35 - Ion Exchange, Advanced Oxidation Process
Link Water and Waste Water Engineering Lecture 36 - Industrial Waste Water Treatment
Link Water and Waste Water Engineering Lecture 37 - Water Distribution Networks
Link Water and Waste Water Engineering Lecture 38 - Sanitary sewerage systems
Link Water and Waste Water Engineering Lecture 39 - Storm water sewerage systems
Link Water and Waste Water Engineering Lecture 40 - Intake Structures And Pumping Installations
Link NOC:Sustainable River Basin Management Lecture 1
Link NOC:Sustainable River Basin Management Lecture 2
Link NOC:Sustainable River Basin Management Lecture 3
Link NOC:Sustainable River Basin Management Lecture 4
Link NOC:Sustainable River Basin Management Lecture 5
Link NOC:Sustainable River Basin Management Lecture 6
Link NOC:Sustainable River Basin Management Lecture 7
Link NOC:Sustainable River Basin Management Lecture 8
Link NOC:Sustainable River Basin Management Lecture 9
Link NOC:Sustainable River Basin Management Lecture 10
Link NOC:Sustainable River Basin Management Lecture 11
Link NOC:Sustainable River Basin Management Lecture 12
Link NOC:Sustainable River Basin Management Lecture 13
Link NOC:Sustainable River Basin Management Lecture 14
Link NOC:Sustainable River Basin Management Lecture 15
Link NOC:Sustainable River Basin Management Lecture 16
Link NOC:Sustainable River Basin Management Lecture 17
Link NOC:Sustainable River Basin Management Lecture 18
Link NOC:Sustainable River Basin Management Lecture 19
Link NOC:Sustainable River Basin Management Lecture 20
Link NOC:Sustainable River Basin Management Lecture 21
Link NOC:Sustainable River Basin Management Lecture 22
Link NOC:Sustainable River Basin Management Lecture 23
Link NOC:Sustainable River Basin Management Lecture 24
Link NOC:Sustainable River Basin Management Lecture 25
Link NOC:Sustainable River Basin Management Lecture 26
Link NOC:Sustainable River Basin Management Lecture 27
Link NOC:Sustainable River Basin Management Lecture 28
Link NOC:Sustainable River Basin Management Lecture 29
Link NOC:Sustainable River Basin Management Lecture 30
Link NOC:Sustainable River Basin Management Lecture 31
Link NOC:Sustainable River Basin Management Lecture 32
Link NOC:Sustainable River Basin Management Lecture 33
Link NOC:Sustainable River Basin Management Lecture 34
Link NOC:Sustainable River Basin Management Lecture 35
Link NOC:Sustainable River Basin Management Lecture 36
Link NOC:Sustainable River Basin Management Lecture 37
Link NOC:Sustainable River Basin Management Lecture 38
Link NOC:Sustainable River Basin Management Lecture 39
Link NOC:Sustainable River Basin Management Lecture 40
Link NOC:Project Planning and Control Lecture 1 - What is Project Management? Is Project Management an Art/Science ?
Link NOC:Project Planning and Control Lecture 2 - Objectives of a Project, Scientific Way of Managing of Objectives
Link NOC:Project Planning and Control Lecture 3 - Course Scope and Plan, Questions and Discussions
Link NOC:Project Planning and Control Lecture 4 - Construction Industry and National Growth
Link NOC:Project Planning and Control Lecture 5 - Project Stakeholders, Project Phases, Project Organization
Link NOC:Project Planning and Control Lecture 6 - Project Scheduling Levels (Scheduling Engineer Responsibilities)
Link NOC:Project Planning and Control Lecture 7 - Time Management - Overview
Link NOC:Project Planning and Control Lecture 8 - Basics of Work Breakdown Structure (WBS)
Link NOC:Project Planning and Control Lecture 9 - Tools for Time Management
Link NOC:Project Planning and Control Lecture 10 - Gantt / Bar Chart - History, Representation, Progress Monitoring, Uses, Steps to draw a Bar Chart
Link NOC:Project Planning and Control Lecture 11 - Develop a Bar Chart (Exercise)
Link NOC:Project Planning and Control Lecture 12 - Bar Charts for Resource Usage, Pros and Cons
Link NOC:Project Planning and Control Lecture 13 - Duration Estimation - Types, Inputs, Methods, Parametric Estimation
Link NOC:Project Planning and Control Lecture 14 - Factors influencing Productivity, Example for Ideal Productivity, Factored Productivity and Working Time Factor
Link NOC:Project Planning and Control Lecture 15 - Piling Activity Example, Applicability of different methods to Estimate Activity Duration
Link NOC:Project Planning and Control Lecture 16 - Summary of Key Topics, Types of Networks
Link NOC:Project Planning and Control Lecture 17 - Networks - Introduction, Techniques
Link NOC:Project Planning and Control Lecture 18 - Representing Results in a Bar Chart, AON Example-2
Link NOC:Project Planning and Control Lecture 19 - Introduction to Floats, Types of Floats and Example-1 Discussion
Link NOC:Project Planning and Control Lecture 20 - Example 4, Usage of Floats for Project Decisions
Link NOC:Project Planning and Control Lecture 21 - Two-Span Bridge : Activity Identification and Duration Estimation (Continued...)
Link NOC:Project Planning and Control Lecture 22 - Two-Span Bridge : Activity Identification and Duration Estimation
Link NOC:Project Planning and Control Lecture 23 - Two-Span Bridge : Activity- Duration- Predecessors
Link NOC:Project Planning and Control Lecture 24 - Review Network Analysis Concepts, Apply Network Analysis to Two-Span Bridge (Continued...)
Link NOC:Project Planning and Control Lecture 25 - Two-Span Bridge : Network Analysis
Link NOC:Project Planning and Control Lecture 26 - Two-Span Bridge : Resource Constraints in Network Logic
Link NOC:Project Planning and Control Lecture 27 - Fast-Tracking vs Crashing, Relationship between Activity Direct Cost and Activity Duration - Assumptions
Link NOC:Project Planning and Control Lecture 28 - Time-Cost trade-off : ABCD Example Project, Steps for Crashing
Link NOC:Project Planning and Control Lecture 29 - Time-Cost trade-off : Class Exercise-2
Link NOC:Project Planning and Control Lecture 30 - Time-Cost trade-off : Problem-3, Tabulation Approach
Link NOC:Project Planning and Control Lecture 31 - Incorporating Factors such as Bonus and Penalty; Problem-4
Link NOC:Project Planning and Control Lecture 32 - What is Resource?, Influence of Resources on Schedule, Two-Span Bridge Example, Resource Decisions; ABCD Example Project; Resource Over-Allocation; Example-2
Link NOC:Project Planning and Control Lecture 33 - Projects and Resources, Example of Two Resources, Exercise, Two-Span Bridge Example
Link NOC:Project Planning and Control Lecture 34 - Review Problem-1; Problem-2 (Cash Resource); Resolving Over-Allocation
Link NOC:Project Planning and Control Lecture 35 - Problem 1 - Two Resources; Resolving Resource Allocation Problems
Link NOC:Project Planning and Control Lecture 36 - Resource Profile Requirements
Link NOC:Project Planning and Control Lecture 37 - Resource Leveling - Example Network
Link NOC:Project Planning and Control Lecture 38 - Minimum Moment Concept
Link NOC:Project Planning and Control Lecture 39 - Applying Improvement Factor - Illustration
Link NOC:Project Planning and Control Lecture 40 - Introduction to Precedence Diagramming Method (PDM)
Link NOC:Project Planning and Control Lecture 41 - PDM network representation and its issues, Network Calculation
Link NOC:Project Planning and Control Lecture 42 - PDM – Problem #1
Link NOC:Project Planning and Control Lecture 43 - Issues in PDM, Negative Lags, Problem #2 Solution
Link NOC:Project Planning and Control Lecture 44 - PDM – Analysis with non-continuous duration, Floats
Link NOC:Project Planning and Control Lecture 45 - Defining Relationship (Based on Construction Method) - Simple Shed
Link NOC:Project Planning and Control Lecture 46 - Project Monitoring & Control – Typical Project Time Monitoring Process, Levels and Frequency of updates
Link NOC:Project Planning and Control Lecture 47 - Project Control Process, Daily Progress Report, Macro Level Update- Data Need, Standard Progress Reports
Link NOC:Project Planning and Control Lecture 48 - Application: Two Span Bridge – ES Schedule
Link NOC:Project Planning and Control Lecture 49 - Review of Key Issues in Project Monitoring, Earned Value Concept Through Examples
Link NOC:Project Planning and Control Lecture 50 - Basic Earned Value Definitions and Terminology, Summary
Link NOC:Project Planning and Control Lecture 51 - Uncertainty in Project Schedules
Link NOC:Project Planning and Control Lecture 52 - PERT Background & Assumptions, Stepwise Procedure
Link NOC:Project Planning and Control Lecture 53 - PERT Example Problem, Summary
Link NOC:Project Planning and Control Lecture 54 - Course Conclusion
Link NOC:Project Planning and Control Lecture 55 - Emerging Trends / Tools in Project Planning
Link NOC:Project Planning and Control Lecture 56 - Industry Perspective – Prof. N. Raghavan
Link NOC:Project Planning and Control Lecture 57 - Final Exam Pattern, Acknowledgements
Link NOC:Structural Dynamics Lecture 1 - Module 1: Introduction of Structural Dynamics
Link NOC:Structural Dynamics Lecture 2 - Module 2: Types of Analysis
Link NOC:Structural Dynamics Lecture 3 - Module 3: Degrees of Freedom
Link NOC:Structural Dynamics Lecture 4 - Module 4: Vibrations of SDOF Systems
Link NOC:Structural Dynamics Lecture 5 - Module 5: Methods Solution of Equilibrium Equation
Link NOC:Structural Dynamics Lecture 6 - Module 6: UnDamped free Vibration
Link NOC:Structural Dynamics Lecture 7 - What is MATLAB?
Link NOC:Structural Dynamics Lecture 8 - Getting Started with MATLAB Online
Link NOC:Structural Dynamics Lecture 9 - MATLAB Variables
Link NOC:Structural Dynamics Lecture 10 - MATLAB as a Calculator
Link NOC:Structural Dynamics Lecture 11 - MATLAB Functions
Link NOC:Structural Dynamics Lecture 12 - Creating Vectors
Link NOC:Structural Dynamics Lecture 13 - Creating Uniformly Spaced Vectors (Colon Operator)
Link NOC:Structural Dynamics Lecture 14 - Creating Uniformly Spaced Vectors (LINSPACE)
Link NOC:Structural Dynamics Lecture 15 - Accessing Elements of a Vector
Link NOC:Structural Dynamics Lecture 16 - Calculations with Vectors
Link NOC:Structural Dynamics Lecture 17 - Creating Matrices
Link NOC:Structural Dynamics Lecture 18 - Matrix Creation Functions
Link NOC:Structural Dynamics Lecture 19 - Accessing Elements of a Matrix
Link NOC:Structural Dynamics Lecture 20 - Matrix Multiplication
Link NOC:Structural Dynamics Lecture 21 - Logical Operators
Link NOC:Structural Dynamics Lecture 22 - Writing a FOR Loop
Link NOC:Structural Dynamics Lecture 23 - If - Else Statements
Link NOC:Structural Dynamics Lecture 24 - While Loop
Link NOC:Structural Dynamics Lecture 25 - Line Plots
Link NOC:Structural Dynamics Lecture 26 - Annotating Graphs
Link NOC:Structural Dynamics Lecture 27 - Exploring Figures in MATLAB Online
Link NOC:Structural Dynamics Lecture 28 - Damped Free Vibration
Link NOC:Structural Dynamics Lecture 29 - Types of Damping
Link NOC:Structural Dynamics Lecture 30 - Logarithmic Decrement
Link NOC:Structural Dynamics Lecture 31 - Dynamic Equilibrium Equation Using Energy Method
Link NOC:Structural Dynamics Lecture 32 - Module 1: UnDamped Forced Vibration
Link NOC:Structural Dynamics Lecture 33 - Module 2: Damped Forced Vibration
Link NOC:Structural Dynamics Lecture 34 - Module 3: Relationship between Rd, Rv & Ra
Link NOC:Structural Dynamics Lecture 35 - Module 4: Resonant Frequency & Half Power Band Width
Link NOC:Structural Dynamics Lecture 36 - Module 5: Transmissibility
Link NOC:Structural Dynamics Lecture 37 - Module 1: Response to Arbitrary Force
Link NOC:Structural Dynamics Lecture 38 - Module 2: Special Cases in Arbitrary Force
Link NOC:Structural Dynamics Lecture 39 - Module 3: Fourier Transformation
Link NOC:Structural Dynamics Lecture 40 - Module 1: Numerical Methods
Link NOC:Structural Dynamics Lecture 41 - Module 2: Methods Based on Interpolation of Excitation
Link NOC:Structural Dynamics Lecture 42 - Module 3: Central Difference Method
Link NOC:Structural Dynamics Lecture 43 - Module 4: Numerical Methods based on Variation of Acceleration: Newmark’s Method
Link NOC:Structural Dynamics Lecture 44 - Central Difference Method (Tutorial)
Link NOC:Structural Dynamics Lecture 45 - Module 1: Response Spectrum
Link NOC:Structural Dynamics Lecture 46 - Module 2: Special Cases of Response Spectrum
Link NOC:Structural Dynamics Lecture 47 - Module 3: Development of Tripartite Plot
Link NOC:Structural Dynamics Lecture 48 - Module 1: Multi-Degree of Freedom System
Link NOC:Structural Dynamics Lecture 49 - Module 2: Multi-Degree of Freedom System: Solution of Equilibrium Equation
Link NOC:Structural Dynamics Lecture 50 - Module 3: Multi-Degree of Freedom System: Modal Orthogonality
Link NOC:Structural Dynamics Lecture 51 - Module 4: Approximate Methods For Finding Natural Frequency
Link NOC:Structural Dynamics Lecture 52 - Tutorial 01: Generation of Mass Matrix
Link NOC:Structural Dynamics Lecture 53 - Tutorial 2: Eigen vector and Modal Orthogonality
Link NOC:Structural Dynamics Lecture 54 - Module 1: Time History Analysis
Link NOC:Structural Dynamics Lecture 55 - Module 2: Response Spectrum Analysis
Link NOC:Structural Dynamics Lecture 56 - Module 1: Three Dimensional Dynamic Analysis
Link NOC:Structural Dynamics Lecture 57 - Module 2: Generation of Elastic Design Response Spectra
Link NOC:Structural Dynamics Lecture 58 - W09T01: Centre of Mass & Centre of Stiffness
Link NOC:Structural Dynamics Lecture 59 - Module 1: Vibration of Continuous Systems
Link NOC:Structural Dynamics Lecture 60 - Module 2: Example Problem on Continuous system
Link NOC:Structural Dynamics Lecture 61 - Module 3: Theory of Seismometer
Link NOC:Structural Dynamics Lecture 62 - Module 1: Dynamics of Non Structural Elements
Link NOC:Structural Dynamics Lecture 63 - Module 2: Non Structural Elements Example
Link NOC:Structural Dynamics Lecture 64 - W11T: Non Structural Elements
Link NOC:Structural Dynamics Lecture 65 - Module 1: Classical and Non-classical Damping
Link NOC:Structural Dynamics Lecture 66 - Module 2: Vibration Control
Link NOC:Structural Dynamics Lecture 67 - Module 3: Base Isolation
Link NOC:Structural Dynamics Lecture 68 - Module 4: Tuned Mass Damper
Link NOC:Mechanics of Materials Lecture 1 - Why this course?
Link NOC:Mechanics of Materials Lecture 2 - Concepts and equations in this course
Link NOC:Mechanics of Materials Lecture 3 - Objectives and prerequisite
Link NOC:Mechanics of Materials Lecture 4 - Linear Algebra
Link NOC:Mechanics of Materials Lecture 5 - Vector Algebra
Link NOC:Mechanics of Materials Lecture 6 - Representation of Vector
Link NOC:Mechanics of Materials Lecture 7 - Concept of Force
Link NOC:Mechanics of Materials Lecture 8 - Definition of a body
Link NOC:Mechanics of Materials Lecture 9 - Motion and Displacement field
Link NOC:Mechanics of Materials Lecture 10 - Traction
Link NOC:Mechanics of Materials Lecture 11 - Properties of traction
Link NOC:Mechanics of Materials Lecture 12 - Defnition of stress tensor and linear function
Link NOC:Mechanics of Materials Lecture 13 - Tensor Algebra
Link NOC:Mechanics of Materials Lecture 14 - Meaning of components of the stress tensor
Link NOC:Mechanics of Materials Lecture 15 - Transformation of stress components
Link NOC:Mechanics of Materials Lecture 16 - Mohr's Circle derivaion
Link NOC:Mechanics of Materials Lecture 17 - Example 1: Construction of Mohr's circle
Link NOC:Mechanics of Materials Lecture 18 - Example 2: Extremum normal and shear stress
Link NOC:Mechanics of Materials Lecture 19 - Example 3: Transformation of stress components
Link NOC:Mechanics of Materials Lecture 20 - Uniaxial stress
Link NOC:Mechanics of Materials Lecture 21 - Hydrostatic, pure shear and deviatoric stress
Link NOC:Mechanics of Materials Lecture 22 - Biaxial and Plane state of stress
Link NOC:Mechanics of Materials Lecture 23 - Extreme stress for 3D stresses
Link NOC:Mechanics of Materials Lecture 24 - Extremum shear stress
Link NOC:Mechanics of Materials Lecture 25 - Stresses in the Octahedral plane
Link NOC:Mechanics of Materials Lecture 26 - 2D Equilibrium equations
Link NOC:Mechanics of Materials Lecture 27 - 3D Equilibrium equations
Link NOC:Mechanics of Materials Lecture 28 - Stretch ratio and strain
Link NOC:Mechanics of Materials Lecture 29 - Curves and arc Length
Link NOC:Mechanics of Materials Lecture 30 - Gradient
Link NOC:Mechanics of Materials Lecture 31 - Deformation and displacement Gradient
Link NOC:Mechanics of Materials Lecture 32 - Right Cauchy Green Deformation tensor
Link NOC:Mechanics of Materials Lecture 33 - Homogeneous deformation
Link NOC:Mechanics of Materials Lecture 34 - Engineering strain
Link NOC:Mechanics of Materials Lecture 35 - Change in Angle
Link NOC:Mechanics of Materials Lecture 36 - Transformation of strain components/ Strain Rosette
Link NOC:Mechanics of Materials Lecture 37 - Compatibility condition
Link NOC:Mechanics of Materials Lecture 38 - Constitutive relation
Link NOC:Mechanics of Materials Lecture 39 - Young's Modulus and Poisson's Ratio
Link NOC:Mechanics of Materials Lecture 40 - Shear Modulus
Link NOC:Mechanics of Materials Lecture 41 - Bulk Modulus
Link NOC:Mechanics of Materials Lecture 42 - Restriction on material parameters
Link NOC:Mechanics of Materials Lecture 43 - Thermal strain
Link NOC:Mechanics of Materials Lecture 44 - Strain energy, load potential and total potential
Link NOC:Mechanics of Materials Lecture 45 - Stepped shaft subjected to axial force
Link NOC:Mechanics of Materials Lecture 46 - Inhomogeneous bar subjected to axial force
Link NOC:Mechanics of Materials Lecture 47 - Stepped shaft subjected to raise in temperature
Link NOC:Mechanics of Materials Lecture 48 - Traction in member subjected to bending
Link NOC:Mechanics of Materials Lecture 49 - Governing equilibrium equations
Link NOC:Mechanics of Materials Lecture 50 - Displacement field
Link NOC:Mechanics of Materials Lecture 51 - Bending equation
Link NOC:Mechanics of Materials Lecture 52 - Radius of curvature
Link NOC:Mechanics of Materials Lecture 53 - Shear force and bending moment diagram
Link NOC:Mechanics of Materials Lecture 54 - Variation of axial stress
Link NOC:Mechanics of Materials Lecture 55 - Deflected shape and rotation of cross section
Link NOC:Mechanics of Materials Lecture 56 - Expression to find shear stress
Link NOC:Mechanics of Materials Lecture 57 - Finding centroid of a cross section
Link NOC:Mechanics of Materials Lecture 58 - Parallel axis theorem and its application
Link NOC:Mechanics of Materials Lecture 59 - Vertical shear stress in I section
Link NOC:Mechanics of Materials Lecture 60 - Horizontal shear stress in I section
Link NOC:Mechanics of Materials Lecture 61 - Connection design
Link NOC:Mechanics of Materials Lecture 62 - Definition of shear center
Link NOC:Mechanics of Materials Lecture 63 - Shear center of Channel section
Link NOC:Mechanics of Materials Lecture 64 - Expression to find shear center
Link NOC:Mechanics of Materials Lecture 65 - Shear force and bending moment diagram
Link NOC:Mechanics of Materials Lecture 66 - Deflected shape and rotation of cross section
Link NOC:Mechanics of Materials Lecture 67 - Finding allowable load
Link NOC:Mechanics of Materials Lecture 68 - Modified bending equation
Link NOC:Mechanics of Materials Lecture 69 - Bending of a composite beam
Link NOC:Mechanics of Materials Lecture 70 - Connection design
Link NOC:Mechanics of Materials Lecture 71 - Moment of Intertia about arbitrarily oriented axis
Link NOC:Mechanics of Materials Lecture 72 - Example: Angle section
Link NOC:Mechanics of Materials Lecture 73 - Bending equation for bending about principal axis
Link NOC:Mechanics of Materials Lecture 74 - Bending equation about arbitrary axis
Link NOC:Mechanics of Materials Lecture 75 - Neutral axis
Link NOC:Mechanics of Materials Lecture 76 - Load not about principal axis
Link NOC:Mechanics of Materials Lecture 77 - Load about principal axis
Link NOC:Mechanics of Materials Lecture 78 - Displacement field
Link NOC:Mechanics of Materials Lecture 79 - Torsion equation
Link NOC:Mechanics of Materials Lecture 80 - Example problems
Link NOC:Mechanics of Materials Lecture 81 - Expression relating angle of twist with torsion and shear stress
Link NOC:Mechanics of Materials Lecture 82 - Example problems: Open sections
Link NOC:Mechanics of Materials Lecture 83 - Thin walled closed sections
Link NOC:Mechanics of Materials Lecture 84 - Example problems: Thin walled sections
Link NOC:Mechanics of Materials Lecture 85 - Cylindrical polar coordinate system
Link NOC:Mechanics of Materials Lecture 86 - Displacement field
Link NOC:Mechanics of Materials Lecture 87 - Governing differential equation and solution
Link NOC:Mechanics of Materials Lecture 88 - Example problems : Thick walled cylindrical vessel
Link NOC:Mechanics of Materials Lecture 89 - Thin walled pressure vessels
Link NOC:Mechanics of Materials Lecture 90 - General Principals
Link NOC:Mechanics of Materials Lecture 91 - Different failure modes
Link NOC:Mechanics of Materials Lecture 92 - Tresca Condition
Link NOC:Mechanics of Materials Lecture 93 - vonMises condition
Link NOC:Mechanics of Materials Lecture 94 - Maximum normal stress or rankine condition
Link NOC:Mechanics of Materials Lecture 95 - Mohr - Columb condition
Link NOC:Mechanics of Materials Lecture 96 - Drucker-Prager Condition
Link NOC:Mechanics of Materials Lecture 97 - General Concepts
Link NOC:Mechanics of Materials Lecture 98 - Euler critical load for simply supported column
Link NOC:Mechanics of Materials Lecture 99 - Euler critical load for column with any boundary condition
Link NOC:Mechanics of Materials Lecture 100 - Secant formula
Link NOC:Mechanics of Materials Lecture 101 - Pressure vessel and failure theory
Link NOC:Mechanics of Materials Lecture 102 - Determination of maximum load carrying capacity of a simple truss
Link NOC:Advanced Concrete Technology Lecture 0 - Introduction to course
Link NOC:Advanced Concrete Technology Lecture 1 - Cement Production - Part 1
Link NOC:Advanced Concrete Technology Lecture 2 - Cement Production - Part 2
Link NOC:Advanced Concrete Technology Lecture 3 - Cement Composition - Part 1
Link NOC:Advanced Concrete Technology Lecture 4 - Cement Composition - Part 2
Link NOC:Advanced Concrete Technology Lecture 5 - Cement Classification - Part 1
Link NOC:Advanced Concrete Technology Lecture 6 - Cement Classification - Part 2
Link NOC:Advanced Concrete Technology Lecture 7 - Cement Chemistry - Part 1
Link NOC:Advanced Concrete Technology Lecture 8 - Cement Chemistry - Part 2
Link NOC:Advanced Concrete Technology Lecture 9 - Cement Chemistry - Part 3
Link NOC:Advanced Concrete Technology Lecture 10 - Cement Chemistry - Part 4
Link NOC:Advanced Concrete Technology Lecture 11 - Cement Chemistry - Part 5
Link NOC:Advanced Concrete Technology Lecture 12 - Aggregates for concrete - Part 1
Link NOC:Advanced Concrete Technology Lecture 13 - Aggregates for concrete - Part 2
Link NOC:Advanced Concrete Technology Lecture 14 - Chemical admixtures - Part 1
Link NOC:Advanced Concrete Technology Lecture 15 - Chemical admixtures - Part 2
Link NOC:Advanced Concrete Technology Lecture 16 - Chemical admixtures - Part 3
Link NOC:Advanced Concrete Technology Lecture 17 - Chemical admixtures - Part 4
Link NOC:Advanced Concrete Technology Lecture 18 - Chemical admixtures - Part 5
Link NOC:Advanced Concrete Technology Lecture 19 - Mineral admixtures - Part 1
Link NOC:Advanced Concrete Technology Lecture 20 - Mineral admixtures - Part 2
Link NOC:Advanced Concrete Technology Lecture 21 - Mineral admixtures - Part 3
Link NOC:Advanced Concrete Technology Lecture 22 - Mineral admixtures - Part 4
Link NOC:Advanced Concrete Technology Lecture 23 - Mineral admixtures - Part 5
Link NOC:Advanced Concrete Technology Lecture 24 - Mineral admixtures - Part 6
Link NOC:Advanced Concrete Technology Lecture 25 - Mineral admixtures - Part 7
Link NOC:Advanced Concrete Technology Lecture 26 - Mixture proportioning
Link NOC:Advanced Concrete Technology Lecture 27 - Fresh concrete - Part 1
Link NOC:Advanced Concrete Technology Lecture 28 - Fresh concrete - Part 2
Link NOC:Advanced Concrete Technology Lecture 29 - Fresh properties - Part 3
Link NOC:Advanced Concrete Technology Lecture 30 - Introduction to Harden concrete properties
Link NOC:Advanced Concrete Technology Lecture 31 - Post peak response and Fibre reinforced concrete
Link NOC:Advanced Concrete Technology Lecture 32 - Shrinkage: Mechanism and Behaviours
Link NOC:Advanced Concrete Technology Lecture 33 - Creep: Mechanism and Behaviours
Link NOC:Advanced Concrete Technology Lecture 34 - Shrinkage: Plastic Shrinkage
Link NOC:Advanced Concrete Technology Lecture 35 - Shrinkage: Drying Shrinkage
Link NOC:Advanced Concrete Technology Lecture 36 - Introduction to Durability
Link NOC:Advanced Concrete Technology Lecture 37 - Performance based specifications for durable concrete
Link NOC:Advanced Concrete Technology Lecture 38 - Durability issues in concrete - Part 1
Link NOC:Advanced Concrete Technology Lecture 39 - Durability issues in concrete - Part 2
Link NOC:Advanced Concrete Technology Lecture 40 - Durability issues in concrete - Part 3
Link NOC:Advanced Concrete Technology Lecture 41 - Durability issues in concrete - Part 4
Link NOC:Advanced Concrete Technology Lecture 42 - Durability issues in concrete - Part 5
Link NOC:Advanced Concrete Technology Lecture 43 - Durability issues in concrete - Part 6
Link NOC:Glass in Buildings: Design and Application Lecture 1 - Introduction
Link NOC:Glass in Buildings: Design and Application Lecture 2 - Float Process for Manufacturing Glass - Part 1
Link NOC:Glass in Buildings: Design and Application Lecture 3 - Float Process for Manufacturing Glass - Part 2
Link NOC:Glass in Buildings: Design and Application Lecture 4 - Coatings on Glass - Need and Types - Part 2
Link NOC:Glass in Buildings: Design and Application Lecture 5 - Coatings on Glass - Need and Types - Part 2
Link NOC:Glass in Buildings: Design and Application Lecture 6 - Glass Design for Safety, Sustainability and Aesthetic - Part 1
Link NOC:Glass in Buildings: Design and Application Lecture 7 - Glass Design for Safety, Sustainability and Aesthetic - Part 2
Link NOC:Glass in Buildings: Design and Application Lecture 8 - Structural Control and Design for Energy Efficiency - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 9 - Structural Control and Design for Energy Efficiency - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 10 - Structural Control and Design for Energy Efficiency - Part III
Link NOC:Glass in Buildings: Design and Application Lecture 11 - Structural Control and Design for Energy Efficiency - Part IV
Link NOC:Glass in Buildings: Design and Application Lecture 12 - Structural Control and Design for Energy Efficiency - Part V
Link NOC:Glass in Buildings: Design and Application Lecture 13 - Design Tools for Glass Selection - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 14 - Design Tools for Glass Selection - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 15 - Modeling the Building Envelope - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 16 - Modeling the Building Envelope - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 17 - Modeling the Building Envelope - Part III
Link NOC:Glass in Buildings: Design and Application Lecture 18 - Innovations in Glass Future Facades - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 19 - Innovations in Glass Future Facades - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 20 - Standards Related to Glass
Link NOC:Glass in Buildings: Design and Application Lecture 21 - Introduction to Useful Daylighting in Buildings
Link NOC:Glass in Buildings: Design and Application Lecture 22 - Fundamentals of Daylighting - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 23 - Fundamentals of Daylighting - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 24 - Daylighting Strategies - Techniques - Part I - Video 1
Link NOC:Glass in Buildings: Design and Application Lecture 25 - Daylighting Strategies - Techniques - Part I - Video 2
Link NOC:Glass in Buildings: Design and Application Lecture 26 - Daylighting Strategies - Techniques - Part II - Video 1
Link NOC:Glass in Buildings: Design and Application Lecture 27 - Daylighting Strategies - Techniques - Part II - Video 2
Link NOC:Glass in Buildings: Design and Application Lecture 28 - Daylighting Strategies - Techniques - Part II - Video 3
Link NOC:Glass in Buildings: Design and Application Lecture 29 - ECBC and Green Building Requirements
Link NOC:Glass in Buildings: Design and Application Lecture 30 - Introduction to Daylight Simulation
Link NOC:Glass in Buildings: Design and Application Lecture 31 - Daylighting Controls - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 32 - Daylighting Controls - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 33 - Acheving Acoustics Through Glass
Link NOC:Glass in Buildings: Design and Application Lecture 34 - Glass Processing Overview - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 35 - Glass Processing Overview - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 36 - Interior Glazing Program - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 37 - Interior Glazing Program - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 38 - Interior Glazing Applications-Shower Enclosure - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 39 - Interior Glazing Applications-Shower Enclosure - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 40 - Interior Glazing Applications-Shower Enclosure - Part III
Link NOC:Glass in Buildings: Design and Application Lecture 41 - Interior Glazing Applications-Shower Enclosure - Part IV
Link NOC:Glass in Buildings: Design and Application Lecture 42 - Glass in Passive Fire Protection - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 43 - Glass in Passive Fire Protection - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 44 - Glass in Passive Fire Protection - Part III
Link NOC:Glass in Buildings: Design and Application Lecture 45 - Glazing Choices for Project Segment - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 46 - Glazing Choices for Project Segment - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 47 - National Building Code 2016 - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 48 - National Building Code 2016 - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 49 - National Building Code 2016 - Part III
Link NOC:Glass in Buildings: Design and Application Lecture 50 - National Building Code 2016 - Part IV
Link NOC:Glass in Buildings: Design and Application Lecture 51 - Facade Fundamentals - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 52 - Facade Fundamentals - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 53 - Facade Fundamentals - Part III
Link NOC:Glass in Buildings: Design and Application Lecture 54 - Facade Fundamentals - Part IV
Link NOC:Glass in Buildings: Design and Application Lecture 55 - Glass Application on Facades - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 56 - Glass Application on Facades - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 57 - Glass Application on Facades - Part III
Link NOC:Glass in Buildings: Design and Application Lecture 58 - Energy Efficiency Facade System
Link NOC:Glass in Buildings: Design and Application Lecture 59 - Structural Design of Facades - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 60 - Structural Design of Facades - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 61 - Silicone for Structural Glazing - Part - I
Link NOC:Glass in Buildings: Design and Application Lecture 62 - Silicone for Structural Glazing - Part - II
Link NOC:Glass in Buildings: Design and Application Lecture 63 - Silicone for Structural Glazing - Part - III
Link NOC:Glass in Buildings: Design and Application Lecture 64 - Facade Factory Operations - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 65 - Facade Factory Operations - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 66 - Performance Testing for Facades - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 67 - Performance Testing for Facades - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 68 - The Role of Windows in Building Design - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 69 - The Role of Windows in Building Design - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 70 - Standards Related to Glass II
Link NOC:Glass in Buildings: Design and Application Lecture 71 - FAQs about usage of Glass in Buildings
Link NOC:Glass in Buildings: Design and Application Lecture 72 - Case Study of a Different Concept of Facade
Link NOC:Glass in Buildings: Design and Application Lecture 73 - Case Studies-Envelope Design and Its Impact - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 74 - Case Studies-Envelope Design and Its Impact - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 75 - A Case Study of Building Envelope in the context of Environmentally Sustainable Design - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 76 - A Case Study of Building Envelope in the context of Environmentally Sustainable Design - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 77 - Sustainable Building and Facades - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 78 - Sustainable Building and Facades - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 79 - Building Envelope Design for Sustainable Buildings
Link NOC:Glass in Buildings: Design and Application Lecture 80 - Building Envelope Design
Link NOC:Glass in Buildings: Design and Application Lecture 81 - Case Study for Building Envelop Design - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 82 - Case Study for Building Envelop Design - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 83 - Case study-Commercial Buildings - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 84 - Case study-Commercial Buildings - Part II
Link NOC:Glass in Buildings: Design and Application Lecture 85 - Case study-Commercial Buildings - Part III
Link NOC:Glass in Buildings: Design and Application Lecture 86 - Case Study-The Untold Truth of the Unbuilt - Part I
Link NOC:Glass in Buildings: Design and Application Lecture 87 - Case Study-The Untold Truth of the Unbuilt - Part II
Link NOC:Glass Processing Technology Lecture 1 - Introduction
Link NOC:Glass Processing Technology Lecture 2 - Glass as Building Material - Part I
Link NOC:Glass Processing Technology Lecture 3 - Glass as Building Material - Part II
Link NOC:Glass Processing Technology Lecture 4 - Float Glass Manufacturing - Part I
Link NOC:Glass Processing Technology Lecture 5 - Float Glass Manufacturing - Part II
Link NOC:Glass Processing Technology Lecture 6 - Glass Coating Technology - Part I
Link NOC:Glass Processing Technology Lecture 7 - Glass Coating Technology - Part II
Link NOC:Glass Processing Technology Lecture 8 - Safety in Industries - Part I
Link NOC:Glass Processing Technology Lecture 9 - Safety in Industries - Part II
Link NOC:Glass Processing Technology Lecture 10 - Safety in Glass Handling - Part I
Link NOC:Glass Processing Technology Lecture 11 - Safety in Glass Handling - Part II
Link NOC:Glass Processing Technology Lecture 12 - Process Flow- PPE
Link NOC:Glass Processing Technology Lecture 13 - Serviceability-Sales - Production Planning in Solutions Business - Part I
Link NOC:Glass Processing Technology Lecture 14 - Serviceability-Sales - Production Planning in Solutions Business - Part II
Link NOC:Glass Processing Technology Lecture 15 - Serviceability-Sales - Production Planning in Solutions Business - Part III
Link NOC:Glass Processing Technology Lecture 16 - Environment and Eco packaging
Link NOC:Glass Processing Technology Lecture 17 - Glass Warehouse Management - Part I
Link NOC:Glass Processing Technology Lecture 18 - Glass Warehouse Management - Part II
Link NOC:Glass Processing Technology Lecture 19 - Cutting and Snapping
Link NOC:Glass Processing Technology Lecture 20 - Pre-Processing-Drilling - Part I
Link NOC:Glass Processing Technology Lecture 21 - Pre-Processing-Drilling - Part II
Link NOC:Glass Processing Technology Lecture 22 - Grinding and Fabrication
Link NOC:Glass Processing Technology Lecture 23 - Pre-Processing - Washing
Link NOC:Glass Processing Technology Lecture 24 - Tempering - Part I
Link NOC:Glass Processing Technology Lecture 25 - Tempering - Part II
Link NOC:Glass Processing Technology Lecture 26 - Tempering - Part III
Link NOC:Glass Processing Technology Lecture 27 - Tempering - Part IV
Link NOC:Glass Processing Technology Lecture 28 - Tempering - Part V
Link NOC:Glass Processing Technology Lecture 29 - Tempering - Part VI
Link NOC:Glass Processing Technology Lecture 30 - Tempering - Part VII
Link NOC:Glass Processing Technology Lecture 31 - Lamination - Part I
Link NOC:Glass Processing Technology Lecture 32 - Lamination - Part II
Link NOC:Glass Processing Technology Lecture 33 - Lamination - Part III
Link NOC:Glass Processing Technology Lecture 34 - Insulating Glass Unit - Part I
Link NOC:Glass Processing Technology Lecture 35 - Insulating Glass Unit - Part II
Link NOC:Glass Processing Technology Lecture 36 - Insulating Glass Unit - Part III
Link NOC:Glass Processing Technology Lecture 37 - Insulating Glass Unit - Part IV
Link NOC:Glass Processing Technology Lecture 38 - Insulating Glass Unit - Part V
Link NOC:Glass Processing Technology Lecture 39 - Insulating Glass Unit - Part VI
Link NOC:Glass Processing Technology Lecture 40 - Insulating Glass Unit - Part VII
Link NOC:Glass Processing Technology Lecture 41 - Insulating Glass Unit - Part VIII
Link NOC:Glass Processing Technology Lecture 42 - Insulating Glass Unit - Part IX
Link NOC:Glass Processing Technology Lecture 43 - Silicone Sealant for Insulated Glass - Part I
Link NOC:Glass Processing Technology Lecture 44 - Silicone Sealant for Insulated Glass - Part II
Link NOC:Glass Processing Technology Lecture 45 - Insulating Glass Unit - Part X
Link NOC:Glass Processing Technology Lecture 46 - Insulating Glass Unit - Part XI
Link NOC:Glass Processing Technology Lecture 47 - Insulating Glass Unit - Part XII
Link NOC:Glass Processing Technology Lecture 48 - Processing Standards and Checks
Link NOC:Glass Processing Technology Lecture 49 - Quality Testing - Part I
Link NOC:Glass Processing Technology Lecture 50 - Quality Testing - Part II
Link NOC:Glass Processing Technology Lecture 51 - Quality Testing - Part III
Link NOC:Glass Processing Technology Lecture 52 - Quality Testing - Part IV - Video 1
Link NOC:Glass Processing Technology Lecture 53 - Quality Testing - Part IV - Video 2
Link NOC:Glass Processing Technology Lecture 54 - Quality Testing - Part V
Link NOC:Glass Processing Technology Lecture 55 - Quality Testing - Part VI
Link NOC:Glass Processing Technology Lecture 56 - Quality Testing - Part VII
Link NOC:Glass Processing Technology Lecture 57 - Heat soaking - Part I
Link NOC:Glass Processing Technology Lecture 58 - Heat soaking - Part II
Link NOC:Glass Processing Technology Lecture 59 - Ceramic Printing on Glass - Part I
Link NOC:Glass Processing Technology Lecture 60 - Ceramic Printing on Glass - Part II
Link NOC:Glass Processing Technology Lecture 61 - Ceramic Printing on Glass - Part III
Link NOC:Glass Processing Technology Lecture 62 - Ceramic Printing on Glass - Part IV
Link NOC:Glass Processing Technology Lecture 63 - Glass Breakage Reasons
Link NOC:Glass Processing Technology Lecture 64 - Internal Process Loss - Part I
Link NOC:Glass Processing Technology Lecture 65 - Internal Process Loss - Part II
Link NOC:Glass Processing Technology Lecture 66 - Internal Process Loss - Part III
Link NOC:Glass Processing Technology Lecture 67 - Root Cause Analysis - Part I
Link NOC:Glass Processing Technology Lecture 68 - Root Cause Analysis - Part II
Link NOC:Glass Processing Technology Lecture 69 - Post Manufacturing Expenses
Link NOC:Glass Processing Technology Lecture 70 - 5S in Glass Processing
Link NOC:Glass Processing Technology Lecture 71 - Introduction to Quality Management System - Part I
Link NOC:Glass Processing Technology Lecture 72 - Introduction to Quality Management System - Part II
Link NOC:Glass Processing Technology Lecture 73 - Glass Processing - Applications, Innovations and Futuristic Trends - Part I
Link NOC:Glass Processing Technology Lecture 74 - Glass Processing - Applications, Innovations and Futuristic Trends - Part II
Link NOC:Glass Processing Technology Lecture 75 - Sustainability on Glass Processing
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 1 - Calcium sulfoaluminate cement-based binder: Properties and application
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 2 - Micro-structural characterisation of cementitious materials - Part 1
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 3 - Micro-structural characterisation of cementitious materials - Part 2
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 4 - Micro-structural characterisation of cementitious materials - Part 3
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 5 - Interview with Prof Karen Scrivener
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 6 - Performance of Fiber reinforced materials
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 7 - Ultra-High performance concrete (UHPC): Material design and properties - Part 1
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 8 - Ultra-High performance concrete (UHPC): Material design and properties - Part 2
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 9 - Closed-Loop testing - Part 1
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 10 - Closed-Loop testing - Part 2
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 11 - Uni-axial tensile test of textile reinforced concrete (TRC) panel
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 12 - Fiber reinforced concrete: Notched beam flexural test
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 13 - Strain softening response of concrete Under uniaxial compression
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 14 - Tension test of 7-wire steel strand
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 15 - Bond Test of Strand-concrete System
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 16 - Interview with Prof. S. P. Shah
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 17 - Introduction to concrete durability
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 18 - Sulphate attack of concrete
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 19 - Development and performance approach for durability and service life production for structures
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 20 - Colorimetric test to assess carbonation resistance in concrete
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 21 - Experiments on durability index: Rapid chloride permeability test, Oxygen permeability test, and Water Sorptivity test
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 22 - Prof. Mark Alexander
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 23 - Chloride induced corrosion and service life of reinforced concrete structures - Part 1
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 24 - Chloride induced corrosion and service life of reinforced concrete structures - Part 2
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 25 - Corrosion control and cathodic protection of steel reinforcement: Past, present, and future
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 26 - LCA of cement and concrete - Part 1
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 27 - LCA of cement and concrete - Part 2
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 28 - 8. Chloride threshold testing using linear polarization resistance (LPR) and electrochemical impedance spectroscopy (EIS)
Link NOC:Advanced Topics in the Science and Technology of Concrete Lecture 29 - Interview with Prof George Sergi
Link NOC:Infrastructure Planning and Managements Lecture 1 - Introduction to infrastructure and the Transportation sector - Part 1A
Link NOC:Infrastructure Planning and Managements Lecture 2 - Introduction to infrastructure and the Transportation sector - Part 1B
Link NOC:Infrastructure Planning and Managements Lecture 3 - Introduction to infrastructure and the Transportation sector - Part 1C
Link NOC:Infrastructure Planning and Managements Lecture 4 - Introduction to infrastructure and the Transportation sector - Part 1D
Link NOC:Infrastructure Planning and Managements Lecture 5 - Introduction to Power and Telecom sectors - Part 2A
Link NOC:Infrastructure Planning and Managements Lecture 6 - Introduction to Power and Telecom sectors - Part 2B
Link NOC:Infrastructure Planning and Managements Lecture 7 - Urban and Rural Infrastructure - Part 1A
Link NOC:Infrastructure Planning and Managements Lecture 8 - Urban and Rural Infrastructure - Part 1B
Link NOC:Infrastructure Planning and Managements Lecture 9 - Urban and Rural Infrastructure - Part 1C
Link NOC:Infrastructure Planning and Managements Lecture 10 - Phases and Players in Infrastructure Planning and Managements - Part 2A
Link NOC:Infrastructure Planning and Managements Lecture 11 - Phases and Players in Infrastructure Planning and Managements - Part 2B
Link NOC:Infrastructure Planning and Managements Lecture 12 - Infrastructure Economics and Finance
Link NOC:Infrastructure Planning and Managements Lecture 13 - Public-Private Partnership for Infrastructure
Link NOC:Infrastructure Planning and Managements Lecture 14 - Public-Private Partnership for Infrastructure - Case Studies - Part 1
Link NOC:Infrastructure Planning and Managements Lecture 15 - Public-Private Partnership for Infrastructure - Case Studies - Part 2
Link NOC:Infrastructure Planning and Managements Lecture 16 - Public-Private Partnership for Infrastructure - Case Studies - Part 3
Link NOC:Infrastructure Planning and Managements Lecture 17 - Risks and Challenges in Infrastructure - Part 1
Link NOC:Infrastructure Planning and Managements Lecture 18 - Risks and Challenges in Infrastructure - Part 2
Link NOC:Infrastructure Planning and Managements Lecture 19 - Risks and Challenges in Infrastructure - Part 3
Link NOC:Infrastructure Planning and Managements Lecture 20 - Economic Risk in Infrastructure - Part 1
Link NOC:Infrastructure Planning and Managements Lecture 21 - Economic Risk in Infrastructure - Part 2
Link NOC:Infrastructure Planning and Managements Lecture 22 - Political Risk in Infrastructure - Part 1
Link NOC:Infrastructure Planning and Managements Lecture 23 - Political Risk in Infrastructure - Part 2
Link NOC:Infrastructure Planning and Managements Lecture 24 - Social Environmental Risk in Infrastructure - Part 1
Link NOC:Infrastructure Planning and Managements Lecture 25 - Social Environmental Risk in Infrastructure - Part 2
Link NOC:Infrastructure Planning and Managements Lecture 26 - Actor Mapping and Social Network Analysis - Part 1
Link NOC:Infrastructure Planning and Managements Lecture 27 - Actor Mapping and Social Network Analysis - Part 2
Link NOC:Infrastructure Planning and Managements Lecture 28 - Fair Process and Negotiations - Part 1
Link NOC:Infrastructure Planning and Managements Lecture 29 - Fair Process and Negotiations - Part 2
Link NOC:Infrastructure Planning and Managements Lecture 30 - Design Thinking - Part 1
Link NOC:Infrastructure Planning and Managements Lecture 31 - Design Thinking - Part 2
Link NOC:Infrastructure Planning and Managements Lecture 32 - Sustainable Development and Socio - Economic Analysis - Part 1
Link NOC:Infrastructure Planning and Managements Lecture 33 - Sustainable Development and Socio - Economic Analysis - Part 2
Link NOC:Infrastructure Planning and Managements Lecture 34 - Public Sector Governance - Part 1
Link NOC:Infrastructure Planning and Managements Lecture 35 - Public Sector Governance - Part 2
Link NOC:Infrastructure Planning and Managements Lecture 36 - Flexibilities and Options on Projects - Part 1
Link NOC:Infrastructure Planning and Managements Lecture 37 - Flexibilities and Options on Projects - Part 2
Link NOC:Infrastructure Planning and Managements Lecture 38 - Module Flexibilities in Projects - Part 1
Link NOC:Infrastructure Planning and Managements Lecture 39 - Module Flexibilities in Projects - Part 2
Link NOC:Infrastructure Planning and Managements Lecture 40 - Case Study on PPP Project - Delhi Airport
Link NOC:Infrastructure Planning and Managements Lecture 41 - Case Study on PPP Project - Tirupur Water Supply
Link NOC:Infrastructure Planning and Managements Lecture 42 - Polycentric Governance and Incomplete Design - Part 1
Link NOC:Infrastructure Planning and Managements Lecture 43 - Polycentric Governance and Incomplete Design - Part 2
Link NOC:Infrastructure Planning and Managements Lecture 44 - Successful Project Delivery Strategies - Part 1
Link NOC:Infrastructure Planning and Managements Lecture 45 - Successful Project Delivery Strategies - Part 2
Link NOC:Infrastructure Planning and Managements Lecture 46 - Guest Lecture by K Venkatesh
Link NOC:Infrastructure Planning and Managements Lecture 47 - Guest Lecture by Kavitha Selvaraj
Link NOC:Design of Masonry Structures Lecture 1 - Introductory - Part I
Link NOC:Design of Masonry Structures Lecture 2 - Introductory - Part II
Link NOC:Design of Masonry Structures Lecture 3 - Introductory - Part III
Link NOC:Design of Masonry Structures Lecture 4 - Introductory - Part IV
Link NOC:Design of Masonry Structures Lecture 5 - Masonry Materials and Properties - Part I
Link NOC:Design of Masonry Structures Lecture 6 - Masonry Materials and Properties - Part II
Link NOC:Design of Masonry Structures Lecture 7 - Masonry Materials and Properties - Part III
Link NOC:Design of Masonry Structures Lecture 8 - Masonry Materials and Properties - Part IV
Link NOC:Design of Masonry Structures Lecture 9 - Masonry Materials and Properties - Part V
Link NOC:Design of Masonry Structures Lecture 10 - Masonry Materials and Properties - Part VI
Link NOC:Design of Masonry Structures Lecture 11 - Strength and Behaviour of Masonry - Part I
Link NOC:Design of Masonry Structures Lecture 12 - Strength and Behaviour of Masonry - Part II
Link NOC:Design of Masonry Structures Lecture 13 - Strength and Behaviour of Masonry - Part III
Link NOC:Design of Masonry Structures Lecture 14 - Strength and Behaviour of Masonry - Part IV
Link NOC:Design of Masonry Structures Lecture 15 - Strength and Behaviour of Masonry - Part V
Link NOC:Design of Masonry Structures Lecture 16 - Strength and Behaviour of Masonry - Part VI
Link NOC:Design of Masonry Structures Lecture 17 - Strength and Behaviour of Masonry - Part VII
Link NOC:Design of Masonry Structures Lecture 18 - Strength and Behaviour of Masonry - Part VIII
Link NOC:Design of Masonry Structures Lecture 19 - Strength and Behaviour of Masonry - Part IX
Link NOC:Design of Masonry Structures Lecture 20 - Strength and Behaviour of Masonry - Part X
Link NOC:Design of Masonry Structures Lecture 21 - Strength and Behaviour of Masonry - Part XI
Link NOC:Design of Masonry Structures Lecture 22 - Design of Masonry Components and Systems - Part I
Link NOC:Design of Masonry Structures Lecture 23 - Design of Masonry Components and Systems - Part II
Link NOC:Design of Masonry Structures Lecture 24 - Design of Masonry Components and Systems - Part III
Link NOC:Design of Masonry Structures Lecture 25 - Design of Masonry Components and Systems - Part IV
Link NOC:Design of Masonry Structures Lecture 26 - Design of Masonry Components and Systems - Part V
Link NOC:Design of Masonry Structures Lecture 27 - Design of Masonry Components and Systems - Part VI
Link NOC:Design of Masonry Structures Lecture 28 - Design of Masonry Components and Systems - Part VII
Link NOC:Design of Masonry Structures Lecture 29 - Design of Masonry Components and Systems - Part VIII
Link NOC:Design of Masonry Structures Lecture 30 - Design of Masonry Components and Systems - Part IX
Link NOC:Design of Masonry Structures Lecture 31 - Design of Masonry Components and Systems - Part X
Link NOC:Design of Masonry Structures Lecture 32 - Design of Masonry Components and Systems - Part XI
Link NOC:Design of Masonry Structures Lecture 33 - Design of Masonry Components and Systems - Example I
Link NOC:Design of Masonry Structures Lecture 34 - Design of Masonry Components and Systems - Example II
Link NOC:Design of Masonry Structures Lecture 35 - Design of Masonry Components and Systems - Example III
Link NOC:Design of Masonry Structures Lecture 36 - Special Topics - Confined Masonry
Link NOC:Design of Masonry Structures Lecture 37 - Special Topics - Masonry Infill in RC Frames
Link NOC:Design of Masonry Structures Lecture 38 - Special Topics - Assessment of Existing Masonry Structures - Part I
Link NOC:Design of Masonry Structures Lecture 39 - Special Topics - Assessment of Existing Masonry Structures - Part II
Link NOC:Design of Masonry Structures Lecture 40 - Special Topics - Assessment of Existing Masonry Structures - Part III
Link Foundation Engineering Lecture 1 - Shallow Foundation - 1
Link Foundation Engineering Lecture 2 - Shallow Foundation - 2
Link Foundation Engineering Lecture 3 - Shallow Foundation - 3
Link Foundation Engineering Lecture 4 - Shallow Foundation - 4
Link Foundation Engineering Lecture 5 - Shallow Foundation - 5
Link Foundation Engineering Lecture 6 - Shallow Foundation - 6
Link Foundation Engineering Lecture 7 - Shallow Foundation - 7
Link Foundation Engineering Lecture 8 - Lateral Earth pressure Theories Retaining Walls - 1
Link Foundation Engineering Lecture 9 - Lateral Earth pressure Theories Retaining Walls - 2
Link Foundation Engineering Lecture 10 - Lateral Earth pressure Theories Retaining Walls - 3
Link Foundation Engineering Lecture 11 - Lateral Earth Pressure Theories Retaining Walls - 4
Link Foundation Engineering Lecture 12 - Lateral Earth Pressure Theories Retaining Walls - 5
Link Foundation Engineering Lecture 13 - Pile Foundations - 1
Link Foundation Engineering Lecture 14 - Pile Foundations - 2
Link Foundation Engineering Lecture 15 - Pile Foundations - 3
Link Foundation Engineering Lecture 16 - Pile Foundations - 4
Link Foundation Engineering Lecture 17 - Pile Foundations - 5
Link Foundation Engineering Lecture 18 - Pile Foundations - 6
Link Foundation Engineering Lecture 19 - Pile Foundations - 7
Link Foundation Engineering Lecture 20 - Machine Foundations - 1
Link Foundation Engineering Lecture 21 - Machine Foundations - 2
Link Foundation Engineering Lecture 22 - Machine Foundations - 3
Link Foundation Engineering Lecture 23 - Machine Foundations - 4
Link Foundation Engineering Lecture 24 - Well Foundations - 1
Link Foundation Engineering Lecture 25 - Well Foundations - 2
Link Foundation Engineering Lecture 26 - Well Foundations - 3
Link Foundation Engineering Lecture 27 - Foundation Engineering - 1
Link Foundation Engineering Lecture 28 - Foundation Engineering - 2
Link Foundation Engineering Lecture 29 - Foundation Engineering - 3
Link Foundation Engineering Lecture 30 - Foundation Engineering - 4
Link Foundation Engineering Lecture 31 - Foundation Engineering - 5
Link Foundation Engineering Lecture 32 - Foundation Engineering - 6
Link Foundation Engineering Lecture 33 - Foundation Engineering - 7
Link Foundation Engineering Lecture 34 - Foundation Engineering - 8
Link Foundation Engineering Lecture 35 - Foundation Engineering - 9
Link Foundation Engineering Lecture 36 - Foundation Engineering - 10
Link Foundation Engineering Lecture 37 - Foundation Engineering - 11
Link Foundation Engineering Lecture 38 - Foundation Engineering - 12
Link Foundation Engineering Lecture 39 - Foundation Engineering - 13
Link Foundation Engineering Lecture 40 - Foundation Engineering - 14
Link Modern Surveying Techniques Lecture 1 - Geographic Information System An Introduction
Link Modern Surveying Techniques Lecture 2 - Introduction to Global Positioning System
Link Modern Surveying Techniques Lecture 3 - GPS Positioning Methods
Link Modern Surveying Techniques Lecture 4 - GPS Solutions and Errors
Link Modern Surveying Techniques Lecture 5 - GPS Application
Link Modern Surveying Techniques Lecture 6 - Remote Sensing Introduction
Link Modern Surveying Techniques Lecture 7 - Electromagnetic Spectrum
Link Modern Surveying Techniques Lecture 8 - Sensors and Platform
Link Modern Surveying Techniques Lecture 9 - Sensors and Platform
Link Modern Surveying Techniques Lecture 10 - Image Interpretation
Link Modern Surveying Techniques Lecture 11 - Statistical Evaluation of RS Data
Link Modern Surveying Techniques Lecture 12 - Rectification and Restoration
Link Modern Surveying Techniques Lecture 13 - Image Enhancement
Link Modern Surveying Techniques Lecture 14 - Image Transformation
Link Modern Surveying Techniques Lecture 15 - Orthogonal Transformation
Link Modern Surveying Techniques Lecture 16 - Image Classification (Supervised Classification)
Link Modern Surveying Techniques Lecture 17 - Image Classification (Unsupervised Classification)
Link Modern Surveying Techniques Lecture 18 - Spatial Filtering-Noise Removal
Link Modern Surveying Techniques Lecture 19 - Spatial Filtering-Edge Removal
Link Modern Surveying Techniques Lecture 20 - Photogramatic-Basic concepts of a single photography
Link Modern Surveying Techniques Lecture 21 - Stereoscopy-Basic concepts
Link Modern Surveying Techniques Lecture 22 - Stereoscopy-Geometry of overlaping photograph
Link Modern Surveying Techniques Lecture 23 - Terrestrial Photogrammetry
Link Modern Surveying Techniques Lecture 24 - Digital Elevation Model-Basic Concepts
Link Modern Surveying Techniques Lecture 25 - Digital Elevation Model-Data Input and Stamping
Link Modern Surveying Techniques Lecture 26 - Digital Elevation Model-Surface representation and analysis
Link Modern Surveying Techniques Lecture 27 - GIS-Introductory Concepts
Link Modern Surveying Techniques Lecture 28 - GIS-Data Input
Link Modern Surveying Techniques Lecture 29 - Data Verification and Editing
Link Modern Surveying Techniques Lecture 30 - GIS Data Model
Link Modern Surveying Techniques Lecture 31 - GIS Data Base
Link Modern Surveying Techniques Lecture 32 - Spatial Analysis
Link Modern Surveying Techniques Lecture 33 - Map Overlay and Spatial Correlation
Link Modern Surveying Techniques Lecture 34 - Application to Drought Management
Link Modern Surveying Techniques Lecture 35 - GIS base planning model for educational facilities in rural areas
Link Modern Surveying Techniques Lecture 36 - Application extraction of building attributes
Link Modern Surveying Techniques Lecture 37 - Zonal based tourism planning
Link Modern Surveying Techniques Lecture 38 - Zonal Planning using remote sensing
Link Modern Surveying Techniques Lecture 39 - Municipal GIS for assassment of property tax
Link Modern Surveying Techniques Lecture 40 - Application of remote sensing
Link Transportation Engineering II Lecture 1 - Introduction to Railway Engineering
Link Transportation Engineering II Lecture 2 - Gauges and Permanent Way
Link Transportation Engineering II Lecture 3 - Wheel and Axles, Coning of Wheels
Link Transportation Engineering II Lecture 4 - Track Resistances, Hauling Capacity
Link Transportation Engineering II Lecture 5 - Track Modulus, Stresses in Track
Link Transportation Engineering II Lecture 6 - Stresses in Components of Track
Link Transportation Engineering II Lecture 7 - Rails
Link Transportation Engineering II Lecture 8 - Creep in Rails
Link Transportation Engineering II Lecture 9 - Wears & Failures in Rails
Link Transportation Engineering II Lecture 10 - Jointed or Welded rails
Link Transportation Engineering II Lecture 11 - Sleepers
Link Transportation Engineering II Lecture 12 - Ballast
Link Transportation Engineering II Lecture 13 - Fastenings
Link Transportation Engineering II Lecture 14 - Geometric Design - Alignment of Track
Link Transportation Engineering II Lecture 15 - Horizontal Curve and Super elevation
Link Transportation Engineering II Lecture 16 - Speeds on Track
Link Transportation Engineering II Lecture 17 - Transition Curve & Widening of Track
Link Transportation Engineering II Lecture 18 - Vertical Curve & Gradients
Link Transportation Engineering II Lecture 19 - Turnouts - Components
Link Transportation Engineering II Lecture 20 - Crossing and Design of Turnout
Link Transportation Engineering II Lecture 21 - Track Junctions and Designs
Link Transportation Engineering II Lecture 22 - Signals - Part 1
Link Transportation Engineering II Lecture 23 - Signals - Part 2
Link Transportation Engineering II Lecture 24 - Train Control Systems
Link Transportation Engineering II Lecture 25 - Interlocking of Track
Link Transportation Engineering II Lecture 26 - High Speed Tracks
Link Transportation Engineering II Lecture 27 - Introduction of Air Transport
Link Transportation Engineering II Lecture 28 - Aircraft Characteristics
Link Transportation Engineering II Lecture 29 - Aircraft Controls, Airport Site&Size Selection
Link Transportation Engineering II Lecture 30 - Airport Obstructions
Link Transportation Engineering II Lecture 31 - Runway Orientation
Link Transportation Engineering II Lecture 32 - Runway Length
Link Transportation Engineering II Lecture 33 - Runway Geometric
Link Transportation Engineering II Lecture 34 - Taxiway
Link Transportation Engineering II Lecture 35 - Exit Taxiway
Link Transportation Engineering II Lecture 36 - Aprons and Aircraft Parking
Link Transportation Engineering II Lecture 37 - Terminal Area and Building
Link Transportation Engineering II Lecture 38 - Terminal Planning and Hangers
Link Transportation Engineering II Lecture 39 - Visual Aids-Markings
Link Transportation Engineering II Lecture 40 - Visual Aids-Lighting and Signage
Link NOC:Introduction to Geographic Information Systems Lecture 1 - What is Geographic Information Systems ?
Link NOC:Introduction to Geographic Information Systems Lecture 2 - Different components of GIS
Link NOC:Introduction to Geographic Information Systems Lecture 3 - Different types of vector data and concept of topology
Link NOC:Introduction to Geographic Information Systems Lecture 4 - Raster data models and comparisons with vector
Link NOC:Introduction to Geographic Information Systems Lecture 5 - TIN data model and comparisons with raster
Link NOC:Introduction to Geographic Information Systems Lecture 6 - Non-spatial data (attributes) and their type
Link NOC:Introduction to Geographic Information Systems Lecture 7 - Raster data compression techniques
Link NOC:Introduction to Geographic Information Systems Lecture 8 - Spatial database systems and their types
Link NOC:Introduction to Geographic Information Systems Lecture 9 - Pre-processing of spatial datasets
Link NOC:Introduction to Geographic Information Systems Lecture 10 - Geo-referencing
Link NOC:Introduction to Geographic Information Systems Lecture 11 - Different map projections
Link NOC:Introduction to Geographic Information Systems Lecture 12 - Spatial interpolation techniques
Link NOC:Introduction to Geographic Information Systems Lecture 13 - Digital Elevation Models and different types of resolutions
Link NOC:Introduction to Geographic Information Systems Lecture 14 - Quality assessment of freely available DEMS
Link NOC:Introduction to Geographic Information Systems Lecture 15 - GIS analysis - Part 1
Link NOC:Introduction to Geographic Information Systems Lecture 16 - GIS analysis - Part 2 (Overlaying Operations)
Link NOC:Introduction to Geographic Information Systems Lecture 17 - GIS analysis - Part 3 (Buffer Analysis)
Link NOC:Introduction to Geographic Information Systems Lecture 18 - Classification Methods
Link NOC:Introduction to Geographic Information Systems Lecture 19 - Errors in GIS and Key elements of maps
Link NOC:Introduction to Geographic Information Systems Lecture 20 - Limitations of GIS
Link NOC:Principles and Applications of Building Science Lecture 1 - Solar Geometry
Link NOC:Principles and Applications of Building Science Lecture 2 - Climate Classification
Link NOC:Principles and Applications of Building Science Lecture 3 - Thermal Comfort in Built Environment - 1
Link NOC:Principles and Applications of Building Science Lecture 4 - Thermal Comfort in Built Environment - 2
Link NOC:Principles and Applications of Building Science Lecture 5 - Thermal Adaptation
Link NOC:Principles and Applications of Building Science Lecture 6 - Bioclimatic Assessment
Link NOC:Principles and Applications of Building Science Lecture 7 - Thermal Performance of Building Envelop
Link NOC:Principles and Applications of Building Science Lecture 8 - Thermal Performance of Building Envelop - Indices and Measures (1/2)
Link NOC:Principles and Applications of Building Science Lecture 9 - Thermal Performance of Building Envelop - Indices and Measures (2/2)
Link NOC:Principles and Applications of Building Science Lecture 10 - Glazing and Shading Systems
Link NOC:Principles and Applications of Building Science Lecture 11 - Shading Analysis
Link NOC:Principles and Applications of Building Science Lecture 12 - Energy Efficiency and Simulation
Link NOC:Principles and Applications of Building Science Lecture 13 - Building Acoustics - Basics
Link NOC:Principles and Applications of Building Science Lecture 14 - Sound Propagation
Link NOC:Principles and Applications of Building Science Lecture 15 - Acoustic Quality Indicators (1/2)
Link NOC:Principles and Applications of Building Science Lecture 16 - Acoustic Quality Indicators (2/2)
Link NOC:Principles and Applications of Building Science Lecture 17 - Acoustic Design Considerations
Link NOC:Principles and Applications of Building Science Lecture 18 - Acoustic Materials
Link NOC:Principles and Applications of Building Science Lecture 19 - Lighting - Basics
Link NOC:Principles and Applications of Building Science Lecture 20 - Lighting – Design Concepts
Link NOC:GPS Surveying Lecture 1 - Introduction (GPS Surveying and Applications)
Link NOC:GPS Surveying Lecture 2 - GPS System
Link NOC:GPS Surveying Lecture 3 - GPS Signal (Civilian Perspective)
Link NOC:GPS Surveying Lecture 4 - GPS Receiver
Link NOC:GPS Surveying Lecture 5 - GPS Software
Link NOC:GPS Surveying Lecture 6 - GPS Position
Link NOC:GPS Surveying Lecture 7 - GPS Positioning (Principle and Methods)
Link NOC:GPS Surveying Lecture 8 - Field demonstration of GPS Positioning Method
Link NOC:GPS Surveying Lecture 9 - GPS Observables (Types, Errors and Quality)
Link NOC:GPS Surveying Lecture 10 - Errors in GPS Observables (Systematics Errors)
Link NOC:GPS Surveying Lecture 11 - GPS Data Pre-Processing - I
Link NOC:GPS Surveying Lecture 12 - GPS Data Pre-Processing - II
Link NOC:GPS Surveying Lecture 13 - GPS Data Processing - I
Link NOC:GPS Surveying Lecture 14 - GPS Data Processing - II
Link NOC:GPS Surveying Lecture 15 - Quality Assessment of GPS Surveying
Link NOC:GPS Surveying Lecture 16 - Procedure of GPS Surveying - I
Link NOC:GPS Surveying Lecture 17 - Procedure of GPS Surveying - II
Link NOC:GPS Surveying Lecture 18 - Procedure of GPS Surveying - III
Link NOC:GPS Surveying Lecture 19 - GPS Field Surveying
Link NOC:GPS Surveying Lecture 20 - GPS Data Processing
Link NOC:Digital Land Surveying And Mapping Lecture 1 - Introduction and Applications
Link NOC:Digital Land Surveying And Mapping Lecture 2 - Fundamentals and Operations
Link NOC:Digital Land Surveying And Mapping Lecture 3 - Overview of Digital Land Surveying
Link NOC:Digital Land Surveying And Mapping Lecture 4 - Introduction of GPS
Link NOC:Digital Land Surveying And Mapping Lecture 5 - GPS Signal (Civilian Perspective)
Link NOC:Digital Land Surveying And Mapping Lecture 6 - GPS User Segment
Link NOC:Digital Land Surveying And Mapping Lecture 7 - GPS Positioning of Control Point
Link NOC:Digital Land Surveying And Mapping Lecture 8 - Demonstration of GPS Receivers, Software and Positioning of Control Point
Link NOC:Digital Land Surveying And Mapping Lecture 9 - GPS Position
Link NOC:Digital Land Surveying And Mapping Lecture 10 - Principle of GPS Positioning and GPS Observables
Link NOC:Digital Land Surveying And Mapping Lecture 11 - Errors in GPS Observables
Link NOC:Digital Land Surveying And Mapping Lecture 12 - GPS Data Pre-processing: Differencing
Link NOC:Digital Land Surveying And Mapping Lecture 13 - GPS Data Pre-processing: Point Positioning
Link NOC:Digital Land Surveying And Mapping Lecture 14 - GPS Data Processing: Baseline Processing
Link NOC:Digital Land Surveying And Mapping Lecture 15 - GPS Data Processing: Network Adjustment
Link NOC:Digital Land Surveying And Mapping Lecture 16 - Quality Assessment of GPS Surveying
Link NOC:Digital Land Surveying And Mapping Lecture 17 - Introduction to Total Station
Link NOC:Digital Land Surveying And Mapping Lecture 18 - Parts of Total Station
Link NOC:Digital Land Surveying And Mapping Lecture 19 - Accessories of Total Station
Link NOC:Digital Land Surveying And Mapping Lecture 20 - Handling and Setting of Total Station
Link NOC:Digital Land Surveying And Mapping Lecture 21 - Measurement of Distance
Link NOC:Digital Land Surveying And Mapping Lecture 22 - Measurement of Distance Using TS
Link NOC:Digital Land Surveying And Mapping Lecture 23 - Measurement of Horizontal Angle Using TS
Link NOC:Digital Land Surveying And Mapping Lecture 24 - Measurement of Vertical Angle and Height Using TS
Link NOC:Digital Land Surveying And Mapping Lecture 25 - Errors in Total Station
Link NOC:Digital Land Surveying And Mapping Lecture 26 - Other Errors in Total Station
Link NOC:Digital Land Surveying And Mapping Lecture 27 - Errors and Quality of Surveying Measurements
Link NOC:Digital Land Surveying And Mapping Lecture 28 - Error Propagation and Survey Specifications
Link NOC:Digital Land Surveying And Mapping Lecture 29 - Basics of Vertical Representation
Link NOC:Digital Land Surveying And Mapping Lecture 30 - Contouring
Link NOC:Digital Land Surveying And Mapping Lecture 31 - Mapping Fundamentals
Link NOC:Digital Land Surveying And Mapping Lecture 32 - Mapping Basics
Link NOC:Digital Land Surveying And Mapping Lecture 33 - Mapping Software
Link NOC:Digital Land Surveying And Mapping Lecture 34 - Automated Mapping
Link NOC:Digital Land Surveying And Mapping Lecture 35 - Working Steps
Link NOC:Digital Land Surveying And Mapping Lecture 36 - Establishment of Control Point
Link NOC:Digital Land Surveying And Mapping Lecture 37 - Detailing of Digital Land Surveying
Link NOC:Digital Land Surveying And Mapping Lecture 38 - Demonstration of Digital Land Survey Detailing
Link NOC:Digital Land Surveying And Mapping Lecture 39 - Data Preparation and Map Making
Link NOC:Digital Land Surveying And Mapping Lecture 40 - Overview of the Course
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 1 - Remote-sensing Image and How it is represented
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 2 - Different Techniques of Image Acquisition
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 3 - Why is Digital Image processing Important ?
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 4 - Image characteristics and Different Resolutions in Remote Sensing
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 5 - Electromagnetic spectrum, solar reflection, and thermal emission
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 6 - Color Representation and Transformations
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 7 - Image histograms and statistics
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 8 - Geo-referencing Techniques
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 9 - Image Enhancement Techniques part 1
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 10 - Image Enhancement Techniques part 2
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 11 - Multispectral Transform, Scatter Plot, Principal Component Analysis and Decorrelation Stretch
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 12 - Spatial Filtering Techniques
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 13 - Frequency Domain Fourier Transformation
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 14 - Basic Image Compression Techniques and Different Image File Formats
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 15 - Image Classification Techniques
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 16 - Principles of Image Interpretation
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 17 - SAR Interferometry (InSAR) Techniques
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 18 - Image Merging and Image Mosaicing Techniques
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 19 - Application of Image Analysis
Link NOC:Digital Image Processing of Remote Sensing Data Lecture 20 - Limitations and Future of Digital Image Processing
Link NOC:Applied Environmental Microbiology Lecture 1 - Introduction - I
Link NOC:Applied Environmental Microbiology Lecture 2 - Introduction - II
Link NOC:Applied Environmental Microbiology Lecture 3 - Cell Structure - I
Link NOC:Applied Environmental Microbiology Lecture 4 - Cell Structure - II
Link NOC:Applied Environmental Microbiology Lecture 5 - Central Dogma - I
Link NOC:Applied Environmental Microbiology Lecture 6 - Central Dogma - II
Link NOC:Applied Environmental Microbiology Lecture 7 - Microbial Energetics - I
Link NOC:Applied Environmental Microbiology Lecture 8 - Microbial Energetics - II
Link NOC:Applied Environmental Microbiology Lecture 9 - Microbial Energetics - III
Link NOC:Applied Environmental Microbiology Lecture 10 - Microbial Energetics - IV
Link NOC:Applied Environmental Microbiology Lecture 11 - Microbial Metabolism - I
Link NOC:Applied Environmental Microbiology Lecture 12 - Microbial Metabolism - II
Link NOC:Applied Environmental Microbiology Lecture 13 - Functional Diversity of Bacteria - I
Link NOC:Applied Environmental Microbiology Lecture 14 - Functional Diversity of Bacteria - II
Link NOC:Applied Environmental Microbiology Lecture 15 - Functional Diversity of Bacteria - III
Link NOC:Applied Environmental Microbiology Lecture 16 - Microbial Ecosystem - I
Link NOC:Applied Environmental Microbiology Lecture 17 - Microbial Ecosystem - II
Link NOC:Applied Environmental Microbiology Lecture 18 - Microbial Ecosystem - III
Link NOC:Applied Environmental Microbiology Lecture 19 - Microbial Ecosystem - IV
Link NOC:Applied Environmental Microbiology Lecture 20 - Microbial Ecosystem - V
Link NOC:Applied Environmental Microbiology Lecture 21 - Environmental Genomics - I
Link NOC:Applied Environmental Microbiology Lecture 22 - Environmental Genomics - II
Link NOC:Applied Environmental Microbiology Lecture 23 - Environmental Genomics - III
Link NOC:Applied Environmental Microbiology Lecture 24 - Environmental Genomics - IV
Link NOC:Applied Environmental Microbiology Lecture 25 - Environmental Genomics - V
Link NOC:Applied Environmental Microbiology Lecture 26 - Microbial Symbiosis - I
Link NOC:Applied Environmental Microbiology Lecture 27 - Microbial Symbiosis - II
Link NOC:Applied Environmental Microbiology Lecture 28 - Virus - I
Link NOC:Applied Environmental Microbiology Lecture 29 - Virus - II
Link NOC:Applied Environmental Microbiology Lecture 30 - Applied Environmental Microbiology
Link NOC:Applied Environmental Microbiology Lecture 31 - Techniques in Environmental Microbiology - I
Link NOC:Applied Environmental Microbiology Lecture 32 - Techniques in Environmental Microbiology - II
Link NOC:Applied Environmental Microbiology Lecture 33 - Bioremediation - I
Link NOC:Applied Environmental Microbiology Lecture 34 - Bioremediation - II
Link NOC:Applied Environmental Microbiology Lecture 35 - Bioremediation - III
Link NOC:Applied Environmental Microbiology Lecture 36 - Wastewater Microbiology - I
Link NOC:Applied Environmental Microbiology Lecture 37 - Wastewater Microbiology - II
Link NOC:Applied Environmental Microbiology Lecture 38 - Built Microbiology
Link NOC:Applied Environmental Microbiology Lecture 39 - Exposomes - I
Link NOC:Applied Environmental Microbiology Lecture 40 - Exposomes - II
Link NOC:Applied Environmental Microbiology Lecture 41 - Drinking Water Microbiology - I
Link NOC:Applied Environmental Microbiology Lecture 42 - Drinking Water Microbiology - II
Link NOC:Applied Environmental Microbiology Lecture 43 - Drinking Water Microbiology - III
Link NOC:Applied Environmental Microbiology Lecture 44 - Drinking Water Microbiology - IV
Link NOC:Applied Environmental Microbiology Lecture 45 - Drinking Water Microbiology - V
Link NOC:Applied Environmental Microbiology Lecture 46 - Solid Waste Microbiology - I
Link NOC:Applied Environmental Microbiology Lecture 47 - Solid Waste Microbiology - II
Link NOC:Applied Environmental Microbiology Lecture 48 - Solid Waste Microbiology - III
Link NOC:Applied Environmental Microbiology Lecture 49 - Antimicrobial Resistance - I
Link NOC:Applied Environmental Microbiology Lecture 50 - Antimicrobial Resistance - II
Link NOC:Applied Environmental Microbiology Lecture 51 - Epidemiology - I
Link NOC:Applied Environmental Microbiology Lecture 52 - Epidemiology - II
Link NOC:Applied Environmental Microbiology Lecture 53 - Biosensors - I
Link NOC:Applied Environmental Microbiology Lecture 54 - Biosensors - II
Link NOC:Applied Environmental Microbiology Lecture 55 - Biosensors - III
Link NOC:Applied Environmental Microbiology Lecture 56 - Bioinformatics - I
Link NOC:Applied Environmental Microbiology Lecture 57 - Bioinformatics - II
Link NOC:Applied Environmental Microbiology Lecture 58 - Bioinformatics - III
Link NOC:Applied Environmental Microbiology Lecture 59 - Bioinformatics - IV
Link NOC:Applied Environmental Microbiology Lecture 60 - Bioinformatics - V
Link NOC:Digital Elevation Models and Applications Lecture 1 - Concept of Digital Elevation Model and How It Is Represented
Link NOC:Digital Elevation Models and Applications Lecture 2 - Various Techniques to Generate Digital Elevation Model - 1
Link NOC:Digital Elevation Models and Applications Lecture 3 - Various Techniques to Generate Digital Elevation Model - 2
Link NOC:Digital Elevation Models and Applications Lecture 4 - Various Techniques to Generate Digital Elevation Model - 3
Link NOC:Digital Elevation Models and Applications Lecture 5 - Importance of Spatial Resolution With DEMs
Link NOC:Digital Elevation Models and Applications Lecture 6 - How To Assess Quality of DEM?
Link NOC:Digital Elevation Models and Applications Lecture 7 - Integration of DEMs With Satellite Data
Link NOC:Digital Elevation Models and Applications Lecture 8 - Common Derivatives of DEMs- Slope and Aspect
Link NOC:Digital Elevation Models and Applications Lecture 9 - Triangulated Irregular Network (TIN) and Its Derivatives
Link NOC:Digital Elevation Models and Applications Lecture 10 - Shaded Relief Models and Thier Applications
Link NOC:Digital Elevation Models and Applications Lecture 11 - DEMs Derivatives - 1
Link NOC:Digital Elevation Models and Applications Lecture 12 - DEMs Derivatives - 2
Link NOC:Digital Elevation Models and Applications Lecture 13 - DEMs Derivatives - 3
Link NOC:Digital Elevation Models and Applications Lecture 14 - DEMs Derivatives - 4
Link NOC:Digital Elevation Models and Applications Lecture 15 - DEM Based Surface Hydrologic Modelling - 1
Link NOC:Digital Elevation Models and Applications Lecture 16 - DEM Based Surface Hydrologic Modelling - 2
Link NOC:Digital Elevation Models and Applications Lecture 17 - DEM and DAM Simulation and Its Application In Ground Water Hydrology
Link NOC:Digital Elevation Models and Applications Lecture 18 - Applications of DEMs In Solar and Wind Energy Potential Estimations
Link NOC:Digital Elevation Models and Applications Lecture 19 - Applications of DEMs in Viewshed and Flood Hazard Mapping
Link NOC:Digital Elevation Models and Applications Lecture 20 - DEMs Sources, Limitations and Future of Digital Elevation Models
Link NOC:Environmental Engineering-Chemical Processes Lecture 1 - Introduction, Fundamentals of Equilibrium and Kinetics
Link NOC:Environmental Engineering-Chemical Processes Lecture 2 - Equilibrium-Process Feasibility, Gibbs Energy-Standard Condition
Link NOC:Environmental Engineering-Chemical Processes Lecture 3 - Gibbs Free Energy-Non Standard Conditions - I
Link NOC:Environmental Engineering-Chemical Processes Lecture 4 - Gibbs Free Energy-Non Standard Conditions - II
Link NOC:Environmental Engineering-Chemical Processes Lecture 5 - Phase Equilibrium
Link NOC:Environmental Engineering-Chemical Processes Lecture 6 - Component Balance
Link NOC:Environmental Engineering-Chemical Processes Lecture 7 - Reaction Kinetics
Link NOC:Environmental Engineering-Chemical Processes Lecture 8 - Rate of Reaction - I
Link NOC:Environmental Engineering-Chemical Processes Lecture 9 - Rate of Reaction - II, Types of Reactors
Link NOC:Environmental Engineering-Chemical Processes Lecture 10 - Mass Balance on different types of Reactors
Link NOC:Environmental Engineering-Chemical Processes Lecture 11 - Material Balance for Complex Reactions
Link NOC:Environmental Engineering-Chemical Processes Lecture 12 - Material Balance for Reversible Reactions
Link NOC:Environmental Engineering-Chemical Processes Lecture 13 - Determination of Kinetic Equations
Link NOC:Environmental Engineering-Chemical Processes Lecture 14 - Acid-Base Reactions
Link NOC:Environmental Engineering-Chemical Processes Lecture 15 - Acid Dissociation Constant, Strength of Acid
Link NOC:Environmental Engineering-Chemical Processes Lecture 16 - Ionization Fractions
Link NOC:Environmental Engineering-Chemical Processes Lecture 17 - Introduction to VMINTEQ
Link NOC:Environmental Engineering-Chemical Processes Lecture 18 - Estimation of pH using VMINTEQ
Link NOC:Environmental Engineering-Chemical Processes Lecture 19 - Mixing Problems
Link NOC:Environmental Engineering-Chemical Processes Lecture 20 - Inverse Dose Problems
Link NOC:Environmental Engineering-Chemical Processes Lecture 21 - logC-pH Diagram
Link NOC:Environmental Engineering-Chemical Processes Lecture 22 - Carbonate System: Closed System
Link NOC:Environmental Engineering-Chemical Processes Lecture 23 - Carbonate System: Open System
Link NOC:Environmental Engineering-Chemical Processes Lecture 24 - VMINTEQ: Application of Gases, Acid-Base Titration
Link NOC:Environmental Engineering-Chemical Processes Lecture 25 - VMINTEQ: Titration and Multisweeep, Buffer: Introduction
Link NOC:Environmental Engineering-Chemical Processes Lecture 26 - VMINTEQ: Buffer System, Buffer Intensity: Introduction
Link NOC:Environmental Engineering-Chemical Processes Lecture 27 - Buffer Intensity: Monoprotic and Diprotic Acids
Link NOC:Environmental Engineering-Chemical Processes Lecture 28 - Alkalinity: Introduction
Link NOC:Environmental Engineering-Chemical Processes Lecture 29 - Alkalinity: Theoretical and Practical Definition
Link NOC:Environmental Engineering-Chemical Processes Lecture 30 - Acidity and its Applications
Link NOC:Environmental Engineering-Chemical Processes Lecture 31 - Alkalinity and Acidity: Applications
Link NOC:Environmental Engineering-Chemical Processes Lecture 32 - Mixing of Two Solutions and Conservative Quantities - I
Link NOC:Environmental Engineering-Chemical Processes Lecture 33 - Mixing of Two Solutions and Conservative Quantities - II
Link NOC:Environmental Engineering-Chemical Processes Lecture 34 - Carbonate and Non-Carbonate Alkalinity
Link NOC:Environmental Engineering-Chemical Processes Lecture 35 - Anaerobic Digester: Acid Formation and Neutralization
Link NOC:Environmental Engineering-Chemical Processes Lecture 36 - Aqueous Complexes: Applications in Toxicity Reduction
Link NOC:Environmental Engineering-Chemical Processes Lecture 37 - Aqueous Complexes: Solubility, Rate Constants and Strength of Ligands
Link NOC:Environmental Engineering-Chemical Processes Lecture 38 - Aqueous Complexes of Aluminium (Al)
Link NOC:Environmental Engineering-Chemical Processes Lecture 39 - Aqueous Complexes of Mercury (Hg)
Link NOC:Environmental Engineering-Chemical Processes Lecture 40 - Precipitation and Dissolution: Introduction and Applications
Link NOC:Environmental Engineering-Chemical Processes Lecture 41 - Applications of Precipitation and Dissolution
Link NOC:Environmental Engineering-Chemical Processes Lecture 42 - Different Stages in Precipitation, Equilibrium of Precipitation - I
Link NOC:Environmental Engineering-Chemical Processes Lecture 43 - Equilibrium of Precipitation - II
Link NOC:Environmental Engineering-Chemical Processes Lecture 44 - Examples Related to Equilibrium of Precipitation
Link NOC:Environmental Engineering-Chemical Processes Lecture 45 - Other Examples of Equilibrium of Precipitation
Link NOC:Environmental Engineering-Chemical Processes Lecture 46 - Solubility and Competitive Precipitation
Link NOC:Environmental Engineering-Chemical Processes Lecture 47 - Predominance Area Diagram and Introduction to Redox Processes
Link NOC:Environmental Engineering-Chemical Processes Lecture 48 - Redox Reactions and its Applications
Link NOC:Environmental Engineering-Chemical Processes Lecture 49 - Balancing of Redox and Development of Half Reaction
Link NOC:Environmental Engineering-Chemical Processes Lecture 50 - Kinetics of Redox Processes
Link NOC:Environmental Engineering-Chemical Processes Lecture 51 - Equilibrium of Redox - I
Link NOC:Environmental Engineering-Chemical Processes Lecture 52 - Equilibrium of Redox - II and Reaction Feasibility
Link NOC:Environmental Engineering-Chemical Processes Lecture 53 - Reaction Feasibility Based on Pe - I
Link NOC:Environmental Engineering-Chemical Processes Lecture 54 - Reaction Feasibility Based on Pe - II
Link NOC:Environmental Engineering-Chemical Processes Lecture 55 - Effect of Complexation on Redox
Link NOC:Environmental Engineering-Chemical Processes Lecture 56 - Effect of Complexation and Solid Phase on Redox
Link NOC:Environmental Engineering-Chemical Processes Lecture 57 - Reaction Feasibility based on Eh
Link NOC:Environmental Engineering-Chemical Processes Lecture 58 - Introduction to Electrochemical cell (Ecell)
Link NOC:Environmental Engineering-Chemical Processes Lecture 59 - Applications of Ecell
Link NOC:Environmental Engineering-Chemical Processes Lecture 60 - logC-Pe and pH-Pe Diagram
Link NOC:Environmental Remediation of Contaminated Sites Lecture 1 - Introduction - I
Link NOC:Environmental Remediation of Contaminated Sites Lecture 2 - Introduction - II
Link NOC:Environmental Remediation of Contaminated Sites Lecture 3 - Course Outline
Link NOC:Environmental Remediation of Contaminated Sites Lecture 4 - Introduction to hazardous waste laws and risk assessment
Link NOC:Environmental Remediation of Contaminated Sites Lecture 5 - The major aspects of Risk Assessment
Link NOC:Environmental Remediation of Contaminated Sites Lecture 6 - Risk Characterization
Link NOC:Environmental Remediation of Contaminated Sites Lecture 7 - Risk Assessment-Deterministic approach
Link NOC:Environmental Remediation of Contaminated Sites Lecture 8 - Risk Assessment-Stochastic Approach
Link NOC:Environmental Remediation of Contaminated Sites Lecture 9 - Hazardous Waste laws - The TCLP Test
Link NOC:Environmental Remediation of Contaminated Sites Lecture 10 - Hazardous rules and regulations
Link NOC:Environmental Remediation of Contaminated Sites Lecture 11 - Remediation of contaminated GW-Plume Containment
Link NOC:Environmental Remediation of Contaminated Sites Lecture 12 - Remediation of contaminated GW-Javendel et al’s approach
Link NOC:Environmental Remediation of Contaminated Sites Lecture 13 - Remediation of contaminated GW by Pump and Treat - I
Link NOC:Environmental Remediation of Contaminated Sites Lecture 14 - Remediation of contaminated GW by Pump and Treat - II
Link NOC:Environmental Remediation of Contaminated Sites Lecture 15 - Remediation of contaminated GW- Calculation of remediation time and introduction to source control
Link NOC:Environmental Remediation of Contaminated Sites Lecture 16 - Permeable Reactive Barriers - I
Link NOC:Environmental Remediation of Contaminated Sites Lecture 17 - Permeable Reactive Barriers - II
Link NOC:Environmental Remediation of Contaminated Sites Lecture 18 - Permeable Reactive Barriers - III
Link NOC:Environmental Remediation of Contaminated Sites Lecture 19 - Design of Permeable Reactive Barriers
Link NOC:Environmental Remediation of Contaminated Sites Lecture 20 - Case Study on Permeable Reactive Barriers - I
Link NOC:Environmental Remediation of Contaminated Sites Lecture 21 - Case Study on Permeable Reactive Barriers - II
Link NOC:Environmental Remediation of Contaminated Sites Lecture 22 - Case Study - PRB (Utah)
Link NOC:Environmental Remediation of Contaminated Sites Lecture 23 - Case Study (Utah) (Continued...)
Link NOC:Environmental Remediation of Contaminated Sites Lecture 24 - Introduction to natural attenuation and its types
Link NOC:Environmental Remediation of Contaminated Sites Lecture 25 - Mechanism of natural attenuation and the affecting factors
Link NOC:Environmental Remediation of Contaminated Sites Lecture 26 - Pathways of Contaminant Transport and Rate of Degradation of Contaminant
Link NOC:Environmental Remediation of Contaminated Sites Lecture 27 - Rate of Degradation of Contaminant when advection is considered
Link NOC:Environmental Remediation of Contaminated Sites Lecture 28 - Rate of Degradation of Contaminant when both diffusion and advection are considered
Link NOC:Environmental Remediation of Contaminated Sites Lecture 29 - Example of Rate of Degradation in natural attenuation
Link NOC:Environmental Remediation of Contaminated Sites Lecture 30 - Case study: Natural Attenuation
Link NOC:Environmental Remediation of Contaminated Sites Lecture 31 - Results of Case Study: Natural Attenuation
Link NOC:Environmental Remediation of Contaminated Sites Lecture 32 - Introduction of Soil/Sediments contamination with some examples
Link NOC:Environmental Remediation of Contaminated Sites Lecture 33 - Case Study: Soil/Sediments Contamination and remediation by Excavation and Disposal
Link NOC:Environmental Remediation of Contaminated Sites Lecture 34 - Hazardous waste disposal site/TSDF
Link NOC:Environmental Remediation of Contaminated Sites Lecture 35 - Different type of fluxes through containment barrier
Link NOC:Environmental Remediation of Contaminated Sites Lecture 36 - Introduction to Solidification and Stabilisation and Case Study
Link NOC:Environmental Remediation of Contaminated Sites Lecture 37 - Different contaminant reactions during solidification and stabilisation
Link NOC:Environmental Remediation of Contaminated Sites Lecture 38 - Diffusion of contaminant through solidified form
Link NOC:Environmental Remediation of Contaminated Sites Lecture 39 - Calculations for fractions of binders, admixtures, waste and water used in solidification
Link NOC:Environmental Remediation of Contaminated Sites Lecture 40 - Discussion of TCLP approach in solidification and its examples
Link NOC:Environmental Remediation of Contaminated Sites Lecture 41 - Discussion of TCLP approach (Continued...) and Cost estimation of Solidification
Link NOC:Environmental Remediation of Contaminated Sites Lecture 42 - Case Study: Solidification and Stabilization
Link NOC:Environmental Remediation of Contaminated Sites Lecture 43 - Chemical Treatment
Link NOC:Environmental Remediation of Contaminated Sites Lecture 44 - Case Study: In-Situ Chemical Oxidation - Part I
Link NOC:Environmental Remediation of Contaminated Sites Lecture 45 - Case Study: In-Situ Chemical Oxidation - Part II
Link NOC:Environmental Remediation of Contaminated Sites Lecture 46 - Case Study: In-Situ Chemical Oxidation - Part III
Link NOC:Environmental Remediation of Contaminated Sites Lecture 47 - Surfactant Extraction - Part I
Link NOC:Environmental Remediation of Contaminated Sites Lecture 48 - Surfactant Extraction - Part II
Link NOC:Environmental Remediation of Contaminated Sites Lecture 49 - Case Study: Surfactant Extraction - Part I
Link NOC:Environmental Remediation of Contaminated Sites Lecture 50 - Case Study: Surfactant Extraction - Part II
Link NOC:Environmental Remediation of Contaminated Sites Lecture 51 - Soil Vapor Extraction - Part I
Link NOC:Environmental Remediation of Contaminated Sites Lecture 52 - Soil Vapor Extraction - Part II
Link NOC:Environmental Remediation of Contaminated Sites Lecture 53 - Bioremediation - Part I
Link NOC:Environmental Remediation of Contaminated Sites Lecture 54 - Bioremediation - Part II
Link NOC:Environmental Remediation of Contaminated Sites Lecture 55 - Case Study: Bioremediation
Link NOC:Environmental Remediation of Contaminated Sites Lecture 56 - Case Study: Soil Vapor Extraction - Part I
Link NOC:Environmental Remediation of Contaminated Sites Lecture 57 - Case Study: Soil Vapor Extraction - Part II
Link NOC:Environmental Remediation of Contaminated Sites Lecture 58 - Phyto-remediation
Link NOC:Environmental Remediation of Contaminated Sites Lecture 59 - Thermal Processes and Soil Washing
Link NOC:Global Navigation Satellite Systems and Applications Lecture 1 - Introduction to Global Navigation Satellite System (GNSS)
Link NOC:Global Navigation Satellite Systems and Applications Lecture 2 - How position is determined by the GNSS? - Part I
Link NOC:Global Navigation Satellite Systems and Applications Lecture 3 - How position is determined by the GNSS? - Part II
Link NOC:Global Navigation Satellite Systems and Applications Lecture 4 - How position is determined by the GNSS? - Part III
Link NOC:Global Navigation Satellite Systems and Applications Lecture 5 - NAVSTAR - Global Positioning System
Link NOC:Global Navigation Satellite Systems and Applications Lecture 6 - Global Navigation Satellite System (GLONASS)
Link NOC:Global Navigation Satellite Systems and Applications Lecture 7 - BeiDou Navigation Satellite System (BDS)
Link NOC:Global Navigation Satellite Systems and Applications Lecture 8 - Indian Regional Navigation Satellite System (IRNSS)
Link NOC:Global Navigation Satellite Systems and Applications Lecture 9 - GALILEO
Link NOC:Global Navigation Satellite Systems and Applications Lecture 10 - Quasi-Zenith Satellite System (QZSS)
Link NOC:Global Navigation Satellite Systems and Applications Lecture 11 - Differential Global Navigation Satellite System (DGNSS)
Link NOC:Global Navigation Satellite Systems and Applications Lecture 12 - Real-Time Kinematic (RTK)
Link NOC:Global Navigation Satellite Systems and Applications Lecture 13 - Satellite Based Augmentation System (SBAS)
Link NOC:Global Navigation Satellite Systems and Applications Lecture 14 - GNSS Errors
Link NOC:Global Navigation Satellite Systems and Applications Lecture 15 - GNSS Correction Methods
Link NOC:Global Navigation Satellite Systems and Applications Lecture 16 - Why altitude estimated by GNSS receivers is not very accurate
Link NOC:Global Navigation Satellite Systems and Applications Lecture 17 - Global Navigation Satellite Systems (GNSS) Applications - I
Link NOC:Global Navigation Satellite Systems and Applications Lecture 18 - Global Navigation Satellite Systems (GNSS) Applications - II
Link NOC:Global Navigation Satellite Systems and Applications Lecture 19 - GNSS: Current Trends and Future
Link NOC:Global Navigation Satellite Systems and Applications Lecture 20 - GNSS: Opportunities in India
Link Ground Improvement Techniques Lecture 1 - Need for Ground Improvement
Link Ground Improvement Techniques Lecture 2 - Classification of ground modification techniques
Link Ground Improvement Techniques Lecture 3 - Emerging trends in ground improvement
Link Ground Improvement Techniques Lecture 4 - Mechanical modification
Link Ground Improvement Techniques Lecture 5 - Compaction Control
Link Ground Improvement Techniques Lecture 6 - Deep compaction
Link Ground Improvement Techniques Lecture 7 - Dynamic compaction
Link Ground Improvement Techniques Lecture 8 - Vibro-compaction methods
Link Ground Improvement Techniques Lecture 9 - Case studies in stone columns
Link Ground Improvement Techniques Lecture 10 - Prefabricated Vertical Drains (PVDS) - I
Link Ground Improvement Techniques Lecture 11 - Prefabricated drains (PVDS) - II
Link Ground Improvement Techniques Lecture 12 - Dewatering - I
Link Ground Improvement Techniques Lecture 13 - Dewatering - II
Link Ground Improvement Techniques Lecture 14 - Electro-kinetic stabilization
Link Ground Improvement Techniques Lecture 15 - Heating and freezing methods, Blasting methods - I
Link Ground Improvement Techniques Lecture 16 - Heating and freezing methods, Blasting methods - II
Link Ground Improvement Techniques Lecture 17 - Ground Treatment with lime - I
Link Ground Improvement Techniques Lecture 18 - Ground Treatment with lime - II
Link Ground Improvement Techniques Lecture 19 - Ground treatment with cement
Link Ground Improvement Techniques Lecture 20 - Grouting procedures
Link Ground Improvement Techniques Lecture 21 - Grouting
Link Ground Improvement Techniques Lecture 22 - Micropiles
Link Ground Improvement Techniques Lecture 23 - Introduction to Geosynthetics - I
Link Ground Improvement Techniques Lecture 24 - Introduction to Geosynthetics - II
Link Ground Improvement Techniques Lecture 25 - Reinforced soil principles and mechanisms
Link Ground Improvement Techniques Lecture 26 - Material properties
Link Ground Improvement Techniques Lecture 27 - Factors affecting reinforced soil
Link Ground Improvement Techniques Lecture 28 - Bearing capacity improvement - I
Link Ground Improvement Techniques Lecture 29 - Bearing capacity improvement - II
Link Ground Improvement Techniques Lecture 30 - Reinforced soil slopes
Link Ground Improvement Techniques Lecture 31 - Reinforced Soil Walls
Link Ground Improvement Techniques Lecture 32 - Reinforced Soil Walls - I
Link Ground Improvement Techniques Lecture 33 - Soil Nailing
Link Ground Improvement Techniques Lecture 34 - Design of embankments on soft soil using geosynthetics
Link Ground Improvement Techniques Lecture 35 - Design of embankments on soft soil using geocells, Use of geosyntheticsfor filtration and drainage
Link Ground Improvement Techniques Lecture 36 - Applications in filtration and drainage & erosion control
Link Ground Improvement Techniques Lecture 37 - Geosynthetics in pavements
Link Ground Improvement Techniques Lecture 38 - Sustainable development and energy geotechnology
Link Ground Improvement Techniques Lecture 39 - Microbial geotechnology and Ground Improvement
Link Ground Improvement Techniques Lecture 40 - Nano-technologies in ground improvement and site remediation
Link Stochastic Hydrology Lecture 1 - Introduction
Link Stochastic Hydrology Lecture 2 - Bivariate Distributions
Link Stochastic Hydrology Lecture 3 - Independence ; Functions of Random Variables
Link Stochastic Hydrology Lecture 4 - Moments of a Distribution
Link Stochastic Hydrology Lecture 5 - Normal Distribution
Link Stochastic Hydrology Lecture 6 - Other Continuous Distributions
Link Stochastic Hydrology Lecture 7 - Parameter Estimation
Link Stochastic Hydrology Lecture 8 - Covariance and Correlation
Link Stochastic Hydrology Lecture 9 - Data Generation
Link Stochastic Hydrology Lecture 10 - Time Series Analysis (1)
Link Stochastic Hydrology Lecture 11 - Time Series Analysis (2)
Link Stochastic Hydrology Lecture 12 - Time Series Analysis (3)
Link Stochastic Hydrology Lecture 13 - Frequency Domain Analysis (1)
Link Stochastic Hydrology Lecture 14 - Frequency Domain Analysis (2) and ARIMA Models (1)
Link Stochastic Hydrology Lecture 15 - ARIMA Models (2)
Link Stochastic Hydrology Lecture 16 - ARIMA Models (3)
Link Stochastic Hydrology Lecture 17 - ARIMA Models (4)
Link Stochastic Hydrology Lecture 18 - Case Studies (1)
Link Stochastic Hydrology Lecture 19 - Case Studies (2)
Link Stochastic Hydrology Lecture 20 - Case Studies (3)
Link Stochastic Hydrology Lecture 21 - Case Studies (4)
Link Stochastic Hydrology Lecture 22 - Markov Chains (1)
Link Stochastic Hydrology Lecture 23 - Markov Chains (2)
Link Stochastic Hydrology Lecture 24 - Frequency Analysis (1)
Link Stochastic Hydrology Lecture 25 - Frequency Analysis (2)
Link Stochastic Hydrology Lecture 26 - Frequency Analysis (3) and Probability Plotting (1)
Link Stochastic Hydrology Lecture 27 - Probability Plotting (2)
Link Stochastic Hydrology Lecture 28 - Goodness of Fit
Link Stochastic Hydrology Lecture 29 - IDF Relationships
Link Stochastic Hydrology Lecture 30 - Multiple Linear Regression
Link Stochastic Hydrology Lecture 31 - Principal Component Analysis
Link Stochastic Hydrology Lecture 32 - Regression on Principal Components
Link Stochastic Hydrology Lecture 33 - Multivariate Stochastic Models (1)
Link Stochastic Hydrology Lecture 34 - Multivariate Stochastic Models (2)
Link Stochastic Hydrology Lecture 35 - Multivariate Stochastic Models (3)
Link Stochastic Hydrology Lecture 36 - Data Consistency Checks (1)
Link Stochastic Hydrology Lecture 37 - Data Consistency Checks (2)
Link Stochastic Hydrology Lecture 38 - Data Consistency Checks (3)
Link Stochastic Hydrology Lecture 39 - Recent Applications: Climate Change Impact Assessment
Link Stochastic Hydrology Lecture 40 - Summary of the Course
Link Stochastic Structural Dynamics Lecture 1 - Definition of probability measure and conditional probability
Link Stochastic Structural Dynamics Lecture 2 - Scalar random variables - 1
Link Stochastic Structural Dynamics Lecture 3 - Scalar random variables - 2
Link Stochastic Structural Dynamics Lecture 4 - Multi-dimensional random variables - 1
Link Stochastic Structural Dynamics Lecture 5 - Multi-dimensional random variables - 2
Link Stochastic Structural Dynamics Lecture 6 - Random processes - 1
Link Stochastic Structural Dynamics Lecture 7 - Random processes - 2
Link Stochastic Structural Dynamics Lecture 8 - Random processes - 3
Link Stochastic Structural Dynamics Lecture 9 - Random processes - 4, Random vibrations of sdof systems - 1
Link Stochastic Structural Dynamics Lecture 10 - Random processes - 4, Random vibrations of sdof systems - 1
Link Stochastic Structural Dynamics Lecture 11 - Random vibrations of sdof systems - 2
Link Stochastic Structural Dynamics Lecture 12 - Random vibrations of sdof systems - 3
Link Stochastic Structural Dynamics Lecture 13 - Random vibrations of sdof systems - 4
Link Stochastic Structural Dynamics Lecture 14 - Random vibrations of mdof systems - 1
Link Stochastic Structural Dynamics Lecture 15 - Random vibrations of mdof systems - 2
Link Stochastic Structural Dynamics Lecture 16 - Random vibrations of mdof systems - 3
Link Stochastic Structural Dynamics Lecture 17 - Random vibrations of mdof systems - 4
Link Stochastic Structural Dynamics Lecture 18 - Failure of randomly vibrating systems - 1
Link Stochastic Structural Dynamics Lecture 19 - Failure of randomly vibrating systems - 2
Link Stochastic Structural Dynamics Lecture 20 - Failure of randomly vibrating systems - 3
Link Stochastic Structural Dynamics Lecture 21 - Failure of randomly vibrating systems - 4
Link Stochastic Structural Dynamics Lecture 22 - Markov vector approach - 1
Link Stochastic Structural Dynamics Lecture 23 - Markov vector approach - 2
Link Stochastic Structural Dynamics Lecture 24 - Markov vector approach - 3
Link Stochastic Structural Dynamics Lecture 25 - Markov vector approach - 4
Link Stochastic Structural Dynamics Lecture 26 - Markov vector approach - 5, Monte Carlo simulation approach - 1
Link Stochastic Structural Dynamics Lecture 27 - Markov vector approach - 5 & Monte Carlo simulation approach - 1
Link Stochastic Structural Dynamics Lecture 28 - Monte Carlo simulation approach - 2
Link Stochastic Structural Dynamics Lecture 29 - Monte Carlo simulation approach - 3
Link Stochastic Structural Dynamics Lecture 30 - Monte Carlo simulation approach - 4
Link Stochastic Structural Dynamics Lecture 31 - Monte Carlo simulation approach - 5
Link Stochastic Structural Dynamics Lecture 32 - Monte Carlo simulation approach - 6
Link Stochastic Structural Dynamics Lecture 33 - Monte Carlo simulation approach - 7
Link Stochastic Structural Dynamics Lecture 34 - Probabilistic methods in earthquake engineering - 1
Link Stochastic Structural Dynamics Lecture 35 - Probabilistic methods in earthquake engineering - 2
Link Stochastic Structural Dynamics Lecture 36 - Probabilistic methods in earthquake engineering - 3
Link Stochastic Structural Dynamics Lecture 37 - Probabilistic methods in earthquake engineering - 4
Link Stochastic Structural Dynamics Lecture 38 - Fatigue failure & Vibration energy flow models
Link Stochastic Structural Dynamics Lecture 39 - Problem solving session - 1
Link Stochastic Structural Dynamics Lecture 40 - Problem solving session - 2
Link Stochastic Structural Dynamics Lecture 41 - Problem solving session - 3
Link Stochastic Structural Dynamics Lecture 42 - Problem solving session - 4
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 1 - Introduction
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 2 - Definitions and types of systems
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 3 - Optimization: Functions of a single variable
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 4 - Optimization: Functions of multiple variables
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 5 - Constrained optimization (1)
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 6 - Constrained optimization (2)
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 7 - Kuhn-Tucker conditions and Introduction to Linear Programming
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 8 - Linear Programming: Graphical method
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 9 - Linear Programming: Simplex method (1)
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 10 - Linear Programming: Simplex method (2)
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 11 - Linear Programming: Multiple solutions
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 12 - Linear Programming: Unbounded and infeasible problems
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 13 - Linear Programming: Dual problem
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 14 - Introduction to Dynamic Programming
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 15 - Dynamic Programming: Water allocation problem
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 16 - Dynamic Programming: Reservoir operation problem
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 17 - Dynamic Programming: Capacity expansion and shortest route problems
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 18 - Simulation: Introduction to Multi-objective planning
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 19 - Multi-objective planning
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 20 - Reservoir sizing
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 21 - Reservoir capacity using Linear Programming (1)
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 22 - Reservoir capacity using Linear Programming (2)
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 23 - Reservoir operation
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 24 - Multi-reservoir systems
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 25 - Stationary policy using Dynamic Programming
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 26 - Hydropower generation
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 27 - Basic probability theory (1)
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 28 - Basic probability theory (2)
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 29 - Chance constrained Linear Programming for reservoir operation and design (1)
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 30 - Chance constrained Linear Programming for reservoir operation and design (2)
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 31 - Stochastic Dynamic Programming for reservoir operation (1)
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 32 - Stochastic Dynamic Programming for reservoir operation (2)
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 33 - Stochastic Dynamic Programming for reservoir operation (3)
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 34 - Fuzzy optimization (1)
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 35 - Fuzzy optimization (2)
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 36 - Fuzzy optimization for water quality control and reservoir operation
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 37 - Conjunctive use of ground and surface water
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 38 - Hydropower optimization
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 39 - Crop yield optimization
Link Water Resources Systems : Modeling Techniques and Analysis Lecture 40 - Multi-basin and multi-reservoir systems
Link Finite Element method for vibration and Stability analyses Lecture 1 - Equations of motion using Hamilton’s principle
Link Finite Element method for vibration and Stability analyses Lecture 2 - Equations of motion for continuous systems and Rayleigh’s quotient
Link Finite Element method for vibration and Stability analyses Lecture 3 - Rayleigh Ritz method and method of weighted residuals
Link Finite Element method for vibration and Stability analyses Lecture 4 - FEM: motivations. Analysis of axially vibrating rods and Euler-Bernoulli beams
Link Finite Element method for vibration and Stability analyses Lecture 5 - Beam elements. Reference systm. Assembly of matrices. Imposition of BCS. Final equation of motion
Link Finite Element method for vibration and Stability analyses Lecture 6 - FE modelling of planar structures
Link Finite Element method for vibration and Stability analyses Lecture 7 - FE modelling of planar structures (Continued...)
Link Finite Element method for vibration and Stability analyses Lecture 8 - FRF-s and damping models-1
Link Finite Element method for vibration and Stability analyses Lecture 9 - FRF-s and damping models-2
Link Finite Element method for vibration and Stability analyses Lecture 10 - Material damping models. Dynamic stiffness and transfer matrices
Link Finite Element method for vibration and Stability analyses Lecture 11 - Twisting of circular bars and rectangular bars. Analysis of grids
Link Finite Element method for vibration and Stability analyses Lecture 12 - 3D frames
Link Finite Element method for vibration and Stability analyses Lecture 13 - Mathematical preliminaries and terminologies; Euler’s forward and backward difference methods
Link Finite Element method for vibration and Stability analyses Lecture 14 - Forward and backward Euler method. Central difference method
Link Finite Element method for vibration and Stability analyses Lecture 15 - Second order implicit methods
Link Finite Element method for vibration and Stability analyses Lecture 16 - Energy conservation. Nonlinear systems
Link Finite Element method for vibration and Stability analyses Lecture 17 - Model reduction schemes
Link Finite Element method for vibration and Stability analyses Lecture 18 - Substructuring schemes
Link Finite Element method for vibration and Stability analyses Lecture 19 - Plane stress models
Link Finite Element method for vibration and Stability analyses Lecture 20 - Plane stress models (Continued...)
Link Finite Element method for vibration and Stability analyses Lecture 21 - 3d Solid element
Link Finite Element method for vibration and Stability analyses Lecture 22 - Axisymmetric models. Plate bending elements.
Link Finite Element method for vibration and Stability analyses Lecture 23 - Plate bending elements (Continued...)
Link Finite Element method for vibration and Stability analyses Lecture 24 - Plate bending elements (Continued...)
Link Finite Element method for vibration and Stability analyses Lecture 25 - Plate bending elements (Continued...)
Link Finite Element method for vibration and Stability analyses Lecture 26 - Introduction
Link Finite Element method for vibration and Stability analyses Lecture 27 - Introduction (Continued...)
Link Finite Element method for vibration and Stability analyses Lecture 28 - Nonlinear dynamical systems, fixed points and bifurcations
Link Finite Element method for vibration and Stability analyses Lecture 29 - Energy methods in stability analysis
Link Finite Element method for vibration and Stability analyses Lecture 30 - FEM for stability analysis. Euler-Bernoulli beam and general formulations
Link Finite Element method for vibration and Stability analyses Lecture 31 - 3D beam element; plate element; imperfection sensitive structures; beams on elastic foundations; rings and arches
Link Finite Element method for vibration and Stability analyses Lecture 32 - Dynamic analysis of stability and analysis of time varying systems
Link Finite Element method for vibration and Stability analyses Lecture 33 - Dynamic analysis of stability and analysis of time varying systems
Link Finite Element method for vibration and Stability analyses Lecture 34 - FE modelling of vehicle structure interactions
Link Finite Element method for vibration and Stability analyses Lecture 35 - Inverse response sensitivity analysis
Link Finite Element method for vibration and Stability analyses Lecture 36 - Inverse response sensitivity analysis (Continued...)
Link Finite Element method for vibration and Stability analyses Lecture 37 - Introduction and review of continuum mechanics
Link Finite Element method for vibration and Stability analyses Lecture 38 - Review of measures of strain and stress; balance laws
Link Finite Element method for vibration and Stability analyses Lecture 39 - Total and updated Lagrangian formulations
Link Finite Element method for vibration and Stability analyses Lecture 40 - Closure
Link Natural Language Processing Lecture 1 - Introduction
Link Natural Language Processing Lecture 2 - Stages of NLP
Link Natural Language Processing Lecture 3 - Stages of NLP Continue...
Link Natural Language Processing Lecture 4 - Two approaches to NLP
Link Natural Language Processing Lecture 5 - Sequence Labelling and Noisy Channel
Link Natural Language Processing Lecture 6 - Noisy Channel: Argmax Based Computation
Link Natural Language Processing Lecture 7 - Argmax Based Computation
Link Natural Language Processing Lecture 8 - Noisy Channel Application to NLP
Link Natural Language Processing Lecture 9 - Brief on Probabilistic Parsing & Start of Part of Speech Tagging
Link Natural Language Processing Lecture 10 - Part of Speech Tagging
Link Natural Language Processing Lecture 11 - Part of Speech Tagging counted ...
Link Natural Language Processing Lecture 12 - Part of Speech Tagging counted ... and Indian Language in Focus; Morphology Analysis
Link Natural Language Processing Lecture 13 - PoS Tagging contd... , Indian Language Consideration; Accuracy Measure
Link Natural Language Processing Lecture 14 - PoS Tagging; Fundamental Principle; Why Challenging; accuracy
Link Natural Language Processing Lecture 15 - PoS Tagging; Accuracy Measurement; Word categories
Link Natural Language Processing Lecture 16 - AI and Probability; HMM
Link Natural Language Processing Lecture 17 - HMM
Link Natural Language Processing Lecture 18 - HMM, Viterbi, Forward Backward Algorithm
Link Natural Language Processing Lecture 19 - HMM, Viterbi, Forward Backward Algorithm (Continued...)
Link Natural Language Processing Lecture 20 - HMM, Forward Backward Algorithms, Baum Welch Algorithm
Link Natural Language Processing Lecture 21 - HMM, Forward Backward Algorithms, Baum Welch Algorithm (Continued...)
Link Natural Language Processing Lecture 22 - Natural Language Processing and Informational Retrieval
Link Natural Language Processing Lecture 23 - CLIA; IR Basics
Link Natural Language Processing Lecture 24 - IR Models: Boolean Vector
Link Natural Language Processing Lecture 25 - IR Models: NLP and IR Relationship
Link Natural Language Processing Lecture 26 - NLP and IR: How NLP has used IR, Toward Latent Semantic
Link Natural Language Processing Lecture 27 - Least Square Method; Recap of PCA; Towards Latent Semantic Indexing (LSI)
Link Natural Language Processing Lecture 28 - PCA; SVD; Towards Latent Semantic Indexing (LSI)
Link Natural Language Processing Lecture 29 - Wordnet and Word Sense Disambiguation
Link Natural Language Processing Lecture 30 - Wordnet and Word Sense Disambiguation (Continued...)
Link Natural Language Processing Lecture 31 - Wordnet; Metonymy and Word Sense Disambiguation
Link Natural Language Processing Lecture 32 - Word Sense Disambiguation
Link Natural Language Processing Lecture 33 - Word Sense Disambiguation; Overlap Based Method; Supervised Method
Link Natural Language Processing Lecture 34 - Word Sense Disambiguation: Supervised and Unsupervised methods
Link Natural Language Processing Lecture 35 - Word Sense Disambiguation: Semi - Supervised and Unsupervised method; resource - constrained WSD
Link Natural Language Processing Lecture 36 - Resource Constrained WSD; Parsing
Link Natural Language Processing Lecture 37 - Parsing
Link Natural Language Processing Lecture 38 - Parsing Algorithm
Link Natural Language Processing Lecture 39 - Parsing Ambiguous Sentences; Probabilistic Parsing
Link Natural Language Processing Lecture 40 - Probabilistic Parsing Algorithms
Link Design and Analysis of Algorithms Lecture 1 - Overview of the course
Link Design and Analysis of Algorithms Lecture 2 - Framework for Algorithms Analysis
Link Design and Analysis of Algorithms Lecture 3 - Algorithms Analysis Framework - II
Link Design and Analysis of Algorithms Lecture 4 - Asymptotic Notations
Link Design and Analysis of Algorithms Lecture 5 - Algorithm Design Techniques : Basics
Link Design and Analysis of Algorithms Lecture 6 - Divide And Conquer - I
Link Design and Analysis of Algorithms Lecture 7 - Divide And Conquer - II Median Finding
Link Design and Analysis of Algorithms Lecture 8 - Divide And Conquer - III Surfing Lower Bounds
Link Design and Analysis of Algorithms Lecture 9 - Divide And Conquer - IV Closest Pair
Link Design and Analysis of Algorithms Lecture 10 - Greedy Algorithms - I
Link Design and Analysis of Algorithms Lecture 11 - Greedy Algorithms - II
Link Design and Analysis of Algorithms Lecture 12 - Greedy Algorithms - III
Link Design and Analysis of Algorithms Lecture 13 - Greedy Algorithms - IV
Link Design and Analysis of Algorithms Lecture 14 - Pattern Matching - I
Link Design and Analysis of Algorithms Lecture 15 - Pattern Matching - II
Link Design and Analysis of Algorithms Lecture 16 - Combinational Search and Optimization - I
Link Design and Analysis of Algorithms Lecture 17 - Combinational Search and Optimization - II
Link Design and Analysis of Algorithms Lecture 18 - Dynamic Programming
Link Design and Analysis of Algorithms Lecture 19 - Longest Common Subsequences
Link Design and Analysis of Algorithms Lecture 20 - Matrix Chain Multiplication
Link Design and Analysis of Algorithms Lecture 21 - Scheduling with Startup and Holding Costs
Link Design and Analysis of Algorithms Lecture 22 - Average case Analysis of Quicksort
Link Design and Analysis of Algorithms Lecture 23 - Bipartite Maximum Matching
Link Design and Analysis of Algorithms Lecture 24 - Lower Bounds for Sorting
Link Design and Analysis of Algorithms Lecture 25 - Element Distinctness Lower Bounds
Link Design and Analysis of Algorithms Lecture 26 - NP-Completeness - I - Motivation
Link Design and Analysis of Algorithms Lecture 27 - NP-Completeness - II
Link Design and Analysis of Algorithms Lecture 28 - NP-Completeness - III
Link Design and Analysis of Algorithms Lecture 29 - NP-Completeness - IV
Link Design and Analysis of Algorithms Lecture 30 - NP-Completeness - V
Link Design and Analysis of Algorithms Lecture 31 - NP-Completeness - VI
Link Design and Analysis of Algorithms Lecture 32 - Approximation Algorithms
Link Design and Analysis of Algorithms Lecture 33 - Approximation Algorithms
Link Design and Analysis of Algorithms Lecture 34 - Approximation Algorithms for NP
Link Software Engineering Lecture 1 - Introduction to Software Engineering - Challenges
Link Software Engineering Lecture 2 - Introduction to Software Engineering
Link Software Engineering Lecture 3 - Overview of Phases
Link Software Engineering Lecture 4 - Overview of Phases
Link Software Engineering Lecture 5 - Requirements Engineering / Specification
Link Software Engineering Lecture 6 - Formal Specification
Link Software Engineering Lecture 7 - Algebraic Specification Methods
Link Software Engineering Lecture 8 - Systems Modeling Overview
Link Software Engineering Lecture 9 - Process Modeling - DFD , Function Decomp
Link Software Engineering Lecture 10 - Process Modeling - DFD, Function Decomp
Link Software Engineering Lecture 11 - Data Modeling - ER Diagrams, Mapping
Link Software Engineering Lecture 12 - Data Modeling - ER Diagrams, Mapping
Link Software Engineering Lecture 13 - Production Quality Software - Introduction
Link Software Engineering Lecture 14 - Software Design - Primary Consideration
Link Software Engineering Lecture 15 - Design Patterns
Link Software Engineering Lecture 16 - Class and Component Level Design
Link Software Engineering Lecture 17 - Architectural Design
Link Software Engineering Lecture 18 - Software Testing - I
Link Software Engineering Lecture 19 - Software Testing - II
Link Software Engineering Lecture 20 - Structural Programming and Some implementation
Link Software Engineering Lecture 21 - Software Metrics and Quality
Link Software Engineering Lecture 22 - Verification and Validation
Link Software Engineering Lecture 23 - Case Study
Link Software Engineering Lecture 24 - Case Study
Link Software Engineering Lecture 25 - Software Evolution
Link Software Engineering Lecture 26 - Agile Development
Link Software Engineering Lecture 27 - Software Reuse CBSE
Link Software Engineering Lecture 28 - Reuse Continued
Link Software Engineering Lecture 29 - Introduction to Project Management
Link Software Engineering Lecture 30 - Project Scope Management
Link Software Engineering Lecture 31 - Project Time Management
Link Software Engineering Lecture 32 - Estimation - I
Link Software Engineering Lecture 33 - Estimation - II
Link Software Engineering Lecture 34 - Project Quality Management
Link Software Engineering Lecture 35 - Quality Management Systems - I
Link Software Engineering Lecture 36 - Quality Management Systems
Link Software Engineering Lecture 37 - Project Configuration Management
Link Software Engineering Lecture 38 - Project Risk Management
Link Software Engineering Lecture 39 - Other PM Processes
Link NOC:Software Testing (2017) Lecture 1 - Motivation
Link NOC:Software Testing (2017) Lecture 2 - Terminologies
Link NOC:Software Testing (2017) Lecture 3 - Testing based on Models and Criteria
Link NOC:Software Testing (2017) Lecture 4 - Automation - JUnit as an example
Link NOC:Software Testing (2017) Lecture 5 - Basics of Graphs: As used in testing
Link NOC:Software Testing (2017) Lecture 6 - Structural Graph Coverage Criteria
Link NOC:Software Testing (2017) Lecture 7 - Elementary Graph Algorithms - Part 1
Link NOC:Software Testing (2017) Lecture 8 - Elementary Graph Algorithms - Part 2
Link NOC:Software Testing (2017) Lecture 9 - Algorithms: Structural Graph Coverage Criteria
Link NOC:Software Testing (2017) Lecture 10 - Assignment 2: Structural Coverage Criteria
Link NOC:Software Testing (2017) Lecture 11 - Data Flow Graphs
Link NOC:Software Testing (2017) Lecture 12 - Algorithms: Data Flow Graph Coverage Criteria
Link NOC:Software Testing (2017) Lecture 13 - Graph Coverage Criteria: Applied to Test Code
Link NOC:Software Testing (2017) Lecture 14 - Testing Source Code: Classical Coverage Criteria
Link NOC:Software Testing (2017) Lecture 15 - Data Flow Graph Coverage Criteria : Applied to Test Code
Link NOC:Software Testing (2017) Lecture 16 - Software Design and Integration Testing
Link NOC:Software Testing (2017) Lecture 17 - Design Integration Testing and Graph Coverage
Link NOC:Software Testing (2017) Lecture 18 - Specification Testing and Graph Coverage
Link NOC:Software Testing (2017) Lecture 19 - Graph Coverage and Finite state Machines
Link NOC:Software Testing (2017) Lecture 20 - Assignment 4: Graph Coverage Criteria
Link NOC:Software Testing (2017) Lecture 21 - Logic: Basics Needed for Software Testing
Link NOC:Software Testing (2017) Lecture 22 - Logic: Coverage Criteria
Link NOC:Software Testing (2017) Lecture 23 - Coverage Criteria, (Continued...)
Link NOC:Software Testing (2017) Lecture 24 - Logic Coverage Criteria
Link NOC:Software Testing (2017) Lecture 25 - Logic Coverage Criteria: Applied to Test Code_1
Link NOC:Software Testing (2017) Lecture 26 - Logic Coverage Criteria: Applied to Test Code_2
Link NOC:Software Testing (2017) Lecture 27 - Logic Coverage Criteria: Issues in Applying to Test Code
Link NOC:Software Testing (2017) Lecture 28 - Logic Coverage Criteria: Applied to Test Specifications
Link NOC:Software Testing (2017) Lecture 29 - Logic Coverage Criteria: Applied to Finite State Machines
Link NOC:Software Testing (2017) Lecture 30 - Week 6 Assignment Solving
Link NOC:Software Testing (2017) Lecture 31 - Functional Testing
Link NOC:Software Testing (2017) Lecture 32 - Input Space Partitioning
Link NOC:Software Testing (2017) Lecture 33 - Input Space Partitioning: Coverage Criteria
Link NOC:Software Testing (2017) Lecture 34 - Input Space Partitioning Coverage Criteria: Example
Link NOC:Software Testing (2017) Lecture 35 - Syntax-Based Testing
Link NOC:Software Testing (2017) Lecture 36 - Mutatioon Testing
Link NOC:Software Testing (2017) Lecture 37 - Mutation Testing for Programs
Link NOC:Software Testing (2017) Lecture 38 - Mutation Testing: Mutation Operators for Source Code
Link NOC:Software Testing (2017) Lecture 39 - Mutation Testing Vs. Graphs and Logic Based Testing
Link NOC:Software Testing (2017) Lecture 40 - Assignment Solving for Week8
Link NOC:Software Testing (2017) Lecture 41 - Mutation testing
Link NOC:Software Testing (2017) Lecture 42 - Mutation Testing : Mutation for integration
Link NOC:Software Testing (2017) Lecture 43 - Mutation testing : Grammars and inputs
Link NOC:Software Testing (2017) Lecture 44 - Software Testing Course: Summary after Week 9
Link NOC:Software Testing (2017) Lecture 45 - Testing of web Applications and Web Services
Link NOC:Software Testing (2017) Lecture 46 - Testing of web Applications and Web Services
Link NOC:Software Testing (2017) Lecture 47 - Testing of web Applications and Web Services
Link NOC:Software Testing (2017) Lecture 48 - Testing of Object-Oriented Applications
Link NOC:Software Testing (2017) Lecture 49 - Testing of Object-Oriented Applications
Link NOC:Software Testing (2017) Lecture 50 - Symbolic Testing - 1
Link NOC:Software Testing (2017) Lecture 51 - Symbolic Testing - 2
Link NOC:Software Testing (2017) Lecture 52 - DART: Directed Automated Random Testing - 1
Link NOC:Software Testing (2017) Lecture 53 - DART: Directed Automated Random Testing - 2
Link NOC:Software Testing (2017) Lecture 54 - DART: Directed Automated Random Testing - 3
Link NOC:Software Testing (2017) Lecture 55 - Testing of Object-Oriented Applications
Link NOC:Software Testing (2017) Lecture 56 - Testing of Mobile Applications
Link NOC:Software Testing (2017) Lecture 57 - Non-Functional System Testing
Link NOC:Software Testing (2017) Lecture 58 - Regression Testing
Link NOC:Software Testing (2017) Lecture 59 - Assignment: Week 11 Solving
Link NOC:Software Testing (2017) Lecture 60 - Software Testing: Summary at the End of the Course
Link NOC:Design and Pedagogy of the Introductory Programming Course Lecture 1 - Course Overview
Link NOC:Design and Pedagogy of the Introductory Programming Course Lecture 2 - Introduction and Survey.0: The standard approach to introductory programming
Link NOC:Design and Pedagogy of the Introductory Programming Course Lecture 3 - Introduction and Survey.1: Experience with the standard approach
Link NOC:Design and Pedagogy of the Introductory Programming Course Lecture 4 - Introduction and Survey.2: Alternative approaches, Summary, and Conclusion
Link NOC:Design and Pedagogy of the Introductory Programming Course Lecture 5 - Basic Ideas in Our Approach.0: Introduction
Link NOC:Design and Pedagogy of the Introductory Programming Course Lecture 6 - Basic Ideas in Our Approach.1: Examples of translating manual algorithms to computer programs
Link NOC:Design and Pedagogy of the Introductory Programming Course Lecture 7 - Basic Ideas in Our Approach.2: More examples
Link NOC:Design and Pedagogy of the Introductory Programming Course Lecture 8 - Basic Ideas in Our Approach.3: Should we teach students (manual) problem solving strategies?
Link NOC:Design and Pedagogy of the Introductory Programming Course Lecture 9 - Basic Ideas in Our Approach.4: The design of the course
Link NOC:Design and Pedagogy of the Introductory Programming Course Lecture 10 - Basic Ideas in Our Approach.5: Remarks on individual topics - 1
Link NOC:Design and Pedagogy of the Introductory Programming Course Lecture 11 - Basic Ideas in Our Approach.6: Remarks on individual topics - 2, Conclusion
Link NOC:Design and Pedagogy of the Introductory Programming Course Lecture 12 - Pedagogy.0: Introduction and basic principles
Link NOC:Design and Pedagogy of the Introductory Programming Course Lecture 13 - Pedagogy.1: Scaffolding, Lesson Plan
Link NOC:Design and Pedagogy of the Introductory Programming Course Lecture 14 - Pedagogy.2: A quick tour of the course - 1
Link NOC:Design and Pedagogy of the Introductory Programming Course Lecture 15 - Pedagogy.3: Tour-2
Link NOC:Design and Pedagogy of the Introductory Programming Course Lecture 16 - Pedagogy.4: Tour-3, Conclusion
Link NOC:Design and Pedagogy of the Introductory Programming Course Lecture 17 - Advanced Programming Topics.0: Introduction, Organization of medium sized programs
Link NOC:Design and Pedagogy of the Introductory Programming Course Lecture 18 - Advanced Programming Topics.1: Advanced memory management, Standard Library
Link NOC:Design and Pedagogy of the Introductory Programming Course Lecture 19 - Advanced Programming topics.2: Object Oriented Programming, Concluding remarks
Link NOC:Design and Pedagogy of the Introductory Programming Course Lecture 20 - In class questions, Assignments, Examinations.0: In class questions and lab assignments
Link NOC:Design and Pedagogy of the Introductory Programming Course Lecture 21 - In class questions, Assignments, Examinations.1: Examinations
Link NOC:Design and Pedagogy of the Introductory Programming Course Lecture 22 - Summing up
Link NOC:An Introduction to Programming through C++ Lecture 1 - Introduction - Part 1
Link NOC:An Introduction to Programming through C++ Lecture 2 - Introduction - Part 2
Link NOC:An Introduction to Programming through C++ Lecture 3 - Introduction - Part 3
Link NOC:An Introduction to Programming through C++ Lecture 4 - Introduction - Part 4
Link NOC:An Introduction to Programming through C++ Lecture 5 - Problem Solving using Computer - Part 1
Link NOC:An Introduction to Programming through C++ Lecture 6 - Problem Solving using Computer - Part 2
Link NOC:An Introduction to Programming through C++ Lecture 7 - Problem Solving using Computer - Part 3
Link NOC:An Introduction to Programming through C++ Lecture 8 - Problem Solving using Computer - Part 4
Link NOC:An Introduction to Programming through C++ Lecture 9 - Problem Solving using Computer - Part 5
Link NOC:An Introduction to Programming through C++ Lecture 10 - Basic Elements of Program - Part 1
Link NOC:An Introduction to Programming through C++ Lecture 11 - Basic Elements of Program - Part 2
Link NOC:An Introduction to Programming through C++ Lecture 12 - Basic Elements of Program - Part 3
Link NOC:An Introduction to Programming through C++ Lecture 13 - Basic Elements of Program - Part 4
Link NOC:An Introduction to Programming through C++ Lecture 14 - Program Design - Part 1
Link NOC:An Introduction to Programming through C++ Lecture 15 - Program Design - Part 2
Link NOC:An Introduction to Programming through C++ Lecture 16 - Program Design - Part 3
Link NOC:An Introduction to Programming through C++ Lecture 17 - Simple cpp Graphics
Link NOC:An Introduction to Programming through C++ Lecture 18 - Conditional Execution - Part 1
Link NOC:An Introduction to Programming through C++ Lecture 19 - Most general form of if - Part 2
Link NOC:An Introduction to Programming through C++ Lecture 20 - More general form of conditions - Part 3
Link NOC:An Introduction to Programming through C++ Lecture 21 - A somewhat large program example - Part 4
Link NOC:An Introduction to Programming through C++ Lecture 22 - Switch statement and logical data - Part 5
Link NOC:An Introduction to Programming through C++ Lecture 23 - Loops - Part 1
Link NOC:An Introduction to Programming through C++ Lecture 24 - Mark averaging - Part 2
Link NOC:An Introduction to Programming through C++ Lecture 25 - The break and continue statements - Part 3
Link NOC:An Introduction to Programming through C++ Lecture 26 - The for statement - Part 4
Link NOC:An Introduction to Programming through C++ Lecture 27 - Euclid's algorithm for GCD - Part 5
Link NOC:An Introduction to Programming through C++ Lecture 28 - Correctness proof for GCD - Part 6
Link NOC:An Introduction to Programming through C++ Lecture 29 - Computing Mathematical Functions - Part 1 : Taylor series
Link NOC:An Introduction to Programming through C++ Lecture 30 - Computing Mathematical Functions - Part 2 : Numerical integration
Link NOC:An Introduction to Programming through C++ Lecture 31 - Computing Mathematical Functions - Part 3 : Bisection Method
Link NOC:An Introduction to Programming through C++ Lecture 32 - Computing Mathematical Functions - Part 4 : Newton Raphson Method
Link NOC:An Introduction to Programming through C++ Lecture 33 - Loops in various applications - Part 1 : Loops in various applications brute force algorithms
Link NOC:An Introduction to Programming through C++ Lecture 34 - Loops in various applications - Part 2 : Finding Pythagorean Triples
Link NOC:An Introduction to Programming through C++ Lecture 35 - Loops in various applications - Part 3 : Modelling a system: bargaining
Link NOC:An Introduction to Programming through C++ Lecture 36 - Loops in various applications - Part 4 : Simulating a water tank
Link NOC:An Introduction to Programming through C++ Lecture 37 - Loops in various applications - Part 5 : Arithmetic on very large numbers
Link NOC:An Introduction to Programming through C++ Lecture 38 - Functions - Part 1 : Basics
Link NOC:An Introduction to Programming through C++ Lecture 39 - Functions - Part 2 : Examples
Link NOC:An Introduction to Programming through C++ Lecture 40 - Functions - Part 3 : Reference parameters
Link NOC:An Introduction to Programming through C++ Lecture 41 - Functions - Part 4 : Pointers
Link NOC:An Introduction to Programming through C++ Lecture 42 - Functions - Part 5 : Graphics Objects and Lecture conclusion
Link NOC:An Introduction to Programming through C++ Lecture 43 - Recursion - Part 1 : Introduction
Link NOC:An Introduction to Programming through C++ Lecture 44 - Recursion - Part 2 : Recursive objects, Tree drawing
Link NOC:An Introduction to Programming through C++ Lecture 45 - Recursion - Part 3 : How to think about recursion
Link NOC:An Introduction to Programming through C++ Lecture 46 - Virahanka Numbers - Part 1 : Introduction
Link NOC:An Introduction to Programming through C++ Lecture 47 - Virahanka Numbers - Part 2 : Recursive Program
Link NOC:An Introduction to Programming through C++ Lecture 48 - Virahanka Numbers - Part 3 : Iterative Program and Conclusion
Link NOC:An Introduction to Programming through C++ Lecture 49 - Program Organization and Functions - Part 1 : Introduction
Link NOC:An Introduction to Programming through C++ Lecture 50 - Program Organization and Functions - Part 2 : Splitting into files
Link NOC:An Introduction to Programming through C++ Lecture 51 - Program Organization and Functions - Part 3 : Namespaces
Link NOC:An Introduction to Programming through C++ Lecture 52 - Program Organization and Functions - Part 4 : How to use C++ without simplecpp
Link NOC:An Introduction to Programming through C++ Lecture 53 - Advanced Features of Functions - Part 1 : Introduction and passing one function to another
Link NOC:An Introduction to Programming through C++ Lecture 54 - Advanced Features of Functions - Part 2 : Lambda expressions
Link NOC:An Introduction to Programming through C++ Lecture 55 - Advanced Features of Functions - Part 3 : Default values to parameters
Link NOC:An Introduction to Programming through C++ Lecture 56 - Advanced Features of Functions - Part 4 : Function overloading and lecture conclusion
Link NOC:An Introduction to Programming through C++ Lecture 57 - Array Part-1 - Part 1 : Introduction
Link NOC:An Introduction to Programming through C++ Lecture 58 - Array Part-1 - Part 2 : Marks averaging problem
Link NOC:An Introduction to Programming through C++ Lecture 59 - Array Part-1 - Part 3 : Histogram computation
Link NOC:An Introduction to Programming through C++ Lecture 60 - Array Part-1 - Part 4 : Marks display variation
Link NOC:An Introduction to Programming through C++ Lecture 61 - Array Part-1 - Part 5 : Polynomial multiplication
Link NOC:An Introduction to Programming through C++ Lecture 62 - Array Part-1 - Part 6 : Queues in dispatching taxis
Link NOC:An Introduction to Programming through C++ Lecture 63 - Array Part-1 - Part 7 : More efficient Queues in dispatching taxis
Link NOC:An Introduction to Programming through C++ Lecture 64 - Array Part-1 - Part 8 : Disk intersection
Link NOC:An Introduction to Programming through C++ Lecture 65 - Array Part-1 - Part 9 : Arrays of graphical objects and conclusion
Link NOC:An Introduction to Programming through C++ Lecture 66 - Array Part-2 - Part 1 : Introduction
Link NOC:An Introduction to Programming through C++ Lecture 67 - Array Part-2 - Part 2 : Interpretation of aname[index]
Link NOC:An Introduction to Programming through C++ Lecture 68 - Array Part-2 - Part 3 : Arrays and function calls
Link NOC:An Introduction to Programming through C++ Lecture 69 - Array Part-2 - Part 4 : A function to sort an array
Link NOC:An Introduction to Programming through C++ Lecture 70 - More on Arrays - Part 1 : Textual data
Link NOC:An Introduction to Programming through C++ Lecture 71 - More on Arrays - Part 2 : Functions on character strings
Link NOC:An Introduction to Programming through C++ Lecture 72 - More on Arrays - Part 3 : Two dimensional arrays
Link NOC:An Introduction to Programming through C++ Lecture 73 - More on Arrays - Part 4 : Command Line Arguments
Link NOC:An Introduction to Programming through C++ Lecture 74 - Arrays and recursion - Part 1 : Binary Search Introduction
Link NOC:An Introduction to Programming through C++ Lecture 75 - Arrays and recursion - Part 2 : Binary search analysis
Link NOC:An Introduction to Programming through C++ Lecture 76 - Arrays and recursion - Part 3 : Mergesort overview
Link NOC:An Introduction to Programming through C++ Lecture 77 - Arrays and recursion - Part 4 : Merge function
Link NOC:An Introduction to Programming through C++ Lecture 78 - Arrays and recursion - Part 5 : Mergesort conclusion
Link NOC:An Introduction to Programming through C++ Lecture 79 - Structures - Part 1 : Definition and instantiation
Link NOC:An Introduction to Programming through C++ Lecture 80 - Structures - Part 2 : Operations on structures
Link NOC:An Introduction to Programming through C++ Lecture 81 - Structures - Part 3 : An example program
Link NOC:An Introduction to Programming through C++ Lecture 82 - Structures - Part 4 : Pointers and lecture conclusion
Link NOC:An Introduction to Programming through C++ Lecture 83 - Structures Part 2 - Part 1 : Introduction to Member functions
Link NOC:An Introduction to Programming through C++ Lecture 84 - Structures Part 2 - Part 2 : Vectors from Physics
Link NOC:An Introduction to Programming through C++ Lecture 85 - Structures Part 2 - Part 3 : Taxi dispatch
Link NOC:An Introduction to Programming through C++ Lecture 86 - Classes - Part 1 : Introduction
Link NOC:An Introduction to Programming through C++ Lecture 87 - Classes - Part 2 : Constructors
Link NOC:An Introduction to Programming through C++ Lecture 88 - Classes - Part 3 : Operator overloading
Link NOC:An Introduction to Programming through C++ Lecture 89 - Classes - Part 4 : Access control
Link NOC:An Introduction to Programming through C++ Lecture 90 - Classes - Part 5 : Classes for graphics and input output
Link NOC:An Introduction to Programming through C++ Lecture 91 - Classes - Part 6 : General remarks
Link NOC:An Introduction to Programming through C++ Lecture 92 - Representing variable length entities - Part 1 : Introduction
Link NOC:An Introduction to Programming through C++ Lecture 93 - Representing variable length entities - Part 2 : Heap memory basics
Link NOC:An Introduction to Programming through C++ Lecture 94 - Representing variable length entities - Part 3 : Pitfalls of using heap memory
Link NOC:An Introduction to Programming through C++ Lecture 95 - Representing variable length entities - Part 4 : Automating memory management
Link NOC:An Introduction to Programming through C++ Lecture 96 - Representing variable length entities - Part 5 : Implementing a class with automated memory management - 1
Link NOC:An Introduction to Programming through C++ Lecture 97 - Representing variable length entities - Part 6 : Implementing a class with automated memory management - 2
Link NOC:An Introduction to Programming through C++ Lecture 98 - Representing variable length entities - Part 7 : Using the implemented class and conclusion
Link NOC:An Introduction to Programming through C++ Lecture 99 - The Standard Library - Part 1 : Class string
Link NOC:An Introduction to Programming through C++ Lecture 100 - The Standard Library - Part 2 : Class vector
Link NOC:An Introduction to Programming through C++ Lecture 101 - The Standard Library - Part 3 : Sorting vectors and arrays
Link NOC:An Introduction to Programming through C++ Lecture 102 - The Standard Library - Part 4 : Classes map and unordered_map
Link NOC:An Introduction to Programming through C++ Lecture 103 - The Standard Library - Part 5 : Iterators
Link NOC:An Introduction to Programming through C++ Lecture 104 - Data structure based programming - Part 1 : Introduction
Link NOC:An Introduction to Programming through C++ Lecture 105 - Data structure based programming - Part 2 : Set and pair classes
Link NOC:An Introduction to Programming through C++ Lecture 106 - Data structure based programming - Part 3 : Implementation of standard library data structures
Link NOC:An Introduction to Programming through C++ Lecture 107 - Data structure based programming - Part 4 : Composing data structures
Link NOC:An Introduction to Programming through C++ Lecture 108 - Data structure based programming - Part 5 : typedef and lecture conclusion
Link NOC:An Introduction to Programming through C++ Lecture 109 - Medium size programs - Part 1 : The new marks display program
Link NOC:An Introduction to Programming through C++ Lecture 110 - Medium size programs - Part 2 : Manual algorithm for new marks display
Link NOC:An Introduction to Programming through C++ Lecture 111 - Medium size programs - Part 3 : RSMTAB and rest of the program
Link NOC:An Introduction to Programming through C++ Lecture 112 - Medium size programs - Part 4 : Sophisticated solutions to marks display
Link NOC:An Introduction to Programming through C++ Lecture 113 - A graphical editor and solver for circuits - Part 1 : Outline
Link NOC:An Introduction to Programming through C++ Lecture 114 - A graphical editor and solver for circuits - Part 2 : Main program and organization
Link NOC:An Introduction to Programming through C++ Lecture 115 - A graphical editor and solver for circuits - Part 3 : Mathematical representation of the circuit
Link NOC:An Introduction to Programming through C++ Lecture 116 - A graphical editor and solver for circuits - Part 4 : Extensions and concluding remarks
Link NOC:An Introduction to Programming through C++ Lecture 117 - Cosmological simulation - Part 1 : Introduction and First order Euler method
Link NOC:An Introduction to Programming through C++ Lecture 118 - Cosmological simulation - Part 2 : Second order Euler method
Link NOC:An Introduction to Programming through C++ Lecture 119 - Cosmological simulation - Part 3 : The program
Link NOC:An Introduction to Programming through C++ Lecture 120 - Cosmological simulation - Part 4 : Concluding remarks
Link NOC:Demystifying Networking Lecture 1 - Introduction
Link NOC:Demystifying Networking Lecture 2 - Analogy for CEO's Problem
Link NOC:Demystifying Networking Lecture 3 - Discussing the CEO's Problem
Link NOC:Demystifying Networking Lecture 4 - From the CEO's Company to Layers in a Network
Link NOC:Demystifying Networking Lecture 5 - Layers in Detail
Link NOC:Demystifying Networking Lecture 6 - Layered Nature of a Network
Link NOC:Demystifying Networking Lecture 7 - Introduction to Internet Data Capturing using Wireshark
Link NOC:Demystifying Networking Lecture 8 - Network data captured while requesting a website
Link NOC:Demystifying Networking Lecture 9 - What is Cisco Packet Tracer
Link NOC:Demystifying Networking Lecture 10 - Modes of Cisco Packet Tracer
Link NOC:Demystifying Networking Lecture 11 - Getting Cisco Packet Tracer
Link NOC:Demystifying Networking Lecture 12 - Logical and Physical Typologies in Cisco Packet Tracer
Link NOC:Demystifying Networking Lecture 13 - Devices on Cisco Packet Tracer
Link NOC:Demystifying Networking Lecture 14 - Introduction to the Cisco Packet Tracer Activity for Week 1
Link NOC:Demystifying Networking Lecture 15 - Introduction to the campus network on Cisco Packet Tracer
Link NOC:Demystifying Networking Lecture 16 - Loading the page in Simulation Mode
Link NOC:Demystifying Networking Lecture 17 - Inspecting the packets in Simulation Mode
Link NOC:Demystifying Networking Lecture 18 - Editing the dummy website on Cisco Packet Tracer
Link NOC:Demystifying Networking Lecture 19 - Summary of the Cisco Packet Tracer Activity
Link NOC:Demystifying Networking Lecture 20 - Introduction to Anupam's Adventure
Link NOC:Demystifying Networking Lecture 21 - Anupam's adventure brings us to IP Addressing
Link NOC:Demystifying Networking Lecture 22 - Addressing at various layers
Link NOC:Demystifying Networking Lecture 23 - IP Addresses
Link NOC:Demystifying Networking Lecture 24 - Address Translation
Link NOC:Demystifying Networking Lecture 25 - Introduction to IP Addressing
Link NOC:Demystifying Networking Lecture 26 - Creating a network with Sub-net mask
Link NOC:Demystifying Networking Lecture 27 - Nomenclature of a sub-net mask
Link NOC:Demystifying Networking Lecture 28 - Network addresses and Private networks
Link NOC:Demystifying Networking Lecture 29 - Introduction to the Addressing Topology
Link NOC:Demystifying Networking Lecture 30 - Addressing a local network and DHCP
Link NOC:Demystifying Networking Lecture 31 - Addressing a local network manually
Link NOC:Demystifying Networking Lecture 32 - Addressing in Pubilc and Private Networks
Link NOC:Demystifying Networking Lecture 33 - Verifying Connectivity using Ping
Link NOC:Demystifying Networking Lecture 34 - Using network address translation to communicate on internet
Link NOC:Demystifying Networking Lecture 35 - Using Sub nets and Summary of addressing
Link NOC:Demystifying Networking Lecture 36 - Summary of the week
Link NOC:Demystifying Networking Lecture 37 - Analogy for the week 2
Link NOC:Demystifying Networking Lecture 38 - Discussion on dabbawala analogy
Link NOC:Demystifying Networking Lecture 39 - From dabbawalas to routers and switches
Link NOC:Demystifying Networking Lecture 40 - What is routing ?
Link NOC:Demystifying Networking Lecture 41 - Static routing in a router in CPT
Link NOC:Demystifying Networking Lecture 42 - How does a switch forwards packets CPT
Link NOC:Demystifying Networking Lecture 43 - How to add static route in a router? (CPT)
Link NOC:Demystifying Networking Lecture 44 - Traveler's dilemma
Link NOC:Demystifying Networking Lecture 45 - Duscussing the Traveler's dilemma
Link NOC:Demystifying Networking Lecture 46 - From Traveler's dilemma to Dynamic Routing
Link NOC:Demystifying Networking Lecture 47 - Dynamic Routing with Distance Vector
Link NOC:Demystifying Networking Lecture 48 - Distance Vector Routing in Detail
Link NOC:Demystifying Networking Lecture 49 - Dynamic Routing with Link State
Link NOC:Demystifying Networking Lecture 50 - Setting up dynamic routing in Packet Tracer
Link NOC:Demystifying Networking Lecture 51 - Summary of the week
Link NOC:Demystifying Networking Lecture 52 - Introduction to analogy for week 3
Link NOC:Demystifying Networking Lecture 53 - Analogy for week 3
Link NOC:Demystifying Networking Lecture 54 - Questions on analogy for week 3
Link NOC:Demystifying Networking Lecture 55 - Understanding the new order requirements
Link NOC:Demystifying Networking Lecture 56 - Introduction to Tranport Layer
Link NOC:Demystifying Networking Lecture 57 - Introduction to TCP
Link NOC:Demystifying Networking Lecture 58 - Introduction to UDP
Link NOC:Demystifying Networking Lecture 59 - Exploring UDP on Cisco Packet Tracer
Link NOC:Demystifying Networking Lecture 60 - TCP Connection Establishment
Link NOC:Demystifying Networking Lecture 61 - TCP Connection Closure
Link NOC:Demystifying Networking Lecture 62 - Summay of TCP and UDP on Cisco Packet Tracer
Link NOC:Demystifying Networking Lecture 63 - The story of the delivery fiasco
Link NOC:Demystifying Networking Lecture 64 - From delivery fisaco to Port Numbers
Link NOC:Demystifying Networking Lecture 65 - Application Layer in depth
Link NOC:Demystifying Networking Lecture 66 - Port number in Wireshark
Link NOC:Demystifying Networking Lecture 67 - Summary of port number and PAT
Link NOC:Demystifying Networking Lecture 68 - Summary of the entire TCP IP stack
Link NOC:Demystifying Networking Lecture 69 - Introducing the analogy for week 4
Link NOC:Demystifying Networking Lecture 70 - The secret box
Link NOC:Demystifying Networking Lecture 71 - Questions on analogy for week 4
Link NOC:Demystifying Networking Lecture 72 - Secret of the secret box
Link NOC:Demystifying Networking Lecture 73 - From secret box to encryption
Link NOC:Demystifying Networking Lecture 74 - Introduction to security and CIA
Link NOC:Demystifying Networking Lecture 75 - Information Security and Defence in Depth
Link NOC:Demystifying Networking Lecture 76 - Information Classification and Access Control
Link NOC:Demystifying Networking Lecture 77 - Process Management
Link NOC:Demystifying Networking Lecture 78 - Introduction to Network Security
Link NOC:Demystifying Networking Lecture 79 - Network Breach and Countermeasures
Link NOC:Demystifying Networking Lecture 80 - Internet Security
Link NOC:Demystifying Networking Lecture 81 - Securing the Internet Usage
Link NOC:Demystifying Networking Lecture 82 - Internet Security Products
Link NOC:Demystifying Networking Lecture 83 - Personal Computing Device Recommendations
Link NOC:Demystifying Networking Lecture 84 - Responsible Behavior on the Internet
Link NOC:Demystifying Networking Lecture 85 - Best practices for home Network and Media Devices
Link NOC:Demystifying Networking Lecture 86 - Closing thoughts on security
Link NOC:Demystifying Networking Lecture 87 - The story of a family trip
Link NOC:Demystifying Networking Lecture 88 - The troubleshooting approach
Link NOC:Demystifying Networking Lecture 89 - Troubleshooting Physical and Data Link Layers
Link NOC:Demystifying Networking Lecture 90 - Troubleshooting Network Layer
Link NOC:Demystifying Networking Lecture 91 - Troubleshooting Transport and Application Layers
Link NOC:Demystifying Networking Lecture 92 - Troubleshooting Summary
Link NOC:Demystifying Networking Lecture 93 - Troubleshooting Heuristics
Link NOC:Demystifying Networking Lecture 94 - Troubleshooting Challenge - 1
Link NOC:Demystifying Networking Lecture 95 - Troubleshooting challenge - 2
Link NOC:Demystifying Networking Lecture 96 - Troubleshooting Challenge - 3
Link NOC:Demystifying Networking Lecture 97 - Thats How we Troubleshoot
Link NOC:Demystifying Networking Lecture 98 - Week Summary
Link NOC:Demystifying Networking Lecture 99 - Course Closure
Link NOC:Demystifying Networking Lecture 100 - Course Credits
Link Computational Geometry Lecture 1 - Introduction
Link Computational Geometry Lecture 2 - Visibility Problems
Link Computational Geometry Lecture 3 - 2D Maxima
Link Computational Geometry Lecture 4 - Line Sweep Method
Link Computational Geometry Lecture 5 - Segment Intersection Problem
Link Computational Geometry Lecture 6 - Line Sweep: Rectangle Union
Link Computational Geometry Lecture 7 - Convex Hull
Link Computational Geometry Lecture 8 - Convex Hull Contd
Link Computational Geometry Lecture 9 - Quick Hull
Link Computational Geometry Lecture 10 - More Convex Hull Algorithms
Link Computational Geometry Lecture 11 - Intersection of Half Planes and Duality
Link Computational Geometry Lecture 12 - Intersection of Half Planes and Duality Contd
Link Computational Geometry Lecture 13 - Lower Bounds
Link Computational Geometry Lecture 14 - Planar Point Location
Link Computational Geometry Lecture 15 - Point Location and Triangulation Contd...
Link Computational Geometry Lecture 16 - Triangulation of Arbitrary Polygon
Link Computational Geometry Lecture 17 - Voronoi Diagram : Properties
Link Computational Geometry Lecture 18 - Voronoi Diagram Construction
Link Computational Geometry Lecture 19 - Delaunay Triangulation
Link Computational Geometry Lecture 20 - Quick sort and Backward Analysis
Link Computational Geometry Lecture 21 - Generalized RIC
Link Computational Geometry Lecture 22 - RIC Continued
Link Computational Geometry Lecture 23 - Arrangements
Link Computational Geometry Lecture 24 - Zone Theorem and Application
Link Computational Geometry Lecture 25 - Levels
Link Computational Geometry Lecture 26 - Range Searching : Introduction
Link Computational Geometry Lecture 27 - Orthogonal Range searching
Link Computational Geometry Lecture 28 - Priority Search Trees
Link Computational Geometry Lecture 29 - Non - Orthogonal Range Searching
Link Computational Geometry Lecture 30 - Half - Plane Range Query
Link Computational Geometry Lecture 31 - Well Separated Partitioning
Link Computational Geometry Lecture 32 - Quadtrees Epsilon -WSPD
Link Computational Geometry Lecture 33 - Construction of Epsilon - WSPD
Link Computational Geometry Lecture 34 - Epsilon - WSPD to Geometric Spanner
Link Computational Geometry Lecture 35 - Epsilon-Nets & VC Dimension
Link Computational Geometry Lecture 36 - Epsilon-Nets & VC Dimension contd
Link Computational Geometry Lecture 37 - Geometric Set Cover
Link Computational Geometry Lecture 38 - Geometric Set Cover (with Bounded VC Dimension)
Link Computational Geometry Lecture 39 - Shape Representation
Link Computational Geometry Lecture 40 - Shape Comparison
Link Logic for CS Lecture 1 - Introduction
Link Logic for CS Lecture 2 - Propositional Logic Syntax
Link Logic for CS Lecture 3 - Semantics of Propositional Logic
Link Logic for CS Lecture 4 - Logical and Algebraic Concepts
Link Logic for CS Lecture 5 - Identities and Normal forms
Link Logic for CS Lecture 6 - Tautology Checking
Link Logic for CS Lecture 7 - Propositional Unsatisfiability
Link Logic for CS Lecture 8 - Analytic Tableaux
Link Logic for CS Lecture 9 - Consistency and Completeness
Link Logic for CS Lecture 10 - The Completeness Theorem
Link Logic for CS Lecture 11 - Maximally Consistent Sets
Link Logic for CS Lecture 12 - Formal Theories
Link Logic for CS Lecture 13 - Proof Theory : Hilbert-style
Link Logic for CS Lecture 14 - Derived Rules
Link Logic for CS Lecture 15 - The Hilbert System : Soundness
Link Logic for CS Lecture 16 - The Hilbert System : Completeness
Link Logic for CS Lecture 17 - Introduction to Predicate Logic
Link Logic for CS Lecture 18 - The Semantic of Predicate Logic
Link Logic for CS Lecture 19 - Subsitutions
Link Logic for CS Lecture 20 - Models
Link Logic for CS Lecture 21 - Structures and Substructures
Link Logic for CS Lecture 22 - First-Order Theories
Link Logic for CS Lecture 23 - Predicate Logic: Proof Theory (Continued...)
Link Logic for CS Lecture 24 - Existential Quantification
Link Logic for CS Lecture 25 - Normal Forms
Link Logic for CS Lecture 26 - Skalemization
Link Logic for CS Lecture 27 - Substitutions and Instantiations
Link Logic for CS Lecture 28 - Unification
Link Logic for CS Lecture 29 - Resolution in FOL
Link Logic for CS Lecture 30 - More on Resolution in FOL
Link Logic for CS Lecture 31 - Resolution : Soundness and Completeness
Link Logic for CS Lecture 32 - Resolution and Tableaux
Link Logic for CS Lecture 33 - Completeness of Tableaux Method
Link Logic for CS Lecture 34 - Completeness of the Hilbert System
Link Logic for CS Lecture 35 - First-Order Theories
Link Logic for CS Lecture 36 - Towards Logic Programming
Link Logic for CS Lecture 37 - Verification of Imperative Programs
Link Logic for CS Lecture 38 - Verification of WHILE Programs
Link Logic for CS Lecture 39 - References
Link Computer Architecture (Prof. Anshul Kumar) Lecture 1 - Introduction to Computer Architecture
Link Computer Architecture (Prof. Anshul Kumar) Lecture 2 - History of Computers
Link Computer Architecture (Prof. Anshul Kumar) Lecture 3 - Instruction Set Architecture - I
Link Computer Architecture (Prof. Anshul Kumar) Lecture 4 - Instruction Set Architecture - II
Link Computer Architecture (Prof. Anshul Kumar) Lecture 5 - Instruction Set Architecture - III
Link Computer Architecture (Prof. Anshul Kumar) Lecture 6 - Recursive Programs
Link Computer Architecture (Prof. Anshul Kumar) Lecture 7 - Architecture Space
Link Computer Architecture (Prof. Anshul Kumar) Lecture 8 - Architecture Examples
Link Computer Architecture (Prof. Anshul Kumar) Lecture 9 - Performance
Link Computer Architecture (Prof. Anshul Kumar) Lecture 10 - Performance
Link Computer Architecture (Prof. Anshul Kumar) Lecture 11 - Binary Arithmetic, ALU Design
Link Computer Architecture (Prof. Anshul Kumar) Lecture 12 - ALU Design, Overflow
Link Computer Architecture (Prof. Anshul Kumar) Lecture 13 - Multiplier Design
Link Computer Architecture (Prof. Anshul Kumar) Lecture 14 - Divider Design
Link Computer Architecture (Prof. Anshul Kumar) Lecture 15 - Fast Addition , Multiplication
Link Computer Architecture (Prof. Anshul Kumar) Lecture 16 - Floating Point Arithmetic
Link Computer Architecture (Prof. Anshul Kumar) Lecture 17 - Processor Design - Introduction
Link Computer Architecture (Prof. Anshul Kumar) Lecture 18 - Processor Design
Link Computer Architecture (Prof. Anshul Kumar) Lecture 19 - Processor Design - Simple Design
Link Computer Architecture (Prof. Anshul Kumar) Lecture 20 - Processor Design - Multi Cycle Approach
Link Computer Architecture (Prof. Anshul Kumar) Lecture 21 - Processor Design - Control for Multi Cycle
Link Computer Architecture (Prof. Anshul Kumar) Lecture 22 - Processor Design - Micro programmed Control
Link Computer Architecture (Prof. Anshul Kumar) Lecture 23 - Processor Design - Exception Handling
Link Computer Architecture (Prof. Anshul Kumar) Lecture 24 - Pipelined Processor Design Basic Idea
Link Computer Architecture (Prof. Anshul Kumar) Lecture 25 - Pipelined Processor Design: Data path
Link Computer Architecture (Prof. Anshul Kumar) Lecture 26 - Pipelined Processor Design: Handling Data
Link Computer Architecture (Prof. Anshul Kumar) Lecture 27 - Pipelined Processor Design
Link Computer Architecture (Prof. Anshul Kumar) Lecture 28 - Memory Hierarchy : Basic Idea
Link Computer Architecture (Prof. Anshul Kumar) Lecture 29 - Memory Hierarchy : Cache Organization
Link Computer Architecture (Prof. Anshul Kumar) Lecture 30 - Memory Hierarchy : Cache Organization
Link Computer Architecture (Prof. Anshul Kumar) Lecture 31 - Memory Hierarchy : Virtual Memory
Link Computer Architecture (Prof. Anshul Kumar) Lecture 32 - Memory Hierarchy : Virtual Memory
Link Computer Architecture (Prof. Anshul Kumar) Lecture 33 - Input / Output Subsystem: Introduction
Link Computer Architecture (Prof. Anshul Kumar) Lecture 34 - Input / Output Subsystem: Interfaces and buses
Link Computer Architecture (Prof. Anshul Kumar) Lecture 35 - Input / Output Subsystem: Interfaces and buses
Link Computer Architecture (Prof. Anshul Kumar) Lecture 36 - Input / Output Subsystem: I/O Operations
Link Computer Architecture (Prof. Anshul Kumar) Lecture 37 - Input / Output Subsystem: Designing I/O Systems
Link Computer Architecture (Prof. Anshul Kumar) Lecture 38 - Concluding Remarks
Link Data Structures And Algorithms Lecture 1 - Introduction to Data Structures and Algorithms
Link Data Structures And Algorithms Lecture 2 - Stacks
Link Data Structures And Algorithms Lecture 3 - Queues and Linked Lists
Link Data Structures And Algorithms Lecture 4 - Dictionaries
Link Data Structures And Algorithms Lecture 5 - Hashing
Link Data Structures And Algorithms Lecture 6 - Trees
Link Data Structures And Algorithms Lecture 7 - Tree Walks / Traversals
Link Data Structures And Algorithms Lecture 8 - Ordered Dictionaries
Link Data Structures And Algorithms Lecture 9 - Deletion
Link Data Structures And Algorithms Lecture 10 - Quick Sort
Link Data Structures And Algorithms Lecture 11 - AVL Trees
Link Data Structures And Algorithms Lecture 12 - AVL Trees
Link Data Structures And Algorithms Lecture 13 - Trees
Link Data Structures And Algorithms Lecture 14 - Red Black Trees
Link Data Structures And Algorithms Lecture 15 - Insertion in Red Black Trees
Link Data Structures And Algorithms Lecture 16 - Disk Based Data Structures
Link Data Structures And Algorithms Lecture 17 - Case Study: Searching for Patterns
Link Data Structures And Algorithms Lecture 18 - Tries
Link Data Structures And Algorithms Lecture 19 - Data Compression
Link Data Structures And Algorithms Lecture 20 - Priority Queues
Link Data Structures And Algorithms Lecture 21 - Binary Heaps
Link Data Structures And Algorithms Lecture 22 - Why Sorting
Link Data Structures And Algorithms Lecture 23 - More Sorting
Link Data Structures And Algorithms Lecture 24 - Graphs
Link Data Structures And Algorithms Lecture 25 - Data Structures for Graphs
Link Data Structures And Algorithms Lecture 26 - Two Applications of Breadth First Search
Link Data Structures And Algorithms Lecture 27 - Depth First Search
Link Data Structures And Algorithms Lecture 28 - Applications of DFS
Link Data Structures And Algorithms Lecture 29 - DFS in Directed Graphs
Link Data Structures And Algorithms Lecture 30 - Applications of DFS in Directed Graphs
Link Data Structures And Algorithms Lecture 31 - Minimum Spanning Trees
Link Data Structures And Algorithms Lecture 32 - The Union
Link Data Structures And Algorithms Lecture 33 - Prims Algorithm for Minimum Spanning Trees
Link Data Structures And Algorithms Lecture 34 - Single Source Shortest Paths
Link Data Structures And Algorithms Lecture 35 - Correctness of Dijkstras Algorithm
Link Data Structures And Algorithms Lecture 36 - Single Source Shortest Paths
Link Introduction to Computer Graphics Lecture 1 - Introduction
Link Introduction to Computer Graphics Lecture 2 - Raster Graphics
Link Introduction to Computer Graphics Lecture 3 - Raster Graphics (Continued...)
Link Introduction to Computer Graphics Lecture 4 - Clipping
Link Introduction to Computer Graphics Lecture 5 - Polygon Clipping and Polygon Scan Conversion
Link Introduction to Computer Graphics Lecture 6 - Transformations
Link Introduction to Computer Graphics Lecture 7 - Transformations (Continued...)
Link Introduction to Computer Graphics Lecture 8 - 3D Viewing
Link Introduction to Computer Graphics Lecture 9 - 3D Viewing (Continued...)
Link Introduction to Computer Graphics Lecture 10 - Curves
Link Introduction to Computer Graphics Lecture 11 - Assignment - I
Link Introduction to Computer Graphics Lecture 12 - Curves (Continued...)
Link Introduction to Computer Graphics Lecture 13 - Curves (Continued...)
Link Introduction to Computer Graphics Lecture 14 - Curves (Continued...)
Link Introduction to Computer Graphics Lecture 15 - Curves (Continued...)
Link Introduction to Computer Graphics Lecture 16 - Surfaces
Link Introduction to Computer Graphics Lecture 17 - Surfaces (Continued...)
Link Introduction to Computer Graphics Lecture 18 - Surfaces (Continued...)
Link Introduction to Computer Graphics Lecture 19 - Surfaces (Continued...)
Link Introduction to Computer Graphics Lecture 20 - Hierarchical Models
Link Introduction to Computer Graphics Lecture 21 - Rendering
Link Introduction to Computer Graphics Lecture 22 - Rendering (Continued...)
Link Introduction to Computer Graphics Lecture 23 - Rendering (Continued...)
Link Introduction to Computer Graphics Lecture 24 - Ray Tracing
Link Introduction to Computer Graphics Lecture 25 - Ray Tracing (Continued...)
Link Introduction to Computer Graphics Lecture 26 - Ray Tracing (Continued...)
Link Introduction to Computer Graphics Lecture 27 - Assignment: Ray Tracing
Link Introduction to Computer Graphics Lecture 28 - Hidden Surface Elimination
Link Introduction to Computer Graphics Lecture 29 - Hidden Surface Elimination (Continued...)
Link Introduction to Computer Graphics Lecture 30 - Hidden Surface Elimination (Continued...)
Link Introduction to Computer Graphics Lecture 31 - Fractals
Link Introduction to Computer Graphics Lecture 32 - Fractals (Continued...)
Link Introduction to Computer Graphics Lecture 33 - Computer Animation
Link Introduction to Computer Graphics Lecture 34 - Animation (Continued...)
Link Introduction to Computer Graphics Lecture 35 - Animation (Continued...)
Link Principles of Programming Languages Lecture 1 - Introduction
Link Principles of Programming Languages Lecture 2 - Syntax
Link Principles of Programming Languages Lecture 3 - Grammars
Link Principles of Programming Languages Lecture 4 - Ambiguity
Link Principles of Programming Languages Lecture 5 - PLO:Syntax
Link Principles of Programming Languages Lecture 6 - Semantics
Link Principles of Programming Languages Lecture 7 - Syntactic Classes
Link Principles of Programming Languages Lecture 8 - Transition Systems
Link Principles of Programming Languages Lecture 9 - PL0 : Expressions
Link Principles of Programming Languages Lecture 10 - Binding
Link Principles of Programming Languages Lecture 11 - Environments
Link Principles of Programming Languages Lecture 12 - Declarations
Link Principles of Programming Languages Lecture 13 - Commands
Link Principles of Programming Languages Lecture 14 - Stores
Link Principles of Programming Languages Lecture 15 - Summary
Link Principles of Programming Languages Lecture 16 - Declarations and Commands
Link Principles of Programming Languages Lecture 17 - Blocks
Link Principles of Programming Languages Lecture 18 - Qualification
Link Principles of Programming Languages Lecture 19 - Pragmatics
Link Principles of Programming Languages Lecture 20 - Data
Link Principles of Programming Languages Lecture 21 - Structured Data
Link Principles of Programming Languages Lecture 22 - Sequences
Link Principles of Programming Languages Lecture 23 - Control
Link Principles of Programming Languages Lecture 24 - Non-Determinacy
Link Principles of Programming Languages Lecture 25 - Programming Languages
Link Principles of Programming Languages Lecture 26 - Programming Languages
Link Principles of Programming Languages Lecture 27 - Programming Languages
Link Principles of Programming Languages Lecture 28 - Data as Functions
Link Principles of Programming Languages Lecture 29 - Data and Fixpoints
Link Principles of Programming Languages Lecture 30 - Normal Forms
Link Principles of Programming Languages Lecture 31 - Programming Languages
Link Principles of Programming Languages Lecture 32 - Monomorphism
Link Principles of Programming Languages Lecture 33 - Polymorphism
Link Principles of Programming Languages Lecture 34 - Type Checking
Link Principles of Programming Languages Lecture 35 - Contexts
Link Principles of Programming Languages Lecture 36 - Abstracts
Link Principles of Programming Languages Lecture 37 - Procedures
Link Principles of Programming Languages Lecture 38 - Meanings
Link Principles of Programming Languages Lecture 39 - Parameters
Link Principles of Programming Languages Lecture 40 - The Future
Link Parallel Computing Lecture 1 - Introduction
Link Parallel Computing Lecture 2 - Parallel Programming Paradigms
Link Parallel Computing Lecture 3 - Parallel Architecture
Link Parallel Computing Lecture 4 - Parallel Architecture (case studies)
Link Parallel Computing Lecture 5 - Open MP
Link Parallel Computing Lecture 6 - Open MP (Continued.)
Link Parallel Computing Lecture 7 - Open MP (Continued..)
Link Parallel Computing Lecture 8 - Open MP & PRAM Model of Computation
Link Parallel Computing Lecture 9 - PRAM
Link Parallel Computing Lecture 10 - Models of Parallel Computation, Complexity
Link Parallel Computing Lecture 11 - Memory Consistency
Link Parallel Computing Lecture 12 - Memory Consistency & Performance Issues
Link Parallel Computing Lecture 13 - Parallel Program Design
Link Parallel Computing Lecture 14 - Shared Memory & Message Passing
Link Parallel Computing Lecture 15 - MPI
Link Parallel Computing Lecture 16 - MPI (Continued.)
Link Parallel Computing Lecture 17 - MPI (Continued..)
Link Parallel Computing Lecture 18 - Algorithmic Techniques
Link Parallel Computing Lecture 19 - Algorithmic Techniques (Continued.)
Link Parallel Computing Lecture 20 - Algorithmic Techniques (Continued..)
Link Parallel Computing Lecture 21 - CUDA
Link Parallel Computing Lecture 22 - CUDA (Continued.)
Link Parallel Computing Lecture 23 - CUDA (Continued..)
Link Parallel Computing Lecture 24 - CUDA (Continued...)
Link Parallel Computing Lecture 25 - CUDA (Continued....)
Link Parallel Computing Lecture 26 - CUDA (Continued.....)
Link Parallel Computing Lecture 27 - CUDA (Continued......)
Link Parallel Computing Lecture 28 - Algorithms, Merging & Sorting
Link Parallel Computing Lecture 29 - Algorithms, Merging & Sorting (Continued.)
Link Parallel Computing Lecture 30 - Algorithms, Merging & Sorting (Continued..)
Link Parallel Computing Lecture 31 - Algorithms, Merging & Sorting (Continued...)
Link Parallel Computing Lecture 32 - Algorithms, Merging & Sorting (Continued....)
Link Parallel Computing Lecture 33 - Lower Bounds Lock Free Synchronization, Load Stealing
Link Parallel Computing Lecture 34 - Lock Free Synchronization, Graph Algorithms
Link Operating Systems Lecture 1 - Introduction to UNIX System Calls - Part 1
Link Operating Systems Lecture 2 - Introduction to UNIX System Calls - Part 2
Link Operating Systems Lecture 3 - Threads, Address Spaces, Filesystem Devices
Link Operating Systems Lecture 4 - PC Architecture
Link Operating Systems Lecture 5 - x86 Instruction Set, GCC Calling Conventions
Link Operating Systems Lecture 6 - Physical Memory Map, I/O, Segmentation
Link Operating Systems Lecture 7 - Segmentation, Trap Handling
Link Operating Systems Lecture 8 - Traps, Trap Handlers
Link Operating Systems Lecture 9 - Kernel Data Structures, Memory Management
Link Operating Systems Lecture 10 - Segmentation Review, Introduction to Paging
Link Operating Systems Lecture 11 - Paging
Link Operating Systems Lecture 12 - Process Address Spaces Using Paging
Link Operating Systems Lecture 13 - Translation Lookaside Buffer, Large Pages, Boot Sector
Link Operating Systems Lecture 14 - Loading the kernel, Initializing the Page table
Link Operating Systems Lecture 15 - Setting up page tables for user processes
Link Operating Systems Lecture 16 - Processes in action
Link Operating Systems Lecture 17 - Process structure, Context Switching
Link Operating Systems Lecture 18 - Process Kernel stack, Scheduler, Fork,Context-Switch, Process Control Block, Trap Entry and Return
Link Operating Systems Lecture 19 - Creating the first process
Link Operating Systems Lecture 20 - Handling User Pointers, Concurrency
Link Operating Systems Lecture 21 - Locking
Link Operating Systems Lecture 22 - Fine-grained Locking and its challenges
Link Operating Systems Lecture 23 - Locking variations
Link Operating Systems Lecture 24 - Condition variables
Link Operating Systems Lecture 25 - Multiple producer, multiple consumer queue; semaphores; monitors
Link Operating Systems Lecture 26 - Transcations and lock-free primitives read/write locks
Link Operating Systems Lecture 27 - Synchronization in xv6: acquire/release, sleep/wakeup, exit/wait
Link Operating Systems Lecture 28 - More synchronization in xv6: kill, IDE device driver; introducion to Demand Paging
Link Operating Systems Lecture 29 - Demand Paging; Introduction to Page Replacement
Link Operating Systems Lecture 30 - Page Replacement, Thrashing
Link Operating Systems Lecture 31 - Storage Devices, Filesystem Intrerfaces
Link Operating Systems Lecture 32 - File System Implementation
Link Operating Systems Lecture 33 - File System Operation
Link Operating Systems Lecture 34 - Cash Recovery and Logging
Link Operating Systems Lecture 35 - Logging in Linux ext3 filesystem
Link Operating Systems Lecture 36 - Protection and Security
Link Operating Systems Lecture 37 - Scheduling Policies
Link Operating Systems Lecture 38 - Lock-free multiprocessor coordination, Read-Copy-Update
Link Operating Systems Lecture 39 - Microkernel, Exokernel, Multikernel
Link Operating Systems Lecture 40 - Virtualization, Cloud Computing, Technology Trends
Link NOC:Computer Architecture (2017) Lecture 1 - Introduction to Computer Architecture
Link NOC:Computer Architecture (2017) Lecture 2 - The Language of Bits - Part-I
Link NOC:Computer Architecture (2017) Lecture 3 - The Language of Bits - Part-II
Link NOC:Computer Architecture (2017) Lecture 4 - The Language of Bits - Part-III
Link NOC:Computer Architecture (2017) Lecture 5 - Assembly Language - Part-I
Link NOC:Computer Architecture (2017) Lecture 6 - Assembly Language - Part-II
Link NOC:Computer Architecture (2017) Lecture 7 - Assembly Language - Part-III
Link NOC:Computer Architecture (2017) Lecture 8 - ARM Assembly Language - Part-I
Link NOC:Computer Architecture (2017) Lecture 9 - ARM Assembly Language - Part-II
Link NOC:Computer Architecture (2017) Lecture 10 - x86 Assembly Language - Part-I
Link NOC:Computer Architecture (2017) Lecture 11 - x86 Assembly Language - Part-II
Link NOC:Computer Architecture (2017) Lecture 12 - x86 Assembly Language - Part-III
Link NOC:Computer Architecture (2017) Lecture 13 - x86 Assembly Language - Part-IV
Link NOC:Computer Architecture (2017) Lecture 14 - A Primer on Digital Logic - Part-I
Link NOC:Computer Architecture (2017) Lecture 15 - A Primer on Digital Logic - Part-II
Link NOC:Computer Architecture (2017) Lecture 16 - A Primer on Digital Logic - Part-III
Link NOC:Computer Architecture (2017) Lecture 17 - Computer Arithmetic - Part-I
Link NOC:Computer Architecture (2017) Lecture 18 - Computer Arithmetic - Part-II
Link NOC:Computer Architecture (2017) Lecture 19 - Computer Arithmetic - Part-III
Link NOC:Computer Architecture (2017) Lecture 20 - Computer Arithmetic - Part-IV
Link NOC:Computer Architecture (2017) Lecture 21 - Computer Arithmetic - Part-V
Link NOC:Computer Architecture (2017) Lecture 22 - Computer Arithmetic - Part-VI
Link NOC:Computer Architecture (2017) Lecture 23 - Processor Design - Part-I
Link NOC:Computer Architecture (2017) Lecture 24 - Processor Design - Part-II
Link NOC:Computer Architecture (2017) Lecture 25 - Processor Design - Part-III
Link NOC:Computer Architecture (2017) Lecture 26 - Principles of Pipelining - Part-I
Link NOC:Computer Architecture (2017) Lecture 27 - Principles of Pipelining - Part-II
Link NOC:Computer Architecture (2017) Lecture 28 - Principles of Pipelining - Part-III
Link NOC:Computer Architecture (2017) Lecture 29 - Principles of Pipelining - Part-IV
Link NOC:Computer Architecture (2017) Lecture 30 - The Memory Systems - Part-I
Link NOC:Computer Architecture (2017) Lecture 31 - The Memory Systems - Part-II
Link NOC:Computer Architecture (2017) Lecture 32 - The Memory Systems - Part-III
Link NOC:Computer Architecture (2017) Lecture 33 - The Memory Systems - Part-IV
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 1 - Introduction to Parallel Programming
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 2 - Parallel Architectures and Programming Models
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 3 - Pipelining
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 4 - Superpipelining and VLIW
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 5 - Memory Latency
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 6 - Cache and Temporal Locality
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 7 - Cache, Memory bandwidth and Spatial Locality
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 8 - Intuition for Shared and Distributed Memory architectures
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 9 - Shared and Distributed Memory architectures
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 10 - Interconnection networks in Distributed Memory architectures
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 11 - OpenMP: A parallel Hello World Program
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 12 - Program with Single thread
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 13 - Program Memory with Multiple threads and Multi-tasking
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 14 - Context Switching
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 15 - OpenMP: Basic thread functions
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 16 - OpenMP: About OpenMP
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 17 - Shared Memory Consistency Models and the Sequential Consistency Model
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 18 - Race Conditions
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 19 - OpenMP: Scoping variables and some race conditions
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 20 - OpenMP: thread private variables and more constructs
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 21 - Computing sum: first attempt at parallelization
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 22 - Manual distribution of work and critical sections
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 23 - Distributing for loops and reduction
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 24 - Vector-Vector operations (Dot product)
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 25 - Matrix-Vector operations (Matrix-Vector Multiply)
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 26 - Matrix-Matrix operations (Matrix-Matrix Multiply)
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 27 - Introduction to tasks
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 28 - Task queues and task execution
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 29 - Accessing variables in tasks
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 30 - Completion of tasks and scoping variables in tasks
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 31 - Recursive task spawning and pitfalls
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 32 - Understanding LU Factorization
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 33 - Parallel LU Factorization
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 34 - Locks
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 35 - Advanced Task handling
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 36 - Matrix Multiplication using tasks
Link NOC:Introduction to Parallel Programming in OpenMP Lecture 37 - The OpenMP Shared Memory Consistency Model
Link NOC:Synthesis of Digital Systems Lecture 1 - Outline - What is Synthesis?
Link NOC:Synthesis of Digital Systems Lecture 2 - Chip Design Flow and Hardware Modelling
Link NOC:Synthesis of Digital Systems Lecture 3 - VHDL: Introduction to Hardware Description Languages and VHDL Basics
Link NOC:Synthesis of Digital Systems Lecture 4 - VHDL: Modelling Timing - Events and Transactions
Link NOC:Synthesis of Digital Systems Lecture 5 - VHDL: Specifying Hardware Behaviour with Processes
Link NOC:Synthesis of Digital Systems Lecture 6 - VHDL: Specifying Structure, Test Benches, Parameterisation, and Libraries
Link NOC:Synthesis of Digital Systems Lecture 7 - Introduction to High-level Synthesis
Link NOC:Synthesis of Digital Systems Lecture 8 - Language front-end Design Representation
Link NOC:Synthesis of Digital Systems Lecture 9 - Compiler Transformation in High Level Synthesis: Constant Folding, Dead Code Elimination, Constant Propagation, and Strength Reduction
Link NOC:Synthesis of Digital Systems Lecture 10 - Memory Modelling and Compiler Transformation in High Level Synthesis: Common Sub-expression Elimination and Loop Invariant Code Motion
Link NOC:Synthesis of Digital Systems Lecture 11 - Compiler Transformations in High Level Synthesis: Loop Unrolling and Function Inlining
Link NOC:Synthesis of Digital Systems Lecture 12 - Hardware Transformations and ASAP / ALAP Scheduling
Link NOC:Synthesis of Digital Systems Lecture 13 - Scheduling in High Level Synthesis: List Scheduling and Time-constrained Scheduling
Link NOC:Synthesis of Digital Systems Lecture 14 - Force Directed Scheduling and Register Allocation
Link NOC:Synthesis of Digital Systems Lecture 15 - High Level Synthesis and Timing Issues
Link NOC:Synthesis of Digital Systems Lecture 16 - Finite State Machine Synthesis: Introduction to FSM Encoding
Link NOC:Synthesis of Digital Systems Lecture 17 - Finite State Machine Synthesis: Identifying Common Cubes and Graph Embeding
Link NOC:Synthesis of Digital Systems Lecture 18 - The Retiming Problem
Link NOC:Synthesis of Digital Systems Lecture 19 - Efficient Solution to Retiming and Introduction to Logic Synthesis
Link NOC:Synthesis of Digital Systems Lecture 20 - Binary Decision Diagrams
Link NOC:Synthesis of Digital Systems Lecture 21 - Introduction to Logic Synthesis
Link NOC:Synthesis of Digital Systems Lecture 22 - Two-level Logic Optimisation
Link NOC:Synthesis of Digital Systems Lecture 23 - Multi-Level Logic Optimisation
Link NOC:Synthesis of Digital Systems Lecture 24 - Multi-level Logic Synthesis: Technology Mapping
Link NOC:Synthesis of Digital Systems Lecture 25 - Introduction to Timing Analysis
Link NOC:Synthesis of Digital Systems Lecture 26 - Timing Analysis and Critical Paths
Link Design Verification and Test of Digital VLSI Circuits Lecture 1 - Introduction to Digital VLSI Design Flow
Link Design Verification and Test of Digital VLSI Circuits Lecture 2 - High Level Design Representation
Link Design Verification and Test of Digital VLSI Circuits Lecture 3 - Transformations for High Level Synthesis
Link Design Verification and Test of Digital VLSI Circuits Lecture 4 - Introduction to HLS: Scheduling, Allocation and Binding Problem
Link Design Verification and Test of Digital VLSI Circuits Lecture 5 - Scheduling Algorithms - 1
Link Design Verification and Test of Digital VLSI Circuits Lecture 6 - Scheduling Algorithms - 2
Link Design Verification and Test of Digital VLSI Circuits Lecture 7 - Binding and Allocation Algorithms
Link Design Verification and Test of Digital VLSI Circuits Lecture 8 - Two level Boolean Logic Synthesis - 1
Link Design Verification and Test of Digital VLSI Circuits Lecture 9 - Two level Boolean Logic Synthesis - 2
Link Design Verification and Test of Digital VLSI Circuits Lecture 10 - Two level Boolean Logic Synthesis - 3
Link Design Verification and Test of Digital VLSI Circuits Lecture 11 - Heuristic Minimization of Two-Level Circuits
Link Design Verification and Test of Digital VLSI Circuits Lecture 12 - Finite State Machine Synthesis
Link Design Verification and Test of Digital VLSI Circuits Lecture 13 - Multilevel Implementation
Link Design Verification and Test of Digital VLSI Circuits Lecture 14 - Introduction to formal methods for design verification
Link Design Verification and Test of Digital VLSI Circuits Lecture 15 - Temporal Logic: Introduction and Basic Operators
Link Design Verification and Test of Digital VLSI Circuits Lecture 16 - Syntax and Semantics of CTL
Link Design Verification and Test of Digital VLSI Circuits Lecture 17 - Syntax and Semantics of CTL – Continued
Link Design Verification and Test of Digital VLSI Circuits Lecture 18 - Equivalence between CTL Formulas
Link Design Verification and Test of Digital VLSI Circuits Lecture 19 - Introduction to Model Checking
Link Design Verification and Test of Digital VLSI Circuits Lecture 20 - Model Checking Algorithms - I
Link Design Verification and Test of Digital VLSI Circuits Lecture 21 - Model Checking Algorithms - II
Link Design Verification and Test of Digital VLSI Circuits Lecture 22 - Model Checking with Fairness
Link Design Verification and Test of Digital VLSI Circuits Lecture 23 - Binary Decision Diagram: Introduction and construction
Link Design Verification and Test of Digital VLSI Circuits Lecture 24 - Ordered Binary Decision Diagram
Link Design Verification and Test of Digital VLSI Circuits Lecture 25 - Operation on Ordered Binary Decision Diagram
Link Design Verification and Test of Digital VLSI Circuits Lecture 26 - Ordered Binary Decision Diagram for State Transition Systems
Link Design Verification and Test of Digital VLSI Circuits Lecture 27 - Symbolic Model Checking
Link Design Verification and Test of Digital VLSI Circuits Lecture 28 - Introduction to Digital VLSI Testing
Link Design Verification and Test of Digital VLSI Circuits Lecture 29 - Functional and Structural Testing
Link Design Verification and Test of Digital VLSI Circuits Lecture 30 - Fault Equivalence
Link Design Verification and Test of Digital VLSI Circuits Lecture 31 - Fault Simulation - 1
Link Design Verification and Test of Digital VLSI Circuits Lecture 32 - Fault Simulation - 2
Link Design Verification and Test of Digital VLSI Circuits Lecture 33 - Fault Simulation - 3
Link Design Verification and Test of Digital VLSI Circuits Lecture 34 - Testability Measures (SCOAP)
Link Design Verification and Test of Digital VLSI Circuits Lecture 35 - Introduction to Automatic Test Pattern Generation (ATPG) and ATPG Algebras
Link Design Verification and Test of Digital VLSI Circuits Lecture 36 - D-Algorithm - 1
Link Design Verification and Test of Digital VLSI Circuits Lecture 37 - D-Algorithm - 2
Link Design Verification and Test of Digital VLSI Circuits Lecture 38 - ATPG for Synchronous Sequential Circuits
Link Design Verification and Test of Digital VLSI Circuits Lecture 39 - Scan Chain based Sequential Circuit Testing - 1
Link Design Verification and Test of Digital VLSI Circuits Lecture 40 - Scan Chain based Sequential Circuit Testing - 2
Link Design Verification and Test of Digital VLSI Circuits Lecture 41 - Built in Self Test - 1
Link Design Verification and Test of Digital VLSI Circuits Lecture 42 - Built in Self Test - 2
Link Design Verification and Test of Digital VLSI Circuits Lecture 43 - Memory Testing - 1
Link Design Verification and Test of Digital VLSI Circuits Lecture 44 - Memory Testing - 2
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 1 - Model of Computer and Working Principle
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 2 - Digital Logic Building Blocks
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 3 - Information Representation and Number Systems
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 4 - Basic Elements of a Processor
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 5 - Storage and I/O Interface
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 6 - Execution of Program and Programming Languages
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 7 - Components of Central Processing Unit (CPU) and External Interface
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 8 - Main Memory
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 9 - Instruction Execution
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 10 - Instruction Format
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 11 - Instruction Set
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 12 - Addressing Modes
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 13 - Flags and Conditional Instructions
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 14 - Instruction: Procedure CALL/RETURN
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 15 - Instruction Cycle and Micro-operations
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 16 - Control Signals and Timing Sequence
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 17 - Control Signals for Complete Instruction Execution
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 18 - Handling Different Addressing Modes
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 19 - Handling Control Transfer Instructions
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 20 - Design of Hardwired controlled Control Unit
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 21 - Microinstructions and Microprograms
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 22 - Organization and Optimization of Microprogrammed controlled Control Unit
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 23 - Different Internal CPU Bus Organization
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 24 - Basics of Memory and Cache - Part 1
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 25 - Basics of Memory and Cache - Part 2
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 26 - Direct-mapped Caches: Misses, Writes and Performance
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 27 - Associative and Multi-level Caches
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 28 - Summary - Caches
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 29 - Basics of Virtual Memory and Address Translation
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 30 - Paging and Segmentation
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 31 - TLBs and Page Fault Handling
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 32 - Cache Indexing and Tagging Variations, Demand Paging
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 33 - Page Replacement Algorithms
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 34 - Page Frame Allocation and Thrashing
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 35 - Summary - Virtual Memory
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 36 - Input-Output Primitives
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 37 - Interrupt Driven I/O
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 38 - DMA Transfer
Link NOC:Computer Organization and Architecture - A Pedagogical Aspect Lecture 39 - Storage Devices
Link NOC:Embedded Systems-Design Verification and Test Lecture 1 - Introduction
Link NOC:Embedded Systems-Design Verification and Test Lecture 2 - Modeling Techniques - 1
Link NOC:Embedded Systems-Design Verification and Test Lecture 3 - Modeling Techniques - 2
Link NOC:Embedded Systems-Design Verification and Test Lecture 4 - Hardware/Software Partitioning - 1
Link NOC:Embedded Systems-Design Verification and Test Lecture 5 - Hardware/Software Partitioning - 2
Link NOC:Embedded Systems-Design Verification and Test Lecture 6 - Introduction to Hardware Design
Link NOC:Embedded Systems-Design Verification and Test Lecture 7 - Hardware Architectural Synthesis - 1
Link NOC:Embedded Systems-Design Verification and Test Lecture 8 - Hardware Architectural Synthesis - 2
Link NOC:Embedded Systems-Design Verification and Test Lecture 9 - Hardware Architectural Synthesis - 3
Link NOC:Embedded Systems-Design Verification and Test Lecture 10 - Hardware Architectural Synthesis - 4
Link NOC:Embedded Systems-Design Verification and Test Lecture 11 - Hardware Architectural Synthesis - 5
Link NOC:Embedded Systems-Design Verification and Test Lecture 12 - Hardware Architectural Synthesis - 6
Link NOC:Embedded Systems-Design Verification and Test Lecture 13 - Hardware Architectural Synthesis - 7
Link NOC:Embedded Systems-Design Verification and Test Lecture 14 - System Level Analysis
Link NOC:Embedded Systems-Design Verification and Test Lecture 15 - Uniprocessor Scheduling - 1
Link NOC:Embedded Systems-Design Verification and Test Lecture 16 - Uniprocessor Scheduling - 2
Link NOC:Embedded Systems-Design Verification and Test Lecture 17 - Multiprocessor Scheduling - 1
Link NOC:Embedded Systems-Design Verification and Test Lecture 18 - Multiprocessor Scheduling - 2
Link NOC:Embedded Systems-Design Verification and Test Lecture 19 - Introduction and Basic Operators of Temporal Logic
Link NOC:Embedded Systems-Design Verification and Test Lecture 20 - Syntax and Semantics of CTL
Link NOC:Embedded Systems-Design Verification and Test Lecture 21 - Equivalence between CTL formulas
Link NOC:Embedded Systems-Design Verification and Test Lecture 22 - Model Checking Algorithm
Link NOC:Embedded Systems-Design Verification and Test Lecture 23 - Binary Decision Diagram
Link NOC:Embedded Systems-Design Verification and Test Lecture 24 - Use of OBDDs for State Transition System
Link NOC:Embedded Systems-Design Verification and Test Lecture 25 - Symbolic Model Checking
Link NOC:Embedded Systems-Design Verification and Test Lecture 26 - Introduction to Digital VLSI Testing
Link NOC:Embedded Systems-Design Verification and Test Lecture 27 - Automatic Test Pattern Generation (ATPG)
Link NOC:Embedded Systems-Design Verification and Test Lecture 28 - Scan Chain based Sequential Circuit Testing
Link NOC:Embedded Systems-Design Verification and Test Lecture 29 - Software-Hardware Co-validation Fault Models and High Level Testing for Complex Embedded Systems
Link NOC:Embedded Systems-Design Verification and Test Lecture 30 - Testing for embedded cores
Link NOC:Embedded Systems-Design Verification and Test Lecture 31 - Bus and Memory Testing
Link NOC:Embedded Systems-Design Verification and Test Lecture 32 - Testing for advanced faults in Real time Embedded Systems
Link NOC:Embedded Systems-Design Verification and Test Lecture 33 - BIST for Embedded Systems
Link NOC:Embedded Systems-Design Verification and Test Lecture 34 - Concurrent Testing for Fault tolerant Embedded Systems - 1
Link NOC:Embedded Systems-Design Verification and Test Lecture 35 - Concurrent Testing for Fault tolerant Embedded Systems - 2
Link NOC:Embedded Systems-Design Verification and Test Lecture 36 - Testing for Re-programmable hardware
Link NOC:Embedded Systems-Design Verification and Test Lecture 37 - Interaction Testing between Hardware and Software
Link NOC:Multi-Core Computer Architecture-Storage and Interconnects Lecture 1 - Introduction and Overview of the Course
Link NOC:Multi-Core Computer Architecture-Storage and Interconnects Lecture 2 - Instruction Execution Principles
Link NOC:Multi-Core Computer Architecture-Storage and Interconnects Lecture 3 - Introduction to Instruction Pipeline
Link NOC:Multi-Core Computer Architecture-Storage and Interconnects Lecture 4 - Introduction to Superscalar Pipelines
Link NOC:Multi-Core Computer Architecture-Storage and Interconnects Lecture 5 - Instruction Pipeline and Performance - I
Link NOC:Multi-Core Computer Architecture-Storage and Interconnects Lecture 6 - Instruction Pipeline and Performance - II
Link NOC:Multi-Core Computer Architecture-Storage and Interconnects Lecture 7 - Introduction to Cache Memory
Link NOC:Multi-Core Computer Architecture-Storage and Interconnects Lecture 8 - Block Replacement Techniques and Write Strategy
Link NOC:Multi-Core Computer Architecture-Storage and Interconnects Lecture 9 - gem5 Simulator - An Overview
Link NOC:Multi-Core Computer Architecture-Storage and Interconnects Lecture 10 - Cache Memory
Link NOC:Multi-Core Computer Architecture-Storage and Interconnects Lecture 11 - Basic Cache Optimization Techniques
Link NOC:Multi-Core Computer Architecture-Storage and Interconnects Lecture 12 - gem5 Simulator - Cache Optimisation
Link NOC:Multi-Core Computer Architecture-Storage and Interconnects Lecture 13 - Advanced Cache Optimization Techniques - I
Link NOC:Multi-Core Computer Architecture-Storage and Interconnects Lecture 14 - Advanced Cache Optimization Techniques - II
Link NOC:Multi-Core Computer Architecture-Storage and Interconnects Lecture 15 - Cache Memory Optimizations
Link NOC:Multi-Core Computer Architecture-Storage and Interconnects Lecture 16 - Introduction to DRAM System
Link NOC:Multi-Core Computer Architecture-Storage and Interconnects Lecture 17 - DRAM Controllers and Address Mapping
Link NOC:Multi-Core Computer Architecture-Storage and Interconnects Lecture 18 - Address Translation Mechanisms
Link NOC:Multi-Core Computer Architecture-Storage and Interconnects Lecture 19 - Main Memory Concepts
Link NOC:Multi-Core Computer Architecture-Storage and Interconnects Lecture 20 - Introduction to Tiled Chip Multicore Processors
Link NOC:Multi-Core Computer Architecture-Storage and Interconnects Lecture 21 - Routing Techniques in Network On Chip
Link NOC:Multi-Core Computer Architecture-Storage and Interconnects Lecture 22 - Network On Chip Router Micro-Architecture
Link NOC:Multi-Core Computer Architecture-Storage and Interconnects Lecture 23 - gem5 Simulator - NoC Optimisation
Link NOC:Multi-Core Computer Architecture-Storage and Interconnects Lecture 24 - Energy Efficient Bufferless NoC Routers
Link NOC:Multi-Core Computer Architecture-Storage and Interconnects Lecture 25 - Sidebuffered Deflection Routers
Link NOC:Multi-Core Computer Architecture-Storage and Interconnects Lecture 26 - Concepts in Network on Chip
Link NOC:Multi-Core Computer Architecture-Storage and Interconnects Lecture 27 - QoS of NoC and Caches in TCMP Systems
Link NOC:Multi-Core Computer Architecture-Storage and Interconnects Lecture 28 - Emerging Trends in Network On Chips
Link NOC:Multi-Core Computer Architecture-Storage and Interconnects Lecture 29 - Concepts in TCMP Systems
Link NOC:Randomized Algorithms Lecture 1 - Introduction to Randomized Algorithms
Link NOC:Randomized Algorithms Lecture 2 - Randomized Mincut Algorithm
Link NOC:Randomized Algorithms Lecture 3 - Randomized Find
Link NOC:Randomized Algorithms Lecture 4 - Probability Review
Link NOC:Randomized Algorithms Lecture 5 - Expectation of Random Variables
Link NOC:Randomized Algorithms Lecture 6 - Conditional Probability and Conditional Expectation2
Link NOC:Randomized Algorithms Lecture 7 - Birthday Paradox
Link NOC:Randomized Algorithms Lecture 8 - Markov and Chebychev's Inequalities
Link NOC:Randomized Algorithms Lecture 9 - Median Algorithm
Link NOC:Randomized Algorithms Lecture 10 - Chernoff Bound
Link NOC:Randomized Algorithms Lecture 11 - Permutation Routing on a Hypercube
Link NOC:Randomized Algorithms Lecture 12 - Permutation Routing on a Hypercube (Analysis)
Link NOC:Randomized Algorithms Lecture 13 - Introduction to Probabilistic Method
Link NOC:Randomized Algorithms Lecture 14 - More Examples on Probabilistic Method
Link NOC:Randomized Algorithms Lecture 15 - Lovasz Local Lemma
Link NOC:Randomized Algorithms Lecture 16 - Introduction to Markov Chains
Link NOC:Randomized Algorithms Lecture 17 - 2-SAT and Markov Chains
Link NOC:Randomized Algorithms Lecture 18 - 3-SAT and Markov Chains
Link NOC:Randomized Algorithms Lecture 19 - Electrical Networks
Link NOC:Randomized Algorithms Lecture 20 - Cover Time
Link NOC:Randomized Algorithms Lecture 21 - Rapid Mixing
Link NOC:Randomized Algorithms Lecture 22 - Introduction to Computational Complexity
Link NOC:Randomized Algorithms Lecture 23 - Pratt's Certificate
Link NOC:Randomized Algorithms Lecture 24 - Primality Testing
Link NOC:Randomized Algorithms Lecture 25 - Miller Rabin Algorithm
Link NOC:Randomized Algorithms Lecture 26 - All pair shortest path - I
Link NOC:Randomized Algorithms Lecture 27 - All pair shortest path - II
Link NOC:Randomized Algorithms Lecture 28 - Randomized MST
Link NOC:Randomized Algorithms Lecture 29 - Introduction to approximate counting
Link NOC:Randomized Algorithms Lecture 30 - DNF counting
Link NOC:Randomized Algorithms Lecture 31 - Perfect Matching - I
Link NOC:Randomized Algorithms Lecture 32 - Perfect Matching - II
Link NOC:Randomized Algorithms Lecture 33 - Perfect Matching - III
Link NOC:Randomized Algorithms Lecture 34 - Treaps
Link NOC:Randomized Algorithms Lecture 35 - Hashing
Link NOC:Randomized Algorithms Lecture 36 - Probabilistically checkable proofs - I
Link NOC:Randomized Algorithms Lecture 37 - Probabilistically checkable proofs - II
Link NOC:Randomized Algorithms Lecture 38 - Probabilistically checkable proofs - III
Link NOC:Randomized Algorithms Lecture 39 - LFKN Protocol
Link NOC:Randomized Algorithms Lecture 40 - summary
Link NOC:Parallel Algorithms Lecture 1 - Shared Memory Models - 1
Link NOC:Parallel Algorithms Lecture 2 - Shared Memory Models - 2
Link NOC:Parallel Algorithms Lecture 3 - Interconnection Networks
Link NOC:Parallel Algorithms Lecture 4 - Cost and Optimality
Link NOC:Parallel Algorithms Lecture 5 - Basic Techniques - 1
Link NOC:Parallel Algorithms Lecture 6 - Basic Techniques - 2
Link NOC:Parallel Algorithms Lecture 7 - Basic Techniques - 3
Link NOC:Parallel Algorithms Lecture 8 - Basic Techniques - 4
Link NOC:Parallel Algorithms Lecture 9 - Basic Techniques - 5
Link NOC:Parallel Algorithms Lecture 10 - Odd Even Merge Sort (OEMS)
Link NOC:Parallel Algorithms Lecture 11 - OEMS, Bitonic-Sort-Merge Sort (BSMS)
Link NOC:Parallel Algorithms Lecture 12 - BSMS, Optimal List Colouring
Link NOC:Parallel Algorithms Lecture 13 - Description
Link NOC:Parallel Algorithms Lecture 14 - Analysis
Link NOC:Parallel Algorithms Lecture 15 - Applications
Link NOC:Parallel Algorithms Lecture 16 - Applications
Link NOC:Parallel Algorithms Lecture 17 - Fast optimal merge algorithm
Link NOC:Parallel Algorithms Lecture 18 - High level Description
Link NOC:Parallel Algorithms Lecture 19 - Cole's Merge Sort: Details
Link NOC:Parallel Algorithms Lecture 20 - Analysis of Cole's Merge Sort; Lower bound for sorting
Link NOC:Parallel Algorithms Lecture 21 - Sorting Lower bound; Connected Components
Link NOC:Parallel Algorithms Lecture 22 - Connected Components (CREW)
Link NOC:Parallel Algorithms Lecture 23 - Connected Components, Vertex Colouring
Link NOC:Parallel Algorithms Lecture 24 - Sorting on a 2D mesh
Link NOC:Parallel Algorithms Lecture 25 - Sorting on a 2D mesh
Link NOC:Parallel Algorithms Lecture 26 - Sorting, Offline routing on a 2D mesh
Link NOC:Parallel Algorithms Lecture 27 - Sorting on a 3D mesh
Link NOC:Parallel Algorithms Lecture 28 - Mesh of Trees, Hypercube
Link NOC:Parallel Algorithms Lecture 29 - Hypercube (Continued...)
Link NOC:Parallel Algorithms Lecture 30 - Hypercube (Continued...), butterfly network
Link NOC:Parallel Algorithms Lecture 31 - Butterfly, CCC and Benes Networks
Link NOC:Parallel Algorithms Lecture 32 - Butterfly, CCC and Benes Networks
Link NOC:Parallel Algorithms Lecture 33 - Shuffle Exchange Graphs, de Bruijn Graphs
Link NOC:Parallel Algorithms Lecture 34 - Interconnection Networks Algorithms
Link NOC:Parallel Algorithms Lecture 35 - Circuit Value Problem is P-complete for NC-reductions
Link NOC:Parallel Algorithms Lecture 36 - Ordered DFS is P-complete for NC-reductions
Link NOC:Parallel Algorithms Lecture 37 - Max Flow is P-complete for NC-reductions
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 1 - Boolean Functions
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 2 - Propositional Calculus: Introduction
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 3 - First Order Logic: Introduction
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 4 - First Order Logic: Introduction (Continued...)
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 5 - Proof System for Propcal
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 6 - First Order Logic: wffs, interpretations, models
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 7 - Soundness and Completeness of the First Order Proof System
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 8 - Sets, Relations, Functions
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 9 - Functions, Embedding of the theories of naturals numbers and integers in Set Theory
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 10 - Embedding of the theories of integers and rational numbers in Set Theory; Countable Sets
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 11 - Introduction to graph theory
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 12 - Trees, Cycles, Graph coloring
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 13 - Bipartitie Graphs
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 14 - Bipartitie Graphs; Edge Coloring and Matching
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 15 - Planar Graphs
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 16 - Graph Searching; BFS and DFS
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 17 - Network Flows
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 18 - Counting Spanning Trees in Complete Graphs
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 19 - Embedding of the theory of ral numbers in Set Theory; Paradoxes
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 20 - ZF Axiomatization of Set Theory
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 21 - Partially ordering relations
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 22 - Natural numbers, divisors
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 23 - Lattices
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 24 - GCD, Euclid's Algorithm
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 25 - Prime Numbers
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 26 - Congruences
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 27 - Pigeon Hole Principle
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 28 - Stirling Numbers, Bell Numbers
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 29 - Generating Functions
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 30 - Product of Generating Functions
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 31 - Composition of Generating Function
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 32 - Principle of Inclusion Exclusion
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 33 - Rook placement problem
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 34 - Solution of Congruences
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 35 - Chinese Remainder Theorem
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 36 - Totient; Congruences; Floor and Ceiling Functions
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 37 - Introduction to Groups
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 38 - Modular Arithmetic and Groups
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 39 - Dihedral Groups, Isomorhphisms
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 40 - Cyclic groups, Direct Products, Subgroups
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 41 - Cosets, Lagrange's theorem
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 42 - Rings and Fields
Link NOC:Discrete Mathematics (Prof. Sajith Gopalan) Lecture 43 - Construction of Finite Fields
Link NOC:Advanced Computer Architecture Lecture 1 - Review of Basic Computer Organization
Link NOC:Advanced Computer Architecture Lecture 2 - Perfomance Evaluation Methods
Link NOC:Advanced Computer Architecture Lecture 3 - Introduction to RISC Instruction Pipeline
Link NOC:Advanced Computer Architecture Lecture 4 - Instruction Pipeline and Performance
Link NOC:Advanced Computer Architecture Lecture 5 - Pipeline Hazards
Link NOC:Advanced Computer Architecture Lecture 6 - Control Hazards and Branch Prediction
Link NOC:Advanced Computer Architecture Lecture 7 - MIPS Pipeline for Multi-Cycle Operations
Link NOC:Advanced Computer Architecture Lecture 8 - Tutorial 2 : Pipeline Hazard Analysis
Link NOC:Advanced Computer Architecture Lecture 9 - Compiler Techniques to Explore ILP
Link NOC:Advanced Computer Architecture Lecture 10 - Dynamic Scheduling to Explore ILP
Link NOC:Advanced Computer Architecture Lecture 11 - Dynamic Scheduling with Tomasulo’s Algorithm
Link NOC:Advanced Computer Architecture Lecture 12 - Dynamic Scheduling with Speculative Execution
Link NOC:Advanced Computer Architecture Lecture 13 - Tutorial 3 : Static and Dynamic Scheduling
Link NOC:Advanced Computer Architecture Lecture 14 - Advanced Pipelining and Superscalar Processors
Link NOC:Advanced Computer Architecture Lecture 15 - Exploiting DLP: Vector and GPU Architectures
Link NOC:Advanced Computer Architecture Lecture 16 - Tutorial 4 : Architectural Simulation using gem5
Link NOC:Advanced Computer Architecture Lecture 17 - Tutorial 5 : Core Optimization in gem5
Link NOC:Advanced Computer Architecture Lecture 18 - Introduction to Cache Memory
Link NOC:Advanced Computer Architecture Lecture 19 - Block Replacement Techniques and Write Strategy
Link NOC:Advanced Computer Architecture Lecture 20 - Tutorial 6 : Design Concepts in Cache Memory
Link NOC:Advanced Computer Architecture Lecture 21 - Optimization Techniques in Cache Memory
Link NOC:Advanced Computer Architecture Lecture 22 - Advanced Cache Optimization Techniques
Link NOC:Advanced Computer Architecture Lecture 23 - Tutorial 7 : Optimization Techniques in Cache Memory
Link NOC:Advanced Computer Architecture Lecture 24 - Tutorial 8 : Cache Optimization in gem5
Link NOC:Advanced Computer Architecture Lecture 25 - Introduction to DRAM System
Link NOC:Advanced Computer Architecture Lecture 26 - DRAM Controllers and Address Mapping
Link NOC:Advanced Computer Architecture Lecture 27 - Secondary Storage Systems
Link NOC:Advanced Computer Architecture Lecture 28 - Tutorial 9 : Design Concepts in DRAM and Harddisk
Link NOC:Advanced Computer Architecture Lecture 29 - Tiled Chip Multicore Processors
Link NOC:Advanced Computer Architecture Lecture 30 - Routing Techniques in Network on Chip
Link NOC:Advanced Computer Architecture Lecture 31 - NoC Router Microarchitecture
Link NOC:Advanced Computer Architecture Lecture 32 - How to Explore Computer Architecture?
Link NOC:Advanced Computer Architecture Lecture 33 - Tutorial 10 : TCMP and NoC Design Principles
Link Computer Algorithms - 2 Lecture 1 - Graph_Basics
Link Computer Algorithms - 2 Lecture 2 - Breadth_First_Search
Link Computer Algorithms - 2 Lecture 3 - Dijkstra_Algo
Link Computer Algorithms - 2 Lecture 4 - All Pair Shortest Path
Link Computer Algorithms - 2 Lecture 5 - Matriods
Link Computer Algorithms - 2 Lecture 6 - Minimum Spanning Tree
Link Computer Algorithms - 2 Lecture 7 - Edmond's Matching Algo I
Link Computer Algorithms - 2 Lecture 8 - Edmond's Matching Algo II
Link Computer Algorithms - 2 Lecture 9 - Flow Networks
Link Computer Algorithms - 2 Lecture 10 - Ford Fulkerson Method
Link Computer Algorithms - 2 Lecture 11 - Edmond Karp Algo
Link Computer Algorithms - 2 Lecture 12 - Matrix Inversion
Link Computer Algorithms - 2 Lecture 13 - Matrix Decomposition
Link Computer Algorithms - 2 Lecture 14 - Knuth Morris Pratt Algo
Link Computer Algorithms - 2 Lecture 15 - Rabin Karp Algo
Link Computer Algorithms - 2 Lecture 16 - NFA Simulation
Link Computer Algorithms - 2 Lecture 17 - Integer-Polynomial Ops-I
Link Computer Algorithms - 2 Lecture 18 - Integer-Polynomial Ops-II
Link Computer Algorithms - 2 Lecture 19 - Integer-Polynomial Ops-III
Link Computer Algorithms - 2 Lecture 20 - Chinese Remainder-I
Link Computer Algorithms - 2 Lecture 21 - Chinese Remainder-II
Link Computer Algorithms - 2 Lecture 22 - Chinese Remainder-III
Link Computer Algorithms - 2 Lecture 23 - Discrete Fourier Transform-I
Link Computer Algorithms - 2 Lecture 24 - Discrete Fourier Transform-II
Link Computer Algorithms - 2 Lecture 25 - Discrete Fourier Transform-III
Link Computer Algorithms - 2 Lecture 26 - Schonhage Strassen Algo
Link Computer Algorithms - 2 Lecture 27 - Linear Programming-I
Link Computer Algorithms - 2 Lecture 28 - Linear Programming-II
Link Computer Algorithms - 2 Lecture 29 - Geometry-I
Link Computer Algorithms - 2 Lecture 30 - Geometry-II
Link Computer Algorithms - 2 Lecture 31 - Geometry-III
Link Computer Algorithms - 2 Lecture 32 - Approximation Algo-I
Link Computer Algorithms - 2 Lecture 33 - Approximation Algo-II
Link Computer Algorithms - 2 Lecture 34 - Approximation Algo-III
Link Computer Algorithms - 2 Lecture 35 - General: Dynamic Programming
Link Theory of Computation Lecture 1 - What is theory of computation? Set membership problem, basic notions like alphabet, strings, formal languages
Link Theory of Computation Lecture 2 - Introduction to finite automaton
Link Theory of Computation Lecture 3 - Finite automata continued, deterministic finite automata(DFAs), language accepted by a DFA
Link Theory of Computation Lecture 4 - Regular languages, their closure properties
Link Theory of Computation Lecture 5 - DFAs solve set membership problems in linear time, pumping lemma
Link Theory of Computation Lecture 6 - More examples of nonregular languages, proof of pumping lemma, pumping lemma as a game, converse of pumping lemma does not hold
Link Theory of Computation Lecture 7 - A generalization of pumping lemma, nondeterministic finite automata (NFAs), computation trees for NFAs
Link Theory of Computation Lecture 8 - Formal description of NFA, language accepted by NFA, such languages are also regular
Link Theory of Computation Lecture 9 - 'Guess and verify' paradigm for nondeterminism
Link Theory of Computation Lecture 10 - NFA's with epsilon transitions
Link Theory of Computation Lecture 11 - Regular expressions, they denote regular languages
Link Theory of Computation Lecture 12 - Construction of a regular expression for a language given a DFA accepting it. Algebraic closure properies of regular languages
Link Theory of Computation Lecture 13 - Closure properties (Continued...)
Link Theory of Computation Lecture 14 - Closure under reversal, use of closure properties
Link Theory of Computation Lecture 15 - Decision problems for regular languages
Link Theory of Computation Lecture 16 - About minimization of states of DFAs. Myhill-Nerode theorem
Link Theory of Computation Lecture 17 - Continuation of proof of Myhill-Nerode theorem
Link Theory of Computation Lecture 18 - Application of Myhill-Nerode theorem. DFA minimization
Link Theory of Computation Lecture 19 - DFA minimization (Continued...)
Link Theory of Computation Lecture 20 - Introduction to context free languages (cfls) and context free grammars (cfgs). Derivation of strings by cfgs
Link Theory of Computation Lecture 21 - Languages generated by a cfg, leftmost derivation, more examples of cfgs and cfls
Link Theory of Computation Lecture 22 - Parse trees, inductive proof that L is L(G). All regular languages are context free
Link Theory of Computation Lecture 23 - Towards Chomsky normal forms: elimination of useless symbols, analysis of reachable symbols, generating nonterminals, order of substeps matter
Link Theory of Computation Lecture 24 - Simplification of cfgs continued, Removal of epsilon productions: algorithm and its correctness
Link Theory of Computation Lecture 25 - Elimination of unit productions. Converting a cfg into Chomsky normal form. Towards pumping lemma for cfls
Link Theory of Computation Lecture 26 - Pumping lemma for cfls. Adversarial paradigm
Link Theory of Computation Lecture 27 - Completion of pumping lemma proof. Examples of use of pumping lemma. Converse of lemma does not hold. Closure properties of cfls
Link Theory of Computation Lecture 28 - Closure properties continued. cfls not closed under complementation
Link Theory of Computation Lecture 29 - Another example of a cfl whose complement is not a cfl. Decision problems for cfls
Link Theory of Computation Lecture 30 - More decision problems. CYK algorithm for membership decision
Link Theory of Computation Lecture 31 - Introduction to pushdown automata (pda)
Link Theory of Computation Lecture 32 - pda configurations, acceptance notions for pdas. Transition diagrams for pdas
Link Theory of Computation Lecture 33 - Equivalence of acceptance by empty stack and acceptance by final state
Link Theory of Computation Lecture 34 - Turing machines (TM): motivation, informal definition, example, transition diagram
Link Theory of Computation Lecture 35 - Execution trace, another example (unary to binary conversion)
Link Theory of Computation Lecture 36 - Example continued. Finiteness of TM description, TM configuration, language acceptance, definition of recursively enumerable (r.e.) languages
Link Theory of Computation Lecture 37 - Notion of non-acceptance or rejection of a string by a TM. Multitrack TM, its equivalence to standard TM. Multitape TMs
Link Theory of Computation Lecture 38 - Simulation of multitape TMs by basic model. Nondeterministic TM (NDTM). Equivalence of NDTMs with deterministic TMs
Link Theory of Computation Lecture 39 - Counter machines and their equivalence to basic TM model
Link Theory of Computation Lecture 40 - TMs can simulate computers, diagonalization proof
Link Theory of Computation Lecture 41 - Existence of non-r.e. languages, recursive languages, notion of decidability
Link Theory of Computation Lecture 42 - Separation of recursive and r.e. classes, halting problem and its undecidability
Link Introduction to Problem Solving and Programming Lecture 1
Link Introduction to Problem Solving and Programming Lecture 2
Link Introduction to Problem Solving and Programming Lecture 3
Link Introduction to Problem Solving and Programming Lecture 4
Link Introduction to Problem Solving and Programming Lecture 5
Link Introduction to Problem Solving and Programming Lecture 6
Link Introduction to Problem Solving and Programming Lecture 7
Link Introduction to Problem Solving and Programming Lecture 8
Link Introduction to Problem Solving and Programming Lecture 9
Link Introduction to Problem Solving and Programming Lecture 10
Link Introduction to Problem Solving and Programming Lecture 11
Link Introduction to Problem Solving and Programming Lecture 12
Link Introduction to Problem Solving and Programming Lecture 13
Link Introduction to Problem Solving and Programming Lecture 14
Link Introduction to Problem Solving and Programming Lecture 15
Link Introduction to Problem Solving and Programming Lecture 16
Link Introduction to Problem Solving and Programming Lecture 17
Link Introduction to Problem Solving and Programming Lecture 18
Link Introduction to Problem Solving and Programming Lecture 19
Link Introduction to Problem Solving and Programming Lecture 20
Link Introduction to Problem Solving and Programming Lecture 21
Link Introduction to Problem Solving and Programming Lecture 22
Link Introduction to Problem Solving and Programming Lecture 23
Link Introduction to Problem Solving and Programming Lecture 24
Link Riemann Hypothesis and its Applications Lecture 1
Link Riemann Hypothesis and its Applications Lecture 2
Link Riemann Hypothesis and its Applications Lecture 3
Link Riemann Hypothesis and its Applications Lecture 4
Link Riemann Hypothesis and its Applications Lecture 5
Link Riemann Hypothesis and its Applications Lecture 6
Link Riemann Hypothesis and its Applications Lecture 7
Link Riemann Hypothesis and its Applications Lecture 8
Link Riemann Hypothesis and its Applications Lecture 9
Link Riemann Hypothesis and its Applications Lecture 10
Link Riemann Hypothesis and its Applications Lecture 11
Link Riemann Hypothesis and its Applications Lecture 12
Link Riemann Hypothesis and its Applications Lecture 13
Link Riemann Hypothesis and its Applications Lecture 14
Link Riemann Hypothesis and its Applications Lecture 15
Link Riemann Hypothesis and its Applications Lecture 16
Link Riemann Hypothesis and its Applications Lecture 17
Link Riemann Hypothesis and its Applications Lecture 18
Link Riemann Hypothesis and its Applications Lecture 19
Link Riemann Hypothesis and its Applications Lecture 20
Link Riemann Hypothesis and its Applications Lecture 21
Link Riemann Hypothesis and its Applications Lecture 22
Link Riemann Hypothesis and its Applications Lecture 23
Link Riemann Hypothesis and its Applications Lecture 24
Link Riemann Hypothesis and its Applications Lecture 25
Link Riemann Hypothesis and its Applications Lecture 26
Link Riemann Hypothesis and its Applications Lecture 27
Link Riemann Hypothesis and its Applications Lecture 28
Link Riemann Hypothesis and its Applications Lecture 29
Link Riemann Hypothesis and its Applications Lecture 30
Link Biometrics Lecture 1 - Biometrics
Link Biometrics Lecture 2 - Biometrics
Link Biometrics Lecture 3 - Biometrics
Link Biometrics Lecture 4 - Biometrics
Link Biometrics Lecture 5 - Biometrics
Link Biometrics Lecture 6 - Biometrics
Link Biometrics Lecture 7 - Biometrics
Link Biometrics Lecture 8 - Biometrics
Link Biometrics Lecture 9 - Biometrics
Link Biometrics Lecture 10 - Biometrics
Link Biometrics Lecture 11 - Biometrics
Link Biometrics Lecture 12 - Biometrics
Link Biometrics Lecture 13 - Biometrics
Link Biometrics Lecture 14 - Biometrics
Link Biometrics Lecture 15 - Biometrics
Link Biometrics Lecture 16 - Biometrics
Link Biometrics Lecture 17 - Biometrics
Link Biometrics Lecture 18 - Biometrics
Link Biometrics Lecture 19 - Biometrics
Link Biometrics Lecture 20 - Biometrics
Link Biometrics Lecture 21 - Biometrics
Link Biometrics Lecture 22 - Biometrics
Link Biometrics Lecture 23 - Biometrics
Link Biometrics Lecture 24 - Biometrics
Link Biometrics Lecture 25 - Biometrics
Link Biometrics Lecture 26 - Biometrics
Link Parallel Algorithm Lecture 1 - Parallel Algorithm
Link Parallel Algorithm Lecture 2 - Parallel Algorithm
Link Parallel Algorithm Lecture 3 - Parallel Algorithm
Link Parallel Algorithm Lecture 4 - Parallel Algorithm
Link Parallel Algorithm Lecture 5 - Parallel Algorithm
Link Parallel Algorithm Lecture 6 - Parallel Algorithm
Link Parallel Algorithm Lecture 7 - Parallel Algorithm
Link Parallel Algorithm Lecture 8 - Parallel Algorithm
Link Parallel Algorithm Lecture 9 - Parallel Algorithm
Link Parallel Algorithm Lecture 10 - Parallel Algorithm
Link Parallel Algorithm Lecture 11 - Parallel Algorithm
Link Parallel Algorithm Lecture 12 - Parallel Algorithm
Link Parallel Algorithm Lecture 13 - Parallel Algorithm
Link Parallel Algorithm Lecture 14 - Parallel Algorithm
Link Parallel Algorithm Lecture 15 - Parallel Algorithm
Link Parallel Algorithm Lecture 16 - Parallel Algorithm
Link Parallel Algorithm Lecture 17 - Parallel Algorithm
Link Parallel Algorithm Lecture 18 - Parallel Algorithm
Link Parallel Algorithm Lecture 19 - Parallel Algorithm
Link Parallel Algorithm Lecture 20 - Parallel Algorithm
Link Parallel Algorithm Lecture 21 - Parallel Algorithm
Link Parallel Algorithm Lecture 22 - Parallel Algorithm
Link Parallel Algorithm Lecture 23 - Parallel Algorithm
Link Parallel Algorithm Lecture 24 - Parallel Algorithm
Link Parallel Algorithm Lecture 25 - Parallel Algorithm
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 1 - Introduction, Amdahl's law, CPI equation
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 2 - CPI equation, research practices, instruction set architecture
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 3 - Instruction set architecture
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 4 - Instruction set architecture
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 5 - Instruction set architecture, case study with MIPS-I
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 6 - Case study with MIPS-I
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 7 - Case study with MIPS-I
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 8 - Binary instrumentation for architectural studies: PIN
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 9 - Binary instrumentation for architectural studies: PIN
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 10 - Basic pipelining, branch prediction
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 11 - Basic pipelining, branch prediction
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 12 - Basic pipelining, branch prediction
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 13 - Basic pipelining, branch prediction
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 14 - Basic pipelining, branch prediction
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 15 - Basic pipelining, branch prediction
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 16 - Basic pipelining, branch prediction
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 17 - Basic pipelining, branch prediction
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 18 - Basic pipelining, branch prediction
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 19 - Basic pipelining, branch prediction
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 20 - Dynamic scheduling, speculative execution
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 21 - Dynamic scheduling, speculative execution
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 22 - Dynamic scheduling, speculative execution
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 23 - Dynamic scheduling, speculative execution
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 24 - Dynamic scheduling, speculative execution
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 25 - Virtual memory and caches
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 26 - Virtual memory and caches
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 27 - Virtual memory and caches
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 28 - Topics in memory system, DRAM and SRAM technology
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 29 - Topics in memory system, DRAM and SRAM technology
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 30 - Topics in memory system, DRAM and SRAM technology
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 31 - Case study: MIPS R10000
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 32 - Case study: MIPS R10000
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 33 - Case study: Alpha 21264
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 34 - Case study: Intel Pentium 4
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 35 - Input/Output
Link Computer Architecture (Dr. Mainak Chaudhuri) Lecture 36 - Simultaneous multithreading, multi-cores
Link Compiler Design (Prof. Sanjeev K Aggarwal) Lecture 1 - Compiler Design
Link Compiler Design (Prof. Sanjeev K Aggarwal) Lecture 2 - Compiler Design
Link Compiler Design (Prof. Sanjeev K Aggarwal) Lecture 3 - Compiler Design
Link Compiler Design (Prof. Sanjeev K Aggarwal) Lecture 4 - Compiler Design
Link Compiler Design (Prof. Sanjeev K Aggarwal) Lecture 5 - Compiler Design
Link Compiler Design (Prof. Sanjeev K Aggarwal) Lecture 6 - Compiler Design
Link Compiler Design (Prof. Sanjeev K Aggarwal) Lecture 7 - Compiler Design
Link Compiler Design (Prof. Sanjeev K Aggarwal) Lecture 8 - Compiler Design
Link Compiler Design (Prof. Sanjeev K Aggarwal) Lecture 9 - Compiler Design
Link Compiler Design (Prof. Sanjeev K Aggarwal) Lecture 10 - Compiler Design
Link Compiler Design (Prof. Sanjeev K Aggarwal) Lecture 11 - Compiler Design
Link Compiler Design (Prof. Sanjeev K Aggarwal) Lecture 12 - Compiler Design
Link Compiler Design (Prof. Sanjeev K Aggarwal) Lecture 13 - Compiler Design
Link Compiler Design (Prof. Sanjeev K Aggarwal) Lecture 14 - Compiler Design
Link Compiler Design (Prof. Sanjeev K Aggarwal) Lecture 15 - Compiler Design
Link Compiler Design (Prof. Sanjeev K Aggarwal) Lecture 16 - Compiler Design
Link Compiler Design (Prof. Sanjeev K Aggarwal) Lecture 17 - Compiler Design
Link Compiler Design (Prof. Sanjeev K Aggarwal) Lecture 18 - Compiler Design
Link Compiler Design (Prof. Sanjeev K Aggarwal) Lecture 19 - Compiler Design
Link Compiler Design (Prof. Sanjeev K Aggarwal) Lecture 20 - Compiler Design
Link Compiler Design (Prof. Sanjeev K Aggarwal) Lecture 21 - Compiler Design
Link Compiler Design (Prof. Sanjeev K Aggarwal) Lecture 22 - Compiler Design
Link Compiler Design (Prof. Sanjeev K Aggarwal) Lecture 23 - Compiler Design
Link Compiler Design (Prof. Sanjeev K Aggarwal) Lecture 24 - Compiler Design
Link Compiler Design (Prof. Sanjeev K Aggarwal) Lecture 25 - Compiler Design
Link Compiler Design (Prof. Sanjeev K Aggarwal) Lecture 26 - Compiler Design
Link Compiler Design (Prof. Sanjeev K Aggarwal) Lecture 27 - Compiler Design
Link Compiler Design (Prof. Sanjeev K Aggarwal) Lecture 28 - Compiler Design
Link Compiler Design (Prof. Sanjeev K Aggarwal) Lecture 29 - Compiler Design
Link Compiler Design (Prof. Sanjeev K Aggarwal) Lecture 30 - Compiler Design
Link NOC : Introduction to programming in C Lecture 1 - Intro - Process of programming
Link NOC : Introduction to programming in C Lecture 2 - Intro - GCD
Link NOC : Introduction to programming in C Lecture 3 - Intro - Programming cycle
Link NOC : Introduction to programming in C Lecture 4 - Intro - Tracing a simple program
Link NOC : Introduction to programming in C Lecture 5 - Intro - Variables
Link NOC : Introduction to programming in C Lecture 6 - Intro - Operators
Link NOC : Introduction to programming in C Lecture 7 - Loops - While
Link NOC : Introduction to programming in C Lecture 8 - Loops - While example
Link NOC : Introduction to programming in C Lecture 9 - Loops - While GCD example
Link NOC : Introduction to programming in C Lecture 10 - Loops - Longest 1
Link NOC : Introduction to programming in C Lecture 11 - Loops - Longest 2
Link NOC : Introduction to programming in C Lecture 12 - Loops - Longest 3
Link NOC : Introduction to programming in C Lecture 13 - Loops - Do-while
Link NOC : Introduction to programming in C Lecture 14 - Loops - Matrix using nested loops
Link NOC : Introduction to programming in C Lecture 15 - Loops - For
Link NOC : Introduction to programming in C Lecture 16 - Loops - Matrix using nested for loops
Link NOC : Introduction to programming in C Lecture 17 - Loops - Break statement
Link NOC : Introduction to programming in C Lecture 18 - Loops - Continue statement
Link NOC : Introduction to programming in C Lecture 19 - Loops - Continue statement example
Link NOC : Introduction to programming in C Lecture 20 - Data types in C
Link NOC : Introduction to programming in C Lecture 21 - ASCII code
Link NOC : Introduction to programming in C Lecture 22 - Operators Expressions Associativity
Link NOC : Introduction to programming in C Lecture 23 - Precedence of operators
Link NOC : Introduction to programming in C Lecture 24 - Expression evaluation
Link NOC : Introduction to programming in C Lecture 25 - Functions - Introduction
Link NOC : Introduction to programming in C Lecture 26 - Functions - How functions are executed
Link NOC : Introduction to programming in C Lecture 27 - Functions - Examples - 1
Link NOC : Introduction to programming in C Lecture 28 - Functions - Examples - 2
Link NOC : Introduction to programming in C Lecture 29 - Arrays in C
Link NOC : Introduction to programming in C Lecture 30 - Initializing arrays
Link NOC : Introduction to programming in C Lecture 31 - Initializing character arrays
Link NOC : Introduction to programming in C Lecture 32 - Pointers in C
Link NOC : Introduction to programming in C Lecture 33 - Pointer arithmetic
Link NOC : Introduction to programming in C Lecture 34 - Function with pointer arguments
Link NOC : Introduction to programming in C Lecture 35 - Example - copy a subarray
Link NOC : Introduction to programming in C Lecture 36 - Programming using arrays and pointers
Link NOC : Introduction to programming in C Lecture 37 - Sizeof operator
Link NOC : Introduction to programming in C Lecture 38 - Returning pointers from functions
Link NOC : Introduction to programming in C Lecture 39 - Example - return duplicate of a string
Link NOC : Introduction to programming in C Lecture 40 - Recursion - Linear Recursion
Link NOC : Introduction to programming in C Lecture 41 - Recursion - Linear Recursion - 2
Link NOC : Introduction to programming in C Lecture 42 - Recursion - Two-way Recursion
Link NOC : Introduction to programming in C Lecture 43 - Multidimensional Arrays
Link NOC : Introduction to programming in C Lecture 44 - Multidimensional Arrays and Pointers
Link NOC : Introduction to programming in C Lecture 45 - Multidimensional Arrays and Pointers - continued (2)
Link NOC : Introduction to programming in C Lecture 46 - Multidimensional Arrays and Pointers - continued (3)
Link NOC : Introduction to programming in C Lecture 47 - File Handling
Link NOC : Introduction to programming in C Lecture 48 - Some other file-handling functions
Link NOC : Introduction to programming in C Lecture 49 - Structures in C - 1
Link NOC : Introduction to programming in C Lecture 50 - Structures in C - 2
Link NOC : Introduction to programming in C Lecture 51 - Singly Linked Lists
Link NOC : Introduction to programming in C Lecture 52 - Doubly Linked Lists - introduction
Link NOC : Introduction to programming in C Lecture 53 - Organizing code into multiple files - 1
Link NOC : Introduction to programming in C Lecture 54 - Organizing code into multiple files - 2
Link NOC : Introduction to programming in C Lecture 55 - Pre and post increment
Link NOC:Fundamentals of Database Systems Lecture 1 - Introduction to Databases
Link NOC:Fundamentals of Database Systems Lecture 2 - Relational Data Model
Link NOC:Fundamentals of Database Systems Lecture 3 - Relational Algebra Basic Operators
Link NOC:Fundamentals of Database Systems Lecture 4 - Relational Algebra Composition of Operators
Link NOC:Fundamentals of Database Systems Lecture 5 - Relational Algebra Additional Operators
Link NOC:Fundamentals of Database Systems Lecture 6 - Relational Algebra Extended Relational Algebra
Link NOC:Fundamentals of Database Systems Lecture 7 - Relational Algebra: Database Modifications
Link NOC:Fundamentals of Database Systems Lecture 8 - SQL: Introduction and Data Definition
Link NOC:Fundamentals of Database Systems Lecture 9 - SQL: Basic Queries
Link NOC:Fundamentals of Database Systems Lecture 10 - SQL: Advanced Queries
Link NOC:Fundamentals of Database Systems Lecture 11 - SQL: Updates, Joins, Views and Triggers
Link NOC:Fundamentals of Database Systems Lecture 12 - Normalization Theory: Motivation
Link NOC:Fundamentals of Database Systems Lecture 13 - Normalization Theory: 1 NF and 2NF
Link NOC:Fundamentals of Database Systems Lecture 14 - Normalization Theory: 3NF
Link NOC:Fundamentals of Database Systems Lecture 15 - Normalization Theory: BCNF
Link NOC:Fundamentals of Database Systems Lecture 16 - Normalization Theory: MVD
Link NOC:Fundamentals of Database Systems Lecture 17 - Physical Design
Link NOC:Fundamentals of Database Systems Lecture 18 - Database Indexing: Hashing
Link NOC:Fundamentals of Database Systems Lecture 19 - Database Indexing: Tree-based Indexing
Link NOC:Fundamentals of Database Systems Lecture 20 - Query Processing: Selection
Link NOC:Fundamentals of Database Systems Lecture 21 - Query Processing: Sorting
Link NOC:Fundamentals of Database Systems Lecture 22 - Query Processing: Nested-Loop joins and Merge join
Link NOC:Fundamentals of Database Systems Lecture 23 - Query Processing: Hash join and other Operations
Link NOC:Fundamentals of Database Systems Lecture 24 - Query Optimization: Equivalent Expressions and Simple Equivalance Rules
Link NOC:Fundamentals of Database Systems Lecture 25 - Query Optimization: Complex Equivalence Rules
Link NOC:Fundamentals of Database Systems Lecture 26 - Query Optimization: Join Order
Link NOC:Fundamentals of Database Systems Lecture 27 - Query Optimization: Heuristics and Sizes
Link NOC:Fundamentals of Database Systems Lecture 28 - Database Transactions: Properties and Failures
Link NOC:Fundamentals of Database Systems Lecture 29 - Database Transactions: States and Systems
Link NOC:Fundamentals of Database Systems Lecture 30 - Recovery Systems: Deferred Database Modification
Link NOC:Fundamentals of Database Systems Lecture 31 - Recovery Systems: Immediate Database Modification.
Link NOC:Fundamentals of Database Systems Lecture 32 - Recovery Systems: Checkpointing and Shadow Paging
Link NOC:Fundamentals of Database Systems Lecture 33 - Schedules: Introduction
Link NOC:Fundamentals of Database Systems Lecture 34 - Schedules: Conflict Serializability
Link NOC:Fundamentals of Database Systems Lecture 35 - Schedules: View Serializability
Link NOC:Fundamentals of Database Systems Lecture 36 - Schedules: Result Equivalence and Testing for Serializability
Link NOC:Fundamentals of Database Systems Lecture 37 - Schedules: Recoverability
Link NOC:Fundamentals of Database Systems Lecture 38 - Concurrency Control: Locks
Link NOC:Fundamentals of Database Systems Lecture 39 - Concurrency Control: Two-phase Locking Protocol
Link NOC:Fundamentals of Database Systems Lecture 40 - Concurrency Control: Timestamp Ordering Protocol
Link NOC:Fundamentals of Database Systems Lecture 41 - Concurrency Control: Validation-based Protocol
Link NOC:Fundamentals of Database Systems Lecture 42 - Concurrency Control: Multiple Granularity for Locks
Link NOC:Fundamentals of Database Systems Lecture 43 - Concurrency Control: Deadlock Prevention and Deadlock Detection
Link NOC:Fundamentals of Database Systems Lecture 44 - Concurrency Control: Deadlock Recovery and Update Operations
Link NOC:Fundamentals of Database Systems Lecture 45 - NoSQL: Introduction and Properties
Link NOC:Fundamentals of Database Systems Lecture 46 - NoSQL: Columnar Families
Link NOC:Fundamentals of Database Systems Lecture 47 - NoSQL: Different NoSQL Systems
Link NOC:Fundamentals of Database Systems Lecture 48 - Big Data
Link NOC:Theory of Computation Lecture 1 - Introduction to Finite Automata
Link NOC:Theory of Computation Lecture 2 - Basic Notation and Convention, DFA Edit Lesson
Link NOC:Theory of Computation Lecture 3 - Example of DFAs
Link NOC:Theory of Computation Lecture 4 - Computation by DFA and Regular operation
Link NOC:Theory of Computation Lecture 5 - Introduction to Nondeterminism
Link NOC:Theory of Computation Lecture 6 - NFA, definition and examples
Link NOC:Theory of Computation Lecture 7 - Equivalence of NFA and DFA, Closure properties
Link NOC:Theory of Computation Lecture 8 - Regular expressions
Link NOC:Theory of Computation Lecture 9 - Algebraic properties, RE to NFA conversion
Link NOC:Theory of Computation Lecture 10 - GNFA to RE conversion
Link NOC:Theory of Computation Lecture 11 - More closure properties of regular languages
Link NOC:Theory of Computation Lecture 12 - Non-regular languages and pumping lemma
Link NOC:Theory of Computation Lecture 13 - Examples of non-regular languages
Link NOC:Theory of Computation Lecture 14 - DFA minimization
Link NOC:Theory of Computation Lecture 15 - Introduction to CFGs
Link NOC:Theory of Computation Lecture 16 - Examples of CFGs, Reg subset of CFL
Link NOC:Theory of Computation Lecture 17 - Parse tree, derivation, ambiguity
Link NOC:Theory of Computation Lecture 18 - Normal forms, Chomsky normal form
Link NOC:Theory of Computation Lecture 19 - Non-CFLs, pumping lemma
Link NOC:Theory of Computation Lecture 20 - Examples of non- CFLs
Link NOC:Theory of Computation Lecture 21 - Pushdown Automata
Link NOC:Theory of Computation Lecture 22 - Pushdown Automata - Definition and Example
Link NOC:Theory of Computation Lecture 23 - Pushdown Automata - Examples and Relation with CFGs
Link NOC:Theory of Computation Lecture 24 - Closure Properties of CFLs
Link NOC:Theory of Computation Lecture 25 - Deterministic Context Free Languages
Link NOC:Theory of Computation Lecture 26 - Turing Machine
Link NOC:Theory of Computation Lecture 27 - More on Turing Machine
Link NOC:Theory of Computation Lecture 28 - Non deterministic Turing Machine Edit Lesson
Link NOC:Theory of Computation Lecture 29 - Configuration Graphs
Link NOC:Theory of Computation Lecture 30 - Closure Properties of Decidable and Turing recognizable languages
Link NOC:Theory of Computation Lecture 31 - Decidability properties of Regular and Context Free Languages
Link NOC:Theory of Computation Lecture 32 - Undecidability
Link NOC:Theory of Computation Lecture 33 - More on Undecidability
Link NOC:Theory of Computation Lecture 34 - Reduction
Link NOC:Theory of Computation Lecture 35 - Applications of Reduction
Link NOC:Theory of Computation Lecture 36 - Rice's theorem
Link NOC:Theory of Computation Lecture 37 - Introduction to Computational Complexity Theory
Link NOC:Theory of Computation Lecture 38 - More on the class NP
Link NOC:Theory of Computation Lecture 39 - NP-Completeness
Link NOC:Theory of Computation Lecture 40 - More on NP-Completeness
Link NOC:Modern Algebra Lecture 1 - Groups : Introduction to abstraction
Link NOC:Modern Algebra Lecture 2 - Groups : Subgroups and homomorphism
Link NOC:Modern Algebra Lecture 3 - Groups : Isomorphism
Link NOC:Modern Algebra Lecture 4 - Groups : Quotienting
Link NOC:Modern Algebra Lecture 5 - Groups : Structure Theorem
Link NOC:Modern Algebra Lecture 6 - Groups : Applications
Link NOC:Modern Algebra Lecture 7 - Rings : Introduction
Link NOC:Modern Algebra Lecture 8 - Rings : Failure of Unique Factorization
Link NOC:Modern Algebra Lecture 9 - Rings : Birth of Ideals
Link NOC:Modern Algebra Lecture 10 - Rings : Ideal Arithmetic
Link NOC:Modern Algebra Lecture 11 - Rings : Special Ideals
Link NOC:Modern Algebra Lecture 12 - Rings : Dedekind Domains
Link NOC:Modern Algebra Lecture 13 - Rings : Quotient Rings
Link NOC:Modern Algebra Lecture 14 - Fields
Link NOC:Modern Algebra Lecture 15 - Cauchy sequences and real numbers
Link NOC:Modern Algebra Lecture 16 - Properties of Fields
Link NOC:Modern Algebra Lecture 17 - Finite Fields
Link NOC:Modern Algebra Lecture 18 - Application of Fields
Link NOC:Advanced Graph Theory Lecture 1 - Graph Theory: Introduction
Link NOC:Advanced Graph Theory Lecture 2 - Paths, Cycles and Trails
Link NOC:Advanced Graph Theory Lecture 3 - Eulerian Circuits, Vertex Degrees and Counting
Link NOC:Advanced Graph Theory Lecture 4 - The Chinese Postman Problem and Graphic Sequences
Link NOC:Advanced Graph Theory Lecture 5 - Trees and Distance
Link NOC:Advanced Graph Theory Lecture 6 - Spanning Trees and Enumeration
Link NOC:Advanced Graph Theory Lecture 7 - Matchings and Covers
Link NOC:Advanced Graph Theory Lecture 8 - Independent Sets, Covers and Maximum Bipartite Matching
Link NOC:Advanced Graph Theory Lecture 9 - Weighted Bipartite Matching
Link NOC:Advanced Graph Theory Lecture 10 - Stable Matchings and Faster Bipartite Matching
Link NOC:Advanced Graph Theory Lecture 11 - Factors and Perfect Matching in General Graphs
Link NOC:Advanced Graph Theory Lecture 12 - Matching in General Graphs: Edmonds’ Blossom Algorithm
Link NOC:Advanced Graph Theory Lecture 13 - Connectivity and Paths: Cuts and Connectivity
Link NOC:Advanced Graph Theory Lecture 14 - k-Connected Graphs
Link NOC:Advanced Graph Theory Lecture 15 - Network Flow Problems
Link NOC:Advanced Graph Theory Lecture 16 - Vertex Coloring and Upper Bounds
Link NOC:Advanced Graph Theory Lecture 17 - Brooks’ Theorem and Color-Critical Graphs
Link NOC:Advanced Graph Theory Lecture 18 - Counting Proper Colorings
Link NOC:Advanced Graph Theory Lecture 19 - Planar Graphs
Link NOC:Advanced Graph Theory Lecture 20 - Characterization of Planar Graphs
Link NOC:Advanced Graph Theory Lecture 21 - Line Graphs and Edge-coloring
Link NOC:Advanced Graph Theory Lecture 22 - Hamiltonian Graph, Traveling Salesman Problem and NP-Completeness
Link NOC:Advanced Graph Theory Lecture 23 - Connected Dominating Set and Distributed Algorithm
Link NOC:Cloud Computing and Distributed Systems Lecture 1 - Introduction to Cloud Computing
Link NOC:Cloud Computing and Distributed Systems Lecture 2 - Virtualization
Link NOC:Cloud Computing and Distributed Systems Lecture 3 - Hotspot Mitigation for Virtual Machine Migration
Link NOC:Cloud Computing and Distributed Systems Lecture 4 - Server Virtualization
Link NOC:Cloud Computing and Distributed Systems Lecture 5 - Software Defined Network
Link NOC:Cloud Computing and Distributed Systems Lecture 6 - Geo-distributed Cloud Data Centers
Link NOC:Cloud Computing and Distributed Systems Lecture 7 - Leader Election in Rings (Classical Distributed Algorithms)
Link NOC:Cloud Computing and Distributed Systems Lecture 8 - Leader Election (Ring LE and Bully LE Algorithm)
Link NOC:Cloud Computing and Distributed Systems Lecture 9 - Design of Zookeeper
Link NOC:Cloud Computing and Distributed Systems Lecture 10 - Time and Clock Synchronization in Cloud Data Centers
Link NOC:Cloud Computing and Distributed Systems Lecture 11 - Global State and Snapshot Recording Algorithms
Link NOC:Cloud Computing and Distributed Systems Lecture 12 - Distributed Mutual Exclusion
Link NOC:Cloud Computing and Distributed Systems Lecture 13 - Consensus in Cloud Computing and Paxos
Link NOC:Cloud Computing and Distributed Systems Lecture 14 - Byzantine Agreement
Link NOC:Cloud Computing and Distributed Systems Lecture 15 - Failures and Recovery Approaches in Distributed Systems
Link NOC:Cloud Computing and Distributed Systems Lecture 16 - Design of Key-Value Stores
Link NOC:Cloud Computing and Distributed Systems Lecture 17 - Design of HBase
Link NOC:Cloud Computing and Distributed Systems Lecture 18 - Peer to Peer Systems in Cloud Computing
Link NOC:Cloud Computing and Distributed Systems Lecture 19 - MapReduce
Link NOC:Cloud Computing and Distributed Systems Lecture 20 - Introduction to Spark
Link NOC:Cloud Computing and Distributed Systems Lecture 21 - Introduction to Kafka
Link NOC:Big Data Computing Lecture 1 - Introduction to Big Data
Link NOC:Big Data Computing Lecture 2 - Big Data Enabling Technologies
Link NOC:Big Data Computing Lecture 3 - Hadoop Stack for Big Data
Link NOC:Big Data Computing Lecture 4 - Hadoop Distributed File System (HDFS)
Link NOC:Big Data Computing Lecture 5 - Hadoop MapReduce 1.0
Link NOC:Big Data Computing Lecture 6 - Hadoop MapReduce 2.0 - Part I
Link NOC:Big Data Computing Lecture 7 - Hadoop MapReduce 2.0 - Part II
Link NOC:Big Data Computing Lecture 8 - MapReduce Examples
Link NOC:Big Data Computing Lecture 9 - Parallel Programming with Spark
Link NOC:Big Data Computing Lecture 10 - Introduction to Spark
Link NOC:Big Data Computing Lecture 11 - Spark Built-in Libraries
Link NOC:Big Data Computing Lecture 12 - Design of Key-Value Stores
Link NOC:Big Data Computing Lecture 13 - Data Placement Strategies
Link NOC:Big Data Computing Lecture 14 - CAP Theorem
Link NOC:Big Data Computing Lecture 15 - Consistency Solutions
Link NOC:Big Data Computing Lecture 16 - Design of Zookeeper
Link NOC:Big Data Computing Lecture 17 - CQL (Cassandra Query Language)
Link NOC:Big Data Computing Lecture 18 - Design of HBase
Link NOC:Big Data Computing Lecture 19 - Spark Streaming and Sliding Window Analytics - Part I
Link NOC:Big Data Computing Lecture 20 - Spark Streaming and Sliding Window Analytics - Part II
Link NOC:Big Data Computing Lecture 21 - Sliding Window Analytics
Link NOC:Big Data Computing Lecture 22 - Introduction to Kafka
Link NOC:Big Data Computing Lecture 23 - Big Data Machine Learning - Part I
Link NOC:Big Data Computing Lecture 24 - Big Data Machine Learning - Part II
Link NOC:Big Data Computing Lecture 25 - Machine Learning Algorithm K-means using Map Reduce for Big Data Analytics
Link NOC:Big Data Computing Lecture 26 - Parallel K-means using Map Reduce on Big Data Cluster Analysis
Link NOC:Big Data Computing Lecture 27 - Decision Trees for Big Data Analytics
Link NOC:Big Data Computing Lecture 28 - Big Data Predictive Analytics - Part I
Link NOC:Big Data Computing Lecture 29 - Big Data Predictive Analytics - Part II
Link NOC:Big Data Computing Lecture 30 - Parameter Servers
Link NOC:Big Data Computing Lecture 31 - PageRank Algorithm in Big Data
Link NOC:Big Data Computing Lecture 32 - Spark GraphX and Graph Analytics - Part I
Link NOC:Big Data Computing Lecture 33 - Spark GraphX and Graph Analytics - Part II
Link NOC:Big Data Computing Lecture 34 - Case Study: Flight Data Analysis using Spark GraphX
Link Cryptography and Network Security Lecture 1 - Introduction
Link Cryptography and Network Security Lecture 2 - Overview on Modern Cryptography
Link Cryptography and Network Security Lecture 3 - Introduction to Number Theory
Link Cryptography and Network Security Lecture 4 - Probability and Information Theory
Link Cryptography and Network Security Lecture 5 - Classical Cryptosystems
Link Cryptography and Network Security Lecture 6 - Cryptanalysis of Classical Ciphers
Link Cryptography and Network Security Lecture 7 - Shannons Theory
Link Cryptography and Network Security Lecture 8 - Shannons Theory (Continued...1)
Link Cryptography and Network Security Lecture 9 - Shannons Theory (Continued...2)
Link Cryptography and Network Security Lecture 10 - Symmetric Key Ciphers
Link Cryptography and Network Security Lecture 11 - Block Cipher Standards (DES)
Link Cryptography and Network Security Lecture 12 - Block Cipher Standards (AES)
Link Cryptography and Network Security Lecture 13 - Block Cipher Standards (AES) (Continued...)
Link Cryptography and Network Security Lecture 14 - Linear Cryptanalysis
Link Cryptography and Network Security Lecture 15 - Differential Cryptanalysis
Link Cryptography and Network Security Lecture 16 - Few other Cryptanalytic Techniques
Link Cryptography and Network Security Lecture 17 - Overview on S-Box Design Principles
Link Cryptography and Network Security Lecture 18 - Modes of Operation of Block Ciphers
Link Cryptography and Network Security Lecture 19 - Stream Ciphers
Link Cryptography and Network Security Lecture 20 - Stream Ciphers (Continued...1)
Link Cryptography and Network Security Lecture 21 - Stream Ciphers (Continued...2)
Link Cryptography and Network Security Lecture 22 - Pseudorandomness
Link Cryptography and Network Security Lecture 23 - Cryptographic Hash Functions
Link Cryptography and Network Security Lecture 24 - Cryptographic Hash Functions (Continued...1)
Link Cryptography and Network Security Lecture 25 - Cryptographic Hash Functions (Continued...2)
Link Cryptography and Network Security Lecture 26 - Message Authentication Codes
Link Cryptography and Network Security Lecture 27 - More Number Theoretic Results
Link Cryptography and Network Security Lecture 28 - The RSA Cryptosystem
Link Cryptography and Network Security Lecture 29 - Primality Testing
Link Cryptography and Network Security Lecture 30 - Factoring Algorithms
Link Cryptography and Network Security Lecture 31 - Some Comments on the Security of RSA
Link Cryptography and Network Security Lecture 32 - Discrete Logarithm Problem (DLP)
Link Cryptography and Network Security Lecture 33 - The Diffie-Hellman Problem and Security of ElGamal Systems
Link Cryptography and Network Security Lecture 34 - An Introduction to Elliptic Curve Cryptography
Link Cryptography and Network Security Lecture 35 - Application of Elliptic Curves to Cryptography
Link Cryptography and Network Security Lecture 36 - Implementation of Elliptic Curve Cryptography
Link Cryptography and Network Security Lecture 37 - Secret Sharing Schemes
Link Cryptography and Network Security Lecture 38 - A Tutorial on Network Protocols
Link Cryptography and Network Security Lecture 39 - System Security
Link Cryptography and Network Security Lecture 40 - Firewalls and Intrusion Detection Systems
Link Cryptography and Network Security Lecture 41 - Side Channel Analysis of Cryptographic Implementations
Link High Performance Computer Architecture Lecture 1 - Introduction & Course Outline
Link High Performance Computer Architecture Lecture 2 - Performance
Link High Performance Computer Architecture Lecture 3 - Instruction Set Architecture
Link High Performance Computer Architecture Lecture 4 - MIPS ISA and Processor
Link High Performance Computer Architecture Lecture 5 - MIPS ISA and Processor (Continued...)
Link High Performance Computer Architecture Lecture 6 - Pipelining - Introduction
Link High Performance Computer Architecture Lecture 7 - Instruction Pipelining
Link High Performance Computer Architecture Lecture 8 - Pipeline Hazards
Link High Performance Computer Architecture Lecture 9 - Data Hazards
Link High Performance Computer Architecture Lecture 10 - Software Pipelining
Link High Performance Computer Architecture Lecture 11 - In Quest of Higher ILP
Link High Performance Computer Architecture Lecture 12 - In Quest of Higher ILP (Continued...)
Link High Performance Computer Architecture Lecture 13 - Dynamic Instruction Scheduling
Link High Performance Computer Architecture Lecture 14 - Dynamic Instruction Scheduling (Continued...)
Link High Performance Computer Architecture Lecture 15 - Control Hazards
Link High Performance Computer Architecture Lecture 16 - Branch Prediction
Link High Performance Computer Architecture Lecture 17 - Branch Prediction (Continued...)
Link High Performance Computer Architecture Lecture 18 - Dynamic Instruction Scheduling with Branch Prediction
Link High Performance Computer Architecture Lecture 19 - Hardware-based Speculation
Link High Performance Computer Architecture Lecture 20 - Tutorial - I
Link High Performance Computer Architecture Lecture 21 - Hierarchical Memory Organization
Link High Performance Computer Architecture Lecture 22 - Hierarchical Memory Organization (Continued...1)
Link High Performance Computer Architecture Lecture 23 - Hierarchical Memory Organization (Continued...2)
Link High Performance Computer Architecture Lecture 24 - Hierarchical Memory Organization (Continued...3)
Link High Performance Computer Architecture Lecture 25 - Cache Optimization Techniques (Continued...1)
Link High Performance Computer Architecture Lecture 26 - Cache Optimization Techniques (Continued...2)
Link High Performance Computer Architecture Lecture 27 - Main Memory Organization
Link High Performance Computer Architecture Lecture 28 - Main Memory Optimizations
Link High Performance Computer Architecture Lecture 29 - Virtual Memory
Link High Performance Computer Architecture Lecture 30 - Virtual Memory (Continued...)
Link High Performance Computer Architecture Lecture 31 - Virtual Machines
Link High Performance Computer Architecture Lecture 32 - Storage Technology
Link High Performance Computer Architecture Lecture 33 - Storage Technology (Continued...)
Link High Performance Computer Architecture Lecture 34 - Case Studies
Link High Performance Computer Architecture Lecture 35 - Case Studies (Continued...1)
Link High Performance Computer Architecture Lecture 36 - Case Studies (Continued...2)
Link High Performance Computer Architecture Lecture 37 - Multithreading & Multiprocessing
Link High Performance Computer Architecture Lecture 38 - Simultaneous Multithreading
Link High Performance Computer Architecture Lecture 39 - Symmetric Multiprocessors
Link High Performance Computer Architecture Lecture 40 - Distributed Memory Multiprocessors
Link High Performance Computer Architecture Lecture 41 - Cluster, Grid and Cloud Computing
Link Low Power VLSI Circuits and Systems Lecture 1 - Introduction & Course Outline
Link Low Power VLSI Circuits and Systems Lecture 2 - MOS Transistors - I
Link Low Power VLSI Circuits and Systems Lecture 3 - MOS Transistors - II
Link Low Power VLSI Circuits and Systems Lecture 4 - MOS Transistors - III
Link Low Power VLSI Circuits and Systems Lecture 5 - MOS Transistors - IV
Link Low Power VLSI Circuits and Systems Lecture 6 - MOS Inverters - I
Link Low Power VLSI Circuits and Systems Lecture 7 - MOS Inverters - II
Link Low Power VLSI Circuits and Systems Lecture 8 - MOS Inverters - III
Link Low Power VLSI Circuits and Systems Lecture 9 - MOS Inverters - IV
Link Low Power VLSI Circuits and Systems Lecture 10 - Static CMOS Circuits - I
Link Low Power VLSI Circuits and Systems Lecture 11 - Static CMOS Circuits - II
Link Low Power VLSI Circuits and Systems Lecture 12 - MOS Dynamic Circuits - I
Link Low Power VLSI Circuits and Systems Lecture 13 - MOS Dynamic Circuits - II
Link Low Power VLSI Circuits and Systems Lecture 14 - Pass Transistor Logic Circuits - I
Link Low Power VLSI Circuits and Systems Lecture 15 - Pass Transistor Logic Circuits - II
Link Low Power VLSI Circuits and Systems Lecture 16 - MOS Memories
Link Low Power VLSI Circuits and Systems Lecture 17 - Finite State Machines
Link Low Power VLSI Circuits and Systems Lecture 18 - Switching Power Dissipation
Link Low Power VLSI Circuits and Systems Lecture 19 - Tutorial - I
Link Low Power VLSI Circuits and Systems Lecture 20 - Dynamic Power Dissipation
Link Low Power VLSI Circuits and Systems Lecture 21 - Leakage Power Dissipation
Link Low Power VLSI Circuits and Systems Lecture 22 - Supply Voltage Scaling - I
Link Low Power VLSI Circuits and Systems Lecture 23 - Supply Voltage Scaling - II
Link Low Power VLSI Circuits and Systems Lecture 24 - Supply Voltage Scaling - III
Link Low Power VLSI Circuits and Systems Lecture 25 - Supply Voltage Scaling - IV
Link Low Power VLSI Circuits and Systems Lecture 26 - Tutorial - II
Link Low Power VLSI Circuits and Systems Lecture 27 - Minimizing Switched Capacitance - I
Link Low Power VLSI Circuits and Systems Lecture 28 - Minimizing Switched Capacitance - II
Link Low Power VLSI Circuits and Systems Lecture 29 - Minimizing Switched Capacitance - III
Link Low Power VLSI Circuits and Systems Lecture 30 - Minimizing Switched Capacitance - IV
Link Low Power VLSI Circuits and Systems Lecture 31 - Minimizing Switched Capacitance - V
Link Low Power VLSI Circuits and Systems Lecture 32 - Minimizing Leakage Power - I
Link Low Power VLSI Circuits and Systems Lecture 33 - Minimizing Leakage Power - II
Link Low Power VLSI Circuits and Systems Lecture 34 - Minimizing Leakage Power - III
Link Low Power VLSI Circuits and Systems Lecture 35 - Variation Tolerant Design
Link Low Power VLSI Circuits and Systems Lecture 36 - Adiabatic Logic Circuits
Link Low Power VLSI Circuits and Systems Lecture 37 - Battery-Driven System Design
Link Low Power VLSI Circuits and Systems Lecture 38 - CAD Tools for Low Power
Link Low Power VLSI Circuits and Systems Lecture 39 - Tutorial - III
Link Low Power VLSI Circuits and Systems Lecture 40 - Course Summary
Link Real Time Systems Lecture 1 - Introduction
Link Real Time Systems Lecture 2 - Real - Time System Characteristics
Link Real Time Systems Lecture 3 - Few Basic Issues
Link Real Time Systems Lecture 4 - Modelling Timing Constraints
Link Real Time Systems Lecture 5 - Modelling Timing Constraints (Continued.)
Link Real Time Systems Lecture 6 - Basics of Real - Time Task Scheduling
Link Real Time Systems Lecture 7 - Cyclic Scheduler
Link Real Time Systems Lecture 8 - Event - Driven Scheduling
Link Real Time Systems Lecture 9 - Rate Monotonic Scheduler
Link Real Time Systems Lecture 10 - RMA Scheduling : Further Issues
Link Real Time Systems Lecture 11 - Deadline Monotonic Scheduling and Other Issues
Link Real Time Systems Lecture 12 - Few Issues in Use of RMA
Link Real Time Systems Lecture 13 - Resource Sharing Among Real-Time Tasks
Link Real Time Systems Lecture 14 - Highest Locker and Priority Ceiling Protocols
Link Real Time Systems Lecture 15 - An Analysis of Priority Ceiling Protocol
Link Real Time Systems Lecture 16 - Handling Task Dependencies
Link Real Time Systems Lecture 17 - Real-Time Task Scheduling on Multiprocessors and Distributed Systems
Link Real Time Systems Lecture 18 - Real-Time Task Scheduling on Multiprocessors and Distributed Systems (Continued.)
Link Real Time Systems Lecture 19 - Clock Synchronization in Distributed Real-Time Systems
Link Real Time Systems Lecture 20 - Internal Clock Synchronization in Presence of Byzantine Clocks
Link Real Time Systems Lecture 21 - A Few Basic Issues in Real-Time Operating Systems
Link Real Time Systems Lecture 22 - Tutorial - I
Link Real Time Systems Lecture 23 - A Few Basic Issues in Real-Time Operating Systems (Continued.)
Link Real Time Systems Lecture 24 - Unix and Windows as RTOS
Link Real Time Systems Lecture 25 - Real - Time POSIX
Link Real Time Systems Lecture 26 - Real - Time POSIX (Continued.)
Link Real Time Systems Lecture 27 - Open Source and Commercial RTOS
Link Real Time Systems Lecture 28 - Open Source and Commercial RTOS (Continued.)
Link Real Time Systems Lecture 29 - Benchmarking Real - Time Computer & Operating Systems
Link Real Time Systems Lecture 30 - Benchmarking Real - Time Computer & Operating Systems (Continued.)
Link Real Time Systems Lecture 31 - Real - Time Communications
Link Real Time Systems Lecture 32 - Few Basic Issues in Real - Time Communications
Link Real Time Systems Lecture 33 - Review of Computer Networking
Link Real Time Systems Lecture 34 - Real - Time Communication in a LAN
Link Real Time Systems Lecture 35 - Real - Time Communication in a LAN (Continued.)
Link Real Time Systems Lecture 36 - Performance of Two Real -Time Communication Protocols
Link Real Time Systems Lecture 37 - Real - Time Communication over Packet Switched Networks
Link Real Time Systems Lecture 38 - Real - Time Communication over Packet Switched Networks (Continued.)
Link Real Time Systems Lecture 39 - Real - Time Communication over Packet Switched Networks (Continued.)
Link Real Time Systems Lecture 40 - Real - Time Databases
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 1 - Introduction to Artificial Intelligence
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 2 - Intelligent Agents
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 3 - State Space Search
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 4 - Uninformed Search
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 5 - Informed Search
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 6 - Informed Search - 2
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 7 - Two Players Games - I
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 8 - Two Players Games - II
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 9 - Constraint Satisfaction Problems - 1
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 10 - Constraint Satisfaction Problems - 2
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 11 - Knowledge Representation and Logic
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 12 - Interface in Propositional Logic
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 13 - First Order Logic
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 14 - Reasoning Using First Order Logic
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 15 - Resolution in FOPL
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 16 - Rule Based System
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 17 - Rule Based Systems II
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 18 - Semantic Net
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 19 - Reasoning in Semantic Net
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 20 - Frames
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 21 - Planning - 1
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 22 - Planning - 2
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 23 - Planning - 3
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 24 - Planning - 4
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 25 - Rule Based Expert System
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 26 - Reasoning with Uncertainty - I
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 27 - Reasoning with Uncertainty - II
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 28 - Reasoning with Uncertainty - III
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 29 - Reasoning with Uncertainty - IV
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 30 - Fuzzy Reasoning - I
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 31 - Fuzzy Reasoning - II
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 32 - Introduction to Learning - I
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 33 - Introduction to Learning - II
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 34 - Rule Induction and Decision Trees - I
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 35 - Rule Induction and Decision Trees - II
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 36 - Learning Using neural Networks - I
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 37 - Learning Using Neural Networks - II
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 38 - Probabilistic Learning
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 39 - Natural Language Processing - I
Link Artificial Intelligence (Prof. Anupam Basu) Lecture 40 - Natural Language Processing - II
Link Artificial Intelligence (Prof. P. Dasgupta) Lecture 1 - Introduction to Artificial Intelligence
Link Artificial Intelligence (Prof. P. Dasgupta) Lecture 2 - Problem Solving by Search
Link Artificial Intelligence (Prof. P. Dasgupta) Lecture 3 - Searching with Costs
Link Artificial Intelligence (Prof. P. Dasgupta) Lecture 4 - Informed State Space Search
Link Artificial Intelligence (Prof. P. Dasgupta) Lecture 5 - Heuristic Search: A* and Beyond
Link Artificial Intelligence (Prof. P. Dasgupta) Lecture 6 - Problem Reduction Search: AND/OR Graphs
Link Artificial Intelligence (Prof. P. Dasgupta) Lecture 7 - Searching Game Trees
Link Artificial Intelligence (Prof. P. Dasgupta) Lecture 8 - Knowledge Based Systems: Logic and Deduction
Link Artificial Intelligence (Prof. P. Dasgupta) Lecture 9 - First Order Logic
Link Artificial Intelligence (Prof. P. Dasgupta) Lecture 10 - Inference in First Order Logic
Link Artificial Intelligence (Prof. P. Dasgupta) Lecture 11 - Resolution - Refutation Proofs
Link Artificial Intelligence (Prof. P. Dasgupta) Lecture 12 - Resolution Refutation Proofs
Link Artificial Intelligence (Prof. P. Dasgupta) Lecture 13 - Logic Programming : Prolog
Link Artificial Intelligence (Prof. P. Dasgupta) Lecture 14 - Prolog Programming
Link Artificial Intelligence (Prof. P. Dasgupta) Lecture 15 - Prolog: Exercising Control
Link Artificial Intelligence (Prof. P. Dasgupta) Lecture 16 - Additional Topics
Link Artificial Intelligence (Prof. P. Dasgupta) Lecture 17 - Introduction to Planning
Link Artificial Intelligence (Prof. P. Dasgupta) Lecture 18 - Partial Order Planning
Link Artificial Intelligence (Prof. P. Dasgupta) Lecture 19 - GraphPLAN and SATPlan
Link Artificial Intelligence (Prof. P. Dasgupta) Lecture 20 - SATPlan
Link Artificial Intelligence (Prof. P. Dasgupta) Lecture 21 - Reasoning under uncertainty
Link Artificial Intelligence (Prof. P. Dasgupta) Lecture 22 - Bayesian Networks
Link Artificial Intelligence (Prof. P. Dasgupta) Lecture 23 - Reasoning with Bayes Networks
Link Artificial Intelligence (Prof. P. Dasgupta) Lecture 24 - Reasoning with Bayes networks (Contd.)
Link Artificial Intelligence (Prof. P. Dasgupta) Lecture 25 - Reasoning under uncertainty: Issues
Link Artificial Intelligence (Prof. P. Dasgupta) Lecture 26 - Learning : Decision Trees
Link Artificial Intelligence (Prof. P. Dasgupta) Lecture 27 - Learning : Neural Networks
Link Artificial Intelligence (Prof. P. Dasgupta) Lecture 28 - Back Propagation Learning
Link Computer Networks Lecture 1 - Emergence of Networks & Reference Models
Link Computer Networks Lecture 2 - Network Topology
Link Computer Networks Lecture 3 - Physical Medium - I
Link Computer Networks Lecture 4 - Physical Medium - II
Link Computer Networks Lecture 5 - Multiplexing (Sharing a Medium)
Link Computer Networks Lecture 6 - Telecom Networks
Link Computer Networks Lecture 7 - Switches - I
Link Computer Networks Lecture 8 - Pocket Switches
Link Computer Networks Lecture 9 - SONET/SDH
Link Computer Networks Lecture 10 - Fiber Optic Components
Link Computer Networks Lecture 11 - Routing and Wavelength Assignment
Link Computer Networks Lecture 12 - Protection and Restoration
Link Computer Networks Lecture 13 - Multiple Access
Link Computer Networks Lecture 14 - Token Based Mac
Link Computer Networks Lecture 15 - Data Link Protocols
Link Computer Networks Lecture 16 - Error Control
Link Computer Networks Lecture 17 - Stop & Wait Protocol
Link Computer Networks Lecture 18 - Satellite Communication
Link Computer Networks Lecture 19 - Ethernet - CSMA/CD
Link Computer Networks Lecture 20 - Modern Ethernet
Link Computer Networks Lecture 21 - Local Internetworking
Link Computer Networks Lecture 22 - Cellular Networks
Link Computer Networks Lecture 23 - Wireless Network
Link Computer Networks Lecture 24 - ATM : Asynchronous Transfer Mode
Link Computer Networks Lecture 25 - ATM Signaling, Routing and LAN Emulation
Link Computer Networks Lecture 26 - Introduction to Routing
Link Computer Networks Lecture 27 - RIP - Distance Vector Routing
Link Computer Networks Lecture 28 - IP version 4
Link Computer Networks Lecture 29 - IP Version 6 & Mobile IP
Link Computer Networks Lecture 30 - UDP & Client Server
Link Computer Networks Lecture 31 - TCP
Link Computer Networks Lecture 32 - IP Multicasting
Link Computer Networks Lecture 33 - DHCP and ICMP
Link Computer Networks Lecture 34 - DNS & Directory
Link Computer Networks Lecture 35 - Congestion Control
Link Computer Networks Lecture 36 - QOS & Multimedia
Link Computer Networks Lecture 37 - Network Management
Link Computer Networks Lecture 38 - Security
Link Computer Networks Lecture 39 - FTP - SMTP
Link Computer Networks Lecture 40 - HTTP
Link Data Communication Lecture 1 - Introduction and Course Outline - Data Communication
Link Data Communication Lecture 2 - Layered Architecture
Link Data Communication Lecture 3 - Data and Signal
Link Data Communication Lecture 4 - Transmission Impairments and Channel Capacity
Link Data Communication Lecture 5 - Guided Transmission Media
Link Data Communication Lecture 6 - Unguided Media
Link Data Communication Lecture 7 - Transmission of Digital Signal - I
Link Data Communication Lecture 8 - Transmission of Digital Signal - II
Link Data Communication Lecture 9 - Transmission of Analog Signal - I
Link Data Communication Lecture 10 - Transmission of Analog Signal - II
Link Data Communication Lecture 11 - Multiplexing
Link Data Communication Lecture 12 - Multiplexing
Link Data Communication Lecture 13 - Multiplexing Applications - I
Link Data Communication Lecture 14 - Multiplexing Applications - II
Link Data Communication Lecture 15 - Interfacing to the Media
Link Data Communication Lecture 16 - Error Detection and Correction
Link Data Communication Lecture 17 - Flow and Error Control
Link Data Communication Lecture 18 - Data Link Control
Link Data Communication Lecture 19 - Switching Techniques Circuit Switching
Link Data Communication Lecture 20 - Switching Techniques Packet Switching
Link Data Communication Lecture 21 - Routing - I
Link Data Communication Lecture 22 - Routing - II
Link Data Communication Lecture 23 - Congestion Control
Link Data Communication Lecture 24 - X.25 and Frame Relay
Link Data Communication Lecture 25 - ATM
Link Data Communication Lecture 26 - Medium Access Control - I
Link Data Communication Lecture 27 - Medium Access Control - II
Link Data Communication Lecture 28 - Medium Access Control - III
Link Data Communication Lecture 29 - IEEE 802 LANs
Link Data Communication Lecture 30 - High Speed LANs
Link Data Communication Lecture 31 - Wireless LANs
Link Data Communication Lecture 32 - Cellular Telephone Systems
Link Data Communication Lecture 33 - Satellite Communications
Link Data Communication Lecture 34 - Internet and Internetworking
Link Data Communication Lecture 35 - TCP/IP - I
Link Data Communication Lecture 36 - TCP/IP - II
Link Data Communication Lecture 37 - Multimedia Networks
Link Data Communication Lecture 38 - Audio and Video Compression
Link Data Communication Lecture 39 - Multimedia Services
Link Data Communication Lecture 40 - Secured Communication - I
Link Data Communication Lecture 41 - Secured Communication - II
Link Electronic Design Automation Lecture 1 - Introduction
Link Electronic Design Automation Lecture 2 - Verilog : Part - I
Link Electronic Design Automation Lecture 3 - Verilog : Part - II
Link Electronic Design Automation Lecture 4 - Verilog : Part - III
Link Electronic Design Automation Lecture 5 - Verilog : Part - IV
Link Electronic Design Automation Lecture 6 - Verilog : Part - V
Link Electronic Design Automation Lecture 7 - Verilog : Part - VI
Link Electronic Design Automation Lecture 8 - Synthesis : Part - I
Link Electronic Design Automation Lecture 9 - Synthesis : Part - II
Link Electronic Design Automation Lecture 10 - Synthesis : Part - III
Link Electronic Design Automation Lecture 11 - Synthesis : Part - IV
Link Electronic Design Automation Lecture 12 - Synthesis : Part - V
Link Electronic Design Automation Lecture 13 - Synthesis : Part - VI
Link Electronic Design Automation Lecture 14 - Synthesis : Part - VII
Link Electronic Design Automation Lecture 15 - Backend Design : Part - I
Link Electronic Design Automation Lecture 16 - Backend Design : Part - II
Link Electronic Design Automation Lecture 17 - Backend Design : Part - III
Link Electronic Design Automation Lecture 18 - Backend Design : Part - IV
Link Electronic Design Automation Lecture 19 - Backend Design : Part - V
Link Electronic Design Automation Lecture 20 - Backend Design : Part - VI
Link Electronic Design Automation Lecture 21 - Backend Design : Part - VII
Link Electronic Design Automation Lecture 22 - Backend Design : Part - VIII
Link Electronic Design Automation Lecture 23 - Backend Design : Part - IX
Link Electronic Design Automation Lecture 24 - Backend Design : Part - X
Link Electronic Design Automation Lecture 25 - Backend Design : Part - XI
Link Electronic Design Automation Lecture 26 - Backend Design : Part - XII
Link Electronic Design Automation Lecture 27 - Backend Design : Part - XIII
Link Electronic Design Automation Lecture 28 - Backend Design : Part - XIV
Link Electronic Design Automation Lecture 29 - Backend Design : Part - XV
Link Electronic Design Automation Lecture 30 - Testing Part - I
Link Electronic Design Automation Lecture 31 - Testing Part - II
Link Electronic Design Automation Lecture 32 - Testing Part - III
Link Electronic Design Automation Lecture 33 - Testing Part - IV
Link Electronic Design Automation Lecture 34 - Testing Part - V
Link Electronic Design Automation Lecture 35 - Testing Part - VI
Link Internet Technology Lecture 1 - Introduction To Internet
Link Internet Technology Lecture 2 - Review Of Network Technologies
Link Internet Technology Lecture 3 - TCP/IP - Part-I
Link Internet Technology Lecture 4 - TCP/IP - Part-II
Link Internet Technology Lecture 5 - TCP/IP - Part-III
Link Internet Technology Lecture 6 - IP Subnetting and Addressing
Link Internet Technology Lecture 7 - Internet Routing Protocol - Part-I
Link Internet Technology Lecture 8 - Internet Routing Protocol - Part-II
Link Internet Technology Lecture 9 - Client Server Concepts DNS, Telnet, FTP
Link Internet Technology Lecture 10 - Electronic Mail
Link Internet Technology Lecture 11 - World Wide Web - Part-I
Link Internet Technology Lecture 12 - World Wide Web - Part-II
Link Internet Technology Lecture 13 - HTML : Part-I
Link Internet Technology Lecture 14 - HTML : Part-II
Link Internet Technology Lecture 15 - HTML : Part-III
Link Internet Technology Lecture 16 - Extensible Markup Language (XML)
Link Internet Technology Lecture 17 - HTML Forms
Link Internet Technology Lecture 18 - Image Maps
Link Internet Technology Lecture 19 - CGI Scripts
Link Internet Technology Lecture 20 - Other Technologies
Link Internet Technology Lecture 21 - PERL - Part-I
Link Internet Technology Lecture 22 - PERL - Part II
Link Internet Technology Lecture 23 - PERL - Part III
Link Internet Technology Lecture 24 - PERL - Part IV
Link Internet Technology Lecture 25 - Javascript : Part-I
Link Internet Technology Lecture 26 - Javascript Examples (Continued)
Link Internet Technology Lecture 27 - Using Cookies
Link Internet Technology Lecture 28 - Java Applets : Part-I
Link Internet Technology Lecture 29 - Java Applets : Part-II
Link Internet Technology Lecture 30 - Client-Server Programming In Java
Link Internet Technology Lecture 31 - Intranet, Extranet, Firewall
Link Internet Technology Lecture 32 - Basic Cryptographic Concepts Part - I
Link Internet Technology Lecture 33 - Basic Cryptographic Concepts Part - II
Link Internet Technology Lecture 34 - Basic Cryptographic Concepts Part - III
Link Internet Technology Lecture 35 - Electronic Commerce
Link Internet Technology Lecture 36 - Streaming Multimedia Applications
Link Internet Technology Lecture 37 - Internet Telephony
Link Internet Technology Lecture 38 - Search Engine And Web Crawlers : Part-I
Link Internet Technology Lecture 39 - Search Engine And Web Crawlers : Part-II
Link Internet Technology Lecture 40 - Course Summary And Conclusion
Link Programming and Data Structure Lecture 1 - Introduction
Link Programming and Data Structure Lecture 2 - C Programming - I
Link Programming and Data Structure Lecture 3 - C Programming - II
Link Programming and Data Structure Lecture 4 - C Programming - III
Link Programming and Data Structure Lecture 5 - Data Structuring : Case Study - I
Link Programming and Data Structure Lecture 6 - Data Structuring : Case Study - II
Link Programming and Data Structure Lecture 7 - Data Structuring : Case Study - III
Link Programming and Data Structure Lecture 8 - Problem Decomposition By Recursion - I
Link Programming and Data Structure Lecture 9 - Problem Decomposition By Recursion - II
Link Programming and Data Structure Lecture 10 - Problem Decomposition By Recursion - III
Link Programming and Data Structure Lecture 11 - Merge sort And Quick sort
Link Programming and Data Structure Lecture 12 - Characters And Strings
Link Programming and Data Structure Lecture 13 - Arrays: Addresses And Contents
Link Programming and Data Structure Lecture 14 - Structures - I
Link Programming and Data Structure Lecture 15 - Structures - II
Link Programming and Data Structure Lecture 16 - Dynamic Allocation Part - I
Link Programming and Data Structure Lecture 17 - Linked Lists - I
Link Programming and Data Structure Lecture 18 - Complexity (Efficiency) of Algorithms
Link Programming and Data Structure Lecture 19 - Asymptotic Growth Functions
Link Programming and Data Structure Lecture 20 - Asymptotic Analysis of Algorithms
Link Programming and Data Structure Lecture 21 - Data Structuring
Link Programming and Data Structure Lecture 22 - Search Trees
Link Programming and Data Structure Lecture 23 - Search Trees - II
Link Programming and Data Structure Lecture 24 - Search Trees - III
Link Programming and Data Structure Lecture 25 - 2-3 Trees
Link Programming and Data Structure Lecture 26 - Algorithm Design - I
Link Programming and Data Structure Lecture 27 - Algorithm Design - II
Link Programming and Data Structure Lecture 28 - Algorithm Design - III
Link Programming and Data Structure Lecture 29 - Graphs - I
Link Programming and Data Structure Lecture 30 - Graphs - II
Link Programming and Data Structure Lecture 31 - Graphs - III
Link Programming and Data Structure Lecture 32 - Conclusions
Link NOC:Software Testing Lecture 1 - Introduction
Link NOC:Software Testing Lecture 2 - Levels of Testing
Link NOC:Software Testing Lecture 3 - Basic Concepts in Testing
Link NOC:Software Testing Lecture 4 - Basic Concepts in Testing (Continued...)
Link NOC:Software Testing Lecture 5 - Unit Testing
Link NOC:Software Testing Lecture 6 - Equivalence and BV Testing
Link NOC:Software Testing Lecture 7 - Special Value Testing
Link NOC:Software Testing Lecture 8 - Combinatorial Testing
Link NOC:Software Testing Lecture 9 - Pairwise Testing
Link NOC:Software Testing Lecture 10 - White Box Testing
Link NOC:Software Testing Lecture 11 - MC/DC Testing
Link NOC:Software Testing Lecture 12 - MC/DC Testing (Continued...)
Link NOC:Software Testing Lecture 13 - Path Testing
Link NOC:Software Testing Lecture 14 - Dataflow and Mutation Testing
Link NOC:Software Testing Lecture 15 - Mutation Testing
Link NOC:Software Testing Lecture 16 - Integration Testing
Link NOC:Software Testing Lecture 17 - System Testing
Link NOC:Software Testing Lecture 18 - Regression Testing
Link NOC:Software Testing Lecture 19 - Testing Object-Oriented Program - Part 1
Link NOC:Software Testing Lecture 20 - Testing Object-Oriented Program - Part 2
Link NOC:Programming in C++ Lecture 1 - Module 1 : Recap of C
Link NOC:Programming in C++ Lecture 2 - Module 1 : Recap of C
Link NOC:Programming in C++ Lecture 3 - Module 1 : Recap of C
Link NOC:Programming in C++ Lecture 4 - Module 2 : Programs with IO and Loop
Link NOC:Programming in C++ Lecture 5 - Module 3 : Arrays and Strings
Link NOC:Programming in C++ Lecture 6 - Module 4 : Sorting and Searching
Link NOC:Programming in C++ Lecture 7 - Module 5 : Stack and its Applications
Link NOC:Programming in C++ Lecture 8 - Module 6 : Constants and Inline Functions
Link NOC:Programming in C++ Lecture 9 - Module 6 : Constants and Inline Functions (Continued...)
Link NOC:Programming in C++ Lecture 10 - Module 7 : Reference and Pointer
Link NOC:Programming in C++ Lecture 11 - Module 7 : Reference and Pointer (Continued...)
Link NOC:Programming in C++ Lecture 12 - Module 8 : Default Parameters and Function Overloading
Link NOC:Programming in C++ Lecture 13 - Module 8 : Default Parameters and Function Overloading (Continued...)
Link NOC:Programming in C++ Lecture 14 - Module 8 : Default Parameters and Function Overloading (Continued...)
Link NOC:Programming in C++ Lecture 15 - Module 9 : Operator Overloading
Link NOC:Programming in C++ Lecture 16 - Module 9 : Operator Overloading (Continued...)
Link NOC:Programming in C++ Lecture 17 - Module 10 : Dynamic Memory Management
Link NOC:Programming in C++ Lecture 18 - Module 10 : Dynamic Memory Management (Continued...)
Link NOC:Programming in C++ Lecture 19 - Module 11 : Classes and Objects
Link NOC:Programming in C++ Lecture 20 - Module 11 : Classes and Objects (Continued...)
Link NOC:Programming in C++ Lecture 21 - Module 12 : Access Specifiers
Link NOC:Programming in C++ Lecture 22 - Module 12 : Access Specifiers (Continued...)
Link NOC:Programming in C++ Lecture 23 - Module 13 : Constructors, Destructors and Object Lifetime
Link NOC:Programming in C++ Lecture 24 - Module 13 : Constructors, Destructors and Object Lifetime (Continued...)
Link NOC:Programming in C++ Lecture 25 - Module 13 : Constructors, Destructors and Object Lifetime (Continued...)
Link NOC:Programming in C++ Lecture 26 - Module 14 : Copy Constructor and Copy Assignment Operator
Link NOC:Programming in C++ Lecture 27 - Module 14 : Copy Constructor and Copy Assignment Operator (Continued...)
Link NOC:Programming in C++ Lecture 28 - Module 14 : Copy Constructor and Copy Assignment Operator (Continued...)
Link NOC:Programming in C++ Lecture 29 - Module 15 : Const-ness
Link NOC:Programming in C++ Lecture 30 - Module 15 : Const-ness (Continued...)
Link NOC:Programming in C++ Lecture 31 - Module 16 : Static Members
Link NOC:Programming in C++ Lecture 32 - Module 17 : friend Function and friend Class
Link NOC:Programming in C++ Lecture 33 - Module 18 : Overloading Operator for User Defined Types - Part I
Link NOC:Programming in C++ Lecture 34 - Module 19 : Overloading Operator for User Defined Types - Part II
Link NOC:Programming in C++ Lecture 35 - Module 20 : Namespace
Link NOC:Programming in C++ Lecture 36 - Module 21 : Inheirtnace - Part I
Link NOC:Programming in C++ Lecture 37 - Module 22 : Inheritance - Part II
Link NOC:Programming in C++ Lecture 38 - Module 23 : Inheritance - Part III
Link NOC:Programming in C++ Lecture 39 - Module 24 : Inheritance - Part IV
Link NOC:Programming in C++ Lecture 40 - Module 25 : Inheritance - Part V
Link NOC:Programming in C++ Lecture 41 - Module 26 : Dynamic Binding - Part I
Link NOC:Programming in C++ Lecture 42 - Module 27 : Dynamic Binding (Polymorphism) - Part II
Link NOC:Programming in C++ Lecture 43 - Module 28 : Dynamic Binding (Polymorphism) - Part III
Link NOC:Programming in C++ Lecture 44 - Module 29 : Dynamic Binding (Polymorphism) - Part IV
Link NOC:Programming in C++ Lecture 45 - Module 30 : Dynamic Binding (Polymorphism) - Part V
Link NOC:Programming in C++ Lecture 46 - Module 31 : Virtual Function Table
Link NOC:Programming in C++ Lecture 47 - Module 32 : Type casting and cast operators - Part I
Link NOC:Programming in C++ Lecture 48 - Module 33 : Type casting and cast operators - Part II
Link NOC:Programming in C++ Lecture 49 - Module 34 : Type casting and cast operators - Part III
Link NOC:Programming in C++ Lecture 50 - Module 35 : Multiple Inheritance
Link NOC:Programming in C++ Lecture 51 - Module 35 : Multiple Inheritance (Continued...)
Link NOC:Programming in C++ Lecture 52 - Module 36 : Exceptions (Error Handling in C) - Part I
Link NOC:Programming in C++ Lecture 53 - Module 37 : Exceptions (Error Handling in C) - Part II
Link NOC:Programming in C++ Lecture 54 - Module 38 : Template (Function Template) - Part I
Link NOC:Programming in C++ Lecture 55 - Module 39 : Template (Function Template) - Part II
Link NOC:Programming in C++ Lecture 56 - Module 40 : Closing Comments
Link NOC:Introduction to Machine Learning Lecture 1 - Introduction
Link NOC:Introduction to Machine Learning Lecture 2 - Different Types of Learning
Link NOC:Introduction to Machine Learning Lecture 3 - Hypothesis Space and Inductive Bias
Link NOC:Introduction to Machine Learning Lecture 4 - Evaluation and Cross-Validation
Link NOC:Introduction to Machine Learning Lecture 5 - Tutorial - I
Link NOC:Introduction to Machine Learning Lecture 6 - Linear Regression
Link NOC:Introduction to Machine Learning Lecture 7 - Introduction to Decision Trees
Link NOC:Introduction to Machine Learning Lecture 8 - Learning Decision Tree
Link NOC:Introduction to Machine Learning Lecture 9 - Overfitting
Link NOC:Introduction to Machine Learning Lecture 10 - Python Exercise on Decision Tree and Linear Regression
Link NOC:Introduction to Machine Learning Lecture 11 - Tutorial - II
Link NOC:Introduction to Machine Learning Lecture 12 - k-Nearest Neighbour
Link NOC:Introduction to Machine Learning Lecture 13 - Feature Selection
Link NOC:Introduction to Machine Learning Lecture 14 - Feature Extraction
Link NOC:Introduction to Machine Learning Lecture 15 - Collaborative Filtering
Link NOC:Introduction to Machine Learning Lecture 16 - Python Exercise on kNN and PCA
Link NOC:Introduction to Machine Learning Lecture 17 - Tutorial - III
Link NOC:Introduction to Machine Learning Lecture 18 - Bayesian Learning
Link NOC:Introduction to Machine Learning Lecture 19 - Naive Bayes
Link NOC:Introduction to Machine Learning Lecture 20 - Bayesian Network
Link NOC:Introduction to Machine Learning Lecture 21 - Python Exercise on Naive Bayes
Link NOC:Introduction to Machine Learning Lecture 22 - Tutorial - IV
Link NOC:Introduction to Machine Learning Lecture 23 - Logistic Regression
Link NOC:Introduction to Machine Learning Lecture 24 - Introduction Support Vector Machine
Link NOC:Introduction to Machine Learning Lecture 25 - SVM : The Dual Formulation
Link NOC:Introduction to Machine Learning Lecture 26 - SVM : Maximum Margin with Noise
Link NOC:Introduction to Machine Learning Lecture 27 - Nonlinear SVM and Kennel Function
Link NOC:Introduction to Machine Learning Lecture 28 - SVM : Solution to the Dual Problem
Link NOC:Introduction to Machine Learning Lecture 29 - Python Exercise on SVM
Link NOC:Introduction to Machine Learning Lecture 30 - Introduction
Link NOC:Introduction to Machine Learning Lecture 31 - Multilayer Neural Network
Link NOC:Introduction to Machine Learning Lecture 32 - Neural Network and Backpropagation Algorithm
Link NOC:Introduction to Machine Learning Lecture 33 - Deep Neural Network
Link NOC:Introduction to Machine Learning Lecture 34 - Python Exercise on Neural Network
Link NOC:Introduction to Machine Learning Lecture 35 - Tutorial - VI
Link NOC:Introduction to Machine Learning Lecture 36 - Introduction to Computational Learning Theory
Link NOC:Introduction to Machine Learning Lecture 37 - Sample Complexity : Finite Hypothesis Space
Link NOC:Introduction to Machine Learning Lecture 38 - VC Dimension
Link NOC:Introduction to Machine Learning Lecture 39 - Introduction to Ensembles
Link NOC:Introduction to Machine Learning Lecture 40 - Bagging and Boosting
Link NOC:Introduction to Machine Learning Lecture 41 - Introduction to Clustering
Link NOC:Introduction to Machine Learning Lecture 42 - Kmeans Clustering
Link NOC:Introduction to Machine Learning Lecture 43 - Agglomerative Hierarchical Clustering
Link NOC:Introduction to Machine Learning Lecture 44 - Python Exercise on kmeans clustering
Link NOC:Object-Oriented Analysis and Design Lecture 1 - Challanges in Software Engineering
Link NOC:Object-Oriented Analysis and Design Lecture 2 - Complexity of Software
Link NOC:Object-Oriented Analysis and Design Lecture 3 - Complexity of Software (Continued...)
Link NOC:Object-Oriented Analysis and Design Lecture 4 - Structure and Attributes of a Complex System
Link NOC:Object-Oriented Analysis and Design Lecture 5 - Structure and Attributes of a Complex System (Continued...)
Link NOC:Object-Oriented Analysis and Design Lecture 6 - Object-Oriented Analysis and Design
Link NOC:Object-Oriented Analysis and Design Lecture 7 - Bringing Order to Chaos
Link NOC:Object-Oriented Analysis and Design Lecture 8 - Bringing Order to Chaos (Continued...)
Link NOC:Object-Oriented Analysis and Design Lecture 9 - Evolution of Object Models - Programming Languages and Paradigms
Link NOC:Object-Oriented Analysis and Design Lecture 10 - Foundations of the Object Model - OOA, OOD and OOP
Link NOC:Object-Oriented Analysis and Design Lecture 11 - Foundations of the Object Model - OOA, OOD and OOP (Continued...)
Link NOC:Object-Oriented Analysis and Design Lecture 12 - Elements of Object Model (Major) : Abstraction and Encapsulation
Link NOC:Object-Oriented Analysis and Design Lecture 13 - Elements of Object Model (Major) : Abstraction and Encapsulation (Continued...)
Link NOC:Object-Oriented Analysis and Design Lecture 14 - Elements of the Object Model (Major) : Modularity and Hierarchy
Link NOC:Object-Oriented Analysis and Design Lecture 15 - Elements of the Object Model (Major) : Modularity and Hierarchy (Continued...)
Link NOC:Object-Oriented Analysis and Design Lecture 16 - Elements of the Object Model (Minor) : Typing, Concurrency and Persistence
Link NOC:Object-Oriented Analysis and Design Lecture 17 - Elements of the Object Model (Minor) : Typing, Concurrency and Persistence (Continued...)
Link NOC:Object-Oriented Analysis and Design Lecture 18 - Nature of an object : State, Behavior and Identity
Link NOC:Object-Oriented Analysis and Design Lecture 19 - Nature of an object : State, Behavior and Identity (Continued...)
Link NOC:Object-Oriented Analysis and Design Lecture 20 - Relationships among objects
Link NOC:Object-Oriented Analysis and Design Lecture 21 - Relationships among objects (Continued...)
Link NOC:Object-Oriented Analysis and Design Lecture 22 - Nature of a class : Interface and Implementation
Link NOC:Object-Oriented Analysis and Design Lecture 23 - Nature of a class : Interface and Implementation (Continued...)
Link NOC:Object-Oriented Analysis and Design Lecture 24 - Relationships among classes
Link NOC:Object-Oriented Analysis and Design Lecture 25 - Relationships among classes (Continued...)
Link NOC:Object-Oriented Analysis and Design Lecture 26 - How to Build Quality Classes and Objects
Link NOC:Object-Oriented Analysis and Design Lecture 27 - Tutorial : LMS
Link NOC:Object-Oriented Analysis and Design Lecture 28 - How to Identify Classes and Objects ?
Link NOC:Object-Oriented Analysis and Design Lecture 29 - Identification of Classes, Objects and Relationship in LMS
Link NOC:Object-Oriented Analysis and Design Lecture 30 - Identification of Classes, Objects and Relationship in LMS (Continued...)
Link NOC:Object-Oriented Analysis and Design Lecture 31 - Identification of Classes, Objects and Relationship in LMS (Continued...)
Link NOC:Object-Oriented Analysis and Design Lecture 32 - Identification of Classes, Objects and Relationship in LMS (Continued...)
Link NOC:Object-Oriented Analysis and Design Lecture 33 - Overview of UML
Link NOC:Object-Oriented Analysis and Design Lecture 34 - SDLC Phases and UML Diagrams
Link NOC:Object-Oriented Analysis and Design Lecture 35 - Use-Case Diagrams - Part I
Link NOC:Object-Oriented Analysis and Design Lecture 36 - Use-Case Diagrams - Part II
Link NOC:Object-Oriented Analysis and Design Lecture 37 - Use-Case Diagrams - Part III
Link NOC:Object-Oriented Analysis and Design Lecture 38 - Class Diagrams - Part 1 (Class, Property and Operation)
Link NOC:Object-Oriented Analysis and Design Lecture 39 - Class Diagrams - Part 2 (Association, Weak and Strong Aggregation)
Link NOC:Object-Oriented Analysis and Design Lecture 40 - Class Diagrams - Part 3 (Generalization, Dependency and Constraints)
Link NOC:Object-Oriented Analysis and Design Lecture 41 - Sequence Diagrams - Part 1
Link NOC:Object-Oriented Analysis and Design Lecture 42 - Sequence Diagrams - Part 2
Link NOC:Object-Oriented Analysis and Design Lecture 43 - Communication Diagram
Link NOC:Object-Oriented Analysis and Design Lecture 44 - Activity Diagrams - Part II
Link NOC:Object-Oriented Analysis and Design Lecture 45 - Activity Diagrams - Part II
Link NOC:Object-Oriented Analysis and Design Lecture 46 - Activity Diagrams - Part III
Link NOC:Object-Oriented Analysis and Design Lecture 47 - Interaction Overview Diagram
Link NOC:Object-Oriented Analysis and Design Lecture 48 - State Machine Diagrams - Part I
Link NOC:Object-Oriented Analysis and Design Lecture 49 - State Machine Diagrams - Part II
Link NOC:Object-Oriented Analysis and Design Lecture 50 - State Machine Diagrams - Part III
Link NOC:Object-Oriented Analysis and Design Lecture 51 - Various UML Diagrams
Link NOC:Object-Oriented Analysis and Design Lecture 52 - Closing Comments
Link NOC:Complex Network : Theory and Application Lecture 1 - Introduction
Link NOC:Complex Network : Theory and Application Lecture 2 - Network Analysis - I
Link NOC:Complex Network : Theory and Application Lecture 3 - Network Analysis - II
Link NOC:Complex Network : Theory and Application Lecture 4 - Network Analysis - III
Link NOC:Complex Network : Theory and Application Lecture 5 - Network Analysis - IV
Link NOC:Complex Network : Theory and Application Lecture 6 - Network Analysis - V
Link NOC:Complex Network : Theory and Application Lecture 7 - Network Analysis - VI
Link NOC:Complex Network : Theory and Application Lecture 8 - Social Network Principles - I
Link NOC:Complex Network : Theory and Application Lecture 9 - Social Network Principles - II
Link NOC:Complex Network : Theory and Application Lecture 10 - Social Network Principles - III
Link NOC:Complex Network : Theory and Application Lecture 11 - Social Network Principles - IV
Link NOC:Complex Network : Theory and Application Lecture 12 - Community Analysis - I
Link NOC:Complex Network : Theory and Application Lecture 13 - Community Analysis - II
Link NOC:Complex Network : Theory and Application Lecture 14 - Community Analysis - III
Link NOC:Complex Network : Theory and Application Lecture 15 - Community Analysis - IV
Link NOC:Complex Network : Theory and Application Lecture 16 - Community Analysis - V
Link NOC:Complex Network : Theory and Application Lecture 17 - Community Analysis - VI
Link NOC:Complex Network : Theory and Application Lecture 18 - Citation Analysis - I
Link NOC:Complex Network : Theory and Application Lecture 19 - Citation Analysis - II
Link NOC:Complex Network : Theory and Application Lecture 20 - Citation Analysis - III
Link NOC:Complex Network : Theory and Application Lecture 21 - Citation Analysis - IV
Link Fundamental Algorithms:Design and Analysis Lecture 1 - Insertion Sort and Asymptotic Analysis
Link Fundamental Algorithms:Design and Analysis Lecture 2 - Solving Recurrences
Link Fundamental Algorithms:Design and Analysis Lecture 3 - Divide and Conquer Paradigm
Link Fundamental Algorithms:Design and Analysis Lecture 4 - Quick Sort
Link Fundamental Algorithms:Design and Analysis Lecture 5 - Heap Sort
Link Fundamental Algorithms:Design and Analysis Lecture 6 - Decision Tree
Link Fundamental Algorithms:Design and Analysis Lecture 7 - Linear Time Sorting
Link Fundamental Algorithms:Design and Analysis Lecture 8 - Order Statistics
Link Fundamental Algorithms:Design and Analysis Lecture 9 - Hashing
Link Fundamental Algorithms:Design and Analysis Lecture 10 - Universal Hashing, BST Sort
Link Fundamental Algorithms:Design and Analysis Lecture 11 - Red-Black Tree
Link Fundamental Algorithms:Design and Analysis Lecture 12 - Augmenting Data Structure
Link Fundamental Algorithms:Design and Analysis Lecture 13 - Computational Geometry
Link Fundamental Algorithms:Design and Analysis Lecture 14 - Van Emde Boas Data Structure
Link Fundamental Algorithms:Design and Analysis Lecture 15 - Dynamic Programming
Link Fundamental Algorithms:Design and Analysis Lecture 16 - Graph Algorithm
Link Fundamental Algorithms:Design and Analysis Lecture 17 - BFS and DFS
Link Fundamental Algorithms:Design and Analysis Lecture 18 - Dijkstra
Link Fundamental Algorithms:Design and Analysis Lecture 19 - Bellman Ford
Link Fundamental Algorithms:Design and Analysis Lecture 20 - Floyd Marshall
Link NOC:Natural Language Processing Lecture 1 - Introduction to the Course
Link NOC:Natural Language Processing Lecture 2 - What Do We Do in NLP
Link NOC:Natural Language Processing Lecture 3 - Why is NLP hard
Link NOC:Natural Language Processing Lecture 4 - Empirical Laws
Link NOC:Natural Language Processing Lecture 5 - Text Processing: Basics
Link NOC:Natural Language Processing Lecture 6 - Spelling Correction: Edit Distance
Link NOC:Natural Language Processing Lecture 7 - Weighted Edit Distance, Other Variations
Link NOC:Natural Language Processing Lecture 8 - Noisy Channel Model for Spelling Correction
Link NOC:Natural Language Processing Lecture 9 - N-Gram Language Models
Link NOC:Natural Language Processing Lecture 10 - Evaluation of Language Models, Basic Smoothing
Link NOC:Natural Language Processing Lecture 11 - Tutorial I
Link NOC:Natural Language Processing Lecture 12 - Language Modeling: Advanced Smoothing Models
Link NOC:Natural Language Processing Lecture 13 - Computational Morphology
Link NOC:Natural Language Processing Lecture 14 - Finite - State Methods for Morphology
Link NOC:Natural Language Processing Lecture 15 - Introduction to POS Tagging
Link NOC:Natural Language Processing Lecture 16 - Hidden Markov Models for POS Tagging
Link NOC:Natural Language Processing Lecture 17 - Viterbi Decoding for HMM, Parameter Learning
Link NOC:Natural Language Processing Lecture 18 - Baum Welch Algorithm
Link NOC:Natural Language Processing Lecture 19 - Maximum Entropy Models - I
Link NOC:Natural Language Processing Lecture 20 - Maximum Entropy Models - II
Link NOC:Natural Language Processing Lecture 21 - Conditional Random Fields
Link NOC:Natural Language Processing Lecture 22 - Syntax - Introduction
Link NOC:Natural Language Processing Lecture 23 - Syntax - Parsing I
Link NOC:Natural Language Processing Lecture 24 - Syntax - CKY, PCFGs
Link NOC:Natural Language Processing Lecture 25 - PCFGs - Inside-Outside Probabilities
Link NOC:Natural Language Processing Lecture 26 - Inside-Outside Probabilities
Link NOC:Natural Language Processing Lecture 27 - Dependency Grammars and Parsing - Introduction
Link NOC:Natural Language Processing Lecture 28 - Transition Based Parsing : Formulation
Link NOC:Natural Language Processing Lecture 29 - Transition Based Parsing : Learning
Link NOC:Natural Language Processing Lecture 30 - MST-Based Dependency Parsing
Link NOC:Natural Language Processing Lecture 31 - MST-Based Dependency Parsing : Learning
Link NOC:Natural Language Processing Lecture 32 - Distributional Semantics - Introduction
Link NOC:Natural Language Processing Lecture 33 - Distributional Models of Semantics
Link NOC:Natural Language Processing Lecture 34 - Distributional Semantics : Applications, Structured Models
Link NOC:Natural Language Processing Lecture 35 - Word Embeddings - Part I
Link NOC:Natural Language Processing Lecture 36 - Word Embeddings - Part II
Link NOC:Natural Language Processing Lecture 37 - Lexical Semantics
Link NOC:Natural Language Processing Lecture 38 - Lexical Semantics - Wordnet
Link NOC:Natural Language Processing Lecture 39 - Word Sense Disambiguation - I
Link NOC:Natural Language Processing Lecture 40 - Word Sense Disambiguation - II
Link NOC:Natural Language Processing Lecture 41 - Novel Word Sense detection
Link NOC:Natural Language Processing Lecture 42 - Topic Models : Introduction
Link NOC:Natural Language Processing Lecture 43 - Latent Dirichlet Allocation : Formulation
Link NOC:Natural Language Processing Lecture 44 - Gibbs Sampling for LDA, Applications
Link NOC:Natural Language Processing Lecture 45 - LDA Variants and Applications - I
Link NOC:Natural Language Processing Lecture 46 - LDA Variants and Applications - II
Link NOC:Natural Language Processing Lecture 47 - Entity Linking - I
Link NOC:Natural Language Processing Lecture 48 - Entity Linking - II
Link NOC:Natural Language Processing Lecture 49 - Information Extraction - Introduction
Link NOC:Natural Language Processing Lecture 50 - Relation Extraction
Link NOC:Natural Language Processing Lecture 51 - Distant Supervision
Link NOC:Natural Language Processing Lecture 52 - Text Summarization - LEXRANK
Link NOC:Natural Language Processing Lecture 53 - Optimization based Approaches for Summarization
Link NOC:Natural Language Processing Lecture 54 - Summarization Evaluation
Link NOC:Natural Language Processing Lecture 55 - Text Classification - I
Link NOC:Natural Language Processing Lecture 56 - Text Classification - II
Link NOC:Natural Language Processing Lecture 57 - Tutorial II
Link NOC:Natural Language Processing Lecture 58 - Tutorial III
Link NOC:Natural Language Processing Lecture 59 - Tutorial IV
Link NOC:Natural Language Processing Lecture 60 - Tutorial V
Link NOC:Natural Language Processing Lecture 61 - Sentiment Analysis - Introduction
Link NOC:Natural Language Processing Lecture 62 - Sentiment Analysis - Affective Lexicons
Link NOC:Natural Language Processing Lecture 63 - Learning Affective Lexicons
Link NOC:Natural Language Processing Lecture 64 - Computing with Affective Lexicons
Link NOC:Natural Language Processing Lecture 65 - Aspect - Based Sentiment Analysis
Link NOC:Embedded Systems Design Lecture 1 - Introduction
Link NOC:Embedded Systems Design Lecture 2 - Processors
Link NOC:Embedded Systems Design Lecture 3 - General Purpose and ASIPs Processor
Link NOC:Embedded Systems Design Lecture 4 - Designing a Single Purpose Processor
Link NOC:Embedded Systems Design Lecture 5 - Optimization Issues
Link NOC:Embedded Systems Design Lecture 6 - Introduction to FPFA
Link NOC:Embedded Systems Design Lecture 7 - FPGA (Continued...)
Link NOC:Embedded Systems Design Lecture 8 - Behaviour Synthesis on FPGA using VHDL
Link NOC:Embedded Systems Design Lecture 9 - Tutorial - I
Link NOC:Embedded Systems Design Lecture 10 - Tutorial - II
Link NOC:Embedded Systems Design Lecture 11 - Tutorial - III
Link NOC:Embedded Systems Design Lecture 12 - Tutorial - IV
Link NOC:Embedded Systems Design Lecture 13 - Sensors and Signals
Link NOC:Embedded Systems Design Lecture 14 - Discretization of Signals and A/D Converter
Link NOC:Embedded Systems Design Lecture 15 - Quantization Noise, SNR and D/A Converter
Link NOC:Embedded Systems Design Lecture 16 - Arduino Uno
Link NOC:Embedded Systems Design Lecture 17 - Arduino Uno (Continued...), Serial Communication and Timer
Link NOC:Embedded Systems Design Lecture 18 - Controller Design using Arduino
Link NOC:Embedded Systems Design Lecture 19 - Tutorial - V
Link NOC:Embedded Systems Design Lecture 20 - Power Aware Embedded System - I
Link NOC:Embedded Systems Design Lecture 21 - Power Aware Embedded System - II
Link NOC:Embedded Systems Design Lecture 22 - SD and DD Algorithm
Link NOC:Embedded Systems Design Lecture 23 - Parallel Operations and VLIW
Link NOC:Embedded Systems Design Lecture 24 - Code Efficiency
Link NOC:Embedded Systems Design Lecture 25 - DSP Application and Address Generation Unit
Link NOC:Embedded Systems Design Lecture 26 - Real Time O.S - I
Link NOC:Embedded Systems Design Lecture 27 - Real Time O.S - II
Link NOC:Embedded Systems Design Lecture 28 - RMS Algorithm
Link NOC:Embedded Systems Design Lecture 29 - EDF Algorithm and Resource Constraint Issue
Link NOC:Embedded Systems Design Lecture 30 - Priority Inversion and Priority Inheritance Protocol
Link NOC:Embedded Systems Design Lecture 31 - Modeling and Specification - I
Link NOC:Embedded Systems Design Lecture 32 - Modeling and Specification - II
Link NOC:Embedded Systems Design Lecture 33 - FSM and Statechart
Link NOC:Embedded Systems Design Lecture 34 - Statechart and Statemate Semantics
Link NOC:Embedded Systems Design Lecture 35 - Statecharts (Continued...)
Link NOC:Embedded Systems Design Lecture 36 - Program State Machines
Link NOC:Embedded Systems Design Lecture 37 - SDL
Link NOC:Embedded Systems Design Lecture 38 - Data Flow Model - I
Link NOC:Embedded Systems Design Lecture 39 - Data Flow Model - II
Link NOC:Embedded Systems Design Lecture 40 - Hardware Synthesis - I
Link NOC:Embedded Systems Design Lecture 41 - Hardware Synthesis - II
Link NOC:Embedded Systems Design Lecture 42 - Scheduling
Link NOC:Embedded Systems Design Lecture 43 - Digital Camera Design
Link NOC:Embedded Systems Design Lecture 44 - Digital Camera - Iterative Design
Link NOC:Embedded Systems Design Lecture 45 - HW-SW Partitioning
Link NOC:Embedded Systems Design Lecture 46 - Optimization - I
Link NOC:Embedded Systems Design Lecture 47 - Optimization - II
Link NOC:Embedded Systems Design Lecture 48 - Simulation
Link NOC:Embedded Systems Design Lecture 49 - Formal Verification
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 1 - Introduction: Wireless Ad Hoc Networks - Part-I
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 2 - Introduction: Wireless Ad Hoc Networks - Part-II
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 3 - Self-organizing Behaviour of Wireless Ad Hoc Networks
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 4 - Cooperation in Mobile Ad Hoc Networks - Part-I
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 5 - Cooperation in Mobile Ad Hoc Networks - Part-II
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 6 - MAC Protocols in MANETs - Part-I
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 7 - MAC Protocols in MANETs - Part-II
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 8 - Routing in MANETs - Part-I
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 9 - Routing in MANETs - Part-II
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 10 - Routing in MANETs - Part-III
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 11 - Multicasting in MANETs
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 12 - Mobility Models for MANETs
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 13 - Transport Protocols for MANETs - Part-I
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 14 - Transport Protocols for MANETs - Part-II
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 15 - Opportunistic Mobile Networks - Part-I
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 16 - Opportunistic Mobile Networks - Part-II
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 17 - Opportunistic Mobile Networks - Part-III
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 18 - UAV Networks - Part-I
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 19 - UAV Networks - Part-II
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 20 - UAV Networks - Part-III
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 21 - Introduction: Wireless Sensor Networks - Part-I
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 22 - Introduction: Wireless Sensor Networks - Part-II
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 23 - WSN Coverage and Placement - Part-I
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 24 - Topology Mangement in Wireless Sensor Network
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 25 - Mobile Wireless Sensor Networks
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 26 - Mobile Wireless Sensor Networks
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 27 - Medium Access Control in Wireless Networks - Part-I
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 28 - Medium Access Control in Wireless Networks - Part-II
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 29 - Routing in Wireless Sensor Networks - Part-I
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 30 - Routing in Wireless Sensor Networks - Part-II
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 31 - Congestion and Flow Control - Part-I
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 32 - Congestion and Flow Control - Part-II
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 33 - Underwater Sensor Networks - Part-I
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 34 - Underwater Sensor Networks - Part-II
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 35 - Underwater Sensor Networks - Part-III
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 36 - Underwater Sensor Networks - Part-IV
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 37 - Security of Wireless Sensor Networks - Part-I
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 38 - Security of Wireless Sensor Networks - Part-II
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 39 - Hardware Design of Sensor Node
Link NOC:Wireless Ad Hoc and Sensor Networks Lecture 40 - Real Life Deployment of WSN
Link NOC:VLSI Physical Design Lecture 1 - Introduction
Link NOC:VLSI Physical Design Lecture 2 - Design Representation
Link NOC:VLSI Physical Design Lecture 3 - VLSI Design Styles - Part 1
Link NOC:VLSI Physical Design Lecture 4 - VLSI Design Styles - Part 2
Link NOC:VLSI Physical Design Lecture 5 - VLSI Physical Design Automation - Part 1
Link NOC:VLSI Physical Design Lecture 6 - VLSI Physical Design Automation - Part 2
Link NOC:VLSI Physical Design Lecture 7 - Partitioning
Link NOC:VLSI Physical Design Lecture 8 - Floor planning
Link NOC:VLSI Physical Design Lecture 9 - Floor planning Algorithms
Link NOC:VLSI Physical Design Lecture 10 - Pin Assignment
Link NOC:VLSI Physical Design Lecture 11 - Placement - Part 1
Link NOC:VLSI Physical Design Lecture 12 - Placement - Part 2
Link NOC:VLSI Physical Design Lecture 13 - Placement - Part 3
Link NOC:VLSI Physical Design Lecture 14 - Placement - Part 4
Link NOC:VLSI Physical Design Lecture 15 - Grid Routing - Part 1
Link NOC:VLSI Physical Design Lecture 16 - Grid Routing - Part 2
Link NOC:VLSI Physical Design Lecture 17 - Grid Routing - Part 3
Link NOC:VLSI Physical Design Lecture 18 - Global Routing - Part 1
Link NOC:VLSI Physical Design Lecture 19 - Global Routing - Part 2
Link NOC:VLSI Physical Design Lecture 20 - Detailed Routing - Part 1
Link NOC:VLSI Physical Design Lecture 21 - Detailed Routing - Part 2
Link NOC:VLSI Physical Design Lecture 22 - Detailed Routing - Part 3
Link NOC:VLSI Physical Design Lecture 23 - Detailed Routing - Part 4
Link NOC:VLSI Physical Design Lecture 24 - Clock Design - Part 1
Link NOC:VLSI Physical Design Lecture 25 - Clock Design - Part 2
Link NOC:VLSI Physical Design Lecture 26 - Clock Design - Part 3
Link NOC:VLSI Physical Design Lecture 27 - Clock Network Synthesis - Part 1
Link NOC:VLSI Physical Design Lecture 28 - Clock Network Synthesis - Part 2
Link NOC:VLSI Physical Design Lecture 29 - Clock Network Synthesis - Part 3
Link NOC:VLSI Physical Design Lecture 30 - Clock Network Synthesis - Part 4
Link NOC:VLSI Physical Design Lecture 31 - Power and Ground Routing
Link NOC:VLSI Physical Design Lecture 32 - Time Closure - Part 1
Link NOC:VLSI Physical Design Lecture 33 - Time Closure - Part 2
Link NOC:VLSI Physical Design Lecture 34 - Time Closure - Part 3
Link NOC:VLSI Physical Design Lecture 35 - Time Closure - Part 4
Link NOC:VLSI Physical Design Lecture 36 - Time Closure - Part 5
Link NOC:VLSI Physical Design Lecture 37 - Timing Driven Placement
Link NOC:VLSI Physical Design Lecture 38 - Timing Driven Routing
Link NOC:VLSI Physical Design Lecture 39 - Physical Synthesis - Part 1
Link NOC:VLSI Physical Design Lecture 40 - Physical Synthesis - Part 2
Link NOC:VLSI Physical Design Lecture 41 - Performance-Driven Design Flow
Link NOC:VLSI Physical Design Lecture 42 - Miscellaneous Approaches to Timing Optimization
Link NOC:VLSI Physical Design Lecture 43 - Interconnect Modeling - Part 1
Link NOC:VLSI Physical Design Lecture 44 - Interconnect Modeling - Part 2
Link NOC:VLSI Physical Design Lecture 45 - Design Rule Check
Link NOC:VLSI Physical Design Lecture 46 - Layout Compaction - Part 1
Link NOC:VLSI Physical Design Lecture 47 - Layout Compaction - Part 2
Link NOC:VLSI Physical Design Lecture 48
Link NOC:VLSI Physical Design Lecture 49
Link NOC:VLSI Physical Design Lecture 50
Link NOC:VLSI Physical Design Lecture 51
Link NOC:VLSI Physical Design Lecture 52
Link NOC:VLSI Physical Design Lecture 53 - Test Pattern Generation
Link NOC:VLSI Physical Design Lecture 54 - Design for Testability
Link NOC:VLSI Physical Design Lecture 55 - Boundary Scan Standard
Link NOC:VLSI Physical Design Lecture 56 - Built-in Self-Test - Part 1
Link NOC:VLSI Physical Design Lecture 57 - Built-in Self-Test - Part 2
Link NOC:VLSI Physical Design Lecture 58 - Low Power VLSI Design
Link NOC:VLSI Physical Design Lecture 59 - Techniques to Reduce Power
Link NOC:VLSI Physical Design Lecture 60 - Gate Level Design for Low Power - Part 1
Link NOC:VLSI Physical Design Lecture 61 - Gate Level Design for Low Power - Part 2
Link NOC:VLSI Physical Design Lecture 62 - Other Low Power Design Techniques
Link NOC:VLSI Physical Design Lecture 63 - Algorithmic Level Techniques for Low Power Design
Link NOC:VLSI Physical Design Lecture 64 - Summarization of the Course
Link NOC:Internetwork Security Lecture 1 - Introduction to Cryptography
Link NOC:Internetwork Security Lecture 2 - Classical Cryptosystem
Link NOC:Internetwork Security Lecture 3 - Cryptanalysis on Substitution Cipher (Frequency Analysis)
Link NOC:Internetwork Security Lecture 4 - Play Fair Cipher
Link NOC:Internetwork Security Lecture 5 - Block Cipher
Link NOC:Internetwork Security Lecture 6 - Data Encryption Standard (DES)
Link NOC:Internetwork Security Lecture 7 - DES (Continued...)
Link NOC:Internetwork Security Lecture 8 - Triple DES and Modes of Operation
Link NOC:Internetwork Security Lecture 9 - Stream Cipher
Link NOC:Internetwork Security Lecture 10 - Pseudorandom Sequence
Link NOC:Internetwork Security Lecture 11 - LFSR based Stream Cipher
Link NOC:Internetwork Security Lecture 12 - Mathematical background
Link NOC:Internetwork Security Lecture 13 - Abstract algebra (Continued...)
Link NOC:Internetwork Security Lecture 14 - Number Theory
Link NOC:Internetwork Security Lecture 15 - Modular Inverse
Link NOC:Internetwork Security Lecture 16 - Modular Inverse
Link NOC:Internetwork Security Lecture 17 - Extended Euclid Algorithm
Link NOC:Internetwork Security Lecture 18 - Fermat's Little Theorem, Eular PhiFunction
Link NOC:Internetwork Security Lecture 19 - Eular's theorem, Quadratic Residue
Link NOC:Internetwork Security Lecture 20 - Polynomial Arithmetic
Link NOC:Internetwork Security Lecture 21 - Advanced Encryption Standard (AES)
Link NOC:Internetwork Security Lecture 22 - Advanced Encryption Standard (AES) (Continued...)
Link NOC:Internetwork Security Lecture 23 - Introduction to Public Key Cryptosystem, Diffie-Hellman Key Exchange
Link NOC:Internetwork Security Lecture 24 - Knapsack Cryptosystem
Link NOC:Internetwork Security Lecture 25 - RSA Cryptosystem
Link NOC:Internetwork Security Lecture 26 - More on RSA
Link NOC:Internetwork Security Lecture 27 - Primarily Testing
Link NOC:Internetwork Security Lecture 28 - ElGamal Cryptosystem
Link NOC:Internetwork Security Lecture 29 - Elliptic Curve over the Reals
Link NOC:Internetwork Security Lecture 30 - Elliptic curve Modulo a Prime
Link NOC:Internetwork Security Lecture 31 - Generalised ElGamal Public Key Cryptosystem
Link NOC:Internetwork Security Lecture 32 - Chinese Remainder Theorem
Link NOC:Internetwork Security Lecture 33 - Rabin Cryptosystem
Link NOC:Internetwork Security Lecture 34 - Legendre and Jacobi Symbol
Link NOC:Internetwork Security Lecture 35 - Jacobi Symbol (Continued...)
Link NOC:Internetwork Security Lecture 36 - Message Authentication
Link NOC:Internetwork Security Lecture 37 - Digital Signature
Link NOC:Internetwork Security Lecture 38 - Key Management
Link NOC:Internetwork Security Lecture 39 - Key Exchange
Link NOC:Internetwork Security Lecture 40 - Hash Function
Link NOC:Internetwork Security Lecture 41 - Universal Hashing
Link NOC:Internetwork Security Lecture 42 - Cryptographic Hash Function
Link NOC:Internetwork Security Lecture 43 - Secure Hash Algorithm (SHA)
Link NOC:Internetwork Security Lecture 44 - Digital Signature Standard (DSS)
Link NOC:Internetwork Security Lecture 45 - More on Key Exchange Protocol
Link NOC:Internetwork Security Lecture 46 - Cryptanalysis
Link NOC:Internetwork Security Lecture 47 - Time-Memory Trade-off Attack
Link NOC:Internetwork Security Lecture 48 - Time-Memory Trade-off Attack
Link NOC:Internetwork Security Lecture 49 - More on Differential Cryptanalysis
Link NOC:Internetwork Security Lecture 50 - Linear Cryptanalysis
Link NOC:Internetwork Security Lecture 51 - Cryptanalysis on Stream Cipher
Link NOC:Internetwork Security Lecture 52 - Modern Stream Ciphers
Link NOC:Internetwork Security Lecture 53 - Shamir's secret sharing and BE
Link NOC:Internetwork Security Lecture 54 - Identity based Encryption (IBE)
Link NOC:Internetwork Security Lecture 55 - Attribute based Encryption (ABE)
Link NOC:Internetwork Security Lecture 56 - Functional Encryption
Link NOC:Internetwork Security Lecture 57 - Solving discrete log problem
Link NOC:Internetwork Security Lecture 58 - Implementation Attacks
Link NOC:Internetwork Security Lecture 59 - The Secure Sockets Layer
Link NOC:Internetwork Security Lecture 60 - Pretty Good Privacy
Link NOC:Computer Architecture and Organization Lecture 1 - Evolution of Computer Systems
Link NOC:Computer Architecture and Organization Lecture 2 - Basic Operation of a Computer
Link NOC:Computer Architecture and Organization Lecture 3 - Memory Addressing and Languages
Link NOC:Computer Architecture and Organization Lecture 4 - Software and Architecture Types
Link NOC:Computer Architecture and Organization Lecture 5 - Instruction Set Architecture
Link NOC:Computer Architecture and Organization Lecture 6 - Number Representation
Link NOC:Computer Architecture and Organization Lecture 7 - Instruction Format and Addressing Modes
Link NOC:Computer Architecture and Organization Lecture 8 - CISC and RISC Architecture
Link NOC:Computer Architecture and Organization Lecture 9 - MIPS32 Instruction Set
Link NOC:Computer Architecture and Organization Lecture 10 - MIPS Programming Examples
Link NOC:Computer Architecture and Organization Lecture 11 - Spim – A Mips32 Simulator
Link NOC:Computer Architecture and Organization Lecture 12 - Measuring Cpu Performance
Link NOC:Computer Architecture and Organization Lecture 13 - Choice Of Benchmarks
Link NOC:Computer Architecture and Organization Lecture 14 - Summarizing Performance Results
Link NOC:Computer Architecture and Organization Lecture 15 - Amadahl’s Law - Part 1
Link NOC:Computer Architecture and Organization Lecture 16 - Amadahl’s Law - Part 2
Link NOC:Computer Architecture and Organization Lecture 17 - Design Of Control Unit - Part 1
Link NOC:Computer Architecture and Organization Lecture 18 - Design Of Control Unit - Part 2
Link NOC:Computer Architecture and Organization Lecture 19 - Design Of Control Unit - Part 3
Link NOC:Computer Architecture and Organization Lecture 20 - Design Of Control Unit - Part 4
Link NOC:Computer Architecture and Organization Lecture 21 - Mips Implementation - Part 1
Link NOC:Computer Architecture and Organization Lecture 22 - Mips Implementation - Part 2
Link NOC:Computer Architecture and Organization Lecture 23 - Processor Memory Interaction
Link NOC:Computer Architecture and Organization Lecture 24 - Static And Dynamic Ram
Link NOC:Computer Architecture and Organization Lecture 25 - Asynchronous Dram
Link NOC:Computer Architecture and Organization Lecture 26 - Synchronous Dram
Link NOC:Computer Architecture and Organization Lecture 27 - Memory Interfacing And Addressing
Link NOC:Computer Architecture and Organization Lecture 28 - Memory Hierarchy Design - Part 1
Link NOC:Computer Architecture and Organization Lecture 29 - Memory Hierarchy Design - Part 2
Link NOC:Computer Architecture and Organization Lecture 30 - Cache Memory - Part 1
Link NOC:Computer Architecture and Organization Lecture 31 - Cache Memory - Part 2
Link NOC:Computer Architecture and Organization Lecture 32 - Improving Cache Performance
Link NOC:Computer Architecture and Organization Lecture 33 - Design Of Adders - Part 1
Link NOC:Computer Architecture and Organization Lecture 34 - Design Of Adders - Part 2
Link NOC:Computer Architecture and Organization Lecture 35 - Design Of Multipliers - Part 1
Link NOC:Computer Architecture and Organization Lecture 36 - Design Of Multipliers - Part 2
Link NOC:Computer Architecture and Organization Lecture 37 - Design Of Dividers
Link NOC:Computer Architecture and Organization Lecture 38 - Floating-Point Numbers
Link NOC:Computer Architecture and Organization Lecture 39 - Floating-Point Arithmetic
Link NOC:Computer Architecture and Organization Lecture 40 - Basic Pipelining Concepts
Link NOC:Computer Architecture and Organization Lecture 41 - Pipeline Scheduling
Link NOC:Computer Architecture and Organization Lecture 42 - Arithmetic Pipeline
Link NOC:Computer Architecture and Organization Lecture 43 - Secondary Storage Devices
Link NOC:Computer Architecture and Organization Lecture 44 - Input-Output Organization
Link NOC:Computer Architecture and Organization Lecture 45 - Data Transfer Techniques
Link NOC:Computer Architecture and Organization Lecture 46 - Interrupt Handling - Part 1
Link NOC:Computer Architecture and Organization Lecture 47 - Interrupt Handling - Part 2
Link NOC:Computer Architecture and Organization Lecture 48 - Direct Memory Access
Link NOC:Computer Architecture and Organization Lecture 49 - Some Example Device Interfacing
Link NOC:Computer Architecture and Organization Lecture 50 - Exercises On I/O Transfer
Link NOC:Computer Architecture and Organization Lecture 51 - Bus Standards
Link NOC:Computer Architecture and Organization Lecture 52 - Bus Standards
Link NOC:Computer Architecture and Organization Lecture 53 - Pipelining The Mips32 Data Path
Link NOC:Computer Architecture and Organization Lecture 54 - Mips Pipeline (Continued...
Link NOC:Computer Architecture and Organization Lecture 55 - Pipeline Hazards - Part 1
Link NOC:Computer Architecture and Organization Lecture 56 - Pipeline Hazards - Part 2
Link NOC:Computer Architecture and Organization Lecture 57 - Pipeline Hazards - Part 3
Link NOC:Computer Architecture and Organization Lecture 58 - Pipeline Hazards - Part 4
Link NOC:Computer Architecture and Organization Lecture 59 - Multicycle Operations In Mips32
Link NOC:Computer Architecture and Organization Lecture 60 - Exploiting Instruction Level Parallelism
Link NOC:Computer Architecture and Organization Lecture 61 - Vector Processors
Link NOC:Computer Architecture and Organization Lecture 62 - Multi-Core Processors
Link NOC:Computer Architecture and Organization Lecture 63 - Some Case Studies
Link NOC:Computer Architecture and Organization Lecture 64 - Summarization Of The Course
Link NOC:Introduction to Algorithms and Analysis Lecture 1 - Insertion sort
Link NOC:Introduction to Algorithms and Analysis Lecture 2 - Analysis of Insertion Sort
Link NOC:Introduction to Algorithms and Analysis Lecture 3 - Asymptotic Analysis
Link NOC:Introduction to Algorithms and Analysis Lecture 4 - Recurrence of Merge Sort
Link NOC:Introduction to Algorithms and Analysis Lecture 5 - Substitution Method
Link NOC:Introduction to Algorithms and Analysis Lecture 6 - The Master Method
Link NOC:Introduction to Algorithms and Analysis Lecture 7 - Divide-and-Conquer
Link NOC:Introduction to Algorithms and Analysis Lecture 8 - Divide-and-Conquer (Continued...)
Link NOC:Introduction to Algorithms and Analysis Lecture 9 - Straseen's Algorithms
Link NOC:Introduction to Algorithms and Analysis Lecture 10 - QuickSort
Link NOC:Introduction to Algorithms and Analysis Lecture 11 - Analysis of Quicksort
Link NOC:Introduction to Algorithms and Analysis Lecture 12 - Randomized Quicksort
Link NOC:Introduction to Algorithms and Analysis Lecture 13 - Heap
Link NOC:Introduction to Algorithms and Analysis Lecture 14 - Heap Sort
Link NOC:Introduction to Algorithms and Analysis Lecture 15 - Decision Tree
Link NOC:Introduction to Algorithms and Analysis Lecture 16 - Linear time Sorting
Link NOC:Introduction to Algorithms and Analysis Lecture 17 - Radix Sort and Bucket Sort
Link NOC:Introduction to Algorithms and Analysis Lecture 18 - Order Statistics
Link NOC:Introduction to Algorithms and Analysis Lecture 19 - Randomised Order Statistics
Link NOC:Introduction to Algorithms and Analysis Lecture 20 - Worst case linear time order statistics
Link NOC:Introduction to Algorithms and Analysis Lecture 21 - Hash Function
Link NOC:Introduction to Algorithms and Analysis Lecture 22 - Open Addressing
Link NOC:Introduction to Algorithms and Analysis Lecture 23 - Universal Hashing
Link NOC:Introduction to Algorithms and Analysis Lecture 24 - Perfect Hashing
Link NOC:Introduction to Algorithms and Analysis Lecture 25 - Binary Search Tree (BST) Sort
Link NOC:Introduction to Algorithms and Analysis Lecture 26 - Randomly build BST
Link NOC:Introduction to Algorithms and Analysis Lecture 27 - Red Black Tree
Link NOC:Introduction to Algorithms and Analysis Lecture 28 - Red Black Tree (Continued...)
Link NOC:Introduction to Algorithms and Analysis Lecture 29 - Augmentation of data structure
Link NOC:Introduction to Algorithms and Analysis Lecture 30 - Interval trees
Link NOC:Introduction to Algorithms and Analysis Lecture 31 - Fixed universe successor
Link NOC:Introduction to Algorithms and Analysis Lecture 32 - Van Emde Boas data structure
Link NOC:Introduction to Algorithms and Analysis Lecture 33 - Amortized analysis
Link NOC:Introduction to Algorithms and Analysis Lecture 34 - Computational Geometry
Link NOC:Introduction to Algorithms and Analysis Lecture 35 - Computational Geometry (Continued...)
Link NOC:Introduction to Algorithms and Analysis Lecture 36 - Dynamic Programming
Link NOC:Introduction to Algorithms and Analysis Lecture 37 - Longest common subsequence
Link NOC:Introduction to Algorithms and Analysis Lecture 38 - Graphs
Link NOC:Introduction to Algorithms and Analysis Lecture 39 - Prim's Algorithms
Link NOC:Introduction to Algorithms and Analysis Lecture 40 - Graph Search
Link NOC:Introduction to Algorithms and Analysis Lecture 41
Link NOC:Introduction to Algorithms and Analysis Lecture 42
Link NOC:Introduction to Algorithms and Analysis Lecture 43
Link NOC:Introduction to Algorithms and Analysis Lecture 44
Link NOC:Introduction to Algorithms and Analysis Lecture 45
Link NOC:Introduction to Algorithms and Analysis Lecture 46
Link NOC:Introduction to Algorithms and Analysis Lecture 47
Link NOC:Introduction to Algorithms and Analysis Lecture 48
Link NOC:Introduction to Algorithms and Analysis Lecture 49
Link NOC:Introduction to Algorithms and Analysis Lecture 50
Link NOC:Introduction to Algorithms and Analysis Lecture 51
Link NOC:Introduction to Algorithms and Analysis Lecture 52 - Union-Find
Link NOC:Introduction to Algorithms and Analysis Lecture 53 - Augmented disjoint set data structure
Link NOC:Introduction to Algorithms and Analysis Lecture 54 - Network flow
Link NOC:Introduction to Algorithms and Analysis Lecture 55 - Network Flow (Continued...)
Link NOC:Introduction to Algorithms and Analysis Lecture 56 - Network Flow (Continued...)
Link NOC:Introduction to Algorithms and Analysis Lecture 57 - More on Dynamic Programming
Link NOC:Introduction to Algorithms and Analysis Lecture 58 - More on Dynamic Programming (Continued...)
Link NOC:Introduction to Algorithms and Analysis Lecture 59 - Computational Complexity
Link NOC:Introduction to Algorithms and Analysis Lecture 60 - Computational Complexity (Continued...)
Link NOC:Hardware Modeling using Verilog Lecture 1
Link NOC:Hardware Modeling using Verilog Lecture 2
Link NOC:Hardware Modeling using Verilog Lecture 3
Link NOC:Hardware Modeling using Verilog Lecture 4
Link NOC:Hardware Modeling using Verilog Lecture 5
Link NOC:Hardware Modeling using Verilog Lecture 6 - Verilog Language Features - Part 1
Link NOC:Hardware Modeling using Verilog Lecture 7 - Verilog Language Features - Part 2
Link NOC:Hardware Modeling using Verilog Lecture 8 - Verilog Language Features - Part 3
Link NOC:Hardware Modeling using Verilog Lecture 9 - Verilog Operators
Link NOC:Hardware Modeling using Verilog Lecture 10 - Verilog Modeling Examples
Link NOC:Hardware Modeling using Verilog Lecture 11 - Verilog Modeling Examples (Continued...)
Link NOC:Hardware Modeling using Verilog Lecture 12 - Verilog Description Styles
Link NOC:Hardware Modeling using Verilog Lecture 13 - Procedural Assignment
Link NOC:Hardware Modeling using Verilog Lecture 14 - Procedural Assignment (Continued...)
Link NOC:Hardware Modeling using Verilog Lecture 15 - Procedural Assignment (Examples)
Link NOC:Hardware Modeling using Verilog Lecture 16 - Blocking / Non-Blocking Assignments - Part 1
Link NOC:Hardware Modeling using Verilog Lecture 17 - Blocking / Non-Blocking Assignments - Part 2
Link NOC:Hardware Modeling using Verilog Lecture 18 - Blocking / Non-Blocking Assignments - Part 3
Link NOC:Hardware Modeling using Verilog Lecture 19 - Blocking / Non-Blocking Assignments - Part 4
Link NOC:Hardware Modeling using Verilog Lecture 20 - User Defined Primitives
Link NOC:Hardware Modeling using Verilog Lecture 21 - Verilog Test Bench
Link NOC:Hardware Modeling using Verilog Lecture 22 - Writing Verilog Test Benches
Link NOC:Hardware Modeling using Verilog Lecture 23 - Modeling Finite State Machines
Link NOC:Hardware Modeling using Verilog Lecture 24 - Modeling Finite State Machines (Continued...)
Link NOC:Hardware Modeling using Verilog Lecture 25 - Datapath And Controller Design - Part 1
Link NOC:Hardware Modeling using Verilog Lecture 26 - Datapath And Controller Design - Part 2
Link NOC:Hardware Modeling using Verilog Lecture 27 - Datapath And Controller Design - Part 3
Link NOC:Hardware Modeling using Verilog Lecture 28 - Synthesizable Verilog
Link NOC:Hardware Modeling using Verilog Lecture 29 - Some Recommended Practices
Link NOC:Hardware Modeling using Verilog Lecture 30 - Modeling Memory
Link NOC:Hardware Modeling using Verilog Lecture 31 - Modeling Register Banks
Link NOC:Hardware Modeling using Verilog Lecture 32 - Basic Pipelining Concepts
Link NOC:Hardware Modeling using Verilog Lecture 33 - Pipeline Modeling - Part 1
Link NOC:Hardware Modeling using Verilog Lecture 34 - Pipeline Modeling - Part 2
Link NOC:Hardware Modeling using Verilog Lecture 35 - Switch Level Modeling - Part 1
Link NOC:Hardware Modeling using Verilog Lecture 36 - Switch Level Modeling - Part 2
Link NOC:Hardware Modeling using Verilog Lecture 37 - Pipeline Implementation Of A Processor - Part 1
Link NOC:Hardware Modeling using Verilog Lecture 38 - Pipeline Implementation Of A Processor - Part 2
Link NOC:Hardware Modeling using Verilog Lecture 39 - Pipeline Implementation Of A Processor - Part 3
Link NOC:Hardware Modeling using Verilog Lecture 40 - Verilog Modeling Of The Processor - Part 1
Link NOC:Hardware Modeling using Verilog Lecture 41 - Verilog Modeling Of The Processor - Part 2
Link NOC:Introduction to Internet of Things Lecture 1 - Introduction to IoT- Part I
Link NOC:Introduction to Internet of Things Lecture 2 - Introduction to IoT- Part II
Link NOC:Introduction to Internet of Things Lecture 3 - Sensing
Link NOC:Introduction to Internet of Things Lecture 4 - Actuation
Link NOC:Introduction to Internet of Things Lecture 5 - Basics of IoT Networking - Part I
Link NOC:Introduction to Internet of Things Lecture 6 - Basics of IoT Networking - Part II
Link NOC:Introduction to Internet of Things Lecture 7 - Basics of IoT Networking - Part III
Link NOC:Introduction to Internet of Things Lecture 8 - Basics of IoT Networking - Part IV
Link NOC:Introduction to Internet of Things Lecture 9 - Connectivity Technologies - Part I
Link NOC:Introduction to Internet of Things Lecture 10 - Connectivity Technologies - Part II
Link NOC:Introduction to Internet of Things Lecture 11
Link NOC:Introduction to Internet of Things Lecture 12
Link NOC:Introduction to Internet of Things Lecture 13
Link NOC:Introduction to Internet of Things Lecture 14
Link NOC:Introduction to Internet of Things Lecture 15
Link NOC:Introduction to Internet of Things Lecture 16
Link NOC:Introduction to Internet of Things Lecture 17
Link NOC:Introduction to Internet of Things Lecture 18
Link NOC:Introduction to Internet of Things Lecture 19
Link NOC:Introduction to Internet of Things Lecture 20
Link NOC:Introduction to Internet of Things Lecture 21
Link NOC:Introduction to Internet of Things Lecture 22
Link NOC:Introduction to Internet of Things Lecture 23
Link NOC:Introduction to Internet of Things Lecture 24
Link NOC:Introduction to Internet of Things Lecture 25
Link NOC:Introduction to Internet of Things Lecture 26 - Introduction to Python Programming - I
Link NOC:Introduction to Internet of Things Lecture 27 - Introduction to Python Programming - II
Link NOC:Introduction to Internet of Things Lecture 28 - Introduction to Raspberry Pi - I
Link NOC:Introduction to Internet of Things Lecture 29 - Introduction to Raspberry Pi - II
Link NOC:Introduction to Internet of Things Lecture 30 - Implementation of IoT with Raspberry Pi - I
Link NOC:Introduction to Internet of Things Lecture 31
Link NOC:Introduction to Internet of Things Lecture 32
Link NOC:Introduction to Internet of Things Lecture 33
Link NOC:Introduction to Internet of Things Lecture 34
Link NOC:Introduction to Internet of Things Lecture 35
Link NOC:Introduction to Internet of Things Lecture 36 - Software Defined IoT Networking - II
Link NOC:Introduction to Internet of Things Lecture 37 - Cloud Computing-Fundamental
Link NOC:Introduction to Internet of Things Lecture 38 - Cloud Computing-Service Model
Link NOC:Introduction to Internet of Things Lecture 39 - Cloud Computing-Service Management and Security
Link NOC:Introduction to Internet of Things Lecture 40 - Cloud Computing - Case Studies
Link NOC:Introduction to Internet of Things Lecture 41 - Cloud Computing - Practical
Link NOC:Introduction to Internet of Things Lecture 42 - Sensor-Cloud - I
Link NOC:Introduction to Internet of Things Lecture 43 - Sensor-Cloud - II
Link NOC:Introduction to Internet of Things Lecture 44 - Fog Computing - I
Link NOC:Introduction to Internet of Things Lecture 45 - Fog Computing - II
Link NOC:Introduction to Internet of Things Lecture 46 - Smart Cities and Smart Homes - I
Link NOC:Introduction to Internet of Things Lecture 47 - Smart Cities and Smart Homes - II
Link NOC:Introduction to Internet of Things Lecture 48 - Smart Cities and Smart Homes - III
Link NOC:Introduction to Internet of Things Lecture 49 - Connected Vehicles - I
Link NOC:Introduction to Internet of Things Lecture 50 - Connected Vehicles - II
Link NOC:Introduction to Internet of Things Lecture 51 - Smart Grid - I
Link NOC:Introduction to Internet of Things Lecture 52 - Smart Grid - II
Link NOC:Introduction to Internet of Things Lecture 53 - Industrial Internet of Things - I
Link NOC:Introduction to Internet of Things Lecture 54 - Industrial Internet of Things - II
Link NOC:Introduction to Internet of Things Lecture 55 - Data Handling and Analytics - I
Link NOC:Introduction to Internet of Things Lecture 56 - Data Handling and Analytics - II
Link NOC:Introduction to Internet of Things Lecture 57 - Case Study: Agriculture
Link NOC:Introduction to Internet of Things Lecture 58 - Case Study: Healthcare
Link NOC:Introduction to Internet of Things Lecture 59 - Case Study: Activity Monitoring - I
Link NOC:Introduction to Internet of Things Lecture 60 - Case Study: Activity Monitoring - II
Link NOC:Cloud Computing Lecture 1 - Cloud Computing Overview
Link NOC:Cloud Computing Lecture 2 - Cloud Computing Overview (Continued...)
Link NOC:Cloud Computing Lecture 3 - Cloud Computing - Introduction
Link NOC:Cloud Computing Lecture 4 - Cloud Computing Architecture
Link NOC:Cloud Computing Lecture 5 - Cloud Computing Architecture (Continued...)
Link NOC:Cloud Computing Lecture 6 - Cloud Computing Architecture - Deployment Models
Link NOC:Cloud Computing Lecture 7 - Cloud Computing Virtualization
Link NOC:Cloud Computing Lecture 8 - Cloud Computing XML Basics
Link NOC:Cloud Computing Lecture 9 - Cloud Computing XML Basics - II
Link NOC:Cloud Computing Lecture 10 - Cloud Computing Web Services, Service Oriented Architecture
Link NOC:Cloud Computing Lecture 11 - Service Level Agreement
Link NOC:Cloud Computing Lecture 12 - Cloud Economics
Link NOC:Cloud Computing Lecture 13 - Managing Data
Link NOC:Cloud Computing Lecture 14 - Introduction to MapReduce
Link NOC:Cloud Computing Lecture 15 - Open Stack
Link NOC:Cloud Computing Lecture 16 - Cloud Computing - Opensource Cloud - Openstack Demo
Link NOC:Cloud Computing Lecture 17 - Cloud Computing Case Study with a commercial Cloud - Microsoft Azure
Link NOC:Cloud Computing Lecture 18 - Cloud Computing Demo - Microsoft Azure
Link NOC:Cloud Computing Lecture 19 - Cloud Computing Case Study - Google Cloud Platform (GCP)
Link NOC:Cloud Computing Lecture 20 - Cloud Computing Demo - Google Cloud Platform (GCP)
Link NOC:Cloud Computing Lecture 21 - SLA-Tutorial
Link NOC:Cloud Computing Lecture 22 - Cloudonomics-Tutorial
Link NOC:Cloud Computing Lecture 23 - MapReduce-Tutorial
Link NOC:Cloud Computing Lecture 24 - Resource Management - I
Link NOC:Cloud Computing Lecture 25 - Resource Management - II
Link NOC:Cloud Computing Lecture 26 - Cloud Computing: Security - I
Link NOC:Cloud Computing Lecture 27 - Cloud Computing: Security - II
Link NOC:Cloud Computing Lecture 28 - Cloud Computing: Security - III
Link NOC:Cloud Computing Lecture 29 - Cloud Computing: Security Issues in Collaborative SaaS Cloud
Link NOC:Cloud Computing Lecture 30 - Cloud Computing: Broker for Cloud Marketplace
Link NOC:Cloud Computing Lecture 31 - Mobile Cloud Computing - I
Link NOC:Cloud Computing Lecture 32 - Mobile Cloud Computing - II
Link NOC:Cloud Computing Lecture 33 - Fog Computing - I
Link NOC:Cloud Computing Lecture 34 - Fog Computing - II
Link NOC:Cloud Computing Lecture 35 - Use Case-Geo-spatial Cloud
Link NOC:Cloud Computing Lecture 36 - Introduction to DOCKER Container
Link NOC:Cloud Computing Lecture 37 - Green Cloud
Link NOC:Cloud Computing Lecture 38 - Sensor Cloud Computing
Link NOC:Cloud Computing Lecture 39 - IoT Cloud
Link NOC:Cloud Computing Lecture 40 - Course Summary and Research Areas
Link NOC:Problem Solving through Programming in C Lecture 1 - Introduction
Link NOC:Problem Solving through Programming in C Lecture 2 - Idea of Algorithms
Link NOC:Problem Solving through Programming in C Lecture 3 - Flow Chart and Pseudocode
Link NOC:Problem Solving through Programming in C Lecture 4 - Introduction to Programming Language Concepts
Link NOC:Problem Solving through Programming in C Lecture 5 - Variables and Memory
Link NOC:Problem Solving through Programming in C Lecture 6 - Types of Software and Compilers
Link NOC:Problem Solving through Programming in C Lecture 7 - Introduction to C Programming Language
Link NOC:Problem Solving through Programming in C Lecture 8 - Variables and Variable Types in C
Link NOC:Problem Solving through Programming in C Lecture 9 - Introducing Functions
Link NOC:Problem Solving through Programming in C Lecture 10 - Address and Content of Variables and Types
Link NOC:Problem Solving through Programming in C Lecture 11 - Assignment Statement and Operators in C
Link NOC:Problem Solving through Programming in C Lecture 12 - Arithmetic Expressions and Relational Expressions
Link NOC:Problem Solving through Programming in C Lecture 13 - Logical Operators and Change in Control Flow
Link NOC:Problem Solving through Programming in C Lecture 14 - Use of Logical Operaotrs in Branching
Link NOC:Problem Solving through Programming in C Lecture 15 - Branching : IF-ELSE Statement
Link NOC:Problem Solving through Programming in C Lecture 16 - IF-ELSE Statement (Continued...)
Link NOC:Problem Solving through Programming in C Lecture 17 - Switch statement
Link NOC:Problem Solving through Programming in C Lecture 18 - Switch Statement (Continued...) and Introduction to Loops
Link NOC:Problem Solving through Programming in C Lecture 19 - Implementing Repetitions (Loops)
Link NOC:Problem Solving through Programming in C Lecture 20 - Implementation of Loops with for Statement (Continued...)
Link NOC:Problem Solving through Programming in C Lecture 21 - For Statement (Continued...)
Link NOC:Problem Solving through Programming in C Lecture 22 - Example of If-Else
Link NOC:Problem Solving through Programming in C Lecture 23 - Example of Loops
Link NOC:Problem Solving through Programming in C Lecture 24 - Example of Loops (Continued...)
Link NOC:Problem Solving through Programming in C Lecture 25 - Example of Loops (Continued...), Use of FOR Loops
Link NOC:Problem Solving through Programming in C Lecture 26 - Introduction to Arrays
Link NOC:Problem Solving through Programming in C Lecture 27 - Arrays (Continued...)
Link NOC:Problem Solving through Programming in C Lecture 28 - Arrays (Continued...)
Link NOC:Problem Solving through Programming in C Lecture 29 - Program using Arrays
Link NOC:Problem Solving through Programming in C Lecture 30 - Array Problem
Link NOC:Problem Solving through Programming in C Lecture 31 - Linear Search
Link NOC:Problem Solving through Programming in C Lecture 32 - Character Array and Strings
Link NOC:Problem Solving through Programming in C Lecture 33 - String Operations
Link NOC:Problem Solving through Programming in C Lecture 34 - 2-D Array Operation
Link NOC:Problem Solving through Programming in C Lecture 35 - Introducing Functions
Link NOC:Problem Solving through Programming in C Lecture 36 - More on Functions
Link NOC:Problem Solving through Programming in C Lecture 37 - Function (Continued...)
Link NOC:Problem Solving through Programming in C Lecture 38 - Scanf and Printf Functions; Function Prototype
Link NOC:Problem Solving through Programming in C Lecture 39 - Parameter Passing in Function Revision
Link NOC:Problem Solving through Programming in C Lecture 40 - Parameter Passing in Function Revision (Continued...)
Link NOC:Problem Solving through Programming in C Lecture 41 - Substitution of # include and Macro
Link NOC:Problem Solving through Programming in C Lecture 42 - search as a function
Link NOC:Problem Solving through Programming in C Lecture 43 - Binary Search
Link NOC:Problem Solving through Programming in C Lecture 44 - Binary Search (Continued...)
Link NOC:Problem Solving through Programming in C Lecture 45 - Sorting Methods
Link NOC:Problem Solving through Programming in C Lecture 46 - Bubble Sort (Continued...)
Link NOC:Problem Solving through Programming in C Lecture 47 - Use of Pointer in Function : Context Bubble Sort
Link NOC:Problem Solving through Programming in C Lecture 48 - Arrays at Strings
Link NOC:Problem Solving through Programming in C Lecture 49 - Data Representation
Link NOC:Problem Solving through Programming in C Lecture 50 - Bisection Method
Link NOC:Problem Solving through Programming in C Lecture 51 - Interpolation
Link NOC:Problem Solving through Programming in C Lecture 52 - Trapezoidal Rule and Runge-Kutta Method
Link NOC:Problem Solving through Programming in C Lecture 53 - Recursion
Link NOC:Problem Solving through Programming in C Lecture 54 - Recursion (Continued...)
Link NOC:Problem Solving through Programming in C Lecture 55 - Structure
Link NOC:Problem Solving through Programming in C Lecture 56 - Structure (Continued...)
Link NOC:Problem Solving through Programming in C Lecture 57 - Structure with typedef
Link NOC:Problem Solving through Programming in C Lecture 58 - Pointer
Link NOC:Problem Solving through Programming in C Lecture 59 - Pointer (Continued...)
Link NOC:Problem Solving through Programming in C Lecture 60 - Pointer in Structures
Link NOC:Problem Solving through Programming in C Lecture 61 - Dynamic Allocation and File
Link NOC:Real Time Operating System Lecture 1 - Introduction
Link NOC:Real Time Operating System Lecture 2 - Basics of Tast scheduling
Link NOC:Real Time Operating System Lecture 3 - Cyclic executives
Link NOC:Real Time Operating System Lecture 4 - Cyclic Scheduler
Link NOC:Real Time Operating System Lecture 5 - Cyclic Scheduler
Link NOC:Real Time Operating System Lecture 6 - Exercises on Frame size Selectoin
Link NOC:Real Time Operating System Lecture 7 - Event-driven schedulers
Link NOC:Real Time Operating System Lecture 8 - Rate Monotonic Algorithm
Link NOC:Real Time Operating System Lecture 9 - RMA Task Schedulability
Link NOC:Real Time Operating System Lecture 10 - Rate Monotonic Analysis
Link NOC:Real Time Operating System Lecture 11 - RMA Generalizations
Link NOC:Real Time Operating System Lecture 12 - Further RMA Generalizations
Link NOC:Real Time Operating System Lecture 13 - Resource Sharing among Real-Time Tasks
Link NOC:Real Time Operating System Lecture 14 - Solution to Priority Inversion Problem
Link NOC:Real Time Operating System Lecture 15 - Highest Locker Protocol
Link NOC:Real Time Operating System Lecture 16 - Priority Ceiling Protocol
Link NOC:Real Time Operating System Lecture 17 - PCP Priority Inversions
Link NOC:Real Time Operating System Lecture 18 - Analysis of PCP priority inversions
Link NOC:Real Time Operating System Lecture 19 - Some basic issues in Real-Time Operating Systems
Link NOC:Real Time Operating System Lecture 20 - Unix as a Real-Time operating System
Link NOC:Introduction to Soft Computing Lecture 1 - Introduction to soft computing
Link NOC:Introduction to Soft Computing Lecture 2 - Introduction to Fuzzy Logic
Link NOC:Introduction to Soft Computing Lecture 3 - Fuzzy membership functions (Continued...) and Defining Membership functions
Link NOC:Introduction to Soft Computing Lecture 4 - Fuzzy operations
Link NOC:Introduction to Soft Computing Lecture 5 - Fuzzy relations
Link NOC:Introduction to Soft Computing Lecture 6 - Fuzzy Relations (Continued...) and Fuzzy propositions
Link NOC:Introduction to Soft Computing Lecture 7 - Fuzzy implications
Link NOC:Introduction to Soft Computing Lecture 8 - Fuzzy Inferences
Link NOC:Introduction to Soft Computing Lecture 9 - Defuzzification techniques (Part-I)
Link NOC:Introduction to Soft Computing Lecture 10 - Defuzzification Techniques (Part-I) (Continued...)
Link NOC:Introduction to Soft Computing Lecture 11 - Fuzzy logic controller
Link NOC:Introduction to Soft Computing Lecture 12 - Fuzzy Logic Controller (Continued...)
Link NOC:Introduction to Soft Computing Lecture 13 - Fuzzy logic controller (Continued...)
Link NOC:Introduction to Soft Computing Lecture 14 - Concept of Genetic Algorithm
Link NOC:Introduction to Soft Computing Lecture 15 - Concept of Genetic Algorithm (Continued...) and GA Strategies
Link NOC:Introduction to Soft Computing Lecture 16 - GA Operator : Encoding schemes
Link NOC:Introduction to Soft Computing Lecture 17 - GA operator : encoding scheme (Continued...)
Link NOC:Introduction to Soft Computing Lecture 18 - GA Operator : Selection
Link NOC:Introduction to Soft Computing Lecture 19 - GA Operator : Selection (Continued...)
Link NOC:Introduction to Soft Computing Lecture 20 - GA Operator : Crossover techniques
Link NOC:Introduction to Soft Computing Lecture 21 - GA Operator : Crossover (Continued...)
Link NOC:Introduction to Soft Computing Lecture 22 - GA Operator : Crossover (Continued...)
Link NOC:Introduction to Soft Computing Lecture 23 - GA Operator : Mutation and others
Link NOC:Introduction to Soft Computing Lecture 24 - Multi-objective optimization problem solving
Link NOC:Introduction to Soft Computing Lecture 25 - Multi-objective optimization problem solving (Continued...)
Link NOC:Introduction to Soft Computing Lecture 26 - Concept of domination
Link NOC:Introduction to Soft Computing Lecture 27 - Non-Pareto based approaches to solve MOOPs
Link NOC:Introduction to Soft Computing Lecture 28 - Non-Pareto based approaches to solve MOOPs (Continued...)
Link NOC:Introduction to Soft Computing Lecture 29 - Pareto-Based approaches to solve MOOPs
Link NOC:Introduction to Soft Computing Lecture 30 - Pareto-based approaches to solve MOOPs (Continued....)
Link NOC:Introduction to Soft Computing Lecture 31 - Pareto-based approach to solve MOOPs
Link NOC:Introduction to Soft Computing Lecture 32 - Pareto-based approach to solve MOOPs (Continued...)
Link NOC:Introduction to Soft Computing Lecture 33 - Pareto-based approach to solve MOOPs (Continued...)
Link NOC:Introduction to Soft Computing Lecture 34 - Introduction to Artificial Neural Network
Link NOC:Introduction to Soft Computing Lecture 35 - ANN Architectures
Link NOC:Introduction to Soft Computing Lecture 36 - Training ANNs
Link NOC:Introduction to Soft Computing Lecture 37 - Training ANNs (Continued....)
Link NOC:Introduction to Soft Computing Lecture 38 - Training ANNs (Continued....)
Link NOC:Introduction to Soft Computing Lecture 39 - Training ANNs (Continued....)
Link NOC:Introduction to Soft Computing Lecture 40 - Soft computing tools
Link NOC:Data Mining Lecture 1 - Introduction, Knowledge Discovery Process
Link NOC:Data Mining Lecture 2 - Data Preprocessing - I
Link NOC:Data Mining Lecture 3 - Data Preprocessing - II
Link NOC:Data Mining Lecture 4 - Association Rules
Link NOC:Data Mining Lecture 5 - Apriori algorithm
Link NOC:Data Mining Lecture 6 - Rule generation
Link NOC:Data Mining Lecture 7 - Classification
Link NOC:Data Mining Lecture 8 - Decision Tree - I
Link NOC:Data Mining Lecture 9 - Decision Tree - II
Link NOC:Data Mining Lecture 10 - Decision Tree - III
Link NOC:Data Mining Lecture 11 - Decision Tree - IV
Link NOC:Data Mining Lecture 12 - Bayes Classifier - I
Link NOC:Data Mining Lecture 13 - Bayes Classifier - II
Link NOC:Data Mining Lecture 14 - Bayes Classifier - III
Link NOC:Data Mining Lecture 15 - Bayes Classifier - IV
Link NOC:Data Mining Lecture 16 - Bayes Classifier - V
Link NOC:Data Mining Lecture 17 - K Nearest Neighbor - I
Link NOC:Data Mining Lecture 18 - K Nearest Neighbor - II
Link NOC:Data Mining Lecture 19
Link NOC:Data Mining Lecture 20
Link NOC:Data Mining Lecture 21
Link NOC:Data Mining Lecture 22 - Support Vector Machine - I
Link NOC:Data Mining Lecture 23 - Support Vector Machine - II
Link NOC:Data Mining Lecture 24 - Support Vector Machine - III
Link NOC:Data Mining Lecture 25 - Support Vector Machine - IV
Link NOC:Data Mining Lecture 26 - Support Vector Machine - V
Link NOC:Data Mining Lecture 27 - Kernel Machines
Link NOC:Data Mining Lecture 28 - Artificial Neural Networks - I
Link NOC:Data Mining Lecture 29 - Artificial Neural Networks - II
Link NOC:Data Mining Lecture 30 - Artificial Neural Networks - III
Link NOC:Data Mining Lecture 31 - Artificial Neural Networks - IV
Link NOC:Data Mining Lecture 32 - Clustering - I
Link NOC:Data Mining Lecture 33 - Clustering - II
Link NOC:Data Mining Lecture 34 - Clustering - III
Link NOC:Data Mining Lecture 35 - Clustering - IV
Link NOC:Data Mining Lecture 36 - Clustering - V
Link NOC:Data Mining Lecture 37 - Regression - I
Link NOC:Data Mining Lecture 38 - Regression - II
Link NOC:Data Mining Lecture 39 - Regression - III
Link NOC:Data Mining Lecture 40 - Regression - IV
Link NOC:Data Mining Lecture 41 - Dimensionality Reduction - I
Link NOC:Data Mining Lecture 42 - Dimensionality Reduction - II
Link NOC:Data Mining Lecture 43 - Tutorial
Link NOC:Data Mining Lecture 44 - Live Session
Link NOC:Data Base Management System Lecture 1 - Course Overview
Link NOC:Data Base Management System Lecture 2 - Introduction to DBMS/1
Link NOC:Data Base Management System Lecture 3 - Introduction to DBMS/2
Link NOC:Data Base Management System Lecture 4 - Introduction to Relational Model/1
Link NOC:Data Base Management System Lecture 5 - Introduction to Relational Model/2
Link NOC:Data Base Management System Lecture 6 - Introduction to SQL/1
Link NOC:Data Base Management System Lecture 7 - Introduction to SQL/2
Link NOC:Data Base Management System Lecture 8 - Introduction to SQL/3
Link NOC:Data Base Management System Lecture 9 - Intermediate SQL/1
Link NOC:Data Base Management System Lecture 10 - Intermediate SQL/2
Link NOC:Data Base Management System Lecture 11 - Advanced SQL
Link NOC:Data Base Management System Lecture 12 - Formal Relational Query Languages
Link NOC:Data Base Management System Lecture 13 - Entity-Relationship Model/1
Link NOC:Data Base Management System Lecture 14 - Entity-Relationship Model/2
Link NOC:Data Base Management System Lecture 15 - Entity-Relationship Model/3
Link NOC:Data Base Management System Lecture 16 - Relational Database Design
Link NOC:Data Base Management System Lecture 17 - Relational Database Design (Continued...)
Link NOC:Data Base Management System Lecture 18 - Relational Database Design/3
Link NOC:Data Base Management System Lecture 19 - Relational Database Design (Continued...)
Link NOC:Data Base Management System Lecture 20 - Relational Database Design/5
Link NOC:Data Base Management System Lecture 21 - Application Design and Development/1
Link NOC:Data Base Management System Lecture 22 - Application Design and Development/2
Link NOC:Data Base Management System Lecture 23 - Application Design and Development/3
Link NOC:Data Base Management System Lecture 24 - Storage and File Structure/1: Storage
Link NOC:Data Base Management System Lecture 25 - Storage and File Structure/2: File Structure
Link NOC:Data Base Management System Lecture 26 - Indexing and Hashing/1 : Indexing/1
Link NOC:Data Base Management System Lecture 27 - Indexing and Hashing/2 : Indexing/2
Link NOC:Data Base Management System Lecture 28 - Indexing and Hashing/3 : Indexing/3
Link NOC:Data Base Management System Lecture 29 - Indexing and Hashing/4 : Hashing
Link NOC:Data Base Management System Lecture 30 - Indexing and Hashing/5 : Index Design
Link NOC:Data Base Management System Lecture 31 - Transactions/1
Link NOC:Data Base Management System Lecture 32 - Transactions/2 : Serializability
Link NOC:Data Base Management System Lecture 33 - Transactions/3 : Recoverability
Link NOC:Data Base Management System Lecture 34 - Concurrency Control/1
Link NOC:Data Base Management System Lecture 35 - Concurrency Control/2
Link NOC:Data Base Management System Lecture 36 - Recovery/1
Link NOC:Data Base Management System Lecture 37 - Recovery/2
Link NOC:Data Base Management System Lecture 38 - Query Processing and Optimization/1 : Processing
Link NOC:Data Base Management System Lecture 39 - Query Processing and Optimization/2 : Optimization
Link NOC:Data Base Management System Lecture 40 - Course Summarization
Link NOC:Data Base Management System Lecture 41 - Live Session
Link NOC:Data Base Management System Lecture 42 - Live Session - 2
Link NOC:Software Engineering Lecture 1 - Introduction - I
Link NOC:Software Engineering Lecture 2 - Introduction - II
Link NOC:Software Engineering Lecture 3 - Introduction - III
Link NOC:Software Engineering Lecture 4 - Introduction - IV
Link NOC:Software Engineering Lecture 5 - Introduction - V
Link NOC:Software Engineering Lecture 6 - Life Cycle Model
Link NOC:Software Engineering Lecture 7 - Life Cycle Model
Link NOC:Software Engineering Lecture 8 - Waterfall Model
Link NOC:Software Engineering Lecture 9 - Waterfall Derivatives
Link NOC:Software Engineering Lecture 10 - Incremental Model
Link NOC:Software Engineering Lecture 11 - Evolutionary Model
Link NOC:Software Engineering Lecture 12 - Agile Model
Link NOC:Software Engineering Lecture 13 - Extreme Programming and Scrum
Link NOC:Software Engineering Lecture 14 - Scrum
Link NOC:Software Engineering Lecture 15 - Introduction to requirement specification
Link NOC:Software Engineering Lecture 16 - Requirement gathering and analysis
Link NOC:Software Engineering Lecture 17 - Functional requirements
Link NOC:Software Engineering Lecture 18 - Representation of complex programming logic
Link NOC:Software Engineering Lecture 19 - Design Fundamentals
Link NOC:Software Engineering Lecture 20 - Modular Design
Link NOC:Software Engineering Lecture 21 - Classification of Cohesion
Link NOC:Software Engineering Lecture 22 - Classification of Coupling
Link NOC:Software Engineering Lecture 23 - Introduction to structured analysis and structured design
Link NOC:Software Engineering Lecture 24 - Basics of Data Flow Diagrams (DFD)
Link NOC:Software Engineering Lecture 25 - Developing DFD Model
Link NOC:Software Engineering Lecture 26 - Examples of DFD Model development
Link NOC:Software Engineering Lecture 27 - DFD Model - More Examples
Link NOC:Software Engineering Lecture 28 - Essentials of Structure Chart
Link NOC:Software Engineering Lecture 29 - Transform Analysis, Transaction Analysis
Link NOC:Software Engineering Lecture 30 - Structured Design Examples
Link NOC:Software Engineering Lecture 31 - Use Case Modelling
Link NOC:Software Engineering Lecture 32 - Factoring Use Cases
Link NOC:Software Engineering Lecture 33 - Overview of Class diagram
Link NOC:Software Engineering Lecture 34 - Inheritance relationship
Link NOC:Software Engineering Lecture 35 - Association relationship
Link NOC:Software Engineering Lecture 36 - Aggregation/ Composition and dependency relations
Link NOC:Software Engineering Lecture 37 - Interation Modelling
Link NOC:Software Engineering Lecture 38 - Development of Sequence diagrams
Link NOC:Software Engineering Lecture 39 - State-Machine diagram
Link NOC:Software Engineering Lecture 40 - An Object-Oriented design process
Link NOC:Software Engineering Lecture 41 - Domain Analysis
Link NOC:Software Engineering Lecture 42 - Examples of object-oriented design
Link NOC:Software Engineering Lecture 43 - Basic concepts in Testing - I
Link NOC:Software Engineering Lecture 44 - Basic concepts in Testing - II
Link NOC:Software Engineering Lecture 45 - Basic concepts in Testing - III
Link NOC:Software Engineering Lecture 46 - Unit testing strategies - I
Link NOC:Software Engineering Lecture 47 - Unit testing strategies - II
Link NOC:Software Engineering Lecture 48 - Equivalance Class Testing - I
Link NOC:Software Engineering Lecture 49 - Equivalance Class Testing - II
Link NOC:Software Engineering Lecture 50 - Special Value Testing
Link NOC:Software Engineering Lecture 51 - Combinatorial Testing
Link NOC:Software Engineering Lecture 52 - Decision Table Testing
Link NOC:Software Engineering Lecture 53 - Cause effect graphing
Link NOC:Software Engineering Lecture 54 - Pairwise Testing
Link NOC:Software Engineering Lecture 55 - White box Testing
Link NOC:Software Engineering Lecture 56 - Condition Testing
Link NOC:Software Engineering Lecture 57 - MC/DC Coverage
Link NOC:Software Engineering Lecture 58 - MC/DC Testing
Link NOC:Software Engineering Lecture 59 - Path Testing
Link NOC:Software Engineering Lecture 60 - Dataflow and Mutation Testing
Link NOC:Computer Networks and Internet Protocol Lecture 1 - Introduction to Computer Networks - A brief history
Link NOC:Computer Networks and Internet Protocol Lecture 2 - Data Networks - from Circuit Switching Network to Packet Switching Network
Link NOC:Computer Networks and Internet Protocol Lecture 3 - Network Protocol Stack
Link NOC:Computer Networks and Internet Protocol Lecture 4 - Services at the Different Layers of the Protocol Stack
Link NOC:Computer Networks and Internet Protocol Lecture 5 - Application Layer I - Different Protocols at the Application Layer
Link NOC:Computer Networks and Internet Protocol Lecture 6 - Application Layer II - Domain Name Systems
Link NOC:Computer Networks and Internet Protocol Lecture 7 - Application Layer III - The Web
Link NOC:Computer Networks and Internet Protocol Lecture 8 - Application Layer III - Hypertext Transfer Protocol
Link NOC:Computer Networks and Internet Protocol Lecture 9 - Application Layer III - Internet Mail Transfer
Link NOC:Computer Networks and Internet Protocol Lecture 10 - Application Layer IV - File Transfer (FTP)
Link NOC:Computer Networks and Internet Protocol Lecture 11 - Transport Layer I - Services
Link NOC:Computer Networks and Internet Protocol Lecture 12 - Transport Layer II - Connection
Link NOC:Computer Networks and Internet Protocol Lecture 13 - Transport Layer II - Connection (Continued...)
Link NOC:Computer Networks and Internet Protocol Lecture 14 - Transport Layer IV - Reliability
Link NOC:Computer Networks and Internet Protocol Lecture 15 - Transport Layer V - Sliding Window Protocols
Link NOC:Computer Networks and Internet Protocol Lecture 16 - Transport Layer Performance
Link NOC:Computer Networks and Internet Protocol Lecture 17 - Buffer Management and Congestion Control
Link NOC:Computer Networks and Internet Protocol Lecture 18 - Transport Layer Primitives
Link NOC:Computer Networks and Internet Protocol Lecture 19 - Transmission Control Protocol I - Basics
Link NOC:Computer Networks and Internet Protocol Lecture 20 - Transmission Control Protocol II - Connections
Link NOC:Computer Networks and Internet Protocol Lecture 21 - Transmission Control Protocol III - Flow Control
Link NOC:Computer Networks and Internet Protocol Lecture 22 - Transmission Control Protocol IV - Congestion Control
Link NOC:Computer Networks and Internet Protocol Lecture 23 - User Datagram Protocol
Link NOC:Computer Networks and Internet Protocol Lecture 24 - Socket Programming - I
Link NOC:Computer Networks and Internet Protocol Lecture 25 - Socket Programming - II
Link NOC:Computer Networks and Internet Protocol Lecture 26 - Network Layer I - Introduction
Link NOC:Computer Networks and Internet Protocol Lecture 27 - IP Addressing (IPv4) I - Classful addressing
Link NOC:Computer Networks and Internet Protocol Lecture 28 - IP Addressing (IPv4) II - CIDR
Link NOC:Computer Networks and Internet Protocol Lecture 29 - IP Addressing (IPv4) III - Network Address Translation (NAT)
Link NOC:Computer Networks and Internet Protocol Lecture 30 - IPv6 Addressing
Link NOC:Computer Networks and Internet Protocol Lecture 31 - Internet QoS - I (What is QoS)
Link NOC:Computer Networks and Internet Protocol Lecture 32 - Internet QoS - II (Basic QoS Architecture)
Link NOC:Computer Networks and Internet Protocol Lecture 33 - Internet QoS - III (Traffic Policing and Traffic Shaping)
Link NOC:Computer Networks and Internet Protocol Lecture 34 - Internet QoS - IV (Traffic Scheduling)
Link NOC:Computer Networks and Internet Protocol Lecture 35 - Internet QoS - V (Integrated and Differentiated Service Architecture)
Link NOC:Computer Networks and Internet Protocol Lecture 36 - IP Routing Table
Link NOC:Computer Networks and Internet Protocol Lecture 37 - Routing in the Internet I - Intra-domain routing
Link NOC:Computer Networks and Internet Protocol Lecture 38 - Routing in the Internet II - Routing protocols
Link NOC:Computer Networks and Internet Protocol Lecture 39 - Routing in the Internet III - Inter-domain Routing
Link NOC:Computer Networks and Internet Protocol Lecture 40 - Routing in the Internet IV - Border Gateway Protocol
Link NOC:Computer Networks and Internet Protocol Lecture 41 - IP Routers
Link NOC:Computer Networks and Internet Protocol Lecture 42 - IP Routers Demo
Link NOC:Computer Networks and Internet Protocol Lecture 43 - Software Defined Networking - I (Basics)
Link NOC:Computer Networks and Internet Protocol Lecture 44 - Software Defined Networking - II (Open Flow)
Link NOC:Computer Networks and Internet Protocol Lecture 45 - Software Defined Networking - III (Demo)
Link NOC:Computer Networks and Internet Protocol Lecture 46 - Data Link Layer - Overview
Link NOC:Computer Networks and Internet Protocol Lecture 47 - Data Link Layer - Basic Concepts
Link NOC:Computer Networks and Internet Protocol Lecture 48 - Data Link Layer - Ethernet
Link NOC:Computer Networks and Internet Protocol Lecture 49 - Data Link Layer - Ethernet (Continued...)
Link NOC:Computer Networks and Internet Protocol Lecture 50 - Data Link Layer - Flow and Error Control
Link NOC:Computer Networks and Internet Protocol Lecture 51 - ARP-RAPP-BOOTP-DHCP
Link NOC:Computer Networks and Internet Protocol Lecture 52 - ARP-RAPP-BOOTP-DHCP (Continued...)
Link NOC:Computer Networks and Internet Protocol Lecture 53
Link NOC:Computer Networks and Internet Protocol Lecture 54 - Wireless LANs
Link NOC:Computer Networks and Internet Protocol Lecture 55 - Layer 1: Physical Layer
Link NOC:Computer Networks and Internet Protocol Lecture 56 - Layer 1: Physical Layer - II
Link NOC:Computer Networks and Internet Protocol Lecture 57 - Layer 1: Physical Layer - III
Link NOC:Computer Networks and Internet Protocol Lecture 58 - Network Security - Overview
Link NOC:Computer Networks and Internet Protocol Lecture 59 - Network Security - II
Link NOC:Computer Networks and Internet Protocol Lecture 60 - Network Security - III [TCP/IP Security]
Link NOC:Blockchain Architecture Design and Use Cases Lecture 1 - Introduction to Blockchain - I (Basics)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 2 - Introduction to Blockchain - II (History)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 3 - Introduction to Blockchain - III (Architecture)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 4 - Introduction to Blockchain - IV (Conceptualization)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 5 - Basic Crypto Primitives - I
Link NOC:Blockchain Architecture Design and Use Cases Lecture 6 - Basic Crypto Primitives - II
Link NOC:Blockchain Architecture Design and Use Cases Lecture 7 - Bitcoin Basics - I
Link NOC:Blockchain Architecture Design and Use Cases Lecture 8 - Bitcoin Basics - II
Link NOC:Blockchain Architecture Design and Use Cases Lecture 9 - Bitcoin Basics - III
Link NOC:Blockchain Architecture Design and Use Cases Lecture 10 - Distributed Consensus
Link NOC:Blockchain Architecture Design and Use Cases Lecture 11 - Consensus in Bitcoin - I (The Basics)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 12 - Consensus in Bitcoin - II (PoW and Beyond)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 13 - Consensus in Bitcoin - III (The Miners)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 14 - Permissioned Blockchain - I (Basics)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 15 - Permissioned Blockchain - II (Consensus)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 16 - Permissioned Blockchain - III (RAFT Consensus)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 17 - Permissioned Blockchain - IV (Byzantine General Problem)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 18 - Permissioned Blockchain - V (Practical Byzantine Fault Tolerance)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 19 - Blockchain for Enterprise - Overview
Link NOC:Blockchain Architecture Design and Use Cases Lecture 20 - Blockchain Components and Concepts
Link NOC:Blockchain Architecture Design and Use Cases Lecture 21 - Hyperledger Fabric - Transaction Flow
Link NOC:Blockchain Architecture Design and Use Cases Lecture 22 - Hyperledger Fabric Details
Link NOC:Blockchain Architecture Design and Use Cases Lecture 23 - Fabric - Membership and Identity Management
Link NOC:Blockchain Architecture Design and Use Cases Lecture 24 - Hyperledger Fabric Network Setup
Link NOC:Blockchain Architecture Design and Use Cases Lecture 25 - Fabric Demo on IBM Blockchain Cloud - I
Link NOC:Blockchain Architecture Design and Use Cases Lecture 26 - Fabric Demo on IBM Blockchain Cloud - II
Link NOC:Blockchain Architecture Design and Use Cases Lecture 27 - Fabric Demo, deploy from scratch - III
Link NOC:Blockchain Architecture Design and Use Cases Lecture 28 - Hyperledger Composer - Application Development
Link NOC:Blockchain Architecture Design and Use Cases Lecture 29 - Hyperledger Composer - Network Administration
Link NOC:Blockchain Architecture Design and Use Cases Lecture 30 - Blockchain Use Cases
Link NOC:Blockchain Architecture Design and Use Cases Lecture 31 - Blockchain in Financial Service - I (Payments and Secure Trading)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 32 - Blockchain in Financial Service - II (Compliance and Mortgage)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 33 - Blockchain in Financial Service - III (Financial Trade)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 34 - Revolutionizing Global Trade
Link NOC:Blockchain Architecture Design and Use Cases Lecture 35 - Blockchain in Supply Chain - I
Link NOC:Blockchain Architecture Design and Use Cases Lecture 36 - Blockchain in Supply Chain - II
Link NOC:Blockchain Architecture Design and Use Cases Lecture 37 - Blockchain in Other Industries
Link NOC:Blockchain Architecture Design and Use Cases Lecture 38 - Blockchain in Government - I (Advantages)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 39 - Blockchain in Government - II (Use Cases)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 40 - Blockchain in Government - III (Digital Identity)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 41 - Blockchain in Government - IV (Hyperledger Indy)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 42 - Blockchain in Government - V (Tax Payments and Land Registry Records)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 43 - Blockchain Security - I (Overview)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 44 - Blockchain Security - II (Membership and Access control in Fabric)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 45 - Blockchain Security - III (Privacy in Fabric)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 46 - Blockchain Security - III (Fabric SideDB)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 47 - Research Aspects - I (Consensus Scalability)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 48 - Research Aspects - II (Bitcoin-NG)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 49 - Research Aspects - III (Collective Signing)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 50 - Research Aspects - IV (Byzcoin)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 51 - Research Aspects - V (Algorand)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 52 - Research Aspects - VI (Cross Fault Tolerance)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 53 - Research Aspects - VII (Secured Multi-Party Computation)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 54 - Blockchain for Science - I (Blockchain for Big Data)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 55 - Blockchain for Science - II (Blockchain and AI)
Link NOC:Blockchain Architecture Design and Use Cases Lecture 56 - Comparing Ecosystems - Ethereum
Link NOC:Blockchain Architecture Design and Use Cases Lecture 57 - Comparing Ecosystems - Ethereum development tools and Quorum
Link NOC:Blockchain Architecture Design and Use Cases Lecture 58 - Comparing Ecosystems - Corda Part 1
Link NOC:Blockchain Architecture Design and Use Cases Lecture 59 - Comparing Ecosystems - Corda Part 2
Link NOC:Blockchain Architecture Design and Use Cases Lecture 60 - Concluding the course
Link NOC:Switching Circuits and Logic Design Lecture 1 - Introduction
Link NOC:Switching Circuits and Logic Design Lecture 2 - Octal and Hexadecimal Number Systems
Link NOC:Switching Circuits and Logic Design Lecture 3 - Signed and Unsigned Binary Number Representation
Link NOC:Switching Circuits and Logic Design Lecture 4 - Binary Addition and Subtraction
Link NOC:Switching Circuits and Logic Design Lecture 5 - BCD and Gray Code Representations
Link NOC:Switching Circuits and Logic Design Lecture 6 - Error Detection and Correction
Link NOC:Switching Circuits and Logic Design Lecture 7 - Logic Gates
Link NOC:Switching Circuits and Logic Design Lecture 8 - Logic Families to Implement Gates
Link NOC:Switching Circuits and Logic Design Lecture 9 - Emerging Technologies - Part I
Link NOC:Switching Circuits and Logic Design Lecture 10 - Emerging Technologies - Part II
Link NOC:Switching Circuits and Logic Design Lecture 11 - Switching Algebra
Link NOC:Switching Circuits and Logic Design Lecture 12 - Algebraic Manipulation
Link NOC:Switching Circuits and Logic Design Lecture 13 - Properties of Switching Functions
Link NOC:Switching Circuits and Logic Design Lecture 14 - Obtaining Canonical Representations of Functions
Link NOC:Switching Circuits and Logic Design Lecture 15 - Functional Completeness
Link NOC:Switching Circuits and Logic Design Lecture 16 - Minimization Using Karnaugh Maps - Part I
Link NOC:Switching Circuits and Logic Design Lecture 17 - Minimization Using Karnaugh Maps - Part II
Link NOC:Switching Circuits and Logic Design Lecture 18 - Minimization Using Karnaugh Maps - Part III
Link NOC:Switching Circuits and Logic Design Lecture 19 - Minimization using Tabular Method - Part I
Link NOC:Switching Circuits and Logic Design Lecture 20 - Minimization using Tabular Method - Part II
Link NOC:Switching Circuits and Logic Design Lecture 21 - Design of Adders - Part I
Link NOC:Switching Circuits and Logic Design Lecture 22 - Design of Adders - Part II
Link NOC:Switching Circuits and Logic Design Lecture 23 - Design of Adders - Part III
Link NOC:Switching Circuits and Logic Design Lecture 24 - Logic Design - Part I
Link NOC:Switching Circuits and Logic Design Lecture 25 - Logic Design - Part II
Link NOC:Switching Circuits and Logic Design Lecture 26 - Logic Design - Part III
Link NOC:Switching Circuits and Logic Design Lecture 27 - Binary Decision Diagrams - Part I
Link NOC:Switching Circuits and Logic Design Lecture 28 - Binary Decision Diagrams - Part II
Link NOC:Switching Circuits and Logic Design Lecture 29 - Logic Design using AND-EXOR Network
Link NOC:Switching Circuits and Logic Design Lecture 30 - Threshold Logic and Threshold Gates
Link NOC:Switching Circuits and Logic Design Lecture 31 - Latches and Flip-Flops - Part I
Link NOC:Switching Circuits and Logic Design Lecture 32 - Latches and Flip-Flops - Part II
Link NOC:Switching Circuits and Logic Design Lecture 33 - Latches and Flip-Flops - Part III
Link NOC:Switching Circuits and Logic Design Lecture 34 - Clocking and Timing - Part I
Link NOC:Switching Circuits and Logic Design Lecture 35 - Clocking and Timing - Part II
Link NOC:Switching Circuits and Logic Design Lecture 36 - Synthesis of Synchronous Sequential Circuits - Part I
Link NOC:Switching Circuits and Logic Design Lecture 37 - Synthesis of Synchronous Sequential Circuits - Part II
Link NOC:Switching Circuits and Logic Design Lecture 38 - Synthesis of Synchronous Sequential Circuits - Part III
Link NOC:Switching Circuits and Logic Design Lecture 39 - Synthesis of Synchronous Sequential Circuits - Part IV
Link NOC:Switching Circuits and Logic Design Lecture 40 - Minimization of Finite State Machines - Part I
Link NOC:Switching Circuits and Logic Design Lecture 41 - Minimization of Finite State Machines - Part II
Link NOC:Switching Circuits and Logic Design Lecture 42 - Design of Registers - Part I
Link NOC:Switching Circuits and Logic Design Lecture 43 - Design of Registers - Part II
Link NOC:Switching Circuits and Logic Design Lecture 44 - Design of Registers - Part III
Link NOC:Switching Circuits and Logic Design Lecture 45 - Design of Counters - Part I
Link NOC:Switching Circuits and Logic Design Lecture 46 - Design of Counters - Part II
Link NOC:Switching Circuits and Logic Design Lecture 47 - Digital-to-Analog Converter - Part I
Link NOC:Switching Circuits and Logic Design Lecture 48 - Digital-to-Analog Converter - Part II
Link NOC:Switching Circuits and Logic Design Lecture 49 - Analog-to-Digital Converter - Part I
Link NOC:Switching Circuits and Logic Design Lecture 50 - Analog-to-Digital Converter - Part II
Link NOC:Switching Circuits and Logic Design Lecture 51 - Analog-to-Digital Converter - Part III
Link NOC:Switching Circuits and Logic Design Lecture 52 - Asynchronous Sequential Circuits - Part I
Link NOC:Switching Circuits and Logic Design Lecture 53 - Asynchronous Sequential Circuits - Part II
Link NOC:Switching Circuits and Logic Design Lecture 54 - Algorithmic State Machine (ASM Chart
Link NOC:Switching Circuits and Logic Design Lecture 55 - Testing of Digital Circuits
Link NOC:Switching Circuits and Logic Design Lecture 56 - Fault Modeling
Link NOC:Switching Circuits and Logic Design Lecture 57 - Test Pattern Generation
Link NOC:Switching Circuits and Logic Design Lecture 58 - Design for Testability
Link NOC:Switching Circuits and Logic Design Lecture 59 - Built-in Self-Test - Part I
Link NOC:Switching Circuits and Logic Design Lecture 60 - Built-in Self-Test - Part II
Link NOC:Scalable Data Science Lecture 1 - Background: Introduction
Link NOC:Scalable Data Science Lecture 2 - Probability: Concentration inequalities
Link NOC:Scalable Data Science Lecture 3 - Linear algebra: PCA, SVD
Link NOC:Scalable Data Science Lecture 4 - Optimization: Basics, Convex, GD
Link NOC:Scalable Data Science Lecture 5 - Machine Learning: Supervised, generalization, feature learning, clustering.
Link NOC:Scalable Data Science Lecture 6 - Memory-efficient data structures: Hash functions, universal / perfect hash families
Link NOC:Scalable Data Science Lecture 7 - Bloom filters
Link NOC:Scalable Data Science Lecture 8 - Sketches for distinct count
Link NOC:Scalable Data Science Lecture 9 - Sketches for distinct count (Continued...)
Link NOC:Scalable Data Science Lecture 10 - Misra-Gries sketch
Link NOC:Scalable Data Science Lecture 11 - Frequent Element: Space Saving and Count Min
Link NOC:Scalable Data Science Lecture 12 - Frequent Element: Count Sketch
Link NOC:Scalable Data Science Lecture 13 - Near Neighbors
Link NOC:Scalable Data Science Lecture 14 - Locality Sensitive Hashing
Link NOC:Scalable Data Science Lecture 15 - Building LSH Tables
Link NOC:Scalable Data Science Lecture 16 - Approximate near neighbors search: Extensions e.g. multi-probe, b-bit hashing, Data dependent variants
Link NOC:Scalable Data Science Lecture 17 - Approximate near neighbors search: Extensions e.g. multi-probe, b-bit hashing, Data dependent variants (Continued...)
Link NOC:Scalable Data Science Lecture 18 - Approximate near neighbors search: Extensions e.g. multi-probe, b-bit hashing, Data dependent variants (Continued...)
Link NOC:Scalable Data Science Lecture 19 - Randomized Numerical Linear Algebra: Random projection
Link NOC:Scalable Data Science Lecture 20 - Randomized Numerical Linear Algebra: Random projection (Continued...)
Link NOC:Scalable Data Science Lecture 21 - Randomized Numerical Linear Algebra: a) Matrix multiplication + QB decomposition
Link NOC:Scalable Data Science Lecture 22 - Randomized Numerical Linear Algebra: b) CUR+CX
Link NOC:Scalable Data Science Lecture 23 - Randomized Numerical Linear Algebra: a) L2 regression using RP
Link NOC:Scalable Data Science Lecture 24 - Randomized Numerical Linear Algebra: b) Leverage scores
Link NOC:Scalable Data Science Lecture 25 - Randomized Numerical Linear Algebra: c) Hash Kernels + Kitchen Sink
Link NOC:Scalable Data Science Lecture 26 - Map-reduce and Hadoop
Link NOC:Scalable Data Science Lecture 27 - Hadoop System
Link NOC:Scalable Data Science Lecture 28 - Hadoop System (Continued...)
Link NOC:Scalable Data Science Lecture 29 - Hadoop System (Continued...)
Link NOC:Scalable Data Science Lecture 30 - Spark
Link NOC:Scalable Data Science Lecture 31 - Spark (Continued...)
Link NOC:Scalable Data Science Lecture 32 - Spark (Continued...)
Link NOC:Scalable Data Science Lecture 33 - Distributed Machine Learning and Optimization: Introduction
Link NOC:Scalable Data Science Lecture 34 - SGD+Proof
Link NOC:Scalable Data Science Lecture 35 - SGD+Proof (Continued...)
Link NOC:Scalable Data Science Lecture 36 - Distributed Machine Learning and Optimization:ADMM + applications
Link NOC:Scalable Data Science Lecture 37 - Distributed Machine Learning and Optimization:ADMM + applications (Continued...)
Link NOC:Scalable Data Science Lecture 38 - Clustering
Link NOC:Scalable Data Science Lecture 39 - Clustering (Continued...)
Link NOC:Scalable Data Science Lecture 40 - Conclusion
Link NOC:Compiler Design Lecture 1 - Introduction
Link NOC:Compiler Design Lecture 2 - Introduction (Continued...)
Link NOC:Compiler Design Lecture 3 - Introduction (Continued...)
Link NOC:Compiler Design Lecture 4 - Introduction (Continued...)
Link NOC:Compiler Design Lecture 5 - Introduction (Continued...)
Link NOC:Compiler Design Lecture 6 - Introduction (Continued...)
Link NOC:Compiler Design Lecture 7 - Lexical Analysis
Link NOC:Compiler Design Lecture 8 - Lexical Analysis (Continued...)
Link NOC:Compiler Design Lecture 9 - Lexical Analysis (Continued...)
Link NOC:Compiler Design Lecture 10 - Lexical Analysis (Continued...)
Link NOC:Compiler Design Lecture 11 - Lexical Analysis (Continued...)
Link NOC:Compiler Design Lecture 12 - Lexical Analysis (Continued...)
Link NOC:Compiler Design Lecture 13 - Lexical Analysis (Continued...)
Link NOC:Compiler Design Lecture 14 - Lexical Analysis (Continued...)
Link NOC:Compiler Design Lecture 15 - Lexical Analysis (Continued...)
Link NOC:Compiler Design Lecture 16 - Parser
Link NOC:Compiler Design Lecture 17 - Parser (Continued...)
Link NOC:Compiler Design Lecture 18 - Parser (Continued...)
Link NOC:Compiler Design Lecture 19 - Parser (Continued...)
Link NOC:Compiler Design Lecture 20 - Parser (Continued...)
Link NOC:Compiler Design Lecture 21 - Parser (Continued...)
Link NOC:Compiler Design Lecture 22 - Parser (Continued...)
Link NOC:Compiler Design Lecture 23 - Parser (Continued...)
Link NOC:Compiler Design Lecture 24 - Parser (Continued...)
Link NOC:Compiler Design Lecture 25 - Parser (Continued...)
Link NOC:Compiler Design Lecture 26 - Parser (Continued...)
Link NOC:Compiler Design Lecture 27 - Parser (Continued...)
Link NOC:Compiler Design Lecture 28 - Parser (Continued...)
Link NOC:Compiler Design Lecture 29 - Parser (Continued...)
Link NOC:Compiler Design Lecture 30 - Parser (Continued...)
Link NOC:Compiler Design Lecture 31 - Parser (Continued...)
Link NOC:Compiler Design Lecture 32 - SR Latch and Introduction to Clocked Flip-Flop
Link NOC:Compiler Design Lecture 33 - Edge-Triggered Flip-Flop
Link NOC:Compiler Design Lecture 34 - Representations of Flip-Flops
Link NOC:Compiler Design Lecture 35 - Analysis of Sequential Logic Circuit
Link NOC:Compiler Design Lecture 36 - Conversion of Flip-Flops and Flip-Flop Timing Parameters
Link NOC:Compiler Design Lecture 37 - Register and Shift Register: PIPO and SISO
Link NOC:Compiler Design Lecture 38 - Shift Register: SIPO, PISO and Universal Shift Register
Link NOC:Compiler Design Lecture 39 - Application of Shift Register
Link NOC:Compiler Design Lecture 40 - Linear Feedback Shift Register
Link NOC:Compiler Design Lecture 41 - Serial Addition, Multiplication and Division
Link NOC:Compiler Design Lecture 42 - Type Checking (Continued...)
Link NOC:Compiler Design Lecture 43 - Symbol Table
Link NOC:Compiler Design Lecture 44 - Symbol Table (Continued...)
Link NOC:Compiler Design Lecture 45 - Symbol Table (Continued...)
Link NOC:Compiler Design Lecture 46 - Symbol Table (Continued...) and Runtime Environment
Link NOC:Compiler Design Lecture 47 - Runtime Environment
Link NOC:Compiler Design Lecture 48 - Runtime Environment (Continued...)
Link NOC:Compiler Design Lecture 49 - Runtime Environment (Continued...)
Link NOC:Compiler Design Lecture 50 - Intermediate Code Generation
Link NOC:Compiler Design Lecture 51 - Intermediate Code Generation (Continued...)
Link NOC:Compiler Design Lecture 52 - Intermediate Code Generation (Continued...)
Link NOC:Compiler Design Lecture 53 - Intermediate Code Generation (Continued...)
Link NOC:Compiler Design Lecture 54 - Intermediate Code Generation (Continued...)
Link NOC:Compiler Design Lecture 55 - Intermediate Code Generation (Continued...)
Link NOC:Compiler Design Lecture 56 - Intermediate Code Generation (Continued...)
Link NOC:Compiler Design Lecture 57 - Intermediate Code Generation (Continued...)
Link NOC:Compiler Design Lecture 58 - Intermediate Code Generation (Continued...)
Link NOC:Compiler Design Lecture 59 - Intermediate Code Generation (Continued...)
Link NOC:Compiler Design Lecture 60 - Intermediate Code Generation (Continued...)
Link NOC:Compiler Design Lecture 61 - Intermediate Code Generation (Continued...)
Link NOC:Programming in Java Lecture 1 - Introduction
Link NOC:Programming in Java Lecture 2 - Java Programming Steps
Link NOC:Programming in Java Lecture 3 - Java Tools and Resources
Link NOC:Programming in Java Lecture 4 - Demonstration - I
Link NOC:Programming in Java Lecture 5 - Java Applet Programming
Link NOC:Programming in Java Lecture 6 - Demonstration - II
Link NOC:Programming in Java Lecture 7 - Encapsulation
Link NOC:Programming in Java Lecture 8 - Demonstration - III
Link NOC:Programming in Java Lecture 9 - Java Programming Insights
Link NOC:Programming in Java Lecture 10 - Demonstration - IV
Link NOC:Programming in Java Lecture 11 - Java Static Scope Rule
Link NOC:Programming in Java Lecture 12 - Demonstration - V
Link NOC:Programming in Java Lecture 13 - Inheritance
Link NOC:Programming in Java Lecture 14 - Demonstration - VI
Link NOC:Programming in Java Lecture 15 - Information Hiding
Link NOC:Programming in Java Lecture 16 - Demonstration - VII
Link NOC:Programming in Java Lecture 17 - Packages - I
Link NOC:Programming in Java Lecture 18 - Packages - II
Link NOC:Programming in Java Lecture 19 - Demonstration - VIII
Link NOC:Programming in Java Lecture 20 - Interface - I
Link NOC:Programming in Java Lecture 21 - Interface - II
Link NOC:Programming in Java Lecture 22 - Demonstration - IX
Link NOC:Programming in Java Lecture 23 - Exception Handling - I
Link NOC:Programming in Java Lecture 24 - Exception Handling - II
Link NOC:Programming in Java Lecture 25 - Exception Handling - III
Link NOC:Programming in Java Lecture 26 - Demonstration - X
Link NOC:Programming in Java Lecture 27 - Multithreading - I
Link NOC:Programming in Java Lecture 28 - Multithreading - II
Link NOC:Programming in Java Lecture 29 - Demonstration - XI
Link NOC:Programming in Java Lecture 30 - I-O Stream - I
Link NOC:Programming in Java Lecture 31 - I-O Stream - II
Link NOC:Programming in Java Lecture 32 - I-O Stream - III
Link NOC:Programming in Java Lecture 33 - Demonstration - XII
Link NOC:Programming in Java Lecture 34 - Applet Programming - I
Link NOC:Programming in Java Lecture 35 - Applet Programming - II
Link NOC:Programming in Java Lecture 36 - Applet Programming - III
Link NOC:Programming in Java Lecture 37 - Demonstration - XIII
Link NOC:Programming in Java Lecture 38 - Demonstration - XIV
Link NOC:Programming in Java Lecture 39 - AWT Programming - I
Link NOC:Programming in Java Lecture 40 - AWT Programming - II
Link NOC:Programming in Java Lecture 41 - Demonstration - XV
Link NOC:Programming in Java Lecture 42 - AWT Programming - III
Link NOC:Programming in Java Lecture 43 - Swing - I
Link NOC:Programming in Java Lecture 44 - Swing - II
Link NOC:Programming in Java Lecture 45 - Demonstration - XVI
Link NOC:Programming in Java Lecture 46 - Demonstration - XVII
Link NOC:Programming in Java Lecture 47 - Demonstration - XVIII
Link NOC:Programming in Java Lecture 48 - Networking with Java
Link NOC:Programming in Java Lecture 49 - Demonstration - XIX
Link NOC:Programming in Java Lecture 50 - JDBC - I
Link NOC:Programming in Java Lecture 51 - JDBC - II
Link NOC:Programming in Java Lecture 52 - JDBC - III
Link NOC:Programming in Java Lecture 53 - Demonstration - XX
Link NOC:Programming in Java Lecture 54 - Demonstration - XXI
Link NOC:Programming in Java Lecture 55 - Demonstration - XXII
Link NOC:Programming in Java Lecture 56 - Case Studies - I
Link NOC:Programming in Java Lecture 57 - Case Studies - II
Link NOC:Programming in Java Lecture 58 - Case Studies - III
Link NOC:Programming in Java Lecture 59 - Case Studies - IV
Link NOC:Programming in Java Lecture 60 - Case Studies - V
Link NOC:Discrete Structures Lecture 1 - Introduction to Propositional Logic
Link NOC:Discrete Structures Lecture 2 - Introduction to Propositional Logic (Continued...)
Link NOC:Discrete Structures Lecture 3 - Introduction to Propositional Logic (Continued...)
Link NOC:Discrete Structures Lecture 4 - Introduction to Propositional Logic (Continued...)
Link NOC:Discrete Structures Lecture 5 - Introduction to Propositional Logic (Continued...)
Link NOC:Discrete Structures Lecture 6 - Introduction to Propositional Logic (Continued...)
Link NOC:Discrete Structures Lecture 7 - Predicate Logic
Link NOC:Discrete Structures Lecture 8 - Predicate Logic (Continued...)
Link NOC:Discrete Structures Lecture 9 - Predicate Logic (Continued...)
Link NOC:Discrete Structures Lecture 10 - Predicate Logic (Continued...)
Link NOC:Discrete Structures Lecture 11 - Proof Techniques
Link NOC:Discrete Structures Lecture 12 - Proof Techniques (Continued...)
Link NOC:Discrete Structures Lecture 13 - Proof Techniques (Continued...)
Link NOC:Discrete Structures Lecture 14 - Proof Techniques (Continued...)
Link NOC:Discrete Structures Lecture 15 - Proof Techniques (Continued...)
Link NOC:Discrete Structures Lecture 16 - Sets and Functions
Link NOC:Discrete Structures Lecture 17 - Sets and Functions (Continued...)
Link NOC:Discrete Structures Lecture 18 - Sets and Functions (Continued...)
Link NOC:Discrete Structures Lecture 19 - Sets and Functions (Continued...)
Link NOC:Discrete Structures Lecture 20 - Sets and Functions (Continued...)
Link NOC:Discrete Structures Lecture 21 - Relations and their Properties
Link NOC:Discrete Structures Lecture 22 - Relations and their Properties (Continued...)
Link NOC:Discrete Structures Lecture 23 - Relations and their Properties (Continued...)
Link NOC:Discrete Structures Lecture 24 - Relations and their Properties (Continued...)
Link NOC:Discrete Structures Lecture 25 - Relations and their Properties (Continued...)
Link NOC:Discrete Structures Lecture 26 - Recursion
Link NOC:Discrete Structures Lecture 27 - Recursion (Continued...)
Link NOC:Discrete Structures Lecture 28 - Recursion (Continued...)
Link NOC:Discrete Structures Lecture 29 - Recursion (Continued...)
Link NOC:Discrete Structures Lecture 30 - Recursion (Continued...)
Link NOC:Discrete Structures Lecture 31 - Recurrence relations
Link NOC:Discrete Structures Lecture 32 - Recurrence relations (Continued...)
Link NOC:Discrete Structures Lecture 33 - Recurrence relations (Continued...)
Link NOC:Discrete Structures Lecture 34 - Recurrence relations (Continued...)
Link NOC:Discrete Structures Lecture 35 - Recurrence relations (Continued...)
Link NOC:Discrete Structures Lecture 36 - Counting Techniques and Pigeonhole Principle
Link NOC:Discrete Structures Lecture 37 - Counting Techniques and Pigeonhole Principle (Continued...)
Link NOC:Discrete Structures Lecture 38 - Counting Techniques and Pigeonhole Principle (Continued...)
Link NOC:Discrete Structures Lecture 39 - Counting Techniques and Pigeonhole Principle (Continued...)
Link NOC:Discrete Structures Lecture 40 - Counting Techniques and Pigeonhole Principle (Continued...)
Link NOC:Discrete Structures Lecture 41 - Combinatorics
Link NOC:Discrete Structures Lecture 42 - Combinatorics (Continued...)
Link NOC:Discrete Structures Lecture 43 - Combinatorics (Continued...)
Link NOC:Discrete Structures Lecture 44 - Combinatorics (Continued...)
Link NOC:Discrete Structures Lecture 45 - Combinatorics (Continued...)
Link NOC:Discrete Structures Lecture 46 - Algebraic Structures
Link NOC:Discrete Structures Lecture 47 - Algebraic Structures (Continued...)
Link NOC:Discrete Structures Lecture 48 - Algebraic Structures (Continued...)
Link NOC:Discrete Structures Lecture 49 - Algebraic Structures (Continued...)
Link NOC:Discrete Structures Lecture 50 - Algebraic Structures (Continued...)
Link NOC:Discrete Structures Lecture 51 - Ring and Modular Arithmetic
Link NOC:Discrete Structures Lecture 52 - Ring and Modular Arithmetic (Continued...)
Link NOC:Discrete Structures Lecture 53 - Ring and Modular Arithmetic (Continued...)
Link NOC:Discrete Structures Lecture 54 - Ring and Modular Arithmetic (Continued...)
Link NOC:Discrete Structures Lecture 55 - Ring and Modular Arithmetic (Continued...)
Link NOC:Discrete Structures Lecture 56 - Finite Field and Applications
Link NOC:Discrete Structures Lecture 57 - Finite Field and Applications (Continued...)
Link NOC:Discrete Structures Lecture 58 - Finite Field and Applications (Continued...)
Link NOC:Discrete Structures Lecture 59 - Finite Field and Applications (Continued...)
Link NOC:Discrete Structures Lecture 60 - Finite Field and Applications (Continued...)
Link NOC:Embedded System Design with ARM Lecture 1 - Introduction To Embedded Systems
Link NOC:Embedded System Design with ARM Lecture 2 - Design Considerations of Embedded Systems
Link NOC:Embedded System Design with ARM Lecture 3 - Microprocessors and Microcontrollers
Link NOC:Embedded System Design with ARM Lecture 4 - Architecture of ARM Microcontroller - Part 1
Link NOC:Embedded System Design with ARM Lecture 5 - Architecture of ARM Microcontroller - Part 2
Link NOC:Embedded System Design with ARM Lecture 6 - Architecture of ARM Microcontroller - Part 3
Link NOC:Embedded System Design with ARM Lecture 7 - ARM Instruction Set - Part 1
Link NOC:Embedded System Design with ARM Lecture 8 - ARM Instruction Set - Part 2
Link NOC:Embedded System Design with ARM Lecture 9 - ARM Instruction Set - Part 3
Link NOC:Embedded System Design with ARM Lecture 10 - About the STM32F401 Nucleo Board
Link NOC:Embedded System Design with ARM Lecture 11 - PWM and Interrupt on STM32F401
Link NOC:Embedded System Design with ARM Lecture 12 - Digital to Analog Conversion
Link NOC:Embedded System Design with ARM Lecture 13 - Analog to Digital Conversion - Part 1
Link NOC:Embedded System Design with ARM Lecture 14 - Analog to Digital Conversion - Part 2
Link NOC:Embedded System Design with ARM Lecture 15 - Output Devices, Sensors and Actuators - Part 1
Link NOC:Embedded System Design with ARM Lecture 16 - Output Devices, Sensors and Actuators - Part 2
Link NOC:Embedded System Design with ARM Lecture 17 - Output Devices, Sensors and Actuators - Part 3
Link NOC:Embedded System Design with ARM Lecture 18 - Microcontroller Development Boards
Link NOC:Embedded System Design with ARM Lecture 19 - Mbed C Programming Environment
Link NOC:Embedded System Design with ARM Lecture 20 - Interfacing With STM32F401 Board
Link NOC:Embedded System Design with ARM Lecture 21 - Interfacing With Arduino Uno
Link NOC:Embedded System Design with ARM Lecture 22 - Interfacing 7-Segment Led And LCD Displays - Part 1
Link NOC:Embedded System Design with ARM Lecture 23 - Interfacing 7-segment LED and LCD Displays - Part 2
Link NOC:Embedded System Design with ARM Lecture 24 - Serial Port Terminal Application (Coolterm)
Link NOC:Embedded System Design with ARM Lecture 25 - Experiment With Temperature Sensor
Link NOC:Embedded System Design with ARM Lecture 26 - Experiment With Ldr Light Sensor - Part 1
Link NOC:Embedded System Design with ARM Lecture 27 - Experiment With Ldr Light Sensor - Part 2
Link NOC:Embedded System Design with ARM Lecture 28 - Experiment With Speaker
Link NOC:Embedded System Design with ARM Lecture 29 - Experiment With Microphone
Link NOC:Embedded System Design with ARM Lecture 30 - Design Of Control System
Link NOC:Embedded System Design with ARM Lecture 31 - Experiments With Relay
Link NOC:Embedded System Design with ARM Lecture 32 - Experiments On Speed Control Of Dc Motor
Link NOC:Embedded System Design with ARM Lecture 33 - Experiment With Multiple Sensors And Relay
Link NOC:Embedded System Design with ARM Lecture 34 - Introduction To Internet Of Things
Link NOC:Embedded System Design with ARM Lecture 35 - Gsm And Bluetooth
Link NOC:Embedded System Design with ARM Lecture 36 - Design Of A Home Automation System
Link NOC:Embedded System Design with ARM Lecture 37 - Design Of A Simple Alarm System Using Touch Sensor
Link NOC:Embedded System Design with ARM Lecture 38 - Accelerometer
Link NOC:Embedded System Design with ARM Lecture 39 - Experiment Using Accelerometer
Link NOC:Embedded System Design with ARM Lecture 40 - Experiment Using Bluetooth
Link NOC:Embedded System Design with ARM Lecture 41 - Experiment With Gas Sensor
Link NOC:Embedded System Design with ARM Lecture 42 - Summarization Of The Course
Link NOC:Hardware Security Lecture 1 - Introduction to Hardware Security - Part 1
Link NOC:Hardware Security Lecture 2 - Introduction to Hardware Security - Part 2
Link NOC:Hardware Security Lecture 3 - Algorithm to Hardware
Link NOC:Hardware Security Lecture 4 - Finite Field Architectures - 1
Link NOC:Hardware Security Lecture 5 - Finite Field Architectures - 1 (Continued...)
Link NOC:Hardware Security Lecture 6 - Hardware Design for Finite Field Inverse
Link NOC:Hardware Security Lecture 7 - Hardware Architecture for Finite Field Inverse
Link NOC:Hardware Security Lecture 8 - Background on Cryptography, Cryptanalysis and Advanced Encryption Standard (AES)
Link NOC:Hardware Security Lecture 9 - Advanced Encryption Standard (AES) andSide Channel Analysis
Link NOC:Hardware Security Lecture 10 - Field Isomorphisms
Link NOC:Hardware Security Lecture 11 - Field Isomorphisms (Continued...)
Link NOC:Hardware Security Lecture 12 - Hardware Implementation of Advanced Encryption
Link NOC:Hardware Security Lecture 13 - Hardware Implementation of Advanced Encryption
Link NOC:Hardware Security Lecture 14 - Hardware Implementation of Advanced Encryption (Continued...)
Link NOC:Hardware Security Lecture 15 - Compact AES-Box
Link NOC:Hardware Security Lecture 16 - Compact AES S-Box - Part II
Link NOC:Hardware Security Lecture 17 - Compact AES S-Box in Normal Basis - Part I
Link NOC:Hardware Security Lecture 18 - Compact AES S-Box in Normal Basis - Part II
Link NOC:Hardware Security Lecture 19 - Hardware for Elliptic Curve Cryptography - Part I
Link NOC:Hardware Security Lecture 20 - Hardware for Elliptic Curve Cryptography - Part II
Link NOC:Hardware Security Lecture 21 - Hardware for Elliptic Curve Cryptography - Part III
Link NOC:Hardware Security Lecture 22 - Hardware for Elliptic Curve Cryptography - Part IV
Link NOC:Hardware Security Lecture 23 - Hardware for Elliptic Curve Cryptography - Part V
Link NOC:Hardware Security Lecture 24 - Introduction to Side Channel Analysis
Link NOC:Hardware Security Lecture 25 - Power Analysis - Part I
Link NOC:Hardware Security Lecture 26
Link NOC:Hardware Security Lecture 27
Link NOC:Hardware Security Lecture 28
Link NOC:Hardware Security Lecture 29
Link NOC:Hardware Security Lecture 30
Link NOC:Hardware Security Lecture 31 - Power Analysis - Part VII
Link NOC:Hardware Security Lecture 32 - Power Analysis - Part VIII
Link NOC:Hardware Security Lecture 33 - Power Analysis - Part IX
Link NOC:Hardware Security Lecture 34 - Power Analysis - Part X
Link NOC:Hardware Security Lecture 35 - Power Analysis - Part XI
Link NOC:Hardware Security Lecture 36
Link NOC:Hardware Security Lecture 37
Link NOC:Hardware Security Lecture 38
Link NOC:Hardware Security Lecture 39
Link NOC:Hardware Security Lecture 40
Link NOC:Hardware Security Lecture 41 - Power Analysis - Part XVII
Link NOC:Hardware Security Lecture 42 - Power Analysis - Part XVIII
Link NOC:Hardware Security Lecture 43 - Power Analysis Countermeasures
Link NOC:Hardware Security Lecture 44 - Power Analysis Countermeasures (Continued...)
Link NOC:Hardware Security Lecture 45 - Power Analysis Countermeasures (Continued...)
Link NOC:Hardware Security Lecture 46 - Fault Analysis of Cryptosystems
Link NOC:Hardware Security Lecture 47 - Improved DFA of AES
Link NOC:Hardware Security Lecture 48 - Multi-Byte and key Scheduling Based Fault Analysis of AES
Link NOC:Hardware Security Lecture 49 - Multi-Byte and key Scheduling Based Fault Analysis of AES (Continued...)
Link NOC:Hardware Security Lecture 50 - Redundaney Based Fault Intensity
Link NOC:Hardware Security Lecture 51 - Reundancy Base Fault Countermeasures and Differential Faut Intensity Attacks (Continued...)
Link NOC:Hardware Security Lecture 52 - Infective Countermeasures for DFA
Link NOC:Hardware Security Lecture 53 - Infective Countermeasures for DFA (Continued...)
Link NOC:Hardware Security Lecture 54 - Infective Countermeasures for DFA (Continued...)
Link NOC:Hardware Security Lecture 55 - Microarchitectural attacks: Part I cache Timing attacks on Block ciphers
Link NOC:Hardware Security Lecture 56 - Microarchitectural attacks: Part I cache Timing attacks on Block ciphers (Continued...)
Link NOC:Hardware Security Lecture 57 - Microarchitectural attacks: Part II Branch Prediction Attacks
Link NOC:Hardware Security Lecture 58 - Microarchitectural attacks: Part II Branch Prediction Attacks (Continued...)
Link NOC:Hardware Security Lecture 59 - Microarchitectural attacks: Part III Row Hammer Attacks
Link NOC:Hardware Security Lecture 60 - Microarchitectural attacks: Part III Row Hammer Attacks (Continued...)
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 1 - Introduction: Sensing and Actuation
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 2 - Introduction: IoT Connectivity - Part 1
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 3 - Introduction: IoT Connectivity - Part 2
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 4 - Introduction: IoT Networking - Part 1
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 5 - Introduction: IoT Networking - Part 2
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 6 - Industry 4.0: The Fourth Revolution
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 7 - Industry 4.0: Sustainability Assessment of Manufacturing Industry
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 8 - Industry 4.0: Lean Production System
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 9 - Industry 4.0: Smart and Connected Business Perspective
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 10 - Industry 4.0: Smart Factories
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 11 - Industry 4.0: Cyber-Physical Systems and Next-Generation Sensors
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 12 - Industry 4.0: Collaboration Platform and Product Lifecycle Management
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 13 - Industry 4.0: Augmented Reality and Virtual Reality
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 14 - Industry 4.0: Artificial Intelligence
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 15 - Industry 4.0: Big Data and Advanced Analysis
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 16 - Industry 4.0: Cybersecurity
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 17 - Basics of Industrial IoT: Introduction
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 18 - Basics of Industrial IoT: Industrial Internet Systems
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 19 - Basics of IIoT: Industrial Sensing and Actuation
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 20 - Basics of Industrial IoT: Industrial Processes - Part 1
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 21 - Basics of Industrial IoT: Industrial Processes - Part 2
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 22 - Business Models and Reference Architecture for IIoT: Business Models - Part 1
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 23 - Business Models and Reference Architecture for IIoT: Business Models - Part 2
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 24 - Business Models and Reference Architecture for IIoT: Reference Architecture - Part 1
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 25 - Business Models and Reference Architecture for IIoT: Reference Architecture - Part 2
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 26 - Key Enablers of Industrial IoT: Sensing - Part 1
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 27 - Key Enablers of Industrial IoT: Sensing - Part 2
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 28 - Key Enablers of Industrial IoT: Connectivity - Part 1
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 29 - Key Enablers of Industrial IoT: Connectivity - Part 2
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 30 - Key Enablers of Industrial IoT: Connectivity - Part 3
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 31 - Key Enablers of Industrial IoT: Connectivity - Part 4
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 32 - Key Enablers of Industrial IoT: Connectivity - Part 5
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 33 - Key Enablers of Industrial IoT: Processing - Part 1
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 34 - Key Enablers of Industrial IoT: Processing - Part 2
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 35 - Key Enablers of Industrial IoT: Process Control
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 36 - IIoT Analytics and Data Management: Introduction
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 37 - IIoT Analytics and Data Management: Machine Learning and Data Science - Part 1
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 38 - IIoT Analytics and Data Management: Machine Learning and Data Science - Part 2
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 39 - IIoT Analytics and Data Management: Cloud Computing in IIoT - Part 1
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 40 - IIoT Analytics and Data Management: Cloud Computing in IIoT - Part 2
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 41 - Analytics and Data Management: Fog Computing in IIoT
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 42 - IIoT Analytics and Data Management: Tutorial for R and Julia Programming
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 43 - IIoT Analytics and Data Management: Data Management with Hadoop
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 44 - IIoT Analytics and Data Management: Data Center Networks
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 45 - Advanced Technologies: Software-Defined Networking (SDN) in IIoT - Part 1
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 46 - Advanced Technologies: Software-Defined Networking (SDN) in IIoT - Part 2
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 47 - Advanced Technologies: Security in IIoT - Part 1
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 48 - Advanced Technologies: Security in IIoT - Part 2
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 49 - IIoT Applications: Factories and Assembly Line
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 50 - IIoT Applications: Food Industry
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 51 - IIoT Applications: Inventory Management and Quality Control
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 52 - IIoT Applications: Plant Security and Safety
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 53 - IIoT Applications: Facility Management
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 54 - IIoT Applications: Oil, Chemical and Pharmaceutical Industry
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 55 - IIoT Applications: UAVs in Industries
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 56 - IIoT Applications: Oil, Chemical and Pharmaceutical Industry
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 57 - IIoT Applications: UAVs in Industries
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 58 - Case Studies for Industry 4.0 and IIoT
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 59 - Milk Processing and Packaging Industries
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 60 - Manufacturing Industries - Part I
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 61 - Manufacturing Industries - Part II
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 62 - Student Projects - Part I
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 63 - Student Projects - Part II
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 64 - Virtual Reality Lab
Link NOC:Introduction to Industry 4.0 and Industrial Internet of Things Lecture 65 - Steel Technology Lab
Link NOC:Introduction to Automata, Languages and Computation Lecture 1 - Deterministic Finite Automata (DFA)
Link NOC:Introduction to Automata, Languages and Computation Lecture 2 - Input alphabet
Link NOC:Introduction to Automata, Languages and Computation Lecture 3 - Extended transition function
Link NOC:Introduction to Automata, Languages and Computation Lecture 4 - Language of DFA
Link NOC:Introduction to Automata, Languages and Computation Lecture 5 - Building DFA
Link NOC:Introduction to Automata, Languages and Computation Lecture 6 - Building DFA (Continued...)
Link NOC:Introduction to Automata, Languages and Computation Lecture 7 - NFA (Nondeterministic Finite Automata)
Link NOC:Introduction to Automata, Languages and Computation Lecture 8 - Language of a NFA
Link NOC:Introduction to Automata, Languages and Computation Lecture 9 - Equivalence of DFAs and NFAs
Link NOC:Introduction to Automata, Languages and Computation Lecture 10 - Subset Construction
Link NOC:Introduction to Automata, Languages and Computation Lecture 11 - ϵ-NFA
Link NOC:Introduction to Automata, Languages and Computation Lecture 12 - Extended transition function of NFA
Link NOC:Introduction to Automata, Languages and Computation Lecture 13 - Language of NFA
Link NOC:Introduction to Automata, Languages and Computation Lecture 14 - NFA to NFA
Link NOC:Introduction to Automata, Languages and Computation Lecture 15 - NFA to DFA
Link NOC:Introduction to Automata, Languages and Computation Lecture 16 - Regular expression
Link NOC:Introduction to Automata, Languages and Computation Lecture 17 - Regular expression (Continued...)
Link NOC:Introduction to Automata, Languages and Computation Lecture 18 - More on regular expression
Link NOC:Introduction to Automata, Languages and Computation Lecture 19 - Equivalence of NFA and regular expression
Link NOC:Introduction to Automata, Languages and Computation Lecture 20 - Equivalence of NFA and regular expression (Continued...)
Link NOC:Introduction to Automata, Languages and Computation Lecture 21 - DFA to Regular expression
Link NOC:Introduction to Automata, Languages and Computation Lecture 22 - DFA to Regular expression (Continued...)
Link NOC:Introduction to Automata, Languages and Computation Lecture 23 - Construction of regular expression from a DFA (example)
Link NOC:Introduction to Automata, Languages and Computation Lecture 24 - Closure properties of Regular Set
Link NOC:Introduction to Automata, Languages and Computation Lecture 25 - Closure properties of Regular Set (Continued...)
Link NOC:Introduction to Automata, Languages and Computation Lecture 26 - Substitution
Link NOC:Introduction to Automata, Languages and Computation Lecture 27 - Pumping Lemma
Link NOC:Introduction to Automata, Languages and Computation Lecture 28 - Application of the pumping lemma
Link NOC:Introduction to Automata, Languages and Computation Lecture 29 - More on Pumping lemma
Link NOC:Introduction to Automata, Languages and Computation Lecture 30 - Ardens Theorem
Link NOC:Introduction to Automata, Languages and Computation Lecture 31 - Minimization of FA
Link NOC:Introduction to Automata, Languages and Computation Lecture 32 - Minimization of FA (Continued...)
Link NOC:Introduction to Automata, Languages and Computation Lecture 33 - Two way FA
Link NOC:Introduction to Automata, Languages and Computation Lecture 34 - Finite automata with output
Link NOC:Introduction to Automata, Languages and Computation Lecture 35 - Equivalence of Moore and Mealy machine
Link NOC:Introduction to Automata, Languages and Computation Lecture 36 - Context free grammars (CFG)
Link NOC:Introduction to Automata, Languages and Computation Lecture 37 - Context free language (CFL)
Link NOC:Introduction to Automata, Languages and Computation Lecture 38 - More example on CFL
Link NOC:Introduction to Automata, Languages and Computation Lecture 39 - More on CFG
Link NOC:Introduction to Automata, Languages and Computation Lecture 40 - Derivation Tree/Parse Tree
Link NOC:Introduction to Automata, Languages and Computation Lecture 41 - Leftmost and Rightmost derivations
Link NOC:Introduction to Automata, Languages and Computation Lecture 42 - Ambiguity in CFG
Link NOC:Introduction to Automata, Languages and Computation Lecture 43 - Simplification of CFG
Link NOC:Introduction to Automata, Languages and Computation Lecture 44 - Algorithms to construct reduced grammar
Link NOC:Introduction to Automata, Languages and Computation Lecture 45 - Elimination of Null and Unit productions
Link NOC:Introduction to Automata, Languages and Computation Lecture 46 - Chomsky Normal Form (CNF)
Link NOC:Introduction to Automata, Languages and Computation Lecture 47 - Greibach Normal Form (GNF)
Link NOC:Introduction to Automata, Languages and Computation Lecture 48 - Pushdown Automata (PDA)
Link NOC:Introduction to Automata, Languages and Computation Lecture 49 - Language accepted by PDA
Link NOC:Introduction to Automata, Languages and Computation Lecture 50 - Example of a language accepted by PDA
Link NOC:Introduction to Automata, Languages and Computation Lecture 51 - Deterministic PDA
Link NOC:Introduction to Automata, Languages and Computation Lecture 52 - Equivalence of language accepted
Link NOC:Introduction to Automata, Languages and Computation Lecture 53 - Equivalence PDA
Link NOC:Introduction to Automata, Languages and Computation Lecture 54 - Equivalence PDA and CFL
Link NOC:Introduction to Automata, Languages and Computation Lecture 55 - Equivalence PDA and CFL (Continued...)
Link NOC:Introduction to Automata, Languages and Computation Lecture 56 - Relationship between regular language and CFL
Link NOC:Introduction to Automata, Languages and Computation Lecture 57 - Pumping lemma for CFLs
Link NOC:Introduction to Automata, Languages and Computation Lecture 58 - Closer properties of CFLs
Link NOC:Introduction to Automata, Languages and Computation Lecture 59 - Turning Machine
Link NOC:Introduction to Automata, Languages and Computation Lecture 60 - Language accepted by a Turning machine
Link NOC:Operating System Fundamentals Lecture 1 - Introduction
Link NOC:Operating System Fundamentals Lecture 2 - Introduction (Continued...)
Link NOC:Operating System Fundamentals Lecture 3 - Introduction (Continued...)
Link NOC:Operating System Fundamentals Lecture 4 - Introduction (Continued...)
Link NOC:Operating System Fundamentals Lecture 5 - Introduction (Continued...)
Link NOC:Operating System Fundamentals Lecture 6 - Introduction (Continued...)
Link NOC:Operating System Fundamentals Lecture 7 - Operating System Structures
Link NOC:Operating System Fundamentals Lecture 8 - Operating System Structures (Continued...)
Link NOC:Operating System Fundamentals Lecture 9 - Operating System Structures (Continued...)
Link NOC:Operating System Fundamentals Lecture 10 - Operating System Structures (Continued...)
Link NOC:Operating System Fundamentals Lecture 11 - Operating System Structures (Continued...)
Link NOC:Operating System Fundamentals Lecture 12 - Processes
Link NOC:Operating System Fundamentals Lecture 13 - Processes (Continued...)
Link NOC:Operating System Fundamentals Lecture 14 - Processes (Continued...)
Link NOC:Operating System Fundamentals Lecture 15 - Processes (Continued...)
Link NOC:Operating System Fundamentals Lecture 16 - Processes (Continued...)
Link NOC:Operating System Fundamentals Lecture 17 - Processes (Continued...)
Link NOC:Operating System Fundamentals Lecture 18 - Processes (Continued...)
Link NOC:Operating System Fundamentals Lecture 19 - Threads
Link NOC:Operating System Fundamentals Lecture 20 - Threads (Continued...)
Link NOC:Operating System Fundamentals Lecture 21 - Threads (Continued...)
Link NOC:Operating System Fundamentals Lecture 22 - Threads (Continued...)
Link NOC:Operating System Fundamentals Lecture 23 - Threads, Scheduling
Link NOC:Operating System Fundamentals Lecture 24 - Scheduling
Link NOC:Operating System Fundamentals Lecture 25 - Scheduling (Continued...)
Link NOC:Operating System Fundamentals Lecture 26 - Scheduling (Continued...)
Link NOC:Operating System Fundamentals Lecture 27 - Scheduling (Continued...)
Link NOC:Operating System Fundamentals Lecture 28 - Scheduling (Continued...)
Link NOC:Operating System Fundamentals Lecture 29 - Process Synchronization
Link NOC:Operating System Fundamentals Lecture 30 - Process Synchronization (Continued...)
Link NOC:Operating System Fundamentals Lecture 31 - Process Synchronization (Continued...)
Link NOC:Operating System Fundamentals Lecture 32 - Process Synchronization (Continued...)
Link NOC:Operating System Fundamentals Lecture 33 - Process Synchronization (Continued...)
Link NOC:Operating System Fundamentals Lecture 34 - Process Synchronization (Continued...)
Link NOC:Operating System Fundamentals Lecture 35 - Synchronization Examples
Link NOC:Operating System Fundamentals Lecture 36 - Synchronization Examples, Deadlock
Link NOC:Operating System Fundamentals Lecture 37 - Deadlock
Link NOC:Operating System Fundamentals Lecture 38 - Deadlock (Continued...)
Link NOC:Operating System Fundamentals Lecture 39 - Deadlock (Continued...)
Link NOC:Operating System Fundamentals Lecture 40 - Deadlock (Continued...)
Link NOC:Operating System Fundamentals Lecture 41 - Memory Management
Link NOC:Operating System Fundamentals Lecture 42 - Memory Management (Continued...)
Link NOC:Operating System Fundamentals Lecture 43 - Memory Management (Continued...)
Link NOC:Operating System Fundamentals Lecture 44 - Memory Management (Continued...)
Link NOC:Operating System Fundamentals Lecture 45 - Memory Management (Continued...)
Link NOC:Operating System Fundamentals Lecture 46 - Memory Management (Continued...)
Link NOC:Operating System Fundamentals Lecture 47 - Memory Management (Continued...)
Link NOC:Operating System Fundamentals Lecture 48 - Memory Management (Continued...)
Link NOC:Operating System Fundamentals Lecture 49 - Virtual Memory
Link NOC:Operating System Fundamentals Lecture 50 - Virtual Memory (Continued...)
Link NOC:Operating System Fundamentals Lecture 51 - Virtual Memory (Continued...)
Link NOC:Operating System Fundamentals Lecture 52 - Virtual Memory (Continued...)
Link NOC:Operating System Fundamentals Lecture 53 - Virtual Memory (Continued...)
Link NOC:Operating System Fundamentals Lecture 54 - Virtual Memory (Continued...)
Link NOC:Operating System Fundamentals Lecture 55 - Virtual Memory (Continued...)
Link NOC:Operating System Fundamentals Lecture 56 - Virtual Memory (Continued...)
Link NOC:Operating System Fundamentals Lecture 57 - File System and Secondary Storage
Link NOC:Operating System Fundamentals Lecture 58 - File System and Secondary Storage (Continued...)
Link NOC:Operating System Fundamentals Lecture 59 - File System and Secondary Storage (Continued...)
Link NOC:Operating System Fundamentals Lecture 60 - File System and Secondary Storage (Continued...)
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 1 - Introduction
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 2 - Feature Descriptor - I
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 3 - Feature Descriptor - II
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 4 - Bayesian Learning - I
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 5 - Bayesian Learning - II
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 6 - Discriminant Function - I
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 7 - Discriminant Function - II
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 8 - Discriminant Function - III
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 9 - Linear Classifier - I
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 10 - Linear Classifier - II
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 11 - Support Vector Machine - I
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 12 - Support Vector Machine - II
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 13 - Linear Machine
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 14 - Multiclass Support Vector Machine - I
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 15 - Multiclass Support Vector Machine - II
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 16 - Optimization
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 17 - Optimization Techniques in Machine Learning
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 18 - Nonlinear Functions
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 19 - Introduction to Neural Network
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 20 - Neural Network - II
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 21 - Multilayer Perceptron - I
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 22 - Multilayer Perceptron - II
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 23 - Backpropagation Learning
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 24 - Loss Function
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 25 - Backpropagation Learning- Example - I
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 26 - Backpropagation Learning- Example - II
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 27 - Backpropagation Learning- Example - III
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 28 - Autoencoder
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 29 - Autoencoder Vs PCA - I
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 30 - Autoencoder Vs PCA - II
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 31 - Autoencoder Training
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 32 - Autoencoder Variants - I
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 33 - Autoencoder Variants - II
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 34 - Convolution
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 35 - Cross Correlation
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 36 - CNN Architecture
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 37 - MLP versus CNN, Popular CNN Architecture: LeNet
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 38 - Popular CNN Architecture: AlexNet
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 39 - Popular CNN Architecture: VGG16, Transfer Learning
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 40 - Vanishing and Exploding Gradient
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 41 - GoogleNet
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 42 - ResNet, Optimisers: Momentum Optimiser
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 43 - Optimisers: Momentum and Nesterov Accelerated Gradient (NAG) Optimiser
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 44 - Optimisers: Adagrad Optimiser
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 45 - Optimisers: RMSProp, AdaDelta and Adam Optimiser
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 46 - Normalization
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 47 - Batch Normalization - I
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 48 - Batch Normalization - II
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 49 - Layer, Instance, Group Normalization
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 50 - Training Trick, Regularization,Early Stopping
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 51 - Face Recognition
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 52 - Deconvolution Layer
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 53 - Semantic Segmentation - I
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 54 - Semantic Segmentation - II
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 55 - Semantic Segmentation - III
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 56 - Image Denoising
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 57 - Variational Autoencoder - I
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 58 - Variational Autoencoder - II
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 59 - Variational Autoencoder - III
Link NOC:Deep Learning (Prof. P.K. Biswas) Lecture 60 - Generative Adversarial Network
Link NOC:Computer Vision Lecture 1 - Fundamentals of Image Processing - Part I
Link NOC:Computer Vision Lecture 2 - Fundamentals of Imagr Processing - Part II
Link NOC:Computer Vision Lecture 3 - Image Transform - Part I
Link NOC:Computer Vision Lecture 4 - Image Transform - Part II
Link NOC:Computer Vision Lecture 5 - Projective Geometry - Part I
Link NOC:Computer Vision Lecture 6 - Projective Geometry - Part II
Link NOC:Computer Vision Lecture 7 - Projective Transformation
Link NOC:Computer Vision Lecture 8 - Homography: Properties - Part I
Link NOC:Computer Vision Lecture 9 - Homography: Properties - Part II
Link NOC:Computer Vision Lecture 10 - Homography: Properties - Part III
Link NOC:Computer Vision Lecture 11 - Camera Geometry - Part I
Link NOC:Computer Vision Lecture 12 - Camera Geometry - Part II
Link NOC:Computer Vision Lecture 13 - Camera Geometry - Part III
Link NOC:Computer Vision Lecture 14 - Camera Geometry - Part IV
Link NOC:Computer Vision Lecture 15 - Camera Geometry - Part V
Link NOC:Computer Vision Lecture 16 - Stereo Geometry - Part I
Link NOC:Computer Vision Lecture 17 - Stereo Geometry - Part II
Link NOC:Computer Vision Lecture 18 - Stereo Geometry - Part III
Link NOC:Computer Vision Lecture 19 - Stereo Geometry - Part IV
Link NOC:Computer Vision Lecture 20 - Stereo Geometry - Part V
Link NOC:Computer Vision Lecture 21 - Stereo Geometry - Part VI
Link NOC:Computer Vision Lecture 22 - Stereo Geometry - Part VII
Link NOC:Computer Vision Lecture 23 - Stereo Geometry - Part VIII
Link NOC:Computer Vision Lecture 24 - Feature Detection And Description - Part I
Link NOC:Computer Vision Lecture 25 - Feature Detection And Description - Part II
Link NOC:Computer Vision Lecture 26 - Feature Detection And Description - Part III
Link NOC:Computer Vision Lecture 27 - Feature Detection And Description - Part IV
Link NOC:Computer Vision Lecture 28 - Feature Detection And Description - Part V
Link NOC:Computer Vision Lecture 29 - Feature Matching And Model Fitting- Part I
Link NOC:Computer Vision Lecture 30 - Feature Matching And Model Fitting- Part II
Link NOC:Computer Vision Lecture 31 - Feature Matching And Model Fitting- Part III
Link NOC:Computer Vision Lecture 32 - Feature Matching And Model Fitting- Part IV
Link NOC:Computer Vision Lecture 33 - Feature Matching And Model Fitting- Part V
Link NOC:Computer Vision Lecture 34 - Color Fundamentals And Processing-Part I
Link NOC:Computer Vision Lecture 35 - Color Fundamentals And Processing-Part II
Link NOC:Computer Vision Lecture 36 - Color Fundamentals And Processing-Part III
Link NOC:Computer Vision Lecture 37 - Color Fundamentals And Processing-Part IV
Link NOC:Computer Vision Lecture 38 - Color Fundamentals And Processing-Part V
Link NOC:Computer Vision Lecture 39 - Color Fundamentals And Processing-Part VI
Link NOC:Computer Vision Lecture 40 - Color Fundamentals And Processing-Part VII
Link NOC:Computer Vision Lecture 41 - Range Image Processing - Part I
Link NOC:Computer Vision Lecture 42 - Range Image Processing - Part II
Link NOC:Computer Vision Lecture 43 - Range Image Processing - Part III
Link NOC:Computer Vision Lecture 44 - Range Image Processing - Part IV
Link NOC:Computer Vision Lecture 45 - Range Image Processing - Part V
Link NOC:Computer Vision Lecture 46 - Clustering and Classification - Part I
Link NOC:Computer Vision Lecture 47 - Clustering and Classification - Part II
Link NOC:Computer Vision Lecture 48 - Clustering and Classification - Part III
Link NOC:Computer Vision Lecture 49 - Clustering and Classification - Part IV
Link NOC:Computer Vision Lecture 50 - Clustering and Classification - Part V
Link NOC:Computer Vision Lecture 51 - Dimensional Reduction And Sparse Representation - Part I
Link NOC:Computer Vision Lecture 52 - Dimensional Reduction And Sparse Representation - Part II
Link NOC:Computer Vision Lecture 53 - Dimensional Reduction And Sparse Representation - Part III
Link NOC:Computer Vision Lecture 54 - Dimensional Reduction And Sparse Representation - Part IV
Link NOC:Computer Vision Lecture 55 - Deep Neural Architecture And Applications - Part I
Link NOC:Computer Vision Lecture 56 - Deep Neural Architecture And Applications - Part II
Link NOC:Computer Vision Lecture 57 - Deep Neural Architecture And Applications - Part III
Link NOC:Computer Vision Lecture 58 - Deep Neural Architecture And Applications - Part IV
Link NOC:Computer Vision Lecture 59 - Deep Neural Architecture And Applications - Part V
Link NOC:Computer Vision Lecture 60 - Deep Neural Architecture And Applications - Part VI
Link NOC:Ethical Hacking Lecture 1 - Introduction to Ethical Hacking
Link NOC:Ethical Hacking Lecture 2 - Basic Concepts of Networking - Part I
Link NOC:Ethical Hacking Lecture 3 - Basic Concepts of Networking - Part II
Link NOC:Ethical Hacking Lecture 4 - TCP/IP Protocol Stack - Part I
Link NOC:Ethical Hacking Lecture 5 - TCP/IP Protocol Stack - Part II
Link NOC:Ethical Hacking Lecture 6 - IP addressing and routing - Part I
Link NOC:Ethical Hacking Lecture 7 - IP addressing and routing - Part II
Link NOC:Ethical Hacking Lecture 8 - TCP and UDP - Part I
Link NOC:Ethical Hacking Lecture 9 - TCP and UDP - Part II
Link NOC:Ethical Hacking Lecture 10 - IP subnetting
Link NOC:Ethical Hacking Lecture 11 - Routing protocols - Part I
Link NOC:Ethical Hacking Lecture 12 - Routing protocols - Part II
Link NOC:Ethical Hacking Lecture 13 - Routing protocols - Part III
Link NOC:Ethical Hacking Lecture 14 - IP version 6
Link NOC:Ethical Hacking Lecture 15 - Routing examples
Link NOC:Ethical Hacking Lecture 16 - Demonstration - Part I
Link NOC:Ethical Hacking Lecture 17 - Demonstration - Part II
Link NOC:Ethical Hacking Lecture 18 - Demonstration - Part III
Link NOC:Ethical Hacking Lecture 19 - Nessus Installation
Link NOC:Ethical Hacking Lecture 20 - How to use nessus
Link NOC:Ethical Hacking Lecture 21 - Metasploit Exploiting System Software - I
Link NOC:Ethical Hacking Lecture 22 - Metasploit Exploiting System Software - II
Link NOC:Ethical Hacking Lecture 23 - Metasploit Exploiting System Software and Privilege
Link NOC:Ethical Hacking Lecture 24 - Metasploit Social Eng Attack
Link NOC:Ethical Hacking Lecture 25 - MITM (Man in The middle) Attack
Link NOC:Ethical Hacking Lecture 26 - Basic concepts of cryptography
Link NOC:Ethical Hacking Lecture 27 - Private-key cryptography - Part I
Link NOC:Ethical Hacking Lecture 28 - Private-key cryptography - Part II
Link NOC:Ethical Hacking Lecture 29 - Public-key cryptography - Part I
Link NOC:Ethical Hacking Lecture 30 - Public-key cryptography - Part II
Link NOC:Ethical Hacking Lecture 31 - Cryptographic hash functions - Part I
Link NOC:Ethical Hacking Lecture 32 - Cryptographic hash functions - Part II
Link NOC:Ethical Hacking Lecture 33 - Digital signature and certificate
Link NOC:Ethical Hacking Lecture 34 - Applications - Part I
Link NOC:Ethical Hacking Lecture 35 - Applications - Part II
Link NOC:Ethical Hacking Lecture 36 - Steganography
Link NOC:Ethical Hacking Lecture 37 - Biometrics
Link NOC:Ethical Hacking Lecture 38 - Network Based Attacks - Part I
Link NOC:Ethical Hacking Lecture 39 - Network Based Attacks - Part II
Link NOC:Ethical Hacking Lecture 40 - DNS and Email Security
Link NOC:Ethical Hacking Lecture 41 - Password cracking
Link NOC:Ethical Hacking Lecture 42 - Phishing attack
Link NOC:Ethical Hacking Lecture 43 - Maloeware
Link NOC:Ethical Hacking Lecture 44 - Wifi hacking
Link NOC:Ethical Hacking Lecture 45 - Dos and DDos attack
Link NOC:Ethical Hacking Lecture 46 - Elements of Hardware Security
Link NOC:Ethical Hacking Lecture 47 - Side Channel Attacks - Part I
Link NOC:Ethical Hacking Lecture 48 - Side Channel Attacks - Part II
Link NOC:Ethical Hacking Lecture 49 - Physical Unclonable Function
Link NOC:Ethical Hacking Lecture 50 - Hardware Trojan
Link NOC:Ethical Hacking Lecture 51 - Web Application Vulnerability Scanning
Link NOC:Ethical Hacking Lecture 52 - SQL Injection Authentication Bypass - Part 1
Link NOC:Ethical Hacking Lecture 53 - SQL Injection Error Based - Part 2
Link NOC:Ethical Hacking Lecture 54 - SQL Injection Error Based from Web Application - Part 3
Link NOC:Ethical Hacking Lecture 55 - SQLMAP
Link NOC:Ethical Hacking Lecture 56 - Cross Site Scripting
Link NOC:Ethical Hacking Lecture 57 - File Upload Vulnerability
Link NOC:Ethical Hacking Lecture 58 - The NMAP Tool: A Relook - Part I
Link NOC:Ethical Hacking Lecture 59 - The NMAP Tool: A Relook - Part II
Link NOC:Ethical Hacking Lecture 60 - The NMAP Tool: A Relook - Part III
Link NOC:Ethical Hacking Lecture 61 - Network Analysis using Wireshark
Link NOC:Ethical Hacking Lecture 62 - Summarization of the Course
Link NOC:Software Project Management Lecture 1 - Introduction - I
Link NOC:Software Project Management Lecture 2 - Introduction - II
Link NOC:Software Project Management Lecture 3 - Introduction - III
Link NOC:Software Project Management Lecture 4 - Project Management Standards
Link NOC:Software Project Management Lecture 5 - Life Cycle Models - I
Link NOC:Software Project Management Lecture 6 - Life Cycle Models - II
Link NOC:Software Project Management Lecture 7 - Life Cycle Models - III
Link NOC:Software Project Management Lecture 8 - Life Cycle Models - IV
Link NOC:Software Project Management Lecture 9 - Life Cycle Models - V
Link NOC:Software Project Management Lecture 10 - Life Cycle Models - VI
Link NOC:Software Project Management Lecture 11 - Project Evaluation and Programme Management
Link NOC:Software Project Management Lecture 12 - Project Evaluation and Programme Management (Continued...)
Link NOC:Software Project Management Lecture 13 - Project Evaluation and Programme Management (Continued...)
Link NOC:Software Project Management Lecture 14 - Project Evaluation and Programme Management (Continued...)
Link NOC:Software Project Management Lecture 15 - Project Evaluation and Programme Management (Continued...)
Link NOC:Software Project Management Lecture 16 - Project Estimation Techniques
Link NOC:Software Project Management Lecture 17 - Project Estimation Techniques (Continued...)
Link NOC:Software Project Management Lecture 18 - Project Estimation Techniques (Continued...)
Link NOC:Software Project Management Lecture 19 - Project Estimation Techniques (Continued...)
Link NOC:Software Project Management Lecture 20 - Project Estimation Techniques (Continued...)
Link NOC:Software Project Management Lecture 21 - Project Estimation Techniques (Continued...)
Link NOC:Software Project Management Lecture 22 - Project Estimation Techniques (Continued...)
Link NOC:Software Project Management Lecture 23 - Project Estimation Techniques (Continued...)
Link NOC:Software Project Management Lecture 24 - Project Estimation Techniques (Continued...)
Link NOC:Software Project Management Lecture 25 - Project Estimation Techniques (Continued...)
Link NOC:Software Project Management Lecture 26 - Project Scheduling
Link NOC:Software Project Management Lecture 27 - Project Scheduling Using PERT/CPM
Link NOC:Software Project Management Lecture 28 - Project Scheduling Using PERT/CPM (Continued...)
Link NOC:Software Project Management Lecture 29 - Computation of Project Characteristics Using PERT/CPM
Link NOC:Software Project Management Lecture 30 - Computation of Project Characteristics Using PERT/CPM: Illustration
Link NOC:Software Project Management Lecture 31 - PERT, Project Crashing
Link NOC:Software Project Management Lecture 32 - Team Management
Link NOC:Software Project Management Lecture 33 - Organization and Team Structure
Link NOC:Software Project Management Lecture 34 - Team Structure (Continued...) and Risk Management
Link NOC:Software Project Management Lecture 35 - Risk Management (Continued...) and Introduction to Software Quality
Link NOC:Software Project Management Lecture 36 - Resource Allocation
Link NOC:Software Project Management Lecture 37 - Resource Allocation (Continued...)
Link NOC:Software Project Management Lecture 38 - Resource Allocation (Continued...)
Link NOC:Software Project Management Lecture 39 - Project Monitoring and Control
Link NOC:Software Project Management Lecture 40 - Project Monitoring and Control (Continued...)
Link NOC:Software Project Management Lecture 41 - Project Monitoring and Control (Continued...)
Link NOC:Software Project Management Lecture 42 - Project Monitoring and Control (Continued...)
Link NOC:Software Project Management Lecture 43 - Project Monitoring and Control (Continued...)
Link NOC:Software Project Management Lecture 44 - Project Monitoring and Control (Continued...)
Link NOC:Software Project Management Lecture 45 - Project Monitoring and Control (Continued...)
Link NOC:Software Project Management Lecture 46 - Project Monitoring and Control (Continued...)
Link NOC:Software Project Management Lecture 47 - Project Monitoring and Control (Continued...)
Link NOC:Software Project Management Lecture 48 - Contract Management
Link NOC:Software Project Management Lecture 49 - Contract Management (Continued...)
Link NOC:Software Project Management Lecture 50 - Project Close Out
Link NOC:Software Project Management Lecture 51 - Software Quality Management
Link NOC:Software Project Management Lecture 52 - ISO 9000
Link NOC:Software Project Management Lecture 53 - ISO 9001, SEI CMM
Link NOC:Software Project Management Lecture 54 - SEI CMM (Continued...)
Link NOC:Software Project Management Lecture 55 - SEI CMM (Continued...)
Link NOC:Software Project Management Lecture 56 - Personal Software Process (PSP)
Link NOC:Software Project Management Lecture 57 - Software Reliability - I
Link NOC:Software Project Management Lecture 58 - Software Reliability - II
Link NOC:Software Project Management Lecture 59 - Software Reliability - III
Link NOC:Software Project Management Lecture 60 - Software Testing
Link NOC:Spatial Informatics Lecture 1 - Introduction
Link NOC:Spatial Informatics Lecture 2 - Spatial Data Models - 1
Link NOC:Spatial Informatics Lecture 3 - Spatial Data Models - 2
Link NOC:Spatial Informatics Lecture 4 - Spatial Data Models - 3
Link NOC:Spatial Informatics Lecture 5 - Spatial Data Models - 4
Link NOC:Spatial Informatics Lecture 6 - Spatial Web Services - 1
Link NOC:Spatial Informatics Lecture 7 - Spatial Web Services - 2
Link NOC:Spatial Informatics Lecture 8 - Spatial Web Services - 3
Link NOC:Spatial Informatics Lecture 9 - Spatial Web Services - 4
Link NOC:Spatial Informatics Lecture 10 - Spatial Web Services - Demo
Link NOC:Spatial Informatics Lecture 11 - Spatial Database: An Overview
Link NOC:Spatial Informatics Lecture 12 - Spatial Query Processing / SQL - 1
Link NOC:Spatial Informatics Lecture 13 - Spatial Query Processing / SQL - 2
Link NOC:Spatial Informatics Lecture 14 - Spatial Query Processing / SQL - 3
Link NOC:Spatial Informatics Lecture 15 - Spatial Query Processing / SQL - 4
Link NOC:Spatial Informatics Lecture 16 - Spatial Query Demo Tutorial
Link NOC:Spatial Informatics Lecture 17 - Spatial Indexing - I
Link NOC:Spatial Informatics Lecture 18 - Spatial Indexing - II
Link NOC:Spatial Informatics Lecture 19 - Spatial Indexing - III
Link NOC:Spatial Informatics Lecture 20 - Spatial Indexing - IV
Link NOC:Spatial Informatics Lecture 21 - Spatial Networks - I
Link NOC:Spatial Informatics Lecture 22 - Spatial Networks - II
Link NOC:Spatial Informatics Lecture 23 - Spatial Networks - III
Link NOC:Spatial Informatics Lecture 24 - Spatial Networks - IV
Link NOC:Spatial Informatics Lecture 25 - Spatial Networks - V
Link NOC:Spatial Informatics Lecture 26 - Spatial Analysis - I
Link NOC:Spatial Informatics Lecture 27 - Spatial Analysis - II
Link NOC:Spatial Informatics Lecture 28 - Spatial Analysis - III
Link NOC:Spatial Informatics Lecture 29 - Spatial Analysis - IV
Link NOC:Spatial Informatics Lecture 30 - Spatial Analysis - V
Link NOC:Spatial Informatics Lecture 31 - Remote Sensing and GIS - I
Link NOC:Spatial Informatics Lecture 32 - Remote Sensing and GIS - II
Link NOC:Spatial Informatics Lecture 33 - Remote Sensing and GIS - III
Link NOC:Spatial Informatics Lecture 34 - Remote Sensing and GIS - IIV
Link NOC:Spatial Informatics Lecture 35 - Remote Sensing and GIS - V
Link NOC:Spatial Informatics Lecture 36 - SDS / Spatial Cloud / GeoViz - I
Link NOC:Spatial Informatics Lecture 37 - SDS / Spatial Cloud / GeoViz - II
Link NOC:Spatial Informatics Lecture 38 - SDS / Spatial Cloud / GeoViz - III
Link NOC:Spatial Informatics Lecture 39 - SDS / Spatial Cloud / GeoViz - IV
Link NOC:Spatial Informatics Lecture 40 - SDS / Spatial Cloud / GeoViz - V
Link Pattern Recognition Lecture 1 - Principles of Pattern Recognition I (Introduction and Uses)
Link Pattern Recognition Lecture 2 - Principles of Pattern Recognition II (Mathematics)
Link Pattern Recognition Lecture 3 - Principles of Pattern Recognition III (Classification and Bayes Decision Rule)
Link Pattern Recognition Lecture 4 - Clustering vs. Classification
Link Pattern Recognition Lecture 5 - Relevant Basics of Linear Algebra, Vector Spaces
Link Pattern Recognition Lecture 6 - Eigen Value and Eigen Vectors
Link Pattern Recognition Lecture 7 - Vector Spaces
Link Pattern Recognition Lecture 8 - Rank of Matrix and SVD
Link Pattern Recognition Lecture 9 - Types of Errors
Link Pattern Recognition Lecture 10 - Examples of Bayes Decision Rule
Link Pattern Recognition Lecture 11 - Normal Distribution and Parameter Estimation
Link Pattern Recognition Lecture 12 - Training Set, Test Set
Link Pattern Recognition Lecture 13 - Standardization, Normalization, Clustering and Metric Space
Link Pattern Recognition Lecture 14 - Normal Distribution and Decision Boundaries I
Link Pattern Recognition Lecture 15 - Normal Distribution and Decision Boundaries II
Link Pattern Recognition Lecture 16 - Bayes Theorem
Link Pattern Recognition Lecture 17 - Linear Discriminant Function and Perceptron
Link Pattern Recognition Lecture 18 - Perceptron Learning and Decision Boundaries
Link Pattern Recognition Lecture 19 - Linear and Non-Linear Decision Boundaries
Link Pattern Recognition Lecture 20 - K-NN Classifier
Link Pattern Recognition Lecture 21 - Principal Component Analysis (PCA)
Link Pattern Recognition Lecture 22 - Fisher’s LDA
Link Pattern Recognition Lecture 23 - Gaussian Mixture Model (GMM)
Link Pattern Recognition Lecture 24 - Assignments
Link Pattern Recognition Lecture 25 - Basics of Clustering, Similarity/Dissimilarity Measures, Clustering Criteria.
Link Pattern Recognition Lecture 26 - K-Means Algorithm and Hierarchical Clustering
Link Pattern Recognition Lecture 27 - K-Medoids and DBSCAN
Link Pattern Recognition Lecture 28 - Feature Selection : Problem statement and Uses
Link Pattern Recognition Lecture 29 - Feature Selection : Branch and Bound Algorithm
Link Pattern Recognition Lecture 30 - Feature Selection : Sequential Forward and Backward Selection
Link Pattern Recognition Lecture 31 - Cauchy Schwartz Inequality
Link Pattern Recognition Lecture 32 - Feature Selection Criteria Function: Probabilistic Separability Based
Link Pattern Recognition Lecture 33 - Feature Selection Criteria Function: Interclass Distance Based
Link Pattern Recognition Lecture 34 - Principal Components
Link Pattern Recognition Lecture 35 - Comparison Between Performance of Classifiers
Link Pattern Recognition Lecture 36 - Basics of Statistics, Covariance, and their Properties
Link Pattern Recognition Lecture 37 - Data Condensation, Feature Clustering, Data Visualization
Link Pattern Recognition Lecture 38 - Probability Density Estimation
Link Pattern Recognition Lecture 39 - Visualization and Aggregation
Link Pattern Recognition Lecture 40 - Support Vector Machine (SVM)
Link Pattern Recognition Lecture 41 - FCM and Soft-Computing Techniques
Link Pattern Recognition Lecture 42 - Examples of Uses or Application of Pattern Recognition; And When to do clustering
Link Pattern Recognition Lecture 43 - Examples of Real-Life Dataset
Link Performance Evaluation of Computer Systems Lecture 1 - Introduction to performance evaluation of computer systems
Link Performance Evaluation of Computer Systems Lecture 2 - How to avoid common mistakes
Link Performance Evaluation of Computer Systems Lecture 3 - Selection of techniques and metrics
Link Performance Evaluation of Computer Systems Lecture 4 - Case study: Selection of techniques and metrics
Link Performance Evaluation of Computer Systems Lecture 5 - Random Variables and probability distributions
Link Performance Evaluation of Computer Systems Lecture 6 - Probability distributions - I
Link Performance Evaluation of Computer Systems Lecture 7 - Probability distributions - II
Link Performance Evaluation of Computer Systems Lecture 8 - Probability distributions - III
Link Performance Evaluation of Computer Systems Lecture 9 - Stochastic process
Link Performance Evaluation of Computer Systems Lecture 10 - Markov Chain
Link Performance Evaluation of Computer Systems Lecture 11 - Slotted Aloha protocol model and discrete-time birth death process
Link Performance Evaluation of Computer Systems Lecture 12 - Continuous time Markov chain and queuing theory - I
Link Performance Evaluation of Computer Systems Lecture 13 - Queuing theory - I (Continued)
Link Performance Evaluation of Computer Systems Lecture 14 - Queuing theory - II
Link Performance Evaluation of Computer Systems Lecture 15 - Queuing theory - III
Link Performance Evaluation of Computer Systems Lecture 16 - Queuing theory - IV
Link Performance Evaluation of Computer Systems Lecture 17 - Queuing theory - V
Link Performance Evaluation of Computer Systems Lecture 18 - Queuing theory - VI
Link Performance Evaluation of Computer Systems Lecture 19 - Queuing networks - I
Link Performance Evaluation of Computer Systems Lecture 20 - Queuing networks - II
Link Performance Evaluation of Computer Systems Lecture 21 - Slotted Aloha Markov model
Link Performance Evaluation of Computer Systems Lecture 22 - Simulations - I
Link Performance Evaluation of Computer Systems Lecture 23 - Simulations - II
Link Performance Evaluation of Computer Systems Lecture 24 - Simulations - III
Link Performance Evaluation of Computer Systems Lecture 25 - Operational laws - I
Link Performance Evaluation of Computer Systems Lecture 26 - Operational laws - II
Link Performance Evaluation of Computer Systems Lecture 27 - Open and closed queuing networks
Link Performance Evaluation of Computer Systems Lecture 28 - Approximate MVA
Link Performance Evaluation of Computer Systems Lecture 29 - Convolution algorithm - I
Link Performance Evaluation of Computer Systems Lecture 30 - Convolution algorithm - II
Link Performance Evaluation of Computer Systems Lecture 31 - Load-dependent service centers
Link Performance Evaluation of Computer Systems Lecture 32 - Hierarchical decomposition
Link Performance Evaluation of Computer Systems Lecture 33 - Balanced Job Bounds
Link Performance Evaluation of Computer Systems Lecture 34 - Confidence interval for propotions and introduction to experimental design
Link Performance Evaluation of Computer Systems Lecture 35 - 2k factorial design
Link Performance Evaluation of Computer Systems Lecture 36 - 2k r factorial design and 2k-p fractional factorial design
Link Performance Evaluation of Computer Systems Lecture 37 - Programming aspects of discrete-event simulations - I
Link Performance Evaluation of Computer Systems Lecture 38 - Programming aspects of discrete-event simulations - II
Link Performance Evaluation of Computer Systems Lecture 39 - Discrete-event simulations - III
Link Performance Evaluation of Computer Systems Lecture 40 - PetriNets - I
Link Performance Evaluation of Computer Systems Lecture 41 - PetriNets - II
Link Performance Evaluation of Computer Systems Lecture 42 - PetriNets - III
Link Theory of Automata, Formal Languages and Computation Lecture 1 - Grammars and Natural Language Processing
Link Theory of Automata, Formal Languages and Computation Lecture 2 - Grammars and Languages Generated
Link Theory of Automata, Formal Languages and Computation Lecture 3 - Grammars and Languages Generated (Continued.)
Link Theory of Automata, Formal Languages and Computation Lecture 4 - Ambiguity in CFG
Link Theory of Automata, Formal Languages and Computation Lecture 5 - Simplication of CFG
Link Theory of Automata, Formal Languages and Computation Lecture 6 - Removal of Unit Productions, Chomsky Normal Form for CFG
Link Theory of Automata, Formal Languages and Computation Lecture 7 - Greibach Normal Form for CFG
Link Theory of Automata, Formal Languages and Computation Lecture 8 - Final State Automata
Link Theory of Automata, Formal Languages and Computation Lecture 9 - Non Deterministic FSA
Link Theory of Automata, Formal Languages and Computation Lecture 10 - Non Deterministic FSA (Continued.)
Link Theory of Automata, Formal Languages and Computation Lecture 11 - Non Deterministic FSA with E(Epsilon)- Moves
Link Theory of Automata, Formal Languages and Computation Lecture 12 - Equivalence Between FSA and Type 3 Grammars
Link Theory of Automata, Formal Languages and Computation Lecture 13 - Regular Expressions, Regular Expressions to NFSA
Link Theory of Automata, Formal Languages and Computation Lecture 14 - DFSA to Regular Expressions
Link Theory of Automata, Formal Languages and Computation Lecture 15 - Problems and Solutions - I
Link Theory of Automata, Formal Languages and Computation Lecture 16 - Pumping Lemmas for Regular Sets and CFL
Link Theory of Automata, Formal Languages and Computation Lecture 17 - MYHILL - Nerode Theorem
Link Theory of Automata, Formal Languages and Computation Lecture 18 - Minimization of DFSA
Link Theory of Automata, Formal Languages and Computation Lecture 19 - FSA with output Moore and Mealy Machines
Link Theory of Automata, Formal Languages and Computation Lecture 20 - Pushdown Automata
Link Theory of Automata, Formal Languages and Computation Lecture 21 - Pushdown Automata, Equivalence Between Acceptance by Empty Store and Acceptance by Final State
Link Theory of Automata, Formal Languages and Computation Lecture 22 - Pushdown Automata CFG to PDA
Link Theory of Automata, Formal Languages and Computation Lecture 23 - Pushdown Automata PDA to CFG
Link Theory of Automata, Formal Languages and Computation Lecture 24 - Problems and Solutions - II
Link Theory of Automata, Formal Languages and Computation Lecture 25 - Problems and Solutions - III
Link Theory of Automata, Formal Languages and Computation Lecture 26 - Turing Machines
Link Theory of Automata, Formal Languages and Computation Lecture 27 - Turing Machines (Continued.)
Link Theory of Automata, Formal Languages and Computation Lecture 28 - Turing Machine as Acceptor, Techniques for TM Construction
Link Theory of Automata, Formal Languages and Computation Lecture 29 - Generalized Versions of Turing Machines
Link Theory of Automata, Formal Languages and Computation Lecture 30 - Turing Machine as a Generating Device
Link Theory of Automata, Formal Languages and Computation Lecture 31 - Recursive Sets, Recursively Innumerable Sets, Encoding of TM, Halting Problem
Link Theory of Automata, Formal Languages and Computation Lecture 32 - Problems and Instances, Universal TM, Decidability
Link Theory of Automata, Formal Languages and Computation Lecture 33 - RICE'S Theorem, Linear Bounded Automata, Properties of TM
Link Theory of Automata, Formal Languages and Computation Lecture 34 - POST'S Correspondence Problems
Link Theory of Automata, Formal Languages and Computation Lecture 35 - POST'S Correspondence Problems (Continued.), Time and Tape Complexity of TM
Link Theory of Automata, Formal Languages and Computation Lecture 36 - NP - Complete Problems, Cook's Theorem
Link Theory of Automata, Formal Languages and Computation Lecture 37 - NP - Complete Problems (Continued.)
Link Theory of Automata, Formal Languages and Computation Lecture 38 - Regulated Rewriting
Link Theory of Automata, Formal Languages and Computation Lecture 39 - L-Systems
Link Theory of Automata, Formal Languages and Computation Lecture 40 - Grammar Systems
Link Theory of Automata, Formal Languages and Computation Lecture 41 - DNA Computing
Link Theory of Automata, Formal Languages and Computation Lecture 42 - Membrane Computing
Link Computer Graphics Lecture 1 - Introduction
Link Computer Graphics Lecture 2 - CRT Display Devices
Link Computer Graphics Lecture 3 - CRT Display Devices (Continued...)
Link Computer Graphics Lecture 4 - CRT Display Devices (Continued...)
Link Computer Graphics Lecture 5 - CRT Display Devices (Continued...)
Link Computer Graphics Lecture 6 - Transformations in 2D
Link Computer Graphics Lecture 7 - Transformations in 2D (Continued...)
Link Computer Graphics Lecture 8 - Three Dimensional Graphics
Link Computer Graphics Lecture 9 - Three Dimensional Graphics (Continued...)
Link Computer Graphics Lecture 10 - Three Dimensional Graphics (Continued...)
Link Computer Graphics Lecture 11 - Projection Transformations And Viewing Pipeline
Link Computer Graphics Lecture 12 - 3D Viewing - Projection Transformations And Viewing Pipeline
Link Computer Graphics Lecture 13 - Scan Converting Lines, Circles And Ellipses
Link Computer Graphics Lecture 14 - Scan Converting Lines, Circles And Ellipses (Continued...)
Link Computer Graphics Lecture 15 - Scan Converting Lines, Circles And Ellipses (Continued...)
Link Computer Graphics Lecture 16 - Scan Converting Lines, Circles And Ellipses (Continued...)
Link Computer Graphics Lecture 17 - Scan Converting Lines, Circles And Ellipses (Continued...)
Link Computer Graphics Lecture 18 - Polyfill- Scan Conversion Of A Polygon
Link Computer Graphics Lecture 19 - Scan Conversion Of A Polygon (Continued...)
Link Computer Graphics Lecture 20 - Clipping - Lines And Polygons
Link Computer Graphics Lecture 21 - Clipping Lines And Polygons
Link Computer Graphics Lecture 22 - Clipping Lines
Link Computer Graphics Lecture 23 - Solid Modelling
Link Computer Graphics Lecture 24 - Solid Modelling
Link Computer Graphics Lecture 25 - Solid Modelling (Continued...)
Link Computer Graphics Lecture 26 - Visible Surface Detection
Link Computer Graphics Lecture 27 - Visible Surface Detection (Continued...)
Link Computer Graphics Lecture 28 - Visible Surface Detection (Continued...)
Link Computer Graphics Lecture 29 - Visible Surface Detection (Continued...)
Link Computer Graphics Lecture 30 - Visible Surface Detection (Continued...)
Link Computer Graphics Lecture 31 - Visible Surface Detection (Continued...)
Link Computer Graphics Lecture 32 - Visible Surface Detection (Continued...)
Link Computer Graphics Lecture 33 - Illumination And Shading
Link Computer Graphics Lecture 34 - Illumination And Shading (Continued...)
Link Computer Graphics Lecture 35 - Illumination And Shading (Continued...)
Link Computer Graphics Lecture 36 - Curve Representation
Link Computer Graphics Lecture 37 - Curve Representation (Continued...)
Link Computer Graphics Lecture 38 - Curves And Surface Representation
Link Computer Graphics Lecture 39 - Graphics Programming Using Open GL
Link Computer Graphics Lecture 40 - Graphics Programming Using Open GL (Continued...)
Link Computer Graphics Lecture 41 - Advanced Topics: Anti Aliasing,Color,Soft Objects,Animation,Visual Effects,System Architectures
Link Computer Graphics Lecture 42 - Digital Image Processing Image Compression-Jpeg-Enhancements
Link Computer Graphics Lecture 43 - Digital Image Processing (Continued...)
Link Computer Organization Lecture 1 - Introduction To Computing
Link Computer Organization Lecture 2 - Introduction To System : Software
Link Computer Organization Lecture 3 - Introduction To System : Hardware
Link Computer Organization Lecture 4 - Processor Activities
Link Computer Organization Lecture 5 - Processor As a State Machine
Link Computer Organization Lecture 6 - Data Path Architecture
Link Computer Organization Lecture 7 - Data Path Controller : Micro Programmed
Link Computer Organization Lecture 8 - State Machine Design
Link Computer Organization Lecture 9 - Controller Design: Microprogrammed and Hardwired
Link Computer Organization Lecture 10 - Controller Design (Contd)
Link Computer Organization Lecture 11 - Typical Micro Instructions
Link Computer Organization Lecture 12 - Addressing Modes
Link Computer Organization Lecture 13 - Problem Exercise
Link Computer Organization Lecture 14 - Problem Exercise
Link Computer Organization Lecture 15 - Introduction to memory system
Link Computer Organization Lecture 16 - CPU - Memory Interaction
Link Computer Organization Lecture 17 - Cache Organization
Link Computer Organization Lecture 18 - Cache Organization
Link Computer Organization Lecture 19 - Virtual Memory
Link Computer Organization Lecture 20 - Virtual Memory
Link Computer Organization Lecture 21 - Performance Calculation
Link Computer Organization Lecture 22 - Segmentation
Link Computer Organization Lecture 23 - Address Translation and Protection
Link Computer Organization Lecture 24 - Programmed I/O
Link Computer Organization Lecture 25 - Interrupt Driven I/O
Link Computer Organization Lecture 26 - DMA : Direct Memory Access
Link Computer Organization Lecture 27 - Device Service Routines
Link Computer Organization Lecture 28 - Evolution Of I/O
Link Computer Organization Lecture 29 - I/O Devices
Link Computer Organization Lecture 30 - I/O Devices - Contd
Link Computer Organization Lecture 31 - Buses
Link Computer Organization Lecture 32 - Buses Contd
Link Computer Organization Lecture 33 - Conclusion
Link Database Design Lecture 1 - Introduction to Database Management System
Link Database Design Lecture 2 - Conceptual Designs
Link Database Design Lecture 3 - Conceptual Designs
Link Database Design Lecture 4 - Relational Model
Link Database Design Lecture 5 - Relational Model
Link Database Design Lecture 6 - Structured Query Language - I
Link Database Design Lecture 7 - Structured Query Language - II
Link Database Design Lecture 8 - ER Model to Relational Mapping
Link Database Design Lecture 9 - Functional Dependencies and Normal Form
Link Database Design Lecture 10 - ER Model to Relational Model Mapping
Link Database Design Lecture 11 - Storage Structures
Link Database Design Lecture 12 - Indexing Techniques Single Level
Link Database Design Lecture 13 - Indexing Techniques Multi Level
Link Database Design Lecture 14 - Constraints and Triggers
Link Database Design Lecture 15 - Query Processing and Optimization
Link Database Design Lecture 16 - Query Processing and Optimization - II
Link Database Design Lecture 17 - Query Processing and Optimization - III
Link Database Design Lecture 18 - Transaction Processing Concepts
Link Database Design Lecture 19 - Transaction Processing and Database Manager
Link Database Design Lecture 20 - Foundation for Concurrency Control
Link Database Design Lecture 21 - Concurrency Control Part - 1
Link Database Design Lecture 22 - Concurrency Control Part - 2
Link Database Design Lecture 23 - Concurrency Control Part - 3
Link Database Design Lecture 24 - Concurrency Control Part - 4
Link Database Design Lecture 25 - Distributed Transaction Models
Link Database Design Lecture 26 - Basic 2-Phase and 3-phase commit protocol
Link Database Design Lecture 27 - Concurrency Control for Distributed Transaction
Link Database Design Lecture 28 - Introduction to Transaction Recovery
Link Database Design Lecture 29 - Recovery Mechanisms - II
Link Database Design Lecture 30 - Recovery Mechanisms - III
Link Database Design Lecture 31 - Introduction to Data Warehousing and OLAP
Link Database Design Lecture 32 - Introduction to Data Warehousing and OLAP
Link Database Design Lecture 33 - Case Study : MySQL
Link Database Design Lecture 34 - Case Study ORACLE and Microsoft Access
Link Database Design Lecture 35 - Data Mining and Knowledge Discovery
Link Database Design Lecture 36 - Data Mining and Knowledge Discovery Part - II
Link Database Design Lecture 37 - Object Oriented Databases
Link Database Design Lecture 38 - Object Oriented Databases - II
Link Database Design Lecture 39 - XML - Introductory Concepts
Link Database Design Lecture 40 - XML - Advanced Concepts
Link Database Design Lecture 41 - XML - Databases
Link Database Design Lecture 42 - Case Study - Part One - Database Design
Link Database Design Lecture 43 - Case Study - Part Two - Database Design
Link Discrete Mathematical Structures Lecture 1 - Propositional Logic
Link Discrete Mathematical Structures Lecture 2 - Propositional Logic (Continued)
Link Discrete Mathematical Structures Lecture 3 - Predicates & Quantifiers
Link Discrete Mathematical Structures Lecture 4 - Predicates & Quantifiers (Continued)
Link Discrete Mathematical Structures Lecture 5 - Logical Inference
Link Discrete Mathematical Structures Lecture 6 - Resolution Principles & Application to PROLOG
Link Discrete Mathematical Structures Lecture 7 - Methods of Proof
Link Discrete Mathematical Structures Lecture 8 - Normal Forms
Link Discrete Mathematical Structures Lecture 9 - Proving Programs Correct (Continued)
Link Discrete Mathematical Structures Lecture 10 - Sets
Link Discrete Mathematical Structures Lecture 11 - Induction
Link Discrete Mathematical Structures Lecture 12 - Set Operations On Strings
Link Discrete Mathematical Structures Lecture 13 - Relations
Link Discrete Mathematical Structures Lecture 14 - Graphs
Link Discrete Mathematical Structures Lecture 15 - Graphs (Continued)
Link Discrete Mathematical Structures Lecture 16 - Trees
Link Discrete Mathematical Structures Lecture 17 - Trees And Graphs
Link Discrete Mathematical Structures Lecture 18 - Special Properties Of Relations
Link Discrete Mathematical Structures Lecture 19 - Closure Of Relations
Link Discrete Mathematical Structures Lecture 20 - Closure Properties Of Relations
Link Discrete Mathematical Structures Lecture 21 - Order Relations
Link Discrete Mathematical Structures Lecture 22 - Order Relations And Equivalence Relations
Link Discrete Mathematical Structures Lecture 23 - Equivalence Relations And Partitions
Link Discrete Mathematical Structures Lecture 24 - Functions
Link Discrete Mathematical Structures Lecture 25 - Functions (Continued)
Link Discrete Mathematical Structures Lecture 26 - Functions (Continued)
Link Discrete Mathematical Structures Lecture 27 - Pigeonhole Principle
Link Discrete Mathematical Structures Lecture 28 - Permutations And Combinations
Link Discrete Mathematical Structures Lecture 29 - Permutations And Combinations (Continued)
Link Discrete Mathematical Structures Lecture 30 - Generating Functions
Link Discrete Mathematical Structures Lecture 31 - Generating Functions (Continued)
Link Discrete Mathematical Structures Lecture 32 - Recurrence Relations
Link Discrete Mathematical Structures Lecture 33 - Recurrence Relations (Continued)
Link Discrete Mathematical Structures Lecture 34 - Recurrence Relations (Continued)
Link Discrete Mathematical Structures Lecture 35 - Algebras
Link Discrete Mathematical Structures Lecture 36 - Algebras (Continued)
Link Discrete Mathematical Structures Lecture 37 - Algebras (Continued)
Link Discrete Mathematical Structures Lecture 38 - Finite State Automaton
Link Discrete Mathematical Structures Lecture 39 - Finite State Automaton (Continued)
Link Discrete Mathematical Structures Lecture 40 - Lattices
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 1 - Artificial Intelligence: Introduction
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 2 - Introduction to AI
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 3 - AI Introduction: Philosophy
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 4 - AI Introduction
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 5 - Introduction: Philosophy
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 6 - State Space Search - Introduction
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 7 - Search - DFS and BFS
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 8 - Search DFID
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 9 - Heuristic Search
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 10 - Hill Climbing
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 11 - Solution Space Search, Beam Search
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 12 - TSP Greedy Methods
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 13 - Tabu Search
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 14 - Optimization - I (Simulated Annealing)
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 15 - Optimization - II (Genetic Algorithms)
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 16 - Population based methods for Optimization
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 17 - Population Based Methods II
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 18 - Branch and Bound, Dijkstra's Algorithm
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 19 - A* Algorithm
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 20 - Admissibility of A*
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 21 - A* Monotone Property, Iterative Deeping A*
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 22 - Recursive Best First Search, Sequence Allignment
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 23 - Pruning the Open and Closed lists
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 24 - Problem Decomposition with Goal Trees
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 25 - AO* Algorithm
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 26 - Game Playing
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 27 - Game Playing - Minimax Search
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 28 - Game Playing - AlphaBeta
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 29 - Game Playing - SSS *
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 30 - Rule Based Systems
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 31 - Inference Engines
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 32 - Rete Algorithm
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 33 - Planning
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 34 - Planning FSSP, BSSP
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 35 - Goal Stack Planning. Sussman's Anomaly
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 36 - Non-linear planning
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 37 - Plan Space Planning
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 38 - GraphPlan
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 39 - Constraint Satisfaction Problems
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 40 - CSP continued
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 41 - Knowledge-based systems
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 42 - Knowledge-based Systems, PL
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 43 - Propositional Logic
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 44 - Resolution Refutation for PL
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 45 - First-order Logic (FOL)
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 46 - Reasoning in FOL
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 47 - Backward chaining
Link Artificial Intelligence (Prof. Deepak Khemani) Lecture 48 - Resolution for FOL
Link NOC:Programming, Data Structures and Algorithms Lecture 1 - Introduction to Computers and Programming
Link NOC:Programming, Data Structures and Algorithms Lecture 2 - Writing your first program
Link NOC:Programming, Data Structures and Algorithms Lecture 3 - Variables, Operators and Expressions
Link NOC:Programming, Data Structures and Algorithms Lecture 4 - Variable declarations, more operators and precedence
Link NOC:Programming, Data Structures and Algorithms Lecture 5 - Input and Output Statements
Link NOC:Programming, Data Structures and Algorithms Lecture 6 - Conditionals
Link NOC:Programming, Data Structures and Algorithms Lecture 7 - Loops
Link NOC:Programming, Data Structures and Algorithms Lecture 8 - Video Solution to Digital Root Programming Assignment
Link NOC:Programming, Data Structures and Algorithms Lecture 9 - Introduction to arrays
Link NOC:Programming, Data Structures and Algorithms Lecture 10 - Working with 1D arrays
Link NOC:Programming, Data Structures and Algorithms Lecture 11 - Find prime numbers
Link NOC:Programming, Data Structures and Algorithms Lecture 12 - Debugging demo
Link NOC:Programming, Data Structures and Algorithms Lecture 13 - Multi-dimensional arrays
Link NOC:Programming, Data Structures and Algorithms Lecture 14 - Pointers
Link NOC:Programming, Data Structures and Algorithms Lecture 15 - More on pointers
Link NOC:Programming, Data Structures and Algorithms Lecture 16 - Arrays and pointer arithmetic
Link NOC:Programming, Data Structures and Algorithms Lecture 17 - Introduction to Strings
Link NOC:Programming, Data Structures and Algorithms Lecture 18 - More on Strings
Link NOC:Programming, Data Structures and Algorithms Lecture 19 - Video Solution to Print Elements of a Matrix in Spiral Order Programming Assignment
Link NOC:Programming, Data Structures and Algorithms Lecture 20 - Introduction to functions
Link NOC:Programming, Data Structures and Algorithms Lecture 21 - More details on functions
Link NOC:Programming, Data Structures and Algorithms Lecture 22 - Arguments, variables and parameters
Link NOC:Programming, Data Structures and Algorithms Lecture 23 - Pass parameters by reference
Link NOC:Programming, Data Structures and Algorithms Lecture 24 - Recursive functions
Link NOC:Programming, Data Structures and Algorithms Lecture 25 - Running time of a program
Link NOC:Programming, Data Structures and Algorithms Lecture 26 - Computing time complexity
Link NOC:Programming, Data Structures and Algorithms Lecture 27 - Video Solution to Palindrome Checker Programming Assignment
Link NOC:Programming, Data Structures and Algorithms Lecture 28 - Algorithms and Powering
Link NOC:Programming, Data Structures and Algorithms Lecture 29 - Polynomial evaluation and multiplication
Link NOC:Programming, Data Structures and Algorithms Lecture 30 - Linear and Binary Search Analysis
Link NOC:Programming, Data Structures and Algorithms Lecture 31 - Analysis of minimum and maximum in an array
Link NOC:Programming, Data Structures and Algorithms Lecture 32 - Sorting I: Insertion, Merge
Link NOC:Programming, Data Structures and Algorithms Lecture 33 - Sorting II: Counting, Radix
Link NOC:Programming, Data Structures and Algorithms Lecture 34 - Finding i-th smallest number
Link NOC:Programming, Data Structures and Algorithms Lecture 35 - Video Solution to Sorting words Programming Assignment
Link NOC:Programming, Data Structures and Algorithms Lecture 36 - Structures
Link NOC:Programming, Data Structures and Algorithms Lecture 37 - More on structures
Link NOC:Programming, Data Structures and Algorithms Lecture 38 - Using structures and pointers to structures
Link NOC:Programming, Data Structures and Algorithms Lecture 39 - Dynamic memory allocation
Link NOC:Programming, Data Structures and Algorithms Lecture 40 - Linked Lists
Link NOC:Programming, Data Structures and Algorithms Lecture 41 - Brief introduction to C++: Classes and objects
Link NOC:Programming, Data Structures and Algorithms Lecture 42 - Data Structures: Abstract Data Type
Link NOC:Programming, Data Structures and Algorithms Lecture 43 - Lists
Link NOC:Programming, Data Structures and Algorithms Lecture 44 - Supplementary Lesson
Link NOC:Programming, Data Structures and Algorithms Lecture 45 - Video Solution to Implementing a Hash Table ADT Programming Assignment
Link NOC:Programming, Data Structures and Algorithms Lecture 46 - Stacks: Last In First Out
Link NOC:Programming, Data Structures and Algorithms Lecture 47 - Queues: First In First Out
Link NOC:Programming, Data Structures and Algorithms Lecture 48 - Trees
Link NOC:Programming, Data Structures and Algorithms Lecture 49 - Tree traversal
Link NOC:Programming, Data Structures and Algorithms Lecture 50 - Binary Search Trees
Link NOC:Programming, Data Structures and Algorithms Lecture 51 - Heaps
Link NOC:Programming, Data Structures and Algorithms Lecture 52 - Graphs and Representation
Link NOC:Programming, Data Structures and Algorithms Lecture 53 - Supplementary Lesson
Link NOC:Programming, Data Structures and Algorithms Lecture 54 - Video Solution to the Queue in a Hospital Programming Assignment
Link NOC:Programming, Data Structures and Algorithms Lecture 55 - Greedy Algorithms
Link NOC:Programming, Data Structures and Algorithms Lecture 56 - Dynamic Programming
Link NOC:Programming, Data Structures and Algorithms Lecture 57 - Matrix Chain Multiplication
Link NOC:Programming, Data Structures and Algorithms Lecture 58 - Dijkstra's Algorithm
Link NOC:Programming, Data Structures and Algorithms Lecture 59 - Boyer-Moore String Matching Algorithm
Link NOC:Programming, Data Structures and Algorithms Lecture 60 - File I/O
Link NOC:Programming, Data Structures and Algorithms Lecture 61 - Modular Programming
Link NOC:Introduction to Information Security I Lecture 1 - Module 1 - Part 0 - Introduction to the Course
Link NOC:Introduction to Information Security I Lecture 2 - Module 1 - Part 1 - Definition of Information Security
Link NOC:Introduction to Information Security I Lecture 3 - Module 1 - Part 2 - Information Security Terminologies
Link NOC:Introduction to Information Security I Lecture 4 - Module 1 - Part 3 - Goals of Information Security
Link NOC:Introduction to Information Security I Lecture 5 - Module 1 - Part 4 - Implementation Issues of the Goals of Information Security - I
Link NOC:Introduction to Information Security I Lecture 6 - Module 1 - Part 5 - Implementation Issues of the Goals of Information Security - II
Link NOC:Introduction to Information Security I Lecture 7 - Module 1 - Part 6 - Control Mechanisms for Information Security - I
Link NOC:Introduction to Information Security I Lecture 8 - Module 1 - Part 7 - Access Control - Administrative and Technical
Link NOC:Introduction to Information Security I Lecture 9 - Module 1 - Part 8 - Passwords - Are they secure? - I
Link NOC:Introduction to Information Security I Lecture 10 - Module 1 - Part 9 - Access Control - Administrative and Technical
Link NOC:Introduction to Information Security I Lecture 11 - Module 1 - Part 10 - Passwords - Are they secure? - III
Link NOC:Introduction to Information Security I Lecture 12 - Module 1 - Part 11 - Multifactor Authentication - Challenges
Link NOC:Introduction to Information Security I Lecture 13 - Module 1 - Part 12 - Application Level Control and Information Security Planning
Link NOC:Introduction to Information Security I Lecture 14 - Module 1 - Part 13 - Information Security - Policy, Standard and Practice
Link NOC:Introduction to Information Security I Lecture 15 - Module 1 - Part 14 - Policies governing Issues, Roles and Responsibilities
Link NOC:Introduction to Information Security I Lecture 16 - Module 1 - Part 15 - Managing changes in Information Security Policies
Link NOC:Introduction to Information Security I Lecture 17 - Module 1 - Part 16 - Spheres of Information Security
Link NOC:Introduction to Information Security I Lecture 18 - Module 2 - Part 1 - Protecting your Personal Computer - I
Link NOC:Introduction to Information Security I Lecture 19 - Module 2 - part 2 - Protecting your Personal Computer - II
Link NOC:Introduction to Information Security I Lecture 20 - Module 2 - Part 3 - Protecting your Personal Computer - III
Link NOC:Introduction to Information Security I Lecture 21 - Module 2 - Part 4 - Cloud Computing (Basic Definitions) - I
Link NOC:Introduction to Information Security I Lecture 22 - Module 2 - Part 5 - Cloud Computing (Deployment) - II
Link NOC:Introduction to Information Security I Lecture 23 - Module 2 - Part 6 - Cloud Computing (Security Issues) - III
Link NOC:Introduction to Information Security I Lecture 24 - Module 2 - Part 7 - Cloud Computing (Trust and Risk) - IV
Link NOC:Introduction to Information Security I Lecture 25 - Module 2 - Part 8 - Cloud Computing (Security and Privacy Issues) - V
Link NOC:Introduction to Information Security I Lecture 26 - Module 2 - Part 9 - Cloud Computing (Security and Privacy Issues) - VI
Link NOC:Introduction to Information Security I Lecture 27 - Module 2 - Part 10 - Cloud Computing (Application and Data level security) - VII
Link NOC:Introduction to Information Security I Lecture 28 - Module 2 - Part 11 - Cloud Computing (Summary) - VIII
Link NOC:Introduction to Information Security I Lecture 29 - Module 2 - Part 12 - Standard I
Link NOC:Introduction to Information Security I Lecture 30 - Module 2 - Part 13 - Standard II
Link NOC:Introduction to Information Security I Lecture 31 - Module 2 - Part 14 - Standard III
Link NOC:Introduction to Information Security I Lecture 32 - Module 3 - Part 1
Link NOC:Introduction to Information Security I Lecture 33 - Module 3 - Part 2
Link NOC:Introduction to Information Security I Lecture 34 - Module 3 - Part 3
Link NOC:Introduction to Information Security I Lecture 35 - Module 3 - Part 4
Link NOC:Introduction to Information Security I Lecture 36 - Module 3 - Part 5
Link NOC:Introduction to Information Security I Lecture 37 - Module 3 - Part 6
Link NOC:Introduction to Information Security I Lecture 38 - Module 3 - Part 7
Link NOC:Introduction to Information Security I Lecture 39 - Module 3 - Part 8
Link NOC:Introduction to Information Security I Lecture 40 - Module 3 - Part 9
Link NOC:Introduction to Information Security I Lecture 41 - Module 4 - Part 1
Link NOC:Introduction to Information Security I Lecture 42 - module 4 - Part 2
Link NOC:Introduction to Information Security I Lecture 43 - Module 4 - Part 3
Link NOC:Introduction to Information Security I Lecture 44 - Module 4 - Part 4
Link NOC:Introduction to Information Security I Lecture 45 - Module 4 - Part 5
Link NOC:Introduction to Information Security I Lecture 46 - Module 4 - Part 6
Link NOC:Introduction to Information Security I Lecture 47 - Module 4 - Part 7
Link NOC:Introduction to Information Security I Lecture 48 - Module 4 - Part 8
Link NOC:Introduction to Information Security I Lecture 49 - Module 4 - Part 9
Link NOC:Introduction to Information Security I Lecture 50 - Module 4 - Part 10
Link NOC:Introduction to Information Security I Lecture 51 - Module 5 - Part 1
Link NOC:Introduction to Information Security I Lecture 52 - Module 5 - Part 2
Link NOC:Introduction to Information Security I Lecture 53 - Module 5 - Part 3
Link NOC:Introduction to Information Security I Lecture 54 - Module 5 - Part 4
Link NOC:Introduction to Information Security I Lecture 55 - Module 5 - Part 5
Link NOC:Introduction to Information Security I Lecture 56 - Module 5 - Part 6
Link NOC:Introduction to Information Security I Lecture 57 - Module 5 - Part 7
Link NOC:Introduction to Information Security I Lecture 58 - Module 6 - Part 1
Link NOC:Introduction to Information Security I Lecture 59 - Module 6 - Part 2
Link NOC:Introduction to Information Security I Lecture 60 - Module 6 - Part 3
Link NOC:Introduction to Information Security I Lecture 61 - Module 6 - Part 4
Link NOC:Introduction to Information Security I Lecture 62 - Module 6 - Part 5
Link NOC:Introduction to Information Security I Lecture 63 - Module 6 - Part 6
Link NOC:Introduction to Information Security I Lecture 64 - Module 6 - Part 7
Link NOC:Introduction to Information Security I Lecture 65 - Module 6 - Part 8
Link NOC:Programming and Data structures (PDS) Lecture 1 - A Simple C Program for Sorting
Link NOC:Programming and Data structures (PDS) Lecture 2 - Review of Structures, Pointers and Functions
Link NOC:Programming and Data structures (PDS) Lecture 3 - Recursion
Link NOC:Programming and Data structures (PDS) Lecture 4 - Abstract Data Types-Data + Methods
Link NOC:Programming and Data structures (PDS) Lecture 5 - List Data Type
Link NOC:Programming and Data structures (PDS) Lecture 6 - Access and update methods
Link NOC:Programming and Data structures (PDS) Lecture 7 - Doubly Linked List Data Type
Link NOC:Programming and Data structures (PDS) Lecture 8 - Doubly Linked Lists and Arrays
Link NOC:Programming and Data structures (PDS) Lecture 9 - ADT Stacks
Link NOC:Programming and Data structures (PDS) Lecture 10 - Checking of Balanced Parenthesis
Link NOC:Programming and Data structures (PDS) Lecture 11 - Infix and Postfix expressions and Expression evaluation
Link NOC:Programming and Data structures (PDS) Lecture 12 - Queue ADT Definition and Implementation
Link NOC:Programming and Data structures (PDS) Lecture 13 - Merging using Queue ADT and Queue types
Link NOC:Programming and Data structures (PDS) Lecture 14 - Tree ADT and Traversals
Link NOC:Programming and Data structures (PDS) Lecture 15 - Binary Tree ADT and traversals
Link NOC:Programming and Data structures (PDS) Lecture 16 - Tree Applications
Link NOC:Programming and Data structures (PDS) Lecture 17 - Binary Search Trees
Link NOC:Programming and Data structures (PDS) Lecture 18 - Heaps
Link NOC:Design and Analysis of Algorithms Lecture 1 - Course Outline
Link NOC:Design and Analysis of Algorithms Lecture 2 - Example: Air Travel
Link NOC:Design and Analysis of Algorithms Lecture 3 - Example: Xerox shop
Link NOC:Design and Analysis of Algorithms Lecture 4 - Example: Document similarity
Link NOC:Design and Analysis of Algorithms Lecture 5 - Introduction and motivation
Link NOC:Design and Analysis of Algorithms Lecture 6 - Input size, worst case, average case
Link NOC:Design and Analysis of Algorithms Lecture 7 - Quantifying efficiency: O( ), Omega( ), Theta( )
Link NOC:Design and Analysis of Algorithms Lecture 8 - Examples: Analysis of iterative and recursive algorithms
Link NOC:Design and Analysis of Algorithms Lecture 9 - Arrays and lists
Link NOC:Design and Analysis of Algorithms Lecture 10 - Searching in an array
Link NOC:Design and Analysis of Algorithms Lecture 11 - Selection Sort
Link NOC:Design and Analysis of Algorithms Lecture 12 - Insertion sort
Link NOC:Design and Analysis of Algorithms Lecture 13 - Merge sort
Link NOC:Design and Analysis of Algorithms Lecture 14 - Merge sort - analysis
Link NOC:Design and Analysis of Algorithms Lecture 15 - Quicksort
Link NOC:Design and Analysis of Algorithms Lecture 16 - Quicksort - analysis
Link NOC:Design and Analysis of Algorithms Lecture 17 - Sorting - Concluding remarks
Link NOC:Design and Analysis of Algorithms Lecture 18 - Introduction to graphs
Link NOC:Design and Analysis of Algorithms Lecture 19 - Representing graphs
Link NOC:Design and Analysis of Algorithms Lecture 20 - Breadth first search (BFS)
Link NOC:Design and Analysis of Algorithms Lecture 21 - Depth first search (DFS)
Link NOC:Design and Analysis of Algorithms Lecture 22 - Applications of BFS and DFS
Link NOC:Design and Analysis of Algorithms Lecture 23 - Directed acylic graphs: topological sort
Link NOC:Design and Analysis of Algorithms Lecture 24 - Directed acylic graphs: longest paths
Link NOC:Design and Analysis of Algorithms Lecture 25 - Single source shortest paths: Dijkstras algorithm
Link NOC:Design and Analysis of Algorithms Lecture 26 - Dijkstras algorithm: analysis
Link NOC:Design and Analysis of Algorithms Lecture 27 - Negative edge weights: Bellman-Ford algorithm
Link NOC:Design and Analysis of Algorithms Lecture 28 - All pairs shortest paths
Link NOC:Design and Analysis of Algorithms Lecture 29 - Minimum Cost Spanning Trees
Link NOC:Design and Analysis of Algorithms Lecture 30 - Prims Algorithm
Link NOC:Design and Analysis of Algorithms Lecture 31 - Kruskals algorithm
Link NOC:Design and Analysis of Algorithms Lecture 32 - Union-Find using arrays
Link NOC:Design and Analysis of Algorithms Lecture 33 - Union-Find using pointers
Link NOC:Design and Analysis of Algorithms Lecture 34 - Priority queues
Link NOC:Design and Analysis of Algorithms Lecture 35 - Heaps
Link NOC:Design and Analysis of Algorithms Lecture 36 - Heaps: Updating values, sorting
Link NOC:Design and Analysis of Algorithms Lecture 37 - Counting inversions
Link NOC:Design and Analysis of Algorithms Lecture 38 - Closest pair of points
Link NOC:Design and Analysis of Algorithms Lecture 39 - Binary Search Trees
Link NOC:Design and Analysis of Algorithms Lecture 40 - Balanced search trees
Link NOC:Design and Analysis of Algorithms Lecture 41 - Interval scheduling
Link NOC:Design and Analysis of Algorithms Lecture 42 - Scheduling with deadlines: minimizing lateness
Link NOC:Design and Analysis of Algorithms Lecture 43 - Huffman codes
Link NOC:Design and Analysis of Algorithms Lecture 44 - Introduction to dynamic programming
Link NOC:Design and Analysis of Algorithms Lecture 45 - Memoization
Link NOC:Design and Analysis of Algorithms Lecture 46 - Grid Paths
Link NOC:Design and Analysis of Algorithms Lecture 47 - Common subwords and subsequences
Link NOC:Design and Analysis of Algorithms Lecture 48 - Edit distance
Link NOC:Design and Analysis of Algorithms Lecture 49 - Matrix multiplication
Link NOC:Design and Analysis of Algorithms Lecture 50 - Linear Programming
Link NOC:Design and Analysis of Algorithms Lecture 51 - LP modelling: Production Planning
Link NOC:Design and Analysis of Algorithms Lecture 52 - LP modelling: Bandwidth allocation
Link NOC:Design and Analysis of Algorithms Lecture 53 - Network Flows
Link NOC:Design and Analysis of Algorithms Lecture 54 - Reductions
Link NOC:Design and Analysis of Algorithms Lecture 55 - Checking Algorithms
Link NOC:Design and Analysis of Algorithms Lecture 56 - P and NP
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 1 - Introduction to Computers and Programming
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 2 - Writing your first program
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 3 - Variables, Operators and Expressions
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 4 - Variable declarations, more operators and precedence
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 5 - Input and Output Statements
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 6 - Conditionals
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 7 - Loops
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 8 - Introduction to Arrays
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 9 - Working with 1D Arrays
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 10 - Find prime numbers
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 11 - Debugging demo
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 12 - Multi-dimensional arrays
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 13 - Pointers
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 14 - More on pointers
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 15 - Arrays and pointer arithmetic
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 16 - Introduction to Strings
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 17 - More on String
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 18 - Introduction to functions
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 19 - More details on functions
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 20 - Arguments, variables and parameters
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 21 - Pass parameters by reference
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 22 - Recursive Functions
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 23 - C control structures, functional specification of programs
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 24 - Complexity Analysis using Sum and Product Rule
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 25 - Complexity Analysis of Recursive Functions
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 26 - Algorithms and Powering
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 27 - Polynomial evaluation and multiplication
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 28 - Linear and Binary Search Analysis
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 29 - Analysis of minimum and maximum in an array
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 30 - Sorting I: Insertion, Merge
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 31 - Sorting II: Counting, Radix
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 32 - Finding i-th smallest number
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 33 - Structures
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 34 - More on Structures
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 35 - Using structures and pointers to structures
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 36 - Dynamic memory allocation
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 37 - Linked List
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 38 - Brief introduction to C++: Classes and objects
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 39 - Abstract Data Types
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 40 - More on ADT
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 41 - Stacks : Last In First Out
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 42 - Queues: First In First
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 43 - Trees
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 44 - Tree Traversal
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 45 - Binary Search
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 46 - Heaps
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 47 - Graphs and Representations
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 48 - Greedy Algorithms
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 49 - Dynamic Programming
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 50 - Matrix Chain Multiplication
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 51 - Hash Tables
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 52 - Graph Algorithms: Dijkstras Algorithm and Prims Algorithm
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 53 - Graph Traversals : BFS,DFS and Articulation Points
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 54 - File I/O
Link NOC:Programming, Data Structures and Algorithms (Aricent) Lecture 55 - Modular Programming
Link NOC:Computer Architecture Lecture 1 - Introduction to Computer Architecture
Link NOC:Computer Architecture Lecture 2 - Quantitative Principles of Computer Design
Link NOC:Computer Architecture Lecture 3 - Instruction Set Principles-Part 1
Link NOC:Computer Architecture Lecture 4 - Instruction Set Principles-Part 2
Link NOC:Computer Architecture Lecture 5 - Instruction Set Principles-Part 3
Link NOC:Computer Architecture Lecture 6 - Cache Memory Hierarchy - Part 1
Link NOC:Computer Architecture Lecture 7 - Cache Memory Hierarchy - Part 2
Link NOC:Computer Architecture Lecture 8 - Cache Memory Hierarchy - Part 3
Link NOC:Computer Architecture Lecture 9 - Cache Memory Hierarchy - Part 4
Link NOC:Computer Architecture Lecture 10 - Main Memory Design - Part 1
Link NOC:Computer Architecture Lecture 11 - Main Memory Design - Part 2
Link NOC:Computer Architecture Lecture 12 - Main Memory Design - Part 3
Link NOC:Computer Architecture Lecture 13 - Fundamentals of Pipelining - Part 1
Link NOC:Computer Architecture Lecture 14 - Fundamentals of Pipelining - Part 2
Link NOC:Computer Architecture Lecture 15 - Fundamentals of Pipelining - Part 3
Link NOC:Computer Architecture Lecture 16 - Fundamentals of Pipelining - Part 4
Link NOC:Computer Architecture Lecture 17 - Fundamentals of Pipelining - Part 5
Link NOC:Computer Architecture Lecture 18 - Scalar to Superscalar pipeline
Link NOC:Computer Architecture Lecture 19 - Instruction Dependencies
Link NOC:Computer Architecture Lecture 20 - Compiler optimizations for Exposing ILP
Link NOC:Computer Architecture Lecture 21 - Advanced Branch Prediction Techniques - Part 1
Link NOC:Computer Architecture Lecture 22 - Advanced Branch Prediction Techniques - Part 2
Link NOC:Computer Architecture Lecture 23 - Superscalar Organization
Link NOC:Computer Architecture Lecture 24 - Register Renaming
Link NOC:Computer Architecture Lecture 25 - Tomasulo Algorithm
Link NOC:Computer Architecture Lecture 26 - Dynamic Execution Core
Link NOC:Computer Architecture Lecture 27 - Multi threading
Link NOC:Computer Architecture Lecture 28 - Multicore Processor Architecture
Link NOC:Computer Architecture Lecture 29 - Cache Coherence
Link NOC:Computer Architecture Lecture 30 - Cache Coherence Protocol Design
Link NOC:Computer Architecture Lecture 31 - Synchronization
Link NOC:Computer Architecture Lecture 32 - Memory Consistency - Part 1
Link NOC:Computer Architecture Lecture 33 - Memory Consistency - Part 2
Link NOC:Model Checking Lecture 1 - Course Overview
Link NOC:Model Checking Lecture 2 - Module 1 - Modeling code behaviour
Link NOC:Model Checking Lecture 3 - Module 2 - Modeling hardware circuits
Link NOC:Model Checking Lecture 4 - Module 3 - Modeling data-dependent programs
Link NOC:Model Checking Lecture 5 - Module 4 - Modeling concurrent systems
Link NOC:Model Checking Lecture 6 - Summary
Link NOC:Model Checking Lecture 7 - Module 1 - Model checking tools
Link NOC:Model Checking Lecture 8 - Module 2 - Simple models in NuSMV
Link NOC:Model Checking Lecture 9 - Module 3 - Hardware verification using NuSMV
Link NOC:Model Checking Lecture 10 - Module 4 - Modeling concurrent systems in NuSMV
Link NOC:Model Checking Lecture 11 - Summary.
Link NOC:Model Checking Lecture 12 - Module 1 - A problem in concurrency
Link NOC:Model Checking Lecture 13 - Module 2 - What is a property?
Link NOC:Model Checking Lecture 14 - Module 3 - Invariants
Link NOC:Model Checking Lecture 15 - Module 4 - Safety properties
Link NOC:Model Checking Lecture 16 - Module 5 - Liveness properties
Link NOC:Model Checking Lecture 17 - Summary..
Link NOC:Model Checking Lecture 18 - Module 1 - Road map
Link NOC:Model Checking Lecture 19 - Module 2 - A gentle introduction to automata
Link NOC:Model Checking Lecture 20 - Module 3 - Simple properties of finite automata
Link NOC:Model Checking Lecture 21 - Module 4 - Safety properties described by automata
Link NOC:Model Checking Lecture 22 - Summary...
Link NOC:Model Checking Lecture 23 - Module 1 - Specifying properties
Link NOC:Model Checking Lecture 24 - Module 2 - Omega-regular expressions
Link NOC:Model Checking Lecture 25 - Module 3 - Bchi automata
Link NOC:Model Checking Lecture 26 - Module 4 - Simple properties of Bchi automata
Link NOC:Model Checking Lecture 27 - Summary....
Link NOC:Model Checking Lecture 28 - Module 1 - Overview
Link NOC:Model Checking Lecture 29 - Module 2 - Omega-regular expressions to NBA
Link NOC:Model Checking Lecture 30 - Module 3 - Checking emptiness of NBA
Link NOC:Model Checking Lecture 31 - Module 4 - Generalized NBA
Link NOC:Model Checking Lecture 32 - Summary.....
Link NOC:Model Checking Lecture 33 - Module 1 - Introduction to LTL
Link NOC:Model Checking Lecture 34 - Module 2 - Semantics of LTL
Link NOC:Model Checking Lecture 35 - Module 3 - A puzzle
Link NOC:Model Checking Lecture 36 - Summary.
Link NOC:Model Checking Lecture 37 - Module 1 - Automata based LTL model-checking
Link NOC:Model Checking Lecture 38 - Module 2 - LTL to NBA
Link NOC:Model Checking Lecture 39 - Module 3 - Automaton construction
Link NOC:Model Checking Lecture 40 - Summary..
Link NOC:Model Checking Lecture 41 - Module 1 - Tree view of a transition system
Link NOC:Model Checking Lecture 42 - Module 2 - CTL*
Link NOC:Model Checking Lecture 43 - Module 3 - CTL
Link NOC:Model Checking Lecture 44 - summary...
Link NOC:Model Checking Lecture 45 - Module 1 - Adequate CTL formulae
Link NOC:Model Checking Lecture 46 - Module 2 - EX, EU, EG
Link NOC:Model Checking Lecture 47 - Module 3 - Final algorithm
Link NOC:Model Checking Lecture 48 - Module 4 - State-space explosion
Link NOC:Model Checking Lecture 49 - Summary....
Link NOC:Model Checking Lecture 50 - Module 1 - Introduction to BDDs
Link NOC:Model Checking Lecture 51 - Module 2 - Ordered BDDs
Link NOC:Model Checking Lecture 52 - Module 3 - Representing transition systems as OBDDs
Link NOC:Model Checking Lecture 53 - Summary.....
Link NOC:Model Checking Lecture 54 - Timed transition systems
Link NOC:Model Checking Lecture 55 - Concluding remarks
Link NOC:Functional Programming in Haskell Lecture 1 - Functions
Link NOC:Functional Programming in Haskell Lecture 2 - Types
Link NOC:Functional Programming in Haskell Lecture 3 - Haskell
Link NOC:Functional Programming in Haskell Lecture 4 - Running Haskell programs
Link NOC:Functional Programming in Haskell Lecture 5 - Currying
Link NOC:Functional Programming in Haskell Lecture 6 - Examples
Link NOC:Functional Programming in Haskell Lecture 7 - Lists
Link NOC:Functional Programming in Haskell Lecture 8 - Functions on lists
Link NOC:Functional Programming in Haskell Lecture 9 - Characters and strings
Link NOC:Functional Programming in Haskell Lecture 10 - Tuples
Link NOC:Functional Programming in Haskell Lecture 11 - Computation as rewriting
Link NOC:Functional Programming in Haskell Lecture 12 - Polymorphism and higher-order functions
Link NOC:Functional Programming in Haskell Lecture 13 - Map and filter
Link NOC:Functional Programming in Haskell Lecture 14 - List comprehension
Link NOC:Functional Programming in Haskell Lecture 15 - Folding through a list
Link NOC:Functional Programming in Haskell Lecture 16 - Measuring efficiency
Link NOC:Functional Programming in Haskell Lecture 17 - Sorting
Link NOC:Functional Programming in Haskell Lecture 18 - Using infinite lists
Link NOC:Functional Programming in Haskell Lecture 19 - Conditional polymorphism
Link NOC:Functional Programming in Haskell Lecture 20 - Defining functions in ghci
Link NOC:Functional Programming in Haskell Lecture 21 - User-defined datatypes
Link NOC:Functional Programming in Haskell Lecture 22 - Abstract datatypes
Link NOC:Functional Programming in Haskell Lecture 23 - Modules
Link NOC:Functional Programming in Haskell Lecture 24 - Recursive data types
Link NOC:Functional Programming in Haskell Lecture 25 - Binary search trees
Link NOC:Functional Programming in Haskell Lecture 26 - Balanced search trees
Link NOC:Functional Programming in Haskell Lecture 27 - Arrays
Link NOC:Functional Programming in Haskell Lecture 28 - Input/Output
Link Virtual Reality Lecture 1 - Course mechanics
Link Virtual Reality Lecture 2 - Goals and VR definitions
Link Virtual Reality Lecture 3 - Historical perspective
Link Virtual Reality Lecture 4 - Birds-eye view (general)
Link Virtual Reality Lecture 5 - Birds-eye view (general) (Continued...)
Link Virtual Reality Lecture 6 - Birds-eye view (hardware)
Link Virtual Reality Lecture 7 - Birds-eye view (software)
Link Virtual Reality Lecture 8 - Birds-eye view (sensation and perception)
Link Virtual Reality Lecture 9 - Geometric modeling
Link Virtual Reality Lecture 10 - Transforming models
Link Virtual Reality Lecture 11 - Matrix algebra and 2D rotations
Link Virtual Reality Lecture 12 - 3D rotations and yaw, pitch, and roll
Link Virtual Reality Lecture 13 - 3D rotations and yaw, pitch, and roll (Continued...)
Link Virtual Reality Lecture 14 - Axis-angle representations
Link Virtual Reality Lecture 15 - Quaternions
Link Virtual Reality Lecture 16 - Converting and multiplying rotations
Link Virtual Reality Lecture 17 - Converting and multiplying rotations (Continued...)
Link Virtual Reality Lecture 18 - Homogeneous transforms
Link Virtual Reality Lecture 19 - The chain of viewing transforms
Link Virtual Reality Lecture 20 - Eye transforms
Link Virtual Reality Lecture 21 - Eye transforms (Continued...)
Link Virtual Reality Lecture 22 - Canonical view transform
Link Virtual Reality Lecture 23 - Viewport transform
Link Virtual Reality Lecture 24 - Viewport transform (Continued...)
Link Virtual Reality Lecture 25 - Three interpretations of light
Link Virtual Reality Lecture 26 - Refraction
Link Virtual Reality Lecture 27 - Simple lenses
Link Virtual Reality Lecture 28 - Diopters
Link Virtual Reality Lecture 29 - Imaging properties of lenses
Link Virtual Reality Lecture 30 - Lens aberrations
Link Virtual Reality Lecture 31 - Optical system of eyes
Link Virtual Reality Lecture 32 - Photoreceptors
Link Virtual Reality Lecture 33 - Sufficient resolution for VR
Link Virtual Reality Lecture 34 - Light intensity
Link Virtual Reality Lecture 35 - Eye movements
Link Virtual Reality Lecture 36 - Eye movements (Continued...)
Link Virtual Reality Lecture 37 - Eye movement issues for VR
Link Virtual Reality Lecture 38 - Neuroscience of vision
Link Virtual Reality Lecture 39 - Depth perception
Link Virtual Reality Lecture 40 - Depth perception (Continued...)
Link Virtual Reality Lecture 41 - Motion perception
Link Virtual Reality Lecture 42 - Frame rates and displays
Link Virtual Reality Lecture 43 - Frame rates and displays (Continued...)
Link Virtual Reality Lecture 44 - Overview
Link Virtual Reality Lecture 45 - Orientation tracking
Link Virtual Reality Lecture 46 - Tilt drift correction
Link Virtual Reality Lecture 47 - Yaw drift correction
Link Virtual Reality Lecture 48 - Tracking with a camera
Link Virtual Reality Lecture 49 - Perspective n-point problem
Link Virtual Reality Lecture 50 - Filtering
Link Virtual Reality Lecture 51 - Lighthouse approach
Link Virtual Reality Lecture 52 - Visual Rendering-Overview
Link Virtual Reality Lecture 53 - Visual Rendering-overview (Continued...)
Link Virtual Reality Lecture 54 - Shading models
Link Virtual Reality Lecture 55 - Rasterization
Link Virtual Reality Lecture 56 - Pixel shading
Link Virtual Reality Lecture 57 - VR-specific problems
Link Virtual Reality Lecture 58 - Distortion shading
Link Virtual Reality Lecture 59 - Post-rendering image warp
Link Virtual Reality Lecture 60 - Physics and physiology
Link Virtual Reality Lecture 61 - Auditory perception
Link Virtual Reality Lecture 62 - Auditory localization
Link Virtual Reality Lecture 63 - Rendering
Link Virtual Reality Lecture 64 - Spatialization and display
Link Virtual Reality Lecture 65 - Combining other senses
Link Virtual Reality Lecture 66 - Interfaces -overview
Link Virtual Reality Lecture 67 - Locomotion
Link Virtual Reality Lecture 68 - Manipulation
Link Virtual Reality Lecture 69 - System control
Link Virtual Reality Lecture 70 - Social interaction
Link Virtual Reality Lecture 71 - Evaluation of VR Systems
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 1 - A brief introduction to machine learning
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 2 - Supervised Learning
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 3 - Unsupervised Learning
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 4 - Reinforcement Learning
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 5 - Probability Basics - 1
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 6 - Probability Basics - 2
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 7 - Linear Algebra - 1
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 8 - Linear Algebra - 2
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 9 - Statistical Decision Theory - Regression
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 10 - Statistical Decision Theory - Classification
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 11 - Bias-Variance
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 12 - Linear Regression
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 13 - Multivariate Regression
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 14 - Subset Selection 1
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 15 - Subset Selection 2
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 16 - Shrinkage Methods
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 17 - Principal Components Regression
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 18 - Partial Least Squares
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 19 - Linear Classification
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 20 - Logistic Regression
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 21 - Linear Discriminant Analysis 1
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 22 - Linear Discriminant Analysis 2
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 23 - Linear Discriminant Analysis 3
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 24 - Optimization
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 25 - Perceptron Learning
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 26 - SVM - Formulation
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 27 - SVM - Interpretation & Analysis
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 28 - SVMs for Linearly Non Separable Data
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 29 - SVM Kernels
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 30 - SVM - Hinge Loss Formulation
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 31 - Weka Tutorial
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 32 - Early Models
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 33 - Backpropogation - I
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 34 - Backpropogation - II
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 35 - Initialization, Training and Validation
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 36 - Maximum Likelihood Estimate
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 37 - Priors and MAP Estimate
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 38 - Bayesian Parameter Estimation
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 39 - Introduction
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 40 - Regression Trees
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 41 - Stopping Criteria and Pruning
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 42 - Loss Functions for Classification
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 43 - Categorical Attributes
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 44 - Multiway Splits
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 45 - Missing Values, Imputation and Surrogate Splits
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 46 - Instability, Smoothness and Repeated Subtrees
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 47 - Tutorial
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 48 - Evaluation Measures I
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 49 - Bootstrapping and Cross Validation
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 50 - 2 Class Evaluation Measures
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 51 - The ROC Curve
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 52 - Minimum Description Length and Exploratory Analysis
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 53 - Introduction to Hypothesis Testing
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 54 - Basic Concepts
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 55 - Sampling Distributions and the Z Test
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 56 - Student's t-test
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 57 - The Two Sample and Paired Sample t-tests
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 58 - Confidence Intervals
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 59 - Bagging, Committee Machines and Stacking
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 60 - Boosting
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 61 - Gradient Boosting
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 62 - Random Forest
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 63 - Naive Bayes
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 64 - Bayesian Networks
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 65 - Undirected Graphical Models - Introduction
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 66 - Undirected Graphical Models - Potential Functions
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 67 - Hidden Markov Models
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 68 - Variable Elimination
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 69 - Belief Propagation
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 70 - Partitional Clustering
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 71 - Hierarchical Clustering
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 72 - Threshold Graphs
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 73 - The BIRCH Algorithm
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 74 - The CURE Algorithm
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 75 - Density Based Clustering
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 76 - Gaussian Mixture Models
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 77 - Expectation Maximization
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 78 - Expectation Maximization (Continued...)
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 79 - Spectral Clustering
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 80 - Learning Theory
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 81 - Frequent Itemset Mining
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 82 - The Apriori Property
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 83 - Introduction to Reinforcement Learning
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 84 - RL Framework and TD Learning
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 85 - Solution Methods and Applications
Link NOC:Introduction to Machine Learning (Sponsored by Arihant) Lecture 86 - Multi-class Classification
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 1 - Introduction
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 2 - Introduction to Knowledge Representation and Reasoning
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 3 - An Introduction to Formal Logics
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 4 - Propositional Logic: Language, Semantics and Reasoning
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 5 - Propositional Logic: Syntax and Truth Values
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 6 - Propositional Logic: Valid Arguments and Proof Systems
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 7 - Propositional Logic: Rules of Inference and Natural Deduction
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 8 - Propositional Logic: Axiomatic Systems and Hilbert Style Proofs
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 9 - Propositional Logic: The Tableau Method
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 10 - Propositional Logic: The Resolution Refutation Method
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 11 - Syntax
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 12 - Semantics
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 13 - Entailment and Models
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 14 - Proof Systems
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 15 - Forward Chaining
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 16 - Unification
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 17 - Forward Chaining Rule Based Systems
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 18 - The Rete Algorithm
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 19 - Rete Algorithm - Example
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 20 - Programming in a Rule Based Language
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 21 - The OPS5 Expert System Shell
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 22 - Skolemization
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 23 - Terminological Facts
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 24 - Properties and Categories
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 25 - Reification and Abstract Entities
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 26 - Resource Description Framework (RDF)
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 27 - The Event Calculus: Reasoning About Change
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 28 - Natural Language Semantics
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 29 - CD Theory
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 30 - CD Theory (Continued...)
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 31 - English to CD Theory
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 32 - Backward Chaining
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 33 - Logic Programming
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 34 - Prolog
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 35 - Search in Prolog
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 36 - Controlling Search
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 37 - The Cut Operator in Prolog
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 38 - Incompleteness
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 39 - The Resolution Method for FOL
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 40 - Clause Form
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 41 - FOL with Equality
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 42 - Complexity of Resolution Refutation
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 43 - Semantic Nets and Frames
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 44 - Scripts
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 45 - Applying Scripts
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 46 - Goals, Plans and Actions
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 47 - Plan Applier Mechanism
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 48 - Top Down and Bottom Up Reasoning
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 49 - Introduction
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 50 - Normalisation
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 51 - Structure Matching
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 52 - Structure Matching - Example
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 53 - Classification
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 54 - A-box reasoning
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 55 - DL: Extensions
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 56 - DL: ALC
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 57 - ALC examples
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 58 - Taxonomies and Inheritance
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 59 - Beliefs
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 60 - Inheritance Hierarchies
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 61 - Introduction
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 62 - Circumscription
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 63 - Circumscription (Continued...)
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 64 - Minimal Models
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 65 - Event Calculus Revisited
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 66 - Circumscription in EC
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 67 - Defaul Logic
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 68 - Autoepistemc Logic
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 69 - Epistemic Logic
Link NOC:Artificial Intelligence - Knowledge Representation and Reasoning Lecture 70 - The Muddy Children Puzzle
Link NOC:Information Security - II Lecture 1 - Experimental Setup: Video Tutorial
Link NOC:Information Security - II Lecture 2 - Need for Secure Systems
Link NOC:Information Security - II Lecture 3 - Ignorance of A is Sin of B
Link NOC:Information Security - II Lecture 4 - Function calls and Stacks
Link NOC:Information Security - II Lecture 5 - Stack Smashing
Link NOC:Information Security - II Lecture 6 - Virtual Machine Based Rootkits
Link NOC:Information Security - II Lecture 7 - Security and Architecture: Introduction
Link NOC:Information Security - II Lecture 8 - Structured Computer Organization Completed
Link NOC:Information Security - II Lecture 9 - X86 ISA - Part1
Link NOC:Information Security - II Lecture 10 - X86 ISA - Part 2
Link NOC:Information Security - II Lecture 11 - X86 Protected Mode
Link NOC:Information Security - II Lecture 12 - X86 Memory Segmentation
Link NOC:Information Security - II Lecture 13 - Process Isolation using Segmentation
Link NOC:Information Security - II Lecture 14 - Paging and Virtual Memory
Link NOC:Information Security - II Lecture 15 - Task Switching and Interrupt Service
Link NOC:Information Security - II Lecture 16 - Memory Segmentation Deep dive - Part 1
Link NOC:Information Security - II Lecture 17 - Memory Segmentation Deep dive - Part 2
Link NOC:Information Security - II Lecture 18 - Memory Segmentation Deep dive - Part 3
Link NOC:Information Security - II Lecture 19 - Memory Segmentation Deep dive - Part 4
Link NOC:Information Security - II Lecture 20 - Segmentation Recap
Link NOC:Information Security - II Lecture 21 - Lab 1 - Part 1
Link NOC:Information Security - II Lecture 22 - Lab 1 - Part 2
Link NOC:Information Security - II Lecture 23 - Lab 1 - Part 3
Link NOC:Information Security - II Lecture 24 - ISR Recap
Link NOC:Information Security - II Lecture 25 - Lab 2 - Part 1
Link NOC:Information Security - II Lecture 26 - Lab 2 - Part 2
Link NOC:Information Security - II Lecture 27 - Memory Management Recap
Link NOC:Information Security - II Lecture 28 - Lab 3 - Part 1
Link NOC:Information Security - II Lecture 29 - Lab 3 - Part 2
Link NOC:Information Security - II Lecture 30 - Task Switch recap
Link NOC:Information Security - II Lecture 31 - Lab 4 - Part 1
Link NOC:Information Security - II Lecture 32 - Lab 4 - Part 2
Link NOC:Information Security - II Lecture 33 - Lab 4 - Part 3
Link NOC:Information Security - II Lecture 34 - Lab 4 - Part 4
Link NOC:Information Security - II Lecture 35 - Introduction to Basic Cryptography
Link NOC:Information Security - II Lecture 36 - Public Key Cryptography
Link NOC:Information Security - II Lecture 37 - Freescale ARM iMX6 Processor
Link NOC:Information Security - II Lecture 38 - High Assurance Boot in iMX6
Link NOC:Information Security - II Lecture 39 - Case Study
Link NOC:Information Security - II Lecture 40 - Basics of Networking
Link NOC:Information Security - II Lecture 41 - Network Processor Vs General Purpose Processor
Link NOC:Information Security - II Lecture 42 - Network Processor Architecture
Link NOC:Algorithms for Big Data Lecture 1 - Lesson 1 - Basic definitions
Link NOC:Algorithms for Big Data Lecture 2 - Lesson 2 - Conditional probability
Link NOC:Algorithms for Big Data Lecture 3 - Lesson 3 - Example problems
Link NOC:Algorithms for Big Data Lecture 4 - Lesson 4 - Karger's mincut algorithm
Link NOC:Algorithms for Big Data Lecture 5 - Lesson 5 - Analysis of Karger's mincut algorithm
Link NOC:Algorithms for Big Data Lecture 6 - Lesson 6 - Random variables
Link NOC:Algorithms for Big Data Lecture 7 - Lesson 7 - Randomized quicksort
Link NOC:Algorithms for Big Data Lecture 8 - Problem solving video - The rich get richer
Link NOC:Algorithms for Big Data Lecture 9 - Problem solving video - Monty Hall problem
Link NOC:Algorithms for Big Data Lecture 10 - Lesson 1 - Bernoulli, Binomial, and Geometric distributions
Link NOC:Algorithms for Big Data Lecture 11 - Lesson 2 - Tail Bounds
Link NOC:Algorithms for Big Data Lecture 12 - Lesson 3 - Application of Chernoff bound
Link NOC:Algorithms for Big Data Lecture 13 - Lesson 4 - Application of Chebyshev's inequality
Link NOC:Algorithms for Big Data Lecture 14 - Lesson 1 - Intro to Big Data Algorithms
Link NOC:Algorithms for Big Data Lecture 15 - Lesson 2 - SAT Problem
Link NOC:Algorithms for Big Data Lecture 16 - Lesson 3 - Classification of States
Link NOC:Algorithms for Big Data Lecture 17 - Lesson 4 - Stationary Distribution of a Markov Chain
Link NOC:Algorithms for Big Data Lecture 18 - Lesson 5 - Celebrities Case Study
Link NOC:Algorithms for Big Data Lecture 19 - Lesson 6 - Random Walks on Undirected Graphs
Link NOC:Algorithms for Big Data Lecture 20 - Lesson 7 - Intro to Streaming, Morris Algorithm
Link NOC:Algorithms for Big Data Lecture 21 - Lesson 8 - Reservoir Sampling
Link NOC:Algorithms for Big Data Lecture 22 - Lesson 9 - Approximate Median
Link NOC:Algorithms for Big Data Lecture 23 - Lesson 1 - Overview
Link NOC:Algorithms for Big Data Lecture 24 - Lesson 2 - Balls, bins, hashing
Link NOC:Algorithms for Big Data Lecture 25 - Lesson 3 - Chain hashing, SUHA, Power of Two choices
Link NOC:Algorithms for Big Data Lecture 26 - Lesson 4 - Bloom filter
Link NOC:Algorithms for Big Data Lecture 27 - Lesson 5 - Pairwise independence
Link NOC:Algorithms for Big Data Lecture 28 - Lesson 6 - Estimating expectation of continuous function
Link NOC:Algorithms for Big Data Lecture 29 - Lesson 1 - Universal hash functions
Link NOC:Algorithms for Big Data Lecture 30 - Lesson 2 - Perfect hashing
Link NOC:Algorithms for Big Data Lecture 31 - Lesson 3 - Count-min filter for heavy hitters in data streams
Link NOC:Algorithms for Big Data Lecture 32 - Problem solving video - Doubly Stochastic Transition Matrix
Link NOC:Algorithms for Big Data Lecture 33 - Problem solving video - Random Walks on Linear Structures
Link NOC:Algorithms for Big Data Lecture 34 - Problem solving video - Lollipop Graph
Link NOC:Algorithms for Big Data Lecture 35 - Problem solving video - Cat And Mouse
Link NOC:Algorithms for Big Data Lecture 36 - Lesson 1 - Estimating frequency moments
Link NOC:Algorithms for Big Data Lecture 37 - Lesson 2 - Property testing framework
Link NOC:Algorithms for Big Data Lecture 38 - Lesson 3 - Testing Connectivity
Link NOC:Algorithms for Big Data Lecture 39 - Lesson 4 - Enforce & Test Introduction
Link NOC:Algorithms for Big Data Lecture 40 - Lesson 5 - Testing if a graph is a biclique
Link NOC:Algorithms for Big Data Lecture 41 - Lesson 6 - Testing bipartiteness
Link NOC:Algorithms for Big Data Lecture 42 - Lesson 1 - Property testing and random walk algorithms
Link NOC:Algorithms for Big Data Lecture 43 - Lesson 2 - Testing if a graph is bipartite (using random walks)
Link NOC:Algorithms for Big Data Lecture 44 - Lesson 3 - Graph streaming algorithms : Introduction
Link NOC:Algorithms for Big Data Lecture 45 - Lesson 4 - Graph streaming algorithms : Matching
Link NOC:Algorithms for Big Data Lecture 46 - Lesson 5 - Graph streaming algorithms : Graph sparsification
Link NOC:Algorithms for Big Data Lecture 47 - Lesson 1 - MapReduce
Link NOC:Algorithms for Big Data Lecture 48 - Lesson 2 - K-Machine Model (aka Pregel Model)
Link NOC:Reinforcement Learning Lecture 1 - Tutorial 1 - Probability Basics 1
Link NOC:Reinforcement Learning Lecture 2 - Tutorial 1 - Probability Basics 2
Link NOC:Reinforcement Learning Lecture 3 - Tutorial 2 - Linear algebra - 1
Link NOC:Reinforcement Learning Lecture 4 - Tutorial 2 - Linear algebra - 2
Link NOC:Reinforcement Learning Lecture 5 - Introduction to RL
Link NOC:Reinforcement Learning Lecture 6 - RL Framework and applications
Link NOC:Reinforcement Learning Lecture 7 - Introduction to Immediate RL
Link NOC:Reinforcement Learning Lecture 8 - Bandit Optimalities
Link NOC:Reinforcement Learning Lecture 9 - Value function based methods
Link NOC:Reinforcement Learning Lecture 10 - UCB 1
Link NOC:Reinforcement Learning Lecture 11 - Concentration Bounds
Link NOC:Reinforcement Learning Lecture 12 - UCB 1 Theorem
Link NOC:Reinforcement Learning Lecture 13 - PAC Bounds
Link NOC:Reinforcement Learning Lecture 14 - Median Elimination
Link NOC:Reinforcement Learning Lecture 15 - Thompson Sampling
Link NOC:Reinforcement Learning Lecture 16 - Policy Search
Link NOC:Reinforcement Learning Lecture 17 - REINFORCE
Link NOC:Reinforcement Learning Lecture 18 - Contextual Bandits
Link NOC:Reinforcement Learning Lecture 19 - Full RL Introduction
Link NOC:Reinforcement Learning Lecture 20 - Returns, Value Functions and MDPs
Link NOC:Reinforcement Learning Lecture 21 - MDP Modelling
Link NOC:Reinforcement Learning Lecture 22 - Bellman Equation
Link NOC:Reinforcement Learning Lecture 23 - Bellman Optimality Equation
Link NOC:Reinforcement Learning Lecture 24 - Cauchy Sequence and Green's Equation
Link NOC:Reinforcement Learning Lecture 25 - Banach Fixed Point Theorem
Link NOC:Reinforcement Learning Lecture 26 - Convergence Proof
Link NOC:Reinforcement Learning Lecture 27 - Lpi Convergence
Link NOC:Reinforcement Learning Lecture 28 - Value Iteration
Link NOC:Reinforcement Learning Lecture 29 - Policy Iteration
Link NOC:Reinforcement Learning Lecture 30 - Dynamic Programming
Link NOC:Reinforcement Learning Lecture 31 - Monte Carlo
Link NOC:Reinforcement Learning Lecture 32 - Control in Monte Carlo
Link NOC:Reinforcement Learning Lecture 33 - Off Policy MC
Link NOC:Reinforcement Learning Lecture 34 - UCT
Link NOC:Reinforcement Learning Lecture 35 - TD(0)
Link NOC:Reinforcement Learning Lecture 36 - TD(0) Control
Link NOC:Reinforcement Learning Lecture 37 - Q-Learning
Link NOC:Reinforcement Learning Lecture 38 - Afterstate
Link NOC:Reinforcement Learning Lecture 39 - Eligibility Traces
Link NOC:Reinforcement Learning Lecture 40 - Backward View of Eligibility Traces
Link NOC:Reinforcement Learning Lecture 41 - Eligibility Trace Control
Link NOC:Reinforcement Learning Lecture 42 - Thompson Sampling Recap
Link NOC:Reinforcement Learning Lecture 43 - Function Approximation
Link NOC:Reinforcement Learning Lecture 44 - Linear Parameterization
Link NOC:Reinforcement Learning Lecture 45 - State Aggregation Methods
Link NOC:Reinforcement Learning Lecture 46 - Function Approximation and Eligibility Traces
Link NOC:Reinforcement Learning Lecture 47 - LSTD and LSTDQ
Link NOC:Reinforcement Learning Lecture 48 - LSPI and Fitted Q
Link NOC:Reinforcement Learning Lecture 49 - DQN and Fitted Q-Iteration
Link NOC:Reinforcement Learning Lecture 50 - Policy Gradient Approach
Link NOC:Reinforcement Learning Lecture 51 - Actor Critic and REINFORCE
Link NOC:Reinforcement Learning Lecture 52 - REINFORCE (cont'd)
Link NOC:Reinforcement Learning Lecture 53 - Policy Gradient with Function Approximation
Link NOC:Reinforcement Learning Lecture 54 - Hierarchical Reinforcement Learning
Link NOC:Reinforcement Learning Lecture 55 - Types of Optimality
Link NOC:Reinforcement Learning Lecture 56 - Semi Markov Decision Processes
Link NOC:Reinforcement Learning Lecture 57 - Options
Link NOC:Reinforcement Learning Lecture 58 - Learning with Options
Link NOC:Reinforcement Learning Lecture 59 - Hierarchical Abstract Machines
Link NOC:Reinforcement Learning Lecture 60 - MAXQ
Link NOC:Reinforcement Learning Lecture 61 - MAXQ Value Function Decomposition
Link NOC:Reinforcement Learning Lecture 62 - Option Discovery
Link NOC:Reinforcement Learning Lecture 63 - POMDP Introduction
Link NOC:Reinforcement Learning Lecture 64 - Solving POMDP
Link NOC:Introduction to Operating Systems Lecture 1 - Intro to the Course
Link NOC:Introduction to Operating Systems Lecture 2 - Introduction to OS
Link NOC:Introduction to Operating Systems Lecture 3 - PC Hardware
Link NOC:Introduction to Operating Systems Lecture 4 - From Programs to Processes
Link NOC:Introduction to Operating Systems Lecture 5 - Sharing the CPU
Link NOC:Introduction to Operating Systems Lecture 6 - Introduction
Link NOC:Introduction to Operating Systems Lecture 7 - Virtual Memory
Link NOC:Introduction to Operating Systems Lecture 8 - MMU Mapping
Link NOC:Introduction to Operating Systems Lecture 9 - Segmentation
Link NOC:Introduction to Operating Systems Lecture 10 - Memory Management in xv6
Link NOC:Introduction to Operating Systems Lecture 11 - PC Booting
Link NOC:Introduction to Operating Systems Lecture 12 - Week 3 Introduction
Link NOC:Introduction to Operating Systems Lecture 13 - Create Execute and Exit from Processes
Link NOC:Introduction to Operating Systems Lecture 14 - System Calls for Process Management
Link NOC:Introduction to Operating Systems Lecture 15 - Interrupts
Link NOC:Introduction to Operating Systems Lecture 16 - Interrupt Handling
Link NOC:Introduction to Operating Systems Lecture 17 - Software Interrupts and System calls
Link NOC:Introduction to Operating Systems Lecture 18 - CPU Context switching
Link NOC:Introduction to Operating Systems Lecture 19 - CPU Scheduling
Link NOC:Introduction to Operating Systems Lecture 20 - Priority Based Scheduling Algorithms
Link NOC:Introduction to Operating Systems Lecture 21 - Multi-Processor Scheduling
Link NOC:Introduction to Operating Systems Lecture 22 - Scheduling in Linux
Link NOC:Introduction to Operating Systems Lecture 23 - Completely Fair Scheduling
Link NOC:Introduction to Operating Systems Lecture 24 - Inter Process Communication
Link NOC:Introduction to Operating Systems Lecture 25 - Synchronization
Link NOC:Introduction to Operating Systems Lecture 26 - Software solutions for critical sections
Link NOC:Introduction to Operating Systems Lecture 27 - Bakery Algorithm
Link NOC:Introduction to Operating Systems Lecture 28 - Hardware Locks
Link NOC:Introduction to Operating Systems Lecture 29 - Mutexes
Link NOC:Introduction to Operating Systems Lecture 30 - Semaphores
Link NOC:Introduction to Operating Systems Lecture 31 - Dining Philosophers Problem
Link NOC:Introduction to Operating Systems Lecture 32 - Deadlocks
Link NOC:Introduction to Operating Systems Lecture 33 - Dealing with Deadlocks
Link NOC:Introduction to Operating Systems Lecture 34 - Threads - Part 1
Link NOC:Introduction to Operating Systems Lecture 35 - Threads - Part 2
Link NOC:Introduction to Operating Systems Lecture 36 - Operating system security
Link NOC:Introduction to Operating Systems Lecture 37 - Information Flow policies
Link NOC:Introduction to Operating Systems Lecture 38 - Buffer Overflows
Link NOC:Introduction to Operating Systems Lecture 39 - Preventing Buffer Overflow Attacks
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 1 - Lecture 1 - Algorithms and programming: simple gcd
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 2 - Lecture 2 - Improving naive gcd
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 3 - Lecture 3 - Euclid's algorithm for gcd
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 4 - Lecture 4 - Downloading and installing Python
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 5 - Lecture 1 - Assignment statement, basic types - int, float, bool
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 6 - Lecture 2 - Strings
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 7 - Lecture 3 - Lists
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 8 - Lecture 4 - Control Flow
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 9 - Lecture 5 - Functions
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 10 - Lecture 6 - Examples
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 11 - Lecture 1 - More about range()
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 12 - Lecture 2 - Manipulating lists
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 13 - Lecture 3 - Breaking out of a loop
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 14 - Lecture 4 - Arrays vs lists, binary search
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 15 - Lecture 5 - Efficiency
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 16 - Lecture 6 - Selection Sort
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 17 - Lecture 7 - Insertion Sort
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 18 - Lecture 8 - Recursion
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 19 - Lecture 1 - Mergesort
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 20 - Lecture 2 - Mergesort, analysis
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 21 - Lecture 3 - Quicksort
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 22 - Lecture 4 - Quicksort analysis
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 23 - Lecture 5 - Tuples and dictionaries
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 24 - Lecture 6 - Function definitions
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 25 - Lecture 7 - List Comprehension
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 26 - Lecture 1 - Exception Handling
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 27 - Lecture 2 - Standard input and output
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 28 - Lecture 3 - Handling files
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 29 - Lecture 4 - String functions
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 30 - Lecture 5 - Formatting printed output
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 31 - Lecture 6 - pass, del() and None
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 32 - Lecture 1 - Backtracking, N queens
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 33 - Lecture 2 - Global scope, nested functions
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 34 - Lecture 3 - Generating permutations
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 35 - Lecture 4 - Sets, stacks, queues
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 36 - Lecture 5 - Priority queues and heaps
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 37 - Lecture 1 - Abstract datatypes, classes and objects
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 38 - Lecture 2 - Classes and objects in Python
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 39 - Lecture 3 - User defined lists
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 40 - Lecture 4 - Search trees
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 41 - Lecture 1 - Memoization and dynamic programming
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 42 - Lecture 2 - Grid paths
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 43 - Lecture 3 - Longest common subsequence
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 44 - Lecture 4 - Matrix multiplication
Link NOC:Programming, Data Structures and Algorithms in Python Lecture 45 - Lecture 5 - Wrap-up, Python vs other languages
Link NOC:Privacy and Security in Online Social Networks Lecture 1 - Intro to Course
Link NOC:Privacy and Security in Online Social Networks Lecture 2 - Intro to Course
Link NOC:Privacy and Security in Online Social Networks Lecture 3 - Incidents
Link NOC:Privacy and Security in Online Social Networks Lecture 4 - Tutorial 1 - Part 1 Ubuntu
Link NOC:Privacy and Security in Online Social Networks Lecture 5 - Tutorial 1 - Part 2 Python
Link NOC:Privacy and Security in Online Social Networks Lecture 6 - OSM APIs and tools for data collection
Link NOC:Privacy and Security in Online Social Networks Lecture 7 - Tutorial 2 - Part 1 Facebook API
Link NOC:Privacy and Security in Online Social Networks Lecture 8 - Tutorial 2 - Part 2 Facebook API
Link NOC:Privacy and Security in Online Social Networks Lecture 9 - Trust and Credibility on OSM
Link NOC:Privacy and Security in Online Social Networks Lecture 10 - Misinformation on Social Media
Link NOC:Privacy and Security in Online Social Networks Lecture 11 - Privacy and Social Media
Link NOC:Privacy and Security in Online Social Networks Lecture 12 - Tutorial 3 - Part 1 Twitter API
Link NOC:Privacy and Security in Online Social Networks Lecture 13 - Tutorial 3 - Part 2 MySQL
Link NOC:Privacy and Security in Online Social Networks Lecture 14 - Tutorial 3 - Part 3 MongoDB
Link NOC:Privacy and Security in Online Social Networks Lecture 15 - Privacy and Pictures on Online Social Media
Link NOC:Privacy and Security in Online Social Networks Lecture 16 - Policing and Online Social Media
Link NOC:Privacy and Security in Online Social Networks Lecture 17 - Policing and Online Social Media
Link NOC:Privacy and Security in Online Social Networks Lecture 18 - Policing and Online Social Media
Link NOC:Privacy and Security in Online Social Networks Lecture 19 - eCrime on Online Social Media
Link NOC:Privacy and Security in Online Social Networks Lecture 20 - eCrime on Online Social Media
Link NOC:Privacy and Security in Online Social Networks Lecture 21 - Tutorial 4 - Social Network Analysis
Link NOC:Privacy and Security in Online Social Networks Lecture 22 - Link Farming in Online Social Media
Link NOC:Privacy and Security in Online Social Networks Lecture 23 - Nudges
Link NOC:Privacy and Security in Online Social Networks Lecture 24 - Semantic attacks: Spear phishing
Link NOC:Privacy and Security in Online Social Networks Lecture 25 - Tutorial 5 - Analyzing text using Python NLTK
Link NOC:Privacy and Security in Online Social Networks Lecture 26 - Profile Linking on Online Social Media
Link NOC:Privacy and Security in Online Social Networks Lecture 27 - Anonymous Networks
Link NOC:Privacy and Security in Online Social Networks Lecture 28 - Tutorial 6 - Gephi Network Visualization
Link NOC:Privacy and Security in Online Social Networks Lecture 29 - Privacy in Location Based Social Networks - Part 1
Link NOC:Privacy and Security in Online Social Networks Lecture 30 - Privacy in Location Based Social Networks - Part 2
Link NOC:Privacy and Security in Online Social Networks Lecture 31 - Tutorial 7 - Visualization - Highcharts
Link NOC:Privacy and Security in Online Social Networks Lecture 32 - Beware of What You Share Inferring Home Location in Social Networks
Link NOC:Privacy and Security in Online Social Networks Lecture 33 - On the dynamics of username change behavior on Twitter
Link NOC:Privacy and Security in Online Social Networks Lecture 34 - Boston Marathon Analyzing Fake Content on Twitter
Link NOC:Mobile Computing Lecture 1 - Java Basics
Link NOC:Mobile Computing Lecture 2 - Java : Primitive Data Types, Strings, Loops, Conditional Statements
Link NOC:Mobile Computing Lecture 3 - Java : Strings, OOP principles
Link NOC:Mobile Computing Lecture 4 - Java : Interfaces
Link NOC:Mobile Computing Lecture 5 - Java : Classes, Exceptions, Threads
Link NOC:Mobile Computing Lecture 6 - Introduction to Android Studio
Link NOC:Mobile Computing Lecture 7 - Your First App
Link NOC:Mobile Computing Lecture 8 - Deploying your App to a Phone
Link NOC:Mobile Computing Lecture 9 - Extending app - Buttons, Toast
Link NOC:Mobile Computing Lecture 10 - Android Development Environment
Link NOC:Mobile Computing Lecture 11 - User Interface
Link NOC:Mobile Computing Lecture 12 - Application Fundamentals
Link NOC:Mobile Computing Lecture 13 - Extending the application
Link NOC:Mobile Computing Lecture 14 - Activity Lifecycle - I
Link NOC:Mobile Computing Lecture 15 - Activity Lifecycle - II
Link NOC:Mobile Computing Lecture 16 - Activity LifeCycle - III
Link NOC:Mobile Computing Lecture 17 - Adding Icon, Layouts, Handling Rotation - I
Link NOC:Mobile Computing Lecture 18 - Adding Icon, Layouts, Handling Rotation - II
Link NOC:Mobile Computing Lecture 19 - Debugging
Link NOC:Mobile Computing Lecture 20 - Intents - I
Link NOC:Mobile Computing Lecture 21 - Intents - II
Link NOC:Mobile Computing Lecture 22 - Observer Pattern
Link NOC:Mobile Computing Lecture 23 - Fragments - I
Link NOC:Mobile Computing Lecture 24 - Fragments - II
Link NOC:Mobile Computing Lecture 25 - Fragment Basic Programming Example
Link NOC:Mobile Computing Lecture 26 - Fragments - Advanced Example
Link NOC:Mobile Computing Lecture 27 - Implicit Intents
Link NOC:Mobile Computing Lecture 28 - Saving Data - I
Link NOC:Mobile Computing Lecture 29 - Saving Data - II
Link NOC:Mobile Computing Lecture 30 - Security and System Permissions
Link NOC:Mobile Computing Lecture 31 - Services
Link NOC:Mobile Computing Lecture 32 - Processes and threads
Link NOC:Mobile Computing Lecture 33 - Working with Fragments - I
Link NOC:Mobile Computing Lecture 34 - Working with Fragments - II
Link NOC:Mobile Computing Lecture 35 - Working with Fragments - III
Link NOC:Mobile Computing Lecture 36 - RecyclerView, Adapter
Link NOC:Mobile Computing Lecture 37 - RecyclerView, Adapter, ViewHolder
Link NOC:Mobile Computing Lecture 38 - ViewPager
Link NOC:Mobile Computing Lecture 39 - Dialogues
Link NOC:Introduction to Modern Application Development Lecture 1 - Introduction to the course
Link NOC:Introduction to Modern Application Development Lecture 2 - Introduction to a web-app
Link NOC:Introduction to Modern Application Development Lecture 3 - Building a web-app
Link NOC:Introduction to Modern Application Development Lecture 4 - Networks
Link NOC:Introduction to Modern Application Development Lecture 5 - Practical - Running your own web-server
Link NOC:Introduction to Modern Application Development Lecture 6 - Protocols
Link NOC:Introduction to Modern Application Development Lecture 7 - Practical - SSH + Network experiments
Link NOC:Introduction to Modern Application Development Lecture 8 - Practical - Building a webapp with nodejs and using git. Introduction to reverse proxies.
Link NOC:Introduction to Modern Application Development Lecture 9 - Practical - Introduciton to server-side javascript and HTML/CSS
Link NOC:Introduction to Modern Application Development Lecture 10 - Introduction to client-side Javascript
Link NOC:Introduction to Modern Application Development Lecture 11 - Practical - APIs and mobile apps use web-servers
Link NOC:Introduction to Modern Application Development Lecture 12 - Introduction to databases
Link NOC:Introduction to Modern Application Development Lecture 13 - Data modelling and constraints
Link NOC:Introduction to Modern Application Development Lecture 14 - Interacting with a DBMS
Link NOC:Introduction to Modern Application Development Lecture 15 - Practical - Deeper exploration of a DBMS (column types and more)
Link NOC:Introduction to Modern Application Development Lecture 16 - Introduction to SQL
Link NOC:Introduction to Modern Application Development Lecture 17 - Understanding database performance
Link NOC:Introduction to Modern Application Development Lecture 18 - Transactions and ACID properties
Link NOC:Introduction to Modern Application Development Lecture 19 - Database security, backup and recovery
Link NOC:Introduction to Modern Application Development Lecture 20 - Analytics and Views
Link NOC:Introduction to Modern Application Development Lecture 21 - Scaling a database
Link NOC:Introduction to Modern Application Development Lecture 22 - Connecting your webapp to your database and SQL Injection
Link NOC:Introduction to Modern Application Development Lecture 23 - SQL and NoSQL systems
Link NOC:Introduction to Modern Application Development Lecture 24 - Authentication with HTTP
Link NOC:Introduction to Modern Application Development Lecture 25 - Understanding security, and some best practices for webapps
Link NOC:Introduction to Modern Application Development Lecture 26 - Introduction to authentication, hashing, curl and sessions
Link NOC:Introduction to Modern Application Development Lecture 27 - Introduction to mobile apps
Link NOC:Introduction to Modern Application Development Lecture 28 - Introduction to Mobile Application Development Part 2
Link NOC:Introduction to Modern Application Development Lecture 29 - Introduction to Android
Link NOC:Introduction to Modern Application Development Lecture 30 - Getting started with Android Application Development
Link NOC:Introduction to Modern Application Development Lecture 31 - Building Custom UI using XML and Logs
Link NOC:Introduction to Modern Application Development Lecture 32 - Building a Blog App
Link NOC:Introduction to Modern Application Development Lecture 33 - Deploying an app to the Google Play Store
Link NOC:Introduction to Modern Application Development Lecture 34 - Introduction to iOS
Link NOC:Introduction to Modern Application Development Lecture 35 - The API Economy
Link NOC:Introduction to Modern Application Development Lecture 36 - Version Control using Git
Link NOC:Introduction to Modern Application Development Lecture 37 - Backend Architectures
Link NOC:Information Security-3 Lecture 1 - Operating System Introduction
Link NOC:Information Security-3 Lecture 2 - Storage Hierarchy, Exceptions, Interrupts and traps
Link NOC:Information Security-3 Lecture 3 - OS Management Services
Link NOC:Information Security-3 Lecture 4 - OS Security Issues
Link NOC:Information Security-3 Lecture 5 - Process and Threads
Link NOC:Information Security-3 Lecture 6 - Process Scheduling
Link NOC:Information Security-3 Lecture 7 - Scheduling Algorithm
Link NOC:Information Security-3 Lecture 8 - Process Synchronization
Link NOC:Information Security-3 Lecture 9 - Memory Management - 1
Link NOC:Information Security-3 Lecture 10 - Memory Management - 2
Link NOC:Information Security-3 Lecture 11 - File Systems - 1
Link NOC:Information Security-3 Lecture 12 - File Systems - 2
Link NOC:Information Security-3 Lecture 13 - Unix Filesystem
Link NOC:Information Security-3 Lecture 14 - Unix Filesystem (Continued...)
Link NOC:Information Security-3 Lecture 15 - Linux: Basic Commands
Link NOC:Information Security-3 Lecture 16 - Linux: Basic Commands (Continued...)
Link NOC:Information Security-3 Lecture 17 - Linux: Users and Permissions
Link NOC:Information Security-3 Lecture 18 - Linux: I/O Redirection and Pipes
Link NOC:Information Security-3 Lecture 19 - Linux: Task Control
Link NOC:Information Security-3 Lecture 20 - Linux: Shell Environment
Link NOC:Information Security-3 Lecture 21 - Linux: Text Editors
Link NOC:Information Security-3 Lecture 22 - Linux: Compression / Archiving
Link NOC:Information Security-3 Lecture 23 - Linux: Print and Sync Commands
Link NOC:Information Security-3 Lecture 24 - Linux: File Comparison
Link NOC:Information Security-3 Lecture 25 - Basic Networking Administration
Link NOC:Information Security-3 Lecture 26 - Filesystems and Devices
Link NOC:Information Security-3 Lecture 27 - Shell Introduction
Link NOC:Information Security-3 Lecture 28 - Shell Comments and Variables
Link NOC:Information Security-3 Lecture 29 - Shell Variables
Link NOC:Information Security-3 Lecture 30 - Shell Arrays and Arithmetic
Link NOC:Information Security-3 Lecture 31 - Shell Condition and Relation
Link NOC:Information Security-3 Lecture 32 - Shell Examples
Link NOC:Information Security-3 Lecture 33 - Shell Functions
Link NOC:Information Security-3 Lecture 34 - Shell File Test
Link NOC:Information Security-3 Lecture 35 - Shell Loop Control
Link NOC:Information Security-3 Lecture 36 - Shell Script Variations
Link NOC:Information Security-3 Lecture 37 - Shell Pattern Matching
Link NOC:Information Security-3 Lecture 38 - Shell Case Statements
Link NOC:Information Security-3 Lecture 39 - Shell Co-routines
Link NOC:Information Security-3 Lecture 40 - Shell Signals and Traps
Link NOC:Information Security-3 Lecture 41 - Shell Subshell
Link NOC:Information Security-3 Lecture 42 - Shell Declarations
Link NOC:Information Security-3 Lecture 43 - Shell Examples 2
Link NOC:Information Security-3 Lecture 44 - Shell Review
Link NOC:Information Security-3 Lecture 45 - An Introduction
Link NOC:Information Security-3 Lecture 46 - Structure of a Network
Link NOC:Information Security-3 Lecture 47 - Network Core - Definition
Link NOC:Information Security-3 Lecture 48 - Network Access and Physical Media
Link NOC:Information Security-3 Lecture 49 - Structure of ISP and Packet Delays
Link NOC:Information Security-3 Lecture 50 - Network Protocol Layers
Link NOC:Information Security-3 Lecture 51 - Network Devices
Link NOC:Information Security-3 Lecture 52 - Network Security - An Introduction
Link NOC:Information Security-3 Lecture 53 - Public Key Cryptography
Link NOC:Information Security-3 Lecture 54 - Digital Signatures
Link NOC:Information Security-3 Lecture 55 - Security in Practise
Link NOC:Information Security-3 Lecture 56 - Security in Practise (Continued...)
Link NOC:Information Security-3 Lecture 57 - Wireshark
Link NOC:Information Security-3 Lecture 58 - Snort
Link NOC:Information Security-3 Lecture 59 - Review I
Link NOC:Information Security-3 Lecture 60 - Review II
Link NOC:AI:Constraint Satisfaction Lecture 1 - Constraint Satisfaction Problems
Link NOC:AI:Constraint Satisfaction Lecture 2 - CSP Examples: Map colouring, N-Queens, Classroom scheduling
Link NOC:AI:Constraint Satisfaction Lecture 3 - CSP Examples: Huffman-Clowes Labelling, Waltz Algorithm, Crosswords
Link NOC:AI:Constraint Satisfaction Lecture 4 - Model Based Diagnosis - An application of CSP
Link NOC:AI:Constraint Satisfaction Lecture 5 - Constraint Networks - An Introduction
Link NOC:AI:Constraint Satisfaction Lecture 6 - Binary Constraint Networks (BCN), Equivalent Networks
Link NOC:AI:Constraint Satisfaction Lecture 7 - Projection Networks
Link NOC:AI:Constraint Satisfaction Lecture 8 - Constraint Propagation
Link NOC:AI:Constraint Satisfaction Lecture 9 - Algorithms AC1 and AC3
Link NOC:AI:Constraint Satisfaction Lecture 10 - Can we do better than AC3?
Link NOC:AI:Constraint Satisfaction Lecture 11 - Algorithm AC4
Link NOC:AI:Constraint Satisfaction Lecture 12 - Generalized AC, Path-Consistency
Link NOC:AI:Constraint Satisfaction Lecture 13 - i-Consistency, Algorithm PC1
Link NOC:AI:Constraint Satisfaction Lecture 14 - Algorithm PC2, Strong i-Consistency
Link NOC:AI:Constraint Satisfaction Lecture 15 - Directional Consistency and Graph Ordering
Link NOC:AI:Constraint Satisfaction Lecture 16 - Min-Width and Min-Induced-Width Ordering
Link NOC:AI:Constraint Satisfaction Lecture 17 - Directional Arc-Consistency and Tree CSPs
Link NOC:AI:Constraint Satisfaction Lecture 18 - Directional Path-Consistency and Directional i-Consistency
Link NOC:AI:Constraint Satisfaction Lecture 19 - Backtrack-Free search and Adaptive Consistency
Link NOC:AI:Constraint Satisfaction Lecture 20 - Adaptive Consistency: Bucket Elimination
Link NOC:AI:Constraint Satisfaction Lecture 21 - Search Methods for Solving CSPs
Link NOC:AI:Constraint Satisfaction Lecture 22 - Algorithm Backtracking
Link NOC:AI:Constraint Satisfaction Lecture 23 - Look-Ahead Methods in Search
Link NOC:AI:Constraint Satisfaction Lecture 24 - Look-Ahead Search: Examples
Link NOC:AI:Constraint Satisfaction Lecture 25 - Combining Search with Reasoning: Algorithm DPLL
Link NOC:AI:Constraint Satisfaction Lecture 26 - Algorithm Backmarking
Link NOC:AI:Constraint Satisfaction Lecture 27 - Dynamic Value Ordering, Dynamic Variable Ordering
Link NOC:AI:Constraint Satisfaction Lecture 28 - Look-Back Methods - Definitions
Link NOC:AI:Constraint Satisfaction Lecture 29 - Gaschnig’s Backjumping: The Culprit Variable
Link NOC:AI:Constraint Satisfaction Lecture 30 - Gaschnig’s Backjumping, Graph-Based Backjumping
Link NOC:AI:Constraint Satisfaction Lecture 31 - Graph-Based Backjumping: Internal and Relevant Dead-Ends
Link NOC:AI:Constraint Satisfaction Lecture 32 - Conflict-Directed Backjumping: Definitions
Link NOC:AI:Constraint Satisfaction Lecture 33 - Algorithm Conflict-Directed Backjumping
Link NOC:AI:Constraint Satisfaction Lecture 34 - Combining Look-Ahead and Look-Back: FC-CBJ
Link NOC:AI:Constraint Satisfaction Lecture 35 - Learning During Search
Link NOC:AI:Constraint Satisfaction Lecture 36 - Model Based Systems
Link NOC:AI:Constraint Satisfaction Lecture 37 - Model Based Diagnosis
Link NOC:AI:Constraint Satisfaction Lecture 38 - Truth Maintenance Systems
Link NOC:AI:Constraint Satisfaction Lecture 39 - Planning as Constraint Satisfaction
Link NOC:AI:Constraint Satisfaction Lecture 40 - Planning as Constraint Satisfaction (Continued...)
Link NOC:AI:Constraint Satisfaction Lecture 41 - Planning as Satisfiability
Link NOC:AI:Constraint Satisfaction Lecture 42 - Wrapping Up and Further Study
Link NOC:Computer Organization Lecture 1 - Introduction High Speed Circuit - Design Recursive Doubling
Link NOC:Computer Organization Lecture 2 - High Speed Circuit Design - Fast Adder Circuits
Link NOC:Computer Organization Lecture 3 - Lab 1 : Introduction
Link NOC:Computer Organization Lecture 4 - Fast Adder Circuits (Continued...)
Link NOC:Computer Organization Lecture 5 - Fast Multiplier Circuit
Link NOC:Computer Organization Lecture 6 - Fast Multiplier Circuit (Continued...)
Link NOC:Computer Organization Lecture 7 - Programming using X86 ISA - Addressing Modes
Link NOC:Computer Organization Lecture 8 - Programming using X86 ISA - Addressing Modes
Link NOC:Computer Organization Lecture 9 - Floating point - Precision and Accuracy
Link NOC:Computer Organization Lecture 10 - Floating Point - Addition, Subtraction and Multiplication
Link NOC:Computer Organization Lecture 11 - Instruction Set Architecture
Link NOC:Computer Organization Lecture 12 - Instruction Set Architecture (Continued...)
Link NOC:Computer Organization Lecture 13 - Lab 2 : Segmentation - Part I
Link NOC:Computer Organization Lecture 14 - Lab 2 : Segmentation - Part II
Link NOC:Computer Organization Lecture 15 - Lab 2 : Segmentation - Part III
Link NOC:Computer Organization Lecture 16 - Orthogonal ISA, C Constructs Mapping, Addressing Modes
Link NOC:Computer Organization Lecture 17 - Atomic and Predicated Instructions
Link NOC:Computer Organization Lecture 18 - Atomic and Predicated Instructions (Continued...)
Link NOC:Computer Organization Lecture 19 - General Purpose Registers
Link NOC:Computer Organization Lecture 20 - Expanding opcodes
Link NOC:Computer Organization Lecture 21 - Introduction to Pipelining
Link NOC:Computer Organization Lecture 22 - Pipelining
Link NOC:Computer Organization Lecture 23 - Data Hazards
Link NOC:Computer Organization Lecture 24 - Lab 2 : Instruction Scheduling - Static and Dynamic
Link NOC:Computer Organization Lecture 25 - Dynamic Instruction Scheduling
Link NOC:Computer Organization Lecture 26 - Dynamic Instruction Scheduling (Continued...)
Link NOC:Computer Organization Lecture 27 - Control Hazard, Branch Prediction
Link NOC:Computer Organization Lecture 28 - Process Management
Link NOC:Computer Organization Lecture 29 - Branch prediction
Link NOC:Computer Organization Lecture 30 - Global Branch Prediction
Link NOC:Computer Organization Lecture 31 - Structural Hazard, Architectural Enhancements
Link NOC:Computer Organization Lecture 32 - Lab 3 : Virtual Memory
Link NOC:Computer Organization Lecture 33 - Locality of Reference, Demand paging
Link NOC:Computer Organization Lecture 34 - Page Replacement Algorithm
Link NOC:Computer Organization Lecture 35 - Multilevel Paging, Translational Lookaside Buffer
Link NOC:Computer Organization Lecture 36 - Multilevel Paging
Link NOC:Computer Organization Lecture 37 - Multilevel Paging - Part 1
Link NOC:Computer Organization Lecture 38 - Page Frame Allocation, Beledy's Anomaly
Link NOC:Computer Organization Lecture 39 - Paging, Cache
Link NOC:Computer Organization Lecture 40 - Cache
Link NOC:Computer Organization Lecture 41 - Cache Organisation
Link NOC:Computer Organization Lecture 42 - Cache - Cache Coherency, Dual Ported Cache
Link NOC:Computer Organization Lecture 43 - Multilevel Caching, Multitasking
Link NOC:Computer Organization Lecture 44 - Cache, Degree of Multiprogramming
Link NOC:Computer Organization Lecture 45 - Shared Memory Architecture
Link NOC:Computer Organization Lecture 46 - Shared Memory Architecture - Part I
Link NOC:Computer Organization Lecture 47 - Virtually Indexed - Virtually Tagged and Physically Tagged Caches
Link NOC:Computer Organization Lecture 48 - Lab 4 : Task Switching (Continued...)
Link NOC:Computer Organization Lecture 49 - Shared Memory Architecture, Cache Coherence
Link NOC:Computer Organization Lecture 50 - Concurrent Programming in Hardware - Part I
Link NOC:Computer Organization Lecture 51 - Concurrent Programming in Hardware - Part II
Link NOC:Computer Organization Lecture 52 - Conclusion : Recent Trends in Computer Organization and Architecture
Link NOC:Introduction to Wireless and Cellular Communications Lecture 1 - Overview of Cellular Systems - Part 1
Link NOC:Introduction to Wireless and Cellular Communications Lecture 2 - Overview of Cellular Systems - Part 2
Link NOC:Introduction to Wireless and Cellular Communications Lecture 3 - Overview of Cellular Systems - Part 3
Link NOC:Introduction to Wireless and Cellular Communications Lecture 4 - 5G and other Wireless Technologies
Link NOC:Introduction to Wireless and Cellular Communications Lecture 5 - Basic Cellular Terminology
Link NOC:Introduction to Wireless and Cellular Communications Lecture 6 - Introduction to Antennas and Propagation Models
Link NOC:Introduction to Wireless and Cellular Communications Lecture 7 - Link budget, Fading margin, Outage
Link NOC:Introduction to Wireless and Cellular Communications Lecture 8 - Cellular Concept
Link NOC:Introduction to Wireless and Cellular Communications Lecture 9 - Cellular system design and analysis
Link NOC:Introduction to Wireless and Cellular Communications Lecture 10 - Cellular Geometry and System Design
Link NOC:Introduction to Wireless and Cellular Communications Lecture 11 - Cellular System Capacity, Trunking
Link NOC:Introduction to Wireless and Cellular Communications Lecture 12 - Handoff and Mobility
Link NOC:Introduction to Wireless and Cellular Communications Lecture 13 - Handoff Part 2, Classification of Signal Variation
Link NOC:Introduction to Wireless and Cellular Communications Lecture 14 - Shadowing, Outage, Multipath
Link NOC:Introduction to Wireless and Cellular Communications Lecture 15 - Rayleigh Fading and Statistical Characterization
Link NOC:Introduction to Wireless and Cellular Communications Lecture 16 - Properties of Rayleigh Distribution
Link NOC:Introduction to Wireless and Cellular Communications Lecture 17 - BER in Fading, Narrowband vs Wideband Channels
Link NOC:Introduction to Wireless and Cellular Communications Lecture 18 - Characterization of Multipath Fading Channels
Link NOC:Introduction to Wireless and Cellular Communications Lecture 19 - Choice of Modulation
Link NOC:Introduction to Wireless and Cellular Communications Lecture 20 - Coherent versus Differential Detection
Link NOC:Introduction to Wireless and Cellular Communications Lecture 21 - Review of Lecture 1-19
Link NOC:Introduction to Wireless and Cellular Communications Lecture 22 - Coherent vs Differential Detection - Part II and BER in Fading
Link NOC:Introduction to Wireless and Cellular Communications Lecture 23 - BER in Fading - Part II, Ricean Fading
Link NOC:Introduction to Wireless and Cellular Communications Lecture 24 - Ricean and Nakagami Fading, Moment Generating Function (MGF)
Link NOC:Introduction to Wireless and Cellular Communications Lecture 25 - MGF Part II, WSSUS Model
Link NOC:Introduction to Wireless and Cellular Communications Lecture 26 - WSSUS Part II, Coherence Time, Doppler Spectrum
Link NOC:Introduction to Wireless and Cellular Communications Lecture 27 - Doppler, Temporal Characteristics of Fading Channels
Link NOC:Introduction to Wireless and Cellular Communications Lecture 28 - WSSUS-Characterization of Time Dispersive Fading Channels
Link NOC:Introduction to Wireless and Cellular Communications Lecture 29 - WSSUS-Classification of Fading Channels
Link NOC:Introduction to Wireless and Cellular Communications Lecture 30 - Practical Channel Models (ITU, COST), Computer generation of Rayleigh fading
Link NOC:Introduction to Wireless and Cellular Communications Lecture 31 - Rayleigh Fading simulation - Clark and Gans Method, Jakes’ Method
Link NOC:Introduction to Wireless and Cellular Communications Lecture 32 - Jakes’ Method properties
Link NOC:Introduction to Wireless and Cellular Communications Lecture 33 - Introduction to Diversity, Antenna selection diversity
Link NOC:Introduction to Wireless and Cellular Communications Lecture 34 - Statistical Characterization of Antenna Diversity, Optimal Diversity Combining
Link NOC:Introduction to Wireless and Cellular Communications Lecture 35 - BER in fading, Equal Gain Combining
Link NOC:Introduction to Wireless and Cellular Communications Lecture 36 - Array Gain, Diversity Gain, Alamouti Scheme
Link NOC:Introduction to Wireless and Cellular Communications Lecture 37 - Alamouti Scheme - Part II, Channel Capacity
Link NOC:Introduction to Wireless and Cellular Communications Lecture 38 - Capacity of fading Channels, Capacity with Outage
Link NOC:Introduction to Wireless and Cellular Communications Lecture 39 - Channel State Information, Optimum Power Allocation
Link NOC:Introduction to Wireless and Cellular Communications Lecture 40
Link NOC:Introduction to Wireless and Cellular Communications Lecture 41
Link NOC:Introduction to Wireless and Cellular Communications Lecture 42
Link NOC:Introduction to Wireless and Cellular Communications Lecture 43
Link NOC:Introduction to Wireless and Cellular Communications Lecture 44
Link NOC:Introduction to Wireless and Cellular Communications Lecture 45
Link NOC:Introduction to Wireless and Cellular Communications Lecture 46
Link NOC:Introduction to Wireless and Cellular Communications Lecture 47
Link NOC:Introduction to Wireless and Cellular Communications Lecture 48 - Rake Receiver for multipath channels
Link NOC:Introduction to Wireless and Cellular Communications Lecture 49 - Multiuser environment
Link NOC:Introduction to Wireless and Cellular Communications Lecture 50 - CDMA system Capacity
Link NOC:Introduction to Wireless and Cellular Communications Lecture 51 - CDMA Multiuser Detectors - Part 1
Link NOC:Introduction to Wireless and Cellular Communications Lecture 52 - CDMA Multiuser Detectors - Part 2
Link NOC:Introduction to Wireless and Cellular Communications Lecture 53
Link NOC:Introduction to Wireless and Cellular Communications Lecture 54
Link NOC:Introduction to Wireless and Cellular Communications Lecture 55
Link NOC:Introduction to Wireless and Cellular Communications Lecture 56
Link NOC:Distributed Systems Lecture 1 - Introduction to Distributed Systems
Link NOC:Distributed Systems Lecture 2 - Basic Algorithms in Message Passing System
Link NOC:Distributed Systems Lecture 3 - Leader Election in Rings
Link NOC:Distributed Systems Lecture 4 - Distributed Models of Computation, Causality and Logical Time
Link NOC:Distributed Systems Lecture 5 - Size of Vector Clock, Matrix Clocks, Virtual Time and Physical Clock Synchronization
Link NOC:Distributed Systems Lecture 6 - Global State and Snapshot Recording Algorithms
Link NOC:Distributed Systems Lecture 7 - Distributed Mutual Exclusion and Non-Token based Approaches
Link NOC:Distributed Systems Lecture 8 - Quorum Based Distributed Mutual Exclusion Approaches
Link NOC:Distributed Systems Lecture 9 - Token Based Distributed Mutual Exclusion Approaches
Link NOC:Distributed Systems Lecture 10 - Consensus and Agreement Algorithms
Link NOC:Distributed Systems Lecture 11 - Checkpointing and Rollback Recovery
Link NOC:Distributed Systems Lecture 12 - Deadlock Detection in Distributed Systems
Link NOC:Distributed Systems Lecture 13 - Distributed Shared Memory
Link NOC:Distributed Systems Lecture 14 - Distributed Minimum Spanning Tree
Link NOC:Distributed Systems Lecture 15 - Termination Detection in Distributed System
Link NOC:Distributed Systems Lecture 16 - Message Ordering and Group Communication
Link NOC:Distributed Systems Lecture 17 - Self-Stabilization
Link NOC:Distributed Systems Lecture 18 - Case Study 1 - Distributed Randomized Algorithms
Link NOC:Distributed Systems Lecture 19 - Case Study 2 - Peer-to-Peer Computing and Structured Overlay Network
Link NOC:Distributed Systems Lecture 20 - Case Study 3 - The Google File System (GFS)
Link NOC:Distributed Systems Lecture 21 - Case Study 4 - MapReduce
Link NOC:Distributed Systems Lecture 22 - Case Study 5 - HDFS
Link NOC:Distributed Systems Lecture 23 - Case Study 6 - Spark
Link NOC:Distributed Systems Lecture 24 - Case Study 7 - Distributed Algorithms for Sensor Networks
Link NOC:Distributed Systems Lecture 25 - Case Study 8 - Authentication in Distributed Systems
Link NOC:Distributed Systems Lecture 26 - Case Study 9 - Bitcoin: A Peer-to-Peer Electronic Cash System
Link NOC:Distributed Systems Lecture 27 - Case Study 10 - BlockChain Technology
Link NOC:Social Networks Lecture 1 - Introduction
Link NOC:Social Networks Lecture 2 - Answer to the puzzle
Link NOC:Social Networks Lecture 3 - Introduction to Python - 1
Link NOC:Social Networks Lecture 4 - Introduction to Python - 2
Link NOC:Social Networks Lecture 5 - Introduction to Networkx - 1
Link NOC:Social Networks Lecture 6 - Introduction to Networkx - 2
Link NOC:Social Networks Lecture 7 - Social Networks: The Challenge
Link NOC:Social Networks Lecture 8 - Google Page Rank
Link NOC:Social Networks Lecture 9 - Searching in a Network
Link NOC:Social Networks Lecture 10 - Link Prediction
Link NOC:Social Networks Lecture 11 - The Contagions
Link NOC:Social Networks Lecture 12 - Importance of Acquaintances
Link NOC:Social Networks Lecture 13 - Marketing on Social Networks
Link NOC:Social Networks Lecture 14 - Introduction to Datasets
Link NOC:Social Networks Lecture 15 - Ingredients Network
Link NOC:Social Networks Lecture 16 - Synonymy Network
Link NOC:Social Networks Lecture 17 - Web Graph
Link NOC:Social Networks Lecture 18 - Social Network Datasets
Link NOC:Social Networks Lecture 19 - Datasets : Different Formats
Link NOC:Social Networks Lecture 20 - Datasets : How to Download?
Link NOC:Social Networks Lecture 21 - Datasets : Analysing Using Networkx
Link NOC:Social Networks Lecture 22 - Datasets : Analysing Using Gephi
Link NOC:Social Networks Lecture 23 - Introduction : Emergence of Connectedness
Link NOC:Social Networks Lecture 24 - Advanced Material : Emergence of Connectedness
Link NOC:Social Networks Lecture 25 - Programming Illustration : Emergence of Connectedness
Link NOC:Social Networks Lecture 26 - Summary to Datasets
Link NOC:Social Networks Lecture 27 - Introduction
Link NOC:Social Networks Lecture 28 - Granovetter's Strength of weak ties
Link NOC:Social Networks Lecture 29 - Triads, clustering coefficient and neighborhood overlap
Link NOC:Social Networks Lecture 30 - Structure of weak ties, bridges, and local bridges
Link NOC:Social Networks Lecture 31 - Validation of Granovetter's experiment using cell phone data
Link NOC:Social Networks Lecture 32 - Embededness
Link NOC:Social Networks Lecture 33 - Structural Holes
Link NOC:Social Networks Lecture 34 - Social Capital
Link NOC:Social Networks Lecture 35 - Finding Communities in a graph (Brute Force Method)
Link NOC:Social Networks Lecture 36 - Community Detection Using Girvan Newman Algorithm
Link NOC:Social Networks Lecture 37 - Visualising Communities using Gephi
Link NOC:Social Networks Lecture 38 - Tie Strength, Social Media and Passive Engagement
Link NOC:Social Networks Lecture 39 - Betweenness Measures and Graph Partitioning
Link NOC:Social Networks Lecture 40 - Strong and Weak Relationship - Summary
Link NOC:Social Networks Lecture 41 - Introduction to Homophily - Should you watch your company ?
Link NOC:Social Networks Lecture 42 - Selection and Social Influence
Link NOC:Social Networks Lecture 43 - Interplay between Selection and Social Influence
Link NOC:Social Networks Lecture 44 - Homophily - Definition and measurement
Link NOC:Social Networks Lecture 45 - Foci Closure and Membership Closure
Link NOC:Social Networks Lecture 46 - Introduction to Fatman Evolutionary model
Link NOC:Social Networks Lecture 47 - Fatman Evolutionary Model - The Base Code (Adding people)
Link NOC:Social Networks Lecture 48 - Fatman Evolutionary Model - The Base Code (Adding Social Foci)
Link NOC:Social Networks Lecture 49 - Fatman Evolutionary Model - Implementing Homophily
Link NOC:Social Networks Lecture 50 - Quantifying the Effect of Triadic Closure
Link NOC:Social Networks Lecture 51 - Fatman Evolutionary Model - Implementing Closures
Link NOC:Social Networks Lecture 52 - Fatman Evolutionary Model - Implementing Social Influence
Link NOC:Social Networks Lecture 53 - Fatman Evolutionary Model - Storing and analyzing longitudnal data
Link NOC:Social Networks Lecture 54 - Spatial Segregation : An Introduction
Link NOC:Social Networks Lecture 55 - Spatial Segregation : Simulation of the Schelling Model
Link NOC:Social Networks Lecture 56 - Spatial Segregation : Conclusion
Link NOC:Social Networks Lecture 57 - Schelling Model Implementation - 1 (Introduction)
Link NOC:Social Networks Lecture 58 - Schelling Model Implementation - 2 (Base Code)
Link NOC:Social Networks Lecture 59 - Schelling Model Implementation - 3 (Visualization and Getting a list of boundary and internal nodes)
Link NOC:Social Networks Lecture 60 - Schelling Model Implementation - 4 (Getting a list of unsatisfied nodes)
Link NOC:Social Networks Lecture 61 - Schelling Model Implementation - 5 (Shifting the unsatisfied nodes and visualizing the final graph)
Link NOC:Social Networks Lecture 62 - Chapter - 5 Positive and Negative Relationships (Introduction)
Link NOC:Social Networks Lecture 63 - Structural Balance
Link NOC:Social Networks Lecture 64 - Enemy'S Enemy is a Friend
Link NOC:Social Networks Lecture 65 - Characterizing the Structure of Balanced Networks
Link NOC:Social Networks Lecture 66 - Balance Theorem
Link NOC:Social Networks Lecture 67 - Proof of Balance Theorem
Link NOC:Social Networks Lecture 68 - Introduction to positive and negative edges
Link NOC:Social Networks Lecture 69 - Outline of implemantation
Link NOC:Social Networks Lecture 70 - Creating graph, displaying it and counting unstable triangles
Link NOC:Social Networks Lecture 71 - Moving a network from an unstable to stable state
Link NOC:Social Networks Lecture 72 - Forming two coalitions
Link NOC:Social Networks Lecture 73 - Forming two coalitions (Continued...)
Link NOC:Social Networks Lecture 74 - Visualizing coalitions and the evolution
Link NOC:Social Networks Lecture 75 - The Web Graph
Link NOC:Social Networks Lecture 76 - Collecting the Web Graph
Link NOC:Social Networks Lecture 77 - Equal Coin Distribution
Link NOC:Social Networks Lecture 78 - Random Coin Dropping
Link NOC:Social Networks Lecture 79 - Google Page Ranking Using Web Graph
Link NOC:Social Networks Lecture 80 - Implementing PageRank Using Points Distribution Method - 1
Link NOC:Social Networks Lecture 81 - Implementing PageRank Using Points Distribution Method - 2
Link NOC:Social Networks Lecture 82 - Implementing PageRank Using Points Distribution Method - 3
Link NOC:Social Networks Lecture 83 - Implementing PageRank Using Points Distribution Method - 4
Link NOC:Social Networks Lecture 84 - Implementing PageRank Using Random Walk Method - 1
Link NOC:Social Networks Lecture 85 - Implementing PageRank Using Random Walk Method - 2
Link NOC:Social Networks Lecture 86 - DegreeRank versus PageRank
Link NOC:Social Networks Lecture 87 - We Follow
Link NOC:Social Networks Lecture 88 - Why do we Follow?
Link NOC:Social Networks Lecture 89 - Diffusion in Networks
Link NOC:Social Networks Lecture 90 - Modeling Diffusion
Link NOC:Social Networks Lecture 91 - Modeling Diffusion (Continued...)
Link NOC:Social Networks Lecture 92 - Impact of Commmunities on Diffusion
Link NOC:Social Networks Lecture 93 - Cascade and Clusters
Link NOC:Social Networks Lecture 94 - Knowledge, Thresholds and the Collective Action
Link NOC:Social Networks Lecture 95 - An Introduction to the Programming Screencast (Coding 4 major ideas)
Link NOC:Social Networks Lecture 96 - The Base Code
Link NOC:Social Networks Lecture 97 - Coding the First Big Idea - Increasing the Payoff
Link NOC:Social Networks Lecture 98 - Coding the Second Big Idea - Key People
Link NOC:Social Networks Lecture 99 - Coding the Third Big Idea - Impact of Communities on Cascades
Link NOC:Social Networks Lecture 100 - Coding the Fourth Big Idea - Cascades and Clusters
Link NOC:Social Networks Lecture 101 - Introduction to Hubs and Authorities (A Story)
Link NOC:Social Networks Lecture 102 - Principle of Repeated Improvement (A story)
Link NOC:Social Networks Lecture 103 - Principle of Repeated Improvement (An example)
Link NOC:Social Networks Lecture 104 - Hubs and Authorities
Link NOC:Social Networks Lecture 105 - PageRank Revisited - An example
Link NOC:Social Networks Lecture 106 - PageRank Revisited - Convergence in the Example
Link NOC:Social Networks Lecture 107 - PageRank Revisited - Conservation and Convergence
Link NOC:Social Networks Lecture 108 - PageRank, conservation and convergence - Another example
Link NOC:Social Networks Lecture 109 - Matrix Multiplication (Pre-requisite 1)
Link NOC:Social Networks Lecture 110 - Convergence in Repeated Matrix Multiplication (Pre-requisite 1)
Link NOC:Social Networks Lecture 111 - Addition of Two Vectors (Pre-requisite 2)
Link NOC:Social Networks Lecture 112 - Convergence in Repeated Matrix Multiplication- The Details
Link NOC:Social Networks Lecture 113 - PageRank as a Matrix Operation
Link NOC:Social Networks Lecture 114 - PageRank Explained
Link NOC:Social Networks Lecture 115 - Introduction to Powerlaw
Link NOC:Social Networks Lecture 116 - Why do Normal Distributions Appear?
Link NOC:Social Networks Lecture 117 - Power Law emerges in WWW graphs
Link NOC:Social Networks Lecture 118 - Detecting the Presence of Powerlaw
Link NOC:Social Networks Lecture 119 - Rich Get Richer Phenomenon
Link NOC:Social Networks Lecture 120 - Summary So Far
Link NOC:Social Networks Lecture 121 - Implementing Rich-getting-richer Phenomenon (Barabasi-Albert Model) - 1
Link NOC:Social Networks Lecture 122 - Implementing Rich-getting-richer Phenomenon (Barabasi-Albert Model) - 2
Link NOC:Social Networks Lecture 123 - Implementing a Random Graph (Erdos-Renyi Model) - 1
Link NOC:Social Networks Lecture 124 - Implementing a Random Graph (Erdos-Renyi Model) - 2
Link NOC:Social Networks Lecture 125 - Forced Versus Random Removal of Nodes (Attack Survivability)
Link NOC:Social Networks Lecture 126 - Rich Get Richer - A Possible Reason
Link NOC:Social Networks Lecture 127 - Rich Get Richer - The Long Tail
Link NOC:Social Networks Lecture 128 - Epidemics- An Introduction
Link NOC:Social Networks Lecture 129 - Introduction to epidemics (Continued...)
Link NOC:Social Networks Lecture 130 - Simple Branching Process for Modeling Epidemics
Link NOC:Social Networks Lecture 131 - Simple Branching Process for Modeling Epidemics (Continued...)
Link NOC:Social Networks Lecture 132 - Basic Reproductive Number
Link NOC:Social Networks Lecture 133 - Modeling epidemics on complex networks
Link NOC:Social Networks Lecture 134 - SIR and SIS spreading models
Link NOC:Social Networks Lecture 135 - Comparison between SIR and SIS spreading models
Link NOC:Social Networks Lecture 136 - Basic Reproductive Number Revisited for Complex Networks
Link NOC:Social Networks Lecture 137 - Percolation model
Link NOC:Social Networks Lecture 138 - Analysis of basic reproductive number in branching model (The problem statement)
Link NOC:Social Networks Lecture 139 - Analyzing basic reproductive number - 2
Link NOC:Social Networks Lecture 140 - Analyzing basic reproductive number - 3
Link NOC:Social Networks Lecture 141 - Analyzing basic reproductive number - 4
Link NOC:Social Networks Lecture 142 - Analyzing basic reproductive number - 5
Link NOC:Social Networks Lecture 143 - Small World Effect - An Introduction
Link NOC:Social Networks Lecture 144 - Milgram's Experiment
Link NOC:Social Networks Lecture 145 - The Reason
Link NOC:Social Networks Lecture 146 - The Generative Model
Link NOC:Social Networks Lecture 147 - Decentralized Search - I
Link NOC:Social Networks Lecture 148 - Decentralized Search - II
Link NOC:Social Networks Lecture 149 - Decentralized Search - III
Link NOC:Social Networks Lecture 150 - Programming illustration- Small world networks : Introduction
Link NOC:Social Networks Lecture 151 - Base code
Link NOC:Social Networks Lecture 152 - Making homophily based edges
Link NOC:Social Networks Lecture 153 - Adding weak ties
Link NOC:Social Networks Lecture 154 - Plotting change in diameter
Link NOC:Social Networks Lecture 155 - Programming illustration- Myopic Search : Introduction>
Link NOC:Social Networks Lecture 156 - Myopic Search
Link NOC:Social Networks Lecture 157 - Myopic Search comparision to optimal search
Link NOC:Social Networks Lecture 158 - Time Taken by Myopic Search
Link NOC:Social Networks Lecture 159 - PseudoCores : Introduction
Link NOC:Social Networks Lecture 160 - How to be Viral
Link NOC:Social Networks Lecture 161 - Who are the right key nodes?
Link NOC:Social Networks Lecture 162 - finding the right key nodes (the core)
Link NOC:Social Networks Lecture 163 - Coding K-Shell Decomposition
Link NOC:Social Networks Lecture 164 - Coding cascading Model
Link NOC:Social Networks Lecture 165 - Coding the importance of core nodes in cascading
Link NOC:Social Networks Lecture 166 - Pseudo core
Link NOC:An Introduction to Probability in Computing Lecture 1 - Introduction to Probability - A box of chocolates
Link NOC:An Introduction to Probability in Computing Lecture 2 - Introduction to Probability - Axiomatic Approach to Probability Theory
Link NOC:An Introduction to Probability in Computing Lecture 3 - Introduction to Probability - Verifying Matrix Multipilication (Statement,Algorithm and Independence)
Link NOC:An Introduction to Probability in Computing Lecture 4 - Introduction to Probability - Verifying Matrix Multipilication (Correctness and Law of Total Probability)
Link NOC:An Introduction to Probability in Computing Lecture 5 - Introduction to Probability - How Strong is your Network?
Link NOC:An Introduction to Probability in Computing Lecture 6 - Introduction to Probability - How to Understand the World? Play with it!
Link NOC:An Introduction to Probability in Computing Lecture 7 - Tutorial 1
Link NOC:An Introduction to Probability in Computing Lecture 8 - Tutorial 2
Link NOC:An Introduction to Probability in Computing Lecture 9 - Discrete Random Variables - Basic Definitions
Link NOC:An Introduction to Probability in Computing Lecture 10 - Discrete Random Variables - Linearity of Expectation and Jensens Inequality
Link NOC:An Introduction to Probability in Computing Lecture 11 - Discrete Random Variables - Conditional Expectation I
Link NOC:An Introduction to Probability in Computing Lecture 12 - Discrete Random Variables - Conditional Expectation II
Link NOC:An Introduction to Probability in Computing Lecture 13 - Discrete Random Variables - Geometric Random Variables and Collecting Coupons
Link NOC:An Introduction to Probability in Computing Lecture 14 - Discrete Random Variables - Randomized Selection
Link NOC:An Introduction to Probability in Computing Lecture 15 - Tail Bounds I - Markov's Inequality
Link NOC:An Introduction to Probability in Computing Lecture 16 - Tail Bounds I - The Second Moment,Variance and Chebyshev's Inequality
Link NOC:An Introduction to Probability in Computing Lecture 17 - Tail Bounds I - Median via Sampling
Link NOC:An Introduction to Probability in Computing Lecture 18 - Tail Bounds I - Median via Sampling - Analysis
Link NOC:An Introduction to Probability in Computing Lecture 19 - Tail Bounds I - Moment Generating Functions and Chernoff Bounds
Link NOC:An Introduction to Probability in Computing Lecture 20 - Tail Bounds I - Parameter Estimation
Link NOC:An Introduction to Probability in Computing Lecture 21 - Tail Bounds I - Control Group Selection
Link NOC:An Introduction to Probability in Computing Lecture 22 - Applications of Tail Bounds - Routing in Sparse Networks
Link NOC:An Introduction to Probability in Computing Lecture 23 - Applications of Tail Bounds - Analysis of Valiant's Rounting
Link NOC:An Introduction to Probability in Computing Lecture 24 - Applications of Tail Bounds - Random Graphs
Link NOC:An Introduction to Probability in Computing Lecture 25 - Live Session 2
Link NOC:An Introduction to Probability in Computing Lecture 26 - Live Session
Link NOC:Introduction to Human Computer Interaction Lecture 1 - Introduction to Human Computer Interaction
Link NOC:Introduction to Human Computer Interaction Lecture 2 - What is HCI? Commonalities and Differences in Interfaces
Link NOC:Introduction to Human Computer Interaction Lecture 3 - Door handle, Elevators, Contextual Inquiry, Affinity Diagrams
Link NOC:Introduction to Human Computer Interaction Lecture 4 - Lab Session Contextual Inquiry
Link NOC:Introduction to Human Computer Interaction Lecture 5 - Lab Session Affinity Diagram
Link NOC:Introduction to Human Computer Interaction Lecture 6 - Tutorial on Photoshop
Link NOC:Introduction to Human Computer Interaction Lecture 7 - Tutorial on UI Designing using Photoshop
Link NOC:Introduction to Human Computer Interaction Lecture 8 - Institutional Review Board, Ethics committee, IRB documents / application, consent form
Link NOC:Introduction to Human Computer Interaction Lecture 9 - Tutorial on Proto.io
Link NOC:Introduction to Human Computer Interaction Lecture 10 - Tutorial on Lookback
Link NOC:Introduction to Human Computer Interaction Lecture 11 - How to understand user needs? Surveys, Questionnaire
Link NOC:Introduction to Human Computer Interaction Lecture 12 - How to understand user needs? Surveys, Questionnaire - Continues
Link NOC:Introduction to Human Computer Interaction Lecture 13 - Prototyping: Low fidelity and High fidelity
Link NOC:Introduction to Human Computer Interaction Lecture 14 - User-Centered Design
Link NOC:Introduction to Human Computer Interaction Lecture 15 - Lab Session: Task Analysis
Link NOC:Introduction to Human Computer Interaction Lecture 16 - Design Patterns
Link NOC:Introduction to Human Computer Interaction Lecture 17 - Lab Session: Material Design
Link NOC:Introduction to Human Computer Interaction Lecture 18 - Usable security
Link NOC:Introduction to Human Computer Interaction Lecture 19 - Lab Session: Task Analysis - 2
Link NOC:Introduction to Human Computer Interaction Lecture 20 - Continuity of Usable Security
Link NOC:Introduction to Human Computer Interaction Lecture 21 - Visual Design
Link NOC:Introduction to Human Computer Interaction Lecture 22 - Visual Design - 2
Link NOC:Introduction to Human Computer Interaction Lecture 23 - Crypto price Tracker App
Link NOC:Introduction to Human Computer Interaction Lecture 24 - Interacto
Link NOC:Introduction to Human Computer Interaction Lecture 25 - Tech Hinder
Link NOC:Introduction to Human Computer Interaction Lecture 26 - busKARO
Link NOC:Introduction to Human Computer Interaction Lecture 27 - MayMayMe
Link NOC:Introduction to Human Computer Interaction Lecture 28 - noWhinge
Link NOC:Information Security-IV Lecture 1 - WISE Gen and The IT Revolution - 1
Link NOC:Information Security-IV Lecture 2 - WISE Gen and The IT Revolution - 1 (Continued...)
Link NOC:Information Security-IV Lecture 3 - WISE GEN - Next Step
Link NOC:Information Security-IV Lecture 4 - Network Security : A Re-cap
Link NOC:Information Security-IV Lecture 5 - Symmetric Key Cryptography and Digital Signatures
Link NOC:Information Security-IV Lecture 6 - Basic Network Security Components
Link NOC:Information Security-IV Lecture 7 - Internet Security Threats
Link NOC:Information Security-IV Lecture 8 - History of Kali Linux
Link NOC:Information Security-IV Lecture 9 - Penetration Testing with Kali Linux
Link NOC:Information Security-IV Lecture 10 - Network Security and Forensics Introduction - I
Link NOC:Information Security-IV Lecture 11 - Network Security and Forensics Introduction - II
Link NOC:Information Security-IV Lecture 12 - Penetration Testing: An Introduction
Link NOC:Information Security-IV Lecture 13 - Penetration testing steps in Kali Linux
Link NOC:Information Security-IV Lecture 14 - Kali Linux Installation
Link NOC:Information Security-IV Lecture 15 - Reconnaissance - Part I
Link NOC:Information Security-IV Lecture 16 - Reconnaissance - Part II
Link NOC:Information Security-IV Lecture 17 - Serverside Attacks: Tools in Kali Linux
Link NOC:Information Security-IV Lecture 18 - Serverside Attacks: Tools in Kali Linux (Continued...)
Link NOC:Information Security-IV Lecture 19 - Serverside Attacks: Tools in Kali Linux (Continued...)
Link NOC:Information Security-IV Lecture 20 - Serverside Attacks: Tools in Kali Linux (Continued...)
Link NOC:Information Security-IV Lecture 21 - Serverside Attacks: Tools in Kali Linux (Continued...)
Link NOC:Information Security-IV Lecture 22 - Serverside Attacks: Tools in Kali Linux (Continued...)
Link NOC:Information Security-IV Lecture 23 - Client Side Attacks - Tools in Kali Linux - 1
Link NOC:Information Security-IV Lecture 24 - Client Side Attacks - Tools in Kali Linux - 2
Link NOC:Information Security-IV Lecture 25 - Client Side Attacks - Tools in Kali Linux - 3
Link NOC:Information Security-IV Lecture 26 - Client Side Attacks - Tools in Kali Linux - 4
Link NOC:Information Security-IV Lecture 27 - Authentication Based Attacks - Tools in Kali Linux - 1
Link NOC:Information Security-IV Lecture 28 - Authentication Based Attacks - Tools in Kali Linux - 2
Link NOC:Information Security-IV Lecture 29 - Authentication Based Attacks - Tools in Kali Linux - 3
Link NOC:Information Security-IV Lecture 30 - Authentication Based Attacks - Tools in Kali Linux - 4
Link NOC:Information Security-IV Lecture 31 - Authentication Based Attacks - Tools in Kali Linux - 5
Link NOC:Information Security-IV Lecture 32 - Web Attacks - Tools in Kali Linux - 1
Link NOC:Information Security-IV Lecture 33 - Web Attacks - Tools in Kali Linux - 2
Link NOC:Information Security-IV Lecture 34 - Penetration Testing Attacks - Defensive Countermeasures
Link NOC:Information Security-IV Lecture 35 - Technical Fundamentals for Evidence Acquisition - 1
Link NOC:Information Security-IV Lecture 36 - Technical Fundamentals for Evidence Acquisition - 2
Link NOC:Information Security-IV Lecture 37 - Packet Capture Tools and Methods
Link NOC:Information Security-IV Lecture 38 - Wireshark Introduction
Link NOC:Information Security-IV Lecture 39 - Packet Analysis
Link NOC:Information Security-IV Lecture 40 - Flow Analysis
Link NOC:Information Security-IV Lecture 41 - Case study 1
Link NOC:Information Security-IV Lecture 42 - Case study 1 (Continued...)
Link NOC:Information Security-IV Lecture 43 - Wireless Forensics - Technology
Link NOC:Information Security-IV Lecture 44 - Wireless Network Security Framework
Link NOC:Information Security-IV Lecture 45 - Wireless Access Points - Security issues
Link NOC:Information Security-IV Lecture 46 - Case Study 2 - Use of tools
Link NOC:Information Security-IV Lecture 47 - Network Security Devices - IDS
Link NOC:Information Security-IV Lecture 48 - IDS Evidence Acquistion and SNORT
Link NOC:Information Security-IV Lecture 49 - SNORT Rules
Link NOC:Information Security-IV Lecture 50 - SNORT Installation
Link NOC:Information Security-IV Lecture 51 - SNORT Configuration and Demonstration
Link NOC:Information Security-IV Lecture 52 - Evidence collection in Switches and Routers
Link NOC:Information Security-IV Lecture 53 - Evidence collection in Routers and Firewalls
Link NOC:Information Security-IV Lecture 54 - IPTables rules and tool usage
Link NOC:Information Security-IV Lecture 55 - Logs, Rules and Automated Tools
Link NOC:Information Security-IV Lecture 56 - Re-cap of All Topics
Link NOC:Information Security-IV Lecture 57 - Introduction to Meltdown Attack
Link NOC:Information Security-IV Lecture 58 - Introduction to Meltdown - Address Space Basics
Link NOC:Information Security-IV Lecture 59 - Meltdown Attack - Out of Order Execution
Link NOC:Information Security-IV Lecture 60 - Meltdown Attack - Recovering from Exception
Link NOC:Data Science for Engineers Lecture 1 - Data science for engineers Course philosophy and expectation
Link NOC:Data Science for Engineers Lecture 2 - Introduction to R
Link NOC:Data Science for Engineers Lecture 3 - Introduction to R (Continued...)
Link NOC:Data Science for Engineers Lecture 4 - Variables and datatypes in R
Link NOC:Data Science for Engineers Lecture 5 - Data frames
Link NOC:Data Science for Engineers Lecture 6 - Recasting and joining of dataframes
Link NOC:Data Science for Engineers Lecture 7 - Arithmetic,Logical and Matrix operations in R
Link NOC:Data Science for Engineers Lecture 8 - Advanced programming in R : Functions
Link NOC:Data Science for Engineers Lecture 9 - Advanced Programming in R : Functions (Continued...)
Link NOC:Data Science for Engineers Lecture 10 - Control structures
Link NOC:Data Science for Engineers Lecture 11 - Data visualization in R Basic graphics
Link NOC:Data Science for Engineers Lecture 12 - Linear Algebra for Data science
Link NOC:Data Science for Engineers Lecture 13 - Solving Linear Equations
Link NOC:Data Science for Engineers Lecture 14 - Solving Linear Equations (Continued...)
Link NOC:Data Science for Engineers Lecture 15 - Linear Algebra - Distance,Hyperplanes and Halfspaces,Eigenvalues,Eigenvectors
Link NOC:Data Science for Engineers Lecture 16 - Linear Algebra - Distance,Hyperplanes and Halfspaces,Eigenvalues,Eigenvectors (Continued... 1)
Link NOC:Data Science for Engineers Lecture 17 - Linear Algebra - Distance,Hyperplanes and Halfspaces,Eigenvalues,Eigenvectors (Continued... 2)
Link NOC:Data Science for Engineers Lecture 18 - Linear Algebra - Distance,Hyperplanes and Halfspaces,Eigenvalues,Eigenvectors (Continued... 3)
Link NOC:Data Science for Engineers Lecture 19 - Statistical Modelling
Link NOC:Data Science for Engineers Lecture 20 - Random Variables and Probability Mass/Density Functions
Link NOC:Data Science for Engineers Lecture 21 - Sample Statistics
Link NOC:Data Science for Engineers Lecture 22 - Hypotheses Testing
Link NOC:Data Science for Engineers Lecture 23 - Optimization for Data Science
Link NOC:Data Science for Engineers Lecture 24 - Unconstrained Multivariate Optimization
Link NOC:Data Science for Engineers Lecture 25 - Unconstrained Multivariate Optimization (Continued...)
Link NOC:Data Science for Engineers Lecture 26 - Gradient (Steepest) Descent (OR) Learning Rule
Link NOC:Data Science for Engineers Lecture 27 - Multivariate Optimization With Equality Constraints
Link NOC:Data Science for Engineers Lecture 28 - Multivariate Optimization With Inequality Constraints
Link NOC:Data Science for Engineers Lecture 29 - Introduction to Data Science
Link NOC:Data Science for Engineers Lecture 30 - Solving Data Analysis Problems - A Guided Thought Process
Link NOC:Data Science for Engineers Lecture 31 - Module : Predictive Modelling
Link NOC:Data Science for Engineers Lecture 32 - Linear Regression
Link NOC:Data Science for Engineers Lecture 33 - Model Assessment
Link NOC:Data Science for Engineers Lecture 34 - Diagnostics to Improve Linear Model Fit
Link NOC:Data Science for Engineers Lecture 35 - Simple Linear Regression Model Building
Link NOC:Data Science for Engineers Lecture 36 - Simple Linear Regression Model Assessment
Link NOC:Data Science for Engineers Lecture 37 - Simple Linear Regression Model Assessment (Continued...)
Link NOC:Data Science for Engineers Lecture 38 - Muliple Linear Regression
Link NOC:Data Science for Engineers Lecture 39 - Cross Validation
Link NOC:Data Science for Engineers Lecture 40 - Multiple Linear Regression Modelling Building and Selection
Link NOC:Data Science for Engineers Lecture 41 - Classification
Link NOC:Data Science for Engineers Lecture 42 - Logisitic Regression
Link NOC:Data Science for Engineers Lecture 43 - Logisitic Regression (Continued...)
Link NOC:Data Science for Engineers Lecture 44 - Performance Measures
Link NOC:Data Science for Engineers Lecture 45 - Logisitic Regression Implementation in R
Link NOC:Data Science for Engineers Lecture 46 - K-Nearest Neighbors (kNN)
Link NOC:Data Science for Engineers Lecture 47 - K-Nearest Neighbors implementation in R
Link NOC:Data Science for Engineers Lecture 48 - K-means Clustering
Link NOC:Data Science for Engineers Lecture 49 - K-means implementation in R
Link NOC:Data Science for Engineers Lecture 50 - Data Science for engineers - Summary
Link NOC:The Joy of Computing using Python Lecture 1 - Introduction to Programming
Link NOC:The Joy of Computing using Python Lecture 2 - Why Programming ?
Link NOC:The Joy of Computing using Python Lecture 3 - Programming for Everybody
Link NOC:The Joy of Computing using Python Lecture 4 - Any Prerequisites ?
Link NOC:The Joy of Computing using Python Lecture 5 - Where to start?
Link NOC:The Joy of Computing using Python Lecture 6 - Why do we have so many languages?
Link NOC:The Joy of Computing using Python Lecture 7 - How to go about programming?
Link NOC:The Joy of Computing using Python Lecture 8 - Why to learn programming?
Link NOC:The Joy of Computing using Python Lecture 9 - What is programming?
Link NOC:The Joy of Computing using Python Lecture 10 - How to give instructions ?
Link NOC:The Joy of Computing using Python Lecture 11 - Introduction To Scratch
Link NOC:The Joy of Computing using Python Lecture 12 - Introduction To Loops
Link NOC:The Joy of Computing using Python Lecture 13 - More About Loops
Link NOC:The Joy of Computing using Python Lecture 14 - Solution To Looping Problem
Link NOC:The Joy of Computing using Python Lecture 15 - Scratch : Animation 1
Link NOC:The Joy of Computing using Python Lecture 16 - Scratch : Animation 2
Link NOC:The Joy of Computing using Python Lecture 17 - Scratch : Animation 3
Link NOC:The Joy of Computing using Python Lecture 18 - More On Scratch
Link NOC:The Joy of Computing using Python Lecture 19 - Introduction to Anaconda
Link NOC:The Joy of Computing using Python Lecture 20 - Installation of Anaconda
Link NOC:The Joy of Computing using Python Lecture 21 - Introduction to Spyder IDE
Link NOC:The Joy of Computing using Python Lecture 22 - Printing statements in Python
Link NOC:The Joy of Computing using Python Lecture 23 - Understanding Variables in Python
Link NOC:The Joy of Computing using Python Lecture 24 - Executing a sequence of instructions in the Console
Link NOC:The Joy of Computing using Python Lecture 25 - Writing your First Program
Link NOC:The Joy of Computing using Python Lecture 26 - Taking inputs from the user
Link NOC:The Joy of Computing using Python Lecture 27 - Discount Calculation
Link NOC:The Joy of Computing using Python Lecture 28 - Motivation to if condition
Link NOC:The Joy of Computing using Python Lecture 29 - A reminder on how to deal with numbers
Link NOC:The Joy of Computing using Python Lecture 30 - Understanding if condition's working
Link NOC:The Joy of Computing using Python Lecture 31 - Realizing the importance of syntax and indentation
Link NOC:The Joy of Computing using Python Lecture 32 - Introductions to loops
Link NOC:The Joy of Computing using Python Lecture 33 - Loops: Sum of numbers
Link NOC:The Joy of Computing using Python Lecture 34 - Loops: Sum of numbers (Continued...)
Link NOC:The Joy of Computing using Python Lecture 35 - Loops: Multiplication Tables
Link NOC:The Joy of Computing using Python Lecture 36 - Introducction to While Loop
Link NOC:The Joy of Computing using Python Lecture 37 - Lists Part 1 : Introduction
Link NOC:The Joy of Computing using Python Lecture 38 - Lists Part 2 : Manipulation
Link NOC:The Joy of Computing using Python Lecture 39 - Lists Part 3 : Operations
Link NOC:The Joy of Computing using Python Lecture 40 - Lists Part 4 : Slicing
Link NOC:The Joy of Computing using Python Lecture 41 - Loops and Conditionals : Fizzbuzz 01
Link NOC:The Joy of Computing using Python Lecture 42 - Loops and Conditionals : Fizzbuzz 02
Link NOC:The Joy of Computing using Python Lecture 43 - Crowd Computing - Just estimate 01
Link NOC:The Joy of Computing using Python Lecture 44 - Crowd Computing - Just estimate 02
Link NOC:The Joy of Computing using Python Lecture 45 - Crowd Computing - Just estimate 03
Link NOC:The Joy of Computing using Python Lecture 46 - Crowd Computing - Just estimate 04
Link NOC:The Joy of Computing using Python Lecture 47 - Crowd Computing - Just estimate 05
Link NOC:The Joy of Computing using Python Lecture 48 - Crowd Computing - Just estimate 06
Link NOC:The Joy of Computing using Python Lecture 49 - Permutations - Jumbled Words 01
Link NOC:The Joy of Computing using Python Lecture 50 - Permutations - Jumbled Words 02
Link NOC:The Joy of Computing using Python Lecture 51 - Permutations - Jumbled Words 03
Link NOC:The Joy of Computing using Python Lecture 52 - Theory of Evolution 01
Link NOC:The Joy of Computing using Python Lecture 53 - Theory of Evolution 02
Link NOC:The Joy of Computing using Python Lecture 54 - Theory of Evolution 03
Link NOC:The Joy of Computing using Python Lecture 55 - Theory of Evolution 04
Link NOC:The Joy of Computing using Python Lecture 56 - Practice is the key
Link NOC:The Joy of Computing using Python Lecture 57 - Magic Square Hit and Trial 01
Link NOC:The Joy of Computing using Python Lecture 58 - Magic Square Hit and Trial 02
Link NOC:The Joy of Computing using Python Lecture 59 - Magic Square Hit and Trial 03
Link NOC:The Joy of Computing using Python Lecture 60 - Magic Square Hit and Trial 04
Link NOC:The Joy of Computing using Python Lecture 61 - Magic Square Hit and Trial 05
Link NOC:The Joy of Computing using Python Lecture 62 - Let's program and play
Link NOC:The Joy of Computing using Python Lecture 63 - Dobble Game - Spot the similarity 01
Link NOC:The Joy of Computing using Python Lecture 64 - Dobble Game - Spot the similarity 02
Link NOC:The Joy of Computing using Python Lecture 65 - Dobble Game - Spot the similarity 03
Link NOC:The Joy of Computing using Python Lecture 66 - Dobble Game - Spot the similarity 04
Link NOC:The Joy of Computing using Python Lecture 67 - What is your date of birth?
Link NOC:The Joy of Computing using Python Lecture 68 - Birthday Paradox - Find your twin 01
Link NOC:The Joy of Computing using Python Lecture 69 - Birthday Paradox - Find your twin 02
Link NOC:The Joy of Computing using Python Lecture 70 - Birthday Paradox - Find your twin 03
Link NOC:The Joy of Computing using Python Lecture 71 - Birthday Paradox - Find your twin 04
Link NOC:The Joy of Computing using Python Lecture 72 - Birthday Paradox - Find your twin 05
Link NOC:The Joy of Computing using Python Lecture 73 - What's your favourite movie?
Link NOC:The Joy of Computing using Python Lecture 74 - Guess the Movie Name 01
Link NOC:The Joy of Computing using Python Lecture 75 - Guess the Movie Name 02
Link NOC:The Joy of Computing using Python Lecture 76 - Guess the Movie Name 03
Link NOC:The Joy of Computing using Python Lecture 77 - Guess the Movie Name 04
Link NOC:The Joy of Computing using Python Lecture 78 - Guess the Movie Name 05
Link NOC:The Joy of Computing using Python Lecture 79 - Guess the Movie Name 06
Link NOC:The Joy of Computing using Python Lecture 80 - Dictionaries
Link NOC:The Joy of Computing using Python Lecture 81 - Speech to Text : No need to write 01
Link NOC:The Joy of Computing using Python Lecture 82 - Speech to Text : No need to write 02
Link NOC:The Joy of Computing using Python Lecture 83 - Speech to Text : No need to write 03
Link NOC:The Joy of Computing using Python Lecture 84 - Monte Hall : 3 doors and a twist 01
Link NOC:The Joy of Computing using Python Lecture 85 - Monte Hall : 3 doors and a twist 02
Link NOC:The Joy of Computing using Python Lecture 86 - Rock, Paper and Scissor : Cheating not allowed !! 01
Link NOC:The Joy of Computing using Python Lecture 87 - Rock, Paper and Scissor : Cheating not allowed !! 02
Link NOC:The Joy of Computing using Python Lecture 88 - Rock, Paper and Scissor : Cheating not allowed !! 03
Link NOC:The Joy of Computing using Python Lecture 89 - Rock, Paper and Scissor : Cheating not allowed !! 04
Link NOC:The Joy of Computing using Python Lecture 90 - Sorting and Searching : 20 questions game 01
Link NOC:The Joy of Computing using Python Lecture 91 - Sorting and Searching : 20 questions game 02
Link NOC:The Joy of Computing using Python Lecture 92 - Sorting and Searching : 20 questions game 03
Link NOC:The Joy of Computing using Python Lecture 93 - Sorting and Searching : 20 questions game 04
Link NOC:The Joy of Computing using Python Lecture 94 - Sorting and Searching : 20 questions game 05
Link NOC:The Joy of Computing using Python Lecture 95 - Sorting and Searching : 20 questions game 06
Link NOC:The Joy of Computing using Python Lecture 96 - Sorting and Searching : 20 questions game 07
Link NOC:The Joy of Computing using Python Lecture 97 - Sorting and Searching : 20 questions game 08
Link NOC:The Joy of Computing using Python Lecture 98 - Substitution Cipher -The science of secrecy
Link NOC:The Joy of Computing using Python Lecture 99 - Substitution Cipher -The science of secrecy 01
Link NOC:The Joy of Computing using Python Lecture 100 - Substitution Cipher -The science of secrecy 02
Link NOC:The Joy of Computing using Python Lecture 101 - Substitution Cipher -The science of secrecy 03
Link NOC:The Joy of Computing using Python Lecture 102 - Tic Tac Toe - Down the memory Lane
Link NOC:The Joy of Computing using Python Lecture 103 - Tic Tac Toe - Down the memory Lane 01
Link NOC:The Joy of Computing using Python Lecture 104 - Tic Tac Toe - Down the memory Lane 02
Link NOC:The Joy of Computing using Python Lecture 105 - Tic Tac Toe - Down the memory Lane 03
Link NOC:The Joy of Computing using Python Lecture 106 - Tic Tac Toe - Down the memory Lane 04
Link NOC:The Joy of Computing using Python Lecture 107 - Tic Tac Toe - Down the memory Lane 05
Link NOC:The Joy of Computing using Python Lecture 108 - Recursion
Link NOC:The Joy of Computing using Python Lecture 109 - Recursion 01
Link NOC:The Joy of Computing using Python Lecture 110 - Recursion 02
Link NOC:The Joy of Computing using Python Lecture 111 - Recursion 03
Link NOC:The Joy of Computing using Python Lecture 112 - Recursion 04
Link NOC:The Joy of Computing using Python Lecture 113 - Recursion 05
Link NOC:The Joy of Computing using Python Lecture 114 - Recursion 06
Link NOC:The Joy of Computing using Python Lecture 115 - Snakes and Ladders - Not on the Board
Link NOC:The Joy of Computing using Python Lecture 116 - Snakes and Ladders - Not on the Board - Part 01
Link NOC:The Joy of Computing using Python Lecture 117 - Snakes and Ladders - Not on the Board - Part 02
Link NOC:The Joy of Computing using Python Lecture 118 - Snakes and Ladders - Not on the Board - Part 03
Link NOC:The Joy of Computing using Python Lecture 119 - Snakes and Ladders - Not on the Board - Part 04
Link NOC:The Joy of Computing using Python Lecture 120 - Snakes and Ladders - Not on the Board - Part 05
Link NOC:The Joy of Computing using Python Lecture 121 - Snakes and Ladders - Not on the Board - Part 06
Link NOC:The Joy of Computing using Python Lecture 122 - Spiral Traversing - Let's Animate
Link NOC:The Joy of Computing using Python Lecture 123 - Spiral Traversing - Let's Animate - Part 01
Link NOC:The Joy of Computing using Python Lecture 124 - Spiral Traversing - Let's Animate - Part 02
Link NOC:The Joy of Computing using Python Lecture 125 - Spiral Traversing - Let's Animate - Part 03
Link NOC:The Joy of Computing using Python Lecture 126 - Spiral Traversing - Let's Animate - Part 04
Link NOC:The Joy of Computing using Python Lecture 127 - Spiral Traversing - Let's Animate - Part 05
Link NOC:The Joy of Computing using Python Lecture 128 - Spiral Traversing - Let's Animate - Part 06
Link NOC:The Joy of Computing using Python Lecture 129 - Spiral Traversing - Let's Animate - Part 07
Link NOC:The Joy of Computing using Python Lecture 130 - GPS - Track the route
Link NOC:The Joy of Computing using Python Lecture 131 - GPS - Track the route - Part 01
Link NOC:The Joy of Computing using Python Lecture 132 - GPS - Track the route - Part 02
Link NOC:The Joy of Computing using Python Lecture 133 - GPS - Track the route - Part 03
Link NOC:The Joy of Computing using Python Lecture 134 - GPS - Track the route - Part 04
Link NOC:The Joy of Computing using Python Lecture 135 - Tuples- Python Data Structure
Link NOC:The Joy of Computing using Python Lecture 136 - Lottery Simulation - Profit or Loss
Link NOC:The Joy of Computing using Python Lecture 137 - Lottery Simulation - Profit or Loss - Part 01
Link NOC:The Joy of Computing using Python Lecture 138 - Lottery Simulation - Profit or Loss - Part 02
Link NOC:The Joy of Computing using Python Lecture 139 - Lottery Simulation - Profit or Loss - Part 03
Link NOC:The Joy of Computing using Python Lecture 140 - Lottery Simulation - Profit or Loss - Part 04
Link NOC:The Joy of Computing using Python Lecture 141 - Lottery Simulation - Profit or Loss - Part 05
Link NOC:The Joy of Computing using Python Lecture 142 - Lottery Simulation - Profit or Loss - Part 06
Link NOC:The Joy of Computing using Python Lecture 143 - Image Processing - Enhance your images
Link NOC:The Joy of Computing using Python Lecture 144 - Image Processing - Enhance your images - Part 01
Link NOC:The Joy of Computing using Python Lecture 145 - Image Processing - Enhance your images - Part 02
Link NOC:The Joy of Computing using Python Lecture 146 - Image Processing - Enhance your images - Part 03
Link NOC:The Joy of Computing using Python Lecture 147 - Anagrams
Link NOC:The Joy of Computing using Python Lecture 148 - Anagrams - Part 01
Link NOC:The Joy of Computing using Python Lecture 149 - Anagrams - Part 02
Link NOC:The Joy of Computing using Python Lecture 150 - Anagrams - Part 03
Link NOC:The Joy of Computing using Python Lecture 151 - Anagrams - Part 04
Link NOC:The Joy of Computing using Python Lecture 152 - Facebook Sentiment Analysis
Link NOC:The Joy of Computing using Python Lecture 153 - Facebook Sentiment Analysis - Part 01
Link NOC:The Joy of Computing using Python Lecture 154 - Facebook Sentiment Analysis - Part 02
Link NOC:The Joy of Computing using Python Lecture 155 - Facebook Sentiment Analysis - Part 03
Link NOC:The Joy of Computing using Python Lecture 156 - Facebook Sentiment Analysis - Part 04
Link NOC:The Joy of Computing using Python Lecture 157 - Natural Language Processing - Author Stylometry
Link NOC:The Joy of Computing using Python Lecture 158 - Natural Language Processing - Author Stylometry - Part 01
Link NOC:The Joy of Computing using Python Lecture 159 - Natural Language Processing - Author Stylometry - Part 02
Link NOC:The Joy of Computing using Python Lecture 160 - Natural Language Processing - Author Stylometry - Part 03
Link NOC:The Joy of Computing using Python Lecture 161 - Natural Language Processing - Author Stylometry - Part 04
Link NOC:The Joy of Computing using Python Lecture 162 - Natural Language Processing - Author Stylometry - Part 05
Link NOC:The Joy of Computing using Python Lecture 163 - Natural Language Processing - Author Stylometry - Part 06
Link NOC:The Joy of Computing using Python Lecture 164 - Natural Language Processing - Author Stylometry - Part 07
Link NOC:The Joy of Computing using Python Lecture 165 - Natural Language Processing - Author Stylometry - Part 08
Link NOC:The Joy of Computing using Python Lecture 166 - Natural Language Processing - Author Stylometry - Part 09
Link NOC:The Joy of Computing using Python Lecture 167 - Natural Language Processing - Author Stylometry - Part 10
Link NOC:The Joy of Computing using Python Lecture 168 - Introduction to Networkx - Part 01
Link NOC:The Joy of Computing using Python Lecture 169 - Introduction to Networkx - Part 02
Link NOC:The Joy of Computing using Python Lecture 170 - Six Degrees of Separation : Meet your favourites
Link NOC:The Joy of Computing using Python Lecture 171 - Six Degrees of Separation : Meet your favourites - Part 01
Link NOC:The Joy of Computing using Python Lecture 172 - Six Degrees of Separation : Meet your favourites - Part 02
Link NOC:The Joy of Computing using Python Lecture 173 - Six Degrees of Separation : Meet your favourites - Part 03
Link NOC:The Joy of Computing using Python Lecture 174 - Area Calculation - Don't Measure
Link NOC:The Joy of Computing using Python Lecture 175 - Area Calculation - Don't Measure - Part 01
Link NOC:The Joy of Computing using Python Lecture 176 - Area Calculation - Don't Measure - Part 02
Link NOC:The Joy of Computing using Python Lecture 177 - Area Calculation - Don't Measure - Part 03
Link NOC:The Joy of Computing using Python Lecture 178 - Area Calculation - Don't Measure - Part 04
Link NOC:The Joy of Computing using Python Lecture 179 - Area Calculation - Don't Measure - Part 05
Link NOC:The Joy of Computing using Python Lecture 180 - Area Calculation - Don't Measure - Part 06
Link NOC:The Joy of Computing using Python Lecture 181 - FLAMES - Part 01
Link NOC:The Joy of Computing using Python Lecture 182 - FLAMES - Part 02
Link NOC:The Joy of Computing using Python Lecture 183 - FLAMES - Part 03
Link NOC:The Joy of Computing using Python Lecture 184 - FLAMES - Part 04
Link NOC:The Joy of Computing using Python Lecture 185 - FLAMES - Part 05
Link NOC:The Joy of Computing using Python Lecture 186 - FLAMES - Part 06
Link NOC:The Joy of Computing using Python Lecture 187 - Data Compression - Part 01
Link NOC:The Joy of Computing using Python Lecture 188 - Data Compression - Part 02
Link NOC:The Joy of Computing using Python Lecture 189 - Data Compression - Part 03
Link NOC:The Joy of Computing using Python Lecture 190 - Data Compression - Part 04
Link NOC:The Joy of Computing using Python Lecture 191 - Data Compression - Part 05
Link NOC:The Joy of Computing using Python Lecture 192 - Browser Automation Watsapp using Python - Part 01
Link NOC:The Joy of Computing using Python Lecture 193 - Browser Automation Watsapp using Python - Part 02
Link NOC:The Joy of Computing using Python Lecture 194 - Browser Automation Watsapp using Python - Part 03
Link NOC:The Joy of Computing using Python Lecture 195 - Browser Automation Watsapp using Python - Part 04
Link NOC:The Joy of Computing using Python Lecture 196 - Fun with Calendar - Part 01
Link NOC:The Joy of Computing using Python Lecture 197 - Fun with Calendar - Part 02
Link NOC:The Joy of Computing using Python Lecture 198 - Fun with Calendar - Part 03
Link NOC:The Joy of Computing using Python Lecture 199 - Fun with Calendar - Part 04
Link NOC:The Joy of Computing using Python Lecture 200 - Fun with Calendar - Part 05
Link NOC:The Joy of Computing using Python Lecture 201 - Fun with Calendar - Part 06
Link NOC:The Joy of Computing using Python Lecture 202 - Fun with Calendar - Part 07
Link NOC:The Joy of Computing using Python Lecture 203 - Fun with Calendar - Part 08
Link NOC:The Joy of Computing using Python Lecture 204 - Fun with Calendar - Part 09
Link NOC:The Joy of Computing using Python Lecture 205 - Fun with Calendar - Part 10
Link NOC:The Joy of Computing using Python Lecture 206 - Fun with Calendar - Part 11
Link NOC:The Joy of Computing using Python Lecture 207 - Fun with Calendar - Part 12
Link NOC:The Joy of Computing using Python Lecture 208 - Page Rank - How does Google Work ? - Part 01
Link NOC:The Joy of Computing using Python Lecture 209 - Page Rank - How does Google Work ? - Part 02
Link NOC:The Joy of Computing using Python Lecture 210 - Page Rank - How does Google Work ? - Part 03
Link NOC:The Joy of Computing using Python Lecture 211 - Page Rank - How does Google Work ? - Part 04
Link NOC:The Joy of Computing using Python Lecture 212 - Page Rank - How does Google Work ? - Part 05
Link NOC:The Joy of Computing using Python Lecture 213 - Page Rank - How does Google Work ? - Part 06
Link NOC:The Joy of Computing using Python Lecture 214 - Page Rank - How does Google Work ? - Part 07
Link NOC:The Joy of Computing using Python Lecture 215 - Page Rank - How does Google Work ? - Part 08
Link NOC:The Joy of Computing using Python Lecture 216 - Page Rank - How does Google Work ? - Part 09
Link NOC:The Joy of Computing using Python Lecture 217 - Page Rank - How does Google Work ? - Part 10
Link NOC:The Joy of Computing using Python Lecture 218 - Page Rank - How does Google Work ? - Part 11
Link NOC:The Joy of Computing using Python Lecture 219 - Page Rank - How does Google Work ? - Part 12
Link NOC:The Joy of Computing using Python Lecture 220 - Page Rank - How does Google Work ? - Part 13
Link NOC:The Joy of Computing using Python Lecture 221 - Page Rank - How does Google Work ? - Part 14
Link NOC:The Joy of Computing using Python Lecture 222 - Page Rank - How does Google Work ? - Part 15
Link NOC:The Joy of Computing using Python Lecture 223 - Page Rank - How does Google Work ? - Part 16
Link NOC:The Joy of Computing using Python Lecture 224 - Collatz Conjecture - Part 01
Link NOC:The Joy of Computing using Python Lecture 225 - Collatz Conjecture - Part 02
Link NOC:The Joy of Computing using Python Lecture 226 - JOC Conclusion
Link NOC:Discrete Mathematics Lecture 1 - Motivation for Counting
Link NOC:Discrete Mathematics Lecture 2 - Paper Folding Example
Link NOC:Discrete Mathematics Lecture 3 - Rubik's Cube Example
Link NOC:Discrete Mathematics Lecture 4 - Factorial Example
Link NOC:Discrete Mathematics Lecture 5 - Counting in Computer Science
Link NOC:Discrete Mathematics Lecture 6 - Motivation for Catalan numbers
Link NOC:Discrete Mathematics Lecture 7 - Rule of Sum and Rule of Product
Link NOC:Discrete Mathematics Lecture 8 - Problems on Rule of Sum and Rule of Product
Link NOC:Discrete Mathematics Lecture 9 - Factorial Explained
Link NOC:Discrete Mathematics Lecture 10 - Proof of n! - Part 1
Link NOC:Discrete Mathematics Lecture 11 - Proof of n! - Part 2
Link NOC:Discrete Mathematics Lecture 12 - Astronomical Numbers
Link NOC:Discrete Mathematics Lecture 13 - Permutations - Part 1
Link NOC:Discrete Mathematics Lecture 14 - Permutations - Part 2
Link NOC:Discrete Mathematics Lecture 15 - Permutations - Part 3
Link NOC:Discrete Mathematics Lecture 16 - Permutations - Part 4
Link NOC:Discrete Mathematics Lecture 17 - Problems on Permutations
Link NOC:Discrete Mathematics Lecture 18 - Combinations - Part 1
Link NOC:Discrete Mathematics Lecture 19 - Combinations - Part 2
Link NOC:Discrete Mathematics Lecture 20 - Combinations - Part 3
Link NOC:Discrete Mathematics Lecture 21 - Combinations - Part 4
Link NOC:Discrete Mathematics Lecture 22 - Problems on Combinations
Link NOC:Discrete Mathematics Lecture 23 - Difference between Permuations and Combinations
Link NOC:Discrete Mathematics Lecture 24 - Combination with Repetition - Part 1
Link NOC:Discrete Mathematics Lecture 25 - Combination with Repetition - Part 2
Link NOC:Discrete Mathematics Lecture 26 - Combination with Repetition - Problems
Link NOC:Discrete Mathematics Lecture 27 - Binomial theorem
Link NOC:Discrete Mathematics Lecture 28 - Applications of Binomial theorem
Link NOC:Discrete Mathematics Lecture 29 - Properties of Binomial theorem
Link NOC:Discrete Mathematics Lecture 30 - Multinomial theorem
Link NOC:Discrete Mathematics Lecture 31 - Problems on Binomial theorem
Link NOC:Discrete Mathematics Lecture 32 - Pascal's Triangle
Link NOC:Discrete Mathematics Lecture 33 - Fun facts on Pascal's Triangle
Link NOC:Discrete Mathematics Lecture 34 - Catalan Numbers - Part 1
Link NOC:Discrete Mathematics Lecture 35 - Catalan Numbers - Part 2
Link NOC:Discrete Mathematics Lecture 36 - Catalan Numbers - Part 3
Link NOC:Discrete Mathematics Lecture 37 - Catalan Numbers - Part 4
Link NOC:Discrete Mathematics Lecture 38 - Examples of Catalan numbers
Link NOC:Discrete Mathematics Lecture 39 - Chapter Summary
Link NOC:Discrete Mathematics Lecture 40 - Introduction to Set Theory
Link NOC:Discrete Mathematics Lecture 41 - Example, definiton and notation
Link NOC:Discrete Mathematics Lecture 42 - Sets - Problems Part 1
Link NOC:Discrete Mathematics Lecture 43 - Subsets - Part 1
Link NOC:Discrete Mathematics Lecture 44 - Subsets - Part 2
Link NOC:Discrete Mathematics Lecture 45 - Subsets - Part 3
Link NOC:Discrete Mathematics Lecture 46 - Union and intersections of sets
Link NOC:Discrete Mathematics Lecture 47 - Union and intersections of sets - Part 1
Link NOC:Discrete Mathematics Lecture 48 - Union and intersections of sets - Part 2
Link NOC:Discrete Mathematics Lecture 49 - Union and intersections of sets - Part 3
Link NOC:Discrete Mathematics Lecture 50 - Cardinality of Union of two sets - Part 1
Link NOC:Discrete Mathematics Lecture 51 - Cardinality of Union of two sets - Part 2
Link NOC:Discrete Mathematics Lecture 52 - Cardinality of Union of three sets
Link NOC:Discrete Mathematics Lecture 53 - Power Set - Part 1
Link NOC:Discrete Mathematics Lecture 54 - Power set - Part 2
Link NOC:Discrete Mathematics Lecture 55 - Power set - Part 3
Link NOC:Discrete Mathematics Lecture 56 - Connection betwenn Binomial Theorem and Power Sets
Link NOC:Discrete Mathematics Lecture 57 - Power set - Problems
Link NOC:Discrete Mathematics Lecture 58 - Complement of a set
Link NOC:Discrete Mathematics Lecture 59 - De Morgan's Laws - Part 1
Link NOC:Discrete Mathematics Lecture 60 - De Morgan's Laws - Part 2
Link NOC:Discrete Mathematics Lecture 61 - A proof technique
Link NOC:Discrete Mathematics Lecture 62 - De Morgan's Laws - Part 3
Link NOC:Discrete Mathematics Lecture 63 - De Morgan's Laws - Part 4
Link NOC:Discrete Mathematics Lecture 64 - Set difference - Part 1
Link NOC:Discrete Mathematics Lecture 65 - Set difference - Part 2
Link NOC:Discrete Mathematics Lecture 66 - Symmetric difference
Link NOC:Discrete Mathematics Lecture 67 - History
Link NOC:Discrete Mathematics Lecture 68 - Summary
Link NOC:Discrete Mathematics Lecture 69 - Motivational example
Link NOC:Discrete Mathematics Lecture 70 - Introduction to Statements
Link NOC:Discrete Mathematics Lecture 71 - Examples and Non-examples of Statements
Link NOC:Discrete Mathematics Lecture 72 - Introduction to Negation
Link NOC:Discrete Mathematics Lecture 73 - Negation - Explanation
Link NOC:Discrete Mathematics Lecture 74 - Negation - Truthtable
Link NOC:Discrete Mathematics Lecture 75 - Examples for Negation
Link NOC:Discrete Mathematics Lecture 76 - Motivation for OR operator
Link NOC:Discrete Mathematics Lecture 77 - Introduction to OR operator
Link NOC:Discrete Mathematics Lecture 78 - Truthtable for OR operator
Link NOC:Discrete Mathematics Lecture 79 - OR operator for 3 Variables
Link NOC:Discrete Mathematics Lecture 80 - Truthtable for AND operator
Link NOC:Discrete Mathematics Lecture 81 - AND operator for 3 Variables
Link NOC:Discrete Mathematics Lecture 82 - Primitive and Compound statements - Part 1
Link NOC:Discrete Mathematics Lecture 83 - Primitive and Compound statements - Part 2
Link NOC:Discrete Mathematics Lecture 84 - Problems involoving NOT, OR and AND operators
Link NOC:Discrete Mathematics Lecture 85 - Introduction to implication
Link NOC:Discrete Mathematics Lecture 86 - Examples and Non-examples of Implication - Part 1
Link NOC:Discrete Mathematics Lecture 87 - Examples and Non-examples of Implication - Part 2
Link NOC:Discrete Mathematics Lecture 88 - Explanation of Implication
Link NOC:Discrete Mathematics Lecture 89 - Introduction to Double Implication
Link NOC:Discrete Mathematics Lecture 90 - Explanation of Double Implication
Link NOC:Discrete Mathematics Lecture 91 - Converse, Inverse and Contrapositive
Link NOC:Discrete Mathematics Lecture 92 - XOR operator - Part 1
Link NOC:Discrete Mathematics Lecture 93 - XOR operator - Part 2
Link NOC:Discrete Mathematics Lecture 94 - XOR operator - Part 3
Link NOC:Discrete Mathematics Lecture 95 - Problems
Link NOC:Discrete Mathematics Lecture 96 - Tautology, Contradiction - Part 1
Link NOC:Discrete Mathematics Lecture 97 - Tautology, Contradiction - Part 2
Link NOC:Discrete Mathematics Lecture 98 - Tautology, Contradiction - Part 3
Link NOC:Discrete Mathematics Lecture 99 - SAT Problem - Part 1
Link NOC:Discrete Mathematics Lecture 100 - SAT Problem - Part 2
Link NOC:Discrete Mathematics Lecture 101 - Logical Equivalence - Part 1
Link NOC:Discrete Mathematics Lecture 102 - Logical Equivalence - Part 2
Link NOC:Discrete Mathematics Lecture 103 - Logical Equivalence - Part 3
Link NOC:Discrete Mathematics Lecture 104 - Logical Equivalence - Part 4
Link NOC:Discrete Mathematics Lecture 105 - Motivation for laws of logic
Link NOC:Discrete Mathematics Lecture 106 - Double negation - Part 1
Link NOC:Discrete Mathematics Lecture 107 - Double negation - Part 2
Link NOC:Discrete Mathematics Lecture 108 - Laws of Logic
Link NOC:Discrete Mathematics Lecture 109 - De Morgan's Law - Part 1
Link NOC:Discrete Mathematics Lecture 110 - De Morgan's Law - Part 2
Link NOC:Discrete Mathematics Lecture 111 - Rules of Inferences - Part 1
Link NOC:Discrete Mathematics Lecture 112 - Rules of Inferences - Part 2
Link NOC:Discrete Mathematics Lecture 113 - Rules of Inferences - Part 3
Link NOC:Discrete Mathematics Lecture 114 - Rules of Inferences - Part 4
Link NOC:Discrete Mathematics Lecture 115 - Rules of Inferences - Part 5
Link NOC:Discrete Mathematics Lecture 116 - Rules of Inferences - Part 6
Link NOC:Discrete Mathematics Lecture 117 - Rules of Inferences - Part 7
Link NOC:Discrete Mathematics Lecture 118 - Conclusion
Link NOC:Discrete Mathematics Lecture 119 - Introduction to Relation
Link NOC:Discrete Mathematics Lecture 120 - Graphical Representation of a Relation
Link NOC:Discrete Mathematics Lecture 121 - Various sets
Link NOC:Discrete Mathematics Lecture 122 - Matrix Representation of a Relation
Link NOC:Discrete Mathematics Lecture 123 - Relation - An Example
Link NOC:Discrete Mathematics Lecture 124 - Cartesian Product
Link NOC:Discrete Mathematics Lecture 125 - Set Representation of a Relation
Link NOC:Discrete Mathematics Lecture 126 - Revisiting Representations of a Relation
Link NOC:Discrete Mathematics Lecture 127 - Examples of Relations
Link NOC:Discrete Mathematics Lecture 128 - Number of relations - Part 1
Link NOC:Discrete Mathematics Lecture 129 - Number of relations - Part 2
Link NOC:Discrete Mathematics Lecture 130 - Reflexive relation - Introduction
Link NOC:Discrete Mathematics Lecture 131 - Example of a Reflexive relation
Link NOC:Discrete Mathematics Lecture 132 - Reflexive relation - Matrix representation
Link NOC:Discrete Mathematics Lecture 133 - Number of Reflexive relations
Link NOC:Discrete Mathematics Lecture 134 - Symmetric Relation - Introduction
Link NOC:Discrete Mathematics Lecture 135 - Symmetric Relation - Matrix representation
Link NOC:Discrete Mathematics Lecture 136 - Symmetric Relation - Examples and non examples
Link NOC:Discrete Mathematics Lecture 137 - Parallel lines revisited
Link NOC:Discrete Mathematics Lecture 138 - Number of symmetric relations - Part 1
Link NOC:Discrete Mathematics Lecture 139 - Number of symmetric relations - Part 2
Link NOC:Discrete Mathematics Lecture 140 - Examples of Reflexive and Symmetric Relations
Link NOC:Discrete Mathematics Lecture 141 - Pattern
Link NOC:Discrete Mathematics Lecture 142 - Transitive relation - Examples and non examples
Link NOC:Discrete Mathematics Lecture 143 - Antisymmetric relation
Link NOC:Discrete Mathematics Lecture 144 - Examples of Transitive and Antisymmetric Relation
Link NOC:Discrete Mathematics Lecture 145 - Antisymmetric - Graphical representation
Link NOC:Discrete Mathematics Lecture 146 - Antisymmetric - Matrix representation
Link NOC:Discrete Mathematics Lecture 147 - Number of Antisymmetric relations
Link NOC:Discrete Mathematics Lecture 148 - Condition for relation to be reflexive
Link NOC:Discrete Mathematics Lecture 149 - Few notations
Link NOC:Discrete Mathematics Lecture 150 - Condition for relation to be reflexive
Link NOC:Discrete Mathematics Lecture 151 - Condition for relation to be reflexive
Link NOC:Discrete Mathematics Lecture 152 - Condition for relation to be symmetric
Link NOC:Discrete Mathematics Lecture 153 - Condition for relation to be symmetric
Link NOC:Discrete Mathematics Lecture 154 - Condition for relation to be antisymmetric
Link NOC:Discrete Mathematics Lecture 155 - Equivalence relation
Link NOC:Discrete Mathematics Lecture 156 - Equivalence relation - Example 4
Link NOC:Discrete Mathematics Lecture 157 - Partition - Part 1
Link NOC:Discrete Mathematics Lecture 158 - Partition - Part 2
Link NOC:Discrete Mathematics Lecture 159 - Partition - Part 3
Link NOC:Discrete Mathematics Lecture 160 - Partition - Part 4
Link NOC:Discrete Mathematics Lecture 161 - Partition - Part 5
Link NOC:Discrete Mathematics Lecture 162 - Partition - Part 6
Link NOC:Discrete Mathematics Lecture 163 - Motivational Example - 1
Link NOC:Discrete Mathematics Lecture 164 - Motivational Example - 2
Link NOC:Discrete Mathematics Lecture 165 - Commonality in examples
Link NOC:Discrete Mathematics Lecture 166 - Motivational Example - 3
Link NOC:Discrete Mathematics Lecture 167 - Example - 4 Explanation
Link NOC:Discrete Mathematics Lecture 168 - Introduction to functions
Link NOC:Discrete Mathematics Lecture 169 - Defintion of a function - Part 1
Link NOC:Discrete Mathematics Lecture 170 - Defintion of a function - Part 2
Link NOC:Discrete Mathematics Lecture 171 - Defintion of a function - Part 3
Link NOC:Discrete Mathematics Lecture 172 - Relations vs Functions - Part 1
Link NOC:Discrete Mathematics Lecture 173 - Relations vs Functions - Part 2
Link NOC:Discrete Mathematics Lecture 174 - Introduction to One-One Function
Link NOC:Discrete Mathematics Lecture 175 - One-One Function - Example 1
Link NOC:Discrete Mathematics Lecture 176 - One-One Function - Example 2
Link NOC:Discrete Mathematics Lecture 177 - One-One Function - Example 3
Link NOC:Discrete Mathematics Lecture 178 - Proving a Function is One-One
Link NOC:Discrete Mathematics Lecture 179 - Examples and Non- examples of One-One function
Link NOC:Discrete Mathematics Lecture 180 - Cardinality condition in One-One function - Part 1
Link NOC:Discrete Mathematics Lecture 181 - Cardinality condition in One-One function - Part 2
Link NOC:Discrete Mathematics Lecture 182 - Introduction to Onto Function - Part 1
Link NOC:Discrete Mathematics Lecture 183 - Introduction to Onto Function - Part 2
Link NOC:Discrete Mathematics Lecture 184 - Definition of Onto Function
Link NOC:Discrete Mathematics Lecture 185 - Examples of Onto Function
Link NOC:Discrete Mathematics Lecture 186 - Cardinality condition in Onto function - Part 1
Link NOC:Discrete Mathematics Lecture 187 - Cardinality condition in Onto function - Part 2
Link NOC:Discrete Mathematics Lecture 188 - Introduction to Bijection
Link NOC:Discrete Mathematics Lecture 189 - Examples of Bijection
Link NOC:Discrete Mathematics Lecture 190 - Cardinality condition in Bijection - Part 1
Link NOC:Discrete Mathematics Lecture 191 - Cardinality condition in Bijection - Part 2
Link NOC:Discrete Mathematics Lecture 192 - Counting number of functions
Link NOC:Discrete Mathematics Lecture 193 - Number of functions
Link NOC:Discrete Mathematics Lecture 194 - Number of One-One functions - Part 1
Link NOC:Discrete Mathematics Lecture 195 - Number of One-One functions - Part 2
Link NOC:Discrete Mathematics Lecture 196 - Number of One-One functions - Part 3
Link NOC:Discrete Mathematics Lecture 197 - Number of Onto functions
Link NOC:Discrete Mathematics Lecture 198 - Number of Bijections
Link NOC:Discrete Mathematics Lecture 199 - Counting number of functions.
Link NOC:Discrete Mathematics Lecture 200 - Motivation for Composition of functions - Part 1
Link NOC:Discrete Mathematics Lecture 201 - Motivation for Composition of functions - Part 2
Link NOC:Discrete Mathematics Lecture 202 - Definition of Composition of functions
Link NOC:Discrete Mathematics Lecture 203 - Why study Composition of functions
Link NOC:Discrete Mathematics Lecture 204 - Example of Composition of functions - Part 1
Link NOC:Discrete Mathematics Lecture 205 - Example of Composition of functions - Part 2
Link NOC:Discrete Mathematics Lecture 206 - Motivation for Inverse functions
Link NOC:Discrete Mathematics Lecture 207 - Inverse functions
Link NOC:Discrete Mathematics Lecture 208 - Examples of Inverse functions
Link NOC:Discrete Mathematics Lecture 209 - Application of inverse functions - Part 1
Link NOC:Discrete Mathematics Lecture 210 - Three stories
Link NOC:Discrete Mathematics Lecture 211 - Three stories - Connecting the dots
Link NOC:Discrete Mathematics Lecture 212 - Mathematical induction - An illustration
Link NOC:Discrete Mathematics Lecture 213 - Mathematical Induction - Its essence
Link NOC:Discrete Mathematics Lecture 214 - Mathematical Induction - The formal way
Link NOC:Discrete Mathematics Lecture 215 - MI - Sum of odd numbers
Link NOC:Discrete Mathematics Lecture 216 - MI - Sum of powers of 2
Link NOC:Discrete Mathematics Lecture 217 - MI - Inequality 1
Link NOC:Discrete Mathematics Lecture 218 - MI - Inequality 1 (solution)
Link NOC:Discrete Mathematics Lecture 219 - MI - To prove divisibility
Link NOC:Discrete Mathematics Lecture 220 - MI - To prove divisibility (solution)
Link NOC:Discrete Mathematics Lecture 221 - MI - Problem on satisfying inequalities
Link NOC:Discrete Mathematics Lecture 222 - MI - Problem on satisfying inequalities (solutions)
Link NOC:Discrete Mathematics Lecture 223 - MI - Inequality 2
Link NOC:Discrete Mathematics Lecture 224 - MI - Inequality 2 solution
Link NOC:Discrete Mathematics Lecture 225 - Mathematical Induction - Example 9
Link NOC:Discrete Mathematics Lecture 226 - Mathematical Induction - Example 10 solution
Link NOC:Discrete Mathematics Lecture 227 - Binomial Coeffecients - Proof by induction
Link NOC:Discrete Mathematics Lecture 228 - Checker board and Triomioes - A puzzle
Link NOC:Discrete Mathematics Lecture 229 - Checker board and triominoes - Solution
Link NOC:Discrete Mathematics Lecture 230 - Mathematical induction - An important note
Link NOC:Discrete Mathematics Lecture 231 - Mathematical Induction - A false proof
Link NOC:Discrete Mathematics Lecture 232 - A false proof - Solution
Link NOC:Discrete Mathematics Lecture 233 - Motivation for Pegionhole Principle
Link NOC:Discrete Mathematics Lecture 234 - Group of n people
Link NOC:Discrete Mathematics Lecture 235 - Set of n integgers
Link NOC:Discrete Mathematics Lecture 236 - 10 points on an equilateral triangle
Link NOC:Discrete Mathematics Lecture 237 - Pegionhole Principle - A result
Link NOC:Discrete Mathematics Lecture 238 - Consecutive integers
Link NOC:Discrete Mathematics Lecture 239 - Consecutive integers solution
Link NOC:Discrete Mathematics Lecture 240 - Matching initials
Link NOC:Discrete Mathematics Lecture 241 - Matching initials - Solution
Link NOC:Discrete Mathematics Lecture 242 - Numbers adding to 9
Link NOC:Discrete Mathematics Lecture 243 - Numbers adding to 9 - Solution
Link NOC:Discrete Mathematics Lecture 244 - Deck of cards
Link NOC:Discrete Mathematics Lecture 245 - Deck of cards - Solution
Link NOC:Discrete Mathematics Lecture 246 - Number of errors
Link NOC:Discrete Mathematics Lecture 247 - Number of errors - Solution
Link NOC:Discrete Mathematics Lecture 248 - Puzzle - Challenge for you
Link NOC:Discrete Mathematics Lecture 249 - Friendship - an interesting property
Link NOC:Discrete Mathematics Lecture 250 - Connectedness through Connecting people
Link NOC:Discrete Mathematics Lecture 251 - Traversing the bridges
Link NOC:Discrete Mathematics Lecture 252 - Three utilities problem
Link NOC:Discrete Mathematics Lecture 253 - Coloring the India map
Link NOC:Discrete Mathematics Lecture 254 - Defintion of a Graph
Link NOC:Discrete Mathematics Lecture 255 - Degree and degree sequence
Link NOC:Discrete Mathematics Lecture 256 - Relation between number of edges and degrees
Link NOC:Discrete Mathematics Lecture 257 - Relation between number of edges and degrees - Proof
Link NOC:Discrete Mathematics Lecture 258 - Hand shaking lemma - Corollary
Link NOC:Discrete Mathematics Lecture 259 - Problems based on Hand shaking lemma
Link NOC:Discrete Mathematics Lecture 260 - Havel Hakimi theorem - Part 1
Link NOC:Discrete Mathematics Lecture 261 - Havel Hakimi theorem - Part 2
Link NOC:Discrete Mathematics Lecture 262 - Havel Hakimi theorem - Part 3
Link NOC:Discrete Mathematics Lecture 263 - Havel Hakimi theorem - Part 4
Link NOC:Discrete Mathematics Lecture 264 - Havel Hakimi theorem - Part 5
Link NOC:Discrete Mathematics Lecture 265 - Regular graph and irregular graph
Link NOC:Discrete Mathematics Lecture 266 - Walk
Link NOC:Discrete Mathematics Lecture 267 - Trail
Link NOC:Discrete Mathematics Lecture 268 - Path and closed path
Link NOC:Discrete Mathematics Lecture 269 - Definitions revisited
Link NOC:Discrete Mathematics Lecture 270 - Examples of walk, trail and path
Link NOC:Discrete Mathematics Lecture 271 - Cycle and circuit
Link NOC:Discrete Mathematics Lecture 272 - Example of cycle and circuit
Link NOC:Discrete Mathematics Lecture 273 - Relation between walk and path
Link NOC:Discrete Mathematics Lecture 274 - Relation between walk and path - An induction proof
Link NOC:Discrete Mathematics Lecture 275 - Subgraph
Link NOC:Discrete Mathematics Lecture 276 - Spanning and induced subgraph
Link NOC:Discrete Mathematics Lecture 277 - Spanning and induced subgraph - A result
Link NOC:Discrete Mathematics Lecture 278 - Introduction to Tree
Link NOC:Discrete Mathematics Lecture 279 - Connected and Disconnected graphs
Link NOC:Discrete Mathematics Lecture 280 - Property of a cycle
Link NOC:Discrete Mathematics Lecture 281 - Edge condition for connectivity
Link NOC:Discrete Mathematics Lecture 282 - Connecting connectedness and path
Link NOC:Discrete Mathematics Lecture 283 - Connecting connectedness and path - An illustration
Link NOC:Discrete Mathematics Lecture 284 - Cut vertex
Link NOC:Discrete Mathematics Lecture 285 - Cut edge
Link NOC:Discrete Mathematics Lecture 286 - Illustration of cut vertices and cut edges
Link NOC:Discrete Mathematics Lecture 287 - NetworkX - Need of the hour
Link NOC:Discrete Mathematics Lecture 288 - Introduction to Python - Installation
Link NOC:Discrete Mathematics Lecture 289 - Introduction to Python - Basics
Link NOC:Discrete Mathematics Lecture 290 - Introduction to NetworkX
Link NOC:Discrete Mathematics Lecture 291 - Story so far - Using NetworkX
Link NOC:Discrete Mathematics Lecture 292 - Directed, weighted and multi graphs
Link NOC:Discrete Mathematics Lecture 293 - Illustration of Directed, weighted and multi graphs
Link NOC:Discrete Mathematics Lecture 294 - Graph representations - Introduction
Link NOC:Discrete Mathematics Lecture 295 - Adjacency matrix representation
Link NOC:Discrete Mathematics Lecture 296 - Incidence matrix representation
Link NOC:Discrete Mathematics Lecture 297 - Isomorphism - Introduction
Link NOC:Discrete Mathematics Lecture 298 - Isomorphic graphs - An illustration
Link NOC:Discrete Mathematics Lecture 299 - Isomorphic graphs - A challenge
Link NOC:Discrete Mathematics Lecture 300 - Non-isomorphic graphs
Link NOC:Discrete Mathematics Lecture 301 - Isomorphism - A question
Link NOC:Discrete Mathematics Lecture 302 - Complement of a Graph - Introduction
Link NOC:Discrete Mathematics Lecture 303 - Complement of a Graph - Illiustration
Link NOC:Discrete Mathematics Lecture 304 - Self complement
Link NOC:Discrete Mathematics Lecture 305 - Complement of a disconnected graph is connected
Link NOC:Discrete Mathematics Lecture 306 - Complement of a disconnected graph is connected - Solution
Link NOC:Discrete Mathematics Lecture 307 - Which is more? Connected graphs or disconnected graphs?
Link NOC:Discrete Mathematics Lecture 308 - Bipartite graphs.
Link NOC:Discrete Mathematics Lecture 309 - Bipartite graphs - A puzzle
Link NOC:Discrete Mathematics Lecture 310 - Bipartite graphs - Converse part of the puzzle
Link NOC:Discrete Mathematics Lecture 311 - Definition of Eulerian Graph
Link NOC:Discrete Mathematics Lecture 312 - Illustration of eulerian graph
Link NOC:Discrete Mathematics Lecture 313 - Non- example of Eulerian graph
Link NOC:Discrete Mathematics Lecture 314 - Litmus test for an Eulerian graph
Link NOC:Discrete Mathematics Lecture 315 - Why even degree?
Link NOC:Discrete Mathematics Lecture 316 - Proof for even degree implies graph is eulerian
Link NOC:Discrete Mathematics Lecture 317 - A condition for Eulerian trail
Link NOC:Discrete Mathematics Lecture 318 - Why the name Eulerian
Link NOC:Discrete Mathematics Lecture 319 - Can you traverse all location?
Link NOC:Discrete Mathematics Lecture 320 - Defintion of Hamiltonian graphs
Link NOC:Discrete Mathematics Lecture 321 - Examples of Hamiltonian graphs
Link NOC:Discrete Mathematics Lecture 322 - Hamiltonian graph - A result
Link NOC:Discrete Mathematics Lecture 323 - A result on connectedness
Link NOC:Discrete Mathematics Lecture 324 - A result on Path
Link NOC:Discrete Mathematics Lecture 325 - Dirac's Theorem
Link NOC:Discrete Mathematics Lecture 326 - Dirac's theorem - A note
Link NOC:Discrete Mathematics Lecture 327 - Ore's Theorem
Link NOC:Discrete Mathematics Lecture 328 - Dirac's Theorem v/s Ore's Theorem
Link NOC:Discrete Mathematics Lecture 329 - Eulerian and Hamiltonian Are they related
Link NOC:Discrete Mathematics Lecture 330 - Importance of Hamiltonian graphs in Computer science
Link NOC:Discrete Mathematics Lecture 331 - Constructing non intersecting roads
Link NOC:Discrete Mathematics Lecture 332 - Definition of a Planar graph
Link NOC:Discrete Mathematics Lecture 333 - Examples of Planar graphs
Link NOC:Discrete Mathematics Lecture 334 - V - E + R = 2
Link NOC:Discrete Mathematics Lecture 335 - Illustration of V - E + R =2
Link NOC:Discrete Mathematics Lecture 336 - V - E + R = 2; Use induction
Link NOC:Discrete Mathematics Lecture 337 - Proof of V - E + R = 2
Link NOC:Discrete Mathematics Lecture 338 - Famous non-planar graphs
Link NOC:Discrete Mathematics Lecture 339 - Litmus test for planarity
Link NOC:Discrete Mathematics Lecture 340 - Planar graphs - Inequality 1
Link NOC:Discrete Mathematics Lecture 341 - 3 Utilities problem - Revisited
Link NOC:Discrete Mathematics Lecture 342 - Complete graph on 5 vertices is non-planar - Proof
Link NOC:Discrete Mathematics Lecture 343 - Prisoners and cells
Link NOC:Discrete Mathematics Lecture 344 - Prisoners example and Proper coloring
Link NOC:Discrete Mathematics Lecture 345 - Chromatic number of a graph
Link NOC:Discrete Mathematics Lecture 346 - Examples on Proper coloring
Link NOC:Discrete Mathematics Lecture 347 - Recalling the India map problem
Link NOC:Discrete Mathematics Lecture 348 - Recalling the India map problem - Solution
Link NOC:Discrete Mathematics Lecture 349 - NetworkX - Digraphs
Link NOC:Discrete Mathematics Lecture 350 - NetworkX - Adjacency matrix
Link NOC:Discrete Mathematics Lecture 351 - NetworkX - Random graphs
Link NOC:Discrete Mathematics Lecture 352 - NetworkX - Subgarph
Link NOC:Discrete Mathematics Lecture 353 - NetworkX - Isomorphic graphs Part 1
Link NOC:Discrete Mathematics Lecture 354 - NetworkX - Isomorphic graphs Part 2
Link NOC:Discrete Mathematics Lecture 355 - NetworkX - Isomorphic graphs: A game to play
Link NOC:Discrete Mathematics Lecture 356 - NetworkX - Graph complement
Link NOC:Discrete Mathematics Lecture 357 - NetworkX - Eulerian graphs
Link NOC:Discrete Mathematics Lecture 358 - NetworkX - Bipaprtite graphs
Link NOC:Discrete Mathematics Lecture 359 - NetworkX - Coloring
Link NOC:Discrete Mathematics Lecture 360 - Counting in a creative way
Link NOC:Discrete Mathematics Lecture 361 - Example 1 - Fun with words
Link NOC:Discrete Mathematics Lecture 362 - Words and the polynomial
Link NOC:Discrete Mathematics Lecture 363 - Words and the polynomial - Explained
Link NOC:Discrete Mathematics Lecture 364 - Example 2 - Picking five balls
Link NOC:Discrete Mathematics Lecture 365 - Picking five balls - Solution
Link NOC:Discrete Mathematics Lecture 366 - Picking five balls - Another version
Link NOC:Discrete Mathematics Lecture 367 - Defintion of Generating function
Link NOC:Discrete Mathematics Lecture 368 - Generating function examples - Part 1
Link NOC:Discrete Mathematics Lecture 369 - Generating function examples - Part 2
Link NOC:Discrete Mathematics Lecture 370 - Generating function examples - Part 3
Link NOC:Discrete Mathematics Lecture 371 - Binomial expansion - A generating function
Link NOC:Discrete Mathematics Lecture 372 - Binomial expansion - Explained
Link NOC:Discrete Mathematics Lecture 373 - Picking 7 balls - The naive way
Link NOC:Discrete Mathematics Lecture 374 - Picking 7 balls - The creative way
Link NOC:Discrete Mathematics Lecture 375 - Generating functions - Problem 1
Link NOC:Discrete Mathematics Lecture 376 - Generating functions - Problem 2
Link NOC:Discrete Mathematics Lecture 377 - Generating functions - Problem 3
Link NOC:Discrete Mathematics Lecture 378 - Why Generating function?
Link NOC:Discrete Mathematics Lecture 379 - Introduction to Advanced Counting
Link NOC:Discrete Mathematics Lecture 380 - Example 1 : Dogs and Cats
Link NOC:Discrete Mathematics Lecture 381 - Inclusion-Exclusion Formula
Link NOC:Discrete Mathematics Lecture 382 - Proof of Inclusion - Exlusion formula
Link NOC:Discrete Mathematics Lecture 383 - Example 2 : Integer solutions of an equation
Link NOC:Discrete Mathematics Lecture 384 - Example 3 : Words not containing some strings
Link NOC:Discrete Mathematics Lecture 385 - Example 4 : Arranging 3 x's, 3 y's and 3 z's
Link NOC:Discrete Mathematics Lecture 386 - Example 5 : Non-multiples of 2 or 3
Link NOC:Discrete Mathematics Lecture 387 - Example 6 : Integers not divisible by 5, 7 or 11
Link NOC:Discrete Mathematics Lecture 388 - A tip in solving problems
Link NOC:Discrete Mathematics Lecture 389 - Example 7 : A dog nor a cat
Link NOC:Discrete Mathematics Lecture 390 - Example 8 : Brownies, Muffins and Cookies
Link NOC:Discrete Mathematics Lecture 391 - Example 10 : Integer solutions of an equation
Link NOC:Discrete Mathematics Lecture 392 - Example 11 : Seating Arrangement - Part 1
Link NOC:Discrete Mathematics Lecture 393 - Example 11 : Seating Arrangement - Part 2
Link NOC:Discrete Mathematics Lecture 394 - Example 12 : Integer solutions of an equation
Link NOC:Discrete Mathematics Lecture 395 - Number of Onto Functions.
Link NOC:Discrete Mathematics Lecture 396 - Formula for Number of Onto Functions
Link NOC:Discrete Mathematics Lecture 397 - Example 13 : Onto Functions
Link NOC:Discrete Mathematics Lecture 398 - Example 14 : No one in their own house
Link NOC:Discrete Mathematics Lecture 399 - Derangements
Link NOC:Discrete Mathematics Lecture 400 - Derangements of 4 numbers
Link NOC:Discrete Mathematics Lecture 401 - Example 15 : Bottles and caps
Link NOC:Discrete Mathematics Lecture 402 - Example 16 : Self grading
Link NOC:Discrete Mathematics Lecture 403 - Example 17 : Even integers and their places
Link NOC:Discrete Mathematics Lecture 404 - Example 18 : Finding total number of items
Link NOC:Discrete Mathematics Lecture 405 - Example 19 : Devising a secret code
Link NOC:Discrete Mathematics Lecture 406 - Placing rooks on the chessboard
Link NOC:Discrete Mathematics Lecture 407 - Rook Polynomial
Link NOC:Discrete Mathematics Lecture 408 - Rook Polynomial
Link NOC:Discrete Mathematics Lecture 409 - Motivation for recurrence relation
Link NOC:Discrete Mathematics Lecture 410 - Getting started with recurrence relations
Link NOC:Discrete Mathematics Lecture 411 - What is a recurrence relation?
Link NOC:Discrete Mathematics Lecture 412 - Compound Interest as a recurrence relation
Link NOC:Discrete Mathematics Lecture 413 - Examples of recurrence relations
Link NOC:Discrete Mathematics Lecture 414 - Example - Number of ways of climbing steps
Link NOC:Discrete Mathematics Lecture 415 - Number of ways of climbing steps: Recurrence relation
Link NOC:Discrete Mathematics Lecture 416 - Example - Rabbits on an island
Link NOC:Discrete Mathematics Lecture 417 - Example - n-bit string
Link NOC:Discrete Mathematics Lecture 418 - Example - n-bit string without consecutive zero
Link NOC:Discrete Mathematics Lecture 419 - Solving Linear Recurrence Relations - A theorem
Link NOC:Discrete Mathematics Lecture 420 - A note on the proof
Link NOC:Discrete Mathematics Lecture 421 - Soving recurrence relation - Example 1
Link NOC:Discrete Mathematics Lecture 422 - Soving recurrence relation - Example 2
Link NOC:Discrete Mathematics Lecture 423 - Fibonacci Sequence
Link NOC:Discrete Mathematics Lecture 424 - Introduction to Fibonacci sequence
Link NOC:Discrete Mathematics Lecture 425 - Solution of Fibbonacci sequence
Link NOC:Discrete Mathematics Lecture 426 - A basic introduction to 'complexity'
Link NOC:Discrete Mathematics Lecture 427 - Intuition for 'complexity'
Link NOC:Discrete Mathematics Lecture 428 - Visualizing complexity order as a graph
Link NOC:Discrete Mathematics Lecture 429 - Tower of Hanoi
Link NOC:Discrete Mathematics Lecture 430 - Reccurence relation of Tower of Hanoi
Link NOC:Discrete Mathematics Lecture 431 - Solution for the recurrence relation of Tower of Hanoi
Link NOC:Discrete Mathematics Lecture 432 - A searching technique
Link NOC:Discrete Mathematics Lecture 433 - Recurrence relation for Binary search
Link NOC:Discrete Mathematics Lecture 434 - Solution for the recurrence relation of Binary search
Link NOC:Discrete Mathematics Lecture 435 - Example: Door knocks example
Link NOC:Discrete Mathematics Lecture 436 - Example: Door knocks example solution
Link NOC:Discrete Mathematics Lecture 437 - Door knock example and Merge sort
Link NOC:Discrete Mathematics Lecture 438 - Introduction to Merge sort - 1
Link NOC:Discrete Mathematics Lecture 439 - Introduction to Merge sort - 2
Link NOC:Discrete Mathematics Lecture 440 - Intoduction to advanced topics
Link NOC:Discrete Mathematics Lecture 441 - Introduction to Chromatic polynomial
Link NOC:Discrete Mathematics Lecture 442 - Chromatic polynomial of complete graphs
Link NOC:Discrete Mathematics Lecture 443 - Chromatic polynomial of cycle on 4 vertices - Part 1
Link NOC:Discrete Mathematics Lecture 444 - Chromatic polynomial of cycle on 4 vertices - Part 2
Link NOC:Discrete Mathematics Lecture 445 - Correspondence between partition and generating functions
Link NOC:Discrete Mathematics Lecture 446 - Correspondence between partition and generating functions: In general
Link NOC:Discrete Mathematics Lecture 447 - Distinct partitions and odd partitions
Link NOC:Discrete Mathematics Lecture 448 - Distinct partitions and generating functions
Link NOC:Discrete Mathematics Lecture 449 - Odd partitions and generating functions
Link NOC:Discrete Mathematics Lecture 450 - Distinct partitions equals odd partitions: Observation
Link NOC:Discrete Mathematics Lecture 451 - Distinct partitions equals odd partitions: Proof
Link NOC:Discrete Mathematics Lecture 452 - Why 'partitions' to 'polynomial'?
Link NOC:Discrete Mathematics Lecture 453 - Example: Picking 4 letters from the word 'INDIAN'
Link NOC:Discrete Mathematics Lecture 454 - Motivation for exponential generating function
Link NOC:Discrete Mathematics Lecture 455 - Recurrrence relation: The theorem and its proof
Link NOC:Discrete Mathematics Lecture 456 - Introduction to Group Theory
Link NOC:Discrete Mathematics Lecture 457 - Uniqueness of the identity element
Link NOC:Discrete Mathematics Lecture 458 - Formal definition of a Group
Link NOC:Discrete Mathematics Lecture 459 - Groups: Examples and non-examples
Link NOC:Discrete Mathematics Lecture 460 - Groups: Special Examples - Part 1
Link NOC:Discrete Mathematics Lecture 461 - Groups: Special Examples - Part 2
Link NOC:Discrete Mathematics Lecture 462 - Subgroup: Defintion and examples
Link NOC:Discrete Mathematics Lecture 463 - Lagrange's theorem
Link NOC:Discrete Mathematics Lecture 464 - Summary
Link NOC:Discrete Mathematics Lecture 465 - Conclusion
Link NOC:Deep Learning Lecture 1 - Biological Neuron
Link NOC:Deep Learning Lecture 2 - From Spring to Winter of AI
Link NOC:Deep Learning Lecture 3 - The Deep Revival
Link NOC:Deep Learning Lecture 4 - From Cats to Convolutional Neural Networks
Link NOC:Deep Learning Lecture 5 - Faster, higher, stronger
Link NOC:Deep Learning Lecture 6 - The Curious Case of Sequences
Link NOC:Deep Learning Lecture 7 - Beating humans at their own games (literally)
Link NOC:Deep Learning Lecture 8 - The Madness (2013)
Link NOC:Deep Learning Lecture 9 - (Need for) Sanity
Link NOC:Deep Learning Lecture 10 - Motivation from Biological Neurons
Link NOC:Deep Learning Lecture 11 - McCulloch Pitts Neuron, Thresholding Logic
Link NOC:Deep Learning Lecture 12 - Perceptrons
Link NOC:Deep Learning Lecture 13 - Error and Error Surfaces
Link NOC:Deep Learning Lecture 14 - Perceptron Learning Algorithm
Link NOC:Deep Learning Lecture 15 - Proof of Convergence of Perceptron Learning Algorithm
Link NOC:Deep Learning Lecture 16 - Deep Learning (CS7015): Linearly Separable Boolean Functions
Link NOC:Deep Learning Lecture 17 - Deep Learning (CS7015): Representation Power of a Network of Perceptrons
Link NOC:Deep Learning Lecture 18 - Deep Learning (CS7015): Sigmoid Neuron
Link NOC:Deep Learning Lecture 19 - Deep Learning (CS7015): A typical Supervised Machine Learning Setup
Link NOC:Deep Learning Lecture 20 - Deep Learning (CS7015): Learning Parameters: (Infeasible) guess work
Link NOC:Deep Learning Lecture 21 - Deep Learning (CS7015): Learning Parameters: Gradient Descent
Link NOC:Deep Learning Lecture 22 - Deep Learning (CS7015): Representation Power of Multilayer Network of Sigmoid Neurons
Link NOC:Deep Learning Lecture 23 - Feedforward Neural Networks (a.k.a multilayered network of neurons)
Link NOC:Deep Learning Lecture 24 - Learning Paramters of Feedforward Neural Networks (Intuition)
Link NOC:Deep Learning Lecture 25 - Output functions and Loss functions
Link NOC:Deep Learning Lecture 26 - Backpropagation (Intuition)
Link NOC:Deep Learning Lecture 27 - Backpropagation: Computing Gradients w.r.t. the Output Units
Link NOC:Deep Learning Lecture 28 - Backpropagation: Computing Gradients w.r.t. Hidden Units
Link NOC:Deep Learning Lecture 29 - Backpropagation: Computing Gradients w.r.t. Parameters
Link NOC:Deep Learning Lecture 30 - Backpropagation: Pseudo code
Link NOC:Deep Learning Lecture 31 - Derivative of the activation function
Link NOC:Deep Learning Lecture 32 - Information content, Entropy and cross entropy
Link NOC:Deep Learning Lecture 33 - Recap: Learning Parameters: Guess Work, Gradient Descent
Link NOC:Deep Learning Lecture 34 - Contours Maps
Link NOC:Deep Learning Lecture 35 - Momentum based Gradient Descent
Link NOC:Deep Learning Lecture 36 - Nesterov Accelerated Gradient Descent
Link NOC:Deep Learning Lecture 37 - Stochastic And Mini-Batch Gradient Descent
Link NOC:Deep Learning Lecture 38 - Tips for Adjusting Learning Rate and Momentum
Link NOC:Deep Learning Lecture 39 - Line Search
Link NOC:Deep Learning Lecture 40 - Gradient Descent with Adaptive Learning Rate
Link NOC:Deep Learning Lecture 41 - Bias Correction in Adam
Link NOC:Deep Learning Lecture 42 - Eigenvalues and Eigenvectors
Link NOC:Deep Learning Lecture 43 - Linear Algebra : Basic Definitions
Link NOC:Deep Learning Lecture 44 - Eigenvalue Decompositon
Link NOC:Deep Learning Lecture 45 - Principal Component Analysis and its Interpretations
Link NOC:Deep Learning Lecture 46 - PCA: Interpretation 2
Link NOC:Deep Learning Lecture 47 - PCA: Interpretation 3
Link NOC:Deep Learning Lecture 48 - PCA: Interpretation 3 (Continued...)
Link NOC:Deep Learning Lecture 49 - PCA: Practical Example
Link NOC:Deep Learning Lecture 50 - Singular Value Decomposition
Link NOC:Deep Learning Lecture 51 - Introduction to Autoncoders
Link NOC:Deep Learning Lecture 52 - Link between PCA and Autoencoders
Link NOC:Deep Learning Lecture 53 - Regularization in autoencoders (Motivation)
Link NOC:Deep Learning Lecture 54 - Denoising Autoencoders
Link NOC:Deep Learning Lecture 55 - Sparse Autoencoders
Link NOC:Deep Learning Lecture 56 - Contractive Autoencoders
Link NOC:Deep Learning Lecture 57 - Bias and Variance
Link NOC:Deep Learning Lecture 58 - Train error vs Test error
Link NOC:Deep Learning Lecture 59 - Train error vs Test error (Recap)
Link NOC:Deep Learning Lecture 60 - True error and Model complexity
Link NOC:Deep Learning Lecture 61 - L2 regularization
Link NOC:Deep Learning Lecture 62 - Dataset augmentation
Link NOC:Deep Learning Lecture 63 - Parameter sharing and tying
Link NOC:Deep Learning Lecture 64 - Adding Noise to the inputs
Link NOC:Deep Learning Lecture 65 - Adding Noise to the outputs
Link NOC:Deep Learning Lecture 66 - Early stopping
Link NOC:Deep Learning Lecture 67 - Ensemble Methods
Link NOC:Deep Learning Lecture 68 - Dropout
Link NOC:Deep Learning Lecture 69 - A quick recap of training deep neural networks
Link NOC:Deep Learning Lecture 70 - Unsupervised pre-training
Link NOC:Deep Learning Lecture 71 - Better activation functions
Link NOC:Deep Learning Lecture 72 - Better initialization strategies
Link NOC:Deep Learning Lecture 73 - Batch Normalization
Link NOC:Deep Learning Lecture 74 - One-hot representations of words
Link NOC:Deep Learning Lecture 75 - Distributed Representations of words
Link NOC:Deep Learning Lecture 76 - SVD for learning word representations
Link NOC:Deep Learning Lecture 77 - SVD for learning word representations (Continued...)
Link NOC:Deep Learning Lecture 78 - Continuous bag of words model
Link NOC:Deep Learning Lecture 79 - Skip-gram model
Link NOC:Deep Learning Lecture 80 - Skip-gram model (Continued...)
Link NOC:Deep Learning Lecture 81 - Contrastive estimation
Link NOC:Deep Learning Lecture 82 - Hierarchical softmax
Link NOC:Deep Learning Lecture 83 - GloVe representations
Link NOC:Deep Learning Lecture 84 - Evaluating word representations
Link NOC:Deep Learning Lecture 85 - Relation between SVD and Word2Vec
Link NOC:Deep Learning Lecture 86 - The convolution operation
Link NOC:Deep Learning Lecture 87 - Relation between input size, output size and filter size
Link NOC:Deep Learning Lecture 88 - Convolutional Neural Networks
Link NOC:Deep Learning Lecture 89 - Convolutional Neural Networks (Continued...)
Link NOC:Deep Learning Lecture 90 - CNNs (success stories on ImageNet)
Link NOC:Deep Learning Lecture 91 - CNNs (success stories on ImageNet) (Continued...)
Link NOC:Deep Learning Lecture 92 - Image Classification continued (GoogLeNet and ResNet)
Link NOC:Deep Learning Lecture 93 - Visualizing patches which maximally activate a neuron
Link NOC:Deep Learning Lecture 94 - Visualizing filters of a CNN
Link NOC:Deep Learning Lecture 95 - Occlusion experiments
Link NOC:Deep Learning Lecture 96 - Finding influence of input pixels using backpropagation
Link NOC:Deep Learning Lecture 97 - Guided Backpropagation
Link NOC:Deep Learning Lecture 98 - Optimization over images
Link NOC:Deep Learning Lecture 99 - Create images from embeddings
Link NOC:Deep Learning Lecture 100 - Deep Dream
Link NOC:Deep Learning Lecture 101 - Deep Art
Link NOC:Deep Learning Lecture 102 - Fooling Deep Convolutional Neural Networks
Link NOC:Deep Learning Lecture 103 - Sequence Learning Problems
Link NOC:Deep Learning Lecture 104 - Recurrent Neural Networks
Link NOC:Deep Learning Lecture 105 - Backpropagation through time
Link NOC:Deep Learning Lecture 106 - The problem of Exploding and Vanishing Gradients
Link NOC:Deep Learning Lecture 107 - Some Gory Details
Link NOC:Deep Learning Lecture 108 - Selective Read, Selective Write, Selective Forget - The Whiteboard Analogy
Link NOC:Deep Learning Lecture 109 - Long Short Term Memory (LSTM) and Gated Recurrent Units (GRUs)
Link NOC:Deep Learning Lecture 110 - How LSTMs avoid the problem of vanishing gradients
Link NOC:Deep Learning Lecture 111 - How LSTMs avoid the problem of vanishing gradients (Continued...)
Link NOC:Deep Learning Lecture 112 - Introduction to Encoder Decoder Models
Link NOC:Deep Learning Lecture 113 - Applications of Encoder Decoder models
Link NOC:Deep Learning Lecture 114 - Attention Mechanism
Link NOC:Deep Learning Lecture 115 - Attention Mechanism (Continued...)
Link NOC:Deep Learning Lecture 116 - Attention over images
Link NOC:Deep Learning Lecture 117 - Hierarchical Attention
Link NOC:Foundations to Computer Systems Design Lecture 1 - Introduction to the Course
Link NOC:Foundations to Computer Systems Design Lecture 2 - CMOS Transistors and Gates
Link NOC:Foundations to Computer Systems Design Lecture 3 - Basic Gates
Link NOC:Foundations to Computer Systems Design Lecture 4 - Building Gates Using Simulator
Link NOC:Foundations to Computer Systems Design Lecture 5 - Hierarchical Design and Verification
Link NOC:Foundations to Computer Systems Design Lecture 6 - Building Blocks of a Digital Computer
Link NOC:Foundations to Computer Systems Design Lecture 7 - Binary Number Systems
Link NOC:Foundations to Computer Systems Design Lecture 8 - Signed Number Systems
Link NOC:Foundations to Computer Systems Design Lecture 9 - Twos Complement Number System
Link NOC:Foundations to Computer Systems Design Lecture 10 - Binary Adder Circuits
Link NOC:Foundations to Computer Systems Design Lecture 11 - Building the ALU of HACK
Link NOC:Foundations to Computer Systems Design Lecture 12 - HACK ALU Functionality
Link NOC:Foundations to Computer Systems Design Lecture 13 - Tips for Project P1
Link NOC:Foundations to Computer Systems Design Lecture 14 - Sequential Logic Design
Link NOC:Foundations to Computer Systems Design Lecture 15 - Latches and Flipflops
Link NOC:Foundations to Computer Systems Design Lecture 16 - The Memory Hierarchy
Link NOC:Foundations to Computer Systems Design Lecture 17 - Design of Program Counter
Link NOC:Foundations to Computer Systems Design Lecture 18 - Introduction to Computer Organization: The HACK Instruction Set Architecture (ISA)
Link NOC:Foundations to Computer Systems Design Lecture 19 - Memory Mapped I/O
Link NOC:Foundations to Computer Systems Design Lecture 20 - Tips for Projects P2 and P3
Link NOC:Foundations to Computer Systems Design Lecture 21 - Tips for Project 4
Link NOC:Foundations to Computer Systems Design Lecture 22 - Tips for Project 4
Link NOC:Foundations to Computer Systems Design Lecture 23 - Introduction to Computer Architecture
Link NOC:Foundations to Computer Systems Design Lecture 24 - The HACK Microarchitecture
Link NOC:Foundations to Computer Systems Design Lecture 25 - The HACK CPU - A Deep Dive - Part 1
Link NOC:Foundations to Computer Systems Design Lecture 26 - The HACK CPU - A Deep Dive - Part 2
Link NOC:Foundations to Computer Systems Design Lecture 27 - The Data Memory
Link NOC:Foundations to Computer Systems Design Lecture 28 - The HACK Computer
Link NOC:Foundations to Computer Systems Design Lecture 29 - The Assembler Construction
Link NOC:Foundations to Computer Systems Design Lecture 30 - Understanding the Working of Assembler
Link NOC:Foundations to Computer Systems Design Lecture 31 - Assembler : Symbol Table Construction
Link NOC:Foundations to Computer Systems Design Lecture 32 - Assembler : Pass 1
Link NOC:Foundations to Computer Systems Design Lecture 33 - Assembler : Pass 2
Link NOC:Foundations to Computer Systems Design Lecture 34 - Project 6 : Demonstration
Link NOC:Foundations to Computer Systems Design Lecture 35 - Virtual Machines - What and Why?
Link NOC:Foundations to Computer Systems Design Lecture 36 - The VM Instruction Set Architecture
Link NOC:Foundations to Computer Systems Design Lecture 37 - The execution of a VM Program
Link NOC:Foundations to Computer Systems Design Lecture 38 - How powerful is the VM?
Link NOC:Foundations to Computer Systems Design Lecture 39 - Project 7 : VM ISA to HACK Mnemonic Translation
Link NOC:Foundations to Computer Systems Design Lecture 40 - Project 7 : Demo
Link NOC:Foundations to Computer Systems Design Lecture 41 - Deep Understanding of VM ISA using VM Emulator
Link NOC:Foundations to Computer Systems Design Lecture 42 - Virtual Machine II - Program flow commands and Introduction to Function Calls
Link NOC:Foundations to Computer Systems Design Lecture 43 - Implementation of Function Call
Link NOC:Foundations to Computer Systems Design Lecture 44 - Working of the Virtual Machine
Link NOC:Foundations to Computer Systems Design Lecture 45 - Project 8 : Translation of Program Flow and Function Call to HACK Mnemonic
Link NOC:Foundations to Computer Systems Design Lecture 46 - Handling Static Variables
Link NOC:Foundations to Computer Systems Design Lecture 47 - Project 8 : Implementation tips in a Nut Shell
Link NOC:Foundations to Computer Systems Design Lecture 48 - Introduction to The JACK Programming Language
Link NOC:Foundations to Computer Systems Design Lecture 49 - Project 9 : Basic Steps
Link NOC:Foundations to Computer Systems Design Lecture 50 - Understanding Syntax of JACK using Examples
Link NOC:Foundations to Computer Systems Design Lecture 51 - Project 9 : More Examples
Link NOC:Foundations to Computer Systems Design Lecture 52 - The JACK Syntax - Language Specification
Link NOC:Foundations to Computer Systems Design Lecture 53 - Application Development using JACK
Link NOC:Foundations to Computer Systems Design Lecture 54 - JACK Compiler: Lexical Analysis - Tokenization
Link NOC:Foundations to Computer Systems Design Lecture 55 - Project 10 : Compiler for JACK - Part-1 Demo
Link NOC:Foundations to Computer Systems Design Lecture 56 - The JACK Grammar
Link NOC:Foundations to Computer Systems Design Lecture 57 - Compiler for JACK: Parsing the JACK Program
Link NOC:Foundations to Computer Systems Design Lecture 58 - The Token Analyzer
Link NOC:Foundations to Computer Systems Design Lecture 59 - Testing the Correctness
Link NOC:Foundations to Computer Systems Design Lecture 60 - The Jack Compiler - Back-end Introduction
Link NOC:Foundations to Computer Systems Design Lecture 61 - The Jack Compiler - Handling Variables
Link NOC:Foundations to Computer Systems Design Lecture 62 - The Jack Compiler - Handling Expressions
Link NOC:Foundations to Computer Systems Design Lecture 63 - The Jack Compiler - Handling Flow of Control
Link NOC:Foundations to Computer Systems Design Lecture 64 - The Jack Compiler - Handling Objects
Link NOC:Foundations to Computer Systems Design Lecture 65 - The Jack Compiler - Handling Arrays
Link NOC:Foundations to Computer Systems Design Lecture 66 - The Jack Compiler Backend: An XML guided approach
Link NOC:Foundations to Computer Systems Design Lecture 67 - The Jack Compiler Backend: Populating the Class and Subroutine Symbol tables.
Link NOC:Foundations to Computer Systems Design Lecture 68 - The Jack Compiler Backend: Code Generation - 1
Link NOC:Foundations to Computer Systems Design Lecture 69 - The Jack Compiler Backend: Code Generation - 2
Link NOC:Foundations to Computer Systems Design Lecture 70 - The Jack Compiler Backend: Code Generation - 3
Link NOC:Foundations to Computer Systems Design Lecture 71 - The Jack Compiler Backend: Code Generation - 4
Link NOC:Foundations to Computer Systems Design Lecture 72 - Jack Compiler: Code Generation - 5
Link NOC:Foundations to Computer Systems Design Lecture 73 - Jack Compiler: Code Generation - 6
Link NOC:Foundations to Computer Systems Design Lecture 74 - Jack Compiler: Code Generation - 7
Link NOC:Foundations to Computer Systems Design Lecture 75 - Understand the Operating System - Compiler Interactions
Link NOC:Foundations to Computer Systems Design Lecture 76 - Project 12 - One sample journey from Jack to Hack
Link NOC:Foundations to Computer Systems Design Lecture 77 - Concluding Remarks
Link NOC:Machine Learning for Engineering and Science Applications Lecture 1 - Introduction to the Course History of Artificial Intelligence
Link NOC:Machine Learning for Engineering and Science Applications Lecture 2 - Overview of Machine Learning
Link NOC:Machine Learning for Engineering and Science Applications Lecture 3 - Why Linear Algebra ? Scalars, Vectors, Tensors
Link NOC:Machine Learning for Engineering and Science Applications Lecture 4 - Basic Operations
Link NOC:Machine Learning for Engineering and Science Applications Lecture 5 - Norms
Link NOC:Machine Learning for Engineering and Science Applications Lecture 6 - Linear Combinations Span Linear Independence
Link NOC:Machine Learning for Engineering and Science Applications Lecture 7 - Matrix Operations Special Matrices Matrix Decompositions
Link NOC:Machine Learning for Engineering and Science Applications Lecture 8 - Introduction to Probability Theory Discrete and Continuous Random Variables
Link NOC:Machine Learning for Engineering and Science Applications Lecture 9 - Conditional, Joint, Marginal Probabilities Sum Rule and Product Rule Bayes' Theorem
Link NOC:Machine Learning for Engineering and Science Applications Lecture 10 - Bayes' Theorem - Simple Examples
Link NOC:Machine Learning for Engineering and Science Applications Lecture 11 - Independence Conditional Independence Chain Rule Of Probability
Link NOC:Machine Learning for Engineering and Science Applications Lecture 12 - Expectation
Link NOC:Machine Learning for Engineering and Science Applications Lecture 13 - Variance Covariance
Link NOC:Machine Learning for Engineering and Science Applications Lecture 14 - Some Relations for Expectation and Covariance (Slightly Advanced)
Link NOC:Machine Learning for Engineering and Science Applications Lecture 15 - Machine Representation of Numbers, Overflow, Underflow, Condition Number
Link NOC:Machine Learning for Engineering and Science Applications Lecture 16 - Derivatives,Gradient,Hessian,Jacobian,Taylor Series
Link NOC:Machine Learning for Engineering and Science Applications Lecture 17 - Matrix Calculus (Slightly Advanced)
Link NOC:Machine Learning for Engineering and Science Applications Lecture 18 - Optimization 1 Unconstrained Optimization
Link NOC:Machine Learning for Engineering and Science Applications Lecture 19 - Introduction to Constrained Optimization
Link NOC:Machine Learning for Engineering and Science Applications Lecture 20 - Introduction to Numerical Optimization Gradient Descent - 1
Link NOC:Machine Learning for Engineering and Science Applications Lecture 21 - Gradient Descent 2 Proof of Steepest Descent Numerical Gradient Calculation Stopping Criteria
Link NOC:Machine Learning for Engineering and Science Applications Lecture 22 - Introduction to Packages
Link NOC:Machine Learning for Engineering and Science Applications Lecture 23 - The Learning Paradigm
Link NOC:Machine Learning for Engineering and Science Applications Lecture 24 - A Linear Regression Example
Link NOC:Machine Learning for Engineering and Science Applications Lecture 25 - Linear Regression Least Squares Gradient Descent
Link NOC:Machine Learning for Engineering and Science Applications Lecture 26 - Coding Linear Regression
Link NOC:Machine Learning for Engineering and Science Applications Lecture 27 - Generalized Function for Linear Regression
Link NOC:Machine Learning for Engineering and Science Applications Lecture 28 - Goodness of Fit
Link NOC:Machine Learning for Engineering and Science Applications Lecture 29 - Bias-Variance Trade Off
Link NOC:Machine Learning for Engineering and Science Applications Lecture 30 - Gradient Descent Algorithms
Link NOC:Machine Learning for Engineering and Science Applications Lecture 31 - Introduction to Week 5 (Deep Learning)
Link NOC:Machine Learning for Engineering and Science Applications Lecture 32 - Logistic Regression
Link NOC:Machine Learning for Engineering and Science Applications Lecture 33 - Binary Entropy cost function
Link NOC:Machine Learning for Engineering and Science Applications Lecture 34 - OR Gate Via Classification
Link NOC:Machine Learning for Engineering and Science Applications Lecture 35 - NOR, AND, NAND Gates
Link NOC:Machine Learning for Engineering and Science Applications Lecture 36 - XOR Gate
Link NOC:Machine Learning for Engineering and Science Applications Lecture 37 - Differentiating the sigmoid
Link NOC:Machine Learning for Engineering and Science Applications Lecture 38 - Gradient of logistic regression
Link NOC:Machine Learning for Engineering and Science Applications Lecture 39 - Code for Logistic Regression
Link NOC:Machine Learning for Engineering and Science Applications Lecture 40 - Multinomial Classification - Introduction
Link NOC:Machine Learning for Engineering and Science Applications Lecture 41 - Multinomial Classification - One Hot Vector
Link NOC:Machine Learning for Engineering and Science Applications Lecture 42 - Multinomial Classification - Softmax
Link NOC:Machine Learning for Engineering and Science Applications Lecture 43 - Schematic of multinomial logistic regression
Link NOC:Machine Learning for Engineering and Science Applications Lecture 44 - Biological neuron
Link NOC:Machine Learning for Engineering and Science Applications Lecture 45 - Structure of an Artificial Neuron
Link NOC:Machine Learning for Engineering and Science Applications Lecture 46 - Feedforward Neural Network
Link NOC:Machine Learning for Engineering and Science Applications Lecture 47 - Introduction to back prop
Link NOC:Machine Learning for Engineering and Science Applications Lecture 48 - Summary of Week 05
Link NOC:Machine Learning for Engineering and Science Applications Lecture 49 - Introduction to Convolution Neural Networks (CNN)
Link NOC:Machine Learning for Engineering and Science Applications Lecture 50 - Types of convolution
Link NOC:Machine Learning for Engineering and Science Applications Lecture 51 - CNN Architecture Part 1 (LeNet and Alex Net)
Link NOC:Machine Learning for Engineering and Science Applications Lecture 52 - CNN Architecture Part 2 (VGG Net)
Link NOC:Machine Learning for Engineering and Science Applications Lecture 53 - CNN Architecture Part 3 (GoogleNet)
Link NOC:Machine Learning for Engineering and Science Applications Lecture 54 - CNN Architecture Part 4 (ResNet)
Link NOC:Machine Learning for Engineering and Science Applications Lecture 55 - CNN Architecture Part 5 (DenseNet)
Link NOC:Machine Learning for Engineering and Science Applications Lecture 56 - Train Network for Image Classification
Link NOC:Machine Learning for Engineering and Science Applications Lecture 57 - Semantic Segmentation
Link NOC:Machine Learning for Engineering and Science Applications Lecture 58 - Hyperparameter optimization
Link NOC:Machine Learning for Engineering and Science Applications Lecture 59 - Transfer Learning
Link NOC:Machine Learning for Engineering and Science Applications Lecture 60 - Segmentation of Brain Tumors from MRI using Deep Learning
Link NOC:Machine Learning for Engineering and Science Applications Lecture 61 - Activation Functions
Link NOC:Machine Learning for Engineering and Science Applications Lecture 62 - Learning Rate decay, Weight initialization
Link NOC:Machine Learning for Engineering and Science Applications Lecture 63 - Data Normalization
Link NOC:Machine Learning for Engineering and Science Applications Lecture 64 - Batch Norm
Link NOC:Machine Learning for Engineering and Science Applications Lecture 65 - Introduction to RNNs
Link NOC:Machine Learning for Engineering and Science Applications Lecture 66 - Example - Sequence Classification
Link NOC:Machine Learning for Engineering and Science Applications Lecture 67 - Training RNNs - Loss and BPTT
Link NOC:Machine Learning for Engineering and Science Applications Lecture 68 - Vanishing Gradients and TBPTT
Link NOC:Machine Learning for Engineering and Science Applications Lecture 69 - RNN Architectures
Link NOC:Machine Learning for Engineering and Science Applications Lecture 70 - LSTM
Link NOC:Machine Learning for Engineering and Science Applications Lecture 71 - Why LSTM Works
Link NOC:Machine Learning for Engineering and Science Applications Lecture 72 - Deep RNNs and Bi- RNNs
Link NOC:Machine Learning for Engineering and Science Applications Lecture 73 - Summary of RNNs
Link NOC:Machine Learning for Engineering and Science Applications Lecture 74 - Introduction.
Link NOC:Machine Learning for Engineering and Science Applications Lecture 75 - Knn
Link NOC:Machine Learning for Engineering and Science Applications Lecture 76 - Binary decision trees
Link NOC:Machine Learning for Engineering and Science Applications Lecture 77 - Binary regression trees
Link NOC:Machine Learning for Engineering and Science Applications Lecture 78 - Bagging
Link NOC:Machine Learning for Engineering and Science Applications Lecture 79 - Random Forest
Link NOC:Machine Learning for Engineering and Science Applications Lecture 80 - Boosting
Link NOC:Machine Learning for Engineering and Science Applications Lecture 81 - Gradient boosting
Link NOC:Machine Learning for Engineering and Science Applications Lecture 82 - Unsupervised learning and Kmeans
Link NOC:Machine Learning for Engineering and Science Applications Lecture 83 - Agglomerative clustering
Link NOC:Machine Learning for Engineering and Science Applications Lecture 84 - Probability Distributions- Gaussian, Bernoulli
Link NOC:Machine Learning for Engineering and Science Applications Lecture 85 - Covariance Matrix of Gaussian Distribution
Link NOC:Machine Learning for Engineering and Science Applications Lecture 86 - Central Limit Theorem
Link NOC:Machine Learning for Engineering and Science Applications Lecture 87 - Naïve Bayes
Link NOC:Machine Learning for Engineering and Science Applications Lecture 88 - MLE Intro
Link NOC:Machine Learning for Engineering and Science Applications Lecture 89 - PCA - Part 1
Link NOC:Machine Learning for Engineering and Science Applications Lecture 90 - PCA - Part 2
Link NOC:Machine Learning for Engineering and Science Applications Lecture 91 - Support Vector Machines
Link NOC:Machine Learning for Engineering and Science Applications Lecture 92 - MLE, MAP and Bayesian Regression
Link NOC:Machine Learning for Engineering and Science Applications Lecture 93 - Introduction to Generative model
Link NOC:Machine Learning for Engineering and Science Applications Lecture 94 - Generative Adversarial Networks (GAN)
Link NOC:Machine Learning for Engineering and Science Applications Lecture 95 - Variational Auto-encoders (VAE)
Link NOC:Machine Learning for Engineering and Science Applications Lecture 96 - Applications: Cardiac MRI - Segmentation and Diagnosis
Link NOC:Machine Learning for Engineering and Science Applications Lecture 97 - Applications: Cardiac MRI Analysis - Tensorflow code walkthrough
Link NOC:Machine Learning for Engineering and Science Applications Lecture 98 - Introduction to Week 12
Link NOC:Machine Learning for Engineering and Science Applications Lecture 99 - Application 1 description - Fin Heat Transfer
Link NOC:Machine Learning for Engineering and Science Applications Lecture 100 - Application 1 solution
Link NOC:Machine Learning for Engineering and Science Applications Lecture 101 - Application 2 description - Computational Fluid Dynamics
Link NOC:Machine Learning for Engineering and Science Applications Lecture 102 - Application 2 solution
Link NOC:Machine Learning for Engineering and Science Applications Lecture 103 - Application 3 description - Topology Optimization
Link NOC:Machine Learning for Engineering and Science Applications Lecture 104 - Application 3 solution
Link NOC:Machine Learning for Engineering and Science Applications Lecture 105 - Application 4 Solution of PDE/ODE using Neural Networks
Link NOC:Machine Learning for Engineering and Science Applications Lecture 106 - Summary and road ahead
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 1 - Secure Systems Engineering
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 2 - Program Binaries
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 3 - Buffer Overflows in the Stack
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 4 - Buffer Overflows
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 5 - Gdb - Demo
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 6 - Skip instruction - Demo
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 7 - Buffer Overflow - Demo
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 8 - Buffer Overflow (create a shell) - Demo
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 9 - Preventing buffer overflows with canaries and W^X
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 10 - Return-to-libc attack
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 11 - ROP Attacks
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 12 - Demonstration of Canaries, W^X, and ASLR to prevent Buffer Overflow Attacks
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 13 - Demonstration of a Return-to-Libc Attack
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 14 - Demonstration of a Return Oriented Programming (ROP) Attack
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 15 - ASLR - Part 1
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 16 - ASLR - Part 2
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 17 - Buffer overreads
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 18 - Demonstration of Load Time Relocation
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 19 - Demonstration of Position Independent Code
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 20 - PLT Demonstration
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 21 - Format string vulnerabilities
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 22 - Integer Vulnerabilities
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 23 - Heap
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 24 - Heap exploits
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 25 - Demo of Integer Vulnerabilites - I
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 26 - Demo of Integer Vulnerabilites - II
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 27 - Demo of Format String Vulnerabilities
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 28 - Access Control
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 29 - Access control in linux
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 30 - Mandatory access Control
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 31 - Confinement in Applications
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 32 - Software fault isolation
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 33 - Trusted Execution Environments
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 34 - ARM Trustzone
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 35 - SGX - Part 1
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 36 - SGX - Part 2
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 37 - PUF - Part 1
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 38 - PUF - Part 2
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 39 - PUF - Part 3
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 40 - Covert Channels
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 41 - Flush+Reload Attacks
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 42 - Prime+Probe
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 43 - Meltdown
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 44 - Spectre Variant - 1
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 45 - Spectre variant - 2
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 46 - rowhammer
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 47 - Heap demo - 1
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 48 - Heap demo - 2
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 49 - Heap demo - 3
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 50 - PowerAnalysisAttacks
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 51 - Hardware Trojans
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 52 - FANCI : Identification of Stealthy Malicious Logic
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 53 - Detecting Hardware Trojans in ICs
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 54 - Protecting against Hardware Trojans
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 55 - Side Channel Analysis
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 56 - Fault Attacks on AES
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 57 - Demo: Cache timing attack on T-table implementation of AES
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 58 - Demo: Cache-timing based Covert Channel - Part 1
Link NOC:Information Security 5 - Secure Systems Engineering Lecture 59 - Demo: Cache-timing based Covert Channel - Part 2
Link NOC:Multimodal Interaction Lecture 1 - Introduction
Link NOC:Multimodal Interaction Lecture 2 - Medium vs. Modality
Link NOC:Multimodal Interaction Lecture 3 - Multimedia and Multimodality
Link NOC:Multimodal Interaction Lecture 4 - Modality Relations
Link NOC:Multimodal Interaction Lecture 5 - Characteristics of Multimodal Systems
Link NOC:Multimodal Interaction Lecture 6 - Introduction
Link NOC:Multimodal Interaction Lecture 7 - Speech Production
Link NOC:Multimodal Interaction Lecture 8 - Hearing - Ear
Link NOC:Multimodal Interaction Lecture 9 - Hearing - Perception
Link NOC:Multimodal Interaction Lecture 10 - Introduction
Link NOC:Multimodal Interaction Lecture 11 - The Human Eye
Link NOC:Multimodal Interaction Lecture 12 - Gestlat Perception
Link NOC:Multimodal Interaction Lecture 13 - Resolution and Sensitivity
Link NOC:Multimodal Interaction Lecture 14 - Depth Perception
Link NOC:Multimodal Interaction Lecture 15 - Reading
Link NOC:Multimodal Interaction Lecture 16 - Introduction
Link NOC:Multimodal Interaction Lecture 17 - Haptics
Link NOC:Multimodal Interaction Lecture 18 - Smell
Link NOC:Multimodal Interaction Lecture 19 - Taste
Link NOC:Multimodal Interaction Lecture 20 - Memory
Link NOC:Multimodal Interaction Lecture 21 - Motorsystem
Link NOC:Multimodal Interaction Lecture 22 - Introduction
Link NOC:Multimodal Interaction Lecture 23 - Processing Multiple Signals
Link NOC:Multimodal Interaction Lecture 24 - Multimodal Dual-Tasks
Link NOC:Multimodal Interaction Lecture 25 - Effects of Discongurent Signals
Link NOC:Multimodal Interaction Lecture 26 - Relevance
Link NOC:Multimodal Interaction Lecture 27 - Introduction 1
Link NOC:Multimodal Interaction Lecture 28 - Introduction 2
Link NOC:Multimodal Interaction Lecture 29 - Gesture to Space
Link NOC:Multimodal Interaction Lecture 30 - Turn Taking
Link NOC:Multimodal Interaction Lecture 31 - Conclusion
Link NOC:Multimodal Interaction Lecture 32 - Introduction
Link NOC:Multimodal Interaction Lecture 33 - Overview
Link NOC:Multimodal Interaction Lecture 34 - Automatic Speech Recognition
Link NOC:Multimodal Interaction Lecture 35 - Emotion Recognition
Link NOC:Multimodal Interaction Lecture 36 - Text Recognition
Link NOC:Multimodal Interaction Lecture 37 - Introduction1
Link NOC:Multimodal Interaction Lecture 38 - Icons
Link NOC:Multimodal Interaction Lecture 39 - Text Generation
Link NOC:Multimodal Interaction Lecture 40 - Text to Speech
Link NOC:Multimodal Interaction Lecture 41 - Speech Generation
Link NOC:Multimodal Interaction Lecture 42 - Introduction .
Link NOC:Multimodal Interaction Lecture 43 - Multimodal Interactive Systems Development
Link NOC:Multimodal Interaction Lecture 44 - Introduction . .
Link NOC:Multimodal Interaction Lecture 45 - Virtual Reality
Link NOC:Multimodal Interaction Lecture 46 - Introduction to Audio for Virtual Reality
Link NOC:Multimodal Interaction Lecture 47 - Spatial Hearing
Link NOC:Multimodal Interaction Lecture 48 - Dummy Heads
Link NOC:Multimodal Interaction Lecture 49 - Individuality of HRTFs
Link NOC:Multimodal Interaction Lecture 50 - Sterophony
Link NOC:Multimodal Interaction Lecture 51 - Crosstalk Cancelation
Link NOC:Multimodal Interaction Lecture 52 - Ambisonics
Link NOC:Multimodal Interaction Lecture 53 - Sound Field Synthesis
Link NOC:Multimodal Interaction Lecture 54 - Challenges with Projection-based Systems
Link NOC:Multimodal Interaction Lecture 55 - Capturing of Sound Scenes
Link NOC:Multimodal Interaction Lecture 56 - Closing Remarks
Link NOC:Deep Learning - Part 2 Lecture 1 - Recap of Probability Theory
Link NOC:Deep Learning - Part 2 Lecture 2 - Why are we interested in Joint Distributions
Link NOC:Deep Learning - Part 2 Lecture 3 - How do we represent a joint distribution
Link NOC:Deep Learning - Part 2 Lecture 4 - Can we represent the joint distribution more compactly
Link NOC:Deep Learning - Part 2 Lecture 5 - Can we use a graph to represent a joint distribution
Link NOC:Deep Learning - Part 2 Lecture 6 - Different types of reasoning encoded in a Bayesian Network
Link NOC:Deep Learning - Part 2 Lecture 7 - Independencies encoded by a Bayesian Network (Case 1: Node and it's parents)
Link NOC:Deep Learning - Part 2 Lecture 8 - Independencies encoded by a Bayesian Network (Case 2: Node and it's non-parents)
Link NOC:Deep Learning - Part 2 Lecture 9 - Independencies encoded by a Bayesian Network (Case 3: Node and it's descendants)
Link NOC:Deep Learning - Part 2 Lecture 10 - Bayesian Networks : Formal Semantics
Link NOC:Deep Learning - Part 2 Lecture 11 - I-Maps
Link NOC:Deep Learning - Part 2 Lecture 12 - Markov Networks: Motivation
Link NOC:Deep Learning - Part 2 Lecture 13 - Factors in Markov Network
Link NOC:Deep Learning - Part 2 Lecture 14 - Local Independencies in a Markov Network
Link NOC:Deep Learning - Part 2 Lecture 15 - Joint Distributions
Link NOC:Deep Learning - Part 2 Lecture 16 - The concept of a latent variable
Link NOC:Deep Learning - Part 2 Lecture 17 - Restricted Boltzmann Machines
Link NOC:Deep Learning - Part 2 Lecture 18 - RBMs as Stochastic Neural Networks
Link NOC:Deep Learning - Part 2 Lecture 19 - Unsupervised Learning with RBMs
Link NOC:Deep Learning - Part 2 Lecture 20 - Computing the gradient of the log likelihood
Link NOC:Deep Learning - Part 2 Lecture 21 - Motivation for Sampling
Link NOC:Deep Learning - Part 2 Lecture 22 - Motivation for Sampling - Part 2
Link NOC:Deep Learning - Part 2 Lecture 23 - Markov Chains
Link NOC:Deep Learning - Part 2 Lecture 24 - Why de we care about Markov Chains ?
Link NOC:Deep Learning - Part 2 Lecture 25 - Setting up a Markov Chain for RBMs
Link NOC:Deep Learning - Part 2 Lecture 26 - Training RBMs Using Gibbs Sampling
Link NOC:Deep Learning - Part 2 Lecture 27 - Training RBMS Using Contrastive Divergence
Link NOC:Deep Learning - Part 2 Lecture 28 - Revisiting Autoencoders
Link NOC:Deep Learning - Part 2 Lecture 29 - Variational Autoencoders: The Neural Network Perspective
Link NOC:Deep Learning - Part 2 Lecture 30 - Variational Autoencoders: The Graphical model perspective
Link NOC:Deep Learning - Part 2 Lecture 31 - Neural Autoregressive Density Estimator
Link NOC:Deep Learning - Part 2 Lecture 32 - Masked Autoencoder Density Estimator (MADE)
Link NOC:Deep Learning - Part 2 Lecture 33 - Generative Adversarial Networks - The Intuition
Link NOC:Deep Learning - Part 2 Lecture 34 - Generative Adversarial Networks - Architecture
Link NOC:Deep Learning - Part 2 Lecture 35 - Generative Adversarial Networks - The Math Behind it
Link NOC:Deep Learning - Part 2 Lecture 36 - Generative Adversarial Networks - Some Cool Stuff and Applications
Link NOC:Deep Learning - Part 2 Lecture 37 - Bringing it all together (the deep generative summary)
Link NOC:Machine Learning Lecture 1 - Introduction to the Machine Learning Course
Link NOC:Machine Learning Lecture 2 - Foundation of Artificial Intelligence and Machine Learning
Link NOC:Machine Learning Lecture 3 - Intelligent Autonomous Systems and Artificial Intelligence
Link NOC:Machine Learning Lecture 4 - Applications of Machine Learning
Link NOC:Machine Learning Lecture 5 - Tutorial for week 1
Link NOC:Machine Learning Lecture 6 - Characterization of Learning Problems
Link NOC:Machine Learning Lecture 7 - Objects, Categories and Features
Link NOC:Machine Learning Lecture 8 - Feature related issues
Link NOC:Machine Learning Lecture 9 - Scenarios for Concept Learning
Link NOC:Machine Learning Lecture 10 - Tutorial for week 2
Link NOC:Machine Learning Lecture 11 - Forms of Representation
Link NOC:Machine Learning Lecture 12 - Decision Trees
Link NOC:Machine Learning Lecture 13 - Bayes (ian) Belief Networks
Link NOC:Machine Learning Lecture 14 - Artificial Neural Networks
Link NOC:Machine Learning Lecture 15 - Genetic algorithm
Link NOC:Machine Learning Lecture 16 - Logic Programming
Link NOC:Machine Learning Lecture 17 - Tutorial for week 3
Link NOC:Machine Learning Lecture 18 - Inductive Learning based on Symbolic Representations and Weak Theories
Link NOC:Machine Learning Lecture 19 - Generalization as Search - Part 1
Link NOC:Machine Learning Lecture 20 - Generalization as Search - Part 2
Link NOC:Machine Learning Lecture 21 - Decision Tree Learning Algorithms - Part 1
Link NOC:Machine Learning Lecture 22 - Decision Tree Learning Algorithms - Part 2
Link NOC:Machine Learning Lecture 23 - Instance Based Learning - Part 1
Link NOC:Machine Learning Lecture 24 - Instance Based Learning - Part 2
Link NOC:Machine Learning Lecture 25 - Cluster Analysis
Link NOC:Machine Learning Lecture 26 - Tutorial for week 4
Link NOC:Machine Learning Lecture 27 - Machine Learning enabled by Prior Theories
Link NOC:Machine Learning Lecture 28 - Explanation Based Learning
Link NOC:Machine Learning Lecture 29 - Inductive Logic Programming
Link NOC:Machine Learning Lecture 30 - Reinforcement Learning - Part 1 Introduction
Link NOC:Machine Learning Lecture 31 - Reinforcement Learning - Part 2 Learning Algorithms
Link NOC:Machine Learning Lecture 32 - Reinforcement Learning - Part 3 Q-Learning
Link NOC:Machine Learning Lecture 33 - Case - Based Reasoning
Link NOC:Machine Learning Lecture 34 - Tutorial for week 5
Link NOC:Machine Learning Lecture 35 - Fundamentals of Artificial Neural Networks - Part 1
Link NOC:Machine Learning Lecture 36 - Fundamentals of Artificial Neural Networks - Part 2
Link NOC:Machine Learning Lecture 37 - Perceptrons
Link NOC:Machine Learning Lecture 38 - Model of Neuron in an ANN
Link NOC:Machine Learning Lecture 39 - Learning in a Feed Forward Multiple Layer ANN - Backpropagation
Link NOC:Machine Learning Lecture 40 - Recurrent Neural Networks
Link NOC:Machine Learning Lecture 41 - Hebbian Learning and Associative Memory
Link NOC:Machine Learning Lecture 42 - Hopfield Networks and Boltzman Machines - Part 1
Link NOC:Machine Learning Lecture 43 - Hopfield Networks and Boltzman Machines - Part 2
Link NOC:Machine Learning Lecture 44 - Convolutional Neural Networks - Part 1
Link NOC:Machine Learning Lecture 45 - Convolutional Neural Networks - Part 2
Link NOC:Machine Learning Lecture 46 - DeepLearning
Link NOC:Machine Learning Lecture 47 - Tutorial for week 6
Link NOC:Machine Learning Lecture 48 - Tools and Resources
Link NOC:Machine Learning Lecture 49 - Interdisciplinary Inspiration
Link NOC:Machine Learning Lecture 50 - Preparation for Exam and Example of Applications
Link NOC:C Programming and Assembly Language Lecture 1
Link NOC:C Programming and Assembly Language Lecture 2
Link NOC:C Programming and Assembly Language Lecture 3
Link NOC:C Programming and Assembly Language Lecture 4
Link NOC:C Programming and Assembly Language Lecture 5
Link NOC:C Programming and Assembly Language Lecture 6
Link NOC:C Programming and Assembly Language Lecture 7
Link NOC:C Programming and Assembly Language Lecture 8
Link NOC:C Programming and Assembly Language Lecture 9
Link NOC:C Programming and Assembly Language Lecture 10
Link NOC:C Programming and Assembly Language Lecture 11
Link NOC:C Programming and Assembly Language Lecture 12
Link NOC:C Programming and Assembly Language Lecture 13
Link NOC:C Programming and Assembly Language Lecture 14
Link NOC:C Programming and Assembly Language Lecture 15
Link NOC:C Programming and Assembly Language Lecture 16
Link NOC:C Programming and Assembly Language Lecture 17
Link NOC:C Programming and Assembly Language Lecture 18
Link NOC:C Programming and Assembly Language Lecture 19
Link NOC:C Programming and Assembly Language Lecture 20
Link NOC:C Programming and Assembly Language Lecture 21
Link NOC:C Programming and Assembly Language Lecture 22
Link NOC:Applied Natural Language Processing Lecture 1 - Introduction
Link NOC:Applied Natural Language Processing Lecture 2 - Operations on a Corpus
Link NOC:Applied Natural Language Processing Lecture 3 - Probability and NLP
Link NOC:Applied Natural Language Processing Lecture 4 - Vector Space models
Link NOC:Applied Natural Language Processing Lecture 5 - Sequence Learning
Link NOC:Applied Natural Language Processing Lecture 6 - Machine Translation
Link NOC:Applied Natural Language Processing Lecture 7 - Preprocessing
Link NOC:Applied Natural Language Processing Lecture 8 - Statistical Properties of Words - Part 1
Link NOC:Applied Natural Language Processing Lecture 9 - Statistical Properties of Words - Part 2
Link NOC:Applied Natural Language Processing Lecture 10 - Statistical Properties of Words - Part 3
Link NOC:Applied Natural Language Processing Lecture 11 - Vector Space Models for NLP
Link NOC:Applied Natural Language Processing Lecture 12 - Document Similarity - Demo, Inverted index, Exercise
Link NOC:Applied Natural Language Processing Lecture 13 - Vector Representation of words
Link NOC:Applied Natural Language Processing Lecture 14 - Contextual understanding of text
Link NOC:Applied Natural Language Processing Lecture 15 - Co-occurence matrix, n-grams
Link NOC:Applied Natural Language Processing Lecture 16 - Collocations, Dense word Vectors
Link NOC:Applied Natural Language Processing Lecture 17 - SVD, Dimensionality reduction, Demo
Link NOC:Applied Natural Language Processing Lecture 18 - Query Processing
Link NOC:Applied Natural Language Processing Lecture 19 - Topic Modeling
Link NOC:Applied Natural Language Processing Lecture 20 - Examples for word prediction
Link NOC:Applied Natural Language Processing Lecture 21 - Introduction to Probability in the context of NLP
Link NOC:Applied Natural Language Processing Lecture 22 - Joint and conditional probabilities, independence with examples
Link NOC:Applied Natural Language Processing Lecture 23 - The definition of probabilistic language model
Link NOC:Applied Natural Language Processing Lecture 24 - Chain rule and Markov assumption
Link NOC:Applied Natural Language Processing Lecture 25 - Generative Models
Link NOC:Applied Natural Language Processing Lecture 26 - Bigram and Trigram Language models - peeking indide the model building
Link NOC:Applied Natural Language Processing Lecture 27 - Out of vocabulary words and curse of dimensionality
Link NOC:Applied Natural Language Processing Lecture 28 - Exercise
Link NOC:Applied Natural Language Processing Lecture 29 - Naive-Bayes, classification
Link NOC:Applied Natural Language Processing Lecture 30 - Machine learning, perceptron, linearly separable
Link NOC:Applied Natural Language Processing Lecture 31 - Linear Models for Claassification
Link NOC:Applied Natural Language Processing Lecture 32 - Biological Neural Network
Link NOC:Applied Natural Language Processing Lecture 33 - Perceptron
Link NOC:Applied Natural Language Processing Lecture 34 - Perceptron Learning
Link NOC:Applied Natural Language Processing Lecture 35 - Logical XOR
Link NOC:Applied Natural Language Processing Lecture 36 - Activation Functions
Link NOC:Applied Natural Language Processing Lecture 37 - Gradient Descent
Link NOC:Applied Natural Language Processing Lecture 38 - Feedforward and Backpropagation Neural Network
Link NOC:Applied Natural Language Processing Lecture 39 - Why Word2Vec?
Link NOC:Applied Natural Language Processing Lecture 40 - What are CBOW and Skip-Gram Models?
Link NOC:Applied Natural Language Processing Lecture 41 - One word learning architecture
Link NOC:Applied Natural Language Processing Lecture 42 - Forward pass for Word2Vec
Link NOC:Applied Natural Language Processing Lecture 43 - Matrix Operations Explained
Link NOC:Applied Natural Language Processing Lecture 44 - CBOW and Skip Gram Models
Link NOC:Applied Natural Language Processing Lecture 45 - Building Skip-gram model using Python
Link NOC:Applied Natural Language Processing Lecture 46 - Reduction of complexity - sub-sampling, negative sampling
Link NOC:Applied Natural Language Processing Lecture 47 - Binay tree, Hierarchical softmax
Link NOC:Applied Natural Language Processing Lecture 48 - Mapping the output layer to Softmax
Link NOC:Applied Natural Language Processing Lecture 49 - Updating the weights using hierarchical softmax
Link NOC:Applied Natural Language Processing Lecture 50 - Discussion on the results obtained from word2vec
Link NOC:Applied Natural Language Processing Lecture 51 - Recap and Introduction
Link NOC:Applied Natural Language Processing Lecture 52 - ANN as a LM and its limitations
Link NOC:Applied Natural Language Processing Lecture 53 - Sequence Learning and its applications
Link NOC:Applied Natural Language Processing Lecture 54 - Introuduction to Recurrent Neural Network
Link NOC:Applied Natural Language Processing Lecture 55 - Unrolled RNN
Link NOC:Applied Natural Language Processing Lecture 56 - RNN - Based Language Model
Link NOC:Applied Natural Language Processing Lecture 57 - BPTT - Forward Pass
Link NOC:Applied Natural Language Processing Lecture 58 - BPTT - Derivatives for W,V and U
Link NOC:Applied Natural Language Processing Lecture 59 - BPTT - Exploding and vanishing gradient
Link NOC:Applied Natural Language Processing Lecture 60 - LSTM
Link NOC:Applied Natural Language Processing Lecture 61 - Truncated BPTT
Link NOC:Applied Natural Language Processing Lecture 62 - GRU
Link NOC:Applied Natural Language Processing Lecture 63 - Introduction and Historical Approaches to Machine Translation
Link NOC:Applied Natural Language Processing Lecture 64 - What is SMT?
Link NOC:Applied Natural Language Processing Lecture 65 - Noisy Channel Model, Bayes Rule, Language Model
Link NOC:Applied Natural Language Processing Lecture 66 - Translation Model, Alignment Variables
Link NOC:Applied Natural Language Processing Lecture 67 - Alignments again!
Link NOC:Applied Natural Language Processing Lecture 68 - IBM Model 1
Link NOC:Applied Natural Language Processing Lecture 69 - IBM Model 2
Link NOC:Applied Natural Language Processing Lecture 70 - Introduction to Phrase-based translation
Link NOC:Applied Natural Language Processing Lecture 71 - Symmetrization of alignments
Link NOC:Applied Natural Language Processing Lecture 72 - Extraction of Phrases
Link NOC:Applied Natural Language Processing Lecture 73 - Learning/estimating the phrase probabilities using another Symmetrization example
Link NOC:Applied Natural Language Processing Lecture 74 - Introduction to evaluation of Machine Translation
Link NOC:Applied Natural Language Processing Lecture 75 - BLEU - A short Discussion of the seminal paper
Link NOC:Applied Natural Language Processing Lecture 76 - BLEU Demo using NLTK and other Metrics
Link NOC:Applied Natural Language Processing Lecture 77 - Encoder-Decoder model for Neural Machine Translation
Link NOC:Applied Natural Language Processing Lecture 78 - RNN Based Machine Translation
Link NOC:Applied Natural Language Processing Lecture 79 - Recap and Connecting Bloom Taxonomy with Machine Learning
Link NOC:Applied Natural Language Processing Lecture 80 - Introduction to Attention based Translation
Link NOC:Applied Natural Language Processing Lecture 81 - Research Paper discussion on Neural machine translation by jointly learning to align and translate
Link NOC:Applied Natural Language Processing Lecture 82 - Typical NMT architecture architecture and models for multi-language translation
Link NOC:Applied Natural Language Processing Lecture 83 - Beam Search, Stochatic Gradient Descend, Mini Batch, Batch
Link NOC:Applied Natural Language Processing Lecture 84 - Beam Search, Stochatic Gradient Descend, Mini Batch, Batch
Link NOC:Applied Natural Language Processing Lecture 85 - Introduction to Conversation Modeling
Link NOC:Applied Natural Language Processing Lecture 86 - A few examples in Conversation Modeling
Link NOC:Applied Natural Language Processing Lecture 87 - Some ideas to Implement IR-based Conversation Modeling
Link NOC:Applied Natural Language Processing Lecture 88 - Discussion of some ideas in Question Answering
Link NOC:Applied Natural Language Processing Lecture 89 - Hyperspace Analogue to Language - HAL
Link NOC:Applied Natural Language Processing Lecture 90 - Correlated Occurence Analogue to Lexical Semantic - COALS
Link NOC:Applied Natural Language Processing Lecture 91 - Global Vectors - Glove
Link NOC:Applied Natural Language Processing Lecture 92 - Evaluation of Word vectors
Link NOC:Python for Data Science Lecture 1 - Introduction to Python for Data Science
Link NOC:Python for Data Science Lecture 2 - Introduction to Python
Link NOC:Python for Data Science Lecture 3 - Introduction to Spyder - Part 1
Link NOC:Python for Data Science Lecture 4 - Introduction to Spyder - Part 2
Link NOC:Python for Data Science Lecture 5 - Variables and Datatypes
Link NOC:Python for Data Science Lecture 6 - Operators
Link NOC:Python for Data Science Lecture 7 - Lists Part - 1
Link NOC:Python for Data Science Lecture 8 - Lists Part - 2
Link NOC:Python for Data Science Lecture 9 - Tuples
Link NOC:Python for Data Science Lecture 10 - Dictionary
Link NOC:Python for Data Science Lecture 11 - Sets
Link NOC:Python for Data Science Lecture 12 - Numpy Part - 1
Link NOC:Python for Data Science Lecture 13 - Numpy Part - 2
Link NOC:Python for Data Science Lecture 14 - Matrix
Link NOC:Python for Data Science Lecture 15 - Linear algebra Part - 1
Link NOC:Python for Data Science Lecture 16 - Linear algebra Part - 2
Link NOC:Python for Data Science Lecture 17 - Reading data
Link NOC:Python for Data Science Lecture 18 - Pandas Dataframes - I
Link NOC:Python for Data Science Lecture 19 - Pandas Dataframes - II
Link NOC:Python for Data Science Lecture 20 - Pandas Dataframes - III
Link NOC:Python for Data Science Lecture 21 - Control structures and Functions
Link NOC:Python for Data Science Lecture 22 - Exploratory data analysis
Link NOC:Python for Data Science Lecture 23 - Data Visualization - Part I
Link NOC:Python for Data Science Lecture 24 - Data Visualization - Part II
Link NOC:Python for Data Science Lecture 25 - Dealing with missing data
Link NOC:Python for Data Science Lecture 26 - Module : Predictive Modelling
Link NOC:Python for Data Science Lecture 27 - Linear Regression
Link NOC:Python for Data Science Lecture 28 - Model Assessment
Link NOC:Python for Data Science Lecture 29 - Diagnostics to Improve Linear Model Fit
Link NOC:Python for Data Science Lecture 30 - Multiple Linear Regression
Link NOC:Python for Data Science Lecture 31 - Cross Validation
Link NOC:Python for Data Science Lecture 32 - Classification
Link NOC:Python for Data Science Lecture 33 - Logistic Regression
Link NOC:Python for Data Science Lecture 34 - Logistic Regression (Continued...)
Link NOC:Python for Data Science Lecture 35 - Performance Measures
Link NOC:Python for Data Science Lecture 36 - K - Nearest Neighbors (kNN)
Link NOC:Python for Data Science Lecture 37 - K - means Clustering
Link NOC:Python for Data Science Lecture 38 - Decision Trees
Link NOC:Python for Data Science Lecture 39 - Introduction to Classification Case Study
Link NOC:Python for Data Science Lecture 40 - Case Study on Classification - Part I
Link NOC:Python for Data Science Lecture 41 - Case Study on Classification - Part II
Link NOC:Python for Data Science Lecture 42 - Introduction to Regression Case Study
Link NOC:Python for Data Science Lecture 43 - Case Study on Regression - Part I
Link NOC:Python for Data Science Lecture 44 - Case Study on Regression - Part II
Link NOC:Python for Data Science Lecture 45 - Case Study on Regression - Part III
Link NOC:Practical Machine Learning with Tensorflow Lecture 1 - Overview of Tensorflow
Link NOC:Practical Machine Learning with Tensorflow Lecture 2 - Machine Learning Refresher
Link NOC:Practical Machine Learning with Tensorflow Lecture 3 - Steps in Machine Learning Process
Link NOC:Practical Machine Learning with Tensorflow Lecture 4 - Loss Functions in Machine Learning
Link NOC:Practical Machine Learning with Tensorflow Lecture 5 - Gradient Descent
Link NOC:Practical Machine Learning with Tensorflow Lecture 6 - Gradient Descent Variations
Link NOC:Practical Machine Learning with Tensorflow Lecture 7 - Model Selection and Evaluation
Link NOC:Practical Machine Learning with Tensorflow Lecture 8 - Machine Learning Visualization
Link NOC:Practical Machine Learning with Tensorflow Lecture 9 - Deep Learning Refresher
Link NOC:Practical Machine Learning with Tensorflow Lecture 10 - Introduction to Tensors
Link NOC:Practical Machine Learning with Tensorflow Lecture 11 - Mathematical Foundations of Deep Learning (Continued...)
Link NOC:Practical Machine Learning with Tensorflow Lecture 12 - Building Data Pipelines for Tensorflow - Part 1
Link NOC:Practical Machine Learning with Tensorflow Lecture 13 - Building Data Pipelines for Tensorflow - Part 2
Link NOC:Practical Machine Learning with Tensorflow Lecture 14 - Building Data Pipelines for Tensorflow - Part 3
Link NOC:Practical Machine Learning with Tensorflow Lecture 15 - Text Processing with Tensorflow
Link NOC:Practical Machine Learning with Tensorflow Lecture 16 - Classify Images
Link NOC:Practical Machine Learning with Tensorflow Lecture 17 - Regression
Link NOC:Practical Machine Learning with Tensorflow Lecture 18 - Classify Structured Data
Link NOC:Practical Machine Learning with Tensorflow Lecture 19 - Text Classification
Link NOC:Practical Machine Learning with Tensorflow Lecture 20 - Underfitting and Overfitting
Link NOC:Practical Machine Learning with Tensorflow Lecture 21 - Save and Restore Models
Link NOC:Practical Machine Learning with Tensorflow Lecture 22 - CNNs - Part 1
Link NOC:Practical Machine Learning with Tensorflow Lecture 23 - CNNs - Part 2
Link NOC:Practical Machine Learning with Tensorflow Lecture 24 - Transfer learning with pretrained CNNs
Link NOC:Practical Machine Learning with Tensorflow Lecture 25 - Transfer learning with TF hub
Link NOC:Practical Machine Learning with Tensorflow Lecture 26 - Image classification and visualization
Link NOC:Practical Machine Learning with Tensorflow Lecture 27 - Estimator API
Link NOC:Practical Machine Learning with Tensorflow Lecture 28 - Logistic Regression
Link NOC:Practical Machine Learning with Tensorflow Lecture 29 - Boosted Trees
Link NOC:Practical Machine Learning with Tensorflow Lecture 30 - Introduction to word embeddings
Link NOC:Practical Machine Learning with Tensorflow Lecture 31 - Recurrent Neural Networks - Part 1
Link NOC:Practical Machine Learning with Tensorflow Lecture 32 - Recurrent Neural Networks - Part 2
Link NOC:Practical Machine Learning with Tensorflow Lecture 33 - Time Series Forecasting with RNNs
Link NOC:Practical Machine Learning with Tensorflow Lecture 34 - Text Generation with RNNs
Link NOC:Practical Machine Learning with Tensorflow Lecture 35 - TensorFlow Customization
Link NOC:Practical Machine Learning with Tensorflow Lecture 36 - Customizing tf.keras - Part 1
Link NOC:Practical Machine Learning with Tensorflow Lecture 37 - Customizing tf.keras - Part 2
Link NOC:Practical Machine Learning with Tensorflow Lecture 38 - TensorFlow Distributed Training
Link NOC:Introduction to Cryptology Lecture 1 - Introduction Caeser cipher
Link NOC:Introduction to Cryptology Lecture 2 - Modular arithmetic, shift cipher
Link NOC:Introduction to Cryptology Lecture 3 - Affine Cipher, Vigenere Cipher
Link NOC:Introduction to Cryptology Lecture 4 - Prefect secrecy, Application of Shift Cipher
Link NOC:Introduction to Cryptology Lecture 5 - Problem Discussion on Affine cipher and Perfect Secrecy
Link NOC:Introduction to Cryptology Lecture 6 - Product Cipher, Block Cipher, Modes of Operation for Block Cipher
Link NOC:Introduction to Cryptology Lecture 7 - Substitution Permutation network, Fiestel Cipher
Link NOC:Introduction to Cryptology Lecture 8 - S-Box Theory
Link NOC:Introduction to Cryptology Lecture 9 - Cryptanalysis and its Variants, Linear Attack
Link NOC:Introduction to Cryptology Lecture 10 - Problem Discussion
Link NOC:Introduction to Cryptology Lecture 11 - Public Key Cryptology Introduction RSA Cryptosystem
Link NOC:Introduction to Cryptology Lecture 12 - Complexity analysis of Euclidian Algorithm and RSA Cryptosystem square and multiply algorithm
Link NOC:Introduction to Cryptology Lecture 13 - Primality testing: Miler-Rabin Algorithm, Legendre Symbol and Jacobi Symbol
Link NOC:Introduction to Cryptology Lecture 14 - Efficien Computation of Jacobi Symbol Primality Testing:Solovay-Stassen Algorithm
Link NOC:Introduction to Cryptology Lecture 15 - Problem Discussion on Jacobi Symbol Calculation and RSA Cryptosystem
Link NOC:Introduction to Cryptology Lecture 16 - Cryptographic hash function: Introduction
Link NOC:Introduction to Cryptology Lecture 17 - Random Oracle model, Security of hash functions
Link NOC:Introduction to Cryptology Lecture 18 - Randomized Algorithm and its application on Preimage resistance and collision resistance
Link NOC:Introduction to Cryptology Lecture 19 - Iterated Hash Functions
Link NOC:Introduction to Cryptology Lecture 20 - Problem Discussionn
Link Combinatorics Lecture 1 - Pigeon hole principle - (Part 1)
Link Combinatorics Lecture 2 - Pigeon hole principle - (Part 2)
Link Combinatorics Lecture 3 - Pigeon hole principle - (Part 3)
Link Combinatorics Lecture 4 - Pigeon hole principle - (Part 4)
Link Combinatorics Lecture 5 - Elementary concepts and basic counting principles
Link Combinatorics Lecture 6 - Elementary concepts; Binomial theorem; Bijective proofs - Part (1)
Link Combinatorics Lecture 7 - Bijective proofs – Part (2)
Link Combinatorics Lecture 8 - Bijective proofs - Part (3); Properties of binomial coefficients; Combinatorial identities - Part (1)
Link Combinatorics Lecture 9 - Combinatorial identities - Part (2); Permutations of multisets – Part (1)
Link Combinatorics Lecture 10 - Permutations of multisets – Part (2)
Link Combinatorics Lecture 11 - Multinomial Theorem, Combinations of Multisets – Part (1)
Link Combinatorics Lecture 12 - Combinations of Multisets - Part (2)
Link Combinatorics Lecture 13 - Combinations of Multisets – Part (3), Bounds for binomial coefficients
Link Combinatorics Lecture 14 - Sterling’s Formula, Generalization of Binomial coefficients - Part (1)
Link Combinatorics Lecture 15 - Generalization of Binomial coefficients - Part (2)
Link Combinatorics Lecture 16 - Generalization of Binomial coefficients - Part (3); Double counting - Part (1)
Link Combinatorics Lecture 17 - Double counting - Part (2)
Link Combinatorics Lecture 18 - Hall’s Theorem for regular bipartite graphs; Inclusion exclusion principle - Part (1)
Link Combinatorics Lecture 19 - Inclusion exclusion principle - Part (2)
Link Combinatorics Lecture 20 - Inclusion exclusion principle - Part (3)
Link Combinatorics Lecture 21 - Inclusion exclusion principle - Part (4)
Link Combinatorics Lecture 22 - Inclusion exclusion principle - Part (5)
Link Combinatorics Lecture 23 - Recurrence Relations - Part (1)
Link Combinatorics Lecture 24 - Recurrence Relations - Part (2)
Link Combinatorics Lecture 25 - Recurrence Relations - Part (3)
Link Combinatorics Lecture 26 - Recurrence Relations - Part (4)
Link Combinatorics Lecture 27 - Recurrence Relations - Part (5)
Link Combinatorics Lecture 28 - Generating functions - Part (1)
Link Combinatorics Lecture 29 - Generating functions - Part (2)
Link Combinatorics Lecture 30 - Solving recurrence relations using generating functions - Part (1)
Link Combinatorics Lecture 31 - Solving recurrence relations using generating functions - Part (2)
Link Combinatorics Lecture 32 - Exponential generating functions - Part (1)
Link Combinatorics Lecture 33 - Exponential generating functions - Part (2), Partition Number - Part (1)
Link Combinatorics Lecture 34 - Partition Number - Part (2)
Link Combinatorics Lecture 35 - Partition Number - Part (3)
Link Combinatorics Lecture 36 - Partition Number - Part (4); Catalan Numbers - Part (1)
Link Combinatorics Lecture 37 - Catalans Numbers - Part (2)
Link Combinatorics Lecture 38 - Catalan Numbers - Part (3), Sterling numbers of the 2nd kind
Link Combinatorics Lecture 39 - Difference Sequences
Link Combinatorics Lecture 40 - Sterling Numbers
Link Combinatorics Lecture 41 - Summary
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 1 - An Overview of a Compiler - Part 1
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 2 - An Overview of a Compiler - Part 2 and Run-Time Environments - Part 1
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 3 - An Overview of a Compiler - Part 2 and Run-Time Environments - Part 1
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 4 - Run-Time Environments - Part 2
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 5 - Run-Time Environments - Part 3 and Local Optimizations - Part 1
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 6 - Run-Time Environments - Part 3 and Local Optimizations - Part 1
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 7 - Local Optimizations - Part 2 and Code Generation - Part 1
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 8 - Local Optimizations - Part 2 and Code Generation - Part 1
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 9 - Code Generation - Part 1
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 10 - Code Generation - Part 2
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 11 - Code Generation - Part 3 and Global Register Allocation - Part 1
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 12 - Code Generation - Part 3 and Global Register Allocation - Part 1
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 13 - Global Register Allocation - Part 2
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 14 - Global Register Allocation - Part 3 and Implementing Object-Oriented Languages - Part 1
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 15 - Global Register Allocation - Part 3 and Implementing Object-Oriented Languages - Part 1
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 16 - Implementing Object-Oriented Languages - Part 2 and Introduction to Machine-Independent Optimizations - Part 1
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 17 - Implementing Object-Oriented Languages - Part 2 and Introduction to Machine-Independent Optimizations - Part 1
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 18 - Introduction to Machine-Independent Optimizations - Part 2 and Data-Flow Analysis - Part 1
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 19 - Introduction to Machine-Independent Optimizations - Part 2 and Data-Flow Analysis - Part 1
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 20 - Data-Flow Analysis - Part 2
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 21 - Data-Flow Analysis - Part 3 and Control-Flow Analysis - Part 1
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 22 - Data-Flow Analysis - Part 3 and Control-Flow Analysis - Part 1
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 23 - Control-Flow Analysis - Part 2
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 24 - Machine-Independent Optimizations - Part 1
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 25 - Machine-Independent Optimizations - Part 2
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 26 - Machine-Independent Optimizations - Part 3 and Data-Flow Analysis: Theoretical Foundation - Part 1
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 27 - Machine-Independent Optimizations - Part 3 and Data-Flow Analysis: Theoretical Foundation - Part 1
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 28 - Data-Flow Analysis: Theoretical Foundation - Part 2 and Partial Redundancy Elimination - Part 1
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 29 - Data-Flow Analysis: Theoretical Foundation - Part 2 and Partial Redundancy Elimination - Part 1
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 30 - Partial Redundancy Elimination - Part 2
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 31 - The Static Single Assignment Form: Construction and Application to Program Optimizations - Part 1
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 32 - The Static Single Assignment Form: Construction and Application to Program Optimizations - Part 2
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 33 - The Static Single Assignment Form: Construction and Application to Program Optimizations - Part 3
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 34 - Automatic Parallelization - Part 1
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 35 - Automatic Parallelization - Part 2
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 36 - Automatic Parallelization - Part 3
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 37 - Automatic Parallelization - Part 4
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 38 - Instruction Scheduling - Part 1
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 39 - Instruction Scheduling - Part 2
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 40 - Instruction Scheduling - Part 3
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 41 - Software Pipelining
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 42 - Energy-Aware Software Systems - Part 1
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 43 - Energy-Aware Software Systems - Part 2
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 44 - Energy-Aware Software Systems - Part 3
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 45 - Energy-Aware Software Systems - Part 4
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 46 - Just-In-Time Compilation and Optimizations for .NET CLR
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 47 - Garbage Collection
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 48 - Interprocedural Data-Flow Analysis
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 49 - Worst Case Execution Time - Part 1
Link Compiler Design (Prof. Y.N. Srikanth) Lecture 50 - Worst Case Execution Time - Part 2
Link Graph Theory Lecture 1 - Introduction: Vertex cover and independent set
Link Graph Theory Lecture 2 - Matchings: Konig’s theorem and Hall’s theorem
Link Graph Theory Lecture 3 - More on Hall’s theorem and some applications
Link Graph Theory Lecture 4 - Tutte’s theorem on existence of a perfect matching
Link Graph Theory Lecture 5 - More on Tutte’s theorem
Link Graph Theory Lecture 6 - More on Matchings
Link Graph Theory Lecture 7 - Dominating set, path cover
Link Graph Theory Lecture 8 - Gallai – Millgram theorem, Dilworth’s theorem
Link Graph Theory Lecture 9 - Connectivity: 2-connected and 3-connected graphs
Link Graph Theory Lecture 10 - Menger’s theorem
Link Graph Theory Lecture 11 - More on connectivity: k- linkedness
Link Graph Theory Lecture 12 - Minors, topological minors and more on k- linkedness
Link Graph Theory Lecture 13 - Vertex coloring: Brooks theorem
Link Graph Theory Lecture 14 - More on vertex coloring
Link Graph Theory Lecture 15 - Edge coloring: Vizing’s theorem
Link Graph Theory Lecture 16 - Proof of Vizing’s theorem, Introduction to planarity
Link Graph Theory Lecture 17 - 5- coloring planar graphs, Kuratowsky’s theorem
Link Graph Theory Lecture 18 - Proof of Kuratowsky’s theorem, List coloring
Link Graph Theory Lecture 19 - List chromatic index
Link Graph Theory Lecture 20 - Adjacency polynomial of a graph and combinatorial Nullstellensatz
Link Graph Theory Lecture 21 - Chromatic polynomial, k - critical graphs
Link Graph Theory Lecture 22 - Gallai-Roy theorem, Acyclic coloring, Hadwiger’s conjecture
Link Graph Theory Lecture 23 - Perfect graphs: Examples
Link Graph Theory Lecture 24 - Interval graphs, chordal graphs
Link Graph Theory Lecture 25 - Proof of weak perfect graph theorem (WPGT)
Link Graph Theory Lecture 26 - Second proof of WPGT, Some non-perfect graph classes
Link Graph Theory Lecture 27 - More special classes of graphs
Link Graph Theory Lecture 28 - Boxicity,Sphericity, Hamiltonian circuits
Link Graph Theory Lecture 29 - More on Hamiltonicity: Chvatal’s theorem
Link Graph Theory Lecture 30 - Chvatal’s theorem, toughness, Hamiltonicity and 4-color conjecture
Link Graph Theory Lecture 31 - Network flows: Max flow mincut theorem
Link Graph Theory Lecture 32 - More on network flows: Circulations
Link Graph Theory Lecture 33 - Circulations and tensions
Link Graph Theory Lecture 34 - More on circulations and tensions, flow number and Tutte’s flow conjectures
Link Graph Theory Lecture 35 - Random graphs and probabilistic method: Preliminaries
Link Graph Theory Lecture 36 - Probabilistic method: Markov’s inequality, Ramsey number
Link Graph Theory Lecture 37 - Probabilistic method: Graphs of high girth and high chromatic number
Link Graph Theory Lecture 38 - Probabilistic method: Second moment method, Lovasz local lemma
Link Graph Theory Lecture 39 - Graph minors and Hadwiger’s conjecture
Link Graph Theory Lecture 40 - More on graph minors, tree decompositions
Link High Performance Computing Lecture 1 - Programs and Data
Link High Performance Computing Lecture 2 - Data Representation
Link High Performance Computing Lecture 3 - Registers and Memory
Link High Performance Computing Lecture 4 - Instructions, Addressing Modes
Link High Performance Computing Lecture 5 - A RISC Instruction Set
Link High Performance Computing Lecture 6 - A RISC Instruction Set (Continued...)
Link High Performance Computing Lecture 7 - Function Call and Return
Link High Performance Computing Lecture 8 - Function Call and Return (Continued...)
Link High Performance Computing Lecture 9 - Instruction Execution
Link High Performance Computing Lecture 10 - Instruction Execution (Continued...)
Link High Performance Computing Lecture 11 - Software organization
Link High Performance Computing Lecture 12 - System Calls
Link High Performance Computing Lecture 13 - Virtual memory
Link High Performance Computing Lecture 14 - Virtual memory (Continued...)
Link High Performance Computing Lecture 15 - Virtual Memory (Continued...)
Link High Performance Computing Lecture 16 - Process
Link High Performance Computing Lecture 17 - Process scheduling
Link High Performance Computing Lecture 18 - Process lifetime
Link High Performance Computing Lecture 19 - Interprocess communication
Link High Performance Computing Lecture 20 - Concurrent programming
Link High Performance Computing Lecture 21 - Pipelining
Link High Performance Computing Lecture 22 - Pipeline hazards
Link High Performance Computing Lecture 23 - Pipeline hazards (Continued...)
Link High Performance Computing Lecture 24 - Pipeline hazards (Continued...)
Link High Performance Computing Lecture 25 - Cache memory
Link High Performance Computing Lecture 26 - Memory hierarchy
Link High Performance Computing Lecture 27 - Cache operation
Link High Performance Computing Lecture 28 - Cache operation (Continued)
Link High Performance Computing Lecture 29 - Cache aware programming
Link High Performance Computing Lecture 30 - Cache aware programming (Continued...)
Link High Performance Computing Lecture 31 - More on cache
Link High Performance Computing Lecture 32 - Measuring time
Link High Performance Computing Lecture 33 - Program Profiling
Link High Performance Computing Lecture 34 - Secondary storage
Link High Performance Computing Lecture 35 - Files and disks
Link High Performance Computing Lecture 36 - Directories
Link High Performance Computing Lecture 37 - Protection and Performance
Link High Performance Computing Lecture 38 - Parallel architecture
Link High Performance Computing Lecture 39 - Cache coherence
Link High Performance Computing Lecture 40 - MPI programming
Link High Performance Computing Lecture 41 - MPI programming (Continued...)
Link Numerical Optimization Lecture 1 - Introduction
Link Numerical Optimization Lecture 2 - Mathematical Background
Link Numerical Optimization Lecture 3 - Mathematical Background (Continued...)
Link Numerical Optimization Lecture 4 - One Dimensional Optimization - Optimality Conditions
Link Numerical Optimization Lecture 5 - One Dimensional Optimization (Continued...)
Link Numerical Optimization Lecture 6 - Convex Sets
Link Numerical Optimization Lecture 7 - Convex Sets (Continued...)
Link Numerical Optimization Lecture 8 - Convex Functions
Link Numerical Optimization Lecture 9 - Convex Functions (Continued...)
Link Numerical Optimization Lecture 10 - Multi Dimensional Optimization - Optimality Conditions, Conceptual Algorithm
Link Numerical Optimization Lecture 11 - Line Search Techniques
Link Numerical Optimization Lecture 12 - Global Convergence Theorem
Link Numerical Optimization Lecture 13 - Steepest Descent Method
Link Numerical Optimization Lecture 14 - Classical Newton Method
Link Numerical Optimization Lecture 15 - Trust Region and Quasi-Newton Methods
Link Numerical Optimization Lecture 16 - Quasi-Newton Methods - Rank One Correction, DFP Method
Link Numerical Optimization Lecture 17 - i) Quasi-Newton Methods - Broyden Family ii) Coordinate Descent Method
Link Numerical Optimization Lecture 18 - Conjugate Directions
Link Numerical Optimization Lecture 19 - Conjugate Gradient Method
Link Numerical Optimization Lecture 20 - Constrained Optimization - Local and Global Solutions, Conceptual Algorithm
Link Numerical Optimization Lecture 21 - Feasible and Descent Directions
Link Numerical Optimization Lecture 22 - First Order KKT Conditions
Link Numerical Optimization Lecture 23 - Constraint Qualifications
Link Numerical Optimization Lecture 24 - Convex Programming Problem
Link Numerical Optimization Lecture 25 - Second Order KKT Conditions
Link Numerical Optimization Lecture 26 - Second Order KKT Conditions (Continued...)
Link Numerical Optimization Lecture 27 - Weak and Strong Duality
Link Numerical Optimization Lecture 28 - Geometric Interpretation
Link Numerical Optimization Lecture 29 - Lagrangian Saddle Point and Wolfe Dual
Link Numerical Optimization Lecture 30 - Linear Programming Problem
Link Numerical Optimization Lecture 31 - Geometric Solution
Link Numerical Optimization Lecture 32 - Basic Feasible Solution
Link Numerical Optimization Lecture 33 - Optimality Conditions and Simplex Tableau
Link Numerical Optimization Lecture 34 - Simplex Algorithm and Two-Phase Method
Link Numerical Optimization Lecture 35 - Duality in Linear Programming
Link Numerical Optimization Lecture 36 - Interior Point Methods - Affine Scaling Method
Link Numerical Optimization Lecture 37 - Karmarkar's Method
Link Numerical Optimization Lecture 38 - Lagrange Methods, Active Set Method
Link Numerical Optimization Lecture 39 - Active Set Method (Continued...)
Link Numerical Optimization Lecture 40 - Barrier and Penalty Methods, Augmented Lagrangian Method and Cutting Plane Method
Link Numerical Optimization Lecture 41 - Summary
Link Storage Systems Lecture 1 - Overview
Link Storage Systems Lecture 2 - Storage, Processing, Networking
Link Storage Systems Lecture 3 - Naming and Storing
Link Storage Systems Lecture 4 - Storage Filesystems
Link Storage Systems Lecture 5 - Access Architecture, Hard Disks
Link Storage Systems Lecture 6 - SCSI
Link Storage Systems Lecture 7 - Fibre Channel Protocol (FCP)
Link Storage Systems Lecture 8 - FCP, 10Gb Ethernet, iSCSI, TCP
Link Storage Systems Lecture 9 - NFS, NFSv2
Link Storage Systems Lecture 10 - NFSv2, NFSv3, NFSv4, CIFS
Link Storage Systems Lecture 11 - USB Storage
Link Storage Systems Lecture 12 - Tiering
Link Storage Systems Lecture 13 - Mobile/Personal/Organizational - type Storage
Link Storage Systems Lecture 14 - Parallel/Cloud/Web-scale Storage
Link Storage Systems Lecture 15 - Long-term Storage
Link Storage Systems Lecture 16 - Storage interfaces
Link Storage Systems Lecture 17 - User-Memory-CPU interactions
Link Storage Systems Lecture 18 - Spinlock, Concurrency
Link Storage Systems Lecture 19 - Block Layer design
Link Storage Systems Lecture 20 - FAT, TFAT, F2FS, LFS, FTL
Link Storage Systems Lecture 21 - Data Structures
Link Storage Systems Lecture 22 - Abstractions
Link Storage Systems Lecture 23 - Link & Write Operations
Link Storage Systems Lecture 24 - ZFS
Link Storage Systems Lecture 25 - RAID in Filesystems
Link Storage Systems Lecture 26 - RAID-Z, NetApp RAID4, Flash Filesystems
Link Storage Systems Lecture 27 - Reliability
Link Storage Systems Lecture 28 - Performance
Link Storage Systems Lecture 29 - Security
Link Storage Systems Lecture 30 - CAP Theorem
Link Storage Systems Lecture 31 - POSIX/NFS/S3/Zookeeper, ACID Vs. BASE
Link Storage Systems Lecture 32 - Consistency & Commit problems
Link Storage Systems Lecture 33 - Paxos
Link Storage Systems Lecture 34 - Group Communication problem
Link Storage Systems Lecture 35 - Message Ordering
Link Storage Systems Lecture 36 - Ordering Models
Link Storage Systems Lecture 37 - Orderings in Filesystems
Link Storage Systems Lecture 38 - Semantics of highly scalable filesystems
Link Storage Systems Lecture 39 - GFS
Link Storage Systems Lecture 40 - GFS Model
Link Storage Systems Lecture 41 - GFS functions and operations
Link Storage Systems Lecture 42 - GFS problems, BigTable
Link Storage Systems Lecture 43 - Lessons to learn
Link System Analysis and Design Lecture 1
Link System Analysis and Design Lecture 2
Link System Analysis and Design Lecture 3
Link System Analysis and Design Lecture 4
Link System Analysis and Design Lecture 5
Link System Analysis and Design Lecture 6
Link System Analysis and Design Lecture 7
Link System Analysis and Design Lecture 8
Link System Analysis and Design Lecture 9
Link System Analysis and Design Lecture 10
Link System Analysis and Design Lecture 11
Link System Analysis and Design Lecture 12
Link System Analysis and Design Lecture 13
Link System Analysis and Design Lecture 14
Link System Analysis and Design Lecture 15
Link System Analysis and Design Lecture 16
Link System Analysis and Design Lecture 17
Link System Analysis and Design Lecture 18
Link System Analysis and Design Lecture 19
Link System Analysis and Design Lecture 20
Link System Analysis and Design Lecture 21
Link System Analysis and Design Lecture 22
Link System Analysis and Design Lecture 23
Link System Analysis and Design Lecture 24
Link System Analysis and Design Lecture 25
Link System Analysis and Design Lecture 26
Link System Analysis and Design Lecture 27
Link System Analysis and Design Lecture 28
Link System Analysis and Design Lecture 29
Link System Analysis and Design Lecture 30
Link System Analysis and Design Lecture 31
Link System Analysis and Design Lecture 32
Link System Analysis and Design Lecture 33
Link System Analysis and Design Lecture 34
Link System Analysis and Design Lecture 35
Link System Analysis and Design Lecture 36
Link System Analysis and Design Lecture 37
Link System Analysis and Design Lecture 38
Link System Analysis and Design Lecture 39
Link System Analysis and Design Lecture 40
Link Principles of Compiler Design Lecture 1 - An Overview of a Compiler
Link Principles of Compiler Design Lecture 2 - Lexical Analysis - Part 1
Link Principles of Compiler Design Lecture 3 - Lexical Analysis - Part 2
Link Principles of Compiler Design Lecture 4 - Lexical Analysis - Part 3
Link Principles of Compiler Design Lecture 5 - Syntax Analysis: Context-free Grammars, Pushdown Automata and Parsing Part - 1
Link Principles of Compiler Design Lecture 6 - Syntax Analysis: Context-free Grammars, Pushdown Automata and Parsing Part - 2
Link Principles of Compiler Design Lecture 7 - Syntax Analysis: Context-free Grammars, Pushdown Automata and Parsing Part - 3
Link Principles of Compiler Design Lecture 8 - Syntax Analysis: Context-free Grammars, Pushdown Automata and Parsing Part - 4
Link Principles of Compiler Design Lecture 9 - Syntax Analysis: Context-free Grammars, Pushdown Automata and Parsing Part - 5
Link Principles of Compiler Design Lecture 10 - Syntax Analysis: Context-free Grammars, Pushdown Automata and Parsing Part - 6
Link Principles of Compiler Design Lecture 11 - Syntax Analysis: Context-free Grammars, Pushdown Automata and Parsing Part - 7
Link Principles of Compiler Design Lecture 12 - Semantic Analysis with Attribute Grammars Part - 1
Link Principles of Compiler Design Lecture 13 - Semantic Analysis with Attribute Grammars Part - 2
Link Principles of Compiler Design Lecture 14 - Semantic Analysis with Attribute Grammars Part - 3
Link Principles of Compiler Design Lecture 15 - Semantic Analysis with Attribute Grammars Part - 4
Link Principles of Compiler Design Lecture 16 - Semantic Analysis with Attribute Grammars Part - 5
Link Principles of Compiler Design Lecture 17 - Intermediate code generation Part - 1
Link Principles of Compiler Design Lecture 18 - Intermediate code generation Part - 2
Link Principles of Compiler Design Lecture 19 - Intermediate code generation Part - 3
Link Principles of Compiler Design Lecture 20 - Intermediate code generation Part - 4 (first half of lecture)
Link Principles of Compiler Design Lecture 21 - Run-time environments - 1 (second half of lecture)
Link Principles of Compiler Design Lecture 22 - Run-time environments - 2
Link Principles of Compiler Design Lecture 23 - Run-time environments - 3
Link Principles of Compiler Design Lecture 24 - Run-time environments - 4 (first half of lecture)
Link Principles of Compiler Design Lecture 25 - Control-Flow Graph and Local Optimizations - Part 1 (second half of lecture)
Link Principles of Compiler Design Lecture 26 - Control-Flow Graph and Local Optimizations - Part 2 (first half of lecture)
Link Principles of Compiler Design Lecture 27 - Machine code generation - 1 (second half of lecture)
Link Principles of Compiler Design Lecture 28 - Machine code generation - 2
Link Principles of Compiler Design Lecture 29 - Machine code generation - 3
Link Principles of Compiler Design Lecture 30 - Machine code generation - 4 (first half of lecture), Implementing object-oriented languages 1 (second half of lecture)
Link Principles of Compiler Design Lecture 31 - Implementing object-oriented languages 2 (first half of lecture)
Link Principles of Compiler Design Lecture 32 - Global register allocation - 1 (second half of lecture)
Link Principles of Compiler Design Lecture 33 - Global register allocation - 2
Link Principles of Compiler Design Lecture 34 - Global register allocation - 3
Link Principles of Compiler Design Lecture 35 - Introduction to Machine-Independent Optimizations - 1
Link Principles of Compiler Design Lecture 36 - Introduction to Machine-Independent Optimizations - 2
Link Principles of Compiler Design Lecture 37 - Introduction to Machine-Independent Optimizations - 3
Link Principles of Compiler Design Lecture 38 - Introduction to Machine-Independent Optimizations - 4
Link Principles of Compiler Design Lecture 39 - Introduction to Machine-Independent Optimizations - 5
Link Principles of Compiler Design Lecture 40 - Introduction to Machine-Independent Optimizations - 6
Link Principles of Compiler Design Lecture 41 - Introduction to Machine-Independent Optimizations - 7 (first half of lecture)
Link Principles of Compiler Design Lecture 42 - Instruction Scheduling and Software Pipelining - 1 (second half of lecture)
Link Principles of Compiler Design Lecture 43 - Instruction Scheduling and Software Pipelining - 2
Link Principles of Compiler Design Lecture 44 - Instruction Scheduling and Software Pipelining - 3 (first part of lecture)
Link Principles of Compiler Design Lecture 45 - Automatic parallelization - 1 (second half of lecture)
Link Principles of Compiler Design Lecture 46 - Automatic parallelization - 2
Link NOC:Innovation by Design Lecture 1 - The Seven Concerns
Link NOC:Innovation by Design Lecture 2 - Design Thinking and Collaboration
Link NOC:Innovation by Design Lecture 3 - Challenges to Innovation
Link NOC:Innovation by Design Lecture 4 - Understanding Users
Link NOC:Innovation by Design Lecture 5 - Arriving at Design Insights
Link NOC:Innovation by Design Lecture 6 - Prototyping for User Feedback
Link NOC:Innovation by Design Lecture 7 - 1st C The Cause
Link NOC:Innovation by Design Lecture 8 - Crossing the First Pitfall
Link NOC:Innovation by Design Lecture 9 - Trial and Error
Link NOC:Innovation by Design Lecture 10 - User Feedback for Development
Link NOC:Innovation by Design Lecture 11 - New users, new needs to meet
Link NOC:Innovation by Design Lecture 12 - Knowing the Context
Link NOC:Innovation by Design Lecture 13 - 2nd C The Context
Link NOC:Innovation by Design Lecture 14 - The Basic Need
Link NOC:Innovation by Design Lecture 15 - Ingenious Attempts
Link NOC:Innovation by Design Lecture 16 - Further Insights
Link NOC:Innovation by Design Lecture 17 - The Working Rig
Link NOC:Innovation by Design Lecture 18 - Concepts generation
Link NOC:Innovation by Design Lecture 19 - Experiencing the Product
Link NOC:Innovation by Design Lecture 20 - Refinements
Link NOC:Innovation by Design Lecture 21 - 3rd C - The Comprehension
Link NOC:Innovation by Design Lecture 22 - Understanding Constraints
Link NOC:Innovation by Design Lecture 23 - Positioning the Product
Link NOC:Innovation by Design Lecture 24 - Exploring Possibilites
Link NOC:Innovation by Design Lecture 25 - More Experiments
Link NOC:Innovation by Design Lecture 26 - Understanding the Technology
Link NOC:Innovation by Design Lecture 27 - At the 2nd Valley of Death
Link NOC:Innovation by Design Lecture 28 - Finishing Touches
Link NOC:Innovation by Design Lecture 29 - The Check
Link NOC:Innovation by Design Lecture 30 - The Cause
Link NOC:Innovation by Design Lecture 31 - The Product, the Users and the Context
Link NOC:Innovation by Design Lecture 32 - The Prototyping
Link NOC:Innovation by Design Lecture 33 - User needs
Link NOC:Innovation by Design Lecture 34 - The Crucial Step Missed
Link NOC:Innovation by Design Lecture 35 - 5th C The Conception
Link NOC:Innovation by Design Lecture 36 - Synchronic Studies
Link NOC:Innovation by Design Lecture 37 - One product, many problems
Link NOC:Innovation by Design Lecture 38 - Concept Clusters
Link NOC:Innovation by Design Lecture 39 - From idea to product
Link NOC:Innovation by Design Lecture 40 - Prototyping
Link NOC:Innovation by Design Lecture 41 - Materials and Technologies
Link NOC:Innovation by Design Lecture 42 - Collaborative Efforts
Link NOC:Innovation by Design Lecture 43 - 6th C - The Crafting
Link NOC:Innovation by Design Lecture 44 - Recap
Link NOC:Innovation by Design Lecture 45 - The Manufacturing Challenge
Link NOC:Innovation by Design Lecture 46 - The User Feedback
Link NOC:Innovation by Design Lecture 47 - The Iterative Process
Link NOC:Innovation by Design Lecture 48 - 7th C - The Connection
Link NOC:Innovation by Design Lecture 49 - The Seed for Innovation
Link NOC:Innovation by Design Lecture 50 - Pinnacle for Innovation
Link NOC:Innovation by Design Lecture 51 - The Innovation Timeline
Link NOC:Innovation by Design Lecture 52 - The Innovation Champions
Link NOC:Innovation by Design Lecture 53 - The Innovation Domains
Link NOC:Innovation by Design Lecture 54 - The Innovation Templates
Link NOC:Innovation by Design Lecture 55 - The Serial Innovation
Link NOC:Understanding Design Lecture 1 - An Introduction to Design
Link NOC:Understanding Design Lecture 2 - The many notions of design
Link NOC:Understanding Design Lecture 3 - Design as a process and a product
Link NOC:Understanding Design Lecture 4 - The evolution of design
Link NOC:Understanding Design Lecture 5 - Design engages with many disciplines
Link NOC:Understanding Design Lecture 6 - Design is concerned with the user
Link NOC:Understanding Design Lecture 7 - Good design, bad design
Link NOC:Understanding Design Lecture 8 - Users and Contexts
Link NOC:Understanding Design Lecture 9 - Multiple users, differing contexts
Link NOC:Understanding Design Lecture 10 - Understanding user experience
Link NOC:Understanding Design Lecture 11 - Design for a meaningful impact
Link NOC:Understanding Design Lecture 12 - Design and Society
Link NOC:Understanding Design Lecture 13 - Community and Collaboration
Link NOC:Understanding Design Lecture 14 - Understanding Contexts
Link NOC:Understanding Design Lecture 15 - Knowledge and Access
Link NOC:Understanding Design Lecture 16 - Meeting Needs: Necessity or Luxury?
Link NOC:Understanding Design Lecture 17 - Function, Context and Consequences
Link NOC:Understanding Design Lecture 18 - Design and Sustainability
Link NOC:Understanding Design Lecture 19 - The cost of looking the other way
Link NOC:Understanding Design Lecture 20 - Sustainability practices in daily life
Link NOC:Understanding Design Lecture 21 - The perspective of engineering
Link NOC:Understanding Design Lecture 22 - Understanding embodied energy
Link NOC:Understanding Design Lecture 23 - The user’s role in sustainability
Link NOC:Understanding Design Lecture 24 - Framing the world’s future
Link NOC:Understanding Design Lecture 25 - Design and industry
Link NOC:Understanding Design Lecture 26 - Understanding varied user needs
Link NOC:Understanding Design Lecture 27 - Success through new materials and manufacturing
Link NOC:Understanding Design Lecture 28 - Pushing the boundaries of mass production
Link NOC:Understanding Design Lecture 29 - A Classic chair for all times
Link NOC:Understanding Design Lecture 30 - Breaking familiar assumptions
Link NOC:Understanding Design Lecture 31 - Design and Collaboration
Link NOC:Understanding Design Lecture 32 - Team work
Link NOC:Understanding Design Lecture 33 - Collaborating with unlikely partners
Link NOC:Understanding Design Lecture 34 - Principles of collaboration
Link NOC:Understanding Design Lecture 35 - Design thinking
Link NOC:Understanding Design Lecture 36 - Feedback and assessment
Link NOC:Understanding Design Lecture 37 - Innovation by Design
Link NOC:Understanding Design Lecture 38 - Facilitating the reach of a traditional craft
Link NOC:Understanding Design Lecture 39 - Pitfalls of innovation
Link NOC:Understanding Design Lecture 40 - The seven concerns of innovation
Link NOC:Understanding Design Lecture 41 - From a concern to a palki
Link NOC:Understanding Design Lecture 42 - A little design goes a long way
Link Ergonomics for beginners: Industrial design perspective Lecture 1 - Introduction
Link Ergonomics for beginners: Industrial design perspective Lecture 2 - Design today - human aid to lifestyle
Link Ergonomics for beginners: Industrial design perspective Lecture 3 - Journey, fitting task to man
Link Ergonomics for beginners: Industrial design perspective Lecture 4 - Domain, philosophy and objective
Link Ergonomics for beginners: Industrial design perspective Lecture 5 - Mutual task comfort: two way dialogue, communication model
Link Ergonomics for beginners: Industrial design perspective Lecture 6 - Ergonomics/ human factors fundamentals
Link Ergonomics for beginners: Industrial design perspective Lecture 7 - Physiology, (work physiology) and stress
Link Ergonomics for beginners: Industrial design perspective Lecture 8 - Human body - structure and function, anthropometrics
Link Ergonomics for beginners: Industrial design perspective Lecture 9 - Anthropometry: body growth and somatotypes
Link Ergonomics for beginners: Industrial design perspective Lecture 10 - Static and synamic anthropometry: standing
Link Ergonomics for beginners: Industrial design perspective Lecture 11 - Anthropometry landmark: sitting postures
Link Ergonomics for beginners: Industrial design perspective Lecture 12 - Anthropometry : squatting and cross-legged postures
Link Ergonomics for beginners: Industrial design perspective Lecture 13 - Measuring techniques
Link Ergonomics for beginners: Industrial design perspective Lecture 14 - Statistical treatment of data and
Link Ergonomics for beginners: Industrial design perspective Lecture 15 - Human body-structure and function
Link Ergonomics for beginners: Industrial design perspective Lecture 16 - Posture and job relation
Link Ergonomics for beginners: Industrial design perspective Lecture 17 - Posture and body supportive devices
Link Ergonomics for beginners: Industrial design perspective Lecture 18 - Chair characteristics
Link Ergonomics for beginners: Industrial design perspective Lecture 19 - Vertical work surface
Link Ergonomics for beginners: Industrial design perspective Lecture 20 - Horizontal work surface
Link Ergonomics for beginners: Industrial design perspective Lecture 21 - Movement
Link Ergonomics for beginners: Industrial design perspective Lecture 22 - Work Counter
Link Ergonomics for beginners: Industrial design perspective Lecture 23 - Communication and cognitive issues
Link Ergonomics for beginners: Industrial design perspective Lecture 24 - Psycho-social behaviour aspects,
Link Ergonomics for beginners: Industrial design perspective Lecture 25 - Information processing and perception
Link Ergonomics for beginners: Industrial design perspective Lecture 26 - Cognitive aspects and mental workload
Link Ergonomics for beginners: Industrial design perspective Lecture 27 - Human error and risk perception
Link Ergonomics for beginners: Industrial design perspective Lecture 28 - Visual performance
Link Ergonomics for beginners: Industrial design perspective Lecture 29 - Visual displays
Link Ergonomics for beginners: Industrial design perspective Lecture 30 - Environmental factors influencing
Link Ergonomics for beginners: Industrial design perspective Lecture 31 - Ergonomics design methodology
Link Ergonomics for beginners: Industrial design perspective Lecture 32 - Ergonomics criteria/check
Link Ergonomics for beginners: Industrial design perspective Lecture 33 - Design process involving
Link Ergonomics for beginners: Industrial design perspective Lecture 34 - Some checklist for task easiness
Link Ergonomics for beginners: Industrial design perspective Lecture 35 - Occupational safety and stress at workplace
Link Ergonomics for beginners: Industrial design perspective Lecture 36 - Workstation design
Link Ergonomics for beginners: Industrial design perspective Lecture 37 - Furniture support
Link Ergonomics for beginners: Industrial design perspective Lecture 38 - Vertical arm reach and relevant
Link Ergonomics for beginners: Industrial design perspective Lecture 39 - Humanising design :Design and human compatibility, comfort and adaptability aspects
Link Ergonomics for beginners: Industrial design perspective Lecture 40 - Scope for exploration
Link NOC:System Design for Sustainability Lecture 1 - Sustainability and Sustainable Development - Understanding Un-sustainability and need for Sustainability
Link NOC:System Design for Sustainability Lecture 2 - Sustainability and Sustainable Development - Definitions
Link NOC:System Design for Sustainability Lecture 3 - Sustainability and Sustainable Development - Pathway
Link NOC:System Design for Sustainability Lecture 4 - Systems Approach to Design
Link NOC:System Design for Sustainability Lecture 5 - Evolution of sustainability within Design
Link NOC:System Design for Sustainability Lecture 6 - Diverse Approaches to Design for Sustainability - Part A
Link NOC:System Design for Sustainability Lecture 7 - Diverse Approaches to Design for Sustainability - Part B
Link NOC:System Design for Sustainability Lecture 8 - Relationship between approaches to Design for Sustainability and the application context
Link NOC:System Design for Sustainability Lecture 9 - Product Life Cycle Design - Methods and Strategies
Link NOC:System Design for Sustainability Lecture 10 - Product Life Cycle Assessment - Part A
Link NOC:System Design for Sustainability Lecture 11 - Product Life Cycle Assessment - Part B
Link NOC:System Design for Sustainability Lecture 12 - Life Cycle Assessment using Software
Link NOC:System Design for Sustainability Lecture 13 - Design for Product Life Cycle
Link NOC:System Design for Sustainability Lecture 14 - Product-Service System Design - Definition and Types
Link NOC:System Design for Sustainability Lecture 15 - Sustainable Product-Service System Design - Definition and Examples
Link NOC:System Design for Sustainability Lecture 16 - Sustainable Product-Service System Design - Examples
Link NOC:System Design for Sustainability Lecture 17 - Khadi Movement as a precursor to PSS thinking
Link NOC:System Design for Sustainability Lecture 18 - Sustainable Product-Service System Design - Transition Paths, Strategy and Challenges
Link NOC:System Design for Sustainability Lecture 19 - Sustainable Product-Service System Design - Methods and Tools - Part A
Link NOC:System Design for Sustainability Lecture 20 - Sustainable Product-Service System Design - Methods and Tools - Part B
Link NOC:System Design for Sustainability Lecture 21 - Sustainable Product-Service System Design - Methods and Tools - Part C
Link NOC:System Design for Sustainability Lecture 22 - Sustainable Product-Service System Design - Methods and Tools - Part D
Link NOC:System Design for Sustainability Lecture 23 - Sustainable Product-Service System Design - Methods and Tools - Part E
Link NOC:System Design for Sustainability Lecture 24 - Sustainable Product-Service System Design - Methods and Tools - Part F
Link NOC:System Design for Sustainability Lecture 25 - Sustainable Product-Service System Design - Methods and Tools - Part G
Link NOC:System Design for Sustainability Lecture 26 - Sustainable Product-Service System Design - Methods and Tools (Summary)
Link NOC:System Design for Sustainability Lecture 27 - Sufficiency Economy Philosophy applied to Sustainable PSS Thinking
Link NOC:System Design for Sustainability Lecture 28 - LCA of PSS
Link NOC:System Design for Sustainability Lecture 29 - Sustainable Product-Service System Design Applied to Distributed Economy
Link NOC:System Design for Sustainability Lecture 30 - Other Design for Sustainability Tools and approaches - Architecture
Link NOC:System Design for Sustainability Lecture 31 - Other Design for Sustainability Tools and approaches - Agriculture
Link NOC:System Design for Sustainability Lecture 32 - Other Design for Sustainability Tools and approaches - Cities and communities
Link NOC:System Design for Sustainability Lecture 33 - Other Design for Sustainability Tools and approaches - Carbon Footprint
Link NOC:System Design for Sustainability Lecture 34 - Co-design Session
Link NOC:System Design for Sustainability Lecture 35 - Design for Sustainability - Engineering Design Criteria and Guidelines
Link NOC:System Design for Sustainability Lecture 36 - Design for Sustainability - Engineering Design Criteria and Guidelines (ICS Toolkit)
Link NOC:System Design for Sustainability Lecture 37 - Design for Sustainability - Concluding Lecture - Part A
Link NOC:System Design for Sustainability Lecture 38 - Design for Sustainability - Concluding Lecture - Part B
Link NOC:Product Design and Innovation Lecture 1 - Introduction to Innovation
Link NOC:Product Design and Innovation Lecture 2 - Design Inspired Innovation and User Innovation
Link NOC:Product Design and Innovation Lecture 3 - Product Design - Part I
Link NOC:Product Design and Innovation Lecture 4 - Product Design - Part II
Link NOC:Product Design and Innovation Lecture 5 - Product Design - Part III
Link NOC:Product Design and Innovation Lecture 6 - Introduction to User study and Problem and need Identification
Link NOC:Product Design and Innovation Lecture 7 - Contextual Enquiry
Link NOC:Product Design and Innovation Lecture 8 - Physical model
Link NOC:Product Design and Innovation Lecture 9 - Importance and Overview of Human Factors/Ergonomics in Product Design
Link NOC:Product Design and Innovation Lecture 10 - Physical Ergonomics Principles and Issues (Part 1) - Anthropometry
Link NOC:Product Design and Innovation Lecture 11 - Physical Ergonomics Principles and Issues (Part 2) - Biomechanics
Link NOC:Product Design and Innovation Lecture 12 - Cognitive and Emotional aspects of Human Factors with respect to Product Design and Innovation
Link NOC:Product Design and Innovation Lecture 13 - Creative Techniques and tools for concept generation, concept evaluation
Link NOC:Product Design and Innovation Lecture 14 - Tools and Techniques for Prototyping
Link NOC:Product Design and Innovation Lecture 15 - Evaluation Tools and Techniques for User-Product Interaction
Link NOC:Interaction Design Lecture 1 - Basic Definitions and Concepts in Interaction Design
Link NOC:Interaction Design Lecture 2 - Relevance of goals in Interaction Design
Link NOC:Interaction Design Lecture 3 - System model, mental model, and representation model
Link NOC:Interaction Design Lecture 4 - Interaction Models and Interaction Paradigms
Link NOC:Interaction Design Lecture 5 - Interaction paradigm
Link NOC:Interaction Design Lecture 6 - Overview of Goal Directed Design Process
Link NOC:Interaction Design Lecture 7 - The Research phase in Goal Directed Design Process - Part 1
Link NOC:Interaction Design Lecture 8 - The Research phase in Goal Directed Design Process - Part 2
Link NOC:Interaction Design Lecture 9 - The Research phase in Goal Directed Design Process - Part 3
Link NOC:Interaction Design Lecture 10 - The Modeling phase in Goal Directed Design Process
Link NOC:Interaction Design Lecture 11 - The Requirement definition phase in Goal Directed Design Process - Part 1
Link NOC:Interaction Design Lecture 12 - The Requirement definition phase in Goal Directed Design Process - Part 2
Link NOC:Interaction Design Lecture 13 - The Framework definition and refinement phase in Goal Directed Design Process - Interaction framework
Link NOC:Interaction Design Lecture 14 - The Framework definition and refinement phase in Goal Directed Design Process - Visual design and industrial design framework
Link NOC:Interaction Design Lecture 15 - Design evaluation and testing
Link NOC:Ergonomics in Automotive Design Lecture 1 - Introduction to Automotive Ergonomics
Link NOC:Ergonomics in Automotive Design Lecture 2 - Driver Information Acquisition and Processing
Link NOC:Ergonomics in Automotive Design Lecture 3 - Anthropometric and Biomechanical Data in Automotive Design
Link NOC:Ergonomics in Automotive Design Lecture 4 - Occupant Packaging : Basics and Details
Link NOC:Ergonomics in Automotive Design Lecture 5 - Principles of Control and Display Design
Link NOC:Ergonomics in Automotive Design Lecture 6 - Usability evaluation of In-vehicle control and displays
Link NOC:Ergonomics in Automotive Design Lecture 7 - Human Fields of View and Driver's Fields of View
Link NOC:Ergonomics in Automotive Design Lecture 8 - Vehicle Entry and Exit : Basics and Details
Link NOC:Ergonomics in Automotive Design Lecture 9 - Driver Distraction and Driving Performance Measurement
Link NOC:Ergonomics in Automotive Design Lecture 10 - Driver Workload Measurement
Link NOC:Ergonomics in Automotive Design Lecture 11 - Virtual Ergonomics Evaluation Technique and its application in Automotive Design
Link NOC:Ergonomics in Automotive Design Lecture 12 - Automotive Craftsmanship
Link NOC:Ergonomics Workplace Analysis Lecture 1 - Introduction to Ergonomics Workplace Assessment - I
Link NOC:Ergonomics Workplace Analysis Lecture 2 - Introduction to Ergonomics Workplace Assessment - II
Link NOC:Ergonomics Workplace Analysis Lecture 3 - Task Analysis
Link NOC:Ergonomics Workplace Analysis Lecture 4 - Physiological Fundamentals of Workplace Evaluation
Link NOC:Ergonomics Workplace Analysis Lecture 5 - Biomechanics in Workplace Evaluation
Link NOC:Ergonomics Workplace Analysis Lecture 6 - Assessment of Physical Job Demand
Link NOC:Ergonomics Workplace Analysis Lecture 7 - Assessment of Physical and Cognitive Work with Psychophysiological Methods
Link NOC:Ergonomics Workplace Analysis Lecture 8 - Assessment of Physical and Cognitive Work with Psychophysiological Methods
Link NOC:Ergonomics Workplace Analysis Lecture 9 - Assessment of Mental Workload
Link NOC:Ergonomics Workplace Analysis Lecture 10 - Neuroergonomics in Work Evaluation
Link NOC:Ergonomics Workplace Analysis Lecture 11 - Psychosocial Aspect of Workplace Analysis
Link NOC:Ergonomics Workplace Analysis Lecture 12 - Assessment of Thermal Environment
Link NOC:Ergonomics Workplace Analysis Lecture 13 - Assessment of Visual Environment
Link NOC:Ergonomics Workplace Analysis Lecture 14 - Analysis of Auditory Environment and Noise Pollution
Link Principles of Engineering System Design Lecture 1 - Introduction to system Design
Link Principles of Engineering System Design Lecture 2 - Engineering systems Classification & examples
Link Principles of Engineering System Design Lecture 3 - Modern System design processes
Link Principles of Engineering System Design Lecture 4 - Six functions of design process
Link Principles of Engineering System Design Lecture 5 - Tools for enabling creative development
Link Principles of Engineering System Design Lecture 6 - Team Development : Group Exercises
Link Principles of Engineering System Design Lecture 7 - System Requirement Analysis
Link Principles of Engineering System Design Lecture 8 - Originating Requirements: Example System Engineering software -CORE
Link Principles of Engineering System Design Lecture 9 - Functional Architecture Development
Link Principles of Engineering System Design Lecture 10 - Functional Decomposition
Link Principles of Engineering System Design Lecture 11 - Functional Decomposition : Examples
Link Principles of Engineering System Design Lecture 12 - Physical Architecture Development
Link Principles of Engineering System Design Lecture 13 - Implementing Fault Tolerance in Physical Architecture
Link Principles of Engineering System Design Lecture 14 - Operational Architecture Development - Part I
Link Principles of Engineering System Design Lecture 15 - Operational Architecture Development - Part II
Link Principles of Engineering System Design Lecture 16 - Interface architecture Development
Link Principles of Engineering System Design Lecture 17 - Interface standards and Design process
Link Principles of Engineering System Design Lecture 18 - Integration and qualification
Link Principles of Engineering System Design Lecture 19 - Qualification planning and methods
Link Principles of Engineering System Design Lecture 20 - System Design Example: Autolink system
Link Principles of Engineering System Design Lecture 21 - System Design Examples
Link Principles of Engineering System Design Lecture 22 - System Design Examples (Continued...)
Link Principles of Engineering System Design Lecture 23 - Graphical Modelling Techniques
Link Principles of Engineering System Design Lecture 24 - Process modeling
Link Principles of Engineering System Design Lecture 25 - Behavior modeling
Link Principles of Engineering System Design Lecture 26 - Graphical Modelling Techniques (Continued...)
Link Principles of Engineering System Design Lecture 27 - System modeling and simulation
Link Principles of Engineering System Design Lecture 28 - Bondgraph modeling of Dyanamic systems
Link Principles of Engineering System Design Lecture 29 - Decision making in System Design
Link Principles of Engineering System Design Lecture 30 - Decision making in System Design (Continued...)
Link Vehicle Dynamics Lecture 1 - Introduction to Vehicle Dynamics
Link Vehicle Dynamics Lecture 2 - Longitudinal Dynamics
Link Vehicle Dynamics Lecture 3 - Vehicle Load Distribution - Acceleration and Braking
Link Vehicle Dynamics Lecture 4 - Brake Force Distribution, Braking Efficiency and Braking Distance
Link Vehicle Dynamics Lecture 5 - Tractor - Semi Trailer
Link Vehicle Dynamics Lecture 6 - Tire Mechanics - An Introduction
Link Vehicle Dynamics Lecture 7 - Mechanical Properties of Rubber
Link Vehicle Dynamics Lecture 8 - Slip, Grip and Rolling Resistance
Link Vehicle Dynamics Lecture 9 - Tire Construction and Force Development
Link Vehicle Dynamics Lecture 10 - Contact Patch and Contact Pressure Distribution
Link Vehicle Dynamics Lecture 11 - Tire Brush Model
Link Vehicle Dynamics Lecture 12 - Lateral Force Generation
Link Vehicle Dynamics Lecture 13 - Ply Steer and Conicity - Part 1
Link Vehicle Dynamics Lecture 14 - Ply Steer and Conicity - Part 2
Link Vehicle Dynamics Lecture 15 - Tire Models - Magic Formula
Link Vehicle Dynamics Lecture 16 - Classification of Tyre Models and Combined Slip
Link Vehicle Dynamics Lecture 17 - Lateral Dynamics - An Introduction
Link Vehicle Dynamics Lecture 18 - Lateral Dynamics - Bicycle Model
Link Vehicle Dynamics Lecture 19 - Lateral Dynamics - Stability and Steering Conditions
Link Vehicle Dynamics Lecture 20 - Understeer Gradient and State Space Approach
Link Vehicle Dynamics Lecture 21 - Handling Response of a Vehicle
Link Vehicle Dynamics Lecture 22 - Mimuro Plot for Lateral Transient Response - Part 1
Link Vehicle Dynamics Lecture 23 - Mimuro Plot for Lateral Transient Response - Part 2
Link Vehicle Dynamics Lecture 24 - Parameters affecting vehicle handling characteristics
Link Vehicle Dynamics Lecture 25 - Subjective and Objective Evaluation of Vehicle Handling - Part 1
Link Vehicle Dynamics Lecture 26 - Subjective and Objective Evaluation of Vehicle Handling - Part 2
Link Vehicle Dynamics Lecture 27 - Subjective and Objective Evaluation of Vehicle Handling and Rollover P
Link Vehicle Dynamics Lecture 28 - Rollover Prevention (Continued...) and Vertical Dynamics
Link Vehicle Dynamics Lecture 29 - Vertical Dynamics - An Introduction
Link Vehicle Dynamics Lecture 30 - Vertical Dynamics - Quarter Car Model
Link Vehicle Dynamics Lecture 31 - Noise, Vibration and Harshness - Random Processes
Link Vehicle Dynamics Lecture 32 - Random Process and Conclusion (Continued...)
Link NOC:Control Systems Lecture 1 - Introduction to Control Systems - Part 1
Link NOC:Control Systems Lecture 2 - Introduction to Control Systems - Part 2
Link NOC:Control Systems Lecture 3 - Overview of Feedback Control Systems - Part 1
Link NOC:Control Systems Lecture 4 - Overview of Feedback Control Systems - Part 2
Link NOC:Control Systems Lecture 5 - Mathematical Preliminaries - Part 1
Link NOC:Control Systems Lecture 6 - Mathematical Preliminaries - Part 2
Link NOC:Control Systems Lecture 7 - Transfer Function - Part 1
Link NOC:Control Systems Lecture 8 - Transfer Function - Part 2
Link NOC:Control Systems Lecture 9 - System Response - Part 1
Link NOC:Control Systems Lecture 10 - System Response - Part 2
Link NOC:Control Systems Lecture 11 - BIBO Stability - Part 1
Link NOC:Control Systems Lecture 12 - BIBO Stability - Part 2
Link NOC:Control Systems Lecture 13 - Effect of Zeros - Part 1
Link NOC:Control Systems Lecture 14 - Effect of Zeros - Part 2
Link NOC:Control Systems Lecture 15 - Closed Loop System - Part 1
Link NOC:Control Systems Lecture 16 - Closed Loop System - Part 2
Link NOC:Control Systems Lecture 17 - First Order Systems - Part 1
Link NOC:Control Systems Lecture 18 - First Order Systems - Part 2
Link NOC:Control Systems Lecture 19 - Second Order Systems - Part 1
Link NOC:Control Systems Lecture 20 - Second Order Systems - Part 2
Link NOC:Control Systems Lecture 21 - Controllers - Part 1
Link NOC:Control Systems Lecture 22 - Controllers - Part 2
Link NOC:Control Systems Lecture 23 - Closed Loop Control - Part 1
Link NOC:Control Systems Lecture 24 - Closed Loop Control - Part 2
Link NOC:Control Systems Lecture 25 - Routh's Stabilty Criterion - Part 1
Link NOC:Control Systems Lecture 26 - Routh's Stabilty Criterion - Part 2
Link NOC:Control Systems Lecture 27 - Special Cases of Routh's Stability Criterion - Part 1
Link NOC:Control Systems Lecture 28 - Special Cases of Routh's Stability Criterion - Part 2
Link NOC:Control Systems Lecture 29 - Performance Specifications - Part 1
Link NOC:Control Systems Lecture 30 - Performance Specifications - Part 2
Link NOC:Control Systems Lecture 31 - Steady State Error Analysis - Part 1
Link NOC:Control Systems Lecture 32 - Steady State Error Analysis - Part 2
Link NOC:Control Systems Lecture 33 - Root Locus 1 - Part 1
Link NOC:Control Systems Lecture 34 - Root Locus 1 - Part 2
Link NOC:Control Systems Lecture 35 - Root Locus 2 - Part 1
Link NOC:Control Systems Lecture 36 - Root Locus 2 - Part 2
Link NOC:Control Systems Lecture 37 - Root Locus 3 - Part 1
Link NOC:Control Systems Lecture 38 - Root Locus 3 - Part 2
Link NOC:Control Systems Lecture 39 - Root Locus 4 - Part 1
Link NOC:Control Systems Lecture 40 - Root Locus 4 - Part 2
Link NOC:Control Systems Lecture 41 - Case Study - Modelling - Part 1
Link NOC:Control Systems Lecture 42 - Case Study - Modelling - Part 2
Link NOC:Control Systems Lecture 43 - Case Study - Control Design - Part 1
Link NOC:Control Systems Lecture 44 - Case Study - Control Design - Part 2
Link NOC:Control Systems Lecture 45 - State Space Representation - Part 1
Link NOC:Control Systems Lecture 46 - State Space Representation - Part 2
Link NOC:Control Systems Lecture 47 - Frequency Response - Part 1
Link NOC:Control Systems Lecture 48 - Frequency Response - Part 2
Link NOC:Control Systems Lecture 49 - Bode Plot 1 - Part 1
Link NOC:Control Systems Lecture 50 - Bode Plot 1 - Part 2
Link NOC:Control Systems Lecture 51 - Bode Plot 2 - Part 1
Link NOC:Control Systems Lecture 52 - Bode Plot 2 - Part 2
Link NOC:Control Systems Lecture 53 - Bode Plot 3 - Part 1
Link NOC:Control Systems Lecture 54 - Bode Plot 3 - Part 2
Link NOC:Control Systems Lecture 55 - Bode Plot 4 - Part 1
Link NOC:Control Systems Lecture 56 - Bode Plot 4 - Part 2
Link NOC:Control Systems Lecture 57 - Nyquist Plot 1 - Part 1
Link NOC:Control Systems Lecture 58 - Nyquist Plot 1 - Part 2
Link NOC:Control Systems Lecture 59 - Nyquist Plot 2 - Part 1
Link NOC:Control Systems Lecture 60 - Nyquist Plot 2 - Part 2
Link NOC:Control Systems Lecture 61 - Nyquist Stability Criterion - Part 1
Link NOC:Control Systems Lecture 62 - Nyquist Stability Criterion - Part 2
Link NOC:Control Systems Lecture 63 - Relative Stability 1 - Part 1
Link NOC:Control Systems Lecture 64 - Relative Stability 1 - Part 2
Link NOC:Control Systems Lecture 65 - Relative Stability 2 - Part 1
Link NOC:Control Systems Lecture 66 - Relative Stability 2 - Part 2
Link NOC:Control Systems Lecture 67 - Lead Compensation - Part 1
Link NOC:Control Systems Lecture 68 - Lead Compensation - Part 2
Link NOC:Control Systems Lecture 69 - Lead Compensator Design - Part 1
Link NOC:Control Systems Lecture 70 - Lead Compensator Design - Part 2
Link NOC:Control Systems Lecture 71 - Lag and Lag-Lead Compensation - Part 1
Link NOC:Control Systems Lecture 72 - Lag and Lag-Lead Compensation - Part 2
Link Nonlinear Dynamical Systems Lecture 1 - Introduction
Link Nonlinear Dynamical Systems Lecture 2 - First Order systems
Link Nonlinear Dynamical Systems Lecture 3 - Classification of Equilibrium points
Link Nonlinear Dynamical Systems Lecture 4 - Lipschitz Functions
Link Nonlinear Dynamical Systems Lecture 5 - Existence/uniqueness theorems
Link Nonlinear Dynamical Systems Lecture 6 - Existence/uniqueness of solutions to differential equations
Link Nonlinear Dynamical Systems Lecture 7 - Lyapunov theorem on stability
Link Nonlinear Dynamical Systems Lecture 8 - Extension of Lyapunov's Theorem in different contexts
Link Nonlinear Dynamical Systems Lecture 9 - LaSalle's Invariance principle, Barbashin and Krasovski theorems, periodic orbits
Link Nonlinear Dynamical Systems Lecture 10 - Bendixson criterion and Poincare-Bendixson criterion. Example: Lotka Volterra predator prey model
Link Nonlinear Dynamical Systems Lecture 11 - Bendixson and Poincare-Bendixson criteria van-der-Pol Oscillator
Link Nonlinear Dynamical Systems Lecture 12 - Scilab simulation of Lotka Volterra predator prey model, van-der-Pol Oscillator Review of linearization, operating point/operating trajectory
Link Nonlinear Dynamical Systems Lecture 13 - Signals, operators
Link Nonlinear Dynamical Systems Lecture 14 - Norms of signals, systems (operators), Finite gain L2 stable
Link Nonlinear Dynamical Systems Lecture 15 - Nyquist plots and Nyquist criterion for stability
Link Nonlinear Dynamical Systems Lecture 16 - Interconnection between linear system & non-linearity, passive filters
Link Nonlinear Dynamical Systems Lecture 17 - Passive filters, Dissipation equality, positive real lemma
Link Nonlinear Dynamical Systems Lecture 18 - Positive real lemma proof
Link Nonlinear Dynamical Systems Lecture 19 - Definition for positive realness and Kalman Yakubovich-Popov Theorem
Link Nonlinear Dynamical Systems Lecture 20 - Kalman-Yakubovich-Popov Lemma/theorem and memoryless nonlinearities
Link Nonlinear Dynamical Systems Lecture 21 - Loop tranformations and circle criterion
Link Nonlinear Dynamical Systems Lecture 22 - Nonlinearities based on circle criterion
Link Nonlinear Dynamical Systems Lecture 23 - Limit cycles
Link Nonlinear Dynamical Systems Lecture 24 - Popov criterion continuous, frequency-domain theorem
Link Nonlinear Dynamical Systems Lecture 25 - Popov criterion continuous, frequency-domain theorem
Link Nonlinear Dynamical Systems Lecture 26 - Describing function method
Link Nonlinear Dynamical Systems Lecture 27 - Describing Function : 2
Link Nonlinear Dynamical Systems Lecture 28 - Describing : optimal gain
Link Nonlinear Dynamical Systems Lecture 29 - Describing : optimal gain
Link Nonlinear Dynamical Systems Lecture 30 - Describing functions : Jump Hysteresis
Link Nonlinear Dynamical Systems Lecture 31 - Describing functions : sufficient conditions for existence of periodic orbits non existence of periodic orbits
Link Nonlinear Dynamical Systems Lecture 32 - Describing functions for nonlinearities
Link Nonlinear Dynamical Systems Lecture 33 - Ideal relay with Hysteresis and dead zone
Link Nonlinear Dynamical Systems Lecture 34 - Dynamical systems on manifolds-1
Link Nonlinear Dynamical Systems Lecture 35 - Dynamical systems on manifolds-2
Link Power System Dynamics and Control Lecture 1 - Introduction
Link Power System Dynamics and Control Lecture 2 - Introduction
Link Power System Dynamics and Control Lecture 3 - Analysis of Dynamical Systems
Link Power System Dynamics and Control Lecture 4 - Analysis of Dynamical Systems (Continued.)
Link Power System Dynamics and Control Lecture 5 - Analysis of LINEAR Time Invariant Dynamical Systems
Link Power System Dynamics and Control Lecture 6 - Analysis of LINEAR Time Invariant Dynamical Systems (Continued.)
Link Power System Dynamics and Control Lecture 7 - Stiff Systems, Multi Time Scale Modeling
Link Power System Dynamics and Control Lecture 8 - Numerical Integration
Link Power System Dynamics and Control Lecture 9 - Numerical Integration (Continued.)
Link Power System Dynamics and Control Lecture 10 - Numerical Integration (Continued.)
Link Power System Dynamics and Control Lecture 11 - Modeling of Synchronous Machines
Link Power System Dynamics and Control Lecture 12 - Modeling of Synchronous Machines (Continued.)
Link Power System Dynamics and Control Lecture 13 - Modeling of Synchronous Machines (Continued.)
Link Power System Dynamics and Control Lecture 14 - Modeling of Synchronous Machines. dq0 transformation (Continued.)
Link Power System Dynamics and Control Lecture 15 - Modeling of Synchronous Machines. Standard Parameters
Link Power System Dynamics and Control Lecture 16 - Modeling of Synchronous Machines. Standard Parameters
Link Power System Dynamics and Control Lecture 17 - Synchronous Generator Models using Standard Parameters
Link Power System Dynamics and Control Lecture 18 - Synchronous Generator Models using Standard Parameters. PER UNIT REPRESENTATION
Link Power System Dynamics and Control Lecture 19 - Open Circuit Response of a Synchronous Generator
Link Power System Dynamics and Control Lecture 20 - Synchronous Machine Modeling. Short Circuit Analysis (Continued.)
Link Power System Dynamics and Control Lecture 21 - Synchronous Machine Modeling. Short Circuit Analysis (Continued.) Synchronization of a Synchronous Machine
Link Power System Dynamics and Control Lecture 22 - Synchronization of a Synchronous Machine (Continued.)
Link Power System Dynamics and Control Lecture 23 - Simplified Synchronous Machine Models
Link Power System Dynamics and Control Lecture 24 - Excitation Systems
Link Power System Dynamics and Control Lecture 25 - Excitation System Modeling
Link Power System Dynamics and Control Lecture 26 - Excitation System Modeling. Automatic Voltage Regulator
Link Power System Dynamics and Control Lecture 27 - Excitation System Modeling. Automatic Voltage Regulator (Continued.)
Link Power System Dynamics and Control Lecture 28 - Excitation System Modeling. Automatic Voltage Regulator (Simulation)
Link Power System Dynamics and Control Lecture 29 - Excitation System Modeling. Automatic Voltage Regulator (Simulation) – (Continued.)
Link Power System Dynamics and Control Lecture 30 - Excitation System Modeling. Automatic Voltage Regulator. Linearized Analysis
Link Power System Dynamics and Control Lecture 31 - Load Modeling
Link Power System Dynamics and Control Lecture 32 - Induction Machines, Transmission Lines
Link Power System Dynamics and Control Lecture 33 - Transmission Lines. Prime Mover Systems
Link Power System Dynamics and Control Lecture 34 - Transmission Lines (Continued.) Prime Mover Systems
Link Power System Dynamics and Control Lecture 35 - Prime Mover Systems. Stability in Integrated Power System
Link Power System Dynamics and Control Lecture 36 - Stability in Integrated Power System: Two Machine Example
Link Power System Dynamics and Control Lecture 37 - Two Machine System (Continued.)
Link Power System Dynamics and Control Lecture 38 - Stability in Integrated Power System: Large Systems
Link Power System Dynamics and Control Lecture 39 - Frequency/Angular Stability Programs. Stability Phenomena: Voltage Stability Example
Link Power System Dynamics and Control Lecture 40 - Voltage Stability Example (Continued.). Fast Transients: Tools and Phenomena
Link Power System Dynamics and Control Lecture 41 - Torsional Transients: Phenomena of Sub-Synchronous Resonance
Link Power System Dynamics and Control Lecture 42 - Sub-Synchronous Resonance. Stability Improvement
Link Power System Dynamics and Control Lecture 43 - Stability Improvement
Link Power System Dynamics and Control Lecture 44 - Stability Improvement. Power System Stabilizers
Link Power System Dynamics and Control Lecture 45 - Stability Improvement (Large Disturbance Stability)
Link Control Engineering (Prof. S.D. Agashe) Lecture 1 - The Control Problem
Link Control Engineering (Prof. S.D. Agashe) Lecture 2 - Some More Examples
Link Control Engineering (Prof. S.D. Agashe) Lecture 3 - Different Kinds of Control Systems
Link Control Engineering (Prof. S.D. Agashe) Lecture 4 - History of Feedback
Link Control Engineering (Prof. S.D. Agashe) Lecture 5 - Modern Control Problems
Link Control Engineering (Prof. S.D. Agashe) Lecture 6 - DC Motor Speed Control
Link Control Engineering (Prof. S.D. Agashe) Lecture 7 - System Modelling, Analogy
Link Control Engineering (Prof. S.D. Agashe) Lecture 8 - Causes of System Error
Link Control Engineering (Prof. S.D. Agashe) Lecture 9 - Calculation of Error
Link Control Engineering (Prof. S.D. Agashe) Lecture 10 - Control System Sensitivity
Link Control Engineering (Prof. S.D. Agashe) Lecture 11 - Automatic Control of DC Motor
Link Control Engineering (Prof. S.D. Agashe) Lecture 12 - Proportional Control
Link Control Engineering (Prof. S.D. Agashe) Lecture 13 - Non-Unity Feedback
Link Control Engineering (Prof. S.D. Agashe) Lecture 14 - Signal-Flow Graph
Link Control Engineering (Prof. S.D. Agashe) Lecture 15 - Mason's Gain Formula
Link Control Engineering (Prof. S.D. Agashe) Lecture 16 - Signal-Flow Graph for DC Motor Control
Link Control Engineering (Prof. S.D. Agashe) Lecture 17 - Steady-State Calculations
Link Control Engineering (Prof. S.D. Agashe) Lecture 18 - Differential Equation Model and Laplace Transformation Model
Link Control Engineering (Prof. S.D. Agashe) Lecture 19 - D-Operator Method
Link Control Engineering (Prof. S.D. Agashe) Lecture 20 - Second-Order System Response
Link Control Engineering (Prof. S.D. Agashe) Lecture 21 - Frequency Response
Link Control Engineering (Prof. S.D. Agashe) Lecture 22 - Laplace Transformation Theorems
Link Control Engineering (Prof. S.D. Agashe) Lecture 23 - Final Value Theorem
Link Control Engineering (Prof. S.D. Agashe) Lecture 24 - Transfer Function and Pole-Zero Diagram
Link Control Engineering (Prof. S.D. Agashe) Lecture 25 - 'Good' Poles and 'Bad' Poles
Link Control Engineering (Prof. S.D. Agashe) Lecture 26 - Signal Flow Graph with Transfer Functions
Link Control Engineering (Prof. S.D. Agashe) Lecture 27 - s-Domain and t-Domain
Link Control Engineering (Prof. S.D. Agashe) Lecture 28 - Second-Order System Response in s-Domain
Link Control Engineering (Prof. S.D. Agashe) Lecture 29 - Integral Feedback
Link Control Engineering (Prof. S.D. Agashe) Lecture 30 - Root-Locus Method
Link Control Engineering (Prof. S.D. Agashe) Lecture 31 - Root-Locus Rules
Link Control Engineering (Prof. S.D. Agashe) Lecture 32 - Asymptotes of Root Locus
Link Control Engineering (Prof. S.D. Agashe) Lecture 33 - Routh Array
Link Control Engineering (Prof. S.D. Agashe) Lecture 34 - Singular Cases
Link Control Engineering (Prof. S.D. Agashe) Lecture 35 - Closed Loop Poles
Link Control Engineering (Prof. S.D. Agashe) Lecture 36 - Controller in the Forwarded Path
Link Control Engineering (Prof. S.D. Agashe) Lecture 37 - Mapping of Control in the Complex-Plane
Link Control Engineering (Prof. S.D. Agashe) Lecture 38 - Encirclement by a Curve
Link Control Engineering (Prof. S.D. Agashe) Lecture 39 - Nyquist Criterion
Link Control Engineering (Prof. S.D. Agashe) Lecture 40 - Application of the Nyquist Criterion
Link Control Engineering (Prof. S.D. Agashe) Lecture 41 - Polar Plot and Bode Plots
Link Control Engineering (Prof. S.D. Agashe) Lecture 42 - Logarithmic Scale for Frequency
Link Control Engineering (Prof. S.D. Agashe) Lecture 43 - 'Asymptotic' DB Gain
Link Control Engineering (Prof. S.D. Agashe) Lecture 44 - Compensating Network
Link Control Engineering (Prof. S.D. Agashe) Lecture 45 - Nichols' Chart
Link Control Engineering (Prof. S.D. Agashe) Lecture 46 - Time Domain Methods of Analysis and Design
Link Control Engineering (Prof. S.D. Agashe) Lecture 47 - State-Variable Equations
Link Power Electronics Lecture 1 - Power Electronics
Link Power Electronics Lecture 2 - Power Electronics
Link Power Electronics Lecture 3 - Power Electronics
Link Power Electronics Lecture 4 - Power Electronics
Link Power Electronics Lecture 5 - Power Electronics
Link Power Electronics Lecture 6 - Power Electronics
Link Power Electronics Lecture 7 - Power Electronics
Link Power Electronics Lecture 8 - Power Electronics
Link Power Electronics Lecture 9 - Power Electronics
Link Power Electronics Lecture 10 - Power Electronics
Link Power Electronics Lecture 11 - Power Electronics
Link Power Electronics Lecture 12 - Power Electronics
Link Power Electronics Lecture 13 - Power Electronics
Link Power Electronics Lecture 14 - Power Electronics
Link Power Electronics Lecture 15 - Power Electronics
Link Power Electronics Lecture 16 - Power Electronics
Link Power Electronics Lecture 17 - Power Electronics
Link Power Electronics Lecture 18 - Power Electronics
Link Power Electronics Lecture 19 - Power Electronics
Link Power Electronics Lecture 20 - Power Electronics
Link Power Electronics Lecture 21 - Power Electronics
Link Power Electronics Lecture 22 - Power Electronics
Link Power Electronics Lecture 23 - Power Electronics
Link Power Electronics Lecture 24 - Power Electronics
Link Power Electronics Lecture 25 - Power Electronics
Link Power Electronics Lecture 26 - Power Electronics
Link Power Electronics Lecture 27 - Power Electronics
Link Power Electronics Lecture 28 - Power Electronics
Link Power Electronics Lecture 29 - Power Electronics
Link Power Electronics Lecture 30 - Power Electronics
Link Power Electronics Lecture 31 - Power Electronics
Link Power Electronics Lecture 32 - Power Electronics
Link Power Electronics Lecture 33 - Power Electronics
Link Power Electronics Lecture 34 - Power Electronics
Link Power Electronics Lecture 35 - Power Electronics
Link Power Electronics Lecture 36 - Power Electronics
Link Power Electronics Lecture 37 - Power Electronics
Link Power Electronics Lecture 38 - Power Electronics
Link Power Electronics Lecture 39 - Power Electronics
Link Power Electronics Lecture 40 - Power Electronics
Link Power Electronics Lecture 41 - Power Electronics
Link Power Electronics Lecture 42 - Power Electronics
Link Power Electronics Lecture 43 - Power Electronics
Link Fabrication of Silicon VLSI Circuits using the MOS technology Lecture 1 - Introduction Micro to Nano A Journey into Intergrated Circuit Technology
Link Fabrication of Silicon VLSI Circuits using the MOS technology Lecture 2 - Introduction Micro to Nano A Journey into Intergrated Circuit Technology
Link Fabrication of Silicon VLSI Circuits using the MOS technology Lecture 3 - Crystal Properties and Silico Growth
Link Fabrication of Silicon VLSI Circuits using the MOS technology Lecture 4 - Crystal Properties and Silico Growth (Continued...)
Link Fabrication of Silicon VLSI Circuits using the MOS technology Lecture 5 - IC Fab Labs and Fabrication of IC
Link Fabrication of Silicon VLSI Circuits using the MOS technology Lecture 6 - Diffusion
Link Fabrication of Silicon VLSI Circuits using the MOS technology Lecture 7 - Diffusion (Continued...)
Link Fabrication of Silicon VLSI Circuits using the MOS technology Lecture 8 - Solid State Diffusion
Link Fabrication of Silicon VLSI Circuits using the MOS technology Lecture 9 - Solid State Diffusion (Continued...)
Link Fabrication of Silicon VLSI Circuits using the MOS technology Lecture 10 - Solid State Diffusion (Continued...)
Link Fabrication of Silicon VLSI Circuits using the MOS technology Lecture 11 - Thermal Oxidation of Silicons
Link Fabrication of Silicon VLSI Circuits using the MOS technology Lecture 12 - Thermal Oxidation of Silicons
Link Fabrication of Silicon VLSI Circuits using the MOS technology Lecture 13 - Thermal Oxidation of Silicons
Link Fabrication of Silicon VLSI Circuits using the MOS technology Lecture 14 - Thermal Oxidation of Silicons (Continued...)
Link Fabrication of Silicon VLSI Circuits using the MOS technology Lecture 15 - Thermal Oxidation of Silicons (Continued...)
Link Fabrication of Silicon VLSI Circuits using the MOS technology Lecture 16 - Lithography
Link Fabrication of Silicon VLSI Circuits using the MOS technology Lecture 17 - Lithography
Link Fabrication of Silicon VLSI Circuits using the MOS technology Lecture 18 - Lithography
Link Fabrication of Silicon VLSI Circuits using the MOS technology Lecture 19 - ION Implantation
Link Fabrication of Silicon VLSI Circuits using the MOS technology Lecture 20 - ION Implantation
Link Fabrication of Silicon VLSI Circuits using the MOS technology Lecture 21 - ION Implantation and Silicon IC Processing Flow for CMOS Technology
Link Fabrication of Silicon VLSI Circuits using the MOS technology Lecture 22 - ION Implantation and Silicon IC Processing Flow for CMOS Technology
Link Fabrication of Silicon VLSI Circuits using the MOS technology Lecture 23 - Silicon IC Processing Flow for CMOS Technology
Link Fabrication of Silicon VLSI Circuits using the MOS technology Lecture 24 - Thin Film Deposition
Link Fabrication of Silicon VLSI Circuits using the MOS technology Lecture 25 - Thin Film Deposition
Link Fabrication of Silicon VLSI Circuits using the MOS technology Lecture 26 - Thin Film Deposition
Link Fabrication of Silicon VLSI Circuits using the MOS technology Lecture 27 - Thin Film Deposition and Etching in VLSI Processing
Link Fabrication of Silicon VLSI Circuits using the MOS technology Lecture 28 - Etching in VLSI Processing and Back -End Technology
Link NOC:Computational Electromagnetics and Applications Lecture 1 - Lecture 1
Link NOC:Computational Electromagnetics and Applications Lecture 2 - Lecture 2
Link NOC:Computational Electromagnetics and Applications Lecture 3 - Lecture 3
Link NOC:Computational Electromagnetics and Applications Lecture 4 - Exercise 1
Link NOC:Computational Electromagnetics and Applications Lecture 5 - Exercise 2
Link NOC:Computational Electromagnetics and Applications Lecture 6 - Exercise 3
Link NOC:Computational Electromagnetics and Applications Lecture 7 - Lab Tour 1
Link NOC:Computational Electromagnetics and Applications Lecture 8 - Summary week 1
Link NOC:Computational Electromagnetics and Applications Lecture 9 - Lecture 4
Link NOC:Computational Electromagnetics and Applications Lecture 10 - Lecture 5
Link NOC:Computational Electromagnetics and Applications Lecture 11 - Exercise 4
Link NOC:Computational Electromagnetics and Applications Lecture 12 - Exercise 5
Link NOC:Computational Electromagnetics and Applications Lecture 13 - Exercise 6
Link NOC:Computational Electromagnetics and Applications Lecture 14 - Summary Week 2
Link NOC:Computational Electromagnetics and Applications Lecture 15 - Lecture 6
Link NOC:Computational Electromagnetics and Applications Lecture 16 - Lecture 7
Link NOC:Computational Electromagnetics and Applications Lecture 17 - Lecture 8
Link NOC:Computational Electromagnetics and Applications Lecture 18 - Exercise 7
Link NOC:Computational Electromagnetics and Applications Lecture 19 - Exercise 8
Link NOC:Computational Electromagnetics and Applications Lecture 20 - Summary Week 3
Link NOC:Computational Electromagnetics and Applications Lecture 21 - Lecture 9
Link NOC:Computational Electromagnetics and Applications Lecture 22 - Lecture 10
Link NOC:Computational Electromagnetics and Applications Lecture 23 - Lecture 11
Link NOC:Computational Electromagnetics and Applications Lecture 24 - Lecture 12
Link NOC:Computational Electromagnetics and Applications Lecture 25 - Lecture 13
Link NOC:Computational Electromagnetics and Applications Lecture 26 - Lecture 14
Link NOC:Computational Electromagnetics and Applications Lecture 27 - Exercise 9
Link NOC:Computational Electromagnetics and Applications Lecture 28 - Lab Tour - 2
Link NOC:Computational Electromagnetics and Applications Lecture 29 - Summary Week 4
Link NOC:Computational Electromagnetics and Applications Lecture 30 - Lecture 15
Link NOC:Computational Electromagnetics and Applications Lecture 31 - Lecture 16
Link NOC:Computational Electromagnetics and Applications Lecture 32 - Lecture 17
Link NOC:Computational Electromagnetics and Applications Lecture 33 - Lecture 18
Link NOC:Computational Electromagnetics and Applications Lecture 34 - Exercise 10
Link NOC:Computational Electromagnetics and Applications Lecture 35 - Summary week 5
Link NOC:Computational Electromagnetics and Applications Lecture 36 - Lecture 19
Link NOC:Computational Electromagnetics and Applications Lecture 37 - Lecture 20
Link NOC:Computational Electromagnetics and Applications Lecture 38 - Lecture 21
Link NOC:Computational Electromagnetics and Applications Lecture 39 - Lecture 22
Link NOC:Computational Electromagnetics and Applications Lecture 40 - Exercise 11
Link NOC:Computational Electromagnetics and Applications Lecture 41 - Summary week 6
Link NOC:Computational Electromagnetics and Applications Lecture 42 - Exercise 12
Link NOC:Computational Electromagnetics and Applications Lecture 43 - Exercise 13
Link NOC:Computational Electromagnetics and Applications Lecture 44 - Exercise 14
Link NOC:Computational Electromagnetics and Applications Lecture 45 - Exercise 15
Link NOC:Computational Electromagnetics and Applications Lecture 46 - Exercise 16
Link NOC:Computational Electromagnetics and Applications Lecture 47 - Exercise 17
Link NOC:Computational Electromagnetics and Applications Lecture 48 - Summary week 7
Link NOC:Computational Electromagnetics and Applications Lecture 49 - Lecture 23
Link NOC:Computational Electromagnetics and Applications Lecture 50 - Lecture 24
Link NOC:Computational Electromagnetics and Applications Lecture 51 - Lecture 25
Link NOC:Computational Electromagnetics and Applications Lecture 52 - Exercise 18
Link NOC:Computational Electromagnetics and Applications Lecture 53 - Exercise 19
Link NOC:Computational Electromagnetics and Applications Lecture 54 - Lab tour 3
Link NOC:Computational Electromagnetics and Applications Lecture 55 - Summary week 8
Link NOC:Computational Electromagnetics and Applications Lecture 56 - Lecture 26
Link NOC:Computational Electromagnetics and Applications Lecture 57 - Lecture 27
Link NOC:Computational Electromagnetics and Applications Lecture 58 - Lecture 28
Link NOC:Computational Electromagnetics and Applications Lecture 59 - Lecture 29
Link NOC:Computational Electromagnetics and Applications Lecture 60 - Lecture 30
Link NOC:Computational Electromagnetics and Applications Lecture 61 - Lecture 31
Link NOC:Computational Electromagnetics and Applications Lecture 62 - Lab tour 4
Link NOC:Computational Electromagnetics and Applications Lecture 63 - Summary week 9
Link NOC:Computational Electromagnetics and Applications Lecture 64 - Lecture 32
Link NOC:Computational Electromagnetics and Applications Lecture 65 - Lecture 33
Link NOC:Computational Electromagnetics and Applications Lecture 66 - Lecture 34
Link NOC:Computational Electromagnetics and Applications Lecture 67 - Lecture 35
Link NOC:Computational Electromagnetics and Applications Lecture 68 - Exercise 20
Link NOC:Computational Electromagnetics and Applications Lecture 69 - Lab tour 5
Link NOC:Computational Electromagnetics and Applications Lecture 70 - Summary week 10
Link NOC:Computational Electromagnetics and Applications Lecture 71 - Lecture 36
Link NOC:Computational Electromagnetics and Applications Lecture 72 - Lecture 37
Link NOC:Computational Electromagnetics and Applications Lecture 73 - Lecture 38
Link NOC:Computational Electromagnetics and Applications Lecture 74 - Lecture 39
Link NOC:Computational Electromagnetics and Applications Lecture 75 - Lecture 40
Link NOC:Computational Electromagnetics and Applications Lecture 76 - Summary week 11
Link NOC:Computational Electromagnetics and Applications Lecture 77 - Lecture 41
Link NOC:Computational Electromagnetics and Applications Lecture 78 - Lecture 42
Link NOC:Computational Electromagnetics and Applications Lecture 79 - Lecture 43
Link NOC:Computational Electromagnetics and Applications Lecture 80 - Lecture 44
Link NOC:Computational Electromagnetics and Applications Lecture 81 - Exercise 21
Link NOC:Computational Electromagnetics and Applications Lecture 82 - Exercise 22
Link NOC:Computational Electromagnetics and Applications Lecture 83 - Summary week 12
Link NOC:Basic Electronics Lecture 1 - A brief history of electronics
Link NOC:Basic Electronics Lecture 2 - Superposition
Link NOC:Basic Electronics Lecture 3 - Useful circuit techniques - 1
Link NOC:Basic Electronics Lecture 4 - Useful circuit techniques - 2
Link NOC:Basic Electronics Lecture 5 - Phasors - 1
Link NOC:Basic Electronics Lecture 6 - Phasors - 2
Link NOC:Basic Electronics Lecture 7 - RC/RL circuits in time domain - 1
Link NOC:Basic Electronics Lecture 8 - RC/RL circuits in time domain - 2
Link NOC:Basic Electronics Lecture 9 - RC/RL circuits in time domain - 3
Link NOC:Basic Electronics Lecture 10 - RC/RL circuits in time domain - 4
Link NOC:Basic Electronics Lecture 11 - RC/RL circuits in time domain - 5
Link NOC:Basic Electronics Lecture 12 - Simulation of RC circuit
Link NOC:Basic Electronics Lecture 13 - Diode circuits - 1
Link NOC:Basic Electronics Lecture 14 - Diode circuits - 2
Link NOC:Basic Electronics Lecture 15 - Diode circuits - 3
Link NOC:Basic Electronics Lecture 16 - Diode circuits - 4
Link NOC:Basic Electronics Lecture 17 - Diode circuits - 5
Link NOC:Basic Electronics Lecture 18 - Diode circuits - 6
Link NOC:Basic Electronics Lecture 19 - Diode rectifiers - 1
Link NOC:Basic Electronics Lecture 20 - Diode rectifiers - 2
Link NOC:Basic Electronics Lecture 21 - Diode rectifiers - 3
Link NOC:Basic Electronics Lecture 22 - Bipolar Junction Transistor - 1
Link NOC:Basic Electronics Lecture 23 - Bipolar Junction Transistor - 2
Link NOC:Basic Electronics Lecture 24 - Bipolar Junction Transistor - 3
Link NOC:Basic Electronics Lecture 25 - BJT amplifier - 1
Link NOC:Basic Electronics Lecture 26 - BJT amplifier - 2
Link NOC:Basic Electronics Lecture 27 - BJT amplifier - 3
Link NOC:Basic Electronics Lecture 28 - BJT amplifier - 4
Link NOC:Basic Electronics Lecture 29 - BJT amplifier - 5
Link NOC:Basic Electronics Lecture 30 - BJT amplifier - 6
Link NOC:Basic Electronics Lecture 31 - BJT amplifier - 7
Link NOC:Basic Electronics Lecture 32 - Introduction to op-amps
Link NOC:Basic Electronics Lecture 33 - Op-amp circuits - 1
Link NOC:Basic Electronics Lecture 34 - Op-amp circuits - 2
Link NOC:Basic Electronics Lecture 35 - Op-amp circuits - 3
Link NOC:Basic Electronics Lecture 36 - Difference amplifier
Link NOC:Basic Electronics Lecture 37 - Instrumentation amplifier - 1
Link NOC:Basic Electronics Lecture 38 - Instrumentation amplifier - 2
Link NOC:Basic Electronics Lecture 39 - Op-amp nonidealities - 1
Link NOC:Basic Electronics Lecture 40 - Op-amp nonidealities - 2
Link NOC:Basic Electronics Lecture 41 - Bode plots - 1
Link NOC:Basic Electronics Lecture 42 - Bode plots - 2
Link NOC:Basic Electronics Lecture 43 - Bode plots - 3
Link NOC:Basic Electronics Lecture 44 - Op-amp filters
Link NOC:Basic Electronics Lecture 45 - Simulation of op-amp filter
Link NOC:Basic Electronics Lecture 46 - Precision rectifiers - 1
Link NOC:Basic Electronics Lecture 47 - Precision rectifiers - 2
Link NOC:Basic Electronics Lecture 48 - Precision rectifiers - 3
Link NOC:Basic Electronics Lecture 49 - Simulation of triangle-to-sine converter
Link NOC:Basic Electronics Lecture 50 - Schmitt triggers - 1
Link NOC:Basic Electronics Lecture 51 - Schmitt triggers - 2
Link NOC:Basic Electronics Lecture 52 - Schmitt triggers - 3
Link NOC:Basic Electronics Lecture 53 - Sinusoidal oscillators - 1
Link NOC:Basic Electronics Lecture 54 - Sinusoidal oscillators - 2
Link NOC:Basic Electronics Lecture 55 - Introduction to digital circuits
Link NOC:Basic Electronics Lecture 56 - Boolean algebra
Link NOC:Basic Electronics Lecture 57 - Karnaugh maps
Link NOC:Basic Electronics Lecture 58 - Combinatorial circuits - 1
Link NOC:Basic Electronics Lecture 59 - Combinatorial circuits - 2
Link NOC:Basic Electronics Lecture 60 - Combinatorial circuits - 3
Link NOC:Basic Electronics Lecture 61 - Introduction to sequential circuits
Link NOC:Basic Electronics Lecture 62 - Latch and flip-flop
Link NOC:Basic Electronics Lecture 63 - JK flip-flop
Link NOC:Basic Electronics Lecture 64 - D flip-flop
Link NOC:Basic Electronics Lecture 65 - Shift registers
Link NOC:Basic Electronics Lecture 66 - Counters - 1
Link NOC:Basic Electronics Lecture 67 - Counters - 2
Link NOC:Basic Electronics Lecture 68 - Simulation of a synchronous counter
Link NOC:Basic Electronics Lecture 69 - 555 timer
Link NOC:Basic Electronics Lecture 70 - Digital-to-analog conversion - 1
Link NOC:Basic Electronics Lecture 71 - Digital-to-analog conversion - 2
Link NOC:Basic Electronics Lecture 72 - Analog-to-digital conversion
Link NOC:Antennas Lecture 1 - Antenna Introduction - I
Link NOC:Antennas Lecture 2 - Antenna Introduction - II
Link NOC:Antennas Lecture 3 - Antenna Introduction - III
Link NOC:Antennas Lecture 4 - Antenna Fundamentals - I
Link NOC:Antennas Lecture 5 - Antenna Fundamentals - II
Link NOC:Antennas Lecture 6 - Antenna Radiation Hazards - I
Link NOC:Antennas Lecture 7 - Antenna Radiation Hazards - II
Link NOC:Antennas Lecture 8 - Dipole Antennas - I
Link NOC:Antennas Lecture 9 - Dipole Antennas - II
Link NOC:Antennas Lecture 10 - Dipole Antennas - III
Link NOC:Antennas Lecture 11 - Monopole Antennas - I
Link NOC:Antennas Lecture 12 - Monopole Antennas - II
Link NOC:Antennas Lecture 13 - Loop Antennas
Link NOC:Antennas Lecture 14 - Slot Antennas
Link NOC:Antennas Lecture 15 - Linear Arrays - I
Link NOC:Antennas Lecture 16 - Linear Arrays - II
Link NOC:Antennas Lecture 17 - Linear Arrays - III
Link NOC:Antennas Lecture 18 - Planar Arrays
Link NOC:Antennas Lecture 19 - Microstrip Antennas (MSA)
Link NOC:Antennas Lecture 20 - Rectangular MSA
Link NOC:Antennas Lecture 21 - MSA Parametric Analysis - I
Link NOC:Antennas Lecture 22 - MSA Parametric Analysis - II
Link NOC:Antennas Lecture 23 - Circular MSA
Link NOC:Antennas Lecture 24 - Broadband MSA - I
Link NOC:Antennas Lecture 25 - Broadband MSA - II
Link NOC:Antennas Lecture 26 - Broadband MSA - III
Link NOC:Antennas Lecture 27 - Broadband MSA - IV
Link NOC:Antennas Lecture 28 - Broadband MSA - V
Link NOC:Antennas Lecture 29 - Compact MSA - I
Link NOC:Antennas Lecture 30 - Compact MSA - II
Link NOC:Antennas Lecture 31 - Compact MSA - III
Link NOC:Antennas Lecture 32 - Tunable MSA - I
Link NOC:Antennas Lecture 33 - Tunable MSA - II
Link NOC:Antennas Lecture 34 - Circularly Polarized MSA - I
Link NOC:Antennas Lecture 35 - Circularly Polarized MSA - II
Link NOC:Antennas Lecture 36 - Circularly Polarized MSA - III
Link NOC:Antennas Lecture 37 - MSA Arrays - I
Link NOC:Antennas Lecture 38 - MSA Arrays - II
Link NOC:Antennas Lecture 39 - MSA Arrays - III
Link NOC:Antennas Lecture 40 - Helical Antennas - I
Link NOC:Antennas Lecture 41 - Helical Antennas - II
Link NOC:Antennas Lecture 42 - Helical Antennas - III
Link NOC:Antennas Lecture 43 - Helical Antennas - IV
Link NOC:Antennas Lecture 44 - Helical Antennas - V
Link NOC:Antennas Lecture 45 - Horn Antennas - I
Link NOC:Antennas Lecture 46 - Horn Antennas - II
Link NOC:Antennas Lecture 47 - Horn Antennas - III
Link NOC:Antennas Lecture 48 - Horn Antennas - IV
Link NOC:Antennas Lecture 49 - Horn Antennas - V
Link NOC:Antennas Lecture 50 - Yagi-Uda and Log-Periodic Antennas - I
Link NOC:Antennas Lecture 51 - Yagi-Uda and Log-Periodic Antennas - II
Link NOC:Antennas Lecture 52 - Yagi-Uda and Log-Periodic Antennas - III
Link NOC:Antennas Lecture 53 - IE3D Session TA - I
Link NOC:Antennas Lecture 54 - IE3D Session TA - II
Link NOC:Antennas Lecture 55 - IE3D Session TA - III
Link NOC:Antennas Lecture 56 - Reflector Antennas - I
Link NOC:Antennas Lecture 57 - Reflector Antennas - II
Link NOC:Antennas Lecture 58 - Reflector Antennas - III
Link NOC:Antennas Lecture 59 - Reflector Antennas - IV
Link NOC:Antennas Lecture 60 - Lab Session
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 1 - Module 1 - Lecture 1 - Introduction
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 2 - Module 1 - Lecture 2 - Origin of Wavelets
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 3 - Module 1 - Lecture 3 - Haar Wavelet
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 4 - Module 2 - Lecture 1 - Dyadic Wavelet
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 5 - Module 2 - Lecture 2 - Dilates and Translates of Haar Wavelets
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 6 - Module 2 - Lecture 3 - L2 Norm of a Function
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 7 - Module 3 - Lecture 1 - Piecewise Constant Representation of a Function
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 8 - Module 3 - Lecture 2 - Ladder of Subspaces
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 9 - Module 3 - Lecture 3 - Scaling Function for Haar Wavelet Demo
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 10 - Demonstration 1: Piecewise constant approximation of functions
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 11 - Module 4 - Lecture 1 - Vector Representation of Sequences
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 12 - Module 4 - Lecture 2 - Properties of Norm
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 13 - Module 4 - Lecture 3 - Parseval's Theorem
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 14 - Module 5 - Lecture 1 - Equivalence of sequences and functions
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 15 - Module 5 - Lecture 2 - Angle between Functions and their Decomposition
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 16 - Demonstration 2: Additional Information on Direct-Sum
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 17 - Module 6 - Lecture 1 - Introduction to filter banks
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 18 - Module 6 - Lecture 2 - Haar Analysis Filter Bank in Z-domain
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 19 - Module 6 - Lecture 3 - Haar Synthesis Filter Bank in Z-domain
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 20 - Module 7 - Lecture 1 - Moving from Z-domain to frequency domain
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 21 - Module 7 - Lecture 2 - Frequency Response of Haar Analysis Low pass Filter bank
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 22 - Module 7 - Lecture 3 - Frequency Response of Haar Analysis High pass Filter bank
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 23 - Module 8 - Lecture 1 - Ideal two-band filter bank
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 24 - Module 8 - Lecture 2 - Disqualification of Ideal filter bank
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 25 - Module 8 - Lecture 3 - Realizable two-band filter bank
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 26 - Demonstration 3: Demonstration: DWT of images
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 27 - Module 9 - Lecture 1 - Relating Fourier transform of scaling function to filter bank
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 28 - Module 9 - Lecture 2 - Fourier transform of scaling function
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 29 - Module 9 - Lecture 3 - Construction of scaling and wavelet functions from filter bank
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 30 - Demonstration 4: Demonstration: Constructing scaling and wavelet functions
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 31 - Module 10 - Lecture 1 - Introduction to upsampling and down sampling as Multirate operations
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 32 - Module 10 - Lecture 2 - Up sampling by a general factor M- a Z-domain analysis.
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 33 - Module 10 - Lecture 3 - Down sampling by a general factor M- a Z-domain analysis
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 34 - Module 11 - Lecture 1 - Z domain analysis of 2 channel filter bank.
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 35 - Module 11 - Lecture 2 - Effect of X (-Z) in time domain and aliasing
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 36 - Module 11 - Lecture 3 - Consequences of aliasing and simple approach to avoid it
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 37 - Module 12 - Lecture 1 - Revisiting aliasing and the Idea of perfect reconstruction
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 38 - Module 12 - Lecture 2 - Applying perfect reconstruction and alias cancellation on Haar MRA
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 39 - Module 12 - Lecture 3 - Introduction to Daubechies family of MRA
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 40 - Module 13 - Lecture 1 - Power Complementarity of low pass filter
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 41 - Module 13 - Lecture 2 - Applying perfect reconstruction condition to obtain filter coefficient
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 42 - Module 14 - Lecture 1 - Effect of minimum phase requirement on filter coefficients
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 43 - Module 14 - Lecture 2 - Building compactly supported scaling functions
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 44 - Module 14 - Lecture 3 - Second member of Daubechies family
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 45 - Module 15 - Lecture 1 - Fourier transform analysis of Haar scaling and Wavelet functions
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 46 - Module 15 - Lecture 2 - Revisiting Fourier Transform and Parseval's theorem
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 47 - Module 15 - Lecture 3 - Transform Analysis of Haar Wavelet function
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 48 - Module 16 - Lecture 1 - Nature of Haar scaling and Wavelet functions in frequency domain
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 49 - Module 16 - Lecture 2 - The Idea of Time-Frequency Resolution
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 50 - Module 16 - Lecture 3 - Some thoughts on Ideal time- frequency domain behavior
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 51 - Module 17 - Lecture 1 - Defining Probability Density function
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 52 - Module 17 - Lecture 2 - Defining Mean, Variance and “containment in a given domain”
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 53 - Module 17 - Lecture 3 - Example: Haar Scaling function
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 54 - Module 17 - Lecture 4 - Variance from a slightly different perspective
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 55 - Module 18 - Lecture 1 - Signal transformations: effect on mean and variance
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 56 - Module 18 - Lecture 2 - Time-Bandwidth product and its properties
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 57 - Module 18 - Lecture 3 - Simplification of Time-Bandwidth formulae
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 58 - Module 19 - Lecture 1 - Introduction
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 59 - Module 19 - Lecture 2 - Evaluation of Time-Bandwidth product
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 60 - Module 19 - Lecture 3 - Optimal function in the sense of Time-Bandwidth product
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 61 - Module 20 - Lecture 1 - Discontent with the “Optimal function”.
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 62 - Module 20 - Lecture 2 - Journey from infinite to finite Time-Bandwidth product of Haar scaling function
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 63 - Module 20 - Lecture 3 - More insights about Time-Bandwidth product
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 64 - Module 20 - Lecture 4 - Time-frequency plane
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 65 - Module 20 - Lecture 5 - Tiling the Time-frequency plane
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 66 - Module 21 - Lecture 1 - STFT: Conditions for valid windows
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 67 - Module 21 - Lecture 2 - STFT: Time domain and frequency domain formulations
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 68 - Module 21 - Lecture 3 - STFT: Duality in the interpretations
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 69 - Module 21 - Lecture 4 - Continuous Wavelet Transform (CWT)
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 70 - Demonstration 5
Link NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis Lecture 71 - Student’s Presentation
Link NOC:Analog Circuits (2017) Lecture 1 - Module 1 - Introduction
Link NOC:Analog Circuits (2017) Lecture 2 - Module 2 - Poles and zeros
Link NOC:Analog Circuits (2017) Lecture 3 - Module 3 - OP-AMPs
Link NOC:Analog Circuits (2017) Lecture 4 - Module 4 - Application of Op-Amps
Link NOC:Analog Circuits (2017) Lecture 5 - Module 5 - Inverting amplifier and Non Inverting amplifier
Link NOC:Analog Circuits (2017) Lecture 6 - Module 1 - Non Idealities in Op-AMP (Finite Gain, Finite Bandwidth and Slew Rate)
Link NOC:Analog Circuits (2017) Lecture 7 - Module 2 - Non Idealities in Op-AMP (Offset Voltage and Bias Current)
Link NOC:Analog Circuits (2017) Lecture 8 - Module 3 - Bode Plot
Link NOC:Analog Circuits (2017) Lecture 9 - Module 4 - Frequency Response
Link NOC:Analog Circuits (2017) Lecture 10 - Module 1 - Frequency Response (High Frequency Response)
Link NOC:Analog Circuits (2017) Lecture 11 - Module 2 - Frequency Response example
Link NOC:Analog Circuits (2017) Lecture 12 - Module 3 - Feedback
Link NOC:Analog Circuits (2017) Lecture 13 - Module 4 - Effects of Feedback
Link NOC:Analog Circuits (2017) Lecture 14 - Tutorial 1 and 2
Link NOC:Analog Circuits (2017) Lecture 15 - Module 1 - Effect of feedback and stability
Link NOC:Analog Circuits (2017) Lecture 16 - Module 2 - Stability
Link NOC:Analog Circuits (2017) Lecture 17 - Module 3 - Stability and pole location
Link NOC:Analog Circuits (2017) Lecture 18 - Module 4 - Stability and Pole location continuation
Link NOC:Analog Circuits (2017) Lecture 19 - Tutorial 3
Link NOC:Analog Circuits (2017) Lecture 20 - Module 1 - Gain Margin – An example
Link NOC:Analog Circuits (2017) Lecture 21 - Module 2 - Frequency Compensation
Link NOC:Analog Circuits (2017) Lecture 22 - Module 3 - Filters
Link NOC:Analog Circuits (2017) Lecture 23 - Module 4 - Filter prototypes
Link NOC:Analog Circuits (2017) Lecture 24 - Tutorial 4
Link NOC:Analog Circuits (2017) Lecture 25 - Tutorial 5
Link NOC:Analog Circuits (2017) Lecture 26 - Tutorial 6
Link NOC:Analog Circuits (2017) Lecture 27 - Module 1 - Chebyshev Prototype, Filter transformation
Link NOC:Analog Circuits (2017) Lecture 28 - Module 2 - Filter Transformations (Continued....)
Link NOC:Analog Circuits (2017) Lecture 29 - Module 3 - Active Filters
Link NOC:Analog Circuits (2017) Lecture 30 - Module 4 - Non Linear Applications of OPAMPS
Link NOC:Analog Circuits (2017) Lecture 31 - Module 5 - Limiter, Diodes
Link NOC:Analog Circuits (2017) Lecture 32 - Module 1 - Oscillators
Link NOC:Analog Circuits (2017) Lecture 33 - Module 2 - Oscillator Amplitude Control , Quadrature Oscillator
Link NOC:Analog Circuits (2017) Lecture 34 - Module 3 - Multivibators
Link NOC:Analog Circuits (2017) Lecture 35 - Module 4 - Multivibrators (Continued...)
Link NOC:Analog Circuits (2017) Lecture 36 - Module 5 - Monostable Multivibator
Link NOC:Analog Circuits (2017) Lecture 37 - Module 1 - Zener Effect, Rectifiers
Link NOC:Analog Circuits (2017) Lecture 38 - Module 2 - Rectifiers
Link NOC:Analog Circuits (2017) Lecture 39 - Module 3 - Clamper, Peak Rectifier, Super diodes
Link NOC:Analog Circuits (2017) Lecture 40 - Module 4 - BJT DC Circuits
Link NOC:Analog Circuits (2017) Lecture 41 - Module 5 - Current Mirror
Link NOC:Microwave Theory and Techniques Lecture 1 - Microwave Theory and Techniques Introduction - I
Link NOC:Microwave Theory and Techniques Lecture 2 - Microwave Theory and Techniques Introduction - II
Link NOC:Microwave Theory and Techniques Lecture 3 - Microwave Theory and Techniques Introduction - III
Link NOC:Microwave Theory and Techniques Lecture 4 - Effects of Microwaves on Human Body - I
Link NOC:Microwave Theory and Techniques Lecture 5 - Effects of Microwaves on Human Body - II
Link NOC:Microwave Theory and Techniques Lecture 6 - Waveguides - I: Parallel Plane Waveguides
Link NOC:Microwave Theory and Techniques Lecture 7 - Waveguides - II: Parallel Plane Waveguides
Link NOC:Microwave Theory and Techniques Lecture 8 - Waveguides - III: Rectangular Waveguides
Link NOC:Microwave Theory and Techniques Lecture 9 - Transmission Lines - I: Coaxial Cables, Strip Lines and Microstrip Lines
Link NOC:Microwave Theory and Techniques Lecture 10 - Transmission Lines - II: Transmission Line Model, Open and Short Circuited Lossless Transmission Lines
Link NOC:Microwave Theory and Techniques Lecture 11 - Smith Chart and Impedance Matching - I: using Quarter Wave Transformer
Link NOC:Microwave Theory and Techniques Lecture 12 - Smith Chart and Impedance Matching - II: using Lumped Components
Link NOC:Microwave Theory and Techniques Lecture 13 - Smith Chart and Impedance Matching - III: using Short and Open Circuited Stubs
Link NOC:Microwave Theory and Techniques Lecture 14 - ABCD - Parameters
Link NOC:Microwave Theory and Techniques Lecture 15 - S - Parameters
Link NOC:Microwave Theory and Techniques Lecture 16 - Power Dividers - I: Two-way, Three-way and Four-way Equal Power Dividers
Link NOC:Microwave Theory and Techniques Lecture 17 - Power Dividers - II: Unequal, Broadband and Compact Power Dividers
Link NOC:Microwave Theory and Techniques Lecture 18 - Microwave Couplers - I: Coupled Line Directional Couplers
Link NOC:Microwave Theory and Techniques Lecture 19 - Microwave Couplers - II: Branch Line Couplers
Link NOC:Microwave Theory and Techniques Lecture 20 - Microwave Couplers - III: Rat race Coupler and Applications
Link NOC:Microwave Theory and Techniques Lecture 21 - Microwave Filters - I: Filters and Low Pass Butterworth Filter
Link NOC:Microwave Theory and Techniques Lecture 22 - Microwave Filters - II: Low Pass Chebyshev Filters
Link NOC:Microwave Theory and Techniques Lecture 23 - Microwave Filters - III: Microstrip Realization, Transformation from LPF to other Filters
Link NOC:Microwave Theory and Techniques Lecture 24 - Microwave Filters - IV: Band Pass Filters
Link NOC:Microwave Theory and Techniques Lecture 25 - Microwave Filters - V: Coupled Line and Tunable Band Pass Filters
Link NOC:Microwave Theory and Techniques Lecture 26 - Microwave Diodes: PN Junction , Varactor, Schottky, PIN, Tunnel, and GUNN Diodes
Link NOC:Microwave Theory and Techniques Lecture 27 - Microwave Attenuators: Fixed and Variable Attenuators
Link NOC:Microwave Theory and Techniques Lecture 28 - Microwave RF Switches: Series and Shunt SPST
Link NOC:Microwave Theory and Techniques Lecture 29 - Series and Shunt SPDT Switches and Introduction to Phase Shifters
Link NOC:Microwave Theory and Techniques Lecture 30 - Microwave Phase Shifters: Switched and Loaded Line
Link NOC:Microwave Theory and Techniques Lecture 31 - Microwave Transistors: BJT, HBT, JFET, MOSFET, MESFET and HEMT
Link NOC:Microwave Theory and Techniques Lecture 32 - Microwave Amplifiers - I: Basics and Power Gain Expressions
Link NOC:Microwave Theory and Techniques Lecture 33 - Microwave Amplifiers - II: Stability and Constant Gain Circles
Link NOC:Microwave Theory and Techniques Lecture 34 - Microwave Amplifiers - III: Design Example
Link NOC:Microwave Theory and Techniques Lecture 35 - Low Noise Amplifiers - I: Noise Sources and Noise Figure
Link NOC:Microwave Theory and Techniques Lecture 36 - Low Noise Amplifiers - II: NF Circles and LNA Design
Link NOC:Microwave Theory and Techniques Lecture 37 - Power Amplifiers
Link NOC:Microwave Theory and Techniques Lecture 38 - Microwave Tubes - I : Linear Beam Tubes- Two Cavity Klystron
Link NOC:Microwave Theory and Techniques Lecture 39 - Microwave Tubes - II: Linear Beam Tubes- Reflex Klystron and TWT
Link NOC:Microwave Theory and Techniques Lecture 40 - Microwave Tubes - III: Crossed Field Tubes- Magnetron
Link NOC:Microwave Theory and Techniques Lecture 41 - Microwave Oscillators - I
Link NOC:Microwave Theory and Techniques Lecture 42 - Microwave Oscillators - II
Link NOC:Microwave Theory and Techniques Lecture 43 - Microwave Mixers - I: Fundamentals
Link NOC:Microwave Theory and Techniques Lecture 44 - Microwave Mixers - II: Circuits
Link NOC:Microwave Theory and Techniques Lecture 45 - Microwave Mixers - III: Design
Link NOC:Microwave Theory and Techniques Lecture 46 - Fundamentals of Antennas
Link NOC:Microwave Theory and Techniques Lecture 47 - Dipole, Monopole, loop and Slot Antennas
Link NOC:Microwave Theory and Techniques Lecture 48 - Linear and Planar Arrays
Link NOC:Microwave Theory and Techniques Lecture 49 - Microstrip Antennas
Link NOC:Microwave Theory and Techniques Lecture 50 - Horn and Helical Antennas
Link NOC:Microwave Theory and Techniques Lecture 51 - Yagi - Uda, Log-Periodic and Reflector Antennas
Link NOC:Microwave Theory and Techniques Lecture 52 - RF MEMS and Microwave Imaging
Link NOC:Microwave Theory and Techniques Lecture 53 - Microwave Systems
Link NOC:Microwave Theory and Techniques Lecture 54 - Microwave Measurements and Lab Demonstration
Link NOC:Microwave Theory and Techniques Lecture 55 - CST Software Introduction with Filter Design
Link NOC:Microwave Theory and Techniques Lecture 56 - Power Divider and Combiner Design in CST
Link NOC:Microwave Theory and Techniques Lecture 57 - Hybrid Coupler Design
Link NOC:Microwave Theory and Techniques Lecture 58 - Antenna Design and Amplifier Simulation in CST
Link NOC:Microwave Theory and Techniques Lecture 59 - Mixer Design in NI AWR Software - I
Link NOC:Microwave Theory and Techniques Lecture 60 - Mixer Design in NI AWR Software - II
Link NOC:Principles of Digital Communications Lecture 1 - Course Overview
Link NOC:Principles of Digital Communications Lecture 2 - Introduction to Information Theory
Link NOC:Principles of Digital Communications Lecture 3 - Entropy and its properties
Link NOC:Principles of Digital Communications Lecture 4 - Lossless Source Coding Theorem
Link NOC:Principles of Digital Communications Lecture 5 - Prefix Codes and Kraft’s Inequality
Link NOC:Principles of Digital Communications Lecture 6 - Huffman Coding
Link NOC:Principles of Digital Communications Lecture 7 - Discrete Memory-less Channels : Mutual Information
Link NOC:Principles of Digital Communications Lecture 8 - Channel Capacity - I
Link NOC:Principles of Digital Communications Lecture 9 - Channel Capacity - II
Link NOC:Principles of Digital Communications Lecture 10 - Channel Coding Theorem
Link NOC:Principles of Digital Communications Lecture 11 - Differential Entropy - I
Link NOC:Principles of Digital Communications Lecture 12 - Differential Entropy - II
Link NOC:Principles of Digital Communications Lecture 13 - Channel Capacity - III
Link NOC:Principles of Digital Communications Lecture 14 - Channel Capacity - IV
Link NOC:Principles of Digital Communications Lecture 15 - Summary of Information Theory
Link NOC:Principles of Digital Communications Lecture 16 - Signal Space Representations - I
Link NOC:Principles of Digital Communications Lecture 17 - Signal Space Representations - II
Link NOC:Principles of Digital Communications Lecture 18 - Vector Representation of a Random Process
Link NOC:Principles of Digital Communications Lecture 19 - AWGN Vector Channel
Link NOC:Principles of Digital Communications Lecture 20 - Basics of Signal Detection: ML,MAP Detection
Link NOC:Principles of Digital Communications Lecture 21 - ML,MAP Detectors for AWGN Channel
Link NOC:Principles of Digital Communications Lecture 22 - Optimal Receiver: Matched Filter
Link NOC:Principles of Digital Communications Lecture 23 - Probability of error for Optimal Receiver
Link NOC:Principles of Digital Communications Lecture 24 - Probability of Error for M-ary Scheme
Link NOC:Principles of Digital Communications Lecture 25 - Pulse Code Modulation: Quantization
Link NOC:Principles of Digital Communications Lecture 26 - Uniform Quantizer
Link NOC:Principles of Digital Communications Lecture 27 - Step Size and Quantization Noise
Link NOC:Principles of Digital Communications Lecture 28 - Non-uniform Quantizer (Lloyd-Max Quantizer)
Link NOC:Principles of Digital Communications Lecture 29 - Companded Quantization - I
Link NOC:Principles of Digital Communications Lecture 30 - Companded Quantization - II
Link NOC:Principles of Digital Communications Lecture 31 - Differential Pulse Code Modulation DPCM - I
Link NOC:Principles of Digital Communications Lecture 32 - DPCM-II (Linear Prediction)
Link NOC:Principles of Digital Communications Lecture 33 - Delta Modulation
Link NOC:Principles of Digital Communications Lecture 34 - M-ary PCM/PAM - I
Link NOC:Principles of Digital Communications Lecture 35 - M-ary PCM/PAM - II
Link NOC:Principles of Digital Communications Lecture 36 - Line Coding - I
Link NOC:Principles of Digital Communications Lecture 37 - Line Coding - II
Link NOC:Principles of Digital Communications Lecture 38 - Line Coding - III
Link NOC:Principles of Digital Communications Lecture 39 - Pulse Shaping for Zero ISI - I
Link NOC:Principles of Digital Communications Lecture 40 - Pulse Shaping for Zero ISI - II
Link NOC:Principles of Digital Communications Lecture 41 - Pulse Shaping for Zero ISI - III
Link NOC:Principles of Digital Communications Lecture 42 - Partial Response Signaling - I
Link NOC:Principles of Digital Communications Lecture 43 - Partial Response Signaling - II
Link NOC:Principles of Digital Communications Lecture 44 - Principle of Invariance of Probability of Error
Link NOC:Principles of Digital Communications Lecture 45 - Binary ASK and PSK
Link NOC:Principles of Digital Communications Lecture 46 - Binary Frequency Shift Keying - I
Link NOC:Principles of Digital Communications Lecture 47 - Binary Frequency Shift Keying - II
Link NOC:Principles of Digital Communications Lecture 48 - Quadrature Phase Shift Keying - I
Link NOC:Principles of Digital Communications Lecture 49 - Quadrature Phase Shift Keying - II
Link NOC:Principles of Digital Communications Lecture 50 - Quadrature Phase Shift Keying - III
Link NOC:Principles of Digital Communications Lecture 51 - Continuous Phase Frequency Shift Keying
Link NOC:Principles of Digital Communications Lecture 52 - Minimum Shift Keying - I
Link NOC:Principles of Digital Communications Lecture 53 - Minimum Shift Keying - II
Link NOC:Principles of Digital Communications Lecture 54 - M-ary Coherent ASK (M-ASK)
Link NOC:Principles of Digital Communications Lecture 55 - M-ary PSK
Link NOC:Principles of Digital Communications Lecture 56 - M-ary Quadrature Amplitude Modulation (M-QAM)
Link NOC:Principles of Digital Communications Lecture 57 - M-ary FSK
Link NOC:Principles of Digital Communications Lecture 58 - Comparison of M-ary Schemes
Link NOC:Principles of Digital Communications Lecture 59 - Non-coherent BFSK
Link NOC:Principles of Digital Communications Lecture 60 - Differential Phase Shift Keying
Link NOC:Principles of Digital Communications Lecture 61 - Channel Coding - I
Link NOC:Principles of Digital Communications Lecture 62 - Channel Coding - II
Link NOC:Principles of Digital Communications Lecture 63 - Channel Coding - III
Link NOC:Principles of Digital Communications Lecture 64 - Channel Coding: Hamming Codes
Link NOC:Principles of Digital Communications Lecture 65 - Channel Coding: Decoding using Standard Arrays
Link NOC:Fundamental of Power Electronics Lecture 1 - Familiarization with Power Electronic Systems
Link NOC:Fundamental of Power Electronics Lecture 2 - Overview of Basic Power Electronic Circuits from Laymans Point of View
Link NOC:Fundamental of Power Electronics Lecture 3 - Applications, Definitions, and Nature of Power Electronic Circuits
Link NOC:Fundamental of Power Electronics Lecture 4 - Components of a Power Electronic System
Link NOC:Fundamental of Power Electronics Lecture 5 - Analysis of Switched Networks
Link NOC:Fundamental of Power Electronics Lecture 6 - Review of engineering maths for power electronic circuit analysis
Link NOC:Fundamental of Power Electronics Lecture 7 - Review of semiconductor physics
Link NOC:Fundamental of Power Electronics Lecture 8 - P-N Junction
Link NOC:Fundamental of Power Electronics Lecture 9 - Power Diodes
Link NOC:Fundamental of Power Electronics Lecture 10 - Thyristors
Link NOC:Fundamental of Power Electronics Lecture 11 - Motivation for rectifier capacitor filter
Link NOC:Fundamental of Power Electronics Lecture 12 - Circuit Operation
Link NOC:Fundamental of Power Electronics Lecture 13 - Designing the circuit
Link NOC:Fundamental of Power Electronics Lecture 14 - Simulation setup for NgSpice and gEDA schematic capture
Link NOC:Fundamental of Power Electronics Lecture 15 - Simulating the circuit
Link NOC:Fundamental of Power Electronics Lecture 16 - Practicals
Link NOC:Fundamental of Power Electronics Lecture 17 - Inrush current limiting - Intro
Link NOC:Fundamental of Power Electronics Lecture 18 - Inrush current limiting - Resistor solution
Link NOC:Fundamental of Power Electronics Lecture 19 - Inrush current limiting - Thermistor solution
Link NOC:Fundamental of Power Electronics Lecture 20 - Inrush current limiting - Transformer solution
Link NOC:Fundamental of Power Electronics Lecture 21 - Inrush current limiting - MOSFET solution
Link NOC:Fundamental of Power Electronics Lecture 22 - Inrush current limiting - Relay, contactor
Link NOC:Fundamental of Power Electronics Lecture 23 - Three phase rectifier capacitor filter
Link NOC:Fundamental of Power Electronics Lecture 24 - Simulation - 3 phase rectifier capacitor filter
Link NOC:Fundamental of Power Electronics Lecture 25 - Power factor - Motivation
Link NOC:Fundamental of Power Electronics Lecture 26 - Power factor - Discussion
Link NOC:Fundamental of Power Electronics Lecture 27 - Power factor - Sinusoidal
Link NOC:Fundamental of Power Electronics Lecture 28 - Power factor for rectifier cap filter
Link NOC:Fundamental of Power Electronics Lecture 29 - Passive power improvement circuit
Link NOC:Fundamental of Power Electronics Lecture 30 - Simulation - power factor improvement
Link NOC:Fundamental of Power Electronics Lecture 31 - Linear regulators - Intro
Link NOC:Fundamental of Power Electronics Lecture 32 - Shunt regulator
Link NOC:Fundamental of Power Electronics Lecture 33 - Example on shunt regulator
Link NOC:Fundamental of Power Electronics Lecture 34 - Non-ideality and solution
Link NOC:Fundamental of Power Electronics Lecture 35 - Applications of shunt regulator
Link NOC:Fundamental of Power Electronics Lecture 36 - Series regulator
Link NOC:Fundamental of Power Electronics Lecture 37 - Efficiency of series
Link NOC:Fundamental of Power Electronics Lecture 38 - Negative and dual voltage regulators
Link NOC:Fundamental of Power Electronics Lecture 39 - Over current limiting circuits
Link NOC:Fundamental of Power Electronics Lecture 40 - Improvements to series regulator
Link NOC:Fundamental of Power Electronics Lecture 41 - Regulator performance parameters
Link NOC:Fundamental of Power Electronics Lecture 42 - Datasheet of few IC regulators
Link NOC:Fundamental of Power Electronics Lecture 43 - Common IC regulator circuits
Link NOC:Fundamental of Power Electronics Lecture 44 - Practicals 1
Link NOC:Fundamental of Power Electronics Lecture 45 - Switched mode DC-DC converter intro
Link NOC:Fundamental of Power Electronics Lecture 46 - Volt-sec and Amp-sec balance
Link NOC:Fundamental of Power Electronics Lecture 47 - Input-output relationship
Link NOC:Fundamental of Power Electronics Lecture 48 - Buck converter - operation and waveforms
Link NOC:Fundamental of Power Electronics Lecture 49 - Buck converter - component selection
Link NOC:Fundamental of Power Electronics Lecture 50 - Primary configurations
Link NOC:Fundamental of Power Electronics Lecture 51 - Boost converter
Link NOC:Fundamental of Power Electronics Lecture 52 - Buck-Boost converter
Link NOC:Fundamental of Power Electronics Lecture 53 - Simulating the primary converters
Link NOC:Fundamental of Power Electronics Lecture 54 - Forward converter
Link NOC:Fundamental of Power Electronics Lecture 55 - Core reset in forward converter
Link NOC:Fundamental of Power Electronics Lecture 56 - Simulating with lossy core reset
Link NOC:Fundamental of Power Electronics Lecture 57 - Simulating with lossless core reset
Link NOC:Fundamental of Power Electronics Lecture 58 - Flyback converter
Link NOC:Fundamental of Power Electronics Lecture 59 - Simulating the flyback converter
Link NOC:Fundamental of Power Electronics Lecture 60 - Octave mfile for design
Link NOC:Fundamental of Power Electronics Lecture 61 - Magnetics design intro
Link NOC:Fundamental of Power Electronics Lecture 62 - Magnetics review
Link NOC:Fundamental of Power Electronics Lecture 63 - Permeance
Link NOC:Fundamental of Power Electronics Lecture 64 - Inductor value and energy storage
Link NOC:Fundamental of Power Electronics Lecture 65 - Inductor area product
Link NOC:Fundamental of Power Electronics Lecture 66 - Inductor design
Link NOC:Fundamental of Power Electronics Lecture 67 - Inductor example
Link NOC:Fundamental of Power Electronics Lecture 68 - Transformer design
Link NOC:Fundamental of Power Electronics Lecture 69 - Transformer example
Link NOC:Fundamental of Power Electronics Lecture 70 - Forward converter design mfile
Link NOC:Fundamental of Power Electronics Lecture 71 - Pushpull converter
Link NOC:Fundamental of Power Electronics Lecture 72 - Flux walking in pushpull
Link NOC:Fundamental of Power Electronics Lecture 73 - PWM generation
Link NOC:Fundamental of Power Electronics Lecture 74 - Simulation of pushpull converter
Link NOC:Fundamental of Power Electronics Lecture 75 - Half bridge converter
Link NOC:Fundamental of Power Electronics Lecture 76 - Simulation of halfbridge converter
Link NOC:Fundamental of Power Electronics Lecture 77 - Full bridge converter
Link NOC:Fundamental of Power Electronics Lecture 78 - Simulation of fullbridge converter
Link NOC:Fundamental of Power Electronics Lecture 79 - Area products and mfiles
Link NOC:Fundamental of Power Electronics Lecture 80 - Intro for drive circuits
Link NOC:Fundamental of Power Electronics Lecture 81 - BJT base drive
Link NOC:Fundamental of Power Electronics Lecture 82 - BJT base drive example
Link NOC:Fundamental of Power Electronics Lecture 83 - Multi-stage base drive
Link NOC:Fundamental of Power Electronics Lecture 84 - Base drive with speed-up circuit
Link NOC:Fundamental of Power Electronics Lecture 85 - Base drive with isolation
Link NOC:Fundamental of Power Electronics Lecture 86 - MOSFET gate drive
Link NOC:Fundamental of Power Electronics Lecture 87 - MOSFET drive with isolation
Link NOC:Fundamental of Power Electronics Lecture 88 - Over-current protection
Link NOC:Fundamental of Power Electronics Lecture 89 - Snubber circuits
Link NOC:Fundamental of Power Electronics Lecture 90 - Intro for close loop control
Link NOC:Fundamental of Power Electronics Lecture 91 - Close looping dc-dc converters
Link NOC:Fundamental of Power Electronics Lecture 92 - Simulation of close loop control
Link NOC:Fundamental of Power Electronics Lecture 93 - Current control for battery charger application
Link NOC:Fundamental of Power Electronics Lecture 94 - Instability in current control and slope compensation
Link NOC:Fundamental of Power Electronics Lecture 95 - Slope compensated current control
Link NOC:Fundamental of Power Electronics Lecture 96 - Simulation of current control
Link NOC:Fundamental of Power Electronics Lecture 97 - Single phase inverter with sinusoidal pwm
Link NOC:Fundamental of Power Electronics Lecture 98 - Simulation of sinusoidal PWM
Link Circuit Theory Lecture 1 - Review of Signals and Systems
Link Circuit Theory Lecture 2 - Review of Signals and Systems
Link Circuit Theory Lecture 3 - Network Equations; Initial and Final Conditions
Link Circuit Theory Lecture 4 - Problem Session 1
Link Circuit Theory Lecture 5 - Step, Impulse and Complete Responses
Link Circuit Theory Lecture 6 - 2nd Order Circuits:Magnetically Coupled Circuits
Link Circuit Theory Lecture 7 - Transformer Transform Domain Analysis
Link Circuit Theory Lecture 8 - Problem Session 2 : Step,Impulse
Link Circuit Theory Lecture 9 - Network Theorems and Network Functions
Link Circuit Theory Lecture 10 - Network Functions (Continued.)
Link Circuit Theory Lecture 11 - Amplitude and Phase of Network Functions
Link Circuit Theory Lecture 12 - Problem Session 3 : Network Theorems Transform
Link Circuit Theory Lecture 13 - Poles, Zeros and Network Response
Link Circuit Theory Lecture 14 - Single Tuned Circuits
Link Circuit Theory Lecture 15 - Single Tuned Circuits (Continued.)
Link Circuit Theory Lecture 16 - Double Tuned Circuits
Link Circuit Theory Lecture 17 - Double Tuned Circuits (Continued.)
Link Circuit Theory Lecture 18 - Problem Session 4 : Network Functions, Analysis
Link Circuit Theory Lecture 19 - Double Tuned Circuits (Continued.)
Link Circuit Theory Lecture 20 - Concept of Delay and Introduction
Link Circuit Theory Lecture 21 - Two-port Networks (Continued.)
Link Circuit Theory Lecture 22 - Problem Session 5
Link Circuit Theory Lecture 23 - Minor - 1
Link Circuit Theory Lecture 24 - The Hybrid & Transmission Parameters of 2 ports
Link Circuit Theory Lecture 25 - Problem Session 6 : Two - port networks
Link Circuit Theory Lecture 26 - Two - port Network parameters
Link Circuit Theory Lecture 27 - Two-port Interconnections
Link Circuit Theory Lecture 28 - Interconnection of Two-port Networks (Continued.)
Link Circuit Theory Lecture 29 - Problem Session 7 : Two-port Networks (Continued.)
Link Circuit Theory Lecture 30 - Scattering Matrix
Link Circuit Theory Lecture 31 - Scattering Parameters of a Two-port
Link Circuit Theory Lecture 32 - Problem Session 8 : Two- port Parameters
Link Circuit Theory Lecture 33 - Solutions of Minor - 2 Problems
Link Circuit Theory Lecture 34 - Insertion Loss
Link Circuit Theory Lecture 35 - Example of Insertion Loss and Elements
Link Circuit Theory Lecture 36 - Elements of Realizability Theory (Continued.)
Link Circuit Theory Lecture 37 - Positive Real Functions
Link Circuit Theory Lecture 38 - Testing of Positive Real Functions
Link Circuit Theory Lecture 39 - Problem Session 9
Link Circuit Theory Lecture 40 - More on PRF's and their Synthesis
Link Circuit Theory Lecture 41 - LC Driving Point Functions
Link Circuit Theory Lecture 42 - LC Driving Point Synthesis (Continued.)
Link Circuit Theory Lecture 43 - RC and RL Driving Point Synthesis
Link Circuit Theory Lecture 44 - Problem Session 10 : LC Driving Point Synthesis
Link Circuit Theory Lecture 45 - RC & RL One-port Synthesis (Continued.)
Link Circuit Theory Lecture 46 - Elementary RLC One-port Synthesis
Link Circuit Theory Lecture 47 - Properties and Synthesis of Transfer Parameters
Link Circuit Theory Lecture 48 - Resistance Terminated LC Ladder
Link Circuit Theory Lecture 49 - Resistance Terminated LC Ladder (Continued.)
Link Circuit Theory Lecture 50 - Problem session 11: Two-port Synthesis
Link Circuit Theory Lecture 51 - Network Transmission Criteria
Link Control Engineering (Prof. M. Gopal) Lecture 1 - Introduction to control problem
Link Control Engineering (Prof. M. Gopal) Lecture 2 - Basic Feedback Structure
Link Control Engineering (Prof. M. Gopal) Lecture 3 - Introduction to Control Problem (Continued.)
Link Control Engineering (Prof. M. Gopal) Lecture 4 - Dynamic Systems and Dynamic Response
Link Control Engineering (Prof. M. Gopal) Lecture 5 - Dynamic Systems and Dynamic Response (Continued.)
Link Control Engineering (Prof. M. Gopal) Lecture 6 - Dynamic Systems and Dynamic Response (Continued.)
Link Control Engineering (Prof. M. Gopal) Lecture 7 - Dynamic Systems and Dynamic Response (Continued.)
Link Control Engineering (Prof. M. Gopal) Lecture 8 - Dynamic Systems and Dynamic Response (Continued.)
Link Control Engineering (Prof. M. Gopal) Lecture 9 - Dynamic Systems and Dynamic Response (Continued.)
Link Control Engineering (Prof. M. Gopal) Lecture 10 - Models of Industrial Control Devices and Systems
Link Control Engineering (Prof. M. Gopal) Lecture 11 - Models of Industrial Control Devices and Systems (Continued.)
Link Control Engineering (Prof. M. Gopal) Lecture 12 - Models of Industrial Control Devices and Systems( Continued.)
Link Control Engineering (Prof. M. Gopal) Lecture 13 - Models of Industrial Control Devices and Systems( Continued.)
Link Control Engineering (Prof. M. Gopal) Lecture 14 - Models of Industrial Control Devices and Systems( Continued.)
Link Control Engineering (Prof. M. Gopal) Lecture 15 - Models of Industrial Control Devices and Systems( Continued.)
Link Control Engineering (Prof. M. Gopal) Lecture 16 - Models of Industrial Control Devices and Systems (Continued.)
Link Control Engineering (Prof. M. Gopal) Lecture 17 - Models of Industrial Control Devices and Systems (Continued.)
Link Control Engineering (Prof. M. Gopal) Lecture 18 - Models of Industrial Control Devices and Systems (Continued.)
Link Control Engineering (Prof. M. Gopal) Lecture 19 - Basic Principles of Feedback Control
Link Control Engineering (Prof. M. Gopal) Lecture 20 - Basic Principles of Feedback Control (Continued.)
Link Control Engineering (Prof. M. Gopal) Lecture 21 - Basic Principles of Feedback Control (Continued.)
Link Control Engineering (Prof. M. Gopal) Lecture 22 - Basic Principles of Feedback Control (Continued.)
Link Control Engineering (Prof. M. Gopal) Lecture 23 - Concepts of stability and Routh Stability Criterion
Link Control Engineering (Prof. M. Gopal) Lecture 24 - Concepts of stability and Routh Stability Criterion (Continued.)
Link Control Engineering (Prof. M. Gopal) Lecture 25 - Concepts of stability and Routh Stability Criterion (Continued.)
Link Control Engineering (Prof. M. Gopal) Lecture 26 - The Performance of Feedback Systems
Link Control Engineering (Prof. M. Gopal) Lecture 27 - The Performance of Feedback Systems (Continued.)
Link Control Engineering (Prof. M. Gopal) Lecture 28 - The Performance of Feedback Systems (Continued.)
Link Control Engineering (Prof. M. Gopal) Lecture 29 - The Performance of Feedback Systems (Continued.)
Link Control Engineering (Prof. M. Gopal) Lecture 30 - Compensator Design Using Root Locus Plots
Link Control Engineering (Prof. M. Gopal) Lecture 31 - Compensator Design Using Root Locus Plots (Continued.)
Link Control Engineering (Prof. M. Gopal) Lecture 32 - Compensator Design Using Root Locus Plots (Continued.)
Link Control Engineering (Prof. M. Gopal) Lecture 33 - Compensator Design Using Root Locus Plots (Continued.)
Link Control Engineering (Prof. M. Gopal) Lecture 34 - Compensator Design Using Root Locus Plots (Continued.)
Link Control Engineering (Prof. M. Gopal) Lecture 35 - The Nyquist Stability Criterion and Stability Margins
Link Control Engineering (Prof. M. Gopal) Lecture 36 - The Nyquist Stability Criterion and Stability Margins (Continued.)
Link Control Engineering (Prof. M. Gopal) Lecture 37 - The Nyquist Stability Criterion and Stability Margins (Continued.)
Link Control Engineering (Prof. M. Gopal) Lecture 38 - The Nyquist Stability Criterion and Stability Margins (Continued.)
Link Control Engineering (Prof. M. Gopal) Lecture 39 - Feedback System Performance Based on the Frequency Response
Link Control Engineering (Prof. M. Gopal) Lecture 40 - Feedback System Performance Based on the Frequency Response (Continued.)
Link Control Engineering (Prof. M. Gopal) Lecture 41 - Compensator Design Using Frequency Response Plots
Link Embedded Systems Lecture 1 - Embedded Systems: Introduction
Link Embedded Systems Lecture 2 - Embedded Hardware
Link Embedded Systems Lecture 3 - PIC: Instruction Set
Link Embedded Systems Lecture 4 - PIC Peripherals On Chip
Link Embedded Systems Lecture 5 - ARM Processor
Link Embedded Systems Lecture 6 - More ARM Instructions
Link Embedded Systems Lecture 7 - ARM: Interrupt Processing
Link Embedded Systems Lecture 8 - Digital Signal Processors
Link Embedded Systems Lecture 9 - More on DSP Processors
Link Embedded Systems Lecture 10 - System On Chip (SOC)
Link Embedded Systems Lecture 11 - Memory
Link Embedded Systems Lecture 12 - Memory Organization
Link Embedded Systems Lecture 13 - Virtual Memory and Memory Management Unit
Link Embedded Systems Lecture 14 - Bus Structure
Link Embedded Systems Lecture 15 - Bus Structure - 2
Link Embedded Systems Lecture 16 - Bus Structure - 3 Serial Interfaces
Link Embedded Systems Lecture 17 - Serial Interfaces
Link Embedded Systems Lecture 18 - Power Aware Architecture
Link Embedded Systems Lecture 19 - Software for Embedded Systems
Link Embedded Systems Lecture 20 - Fundamentals of Embedded Operating Systems
Link Embedded Systems Lecture 21 - Scheduling Policies
Link Embedded Systems Lecture 22 - Resource Management
Link Embedded Systems Lecture 23 - Embedded - OS
Link Embedded Systems Lecture 24 - Networked Embedded Systems - I
Link Embedded Systems Lecture 25 - Networked Embedded Systems - II
Link Embedded Systems Lecture 26 - Networked Embedded Systems - III
Link Embedded Systems Lecture 27 - Networked Embedded Systems - IV
Link Embedded Systems Lecture 28 - Designing Embedded Systems - I
Link Embedded Systems Lecture 29 - Designing Embedded Systems - II
Link Embedded Systems Lecture 30 - Designing Embedded Systems- III
Link Embedded Systems Lecture 31 - Embedded System Design - IV
Link Embedded Systems Lecture 32 - Designing Embedded Systems - V
Link Embedded Systems Lecture 33 - Platform Based Design
Link Embedded Systems Lecture 34 - Compilers for Embedded Systems
Link Embedded Systems Lecture 35 - Developing Embedded Systems
Link Embedded Systems Lecture 36 - Building Dependable Embedded Systems
Link Embedded Systems Lecture 37 - Pervasive and Ubiquitous Computing
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 1 - Electric Energy Systems A Perspective
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 2 - Structure of Power Systems
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 3 - Conventional Sources of Electric Energy
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 4 - Hydroelectric Power Generation
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 5 - Non Conventional Energy Sources
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 6 - Renewable Energy (Continued.)
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 7 - Energy Storage
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 8 - Deregulation
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 9 - Air Pollutants
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 10 - Transmission Line Parameters
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 11 - Capacitance of Transmission Lines
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 12 - Characteristics and Performance of Transmission Lines
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 13 - Voltage Regulation (VR)
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 14 - Power Flow through a Line
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 15 - Methods of Voltage Control
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 16 - Compensation of Transmission Lines
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 17 - Compensation of Transmission Lines (Continued.)
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 18 - Underground Cables
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 19 - Cables (Continued.)
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 20 - Insulators for Overhead Lines
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 21 - HVDC
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 22 - HVDC (Continued.)
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 23 - Distribution Systems
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 24 - Automatic Generation Control
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 25 - Automatic Generation Control (Continued.)
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 26 - Load Flow Studies
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 27 - Load Flow Problem
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 28 - Load Flow Analysis (Continued.), Gauss Siedel Method
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 29 - Newton Raphson (NR), Load Flow Method
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 30 - Fast Decoupled Load Flow
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 31 - Control of Voltage Profile
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 32 - Optimal System Operation (Economic Operation)
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 33 - Optimal Unit Commitment
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 34 - Optimal Generation Scheduling
Link Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) Lecture 35 - Optimal Load Flow (Continued.) and Hydro Thermal Scheduling
Link Power System Dynamics Lecture 1 - Introduction to Power System Stability Problem - Part-1
Link Power System Dynamics Lecture 2 - Introduction to Power System Stability Problem - Part-2
Link Power System Dynamics Lecture 3 - Introduction to Power System Stability Problem - Part-3
Link Power System Dynamics Lecture 4 - Solution of Switching Equation
Link Power System Dynamics Lecture 5 - The Equal Area Criterion for Stability - Part-1
Link Power System Dynamics Lecture 6 - The Equal Area Criterion for Stability - Part-2
Link Power System Dynamics Lecture 7 - Transient Stability Analysis of a Multi Machine System
Link Power System Dynamics Lecture 8 - Modeling of Synchronous Machine - Part-1
Link Power System Dynamics Lecture 9 - Modeling of Synchronous Machine - Part-2
Link Power System Dynamics Lecture 10 - Modeling of Synchronous Machine - Part-3
Link Power System Dynamics Lecture 11 - Modeling of Synchronous Machine - Part-4
Link Power System Dynamics Lecture 12 - Synchronous Machine Representation for Stability Studies - Part-1
Link Power System Dynamics Lecture 13 - Synchronous Machine Representation for Stability Studies - Part-2
Link Power System Dynamics Lecture 14 - Excitation Systems - Part-1
Link Power System Dynamics Lecture 15 - Excitation Systems - Part-2
Link Power System Dynamics Lecture 16 - Modeling of Excitation Systems - Part-1
Link Power System Dynamics Lecture 17 - Modeling of Excitation Systems - Part-2
Link Power System Dynamics Lecture 18 - Small Signal Stability of a Single Machine Infinite Bus System - Part-1
Link Power System Dynamics Lecture 19 - Small Signal Stability of a Single Machine Infinite Bus System - Part-2
Link Power System Dynamics Lecture 20 - Small Signal Stability of a Single Machine Infinite Bus System - Part-3
Link Power System Dynamics Lecture 21 - Small Signal Stability of a Single Machine Infinite Bus System - Part-4
Link Power System Dynamics Lecture 22 - Small Signal Stability of a Single Machine Infinite Bus System - Part-5
Link Power System Dynamics Lecture 23 - Dynamic Modeling of Steam turbines and Governors
Link Power System Dynamics Lecture 24 - Dynamic modeling of Hydro Turbines and Governors
Link Power System Dynamics Lecture 25 - Load modeling for Stability Studies
Link Power System Dynamics Lecture 26 - Numerical Integration Methods for Solving a Set of Ordinary Nonlinear Differential Equation
Link Power System Dynamics Lecture 27 - Simulation of Power System Dynamic Response
Link Power System Dynamics Lecture 28 - Dynamic Equivalents for Large Scale Systems - Part-1
Link Power System Dynamics Lecture 29 - Dynamic Equivalents for Large Scale Systems - Part-2
Link Power System Dynamics Lecture 30 - Dynamic Equivalents for Large Scale Systems - Part-3
Link Power System Dynamics Lecture 31 - Direct Method of Transient Stability Analysis - Part-1
Link Power System Dynamics Lecture 32 - Direct Method of Transient Stability Analysis - Part-2
Link Power System Dynamics Lecture 33 - Sub Synchronous Oscillations - Part-1
Link Power System Dynamics Lecture 34 - Sub Synchronous Oscillations - Part-2
Link Power System Dynamics Lecture 35 - Voltage Stability - Part-1
Link Power System Dynamics Lecture 36 - Voltage Stability - Part-2
Link Power System Dynamics Lecture 37 - Voltage Stability - Part-3
Link Power System Dynamics Lecture 38 - Voltage Stability - Part-4
Link Power System Dynamics Lecture 39 - Methods of Improving Stability - Part-1
Link Power System Dynamics Lecture 40 - Methods of Improving Stability - Part-2
Link Analog Electronic Circuits Lecture 1 - Review of DC Models of Diodes & BJT's
Link Analog Electronic Circuits Lecture 2 - Review of DC Models of BJT (Continued...) and FET
Link Analog Electronic Circuits Lecture 3 - FET Characteristics and Models
Link Analog Electronic Circuits Lecture 4 - Problem Session-1 on DC Analysis of BJT Circuits
Link Analog Electronic Circuits Lecture 5 - BJT Biasing and Bias Stability
Link Analog Electronic Circuits Lecture 6 - BJT Bias Stability (Continued...)
Link Analog Electronic Circuits Lecture 7 - FET Biasing, Current Sources
Link Analog Electronic Circuits Lecture 8 - Problem Session-2 on FET and BJT Characteristics and Biasing
Link Analog Electronic Circuits Lecture 9 - Current Mirrors; BJT Small Signal Models
Link Analog Electronic Circuits Lecture 10 - Small Signal Amplifiers: Mid Frequency Analysis
Link Analog Electronic Circuits Lecture 11 - Mid Frequency Analysis of the CE and CB Amplifier
Link Analog Electronic Circuits Lecture 12 - Problem Session-3 on Mid- Frequency Analysis of CE Amplifiers
Link Analog Electronic Circuits Lecture 13 - Midband Analysis of CB and CC Amplifiers
Link Analog Electronic Circuits Lecture 14 - Midband Analysis of FET Amplifiers
Link Analog Electronic Circuits Lecture 15 - Problem Session-4 on Midband Analysis of Amplifiers
Link Analog Electronic Circuits Lecture 16 - High Frequency Response of Small Signal Amplifiers
Link Analog Electronic Circuits Lecture 17 - High Frequency Response of Small Signal Amplifiers (Continued...)
Link Analog Electronic Circuits Lecture 18 - Low Frequency Response of Small Signal Amplifiers
Link Analog Electronic Circuits Lecture 19 - Problem Session-5 on Frequency Response of Small Signal Amplifiers
Link Analog Electronic Circuits Lecture 20 - Differential Amplifiers
Link Analog Electronic Circuits Lecture 21 - Differential Amplifiers (Continued...)
Link Analog Electronic Circuits Lecture 22 - Discussion on Minor-1 Problems and Differential Amplifiers (Continued...)
Link Analog Electronic Circuits Lecture 23 - Problem Session-6 on Frequency Response of Small Signal Amplifiers (Continued...) and Differential Amplifiers
Link Analog Electronic Circuits Lecture 24 - Use of Current Mirrors in Differential Amplifiers
Link Analog Electronic Circuits Lecture 25 - FET Differential Amplifiers and Introduction to Power Amplifiers
Link Analog Electronic Circuits Lecture 26 - Class B, Class AB and Class A Power Amplifiers
Link Analog Electronic Circuits Lecture 27 - Class A Power Amplifiers; Efficiency Considerations
Link Analog Electronic Circuits Lecture 28 - Problem Session-7 on Deferential and Power Amplifiers
Link Analog Electronic Circuits Lecture 29 - Introduction to Feedback Amplifiers
Link Analog Electronic Circuits Lecture 30 - Advantages of Negative Feedback Amplifiers
Link Analog Electronic Circuits Lecture 31 - Analysis of Feedback Amplifiers
Link Analog Electronic Circuits Lecture 32 - Analysis of the Series - Series and Other Feedback Configurations
Link Analog Electronic Circuits Lecture 33 - Problem Session-8 on Feedback Amplifiers
Link Analog Electronic Circuits Lecture 34 - Sinusoidal Oscillators : An Example of Positive Feedback
Link Analog Electronic Circuits Lecture 35 - More on Oscillators
Link Analog Electronic Circuits Lecture 36 - Solutions to Minor-2 Exam and Concluding Discussions on Oscillators
Link Analog Electronic Circuits Lecture 37 - Problem Session-9 on Oscillators
Link Analog Electronic Circuits Lecture 38 - Tuned (or Narrowband) Amplifiers
Link Analog Electronic Circuits Lecture 39 - Widebanding Techniques : Introduction & Use of Inductors
Link Analog Electronic Circuits Lecture 40 - Widebanding By Using an Inductance
Link Analog Electronic Circuits Lecture 41 - Problem Session-10 on Tuned Amplifiers
Link Analog Electronic Circuits Lecture 42 - Widebanding by Using Compound Devices
Link Analog Electronic Circuits Lecture 43 - Cascode Configuration as Wideband Amplifier
Link Analog Electronic Circuits Lecture 44 - Widebanding by Local Feedback
Link Analog Electronic Circuits Lecture 45 - Problem Session-11 on Minor-3 Problems & Widebanding by Compound Devices
Link Analog Electronic Circuits Lecture 46 - Widebanding by Local Feedback and Feedback Cascades
Link Analog Electronic Circuits Lecture 47 - Widebanding by Overall Feedback and Dual Loop Feedback
Link Analog Electronic Circuits Lecture 48 - The Differential Pair and the Gilbert Cell as Wideband Amplifiers
Link Analog Electronic Circuits Lecture 49 - Correction to Gilbert Cell Analysis and Operational Amplifier Imperfections
Link Analog Electronic Circuits Lecture 50 - Op-Amp offsets, Compensation and Slew Rate
Link Analog Electronic Circuits Lecture 51 - Op-Amp Compensation, Slew Rate and Some Problems
Link Digital Communication Lecture 1 - Introduction to the Course
Link Digital Communication Lecture 2 - Digital Representation of Analog Signals, Delta Modulation
Link Digital Communication Lecture 3 - Digital Representation of Analog Signals, Pulse Code Modulation
Link Digital Communication Lecture 4 - Digital Representation of Analog Signals
Link Digital Communication Lecture 5 - Quantization Noise in Delta Modulation (Continued...) and Time Division Multiplexing
Link Digital Communication Lecture 6 - Introduction to Line Coding
Link Digital Communication Lecture 7 - Spectral Properties of Line Codes: General Relations
Link Digital Communication Lecture 8 - Spectral Properties of Line Codes: On-off / Polar / Bipolar Signalling
Link Digital Communication Lecture 9 - Spectral Properties of Line Codes: Duobinary Manchester and HDB Codes
Link Digital Communication Lecture 10 - Baseband Pulse Shaping: Nyquist's First Criterion
Link Digital Communication Lecture 11 - Baseband Pulse Shaping; Raised Cosine Family of Pulses
Link Digital Communication Lecture 12 - Partial Response Signalling: Duobinary and Modified Duobinary Pulse Shaping
Link Digital Communication Lecture 13 - Precoding for Duobinary and Modified Duobinary Systems
Link Digital Communication Lecture 14 - Precoding for Modified Duobinary Systems (Continued...) and General Partial Response Signalling
Link Digital Communication Lecture 15 - Binary Baseband Digital Modulation Techniques
Link Digital Communication Lecture 16 - M’ary Baseband Digital Modulation Techniques
Link Digital Communication Lecture 17 - Passband Digital Modulations - I : PSK and QPSK
Link Digital Communication Lecture 18 - Passband Digital Modulations - II : Offset QPSK
Link Digital Communication Lecture 19 - Passband Digital Modulations - III : Minimum Shift Keying (MSK)
Link Digital Communication Lecture 20 - Passband Digital Modulations - IV : MSK (Continued...) : Passband Waveforms for M’ary Signalling
Link Digital Communication Lecture 21 - Passband Modulations for Band Limited Channels
Link Digital Communication Lecture 22 - Baseband and Passband Digital Demodulations : General Issues and Concepts
Link Digital Communication Lecture 23 - Digital Modulation Part - II Matched Filters
Link Digital Communication Lecture 24 - Matched Filters and Coherent Demodulation-I
Link Digital Communication Lecture 25 - Coherent Demodulation for Binary Wave Form
Link Digital Communication Lecture 26 - Demodulators for Binary Waveforms (Continued...) : Coherent and Noncoherent Receivers for Orthogonal Signalling (OOK and FSK)
Link Digital Communication Lecture 27 - Performance Analysis of Binary Digital Modulations: Signal and Noise Statistics in Coherent and Noncoherent Receivers
Link Digital Communication Lecture 28 - Error Rates for Binary Signalling : Coherent Receivers
Link Digital Communication Lecture 29 - Performance of Non Coherent FSK and Differential Phase Shift Keying
Link Digital Communication Lecture 30 - Demodulation of DPSK and M\'ary Signals
Link Digital Communication Lecture 31 - Performance of M\'ary Digital Modulations
Link Digital Communication Lecture 32 - Performance of M\'ary Digital Modulations (Continued...)
Link Digital Communication Lecture 33 - Introduction to Information Theory, Part-1
Link Digital Communication Lecture 34 - Source Coding
Link Digital Communication Lecture 35 - Error Free Communication Over a Noisy Channel
Link Digital Communication Lecture 36 - The Concept of Channel Capacity
Link Digital Communication Lecture 37 - Error Correcting Codes
Link Digital Communication Lecture 38 - Error Correcting Codes (Continued...)
Link Introduction To Electronic Circuits Lecture 1 - Introduction to the Course and Basic Electrical Quantity
Link Introduction To Electronic Circuits Lecture 2 - R.L.C. Components, Energy Considerations, Sources and Circuit Laws
Link Introduction To Electronic Circuits Lecture 3 - KCL, KVL and Network Analysis
Link Introduction To Electronic Circuits Lecture 4 - Networks Theorems ( Thevenin's Norton's )
Link Introduction To Electronic Circuits Lecture 5 - Source Transformation; Super Position Theorem and Non-Linear One-Ports
Link Introduction To Electronic Circuits Lecture 6 - Signal Wave Forms
Link Introduction To Electronic Circuits Lecture 7 - Periodic Wave Forms and Elements of Amplifiers
Link Introduction To Electronic Circuits Lecture 8 - Operational Amplifiers and Diodes
Link Introduction To Electronic Circuits Lecture 9 - Rectifiers and Power Supplies
Link Introduction To Electronic Circuits Lecture 10 - Wave Shaping Circuits
Link Introduction To Electronic Circuits Lecture 11 - More on Wave Shaping Circuits and Introduction to Natural Response of Circuits
Link Introduction To Electronic Circuits Lecture 12 - Natural Response (Continued...)
Link Introduction To Electronic Circuits Lecture 13 - Natural Response of 2nd Order Circuit
Link Introduction To Electronic Circuits Lecture 14 - Natural Response of 2nd Order Circuit (Continued...)
Link Introduction To Electronic Circuits Lecture 15 - Impedance Functions, Poles, Zeros and their Applications
Link Introduction To Electronic Circuits Lecture 16 - Natural Response and Poles and Zeros and Introduction to Forced Response
Link Introduction To Electronic Circuits Lecture 17 - Phasors and their Applications in AC Ckts, analysis
Link Introduction To Electronic Circuits Lecture 18 - More About Phasors and Introduction to Complete Response
Link Introduction To Electronic Circuits Lecture 19 - Complete Response of Electrical Circuits
Link Introduction To Electronic Circuits Lecture 20 - AC Circuit Analysis
Link Introduction To Electronic Circuits Lecture 21 - Filter Circuits and Resonance
Link Introduction To Electronic Circuits Lecture 22 - Resonance (Continued...)
Link Introduction To Electronic Circuits Lecture 23 - General Network Analysis
Link Introduction To Electronic Circuits Lecture 24 - Two-Port Networks
Link Introduction To Electronic Circuits Lecture 25 - Semiconductor Physics
Link Introduction To Electronic Circuits Lecture 26 - Semiconductor Physics (Continued...)
Link Introduction To Electronic Circuits Lecture 27 - More About Diodes Including Zener Diodes
Link Introduction To Electronic Circuits Lecture 28 - Bipolar Junction Transistors
Link Introduction To Electronic Circuits Lecture 29 - Transistors Characteristics and Biasing
Link Introduction To Electronic Circuits Lecture 30 - BJT Biasing and Introduction to Power Amplifiers
Link Introduction To Electronic Circuits Lecture 31 - BJT Power Amplifiers
Link Introduction To Electronic Circuits Lecture 32 - Power Amplifier
Link Introduction To Electronic Circuits Lecture 33 - Power Amplifiers (Continued...) and an Introduction to Small Signal Modelling of BJT
Link Introduction To Electronic Circuits Lecture 34 - Small Signal Model and Small Signal Amplifiers
Link Introduction To Electronic Circuits Lecture 35 - Small Signal Amplifiers (Continued...)
Link Introduction To Electronic Circuits Lecture 36 - Small Signal Amplifier (Continued...)
Link Introduction To Electronic Circuits Lecture 37 - Small Signal Amplifiers (Continued...)
Link Introduction To Electronic Circuits Lecture 38 - Negative Feedback
Link Introduction To Electronic Circuits Lecture 39 - Digital Circuits
Link Introduction To Electronic Circuits Lecture 40 - Digital Circuits (Continued...)
Link NOC:Analog Electronic Circuit Lecture 1 - Introduction to Analog Circuits Introduction to the Diode
Link NOC:Analog Electronic Circuit Lecture 2 - Diodes, Introduction to The Transistor
Link NOC:Analog Electronic Circuit Lecture 3 - MOS Device, Characteristics
Link NOC:Analog Electronic Circuit Lecture 4 - DC operating point
Link NOC:Analog Electronic Circuit Lecture 5 - DC operating point, amplifier design
Link NOC:Analog Electronic Circuit Lecture 6 - Common source amplifier, small signal analysis
Link NOC:Analog Electronic Circuit Lecture 7 - Common gate, common drain
Link NOC:Analog Electronic Circuit Lecture 8 - Common gate circuit
Link NOC:Analog Electronic Circuit Lecture 9 - Source degenerated amplifier
Link NOC:Analog Electronic Circuit Lecture 10 - Swing limits
Link NOC:Analog Electronic Circuit Lecture 11 - Swing limits (Continued...), multi transistor amplifiers
Link NOC:Analog Electronic Circuit Lecture 12 - Multi-transistor amplifiers
Link NOC:Analog Electronic Circuit Lecture 13 - Introduction to current sources
Link NOC:Analog Electronic Circuit Lecture 14 - Current sources/mirrors (Continued...)
Link NOC:Analog Electronic Circuit Lecture 15 - Current sources, biasing
Link NOC:Analog Electronic Circuit Lecture 16 - Differential circuits
Link NOC:Analog Electronic Circuit Lecture 17 - Differential amplifiers-I
Link NOC:Analog Electronic Circuit Lecture 18 - Differential amplifiers-II
Link NOC:Analog Electronic Circuit Lecture 19 - Differential amplifiers-III
Link NOC:Analog Electronic Circuit Lecture 20 - Self biased active load diff. amp
Link NOC:Analog Electronic Circuit Lecture 21 - Diff. Cascode amplifier, two stage amplifiers
Link NOC:Analog Electronic Circuit Lecture 22 - Two stage diff. amps, op-amps
Link NOC:Analog Electronic Circuit Lecture 23 - Op-amps, OTAs
Link NOC:Analog Electronic Circuit Lecture 24 - Circuits with op-amps
Link NOC:Analog Electronic Circuit Lecture 25 - Capacitance in MOS devices
Link NOC:Analog Electronic Circuit Lecture 26 - Common source, drain, gate-revisited
Link NOC:Analog Electronic Circuit Lecture 27 - Common gate, common drain with capacitances
Link NOC:Analog Electronic Circuit Lecture 28 - Cascode, cascade-revisit with capacitance
Link NOC:Analog Electronic Circuit Lecture 29 - Cascade amplifier (with capacitance)
Link NOC:Analog Electronic Circuit Lecture 30 - Diversion: 2-pole systems phase margin
Link NOC:Analog Electronic Circuit Lecture 31 - Diversion Continued: Two Pole Systems
Link NOC:Analog Electronic Circuit Lecture 32 - Compensation
Link NOC:Analog Electronic Circuit Lecture 33 - Op-amp Design with Compensation
Link NOC:Analog Electronic Circuit Lecture 34 - Unity Gain Bandwidth
Link NOC:Analog Electronic Circuit Lecture 35 - Power Amplification
Link NOC:Analog Electronic Circuit Lecture 36 - Power Amplifiers-2
Link NOC:Analog Electronic Circuit Lecture 37 - Power Amplifiers- Class A,B,AB,C ClassD
Link NOC:Analog Electronic Circuit Lecture 38 - Class D Amplifiers, Push-pull Amplifiers
Link NOC:Analog Electronic Circuit Lecture 39 - Introduction to Voltage Regulators
Link NOC:Analog Electronic Circuit Lecture 40 - Voltage Regulators- line, load; Conclusion Regulation
Link NOC:Nonlinear and Adaptive Control Lecture 1 - Introduction
Link NOC:Nonlinear and Adaptive Control Lecture 2 - Preliminaries
Link NOC:Nonlinear and Adaptive Control Lecture 3 - Model Reference Adaptive Control - Part 1
Link NOC:Nonlinear and Adaptive Control Lecture 4 - Model Reference Adaptive Control - Part 2
Link NOC:Nonlinear and Adaptive Control Lecture 5 - Model Reference Adaptive Control - Part 3
Link NOC:Nonlinear and Adaptive Control Lecture 6 - Adaptive Command Tracking
Link NOC:Nonlinear and Adaptive Control Lecture 7 - Robust Model Reference Adaptive Control - Part 1
Link NOC:Nonlinear and Adaptive Control Lecture 8 - Robust Model Reference Adaptive Control - Part 2
Link NOC:Nonlinear and Adaptive Control Lecture 9 - Robust Model Reference Adaptive Control - Part 3
Link NOC:Nonlinear and Adaptive Control Lecture 10 - Robust Model Reference Adaptive Control - Part 4
Link NOC:Information Theory, Coding and Cryptography Lecture 1 - Introduction to Information Theory
Link NOC:Information Theory, Coding and Cryptography Lecture 2 - Entropy, Mutual Information, Conditional and Joint Entropy
Link NOC:Information Theory, Coding and Cryptography Lecture 3 - Measures for Continuous, Random Variable, Relative Entropy
Link NOC:Information Theory, Coding and Cryptography Lecture 4 - Variable Length Codes, Prefix Codes
Link NOC:Information Theory, Coding and Cryptography Lecture 5 - Source Coding Theorem
Link NOC:Information Theory, Coding and Cryptography Lecture 6 - various source coding Techniques: Huffman, Arithmetic, Lempel Ziv, Run Length
Link NOC:Information Theory, Coding and Cryptography Lecture 7 - Optimum Quantizer, Practical Application of Source Coding: JPEG Compression
Link NOC:Information Theory, Coding and Cryptography Lecture 8 - Introduction to Super Information
Link NOC:Information Theory, Coding and Cryptography Lecture 9 - Channel Models and Channel Capacity
Link NOC:Information Theory, Coding and Cryptography Lecture 10 - Noisy Channel Coding Theorem
Link NOC:Information Theory, Coding and Cryptography Lecture 11 - Gaussian Channel and Information Capacity Theorem
Link NOC:Information Theory, Coding and Cryptography Lecture 12 - Capacity of MIMO Channels
Link NOC:Information Theory, Coding and Cryptography Lecture 13 - Introduction to Error Control Coding
Link NOC:Information Theory, Coding and Cryptography Lecture 14 - Introduction to Galois Field
Link NOC:Information Theory, Coding and Cryptography Lecture 15 - Equivalent Codes, Generator Matrix and Parity Check Matrix
Link NOC:Information Theory, Coding and Cryptography Lecture 16 - Systematic Codes, Error Detections and Correction
Link NOC:Information Theory, Coding and Cryptography Lecture 17 - Erasure and Errors, Standard Array and Syndrome Decoding
Link NOC:Information Theory, Coding and Cryptography Lecture 18 - Probability of Error, Coding Gain and Hamming Bound
Link NOC:Information Theory, Coding and Cryptography Lecture 19 - Hamming Codes, LDPC Codes and MDS Codes
Link NOC:Information Theory, Coding and Cryptography Lecture 20 - Introduction to Cyclic Codes
Link NOC:Information Theory, Coding and Cryptography Lecture 21 - Generator Polynomial, Syndrome Polynomial and Matrix Representation
Link NOC:Information Theory, Coding and Cryptography Lecture 22 - Fire Code, Golay Code, CRC Codes and Circuit Implementation of Cyclic Codes
Link NOC:Information Theory, Coding and Cryptography Lecture 23 - Introduction to BCH Codes: Generator Polynomials
Link NOC:Information Theory, Coding and Cryptography Lecture 24 - Multiple Error Correcting BCH Codes, Decoding of BCH Codes
Link NOC:Information Theory, Coding and Cryptography Lecture 25 - Introduction to Reed Solomon (RS) Codes
Link NOC:Information Theory, Coding and Cryptography Lecture 26 - Introduction to Convolutional Codes
Link NOC:Information Theory, Coding and Cryptography Lecture 27 - Trellis Codes: Generator Polynomial Matrix and Encoding using Trellis
Link NOC:Information Theory, Coding and Cryptography Lecture 28 - Vitrebi Decoding and Known good Convolutional Codes
Link NOC:Information Theory, Coding and Cryptography Lecture 29 - Introduction to Turbo Codes
Link NOC:Information Theory, Coding and Cryptography Lecture 30 - Introduction to Trellis Coded Modulation (TCM)
Link NOC:Information Theory, Coding and Cryptography Lecture 31 - Ungerboek's Design Rules and Performance Evaluation of TCM Schemes
Link NOC:Information Theory, Coding and Cryptography Lecture 32 - TCM for Fading Channel and Space Time Trellis Codes (STTC)
Link NOC:Information Theory, Coding and Cryptography Lecture 33 - Introduction to Space Time Block Codes (STBC)
Link NOC:Information Theory, Coding and Cryptography Lecture 34 - Space Time Codes
Link NOC:Information Theory, Coding and Cryptography Lecture 35 - Space Time Codes (Continued...)
Link NOC:Information Theory, Coding and Cryptography Lecture 36 - Introduction to Cryptography: Symmetric key and Asymmetric Key Cryptography
Link NOC:Information Theory, Coding and Cryptography Lecture 37 - Some Well-Known Algorithms: DES, IDEA, PGP, DH Protocol
Link NOC:Information Theory, Coding and Cryptography Lecture 38 - Introduction to Physical Layer Security: Notion of Secrecy Capacity
Link NOC:Information Theory, Coding and Cryptography Lecture 39 - Secrecy Outage Capacity, Secrecy Outage Probability, Cooperative Jamming
Link Engineering Electromagnetics Lecture 1 - Introduction
Link Engineering Electromagnetics Lecture 2 - Transmission Lines : Wave Propagation
Link Engineering Electromagnetics Lecture 3 - Transmission Lines : Reflection,Transmission; Travelling Waves
Link Engineering Electromagnetics Lecture 4 - Transmission Lines : Travelling Waves (Continued...); Sinusoidal Signals; Impedence Transformation
Link Engineering Electromagnetics Lecture 5 - Transmission Lines : Standing Wave Ratio:Measurement of Impedence
Link Engineering Electromagnetics Lecture 6 - Transmission Lines : General Transmission Lines Equations,Low loss,Transmission Lines,Transmission Lines as Circuit Elements
Link Engineering Electromagnetics Lecture 7 - Transmission Lines : Section as Circuit Elements
Link Engineering Electromagnetics Lecture 8 - Transmission Lines : Velocities of Propagation, Transmission Lines Charts
Link Engineering Electromagnetics Lecture 9 - Transmission Lines : Smith Chart
Link Engineering Electromagnetics Lecture 10 - Transmission Lines : Impedance Matching using Stub-Lines
Link Engineering Electromagnetics Lecture 11 - Transmission Lines : Transmission Lines Parameters; (primary Constants)
Link Engineering Electromagnetics Lecture 12 - Wave Propagation
Link Engineering Electromagnetics Lecture 13 - Wave Propagation (Continued...)
Link Engineering Electromagnetics Lecture 14 - Wave Propagation : Polarisation,Poynting Vector
Link Engineering Electromagnetics Lecture 15 - Wave Propagation : Power Flow,Complex Poynting vector,wave equation for a conducting Medium
Link Engineering Electromagnetics Lecture 16 - Wave Propagation : Conducting Medium;Conductors and Dielectrics Depth of Penetration;Surface Impedance
Link Engineering Electromagnetics Lecture 17 - Wave Propagation : Surface Impedance; Power Loss in a Conductor Reflection at a Perfect conductor (Normal Inc.)
Link Engineering Electromagnetics Lecture 18 - Reflection and Refraction of waves : Reflection at the Surface of a Conducting Medium,Reflection at a Perfect Conductor (Oblique Inc.)
Link Engineering Electromagnetics Lecture 19 - Reflection and Refraction of waves (Continued...)
Link Engineering Electromagnetics Lecture 20 - Reflection and Refraction of waves (Continued...) - 1
Link Engineering Electromagnetics Lecture 21 - Reflection and Refraction of waves (Continued...); The Plane slab
Link Engineering Electromagnetics Lecture 22 - Reflection and Refraction of waves (Continued...); Transmission Line Analogy for Planes Waves
Link Engineering Electromagnetics Lecture 23 - Wave Guides
Link Engineering Electromagnetics Lecture 24 - Wave Guides (Continued...) Parallel plane Guide,Transverse Electric Waves,Field Distribution,Superposition of Plane Waves
Link Engineering Electromagnetics Lecture 25 - Wave Guides (Continued...)
Link Engineering Electromagnetics Lecture 26 - Wave Guides (Continued...) Parallel plane Guide,Characteristics of TE and Tm Waves,TEM Waves,Wave Impedances
Link Engineering Electromagnetics Lecture 27 - Wave Guides (Continued...) - 1
Link Engineering Electromagnetics Lecture 28 - Wave Guides (Continued...) - 2
Link Engineering Electromagnetics Lecture 29 - Wave Guides (Continued...) Rectangular Wave Guides
Link Engineering Electromagnetics Lecture 30 - Wave Guides (Continued...)
Link Engineering Electromagnetics Lecture 31 - Wave Guides (Continued...) Rectangular Wave Guides - 1
Link Engineering Electromagnetics Lecture 32 - Resonators General Properties
Link Engineering Electromagnetics Lecture 33 - Resonators (Continued...) Transmission Line Resonators
Link Engineering Electromagnetics Lecture 34 - Resonators (Continued...) Wave Guide Resonators
Link Engineering Electromagnetics Lecture 35 - Radiation
Link Engineering Electromagnetics Lecture 36 - Radiation (Continued...)
Link Engineering Electromagnetics Lecture 37 - Radiation (Continued...) - 1
Link Engineering Electromagnetics Lecture 38 - Radiation (Continued...) - 2
Link Engineering Electromagnetics Lecture 39 - Radiation (Continued...) Monopole Antennas half Wave Dipole Antenna
Link Engineering Electromagnetics Lecture 40 - Radiation (Continued...)
Link Engineering Electromagnetics Lecture 41 - Radiation (Continued...) 2 - Element Arrays,Yagi-Uda Array
Link NOC:Principles of Digital Communications (2018) Lecture 1 - Introduction
Link NOC:Principles of Digital Communications (2018) Lecture 2 - Signal Spaces : Waveforms and Vector Spaces
Link NOC:Principles of Digital Communications (2018) Lecture 3 - Inner Product and Orthogonal Expansion
Link NOC:Principles of Digital Communications (2018) Lecture 4 - Signal Spaces : Gram Schmidt Orthogonalization and Receiver Structures
Link NOC:Principles of Digital Communications (2018) Lecture 5 - Signal Spaces : Fourier Series and Related expansions
Link NOC:Principles of Digital Communications (2018) Lecture 6 - Signal Spaces : Bandwidth and Degree of Freedom
Link NOC:Principles of Digital Communications (2018) Lecture 7 - Random Variables and Random Processes : Discrete Random Variable
Link NOC:Principles of Digital Communications (2018) Lecture 8 - Random Variables and Random Processes : Continuous Random Variable
Link NOC:Principles of Digital Communications (2018) Lecture 9 - Random Variables and Random Processes : Multiple Random Variable
Link NOC:Principles of Digital Communications (2018) Lecture 10 - Random Variables and Random Processes : Random Vectors
Link NOC:Principles of Digital Communications (2018) Lecture 11 - Random Variables and Random Processes : Introduction to Random Process
Link NOC:Principles of Digital Communications (2018) Lecture 12 - Random Variables and Random Processes : Properties of Random Process
Link NOC:Principles of Digital Communications (2018) Lecture 13 - Random Variables and Random Processes : Gaussian Random Process - Part 1
Link NOC:Principles of Digital Communications (2018) Lecture 14 - Random Variables and Random Processes : Gaussian Random Process - Part 2
Link NOC:Principles of Digital Communications (2018) Lecture 15 - Random Variables and Random Processes : Types of Random Process
Link NOC:Principles of Digital Communications (2018) Lecture 16 - Random Variables and Random Processes : Random Process through an LTI system
Link NOC:Principles of Digital Communications (2018) Lecture 17 - Random Variables and Random Processes : Spectral description of Random Process
Link NOC:Principles of Digital Communications (2018) Lecture 18 - Waveform Coding
Link NOC:Principles of Digital Communications (2018) Lecture 19 - Modulation : Complex Baseband Representation of Passband Signals - Part 1
Link NOC:Principles of Digital Communications (2018) Lecture 20 - Modulation : Complex Baseband Representation of Passband Signals - Part 2
Link NOC:Principles of Digital Communications (2018) Lecture 21 - Modulation : Complex Baseband Representation of Passband Signals - Part 3
Link NOC:Principles of Digital Communications (2018) Lecture 22 - Modulation : Spectral Description of Sources - Part 1
Link NOC:Principles of Digital Communications (2018) Lecture 23 - Modulation : Spectral Description of Sources - Part 2
Link NOC:Principles of Digital Communications (2018) Lecture 24 - Modulation : Spectral Description of Sources using Markov Chains and Cyclostationary Random Processes
Link NOC:Principles of Digital Communications (2018) Lecture 25 - Modulation : Nyquist Pulses
Link NOC:Principles of Digital Communications (2018) Lecture 26 - Modulation : Pulse Amplitude Modulation and Quadrature Amplitude Modulation - Part 1
Link NOC:Principles of Digital Communications (2018) Lecture 27 - Modulation : Pulse Amplitude Modulation and Quadrature Amplitude Modulation - Part 2
Link NOC:Principles of Digital Communications (2018) Lecture 28 - Modulation : Orthogonal Modulation Schemes
Link NOC:Principles of Digital Communications (2018) Lecture 29 - Modulation : Differential Modulation Schemes
Link NOC:Principles of Digital Communications (2018) Lecture 30 - Detection : Maximum Aposteriori Probability (MAP) Detector and Maximum Likelihood (ML) Detector
Link NOC:Principles of Digital Communications (2018) Lecture 31 - Detection : Vector Detection
Link NOC:Principles of Digital Communications (2018) Lecture 32 - Detection : Theorem of Irrelevance and Waveform Detection
Link NOC:Principles of Digital Communications (2018) Lecture 33 - Detection : Sequence Detection
Link NOC:Principles of Digital Communications (2018) Lecture 34 - Detection : Performance of Binary Signalling Schemes
Link NOC:Principles of Digital Communications (2018) Lecture 35 - Detection : Performance of M-ary Signaling Schemes
Link NOC:Principles of Digital Communications (2018) Lecture 36 - Detection : Performance of Orthogonal Modulation Schemes and Bit-Level Demodulation
Link NOC:Principles of Digital Communications (2018) Lecture 37 - Detection : Performance of Non-Coherent Systems Systems
Link NOC:Principles of Digital Communications (2018) Lecture 38 - Detection : Fading Channel
Link NOC:Electric Vehicles - Part 1 Lecture 1 - Intro EV Historical_Background
Link NOC:Electric Vehicles - Part 1 Lecture 2 - Intro EV Benefits of Using Evs
Link NOC:Electric Vehicles - Part 1 Lecture 3 - Intro EV Overview of types of Evs and its Challenges
Link NOC:Electric Vehicles - Part 1 Lecture 4 - Intro EV Motor Drive Technologies
Link NOC:Electric Vehicles - Part 1 Lecture 5 - Intro EV Energy Source Technologies
Link NOC:Electric Vehicles - Part 1 Lecture 6 - Intro EV Battery Charging Technologies
Link NOC:Electric Vehicles - Part 1 Lecture 7 - Intro EV Vehicle to Grid
Link NOC:Electric Vehicles - Part 1 Lecture 8 - Intro EV Subsystems and Configurations
Link NOC:Electric Vehicles - Part 1 Lecture 9 - Intro HEV Subsystems and Configurations
Link NOC:Electric Vehicles - Part 1 Lecture 10 - Intro HEV Subsystems and Modes of Operation
Link NOC:Electric Vehicles - Part 1 Lecture 11 - Vehicle_Dynamics_intro_and_tractive_effort
Link NOC:Electric Vehicles - Part 1 Lecture 12 - Vehicle_Dynamics_and_dynamic_equation
Link NOC:Electric Vehicles - Part 1 Lecture 13 - Vehicle Dynamics simulation dynamic equation constant Fte
Link NOC:Electric Vehicles - Part 1 Lecture 14 - Vehicle Dynamics dynamic equation variable Fte
Link NOC:Electric Vehicles - Part 1 Lecture 15 - Vehicle Dynamics simulation dynamic equation variable Fte
Link NOC:Electric Vehicles - Part 1 Lecture 16 - Vehicle Dynamics Modelling and simulation in Simulink
Link NOC:Electric Vehicles - Part 1 Lecture 17 - Summary Electric Vehicles Part 1 Course
Link NOC:Power Electronics Lecture 1 - Introduction to Power Electronics
Link NOC:Power Electronics Lecture 2 - Power Devices: Diodes and SCR
Link NOC:Power Electronics Lecture 3 - Power Devices: SCR, Triac, GTO and BJT
Link NOC:Power Electronics Lecture 4 - Power Devices: BJT, MOSFET and IGBT
Link NOC:Power Electronics Lecture 5 - Single-phase Uncontrolled Rectifiers
Link NOC:Power Electronics Lecture 6 - Single-phase Controlled Rectifiers - I
Link NOC:Power Electronics Lecture 7 - Single-phase Controlled Rectifiers - II
Link NOC:Power Electronics Lecture 8 - Three Phase Rectifiers - I
Link NOC:Power Electronics Lecture 9 - Numericals on devices and Single-phase Rectifiers
Link NOC:Power Electronics Lecture 10 - Three Phase Rectifiers - II
Link NOC:Power Electronics Lecture 11 - Dual Converter and Communication Overlap
Link NOC:Power Electronics Lecture 12 - Communication Overlap - II and AC-AC Converter-Introduction
Link NOC:Power Electronics Lecture 13 - Single-Phase and Three-Phase AC Voltage Controllers
Link NOC:Power Electronics Lecture 14 - Three-Phase AC Voltage Controllers and Cycloconverters
Link NOC:Power Electronics Lecture 15 - Non-Isolated DC-DC Converters - I
Link NOC:Power Electronics Lecture 16 - Non-Isolated DC-DC Converters - II
Link NOC:Power Electronics Lecture 17 - Isolated DC-DC Converters - I
Link NOC:Power Electronics Lecture 18 - Isolated DC-DC Converters - II and Cuk Converters
Link NOC:Power Electronics Lecture 19 - Voltage Source Inverters
Link NOC:Power Electronics Lecture 20 - VSI PWM Techniques - I
Link NOC:Power Electronics Lecture 21 - VSI PWM Techniques - II
Link NOC:Power Electronics Lecture 22 - SPWM and SVM Technique
Link NOC:Power Electronics Lecture 23 - Current Source Inverter
Link NOC:Power Electronics Lecture 24 - Power Electronics Applications
Link NOC:Electrical Machines Lecture 1 - Introduction to Electrical Machines - I
Link NOC:Electrical Machines Lecture 2 - Single-phase and Three-phase AC Circuits, Magnetic circuits
Link NOC:Electrical Machines Lecture 3 - Magnetic Circuit - II
Link NOC:Electrical Machines Lecture 4 - Magnetic Circuit - III
Link NOC:Electrical Machines Lecture 5 - Transformers - Introduction
Link NOC:Electrical Machines Lecture 6 - Transformers - Amp-Turn Balance, Ideal and practical transformers
Link NOC:Electrical Machines Lecture 7 - Transformer Equivalent circuit and Reducing leakage
Link NOC:Electrical Machines Lecture 8 - Transformer equivalent circuit parameter determination
Link NOC:Electrical Machines Lecture 9 - Transformers - Voltage regulation and efficiency
Link NOC:Electrical Machines Lecture 10 - Auto-transformers
Link NOC:Electrical Machines Lecture 11 - PU notation and Intoduction to Instrument transformers
Link NOC:Electrical Machines Lecture 12 - Instrument Transformers and All Day Efficiency
Link NOC:Electrical Machines Lecture 13 - Three Phase Transformers - I
Link NOC:Electrical Machines Lecture 14 - Three Phase Transformers - II
Link NOC:Electrical Machines Lecture 15 - Electromechanical Energy Conversion - I
Link NOC:Electrical Machines Lecture 16 - Electromechanical Energy Conversion - II
Link NOC:Electrical Machines Lecture 17 - Electromechanical Energy Conversion - III
Link NOC:Electrical Machines Lecture 18 - DC Machines-Introduction, Constructional Features
Link NOC:Electrical Machines Lecture 19 - DC Machines - EMF and Torque Equations and Generator Operation
Link NOC:Electrical Machines Lecture 20 - DC Machines - OCC and Load Charactristics Classification
Link NOC:Electrical Machines Lecture 21 - DC Machines - Armature Reaction
Link NOC:Electrical Machines Lecture 22 - DC Machines - Voltage Build-up and Load Characteristics
Link NOC:Electrical Machines Lecture 23 - DC Generator Characteristics and Introduction to DC Motors
Link NOC:Electrical Machines Lecture 24 - DC Motors: Basics and Speed-Torque Relationship
Link NOC:Electrical Machines Lecture 25 - DC Motor: Speed Control (Shunt and Separately Exicited Motor)
Link NOC:Electrical Machines Lecture 26 - DC Motor: Speed Control (Series and Compound Motor)
Link NOC:Electrical Machines Lecture 27 - DC Machine: Starting and Braking
Link NOC:Electrical Machines Lecture 28 - DC Machine: Comutation
Link NOC:Electrical Machines Lecture 29 - 3 Phase Induction Machine: Constructional Features and Principle of Operation
Link NOC:Electrical Machines Lecture 30 - 3 Phase Induction Machine: Equivalent Circuit
Link NOC:Electrical Machines Lecture 31 - 3 Phase Induction Machine: Speed Torque Characteristics
Link NOC:Electrical Machines Lecture 32 - Testing of Induction Motor: OC and SC Test
Link NOC:Electrical Machines Lecture 33 - 3 Phase Induction Machine: Starting Methods
Link NOC:Electrical Machines Lecture 34 - Synchronous Machines: Introduction
Link NOC:Electrical Machines Lecture 35 - Synchronous Machines: Constructional Features
Link NOC:Electrical Machines Lecture 36 - Numerical Session
Link NOC:Electrical Machines Lecture 37 - Synchronization of Alternators
Link NOC:Electrical Machines Lecture 38 - Synchronous Machines: Equivalent Circuit and Phasor Diagram
Link NOC:Electrical Machines Lecture 39 - Synchronous Machines: OC and SC Test
Link NOC:Electrical Machines Lecture 40 - Synchronous Machines: Power Angle Relationship, V and Inverted V Curves
Link NOC:Electrical Machines Lecture 41 - Single Phase Induction Motors
Link Advanced Control Systems Lecture 1 - Introduction
Link Advanced Control Systems Lecture 2 - Control structures and performance measures
Link Advanced Control Systems Lecture 3 - Time and frequency domain performance measures
Link Advanced Control Systems Lecture 4 - Design of controller
Link Advanced Control Systems Lecture 5 - Design of controller for SISO system
Link Advanced Control Systems Lecture 6 - Controller design for TITO processes
Link Advanced Control Systems Lecture 7 - Limitations of PID controllers
Link Advanced Control Systems Lecture 8 - PI-PD controller for SISO system
Link Advanced Control Systems Lecture 9 - PID-P controller for Two Input Two Output system
Link Advanced Control Systems Lecture 10 - Effects of measurement noise and load
Link Advanced Control Systems Lecture 11 - Identification of dynamic models of plants
Link Advanced Control Systems Lecture 12 - Relay control system for identification
Link Advanced Control Systems Lecture 13 - Off-line identification of process dynamics
Link Advanced Control Systems Lecture 14 - On-line identification of plant dynamics
Link Advanced Control Systems Lecture 15 - State space based identification
Link Advanced Control Systems Lecture 16 - State space analysis of systems
Link Advanced Control Systems Lecture 17 - State space based identification of systems - 1
Link Advanced Control Systems Lecture 18 - State space based identification of systems - 2
Link Advanced Control Systems Lecture 19 - Identification of simple systems
Link Advanced Control Systems Lecture 20 - Identification of FOPDT model
Link Advanced Control Systems Lecture 21 - Identification of second order plus dead time model
Link Advanced Control Systems Lecture 22 - Identification of SOPDT model
Link Advanced Control Systems Lecture 23 - Steady state gain from asymmetrical relay test
Link Advanced Control Systems Lecture 24 - Identification of SOPDT model with pole multiplicity
Link Advanced Control Systems Lecture 25 - Existence of limit cycle for unstable system
Link Advanced Control Systems Lecture 26 - Identification procedures
Link Advanced Control Systems Lecture 27 - Identification of underdamped systems
Link Advanced Control Systems Lecture 28 - Off-line identification of TITO systems
Link Advanced Control Systems Lecture 29 - On-line identification of TITO systems
Link Advanced Control Systems Lecture 30 - Review of time domain based identification
Link Advanced Control Systems Lecture 31 - DF based analytical expressions for on-line identification
Link Advanced Control Systems Lecture 32 - Model parameter accuracy and sensitivity
Link Advanced Control Systems Lecture 33 - Improved identification using Fourier series and wavelet transform
Link Advanced Control Systems Lecture 34 - Reviews of DF based identification
Link Advanced Control Systems Lecture 35 - Advanced Smith predictor controller
Link Advanced Control Systems Lecture 36 - Design of controllers for the advanced Smith predictor
Link Advanced Control Systems Lecture 37 - Model-free controller design
Link Advanced Control Systems Lecture 38 - Model Based PID controller Design - I
Link Advanced Control Systems Lecture 39 - Model Based PI-PD controller Design - II
Link Advanced Control Systems Lecture 40 - Tuning of reconfigurable PID controllers
Link NOC:Optimization Techniques for Digital VLSI Design Lecture 1 - Introduction to Digital VLSI Design Flow
Link NOC:Optimization Techniques for Digital VLSI Design Lecture 2 - High-level Synthesis (HLS) flow with an example
Link NOC:Optimization Techniques for Digital VLSI Design Lecture 3 - Automation of High-level Synthesis Steps
Link NOC:Optimization Techniques for Digital VLSI Design Lecture 4 - Impact of Coding Style on HLS Results
Link NOC:Optimization Techniques for Digital VLSI Design Lecture 5 - Impact of Compiler Optimizations on HLS Results
Link NOC:Optimization Techniques for Digital VLSI Design Lecture 6 - RTL Optimizations for Timing
Link NOC:Optimization Techniques for Digital VLSI Design Lecture 7 - Retiming
Link NOC:Optimization Techniques for Digital VLSI Design Lecture 8 - RTL Optimizations for Area
Link NOC:Optimization Techniques for Digital VLSI Design Lecture 9 - RTL Optimizations for Power
Link NOC:Optimization Techniques for Digital VLSI Design Lecture 10 - High Level Synthesis: Introduction to Logic Synthesis
Link NOC:Optimization Techniques for Digital VLSI Design Lecture 11 - Overview of FPGA Technology Mapping
Link NOC:Optimization Techniques for Digital VLSI Design Lecture 12 - Introduction to Physical Synthesis
Link NOC:Optimization Techniques for Digital VLSI Design Lecture 13 - Introduction to Digital VLSI Testing - I
Link NOC:Optimization Techniques for Digital VLSI Design Lecture 14 - Introduction to Digital VLSI Testing - II
Link NOC:Optimization Techniques for Digital VLSI Design Lecture 15 - Optimization Techniques for ATPG - Part I
Link NOC:Optimization Techniques for Digital VLSI Design Lecture 16 - Optimization Techniques for ATPG - Part II
Link NOC:Optimization Techniques for Digital VLSI Design Lecture 17 - Optimization Techniques for Design for Testability
Link NOC:Optimization Techniques for Digital VLSI Design Lecture 18 - High-level fault modeling and RTL level Testing
Link NOC:Optimization Techniques for Digital VLSI Design Lecture 19 - LTL/CTL based Verification
Link NOC:Optimization Techniques for Digital VLSI Design Lecture 20 - Verification of Large Scale Systems
Link NOC:Optimization Techniques for Digital VLSI Design Lecture 21 - BDD based verification
Link NOC:Optimization Techniques for Digital VLSI Design Lecture 22 - Verification: ADD based verification, HDD based verification
Link NOC:Optimization Techniques for Digital VLSI Design Lecture 23 - Verification: Symbolic Model Checking
Link NOC:Optimization Techniques for Digital VLSI Design Lecture 24 - Verification: Bounded Model Checking
Link NOC:Advanced Topics in Probability and Random Processes Lecture 1 - Probability Basics
Link NOC:Advanced Topics in Probability and Random Processes Lecture 2 - Random Variable - I
Link NOC:Advanced Topics in Probability and Random Processes Lecture 3 - Random Variable - II
Link NOC:Advanced Topics in Probability and Random Processes Lecture 4 - Random Vectors and Random Processes
Link NOC:Advanced Topics in Probability and Random Processes Lecture 5 - Infinite Sequence of Events - I
Link NOC:Advanced Topics in Probability and Random Processes Lecture 6 - Infinite Sequence of Events - II
Link NOC:Advanced Topics in Probability and Random Processes Lecture 7 - Convergence of Sequence of Random Variables
Link NOC:Advanced Topics in Probability and Random Processes Lecture 8 - Weak Convergence - I
Link NOC:Advanced Topics in Probability and Random Processes Lecture 9 - Weak Convergence - II
Link NOC:Advanced Topics in Probability and Random Processes Lecture 10 - Laws of Large Numbers
Link NOC:Advanced Topics in Probability and Random Processes Lecture 11 - Central Limit Theorem
Link NOC:Advanced Topics in Probability and Random Processes Lecture 12 - Large Deviation Theory
Link NOC:Advanced Topics in Probability and Random Processes Lecture 13 - Crammer's Theorem for Large Deviation
Link NOC:Advanced Topics in Probability and Random Processes Lecture 14 - Introduction to Markov Processes
Link NOC:Advanced Topics in Probability and Random Processes Lecture 15 - Discrete Time Markov Chain - 1
Link NOC:Advanced Topics in Probability and Random Processes Lecture 16 - Discrete Time Markov Chain - 2
Link NOC:Advanced Topics in Probability and Random Processes Lecture 17 - Discrete Time Markov Chain - 3
Link NOC:Advanced Topics in Probability and Random Processes Lecture 18 - Discrete Time Markov Chain - 4
Link NOC:Advanced Topics in Probability and Random Processes Lecture 19 - Discrete Time Markov Chain - 5
Link NOC:Advanced Topics in Probability and Random Processes Lecture 20 - Continuous Time Markov Chain - 1
Link NOC:Advanced Topics in Probability and Random Processes Lecture 21 - Continuous Time Markov Chain - 2
Link NOC:Advanced Topics in Probability and Random Processes Lecture 22 - Continuous Time Markov Chain - 3
Link NOC:Advanced Topics in Probability and Random Processes Lecture 23 - Martingale Process - 1
Link NOC:Advanced Topics in Probability and Random Processes Lecture 24 - Martingale Process - 2
Link NOC:Microwave Engineering Lecture 1 - Introduction to Microwave Engineering
Link NOC:Microwave Engineering Lecture 2 - Introduction to Transmission Line Theory
Link NOC:Microwave Engineering Lecture 3 - Lossy Transmission Line
Link NOC:Microwave Engineering Lecture 4 - Smith Chart
Link NOC:Microwave Engineering Lecture 5 - Introduction to Waveguides and Rectangular Waveguide
Link NOC:Microwave Engineering Lecture 6 - Circular Waveguide
Link NOC:Microwave Engineering Lecture 7 - Attenuation Waveguide
Link NOC:Microwave Engineering Lecture 8 - N-port microwave networks and equivalent voltages and currents
Link NOC:Microwave Engineering Lecture 9 - Scattering Matrix (S-Parameters) Part-1
Link NOC:Microwave Engineering Lecture 10 - Scattering Matrix (S-parameters) Part-2 and Transmission Matrix (ABCD-Parameters)
Link NOC:Microwave Engineering Lecture 11 - Impedance Matching Using L-Section and Series Stub Networks
Link NOC:Microwave Engineering Lecture 12 - Impedance Matching Using Shunt Stub, Double Stub and Quarter wave Transformer
Link NOC:Microwave Engineering Lecture 13 - Multisection Matching Networks and Tapered Lines
Link NOC:Microwave Engineering Lecture 14 - Series and Parallel RLC Resonators
Link NOC:Microwave Engineering Lecture 15 - Transmission Line Resonators
Link NOC:Microwave Engineering Lecture 16 - Waveguide Resonators
Link NOC:Microwave Engineering Lecture 17 - Introduction to power dividers
Link NOC:Microwave Engineering Lecture 18 - Directional couplers
Link NOC:Microwave Engineering Lecture 19 - Microwave Filters - Part 1
Link NOC:Microwave Engineering Lecture 20 - Microwave Filters - Part 2
Link NOC:Microwave Engineering Lecture 21 - Characteristics of Microwave BJT and FET
Link NOC:Microwave Engineering Lecture 22 - PIN Diodes and Control Circuits
Link NOC:Microwave Engineering Lecture 23 - Schottky Diodes and Detectors and Tunnel Diodes
Link NOC:Microwave Engineering Lecture 24 - Gunn Diodes, IMPATT Diodes and Varactor Diodes
Link NOC:Microwave Engineering Lecture 25 - Two-Port Power Gain and Stability
Link NOC:Microwave Engineering Lecture 26 - Design of single stage transistor amplifier (for maximum gain, specified gain, low noise)
Link NOC:Microwave Engineering Lecture 27 - RF oscillator
Link NOC:Microwave Engineering Lecture 28 - Limitations of Conventional Tubes at Microwave Ranges
Link NOC:Microwave Engineering Lecture 29 - Introduction to Klystron
Link NOC:Microwave Engineering Lecture 30 - Reflex Klystron, Magnetron and TWT
Link NOC:Microwave Engineering Lecture 31 - Ferrite Devices
Link NOC:Microwave Engineering Lecture 32 - Planar transmission lines for MIC
Link NOC:Microwave Engineering Lecture 33 - Lumped elements for MIC
Link NOC:Microwave Engineering Lecture 34 - Lumped inductor, HMIC and MMIC
Link NOC:Microwave Engineering Lecture 35 - Overview of Radar
Link NOC:Microwave Engineering Lecture 36 - Cellular Communication
Link NOC:Microwave Engineering Lecture 37 - Satellite Communication and Applications of Microwave
Link Advanced Electric Drives Lecture 1
Link Advanced Electric Drives Lecture 2
Link Advanced Electric Drives Lecture 3
Link Advanced Electric Drives Lecture 4
Link Advanced Electric Drives Lecture 5
Link Advanced Electric Drives Lecture 6
Link Advanced Electric Drives Lecture 7
Link Advanced Electric Drives Lecture 8
Link Advanced Electric Drives Lecture 9
Link Advanced Electric Drives Lecture 10
Link Advanced Electric Drives Lecture 11
Link Advanced Electric Drives Lecture 12
Link Advanced Electric Drives Lecture 13
Link Advanced Electric Drives Lecture 14
Link Advanced Electric Drives Lecture 15
Link Advanced Electric Drives Lecture 16
Link Advanced Electric Drives Lecture 17
Link Advanced Electric Drives Lecture 18
Link Advanced Electric Drives Lecture 19
Link Advanced Electric Drives Lecture 20
Link Advanced Electric Drives Lecture 21
Link Advanced Electric Drives Lecture 22
Link Advanced Electric Drives Lecture 23
Link Advanced Electric Drives Lecture 24
Link Advanced Electric Drives Lecture 25
Link Advanced Electric Drives Lecture 26
Link Advanced Electric Drives Lecture 27
Link Advanced Electric Drives Lecture 28
Link Advanced Electric Drives Lecture 29
Link Advanced Electric Drives Lecture 30
Link Advanced Electric Drives Lecture 31
Link Advanced Electric Drives Lecture 32
Link Advanced Electric Drives Lecture 33
Link Advanced Electric Drives Lecture 34
Link Advanced Electric Drives Lecture 35
Link Advanced Electric Drives Lecture 36
Link Advanced Electric Drives Lecture 37
Link Advanced Electric Drives Lecture 38
Link Advanced Electric Drives Lecture 39
Link Advanced Electric Drives Lecture 40
Link High Voltage DC Transmission Lecture 1 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 2 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 3 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 4 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 5 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 6 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 7 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 8 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 9 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 10 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 11 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 12 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 13 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 14 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 15 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 16 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 17 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 18 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 19 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 20 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 21 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 22 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 23 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 24 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 25 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 26 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 27 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 28 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 29 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 30 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 31 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 32 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 33 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 34 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 35 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 36 - High Voltage DC Transmission
Link High Voltage DC Transmission Lecture 37 - High Voltage DC Transmission
Link Intelligent Systems and Control Lecture 1 - Introduction to Intelligent Systems and Control
Link Intelligent Systems and Control Lecture 2 - Linear Neural networks
Link Intelligent Systems and Control Lecture 3 - Multi layered Neural Networks
Link Intelligent Systems and Control Lecture 4 - Back Propagation Algorithm revisited
Link Intelligent Systems and Control Lecture 5 - Non Linear System Analysis - Part I
Link Intelligent Systems and Control Lecture 6 - Non Linear System Analysis - Part II
Link Intelligent Systems and Control Lecture 7 - Radial Basis Function Networks
Link Intelligent Systems and Control Lecture 8 - Adaptive Learning rate
Link Intelligent Systems and Control Lecture 9 - Weight update rules
Link Intelligent Systems and Control Lecture 10 - Recurrent networks Back propagation through time
Link Intelligent Systems and Control Lecture 11 - Recurrent networks Real time recurrent learning
Link Intelligent Systems and Control Lecture 12 - Self organizing Map - Multidimensional networks
Link Intelligent Systems and Control Lecture 13 - Fuzzy sets - A Primer
Link Intelligent Systems and Control Lecture 14 - Fuzzy Relations
Link Intelligent Systems and Control Lecture 15 - Fuzzy Rule base and Approximate Reasoning
Link Intelligent Systems and Control Lecture 16 - Introduction to Fuzzy Logic Control
Link Intelligent Systems and Control Lecture 17 - Neural Control A review
Link Intelligent Systems and Control Lecture 18 - Network inversion and Control
Link Intelligent Systems and Control Lecture 19 - Neural Model of a Robot manipulator
Link Intelligent Systems and Control Lecture 20 - Indirect Adaptive Control of a Robot manipulator
Link Intelligent Systems and Control Lecture 21 - Adaptive neural control for Affine Systems SISO
Link Intelligent Systems and Control Lecture 22 - Adaptive neural control for Affine systems MIMO
Link Intelligent Systems and Control Lecture 23 - Visual Motor Coordination with KSOM
Link Intelligent Systems and Control Lecture 24 - Visual Motor coordination - quantum clustering
Link Intelligent Systems and Control Lecture 25 - Direct Adaptive control of Manipulators - Intro
Link Intelligent Systems and Control Lecture 26 - NN based back stepping control
Link Intelligent Systems and Control Lecture 27 - Fuzzy Control - a Review
Link Intelligent Systems and Control Lecture 28 - Mamdani type flc and parameter optimization
Link Intelligent Systems and Control Lecture 29 - Fuzzy Control of a pH reactor
Link Intelligent Systems and Control Lecture 30 - Fuzzy Lyapunov controller - Computing with words
Link Intelligent Systems and Control Lecture 31 - Controller Design for a T-S Fuzzy model
Link Intelligent Systems and Control Lecture 32 - Linear controllers using T-S fuzzy model
Link Power Systems Operation and Control Module 1 - Lecture 1
Link Power Systems Operation and Control Module 1 - Lecture 2
Link Power Systems Operation and Control Module 1 - Lecture 3
Link Power Systems Operation and Control Module 2 - Lecture 1
Link Power Systems Operation and Control Module 2 - Lecture 2
Link Power Systems Operation and Control Module 2 - Lecture 3
Link Power Systems Operation and Control Module 2 - Lecture 4
Link Power Systems Operation and Control Module 2 - Lecture 5
Link Power Systems Operation and Control Module 2 - Lecture 6
Link Power Systems Operation and Control Module 2 - Lecture 7
Link Power Systems Operation and Control Module 2 - Lecture 8
Link Power Systems Operation and Control Module 2 - Lecture 9
Link Power Systems Operation and Control Module 2 - Lecture 10
Link Power Systems Operation and Control Module 2 - Lecture 11
Link Power Systems Operation and Control Module 2 - Lecture 12
Link Power Systems Operation and Control Module 2 - Lecture 13
Link Power Systems Operation and Control Module 2 - Lecture 14
Link Power Systems Operation and Control Module 3 - Lecture 1
Link Power Systems Operation and Control Module 3 - Lecture 2
Link Power Systems Operation and Control Module 3 - Lecture 3
Link Power Systems Operation and Control Module 3 - Lecture 4
Link Power Systems Operation and Control Module 3 - Lecture 5
Link Power Systems Operation and Control Module 3 - Lecture 6
Link Power Systems Operation and Control Module 3 - Lecture 7
Link Power Systems Operation and Control Module 3 - Lecture 8
Link Power Systems Operation and Control Module 3 - Lecture 9
Link Power Systems Operation and Control Module 3 - Lecture 10
Link Power Systems Operation and Control Module 4 - Lecture 1
Link Power Systems Operation and Control Module 4 - Lecture 2
Link Power Systems Operation and Control Module 4 - Lecture 3
Link Power Systems Operation and Control Module 4 - Lecture 4
Link Power Systems Operation and Control Module 5 - Lecture 1
Link Power Systems Operation and Control Module 5 - Lecture 2
Link Power Systems Operation and Control Module 6 - Lecture 1
Link Power Systems Operation and Control Module 6 - Lecture 2
Link NOC:Electromagnetic theory Lecture 1 - Introduction to EMT
Link NOC:Electromagnetic theory Lecture 2 - Coulombs law
Link NOC:Electromagnetic theory Lecture 3 - Vector analysis-I and Introduction to coordinate system
Link NOC:Electromagnetic theory Lecture 4 - Rectangular coordinate system
Link NOC:Electromagnetic theory Lecture 5 - Vector analysis-II
Link NOC:Electromagnetic theory Lecture 6 - Introduction to Electric field
Link NOC:Electromagnetic theory Lecture 7 - Electric field-I
Link NOC:Electromagnetic theory Lecture 8 - Cylindrical coordinate system
Link NOC:Electromagnetic theory Lecture 9 - Transformation and Electric field-II
Link NOC:Electromagnetic theory Lecture 10 - Electric Potential-I
Link NOC:Electromagnetic theory Lecture 11 - Spherical co-ordinate system and Electric potential-II
Link NOC:Electromagnetic theory Lecture 12 - Vector Analysis-III and Electric potential-III
Link NOC:Electromagnetic theory Lecture 13 - Gauss’s law and its application-I
Link NOC:Electromagnetic theory Lecture 14 - Gauss’s law and its application-II
Link NOC:Electromagnetic theory Lecture 15 - Divergence and Poisson’s and Laplace’s equation
Link NOC:Electromagnetic theory Lecture 16 - Gauss’s law and its application -III
Link NOC:Electromagnetic theory Lecture 17 - Vector analysis –III (curl and its significance)
Link NOC:Electromagnetic theory Lecture 18 - Conductor and dielectric-I
Link NOC:Electromagnetic theory Lecture 19 - Polarization - I
Link NOC:Electromagnetic theory Lecture 20 - Polarization - II
Link NOC:Electromagnetic theory Lecture 21 - Polarization - II (Continued...)
Link NOC:Electromagnetic theory Lecture 22 - Boundary condition
Link NOC:Electromagnetic theory Lecture 23 - Continuity equation and Conductors - III
Link NOC:Electromagnetic theory Lecture 24 - Conductors – IV
Link NOC:Electromagnetic theory Lecture 25 - Conductors – IV (Continued...) and Capacitor - I
Link NOC:Electromagnetic theory Lecture 26 - Capacitor - II
Link NOC:Electromagnetic theory Lecture 27 - Capacitor - II (Continued...) and Equipotential Surfaces
Link NOC:Electromagnetic theory Lecture 28 - Solution of Laplace’s equation-I
Link NOC:Electromagnetic theory Lecture 29 - Solution of Laplace’s equation-I I and method of images-I
Link NOC:Electromagnetic theory Lecture 30 - Method of images-II
Link NOC:Electromagnetic theory Lecture 31 - Solution of Laplace’s equation-III
Link NOC:Electromagnetic theory Lecture 32 - Solution of Laplace’s equation-IV
Link NOC:Electromagnetic theory Lecture 33 - Introduction of magnetic field
Link NOC:Electromagnetic theory Lecture 34 - Biot savart law and its application
Link NOC:Electromagnetic theory Lecture 35 - Biot savart lawandits application-II
Link NOC:Electromagnetic theory Lecture 36 - Magnetic vector potential
Link NOC:Electromagnetic theory Lecture 37 - Magnetic force, torque and dipole
Link NOC:Electromagnetic theory Lecture 38 - Magnetic force, torque and dipole (Continued...)
Link NOC:Electromagnetic theory Lecture 39 - Magnetic materials-I
Link NOC:Electromagnetic theory Lecture 40 - Magnetic materials-I (Continued...) and Magnetic moment
Link NOC:Electromagnetic theory Lecture 41 - Magnetic materials-I (Continued...) and Boundary condition for Magnetic fields
Link NOC:Electromagnetic theory Lecture 42 - Inductor and calculation of inductance for different shapes
Link NOC:Electromagnetic theory Lecture 43 - Inductor and calculation of inductance for different shapes (Continued...)
Link NOC:Electromagnetic theory Lecture 44 - Faradays law and its application-I
Link NOC:Electromagnetic theory Lecture 45 - Faradays law and its application-II
Link NOC:Electromagnetic theory Lecture 46 - Displacement current
Link NOC:Electromagnetic theory Lecture 47 - Maxwell’s equation
Link NOC:Electromagnetic theory Lecture 48 - Wave propagation
Link NOC:Electromagnetic theory Lecture 49 - Solution of Helmholtz equation
Link NOC:Electromagnetic theory Lecture 50 - Uniform plane waves
Link NOC:Electromagnetic theory Lecture 51 - Polarization and Poynting Vector
Link NOC:Electromagnetic theory Lecture 52 - Wave reflections (Normal incidence)
Link NOC:Electromagnetic theory Lecture 53 - Waves in imperfect dielectrics and Good conductors
Link NOC:Electromagnetic theory Lecture 54 - Skin depth/effect
Link NOC:Electromagnetic theory Lecture 55 - Oblique incidence of waves
Link NOC:Electromagnetic theory Lecture 56 - Oblique incidence of waves (Continued...)
Link NOC:Electromagnetic theory Lecture 57 - Transmission line
Link NOC:Electromagnetic theory Lecture 58 - Transmission line model
Link NOC:Electromagnetic theory Lecture 59 - Steady state sinusoidal response of T-line-I
Link NOC:Electromagnetic theory Lecture 60 - Steady state sinusoidal response of T-line-II
Link NOC:Electromagnetic theory Lecture 61 - Steady state sinusoidal response of T-line-IIand Smith chart
Link NOC:Electromagnetic theory Lecture 62 - Application of smith chart-I
Link NOC:Electromagnetic theory Lecture 63 - Application of smith chart-II
Link NOC:Electromagnetic theory Lecture 64 - Impedance matching
Link NOC:Electromagnetic theory Lecture 65 - Transients on Transmission line-I
Link NOC:Electromagnetic theory Lecture 66 - Transients on Transmission line-II
Link NOC:Electromagnetic theory Lecture 67 - Pulse on Transmission line
Link NOC:Electromagnetic theory Lecture 68 - Capacitive termination in Transmission line
Link NOC:Electromagnetic theory Lecture 69 - Waveguide
Link NOC:Electromagnetic theory Lecture 70 - Waveguide Analysis
Link NOC:Electromagnetic theory Lecture 71 - TM modes in Waveguide
Link NOC:Electromagnetic theory Lecture 72 - Rectangular waveguide: TM modes
Link NOC:Electromagnetic theory Lecture 73 - Rectangular waveguide: TE modes
Link NOC:Electromagnetic theory Lecture 74 - Waveguide: Wavelength, Impedance and power calculation
Link NOC:Electromagnetic theory Lecture 75 - Waveguide losses
Link NOC:Electromagnetic theory Lecture 76 - Dielectric Waveguide
Link NOC:Electromagnetic theory Lecture 77 - Dielectric Waveguide (Continued...)
Link NOC:Electromagnetic theory Lecture 78 - Radiation and Antenna
Link NOC:Electromagnetic theory Lecture 79 - Hertzian Dipole Antenna
Link NOC:Electromagnetic theory Lecture 80 - Hertzian Dipole Antenna (Continued...)
Link NOC:Electromagnetic theory Lecture 81 - Quasi-statistics-I
Link NOC:Electromagnetic theory Lecture 82 - Quasi-statistics-II
Link NOC:Electromagnetic theory Lecture 83 - Long wire Antenna
Link NOC:Electromagnetic theory Lecture 84 - Group velocity and Phase velocity
Link NOC:Electromagnetic theory Lecture 85 - Numerical solution of Laplace's equation
Link NOC:Principles of Communication - Part 1 Lecture 1 - Basics - Definition of Energy and Power of Signals
Link NOC:Principles of Communication - Part 1 Lecture 2 - Frequency Domain Representation and Introduction to Discrete Fourier Series
Link NOC:Principles of Communication - Part 1 Lecture 3 - Discrete Fourier Series Example and Parseval's Theorem for Periodic Signals
Link NOC:Principles of Communication - Part 1 Lecture 4 - Fourier Transform (FT), Inverse Fourier Transform (IFT) of Continuous Signals, Example of FT of Pulse and Sinc Function
Link NOC:Principles of Communication - Part 1 Lecture 5 - Modulation Property of Fourier Transform, Dirac Delta or Unit Impulse Function - Definition and Fourier Transform
Link NOC:Principles of Communication - Part 1 Lecture 6 - Duality Property of Fourier Transform and Introduction to Linear Time Invatiant (LTI) Systems
Link NOC:Principles of Communication - Part 1 Lecture 7 - Transmission of Signal through Linear Time Invariant (LTI) Systems and Cross- Correlation of Signals
Link NOC:Principles of Communication - Part 1 Lecture 8 - Auto-Correlation of Signal and Energy Spectral Density (ESD)
Link NOC:Principles of Communication - Part 1 Lecture 9 - Example for Auto-Correlation of Signal and Energy Spectral Density (ESD)
Link NOC:Principles of Communication - Part 1 Lecture 10 - Introduction to Amplitude Modulation (AM), Modulation Index, Envelope Distortion and Over Modulation
Link NOC:Principles of Communication - Part 1 Lecture 11 - Spectrum of Amplitude Modulated(AM) Signals and Introduction to Envelope Detection
Link NOC:Principles of Communication - Part 1 Lecture 12 - Envelope Detection for Amplitude Modulated (AM) Signals and Time Constant for Capacitor in Envelope Detector
Link NOC:Principles of Communication - Part 1 Lecture 13 - Power of Amplitude Modulated (AM) Signals and Power Efficiency of AM Signals
Link NOC:Principles of Communication - Part 1 Lecture 14 - Double Sideband (DSB) Suppressed Carrier (SC) Modulation, Spectrum of DSB-SC Signals and Coherent Demodulation
Link NOC:Principles of Communication - Part 1 Lecture 15 - Double Sideband(DSB) Suppressed Carrier (SC) Demodulation, Non-coherent demodulation, Impact of Carrier Phase Offset
Link NOC:Principles of Communication - Part 1 Lecture 16 - Carrier Phase Offset Example for Double Sideband (DSB) Suppressed Carrier (SC) Demodulation- Wireless Cellular Communication with User Mobility
Link NOC:Principles of Communication - Part 1 Lecture 17 - Phase Synchronization using Costas Receiver for Double Sideband (DSB) Suppressed Carrier (SC) Demodulation
Link NOC:Principles of Communication - Part 1 Lecture 18 - Introduction to Quadrature Carrier Multiplexing (QCM) and Demodulation of QCM Signals.
Link NOC:Principles of Communication - Part 1 Lecture 19 - Introduction to Single Sideband (SSB) Modulation
Link NOC:Principles of Communication - Part 1 Lecture 20 - Generation of Single Sideband (SSB) Modulation Signals through Frequency Discrimination
Link NOC:Principles of Communication - Part 1 Lecture 21 - Frequency Domain Description of Hilbert Transform – Fourier Spectrum of the Hilbert Transformer
Link NOC:Principles of Communication - Part 1 Lecture 22 - Time Domain Description of Hilbert Transform – Impulse Response of the Hilbert Transformer
Link NOC:Principles of Communication - Part 1 Lecture 23 - Phase Shifting Method for Generation of Single Sideband (SSB) Modulated Signals based on Hilbert Transform
Link NOC:Principles of Communication - Part 1 Lecture 24 - Complex Pre-Envelope and Complex Envelope of Passband Signals
Link NOC:Principles of Communication - Part 1 Lecture 25 - Complex Pre- Envelope and Complex Envelope of QCM (Quadrature Carrier Modulated) Signals
Link NOC:Principles of Communication - Part 1 Lecture 26 - Introduction to Vestigial Side Band(VSB) Modulation and Non- Ideal Filtering, Spectral Efficiency
Link NOC:Principles of Communication - Part 1 Lecture 27 - Properties of Vestigial Side Band Filter for Reconstruction of Message Signal without Distortion
Link NOC:Principles of Communication - Part 1 Lecture 28 - Introduction to Angle Modulation, Description of Phase Modulation (PM) and Frequency Modulation (FM)
Link NOC:Principles of Communication - Part 1 Lecture 29 - Frequency Modulation (FM) with Sinusoidal Modulation Signal and Pictorial Examples, Insights of PM and FM signals
Link NOC:Principles of Communication - Part 1 Lecture 30 - Indirect Method for Generation of FM Signals - Generation of Narrowband FM Signal
Link NOC:Principles of Communication - Part 1 Lecture 31 - Indirect Method for Generation of FM Signals - Generation of Wideband FM Signal through Frequency Multiplication
Link NOC:Principles of Communication - Part 1 Lecture 32 - Spectrum of Frequency Modulated (FM) Signals
Link NOC:Principles of Communication - Part 1 Lecture 33 - Bandwidth of Frequency Modulated (FM) Signals - Carson's Rule
Link NOC:Principles of Communication - Part 1 Lecture 34 - Demodulation of Frequency Modulated (FM) Signals, Condition of Envelope Detection
Link NOC:Principles of Communication - Part 1 Lecture 35 - Analog to Digital Conversion of Signals and Introduction to Sampling
Link NOC:Principles of Communication - Part 1 Lecture 36 - Spectrum of Sampled Signal, Aliasing and Nyquist Sampling Theorem
Link NOC:Principles of Communication - Part 1 Lecture 37 - Ideal Impluse Train Sampling, Reconstruction of Original Signal from Samples, Sinc Interpolation
Link NOC:Principles of Communication - Part 1 Lecture 38 - Introduction to Pulse Amplitude Modulation (PAM), Sample and Hold, Flat Top Sampling
Link NOC:Principles of Communication - Part 1 Lecture 39 - Pulse Amplitude Modulation (PAM), Spectrum of PAM Signal , Reconstruction of Original Signal from PAM Signal, Equalization
Link NOC:Principles of Communication - Part 1 Lecture 40 - Introduction to Quantization, Uniform Quantizer, Mid- Tread Quantizer
Link NOC:Principles of Communication - Part 1 Lecture 41 - Quantization, Mid- Rise Quantizer, PDF and Power of Quantization Noise, Quantization Noise Power versus Quantizer Resolution
Link NOC:Principles of Communication - Part 1 Lecture 42 - Introduction to Lloyd- Max Quantization Algorithm, Optimal Quantizer Design
Link NOC:Principles of Communication - Part 1 Lecture 43 - Lloyd- Max Quantization Algorithm, Iterative Computation of Optimal Quantization Levels and Intervals
Link NOC:Principles of Communication - Part 1 Lecture 44 - Companding for Non- Uniform Quantization, Mu-law Compressor, A- Law Compressor
Link NOC:Principles of Communication - Part 1 Lecture 45 - Introduction to Delta Modulation, One-bit Quantizer
Link NOC:Principles of Communication - Part 1 Lecture 46 - Signal Reconstruction in Delta Modulation, Schematic Diagrams, Slope Overload Distortion and Granular Noise
Link NOC:Principles of Communication - Part 1 Lecture 47 - Differential Pulse Coded Modulation (DPCM), DPCM Signal Reconstruction and Schematic Diagram
Link NOC:Principles of Communication - Part 1 Lecture 48 - Frequency Mixing and Translation in Communication Systems, Heterodyne and Super Heterodyne Receivers
Link NOC:Principles of Communication - Part 1 Lecture 49 - Frequency Translation and Super Heterodyne Receivers, Problem of Image Frequency
Link NOC:Principles of Communication - Part 1 Lecture 50 - Frequency Division Multiplexing (FDM), Carrier Spacing in FDM
Link NOC:Principles of Communication - Part 1 Lecture 51 - Time Division Multiplexing (TDM), Operation of TDM, Sample Spacing in TDM
Link NOC:Principles of Communication - Part 1 Lecture 52 - Bandwidth Requirements for Time Division Multiplexing (TDM), The T1 TDM System : A Case Study
Link NOC:An Introduction to Coding Theory Lecture 1 - Introduction to Error Control Coding - I
Link NOC:An Introduction to Coding Theory Lecture 2 - Introduction to Error Control Coding - II
Link NOC:An Introduction to Coding Theory Lecture 3 - Introduction to Error Control Coding - III
Link NOC:An Introduction to Coding Theory Lecture 4 - Introduction to Linear Block Codes, Generator Matrix and Parity Check Matrix
Link NOC:An Introduction to Coding Theory Lecture 5 - Syndrome, Error Correction and Error Detection
Link NOC:An Introduction to Coding Theory Lecture 6 - Problem Solving Session - I
Link NOC:An Introduction to Coding Theory Lecture 7 - Decoding of Linear Block Codes
Link NOC:An Introduction to Coding Theory Lecture 8 - Distance Properties of Linear Block Codes - I
Link NOC:An Introduction to Coding Theory Lecture 9 - Distance Properties of Linear Block Codes - II
Link NOC:An Introduction to Coding Theory Lecture 10 - Problem Solving Session - II
Link NOC:An Introduction to Coding Theory Lecture 11 - Some Simple Linear Block Codes - I
Link NOC:An Introduction to Coding Theory Lecture 12 - Some Simple Linear Block Codes - II: Reed Muller Codes
Link NOC:An Introduction to Coding Theory Lecture 13 - Bounds on the Size of a Code
Link NOC:An Introduction to Coding Theory Lecture 14 - Problem Solving Session - III
Link NOC:An Introduction to Coding Theory Lecture 15 - Introduction to Convolutional Codes - I: Encoding
Link NOC:An Introduction to Coding Theory Lecture 16 - Introduction to Convolutional Codes - II: State Diagram, Trellis Diagram
Link NOC:An Introduction to Coding Theory Lecture 17 - Convolutional Codes: Classification, Realization
Link NOC:An Introduction to Coding Theory Lecture 18 - Convolutional Codes:Distance Properties
Link NOC:An Introduction to Coding Theory Lecture 19 - Decoding of Convolutional Codes - I: Viterbi Algorithm
Link NOC:An Introduction to Coding Theory Lecture 20 - Decoding of Convolutional Codes - II: BCJR Algorithm
Link NOC:An Introduction to Coding Theory Lecture 21 - Problem solving session - IV
Link NOC:An Introduction to Coding Theory Lecture 22 - Problem solving session - V
Link NOC:An Introduction to Coding Theory Lecture 23 - Performance Bounds for Convolutional Codes
Link NOC:An Introduction to Coding Theory Lecture 24 - Low Density Parity Check Codes
Link NOC:An Introduction to Coding Theory Lecture 25 - Decoding of Low Density Parity Check Codes - I
Link NOC:An Introduction to Coding Theory Lecture 26 - Decoding of Low Density Parity Check Codes - II: Belief Propagation Algorithm
Link NOC:An Introduction to Coding Theory Lecture 27 - Turbo Codes
Link NOC:An Introduction to Coding Theory Lecture 28 - Turbo Decoding
Link NOC:An Introduction to Coding Theory Lecture 29 - Problem Solving Sessions - VI
Link NOC:An Introduction to Coding Theory Lecture 30 - Distance Properties of Turbo Codes
Link NOC:An Introduction to Coding Theory Lecture 31 - Convergence of Turbo Codes
Link NOC:An Introduction to Coding Theory Lecture 32 - Automatic Repeat reQuest (ARQ) Schemes
Link NOC:An Introduction to Coding Theory Lecture 33 - Applications of Linear Codes
Link NOC:Principles of Communication Systems - Part II Lecture 1 - Introduction to Digital Communication Systems
Link NOC:Principles of Communication Systems - Part II Lecture 2 - Spectrum of Transmitted Digital Communication Signal and Wide Sense Stationarity
Link NOC:Principles of Communication Systems - Part II Lecture 3 - Spectrum of Transmitted Digital Communication Signal, Autocorrelation Function and Power Spectral Density
Link NOC:Principles of Communication Systems - Part II Lecture 4 - Spectrum of Transmitted Digital Communication Signal, Relation to Energy Spectral Density and Introduction to AWGN Channel
Link NOC:Principles of Communication Systems - Part II Lecture 5 - Additive White Gaussian Noise (AWGN) Properties, Gaussian Noise and White Noise
Link NOC:Principles of Communication Systems - Part II Lecture 6 - Structure of Digital Communication Receiver, Receiver Filter and Signal-to-Noise Power Ratio (SNR)
Link NOC:Principles of Communication Systems - Part II Lecture 7 - Digital Communication Receiver, Noise Properties and Output Noise Power
Link NOC:Principles of Communication Systems - Part II Lecture 8 - Digital Communication Receiver, Optimal SNR and Matched Filter
Link NOC:Principles of Communication Systems - Part II Lecture 9 - Probability of Error in Digital Communication and Probability Density Functions of Output
Link NOC:Principles of Communication Systems - Part II Lecture 10 - Probability of Error in Digital Communication, Optimal Decison Rule and Gaussian Q function
Link NOC:Principles of Communication Systems - Part II Lecture 11 - Introduction to Binary Phase Shift Keying (BPSK) Modulation, Optimal Decision Rule and Probability of Bit-Error or Bit-Error Rate (BER)
Link NOC:Principles of Communication Systems - Part II Lecture 12 - Introduction to Amplitude Shift Keying (ASK) Modulation
Link NOC:Principles of Communication Systems - Part II Lecture 13 - Optimal Decision Rule for Amplitude Shift Keying (ASK), Bit Error Rate (BER) and Comparison with Binary Phase Shift Keying (BPSK) Modulation
Link NOC:Principles of Communication Systems - Part II Lecture 14 - Introduction to Signal Space Concept and Orthonormal Basis Signals
Link NOC:Principles of Communication Systems - Part II Lecture 15 - Introduction to Frequency Shift Keying (FSK)
Link NOC:Principles of Communication Systems - Part II Lecture 16 - Optimal Decision Rule for FSK, Bit Error Rate (BER) and Comparison with BPSK, ASK
Link NOC:Principles of Communication Systems - Part II Lecture 17 - Introduction to Quadrature Phase Shift Keying (QPSK)
Link NOC:Principles of Communication Systems - Part II Lecture 18 - Waveforms of Quadrature Phase Shift Keying (QPSK)
Link NOC:Principles of Communication Systems - Part II Lecture 19 - Matched Filtering, Bit Error Rate and Symbol Error Rate for Quadrature Phase Shift Keying (QPSK)
Link NOC:Principles of Communication Systems - Part II Lecture 20 - Introduction to M-ary PAM (Pulse Amplitude Modulation), Average Symbol Power and Decision rules
Link NOC:Principles of Communication Systems - Part II Lecture 21 - M-ary PAM (Pulse Amplitude Modulation) -Part-II, Optimal Decision Rule and Probability of Error
Link NOC:Principles of Communication Systems - Part II Lecture 22 - M-ary QAM (Quadrature Amplitude Modulation) Part-I, Introduction, Transmitted Waveform and Average Symbol Energy
Link NOC:Principles of Communication Systems - Part II Lecture 23 - M-ary QAM (Quadrature Amplitude Modulation) - Part-II, Optimal Decision Rule, Probability of Error and Contellation Diagram
Link NOC:Principles of Communication Systems - Part II Lecture 24 - M-ary PSK (Phase Shift Keying) Part-I, Introduction , Transmitted Waveform and Constellation Diagram
Link NOC:Principles of Communication Systems - Part II Lecture 25 - M-ary PSK (Phase Shift Keying) - Part-II, Optimal Decision Rule, Nearest Neighbor Criterion and Approximate Probability of Error
Link NOC:Principles of Communication Systems - Part II Lecture 26 - Introduction to Information Theory, Relevance of Information Theory and Characterization of Information
Link NOC:Principles of Communication Systems - Part II Lecture 27 - Definition of Entropy, Average of Information / Uncertainity of source and Properties of Entropy
Link NOC:Principles of Communication Systems - Part II Lecture 28 - Entropy Example- Binary Source Maximum and Minimum Entropy of Binary Source
Link NOC:Principles of Communication Systems - Part II Lecture 29 - Maximum Entropy of Source with M-ary Alphabet, Concave/Convex Functions and Jensens Inequality
Link NOC:Principles of Communication Systems - Part II Lecture 30 - Joint Entropy , Definition of Joint Entropy of Two Sources and Simple Examples for Joint Entropy Computation
Link NOC:Principles of Communication Systems - Part II Lecture 31 - Properties of Joint Entropy and Relation between Joint Entropy and Marginal Entropies
Link NOC:Principles of Communication Systems - Part II Lecture 32 - Conditional Entropy, Example of Conditional Entropy and Properties of Conditional Entropy
Link NOC:Principles of Communication Systems - Part II Lecture 33 - Mutual Information, Diagrammatic Representation and Properties of Mutual Information
Link NOC:Principles of Communication Systems - Part II Lecture 34 - Simple Example of Mutual Information and Practical Example of Mutual Information-Binary Symmetric Channel
Link NOC:Principles of Communication Systems - Part II Lecture 35 - Channel Capacity, Implications of Channel Capacity, Claude E. Shannon- Father of Information Theory and Example of Capacity of Binary Symmetric Channel
Link NOC:Principles of Communication Systems - Part II Lecture 36 - Differential Entropy and Example for Uniform Probability Density function
Link NOC:Principles of Communication Systems - Part II Lecture 37 - Differential Entropy of Gaussian Source and Insights
Link NOC:Principles of Communication Systems - Part II Lecture 38 - Joint Conditional/ Differential Entropies and Mutual Information
Link NOC:Principles of Communication Systems - Part II Lecture 39 - Capacity of Gaussian channel - Part I
Link NOC:Principles of Communication Systems - Part II Lecture 40 - Capacity of Gaussian Channel - Part-II, Practical Implications and Maximum rate in bits\sec
Link NOC:Principles of Communication Systems - Part II Lecture 41 - Introduction to Source Coding and Data Compression, Variable Length codes and Unique Decodability
Link NOC:Principles of Communication Systems - Part II Lecture 42 - Uniquely Decodable Codes, Prefix-free code, Instantaneous Code and Average Code length
Link NOC:Principles of Communication Systems - Part II Lecture 43 - Binary Tree Representation of Code, Example and Kraft Inequality
Link NOC:Principles of Communication Systems - Part II Lecture 44 - Lower Bound on Average Code Length and Kullback-Leibler Divergence
Link NOC:Principles of Communication Systems - Part II Lecture 45 - Optimal Code length, Constrained Optimization and Morse Code Example
Link NOC:Principles of Communication Systems - Part II Lecture 46 - Approaching Lower Bound on Average code length and Block Coding
Link NOC:Principles of Communication Systems - Part II Lecture 47 - Huffman Code, Algorithm, Example and Average Code Length
Link NOC:Principles of Communication Systems - Part II Lecture 48 - Introduction to channel coding, Rate of Code, Repetition Code and Hamming Distance
Link NOC:Principles of Communication Systems - Part II Lecture 49 - Introduction to Convolutional Codes, Binary Field Arithmetic and Linear Codes
Link NOC:Principles of Communication Systems - Part II Lecture 50 - Example of Convolutional Code Output and Convolution Operation for Code generation
Link NOC:Principles of Communication Systems - Part II Lecture 51 - Matrix Representation of Convolutional Codes, Generator Matrix, Transform Domain Representation and Shift Register Architecture
Link NOC:Principles of Communication Systems - Part II Lecture 52 - State Diagram Representation of Convolutional Code, State transitions and Example of Code Generation using State transitions
Link NOC:Principles of Communication Systems - Part II Lecture 53 - Trellis Representation of Convolutional Code and Valid Code Words
Link NOC:Principles of Communication Systems - Part II Lecture 54 - Decoding of the Convolutional Code, Minimum Hamming distance and Maximum Likelihood Codeword Estimate
Link NOC:Principles of Communication Systems - Part II Lecture 55 - Principle of Decoding of Convolutional code
Link NOC:Principles of Communication Systems - Part II Lecture 56 - Viterbi Decoder for Maximum Likelihood Decoding of Convolutional Code Using Trellis Representation, Branch Metric Calculation, State Metric Calculation and Example
Link NOC:Applied Engineering Electromagnetics Lecture 1 - Introduction to Applied Elecromagnetics
Link NOC:Applied Engineering Electromagnetics Lecture 2 - Introduction to Transmission lines
Link NOC:Applied Engineering Electromagnetics Lecture 3 - Sinusoidal waves on Transmission lines
Link NOC:Applied Engineering Electromagnetics Lecture 4 - Terminating T-lines: Reflection and Transmission coefficient
Link NOC:Applied Engineering Electromagnetics Lecture 5 - Circuit parameters of a T-line
Link NOC:Applied Engineering Electromagnetics Lecture 6 - Lossy Transmission lines and primary constants
Link NOC:Applied Engineering Electromagnetics Lecture 7 - When to apply T-line Theory?
Link NOC:Applied Engineering Electromagnetics Lecture 8 - Standing Waves on T-lines
Link NOC:Applied Engineering Electromagnetics Lecture 9 - Lumped equivalent circuits of T-lines
Link NOC:Applied Engineering Electromagnetics Lecture 10 - Impedance transformation and power flow on T-lines
Link NOC:Applied Engineering Electromagnetics Lecture 11 - Graphical aid: Smith Chart Derivation
Link NOC:Applied Engineering Electromagnetics Lecture 12 - Smith chart applications
Link NOC:Applied Engineering Electromagnetics Lecture 13 - Further applications of Smith chart - Part 1
Link NOC:Applied Engineering Electromagnetics Lecture 14 - Further applications of Smith chart - Part 2
Link NOC:Applied Engineering Electromagnetics Lecture 15 - Impedance matching techniques - Part 1
Link NOC:Applied Engineering Electromagnetics Lecture 16 - Impedance matching techniques - Part 2
Link NOC:Applied Engineering Electromagnetics Lecture 17 - Impedance matching techniques - Part 3
Link NOC:Applied Engineering Electromagnetics Lecture 18 - T-lines in time domain: Lattice diagrams
Link NOC:Applied Engineering Electromagnetics Lecture 19 - Further examples of use of lattice diagrams
Link NOC:Applied Engineering Electromagnetics Lecture 20 - High-speed digital signal propagation on T-lines
Link NOC:Applied Engineering Electromagnetics Lecture 21 - Transient analysis with reactive termination and Time-domain reflectometry
Link NOC:Applied Engineering Electromagnetics Lecture 22 - Fault detection using TDR
Link NOC:Applied Engineering Electromagnetics Lecture 23 - Why Electromagnetics?
Link NOC:Applied Engineering Electromagnetics Lecture 24 - Rectangular coordinate systems
Link NOC:Applied Engineering Electromagnetics Lecture 25 - Cylindrical coordinate systems
Link NOC:Applied Engineering Electromagnetics Lecture 26 - Review of vector fields and Gradient
Link NOC:Applied Engineering Electromagnetics Lecture 27 - Divergence, Curl, and Laplacian operations
Link NOC:Applied Engineering Electromagnetics Lecture 28 - Towards Maxwells equations - Part 1
Link NOC:Applied Engineering Electromagnetics Lecture 29 - Towards Maxwells equations - Part 2
Link NOC:Applied Engineering Electromagnetics Lecture 30 - Faradays law
Link NOC:Applied Engineering Electromagnetics Lecture 31 - Completing Maxwells equations and Boundary conditions
Link NOC:Applied Engineering Electromagnetics Lecture 32 - Boundary conditions for Electromagnetic fields
Link NOC:Applied Engineering Electromagnetics Lecture 33 - Electrostatics-I: Laplace and Poissons equations
Link NOC:Applied Engineering Electromagnetics Lecture 34 - Electrostatics-II: Solving Laplaces equation in 1D
Link NOC:Applied Engineering Electromagnetics Lecture 35 - Electrostatics-III: Solving Laplaces equation in 2D
Link NOC:Applied Engineering Electromagnetics Lecture 36 - Electrostatics-IV: Finite Difference method for solving Laplaces equation
Link NOC:Applied Engineering Electromagnetics Lecture 37 - Magnetostatic fields-I: Biot-Savart Law
Link NOC:Applied Engineering Electromagnetics Lecture 38 - Magnetostatic fields-II: Calculation of magnetic fields
Link NOC:Applied Engineering Electromagnetics Lecture 39 - Inductance calculations
Link NOC:Applied Engineering Electromagnetics Lecture 40 - From Maxwells equations to uniform plane waves
Link NOC:Applied Engineering Electromagnetics Lecture 41 - Plane wave propagation in lossless dielectric media
Link NOC:Applied Engineering Electromagnetics Lecture 42 - Polarization of plane waves
Link NOC:Applied Engineering Electromagnetics Lecture 43 - Can an Ideal capacitor exist?
Link NOC:Applied Engineering Electromagnetics Lecture 44 - Skin effect in conductors
Link NOC:Applied Engineering Electromagnetics Lecture 45 - Skin effect in round wires
Link NOC:Applied Engineering Electromagnetics Lecture 46 - Finite difference method
Link NOC:Applied Engineering Electromagnetics Lecture 47 - Reflection of uniform plane waves
Link NOC:Applied Engineering Electromagnetics Lecture 48 - Application: Reflection from multiple media and anti-reflection coating.
Link NOC:Applied Engineering Electromagnetics Lecture 49 - Oblique incidence of plane waves
Link NOC:Applied Engineering Electromagnetics Lecture 50 - Total internal reflection
Link NOC:Applied Engineering Electromagnetics Lecture 51 - Application: Matrix analysis of reflection from multiple boundaries
Link NOC:Applied Engineering Electromagnetics Lecture 52 - Application: Fabry-Perot cavity and Multi-layer films
Link NOC:Applied Engineering Electromagnetics Lecture 53 - Introduction to waveguides
Link NOC:Applied Engineering Electromagnetics Lecture 54 - Rectangular waveguides
Link NOC:Applied Engineering Electromagnetics Lecture 55 - Attenuation and Dispersion in rectangular waveguides
Link NOC:Applied Engineering Electromagnetics Lecture 56 - Planar optical waveguides
Link NOC:Applied Engineering Electromagnetics Lecture 57 - Application: Optical Fibers
Link NOC:Applied Engineering Electromagnetics Lecture 58 - Application: WDM Optical Components
Link NOC:Applied Engineering Electromagnetics Lecture 59 - Mach-Zehnder Modulator
Link NOC:Applied Engineering Electromagnetics Lecture 60 - Wave Propagation in Anisotropic Medium
Link NOC:Applied Engineering Electromagnetics Lecture 61 - Wave Propagation in Ferrites
Link NOC:Applied Engineering Electromagnetics Lecture 62 - Magnetic Vector Potential - Part 1
Link NOC:Applied Engineering Electromagnetics Lecture 63 - Magnetic Vector Potential - Part 2
Link NOC:Applied Engineering Electromagnetics Lecture 64 - Fields of a Dipole Antenna
Link NOC:Applied Engineering Electromagnetics Lecture 65 - Antenna Parameters and Long wire Antenna
Link NOC:Applied Engineering Electromagnetics Lecture 66 - Friis Transmission Formula
Link NOC:Principles of Signals and Systems Lecture 1 - Principles of Signals and Systems- Introduction to Signals and Systems, Signal Classification - Continuous and Discrete Time Signals
Link NOC:Principles of Signals and Systems Lecture 2 - Analog and Digital Signals
Link NOC:Principles of Signals and Systems Lecture 3 - Energy and Power Signals
Link NOC:Principles of Signals and Systems Lecture 4 - Real Exponential Signals
Link NOC:Principles of Signals and Systems Lecture 5 - Memory/Memory-less and Causal/Non-Causal Systems
Link NOC:Principles of Signals and Systems Lecture 6 - Properties of Linear Systems
Link NOC:Principles of Signals and Systems Lecture 7 - Example Problems - 1
Link NOC:Principles of Signals and Systems Lecture 8 - Example Problems - 2
Link NOC:Principles of Signals and Systems Lecture 9 - Example Problems - 3
Link NOC:Principles of Signals and Systems Lecture 10 - Properties and Analysis of LTI Systems - I
Link NOC:Principles of Signals and Systems Lecture 11 - Properties and Analysis of LTI Systems - II
Link NOC:Principles of Signals and Systems Lecture 12 - Properties and Analysis of LTI Systems - III
Link NOC:Principles of Signals and Systems Lecture 13 - Properties of Discrete Time LTI Systems
Link NOC:Principles of Signals and Systems Lecture 14 - Example Problems LTI Systems - I
Link NOC:Principles of Signals and Systems Lecture 15 - Example Problems LTI Systems - II
Link NOC:Principles of Signals and Systems Lecture 16 - Example Problems DT-LTI Systems
Link NOC:Principles of Signals and Systems Lecture 17 - Laplace Transform
Link NOC:Principles of Signals and Systems Lecture 18 - Laplace Transform Properties - I
Link NOC:Principles of Signals and Systems Lecture 19 - Laplace Transform Properties - II
Link NOC:Principles of Signals and Systems Lecture 20 - Laplace Transform of LTI Systems
Link NOC:Principles of Signals and Systems Lecture 21 - Laplace Transform Example Problems - I
Link NOC:Principles of Signals and Systems Lecture 22 - Laplace Transform Example Problems - II
Link NOC:Principles of Signals and Systems Lecture 23 - Laplace Transform of RL, RC Circuit
Link NOC:Principles of Signals and Systems Lecture 24 - Z-Transform
Link NOC:Principles of Signals and Systems Lecture 25 - Z-Transform Properties - I
Link NOC:Principles of Signals and Systems Lecture 26 - Z-Transform Properties - II
Link NOC:Principles of Signals and Systems Lecture 27 - Z-Transform of LTI Systems
Link NOC:Principles of Signals and Systems Lecture 28 - Z-Transform Examples - I
Link NOC:Principles of Signals and Systems Lecture 29 - Z-Transform Examples - II
Link NOC:Principles of Signals and Systems Lecture 30 - Z-Transform Examples - III
Link NOC:Principles of Signals and Systems Lecture 31 - Z-Transform Examples - IV
Link NOC:Principles of Signals and Systems Lecture 32 - Inverse Z-Transform
Link NOC:Principles of Signals and Systems Lecture 33 - Fourier Analysis Introduction
Link NOC:Principles of Signals and Systems Lecture 34 - Complex Exponential and Trigonometric FS
Link NOC:Principles of Signals and Systems Lecture 35 - Conditions for Existence of FS
Link NOC:Principles of Signals and Systems Lecture 36 - Fourier Transform (FT) Introduction
Link NOC:Principles of Signals and Systems Lecture 37 - Properties of Fourier Transform - I
Link NOC:Principles of Signals and Systems Lecture 38 - Properties of Fourier Transform - II
Link NOC:Principles of Signals and Systems Lecture 39 - Fourier Transform - Parseval’s Relation
Link NOC:Principles of Signals and Systems Lecture 40 - Fourier Transform of LTI Systems
Link NOC:Principles of Signals and Systems Lecture 41 - FT- Ideal and Non-Ideal Filters
Link NOC:Principles of Signals and Systems Lecture 42 - Fourier Analysis Examples - I
Link NOC:Principles of Signals and Systems Lecture 43 - Fourier Analysis Examples - II
Link NOC:Principles of Signals and Systems Lecture 44 - Fourier Analysis Examples - III
Link NOC:Principles of Signals and Systems Lecture 45 - Fourier Analysis Examples - IV
Link NOC:Principles of Signals and Systems Lecture 46 - Fourier Analysis Examples - V
Link NOC:Principles of Signals and Systems Lecture 47 - Fourier Analysis Examples - VI
Link NOC:Principles of Signals and Systems Lecture 48 - Fourier Analysis Bode Plot - I
Link NOC:Principles of Signals and Systems Lecture 49 - Fourier Analysis Bode Plot - II
Link NOC:Principles of Signals and Systems Lecture 50 - Fourier Transform Examples: Filtering - Ideal Low Pass Filter
Link NOC:Principles of Signals and Systems Lecture 51 - Fourier Transform Problems: Unit Step Response of RC Circuit, Sampling of Continuous Signal
Link NOC:Principles of Signals and Systems Lecture 52 - Sampling: Spectrum of Sampled Signal, Nyquist Criterion
Link NOC:Principles of Signals and Systems Lecture 53 - Sampling: Reconstruction from Sampled Signal
Link NOC:Principles of Signals and Systems Lecture 54 - Fourier Analysis of Discrete Time Signals and Systems - Introduction
Link NOC:Principles of Signals and Systems Lecture 55 - Fourier Analysis of Discrete Time Signals - Duality, Parseval’s Theorem
Link NOC:Principles of Signals and Systems Lecture 56 - Discrete Time Fourier Transform: Definition, Inverse DTFT, Convergence, Relation between DTFT and z-Transform, DTFT of Common Signals
Link NOC:Principles of Signals and Systems Lecture 57 - Discrete Time Fourier Transform: Properties of DTFT - Linearity, Time Shifting, Frequency Shifting, Conjugation, Time-Reversal, Duality
Link NOC:Principles of Signals and Systems Lecture 58 - Discrete Time Fourier Transform: Properties of DTFT - Differentiation in Frequency, Difference in Time, Convolution, Multiplication, Parseval’s Relation
Link NOC:Principles of Signals and Systems Lecture 59 - DTFT: Discrete Time LTI Systems - LTI Systems Characterized by Difference Equations
Link NOC:Principles of Signals and Systems Lecture 60 - Discrete Fourier Transform - Definition, Inverse DFT, Relation between DFT and DFS, Relation between DFT and DTFT, Properties - Linearity, Time Shifting
Link NOC:Principles of Signals and Systems Lecture 61 - Discrete Fourier Transform: Properties - Conjugation, Frequency Shift, Duality, Circular Convolution, Multiplication, Parseval’s Relation, Example Problems for Fourier Analysis of Discrete Time Signals
Link NOC:Principles of Signals and Systems Lecture 62 - Example Problems: DFS Analysis of Discrete Time Signals, Problems on DTFT
Link NOC:Principles of Signals and Systems Lecture 63 - Example Problems: DTFT of Cosine, Unit Step Signals
Link NOC:Principles of Signals and Systems Lecture 64 - DTFT Example Problems - III
Link NOC:Principles of Signals and Systems Lecture 65 - DTFT Example Problems - IV
Link NOC:Principles of Signals and Systems Lecture 66 - DTFT Example Problems - V
Link NOC:Principles of Signals and Systems Lecture 67 - DFT Example Problems - I
Link NOC:Principles of Signals and Systems Lecture 68 - Example Problems: DFT, IDFT in Matrix form
Link NOC:Principles of Signals and Systems Lecture 69 - Group/Phase Delay - Part I
Link NOC:Principles of Signals and Systems Lecture 70 - Group/Phase Delay - Part II
Link NOC:Principles of Signals and Systems Lecture 71 - IIR Filter Structures: DF-I, DF-II
Link NOC:Principles of Signals and Systems Lecture 72 - IIR Filter Structures: Transpose Form
Link NOC:Principles of Signals and Systems Lecture 73 - IIR Filter Structures: Example
Link NOC:Principles of Signals and Systems Lecture 74 - IIR Filter Structures: Cascade Form
Link NOC:Principles of Signals and Systems Lecture 75 - IIR Filter: Parallel Form-I and II
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 1 - Vectors and Matrices - Linear Independence and Rank
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 2 - Eigenvectors and Eigenvalues of Matrices and their Properties
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 3 - Positive Semidefinite (PSD) and Postive Definite (PD) Matrices and their Properties
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 4 - Inner Product Space and it's Properties: Linearity, Symmetry and Positive Semi-definite
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 5 - Inner Product Space and it's Properties: Cauchy Schwarz Inequality
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 6 - Properties of Norm, Gaussian Elimination and Echleon form of matrix
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 7 - Gram Schmidt Orthogonalization Procedure
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 8 - Null Space and Trace of Matrices
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 9 - Eigenvalue Decomposition of Hermitian Matrices and Properties
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 10 - Matrix Inversion Lemma (Woodbury identity)
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 11 - Introduction to Convex Sets and Properties
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 12 - Affine Set Examples and Application
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 13 - Norm Ball and its Practical Applications
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 14 - Ellipsoid and its Practical Applications
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 15 - Norm Cone,Polyhedron and its Applications
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 16 - Applications: Cooperative Cellular Transmission
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 17 - Positive Semi Definite Cone And Positive Semi Definite (PSD) Matrices
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 18 - Introduction to Affine functions and examples
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 19 - norm balls and Matrix properties:Trace,Determinant
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 20 - Inverse of a Positive Definite Matrix
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 21 - Example Problems: Property of Norms,Problems on Convex Sets
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 22 - Problems on Convex Sets (Continued...)
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 23 - Introduction to Convex and Concave Functions
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 24 - Properties of Convex Functions with examples
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 25 - Test for Convexity: Positive Semidefinite Hessian Matrix
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 26 - Application: MIMO Receiver Design as a Least Squares Problem
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 27 - Jensen's Inequality and Practical Application
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 28 - Jensen's Inequality application
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 29 - Properties of Convex Functions
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 30 - Conjugate Function and Examples to prove Convexity of various Functions
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 31 - Examples on Operations Preserving Convexity
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 32 - Examples on Test for Convexity, Quasi-Convexity
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 33 - Examples on Convex Functions
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 34 - Practical Application: Beamforming in Multi-antenna Wireless Communication
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 35 - Practical Application: Maximal Ratio Combiner for Wireless Systems
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 36 - Practical Application: Multi-antenna Beamforming with Interfering User
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 37 - Practical Application: Zero-Forcing (ZF) Beamforming with Interfering User
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 38 - Practical Application: Robust Beamforming With Channel Uncertainity for Wireless Systems
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 39 - Practical Application: Robust Beamformer Design for Wireless Systems
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 40 - Practical Application: Detailed Solution for Robust Beamformer Computation in Wireless Systems Text
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 41 - Linear modeling and Approximation Problems: Least Squares
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 42 - Geometric Intuition for Least Squares
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 43 - Practical Application: Multi antenna channel estimation
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 44 - Practical Application:Image deblurring
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 45 - Least Norm Signal Estimation
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 46 - Regularization: Least Squares + Least Norm
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 47 - Convex Optimization Problem representation: Canonical form, Epigraph form
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 48 - Linear Program Practical Application: Base Station Co-operation
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 49 - Stochastic Linear Program,Gaussian Uncertainty
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 50 - Practical Application: Multiple Input Multiple Output (MIMO) Beamforming
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 51 - Practical Application: Multiple Input Multiple Output (MIMO) Beamformer Design
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 52 - Practical Application: Co-operative Communication, Overview and various Protocols used
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 53 - Practical Application: Probability of Error Computation for Co-operative Communication
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 54 - Practical Application:Optimal power allocation factor determination for Co-operative Communication
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 55 - Practical Application: Compressive Sensing
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 56 - Practical Application
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 57 - Practical Application- Orthogonal Matching Pursuit (OMP) algorithm for Compressive Sensing
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 58 - Example Problem: Orthogonal Matching Pursuit (OMP) algorithm
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 59 - Practical Application : L1 norm minimization and regularization approach for Compressive Sensing Optimization problem
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 60 - Practical Application of Machine Learning and Artificial Intelligence:Linear Classification, Overview and Motivation
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 61 - Practical Application: Linear Classifier (Support Vector Machine) Design
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 62 - Practical Application: Approximate Classifier Design
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 63 - Concept of Duality
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 64 - Relation between optimal value of Primal and Dual Problems, concepts of Duality gap and Strong Duality
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 65 - Example problem on Strong Duality
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 66 - Karush-Kuhn-Tucker (KKT) conditions
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 67 - Application of KKT condition:Optimal MIMO power allocation (Waterfilling)
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 68 - Optimal MIMO Power allocation (Waterfilling)-II
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 69 - Example problem on Optimal MIMO Power allocation (Waterfilling)
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 70 - Linear objective with box constraints, Linear Programming
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 71 - Example Problems II
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 72 - Examples on Quadratic Optimization
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 73 - Examples on Duality: Dual Norm, Dual of Linear Program (LP)
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 74 - Examples on Duality: Min-Max problem, Analytic Centering
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 75 - Semi Definite Program (SDP) and its application:MIMO symbol vector decoding
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 76 - Application:SDP for MIMO Maximum Likelihood (ML) Detection
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 77 - Introduction to big Data: Online Recommender System (Netflix)
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 78 - Matrix Completion Problem in Big Data: Netflix-I
Link NOC:Applied Optimization for Wireless, Machine Learning, Big Data Lecture 79 - Matrix Completion Problem in Big Data: Netflix-II
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 1 - Overview of fiber-optic communication systems
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 2 - Review of Maxwell’s equations
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 3 - Uniform plane waves (UWPs) in free-space
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 4 - Properties of UWPs (propagation constant, polarization, and Poynting vector)
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 5 - Boundary conditions and reflection from a PEC
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 6 - Obliquely incident waves-I (TE and TM waves, Snell’s laws)
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 7 - Obliquely incident waves-II (Reflection and transmission coefficients, Brewster angle)
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 8 - Total internal reflection
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 9 - Ray theory of dielectric slab waveguides
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 10 - Transverse resonance condition for slab waveguides
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 11 - Introduction to optical fibers
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 12 - Ray theory of light propagation in optical fibers
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 13 - Concept of waveguide modes
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 14 - Systematic procedure to obtain modes of a waveguide
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 15 - Systematic analysis of parallel plate metallic waveguide
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 16 - Systematic analysis of dielectric slab waveguides
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 17 - Further discussion on slab waveguides
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 18 - Modal analysis of step index optical fiber
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 19 - Properties of modes of step-index optical fiber - I
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 20 - Properties of modes of step-index optical fiber - II
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 21 - Linearly polarized modes
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 22 - Attenuation and power loss in fibers
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 23 - Introduction to dispersion in fibers
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 24 - Mathematical modelling of dispersion: Transfer function approach
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 25 - Pulse propagation equation and its solution
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 26 - Pre-chirped pulses and Inter and Intra-modal dispersion in optical fibers
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 27 - Beam Propagation Method
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 28 - Polarization Effects on Pulse Propagation
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 29 - Modes in Optical Fibres and Pulse Propagation in Optical Fibres
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 30 - Graded Index Fibers
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 31 - Light Sources, Detectors and Amplifiers
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 32 - Basics of Lasers-I (Structure of Lasers, Process of Photon Emission)
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 33 - Basics of Lasers-II (Einstein's Theory of Radiation)
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 34 - Basics of Lasers-III (Population Inversion and Rate Equation for Lasers)
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 35 - Basic Properties of Semiconductor Laser-I (Energy Gap, Intrinsic and Extrinsic Semiconductors)
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 36 - Basic Properties of Semiconductor Laser-II (Fermi Level)
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 37 - Optical Properties of Semiconductors-I (Direct Bandgap and Indirect Bandgap, Density of States)
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 38 - Optical Properties of Semiconductors-II (Gain, Absorption, Recombination rate) Homojunction Lasers
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 39 - Double Heterostructure Lasers, Introduction to Quantum Well Lasers
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 40 - Semiconductor Optical Amplifier
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 41 - Erbium-doped fiber amplifier
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 42 - Photodetectors
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 43 - Noise in Photodetectors
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 44 - Introduction to WDM components
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 45 - Couplers, Circulators, FRM and Filters
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 46 - Filter, MUX/DEMUX, Diffraction grating (FBG and Long period grating)
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 47 - Optical Modulators-I (Current modulation)
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 48 - Optical Modulators-II (Electro-optic modulators)
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 49 - Review of Communication Concepts-I (Deterministic and Random Signals, Baseband and Passband Signals)
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 50 - Review of Communication Concepts-II (Signal and vectors, Signal energy, Orthonormal basis functions)
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 51 - Intensity modulation/ Direct Detection
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 52 - BER discussion for OOK systems
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 53 - Higher order modulation and Coherent Receiver
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 54 - Coherent receiver for BPSK systems and BER calculation
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 55 - Recovering Polarization
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 56 - DSP algorithms for Chromatic dispersion mitigation
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 57 - DSP algorithms for Carrier phase estimation - I
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 58 - DSP algorithms for Carrier phase estimation - II
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 59 - Nonlinear effects in fiber
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 60 - Four wave mixing, Loss measurement, Dispersion measurement
Link NOC:Fiber-Optic Communication Systems and Techniques Lecture 61 - Lab Demonstration (Laser diode characteristics, Loss measurement, Optical Intensity Modulation)
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 1 - Introduction and Types of Transmission Lines
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 2 - Distributed Circuit Model of Uniform Transmission Line
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 3 - Voltage and Current Equation of the Transmission line
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 4 - Sinusoidal Excitation of Transmission Line (Propagation constant, Characteristic Impedance)
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 5 - Properties of Transmission Line (Reflection Coefficient, Input Impedance, Standing Wave Ratio)
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 6 - Power Calculations and Introduction to Smith Chart
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 7 - Smith Chart
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 8 - Additional Applications of Smith Chart
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 9 - Time domain Analysis of Transmission Line - I
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 10 - Time domain Analysis of Transmission Line - II
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 11 - Usage of Lattice Diagrams
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 12 - TDR analysis of Transmission Lines
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 13 - Introduction to Propagation of Electromagnetic Waves
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 14 - Uniform Plane Waves - I
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 15 - Uniform Plane Waves - II
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 16 - Poynting Vector, Average Power, Polarization
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 17 - Uniform Plane Waves in Lossy Medium
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 18 - Normal Incidence of Plane Waves
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 19 - Oblique Incidence of Plane Waves - I
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 20 - Oblique Incidence of Plane Waves - II
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 21 - Total Internal Reflection
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 22 - Slab Waveguides
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 23 - Optical Fibers
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 24 - Parallel Plate Waveguides
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 25 - Rectangular Waveguides
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 26 - Modes of Rectangular Waveguides
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 27 - Waveguides summary and Introduction to Radiation
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 28 - Solution to Electric Scalar Potential and Magnetic Vector Potential Equations
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 29 - Further discussion on Magnetic Vector Potential and Elementary Hertzian Dipole
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 30 - Near field and Far-field Antenna and Properties of Antennas
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 31 - Linear antenna - I
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 32 - Linear antenna - II and Properties of Transmitting and Receiving Antenna
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 33 - Friis Transmission Formula
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 34 - Antenna Array
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 35 - Wireless Channel
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 36 - Further discussion on Wireless Channel Modelling
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 37 - Diffraction - I
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 38 - Diffraction - II
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 39 - Distribution of Laser Beam
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 40 - Interference (Double slit experiment, Fabry Perot Interferometer)
Link NOC:Electromagnetic Waves in Guided and Wireless Media Lecture 41 - Summary
Link NOC:Basic Electric Circuits Lecture 1 - Basic Concepts
Link NOC:Basic Electric Circuits Lecture 2 - Sinusoids and Phasors
Link NOC:Basic Electric Circuits Lecture 3 - Circuit Elements - Part 1
Link NOC:Basic Electric Circuits Lecture 4 - Circuit Elements - Part 2
Link NOC:Basic Electric Circuits Lecture 5 - AC Power Analysis
Link NOC:Basic Electric Circuits Lecture 6 - RMS Voltage and Current
Link NOC:Basic Electric Circuits Lecture 7 - Topology
Link NOC:Basic Electric Circuits Lecture 8 - Star-Delta Transformation and Mesh Analysis
Link NOC:Basic Electric Circuits Lecture 9 - Mesh Analysis.
Link NOC:Basic Electric Circuits Lecture 10 - Nodal Analysis
Link NOC:Basic Electric Circuits Lecture 11 - Linearity Property and Superposition Theorem
Link NOC:Basic Electric Circuits Lecture 12 - Source Transformation
Link NOC:Basic Electric Circuits Lecture 13 - Duality
Link NOC:Basic Electric Circuits Lecture 14 - Thevenin's Theorem - 1
Link NOC:Basic Electric Circuits Lecture 15 - Thevenin's Theorem - 2
Link NOC:Basic Electric Circuits Lecture 16 - Norton's Theorem - 1
Link NOC:Basic Electric Circuits Lecture 17 - Norton's Theorem - 2
Link NOC:Basic Electric Circuits Lecture 18 - Maximum Power Transfer Theorem - 1
Link NOC:Basic Electric Circuits Lecture 19 - Maximum Power Transfer Theorem - 2
Link NOC:Basic Electric Circuits Lecture 20 - Reciprocity and Compensation Theorem
Link NOC:Basic Electric Circuits Lecture 21 - First Order RC Circuits
Link NOC:Basic Electric Circuits Lecture 22 - First Order RL Circuits
Link NOC:Basic Electric Circuits Lecture 23 - Singularity Functions
Link NOC:Basic Electric Circuits Lecture 24 - Step Response of RC and RL Circuits
Link NOC:Basic Electric Circuits Lecture 25 - Second Order Response
Link NOC:Basic Electric Circuits Lecture 26 - Step Response of Second Order Circuits-First Order and Second Order Circuits (Continued...)
Link NOC:Basic Electric Circuits Lecture 27 - Step Response of Parallel RLC Circuit-First Order and Second Order Circuits (Continued...)
Link NOC:Basic Electric Circuits Lecture 28 - Definition of the Laplace Transform
Link NOC:Basic Electric Circuits Lecture 29 - Properties of the Laplace Transform
Link NOC:Basic Electric Circuits Lecture 30 - Inverse Laplace Transform
Link NOC:Basic Electric Circuits Lecture 31 - Laplace Transform of Circuit Elements
Link NOC:Basic Electric Circuits Lecture 32 - Transfer Function
Link NOC:Basic Electric Circuits Lecture 33 - Convolution Integral
Link NOC:Basic Electric Circuits Lecture 34 - Graphical Approach of Convolution Integral
Link NOC:Basic Electric Circuits Lecture 35 - Network Stability and Network Synthesis
Link NOC:Basic Electric Circuits Lecture 36 - Impedance Parameters
Link NOC:Basic Electric Circuits Lecture 37 - Admittance Parameters
Link NOC:Basic Electric Circuits Lecture 38 - Hybrid Parameters
Link NOC:Basic Electric Circuits Lecture 39 - Transmission Parameters
Link NOC:Basic Electric Circuits Lecture 40 - Interconnection of Networks
Link NOC:Basic Electric Circuits Lecture 41 - Nodal and Mesh Analysis
Link NOC:Basic Electric Circuits Lecture 42 - Superposition Theorem and Source Transformation
Link NOC:Basic Electric Circuits Lecture 43 - Thevenin's, Norton's and, Maximum Power Transfer Theorem
Link NOC:Basic Electric Circuits Lecture 44 - Magnetically Coupled Circuits
Link NOC:Basic Electric Circuits Lecture 45 - Energy in Coupled Circuits and Ideal Transformer
Link NOC:Basic Electric Circuits Lecture 46 - Ideal Transformer and Introduction to Three-Phase Circuits
Link NOC:Basic Electric Circuits Lecture 47 - Balanced Three-Phase Connections
Link NOC:Basic Electric Circuits Lecture 48 - Balanced Wye-Delta and Delta-Delta Connections
Link NOC:Basic Electric Circuits Lecture 49 - Balanced Delta-Wye Connection and Power in Balanced Three-Phase System
Link NOC:Basic Electric Circuits Lecture 50 - Unbalanced Three-Phase System and Three-Phase Power Measurement
Link NOC:Basic Electric Circuits Lecture 51 - Introduction to Graphical Models
Link NOC:Basic Electric Circuits Lecture 52 - State Equations
Link NOC:Basic Electric Circuits Lecture 53 - State Diagram
Link NOC:Basic Electric Circuits Lecture 54 - State Transition Matrix
Link NOC:Basic Electric Circuits Lecture 55 - State Variable Method to Circuit Analysis
Link NOC:Basic Electric Circuits Lecture 56 - Characteristic Equation, Eigenvalues, and Eigenvectors-State Variable Analysis (Continued...)
Link NOC:Basic Electric Circuits Lecture 57 - Modeling of Mechanical Systems
Link NOC:Basic Electric Circuits Lecture 58 - Modeling of The Rotational Motion of Mechanical Systems
Link NOC:Basic Electric Circuits Lecture 59 - Modeling of Electrical Systems
Link NOC:Basic Electric Circuits Lecture 60 - Solving Analogous Systems
Link NOC:Fundamentals of Electric Drives Lecture 1 - Introduction to Electric Drives
Link NOC:Fundamentals of Electric Drives Lecture 2 - Dynamics of Electric Drives, Four Quadrant Operation, Equivalent Drive Parameters
Link NOC:Fundamentals of Electric Drives Lecture 3 - Equivalent Drive Parameters, Friction Components, Nature of Load Torque
Link NOC:Fundamentals of Electric Drives Lecture 4 - Steady State Stability, Load Equalization
Link NOC:Fundamentals of Electric Drives Lecture 5 - Load Equalization, Characteristics of DC Motor
Link NOC:Fundamentals of Electric Drives Lecture 6 - Speed Torque Characteristics of Separately Excited DC Motor and Series DC Motor
Link NOC:Fundamentals of Electric Drives Lecture 7 - Field Control of Series Motor, Motoring and Braking of Separately Excited and Series DC motors
Link NOC:Fundamentals of Electric Drives Lecture 8 - Speed Control of Separately Excited DC Motor Using Controlled Rectifiers
Link NOC:Fundamentals of Electric Drives Lecture 9 - Analysis of Single Phase Full Controlled Converter-fed Separately Excited DC Motor
Link NOC:Fundamentals of Electric Drives Lecture 10 - Speed Torque Characteristics of Full Controlled Converter-fed Separately Excited DC Motor, Analysis of Single Phase Half Controlled Converter-fed Separately Excited DC Motor
Link NOC:Fundamentals of Electric Drives Lecture 11 - Analysis of Single Phase Half Controlled Converter-fed Separately Excited DC Motor.
Link NOC:Fundamentals of Electric Drives Lecture 12 - Three Phase Full Controlled Converter-fed Separately Excited DC Motor, Multi-quadrant Operation of DC Motor
Link NOC:Fundamentals of Electric Drives Lecture 13 - Dual Converter-fed DC Motor, Multi-quadrant Operation Using Field Current Reversal
Link NOC:Fundamentals of Electric Drives Lecture 14 - DC Chopper-fed Separately Excited DC Motor for Motoring and Braking
Link NOC:Fundamentals of Electric Drives Lecture 15 - Two-quadrant DC Chopper, Four-quadrant DC Chopper
Link NOC:Fundamentals of Electric Drives Lecture 16 - Dynamic Braking of DC Motor by Chopper Controlled Resistor, Closed-loop Operation of DC Drives, Induction Motor Drives
Link NOC:Fundamentals of Electric Drives Lecture 17 - Speed Torque Characteristics of Induction Motor, Operation of Induction Motor from Non-sinusoidal Supply
Link NOC:Fundamentals of Electric Drives Lecture 18 - Operation of Induction Motor from Non-sinusoidal Supply
Link NOC:Fundamentals of Electric Drives Lecture 19 - Stator Current of Induction Motor with Non-sinusoidal Supply, Operation of Induction Motor with Unbalanced Voltage Supply
Link NOC:Fundamentals of Electric Drives Lecture 20 - Single Phasing of Induction Motor, Braking of Induction Motor
Link NOC:Fundamentals of Electric Drives Lecture 21 - Dynamic braking of induction motor, AC dynamic braking, DC dynamic braking
Link NOC:Fundamentals of Electric Drives Lecture 22 - Analysis of DC dynamic braking of induction motor
Link NOC:Fundamentals of Electric Drives Lecture 23 - Self-excited dynamic braking of induction motor, Speed control of induction motor using stator voltage regulator, Variable voltage variable frequency control
Link NOC:Fundamentals of Electric Drives Lecture 24 - Variable voltage variable frequency control of induction motor, Open loop V/F control
Link NOC:Fundamentals of Electric Drives Lecture 25 - Slip speed control of induction motor, Constant Volt/Hz control with slip speed regulation
Link NOC:Fundamentals of Electric Drives Lecture 26 - Closed-loop Volt/Hz control of induction motor with slip speed regulation, Multi-quadrant operation of induction motor drive
Link NOC:Fundamentals of Electric Drives Lecture 27 - Current Source Inverter (CSI) fed induction motor drive
Link NOC:Fundamentals of Electric Drives Lecture 28 - Closed-loop operation of current source inverter (CSI) fed induction motor drive, Control of slip ring induction motor - Static rotor resistance control
Link NOC:Fundamentals of Electric Drives Lecture 29 - Closed-loop operation of slip ring induction motor with static rotor resistance control, Slip power recovery in slip ring induction motor - Static Kramer drive
Link NOC:Fundamentals of Electric Drives Lecture 30 - Static Kramer drive and its closed-loop control, Introduction to synchronous motor
Link NOC:Fundamentals of Electric Drives Lecture 31 - Various types of synchronous motors, Equivalent circuit and phasor diagram of cylindrical synchronous motor, Speed-torque characteristics of cylindrical synchronous motor
Link NOC:Fundamentals of Electric Drives Lecture 32 - Phasor diagram of salient pole synchronous motor, Expression of power and torque for a salient pole synchronous motor, Synchronous reluctance motor, Open-loop V/f control of synchronous motor
Link NOC:Fundamentals of Electric Drives Lecture 33 - Open-loop V/f control, Torque-speed characteristics, Self controlled synchronous motor drive employing load commutated thyristor inverter
Link NOC:Fundamentals of Electric Drives Lecture 34 - Detailed analysis of commutation of load commutated thyrisor inverter, Derivation of overlap angle and margin angle, Closed-loop speed control scheme for load commutated inverter-fed synchronous motor drive
Link NOC:Fundamentals of Electric Drives Lecture 35 - Low cost brushless DC motor (BLDCM), Trapezoidal permanent magnet AC motor
Link NOC:Fundamentals of Electric Drives Lecture 36 - Trapezoidal permanent magnet AC motor, Derivation of power and torque, Closed-loop control of trapezoidal BLDC motor, Introduction to switched reluctance motor
Link NOC:Fundamentals of Electric Drives Lecture 37 - Construction and operating principle of switched reluctance motor
Link NOC:Fundamentals of Electric Drives Lecture 38 - Current/ voltage control for switched reluctance motor, operating modes of switched reluctance motor, Introduction to traction drives
Link NOC:Fundamentals of Electric Drives Lecture 39 - Current collector for mainline trains, Nature of traction load, Duty cycle of traction drives
Link NOC:Fundamentals of Electric Drives Lecture 40 - Duty cycle of traction drives, Distance between two stops, Calculation of total tractive effort and drive rating
Link Electrical Machines I Lecture 1 - Introduction
Link Electrical Machines I Lecture 2 - Operating Principles and Construction of Single Phase Transformers
Link Electrical Machines I Lecture 3 - Modeling of Single Phase Transformers
Link Electrical Machines I Lecture 4 - Equivalent Circuits of Single Phase Transformers
Link Electrical Machines I Lecture 5 - Testing of Single Phase Transformers
Link Electrical Machines I Lecture 6 - Efficiency of Single Phase Transformers
Link Electrical Machines I Lecture 7 - Voltage Regulation of Single Phase Transformers
Link Electrical Machines I Lecture 8 - Parallel Operation of Single Phase Transformers
Link Electrical Machines I Lecture 9 - Harmonics and Switching Transients in Single Phase Transformers
Link Electrical Machines I Lecture 10 - Introduction to Three Phase Transformer
Link Electrical Machines I Lecture 11 - Construction of Three Phase Transformers
Link Electrical Machines I Lecture 12 - Three Phase Transformer Connections
Link Electrical Machines I Lecture 13 - Three Phase Transformer Phase Groups Part - I
Link Electrical Machines I Lecture 14 - Three Phase Transformer Phase Groups Part - II
Link Electrical Machines I Lecture 15 - Analysis and Testing of Three Phase Transformers
Link Electrical Machines I Lecture 16 - Operation of Three Phase Transformers
Link Electrical Machines I Lecture 17 - Auto Transformers
Link Electrical Machines I Lecture 18 - Three Winding Transformers
Link Electrical Machines I Lecture 19 - Scott Connected Transformers
Link Electrical Machines I Lecture 20 - Potential and Current Transformers
Link Electrical Machines I Lecture 21 - Operating Principles of DC Machines
Link Electrical Machines I Lecture 22 - Constructional Features of DC Machines
Link Electrical Machines I Lecture 23 - Generated EMF and Torque in DC Machines
Link Electrical Machines I Lecture 24 - Armature Reaction
Link Electrical Machines I Lecture 25 - Commutation in DC Machines
Link Electrical Machines I Lecture 26 - Separately Excited DC Generators
Link Electrical Machines I Lecture 27 - DC Shunt Generators
Link Electrical Machines I Lecture 28 - Compound DC Generators
Link Electrical Machines I Lecture 29 - Interconnected DC Generators
Link Electrical Machines I Lecture 30 - Characteristics of DC Shunt Motors
Link Electrical Machines I Lecture 31 - Starting of DC Shunt Motors
Link Electrical Machines I Lecture 32 - Speed Control of DC Shunt Motors
Link Electrical Machines I Lecture 33 - Braking of DC Shunt Motors
Link Electrical Machines I Lecture 34 - Electronic Control of DC Shunt Motors
Link Electrical Machines I Lecture 35 - Testing of DC Shunt Motors
Link Electrical Machines I Lecture 36 - Characteristics of DC Series Motors
Link Electrical Machines I Lecture 37 - Starting and Braking of DC Series Motors
Link Electrical Machines I Lecture 38 - Speed Control and of DC Series Motors
Link Electrical Machines I Lecture 39 - Testing of DC Series Motors
Link Electrical Machines I Lecture 40 - Characteristics of Compound DC Series Motors
Link Optimal Control Lecture 1 - Introduction to Optimization Problem: Some Examples
Link Optimal Control Lecture 2 - Introduction to Optimization Problem: Some Examples (Continued.)
Link Optimal Control Lecture 3 - Optimality Conditions for Function of Several Variables
Link Optimal Control Lecture 4 - Optimality Conditions for Function of Several Variables (Continued.)
Link Optimal Control Lecture 5 - Unconstrained Optimization Problem (Numerical Techniques)
Link Optimal Control Lecture 6 - Solution of Unconstrained Optimization Problem Using Conjugate Quadient Method and Networks Methods
Link Optimal Control Lecture 7 - Solution of Unconstrained Optimization Problem Using Conjugate Quadient Method and Networks Methods (Continued.)
Link Optimal Control Lecture 8 - Solution of Constraint Optimization Problem-Karush-Kuhn Tucker (KKT) Conditions
Link Optimal Control Lecture 9 - Solution of Constraint Optimization Problem-Karush-Kuhn Tucker (KKT) Conditions (Continued.)
Link Optimal Control Lecture 10 - Problem and Solution Session
Link Optimal Control Lecture 11 - Post Optimality Analysis, Convex Function and its Properties
Link Optimal Control Lecture 12 - Post Optimality Analysis, Convex Function and its Properties (Continued.)
Link Optimal Control Lecture 13 - Quadratic Optimization Problem Using Linear Programming
Link Optimal Control Lecture 14 - Matrix form of the Simplex Method
Link Optimal Control Lecture 15 - Matrix form of the Simplex Method (Continued.)
Link Optimal Control Lecture 16 - Solution of Linear Programming Using Simplex Method:- Algebraic Approach
Link Optimal Control Lecture 17 - Solution of Linear Programming Using Simplex Method:- Algebraic Approach (Continued.)
Link Optimal Control Lecture 18 - Solution of LP Problems with Two Phase Method
Link Optimal Control Lecture 19 - Solution of LP Problems with Two Phase Method (Continued.)
Link Optimal Control Lecture 20 - Standard Primal and Dual Problems
Link Optimal Control Lecture 21 - Relationship Between Primal and Dual Variables
Link Optimal Control Lecture 22 - Solution of Quadratic Programming Problem Using Simplex Method
Link Optimal Control Lecture 23 - Interior Point Method for Solving Optimization Problems
Link Optimal Control Lecture 24 - Interior Point Method for Solving Optimization Problems (Continued.)
Link Optimal Control Lecture 25 - Solution of Nonlinear Programming Problem Using Exterior Penalty Function Method
Link Optimal Control Lecture 26 - Solution of Nonlinear Programming Problem Using Exterior Penalty Function Method (Continued.)
Link Optimal Control Lecture 27 - Solution of Nonlinear Programming Problem Using Interior Penalty Function Method
Link Optimal Control Lecture 28 - Solution of Nonlinear Programming Problem Using Interior Penalty Function Method (Continued.)
Link Optimal Control Lecture 29 - Multiobjective Optimization Problem
Link Optimal Control Lecture 30 - Dynamic Optimization Problem: Basic Concepts and Necessary and Sufficient Condition
Link Optimal Control Lecture 31 - Dynamic Optimization Problem: Basic Concepts and Necessary and Sufficient Condition (Continued...1)
Link Optimal Control Lecture 32 - Dynamic Optimization Problem: Basic Concepts and Necessary and Sufficient Condition (Continued...2)
Link Optimal Control Lecture 33 - Numerical Example and Solution of Optimal Control Problem using Calculus of Variation principle
Link Optimal Control Lecture 34 - Numerical Example and Solution of Optimal Control Problem using Calculus of Variation principle (Continued.)
Link Optimal Control Lecture 35 - Hamiltonian Formulation for solution of optimal Control problem and numerical example
Link Optimal Control Lecture 36 - Hamiltonian Formulation for solution of optimal Control problem and numerical example (Continued.)
Link Optimal Control Lecture 37 - Performance Indices and Linear Quadratic Regulator Problem
Link Optimal Control Lecture 38 - Performance Indices and Linear Quadratic Regulator Problem (Continued.)
Link Optimal Control Lecture 39 - Solution and Stability Analysis of Finite - time LQR Problem: Numerical Example
Link Optimal Control Lecture 40 - Solution and Infinite - time LQR Problem and Stability Analysis
Link Optimal Control Lecture 41 - Numerical Example and Methods for Solution of A.R.E.
Link Optimal Control Lecture 42 - Numerical Example and Methods for Solution of A.R.E. (Continued.)
Link Optimal Control Lecture 43 - Frequency Domain Interpretation of LQR Controlled System
Link Optimal Control Lecture 44 - Gain and Phase Margin of LQR Controlled System
Link Optimal Control Lecture 45 - The Linear Quadratic Gaussian Problem
Link Optimal Control Lecture 46 - Loop-Transfer Recovery
Link Optimal Control Lecture 47 - Dynamic Programming for Discrete Time Systems
Link Optimal Control Lecture 48 - Minimum – Time Control of a Linear Time Invariant System
Link Optimal Control Lecture 49 - Solution of Minimum – Time Control Problem with an Example
Link Optimal Control Lecture 50 - Constraint in Control Inputs and State Variables
Link Optimal Control Lecture 51 - Constraint in Control Inputs and State Variables (Continued...)
Link Optimal Control Lecture 52 - Norms for Vectors, Matrices, Signals and Linear Systems
Link Optimal Control Lecture 53 - Signal and System Norms
Link Optimal Control Lecture 54 - Internal Stability, Sensitivity and Complementary Sensitivity Functions
Link Optimal Control Lecture 55 - Internal Stability, Sensitivity and Complementary Sensitivity Functions (Continued...)
Link Optimal Control Lecture 56 - Plant Uncertainty and Standard form for Robust Stability Analysis
Link Optimal Control Lecture 57 - Plant Uncertainty and Standard form for Robust Stability Analysis (Continued...)
Link Optimal Control Lecture 58 - Frequency Response of Linear System and Singular Value Decomposition of System
Link Optimal Control Lecture 59 - Control Problem Statement in H- alpha Framework
Link Optimal Control Lecture 60 - Control Problem Statement in H - alpha Framework (Continued...)
Link Chaos, Fractals and Dynamic Systems Lecture 1 - Representations of Dynamical Systems
Link Chaos, Fractals and Dynamic Systems Lecture 2 - Vector Fields of Nonlinear Systems
Link Chaos, Fractals and Dynamic Systems Lecture 3 - Limit Cycles
Link Chaos, Fractals and Dynamic Systems Lecture 4 - The Lorenz Equation - I
Link Chaos, Fractals and Dynamic Systems Lecture 5 - The Lorenz Equation - II
Link Chaos, Fractals and Dynamic Systems Lecture 6 - The Rossler Equation and Forced Pendulum
Link Chaos, Fractals and Dynamic Systems Lecture 7 - The Chua's Circuit
Link Chaos, Fractals and Dynamic Systems Lecture 8 - Discrete Time Dynamical Systems
Link Chaos, Fractals and Dynamic Systems Lecture 9 - The Logistic Map and Period doubling
Link Chaos, Fractals and Dynamic Systems Lecture 10 - Flip and Tangent Bifurcations
Link Chaos, Fractals and Dynamic Systems Lecture 11 - Intermittency Transcritical and pitchfork
Link Chaos, Fractals and Dynamic Systems Lecture 12 - Two Dimensional Maps
Link Chaos, Fractals and Dynamic Systems Lecture 13 - Bifurcations in Two Dimensional Maps
Link Chaos, Fractals and Dynamic Systems Lecture 14 - Introduction to Fractals
Link Chaos, Fractals and Dynamic Systems Lecture 15 - Mandelbrot Sets and Julia Sets
Link Chaos, Fractals and Dynamic Systems Lecture 16 - The Space Where Fractals Live
Link Chaos, Fractals and Dynamic Systems Lecture 17 - Interactive Function Systems
Link Chaos, Fractals and Dynamic Systems Lecture 18 - IFS Algorithms
Link Chaos, Fractals and Dynamic Systems Lecture 19 - Fractal Image Compression
Link Chaos, Fractals and Dynamic Systems Lecture 20 - Stable and Unstable Manifolds
Link Chaos, Fractals and Dynamic Systems Lecture 21 - Boundary Crisis and Interior Crisis
Link Chaos, Fractals and Dynamic Systems Lecture 22 - Statistics of Chaotic Attractors
Link Chaos, Fractals and Dynamic Systems Lecture 23 - Matrix Times Circle : Ellipse
Link Chaos, Fractals and Dynamic Systems Lecture 24 - Lyapunov Exponent
Link Chaos, Fractals and Dynamic Systems Lecture 25 - Frequency Spectra of Orbits
Link Chaos, Fractals and Dynamic Systems Lecture 26 - Dynamics on a Torus
Link Chaos, Fractals and Dynamic Systems Lecture 27 - Dynamics on a Torus
Link Chaos, Fractals and Dynamic Systems Lecture 28 - Analysis of Chaotic Time Series
Link Chaos, Fractals and Dynamic Systems Lecture 29 - Analysis of Chaotic Time Series
Link Chaos, Fractals and Dynamic Systems Lecture 30 - Lyapunou Function and Centre Manifold Theory
Link Chaos, Fractals and Dynamic Systems Lecture 31 - Non-Smooth Bifurcations
Link Chaos, Fractals and Dynamic Systems Lecture 32 - Non-Smooth Bifurcations
Link Chaos, Fractals and Dynamic Systems Lecture 33 - Normal from for Piecewise Smooth 2D Maps
Link Chaos, Fractals and Dynamic Systems Lecture 34 - Bifurcations in Piecewise Linear 2D Maps
Link Chaos, Fractals and Dynamic Systems Lecture 35 - Bifurcations in Piecewise Linear 2D Maps
Link Chaos, Fractals and Dynamic Systems Lecture 36 - Multiple Attractor Bifurcation and Dangerous
Link Chaos, Fractals and Dynamic Systems Lecture 37 - Dynamics of Discontinuous Maps
Link Chaos, Fractals and Dynamic Systems Lecture 38 - Introduction to Floquet Theory
Link Chaos, Fractals and Dynamic Systems Lecture 39 - The Monodromy Matrix and the Saltation Matrix
Link Chaos, Fractals and Dynamic Systems Lecture 40 - Control of Chaos
Link Digital Signal Processing Lecture 1 - Discrete Time Signal and System
Link Digital Signal Processing Lecture 2 - Discrete Time Signal and System (Continued...)
Link Digital Signal Processing Lecture 3 - Discrete Time Signal and System (Continued...)
Link Digital Signal Processing Lecture 4 - Frequency Domain Representation of Discrete Signals
Link Digital Signal Processing Lecture 5 - Z-Transform
Link Digital Signal Processing Lecture 6 - Z-Transform (Continued...)
Link Digital Signal Processing Lecture 7 - Solution of Difference Equation
Link Digital Signal Processing Lecture 8 - Tutorial on Discrete Time Signals & Their Transforms
Link Digital Signal Processing Lecture 9 - Relation Between Discrete Time and Continuous Signals
Link Digital Signal Processing Lecture 10 - Discrete Fourier Transform (DFT)
Link Digital Signal Processing Lecture 11 - Discrete Fourier Transform (DFT) (Continued...)
Link Digital Signal Processing Lecture 12 - Discrete Fourier Transform (DFT) (Continued...)
Link Digital Signal Processing Lecture 13 - State Space Representation
Link Digital Signal Processing Lecture 14 - Filters Introduction
Link Digital Signal Processing Lecture 15 - FIR Filters
Link Digital Signal Processing Lecture 16 - FIR Filters (Continued...) Introduction to IIR Filters
Link Digital Signal Processing Lecture 17 - IIR Filters (Continued...)
Link Digital Signal Processing Lecture 18 - IIR Filters (Continued...)
Link Digital Signal Processing Lecture 19 - IIR Filters (Continued...)
Link Digital Signal Processing Lecture 20 - Tutorial & Introduction to Computer Aided Design of Filters
Link Digital Signal Processing Lecture 21 - Computer Aided Design of Filters
Link Digital Signal Processing Lecture 22 - FFT and Computer Aided Design of Filters
Link Digital Signal Processing Lecture 23 - Introduction to Lattice Filter
Link Digital Signal Processing Lecture 24 - Lattice Filter (Continued...)
Link Digital Signal Processing Lecture 25 - Effects of Quantization
Link Digital Signal Processing Lecture 26 - Effects of Quantization (Continued...)
Link Digital Signal Processing Lecture 27 - Effects of Quantization (Continued...)
Link Digital Signal Processing Lecture 28 - Effects of Quantization (Continued...)
Link Digital Signal Processing Lecture 29 - Random Signals
Link Digital Signal Processing Lecture 30 - Relationship Between Real and Imaginary Parts of DTFT
Link Digital Signal Processing Lecture 31 - Relationship Between Real and Imaginary Parts of DTFT
Link Digital Signal Processing Lecture 32 - Relationship Between Real and Imaginary Parts of DTFT
Link Digital Signal Processing Lecture 33 - Multi rate Signal Processing
Link Digital Signal Processing Lecture 34 - Multi rate Signal Processing (Continued...)
Link Digital Signal Processing Lecture 35 - Polyphase Decomposition
Link Dynamics of Physical Systems Lecture 1 - Introduction to System Elements
Link Dynamics of Physical Systems Lecture 2 - Newton's Method and Constraints
Link Dynamics of Physical Systems Lecture 3 - Derivation of the Lagrangian Equation
Link Dynamics of Physical Systems Lecture 4 - Using the lagrangian Equation to Obtain Differential Equations (Part-I)
Link Dynamics of Physical Systems Lecture 5 - Using the lagrangian Equation to Obtain Differential Equations (Part-II)
Link Dynamics of Physical Systems Lecture 6 - Using the lagrangian Equation to Obtain Differential Equations (Part-III)
Link Dynamics of Physical Systems Lecture 7 - Using the lagrangian Equation to Obtain Differential Equations (Part-IV)
Link Dynamics of Physical Systems Lecture 8 - Obtaining First Order Equations
Link Dynamics of Physical Systems Lecture 9 - Application of the Hamiltonian Method
Link Dynamics of Physical Systems Lecture 10 - Obtaining Differential Equations Using Kirchoff's Laws
Link Dynamics of Physical Systems Lecture 11 - The Graph Theory Approach for Electrical Circuits (Part-I)
Link Dynamics of Physical Systems Lecture 12 - The Graph Theory Approach for Electrical Circuits (Part-II)
Link Dynamics of Physical Systems Lecture 13 - The Bond Graph Approach - I
Link Dynamics of Physical Systems Lecture 14 - The Bond Graph Approach - II
Link Dynamics of Physical Systems Lecture 15 - The Bond Graph Approach - III
Link Dynamics of Physical Systems Lecture 16 - The Bond Graph Approach - IV
Link Dynamics of Physical Systems Lecture 17 - The Bond Graph Approach - V
Link Dynamics of Physical Systems Lecture 18 - The Bond Graph Approach - VI
Link Dynamics of Physical Systems Lecture 19 - The Bond Graph Approach - VII
Link Dynamics of Physical Systems Lecture 20 - Numerical Solution of Differential Equations
Link Dynamics of Physical Systems Lecture 21 - Dynamics in the State Space
Link Dynamics of Physical Systems Lecture 22 - Vector Field Around Equilibrium Points - I
Link Dynamics of Physical Systems Lecture 23 - Vector Field Around Equilibrium Points - II
Link Dynamics of Physical Systems Lecture 24 - Vector Field Around Equilibrium Points - III
Link Dynamics of Physical Systems Lecture 25 - Vector Field Around Equilibrium Points - IV
Link Dynamics of Physical Systems Lecture 26 - High Dimensional Linear Systems
Link Dynamics of Physical Systems Lecture 27 - Linear Systems with External Input - I
Link Dynamics of Physical Systems Lecture 28 - Linear Systems with External Input - II
Link Dynamics of Physical Systems Lecture 29 - Linear Systems with External Input - III
Link Dynamics of Physical Systems Lecture 30 - Dynamics of Nonlinear Systems - I
Link Dynamics of Physical Systems Lecture 31 - Dynamics of Nonlinear Systems - II
Link Dynamics of Physical Systems Lecture 32 - Dynamics of Nonlinear Systems - III
Link Dynamics of Physical Systems Lecture 33 - Discrete-Time Dynamical Systems - I
Link Dynamics of Physical Systems Lecture 34 - Discrete-Time Dynamical Systems - II
Link Energy Resources and Technology Lecture 1 - Thermodynamics: Fundamentals Of Energy - Energy Resources & Technology
Link Energy Resources and Technology Lecture 2 - Quality of Energy
Link Energy Resources and Technology Lecture 3 - Complete Cycle Analysis of Fossil Fuels
Link Energy Resources and Technology Lecture 4 - Energy in Transportation
Link Energy Resources and Technology Lecture 5 - Other Fossil Fuels
Link Energy Resources and Technology Lecture 6 - Energy Economics : Input-Output Analysis
Link Energy Resources and Technology Lecture 7 - Energy Economics : Input-Output Analysis
Link Energy Resources and Technology Lecture 8 - Thermal Power Plants
Link Energy Resources and Technology Lecture 9 - Thermal Power Plants
Link Energy Resources and Technology Lecture 10 - Hydroelectric Power
Link Energy Resources and Technology Lecture 11 - Hydroelectric Power
Link Energy Resources and Technology Lecture 12 - Nuclear Power Generation
Link Energy Resources and Technology Lecture 13 - Nuclear Fusion Reactors
Link Energy Resources and Technology Lecture 14 - Environmental Effects of Conventional Power
Link Energy Resources and Technology Lecture 15 - Solar Thermal Energy Conversion
Link Energy Resources and Technology Lecture 16 - Solar Concentrating Collectors
Link Energy Resources and Technology Lecture 17 - Photovoltaic Power Generation
Link Energy Resources and Technology Lecture 18 - Photovoltaic Power Generation (Continued.)
Link Energy Resources and Technology Lecture 19 - Photovoltaic Power Generation (Continued.)
Link Energy Resources and Technology Lecture 20 - Photovoltaic Power Generation (Continued.)
Link Energy Resources and Technology Lecture 21 - Wind Energy - I
Link Energy Resources and Technology Lecture 22 - Wind Energy - II
Link Energy Resources and Technology Lecture 23 - Wind Energy - III
Link Energy Resources and Technology Lecture 24 - Wind Energy - IV
Link Energy Resources and Technology Lecture 25 - Wind Energy - V
Link Energy Resources and Technology Lecture 26 - Wind Energy - VI
Link Energy Resources and Technology Lecture 27 - Wind Electrical Conversion - I
Link Energy Resources and Technology Lecture 28 - Wind Electrical Conversion - II
Link Energy Resources and Technology Lecture 29 - Wind Electrical Conversion - III
Link Energy Resources and Technology Lecture 30 - Tidal Energy
Link Energy Resources and Technology Lecture 31 - Tidal Energy
Link Energy Resources and Technology Lecture 32 - Tidal Energy
Link Energy Resources and Technology Lecture 33 - Ocean Thermal Energy Conversion
Link Energy Resources and Technology Lecture 34 - Solar Pond and Wave Power
Link Energy Resources and Technology Lecture 35 - Geothermal Energy
Link Energy Resources and Technology Lecture 36 - Solar Distillation and Biomass Energy
Link Energy Resources and Technology Lecture 37 - Energy Storage
Link Energy Resources and Technology Lecture 38 - Magneto hydrodynamic Power Generation
Link Energy Resources and Technology Lecture 39 - Magneto hydrodynamic Power Generation
Link Energy Resources and Technology Lecture 40 - Hydrogen Economy
Link Estimation of Signals and Systems Lecture 1 - Introduction
Link Estimation of Signals and Systems Lecture 2 - Probability Theory
Link Estimation of Signals and Systems Lecture 3 - Random Variables
Link Estimation of Signals and Systems Lecture 4 - Function of Random Variable Joint Density
Link Estimation of Signals and Systems Lecture 5 - Mean and Variance
Link Estimation of Signals and Systems Lecture 6 - Random Vectors Random Processes
Link Estimation of Signals and Systems Lecture 7 - Random Processes and Linear Systems
Link Estimation of Signals and Systems Lecture 8 - Some Numerical Problems
Link Estimation of Signals and Systems Lecture 9 - Miscellaneous Topics on Random Process
Link Estimation of Signals and Systems Lecture 10 - Linear Signal Models
Link Estimation of Signals and Systems Lecture 11 - Linear Mean Sq.Error Estimation
Link Estimation of Signals and Systems Lecture 12 - Auto Correlation and Power Spectrum Estimation
Link Estimation of Signals and Systems Lecture 13 - Z-Transform Revisited Eigen Vectors/Values
Link Estimation of Signals and Systems Lecture 14 - The Concept of Innovation
Link Estimation of Signals and Systems Lecture 15 - Last Squares Estimation Optimal IIR Filters
Link Estimation of Signals and Systems Lecture 16 - Introduction to Adaptive Filters
Link Estimation of Signals and Systems Lecture 17 - State Estimation
Link Estimation of Signals and Systems Lecture 18 - Kalman Filter-Model and Derivation
Link Estimation of Signals and Systems Lecture 19 - Kalman Filter-Derivation (Continued...)
Link Estimation of Signals and Systems Lecture 20 - Estimator Properties
Link Estimation of Signals and Systems Lecture 21 - The Time-Invariant Kalman Filter
Link Estimation of Signals and Systems Lecture 22 - Kalman Filter-Case Study
Link Estimation of Signals and Systems Lecture 23 - System identification Introductory Concepts
Link Estimation of Signals and Systems Lecture 24 - Linear Regression-Recursive Least Squares
Link Estimation of Signals and Systems Lecture 25 - Variants of LSE
Link Estimation of Signals and Systems Lecture 26 - Least Square Estimation
Link Estimation of Signals and Systems Lecture 27 - Model Order Selection Residual Tests
Link Estimation of Signals and Systems Lecture 28 - Practical Issues in Identification
Link Estimation of Signals and Systems Lecture 29 - Estimation Problems in Instrumentation and Control
Link Estimation of Signals and Systems Lecture 30 - Conclusion
Link Illumination Engineering Lecture 1 - Introduction to Illumination Engineering
Link Illumination Engineering Lecture 2 - Instructional Objectives
Link Illumination Engineering Lecture 3 - Eye and Vision - I
Link Illumination Engineering Lecture 4 - Eye and Vision - II
Link Illumination Engineering Lecture 5 - Laws of Illumination
Link Illumination Engineering Lecture 6 - Photometry
Link Illumination Engineering Lecture 7 - Incandescent Lamps
Link Illumination Engineering Lecture 8 - Discharge Lamps - I
Link Illumination Engineering Lecture 9 - Discharge Lamps - II
Link Illumination Engineering Lecture 10 - Discharge Lamps - III
Link Illumination Engineering Lecture 11 - Illumination Systems - I
Link Illumination Engineering Lecture 12 - Illumination Systems - II
Link Illumination Engineering Lecture 13 - Glare
Link Illumination Engineering Lecture 14 - Color
Link Illumination Engineering Lecture 15 - Interior Lighting
Link Illumination Engineering Lecture 16 - Sports Lighting
Link Illumination Engineering Lecture 17 - Road Lighting
Link Illumination Engineering Lecture 18 - Lighting Calculations
Link Illumination Engineering Lecture 19 - Lighting Applications
Link Illumination Engineering Lecture 20 - Conclusions on Illumination Engineering
Link Industrial Automation and Control Lecture 1 - Introduction
Link Industrial Automation and Control Lecture 2 - Architecture of Industrial Automation Systems
Link Industrial Automation and Control Lecture 3 - Measurement Systems Characteristics
Link Industrial Automation and Control Lecture 4 - Temperature Measurement
Link Industrial Automation and Control Lecture 5 - Pressure, Force and Torque Sensors
Link Industrial Automation and Control Lecture 6 - Motion Sensing
Link Industrial Automation and Control Lecture 7 - Flow Measurement
Link Industrial Automation and Control Lecture 8 - Signal Conditioning
Link Industrial Automation and Control Lecture 9 - Signal Conditioning (Continued.)
Link Industrial Automation and Control Lecture 10 - Data Acquisition Systems
Link Industrial Automation and Control Lecture 11 - Introduction to Automatic Control
Link Industrial Automation and Control Lecture 12 - P-I-D Control
Link Industrial Automation and Control Lecture 13 - PID Control Tuning
Link Industrial Automation and Control Lecture 14 - Feedforward Control Ratio Control
Link Industrial Automation and Control Lecture 15 - Time Delay Systems and Inverse Response Systems
Link Industrial Automation and Control Lecture 16 - Special Control Structures
Link Industrial Automation and Control Lecture 17 - Concluding Lesson on Process Control
Link Industrial Automation and Control Lecture 18 - Introduction to Sequence Control, PLC, RLL
Link Industrial Automation and Control Lecture 19 - Sequence Control. Scan Cycle,Simple RLL Programs
Link Industrial Automation and Control Lecture 20 - Sequence Control. More RLL Elements, RLL Syntax
Link Industrial Automation and Control Lecture 21 - A Structured Design Approach to Sequence
Link Industrial Automation and Control Lecture 22 - PLC Hardware Environment
Link Industrial Automation and Control Lecture 23 - Introduction To CNC Machines
Link Industrial Automation and Control Lecture 24 - Contour generation and Motion Control
Link Industrial Automation and Control Lecture 25 - Flow Control Valves
Link Industrial Automation and Control Lecture 26 - Hydraulic Control Systems - I
Link Industrial Automation and Control Lecture 27 - Hydraulic Control Systems - II
Link Industrial Automation and Control Lecture 28 - Industrial Hydraulic Circuit
Link Industrial Automation and Control Lecture 29 - Pneumatic Control Systems - I
Link Industrial Automation and Control Lecture 30 - Pneumatic Systems - II
Link Industrial Automation and Control Lecture 31 - Energy Savings with Variable Speed Drives
Link Industrial Automation and Control Lecture 32 - DC Motor Drives
Link Industrial Automation and Control Lecture 33 - DC and BLDC Servo Drives
Link Industrial Automation and Control Lecture 34 - Induction Motor Drives
Link Industrial Automation and Control Lecture 35 - Step Motor Drives BLDC Drives
Link Industrial Automation and Control Lecture 36 - Embedded Systems
Link Industrial Automation and Control Lecture 37 - The Fieldbus Network - I
Link Industrial Automation and Control Lecture 38 - The Fieldbus Network - II
Link Industrial Automation and Control Lecture 39 - Higher Level Automation Systems
Link Industrial Automation and Control Lecture 40 - Course Review and Conclusion
Link Industrial Instrumentation Lecture 1 - Introduction to Industrial Instrumentation
Link Industrial Instrumentation Lecture 2 - Dynamic Characteristics
Link Industrial Instrumentation Lecture 3 - Dynamic Characteristics (Continued.)
Link Industrial Instrumentation Lecture 4 - Strain gauge
Link Industrial Instrumentation Lecture 5 - Load cell
Link Industrial Instrumentation Lecture 6 - Torque Measurement
Link Industrial Instrumentation Lecture 7 - Thermistor
Link Industrial Instrumentation Lecture 8 - Thermocouples
Link Industrial Instrumentation Lecture 9 - Resistance Temperature Detector
Link Industrial Instrumentation Lecture 10 - LVDT
Link Industrial Instrumentation Lecture 11 - Capacitance Transducers
Link Industrial Instrumentation Lecture 12 - Flowmeter - I
Link Industrial Instrumentation Lecture 13 - Flowmeter - II
Link Industrial Instrumentation Lecture 14 - Flowmeter - III
Link Industrial Instrumentation Lecture 15 - Flowmeter - IV
Link Industrial Instrumentation Lecture 16 - Flowmeter - V
Link Industrial Instrumentation Lecture 17 - Problems on Temperature Sensors
Link Industrial Instrumentation Lecture 18 - Pressure Sensors
Link Industrial Instrumentation Lecture 19 - Low Pressure Measurement
Link Industrial Instrumentation Lecture 20 - pH and Viscosity Measurement
Link Industrial Instrumentation Lecture 21 - Problem and Solutions On Industrial Instrumentation
Link Industrial Instrumentation Lecture 22 - Signal Conditioning Circuits - I
Link Industrial Instrumentation Lecture 23 - Signal Conditioning Circuits - II
Link Industrial Instrumentation Lecture 24 - Piezoelectric Sensors
Link Industrial Instrumentation Lecture 25 - Ultrasonic Sensors
Link Industrial Instrumentation Lecture 26 - Nucleonic Instrumentation
Link Industrial Instrumentation Lecture 27 - Measurement Of Magnetic Field
Link Industrial Instrumentation Lecture 28 - Optoelectronic Sensor - I
Link Industrial Instrumentation Lecture 29 - Optoelectronic Sensor - II
Link Industrial Instrumentation Lecture 30 - Synchro
Link Industrial Instrumentation Lecture 31 - Dissolved Oxygen Sensors - I
Link Industrial Instrumentation Lecture 32 - Dissolved Oxygen Sensors - II
Link Industrial Instrumentation Lecture 33 - Flapper - Nozzle
Link Industrial Instrumentation Lecture 34 - Smart Sensors
Link Industrial Instrumentation Lecture 35 - Chromatography - I
Link Industrial Instrumentation Lecture 36 - Chromatography - II
Link Industrial Instrumentation Lecture 37 - Pollution Measurement
Link Industrial Instrumentation Lecture 38 - Control Valve - I
Link Industrial Instrumentation Lecture 39 - Control Valve - II
Link Industrial Instrumentation Lecture 40 - Signal Conditioning Integrated Circuits
Link Networks Signals and Systems Lecture 1 - Introduction to Network Elements and Sources
Link Networks Signals and Systems Lecture 2 - Introduction to Linearity and Nonlinearity
Link Networks Signals and Systems Lecture 3 - Distributed & Lumped Parameters 2-port Networks
Link Networks Signals and Systems Lecture 4 - Two-port Parameters Short Circuit,Open Circuit
Link Networks Signals and Systems Lecture 5 - Tutorial
Link Networks Signals and Systems Lecture 6 - Locus Diagram - Introduction to Signals
Link Networks Signals and Systems Lecture 7 - Signals (Continued.) Laplace Transforms
Link Networks Signals and Systems Lecture 8 - Laplace Transform (Continued.)
Link Networks Signals and Systems Lecture 9 - Tutorial on Laplace Transform
Link Networks Signals and Systems Lecture 10 - Frequency Response Bode Plot
Link Networks Signals and Systems Lecture 11 - Bode Plot (Continued.)
Link Networks Signals and Systems Lecture 12 - Bode Plot (Continued.) - Poles & Zeros
Link Networks Signals and Systems Lecture 13 - Driving Point Immittance Functions - Realisability Conditions
Link Networks Signals and Systems Lecture 14 - Two - Element Synthesis
Link Networks Signals and Systems Lecture 15 - Two - Element Synthesis (Continued.)
Link Networks Signals and Systems Lecture 16 - Tutorial
Link Networks Signals and Systems Lecture 17 - Tutorial
Link Networks Signals and Systems Lecture 18 - Graph Theory
Link Networks Signals and Systems Lecture 19 - Graph Theory (Continued.)
Link Networks Signals and Systems Lecture 20 - Graph Theory (Continued.)
Link Networks Signals and Systems Lecture 21 - Graph Theory (Continued.)
Link Networks Signals and Systems Lecture 22 - Image Impedance, Iterative Impedance
Link Networks Signals and Systems Lecture 23 - Image Impedance, Iterative Impedance
Link Networks Signals and Systems Lecture 24 - Characteristic Impedance and Design of Filters
Link Networks Signals and Systems Lecture 25 - Analysis of Resistive Networks Computer Aided
Link Networks Signals and Systems Lecture 26 - R-L-C Two-Terminal Network
Link Networks Signals and Systems Lecture 27 - Parts of Network Functions
Link Networks Signals and Systems Lecture 28 - Parts of Network Functions (Continued.)
Link Networks Signals and Systems Lecture 29 - Tutorial
Link Networks Signals and Systems Lecture 30 - Tutorial (Continued.)
Link Networks Signals and Systems Lecture 31 - Tutorial
Link Networks Signals and Systems Lecture 32 - Synthesis of 2-port Network
Link Networks Signals and Systems Lecture 33 - Synthesis of 2-port Network (Continued.)
Link Networks Signals and Systems Lecture 34 - Synthesis of 2-port Network (Continued.)
Link Networks Signals and Systems Lecture 35 - Fourier Series
Link Networks Signals and Systems Lecture 36 - Fourier Series (Continued.)
Link Power System Analysis Lecture 1 - Introduction to Power system analysis
Link Power System Analysis Lecture 2 - Introduction to Single Line Diagram
Link Power System Analysis Lecture 3 - Transmission Line Parameters
Link Power System Analysis Lecture 4 - Inductance Calculation (Three Phase)
Link Power System Analysis Lecture 5 - Transmission Line Capacitance
Link Power System Analysis Lecture 6 - Transmission Line Capacitance (Continued..)
Link Power System Analysis Lecture 7 - Transmission Line Modeling
Link Power System Analysis Lecture 8 - Transmission Line Modeling Long Line
Link Power System Analysis Lecture 9 - Transmission Line Steady State Operation
Link Power System Analysis Lecture 10 - Transmission Line Steady State Control Voltage
Link Power System Analysis Lecture 11 - Transmission System A Review
Link Power System Analysis Lecture 12 - Transformer Model
Link Power System Analysis Lecture 13 - Synchronous Machine Model
Link Power System Analysis Lecture 14 - Synchronous Machine Model
Link Power System Analysis Lecture 15 - Load Model
Link Power System Analysis Lecture 16 - Power Flow - I
Link Power System Analysis Lecture 17 - Power Flow - II
Link Power System Analysis Lecture 18 - Power Flow - III
Link Power System Analysis Lecture 19 - Power Flow - IV
Link Power System Analysis Lecture 20 - Power Flow - V
Link Power System Analysis Lecture 21 - Power Flow - VI
Link Power System Analysis Lecture 22 - Power Flow - VII
Link Power System Analysis Lecture 23 - Review of Power System Component Models
Link Power System Analysis Lecture 24 - Review of Power Flow Study
Link Power System Analysis Lecture 25 - Short Circuit Analysis
Link Power System Analysis Lecture 26 - Symmetrical Component Analysis
Link Power System Analysis Lecture 27 - Sequence Networks
Link Power System Analysis Lecture 28 - Unbalanced Fault Analysis
Link Power System Analysis Lecture 29 - Unbalanced Fault Analysis
Link Power System Analysis Lecture 30 - Fault Analysis for Large power Systems
Link Power System Analysis Lecture 31 - Bus Impedance Matrix
Link Power System Analysis Lecture 32 - Asymmetrical Fault Analysis Using Z - Bus
Link Power System Analysis Lecture 33 - Power System Stability - I
Link Power System Analysis Lecture 34 - Power System Stability - II
Link Power System Analysis Lecture 35 - Power System Stability - III
Link Power System Analysis Lecture 36 - Power System Stability - IV
Link Power System Analysis Lecture 37 - Power System Stability - V
Link Power System Analysis Lecture 38 - Power System Stability - VI
Link Power System Analysis Lecture 39 - Power System Stability - VII
Link Power System Analysis Lecture 40 - Power System Stability - VIII
Link NOC:Industrial Automation and Control Lecture 1 - Introduction
Link NOC:Industrial Automation and Control Lecture 2 - Introduction (Continued...)
Link NOC:Industrial Automation and Control Lecture 3 - Architecture of Industrial Automation Systems
Link NOC:Industrial Automation and Control Lecture 4 - Architecture of Industrial Automation Systems (Continued...)
Link NOC:Industrial Automation and Control Lecture 5 - Measurement Systems Characteristics
Link NOC:Industrial Automation and Control Lecture 6 - Measurement Systems Characteristics (Continued...)
Link NOC:Industrial Automation and Control Lecture 7 - Data Acquisition Systems
Link NOC:Industrial Automation and Control Lecture 8 - Data Acquisition Systems (Continued...)
Link NOC:Industrial Automation and Control Lecture 9 - Introduction to Automatic Control
Link NOC:Industrial Automation and Control Lecture 10 - Introduction to Automatic Control (Continued...)
Link NOC:Industrial Automation and Control Lecture 11 - P-I-D Control
Link NOC:Industrial Automation and Control Lecture 12 - P-I-D Control (Continued...)
Link NOC:Industrial Automation and Control Lecture 13 - PID Control Tuning
Link NOC:Industrial Automation and Control Lecture 14 - PID Control Tuning (Continued...)
Link NOC:Industrial Automation and Control Lecture 15 - Feedforward Control Ratio Control
Link NOC:Industrial Automation and Control Lecture 16 - Feedforward Control Ratio Control (Continued...)
Link NOC:Industrial Automation and Control Lecture 17 - Time Delay Systems and Inverse Response Systems
Link NOC:Industrial Automation and Control Lecture 18 - Time Delay Systems and Inverse Response Systems (Continued...)
Link NOC:Industrial Automation and Control Lecture 19 - Special Control Structures
Link NOC:Industrial Automation and Control Lecture 20 - Special Control Structures (Continued...)
Link NOC:Industrial Automation and Control Lecture 21 - Concluding Lesson on Process Control (Self-study)
Link NOC:Industrial Automation and Control Lecture 22 - Introduction to Sequence Control, PLC, RLL
Link NOC:Industrial Automation and Control Lecture 23 - Introduction to Sequence Control, PLC, RLL (Continued...)
Link NOC:Industrial Automation and Control Lecture 24 - Sequence Control. Scan Cycle, Simple RLL Programs
Link NOC:Industrial Automation and Control Lecture 25 - Sequence Control, Scan Cycle, Simple RLL Programs (Continued...)
Link NOC:Industrial Automation and Control Lecture 26 - Sequence Control. More RLL Elements, RLL Syntax
Link NOC:Industrial Automation and Control Lecture 27 - Sequence Control. More RLL Elements, RLL Syntax (Continued...)
Link NOC:Industrial Automation and Control Lecture 28 - A Structured Design Approach to Sequence Control
Link NOC:Industrial Automation and Control Lecture 29 - A Structured Design Approach to Sequence Control (Continued...)
Link NOC:Industrial Automation and Control Lecture 30 - PLC Hardware Environment
Link NOC:Industrial Automation and Control Lecture 31 - PLC Hardware Environment (Continued...)
Link NOC:Industrial Automation and Control Lecture 32 - Flow Control Valves
Link NOC:Industrial Automation and Control Lecture 33 - Flow Control Valves (Continued...)
Link NOC:Industrial Automation and Control Lecture 34 - Hydraulic Control Systems - I
Link NOC:Industrial Automation and Control Lecture 35 - Hydraulic Control Systems - I (Continued...)
Link NOC:Industrial Automation and Control Lecture 36 - Hydraulic Control Systems - II
Link NOC:Industrial Automation and Control Lecture 37 - Hydraulic Control Systems - II (Continued...)
Link NOC:Industrial Automation and Control Lecture 38 - Industrial Hydraulic Circuit
Link NOC:Industrial Automation and Control Lecture 39 - Industrial Hydraulic Circuit (Continued...)
Link NOC:Industrial Automation and Control Lecture 40 - Pneumatic Control Systems - I
Link NOC:Industrial Automation and Control Lecture 41 - Pneumatic Control Systems - I (Continued...)
Link NOC:Industrial Automation and Control Lecture 42 - Pneumatic Systems - II
Link NOC:Industrial Automation and Control Lecture 43 - Pneumatic Systems - II (Continued...)
Link NOC:Industrial Automation and Control Lecture 44 - Energy Savings with Variable Speed Drives
Link NOC:Industrial Automation and Control Lecture 45 - Energy Savings with Variable Speed Drives (Continued...)
Link NOC:Industrial Automation and Control Lecture 46 - Introduction To CNC Machines
Link NOC:Industrial Automation and Control Lecture 47 - Introduction To CNC Machines
Link NOC:Industrial Automation and Control Lecture 48 - The Fieldbus Network - I
Link NOC:Industrial Automation and Control Lecture 49 - The Fieldbus Network - I (Continued...)
Link NOC:Industrial Automation and Control Lecture 50 - Higher Level Automation Systems
Link NOC:Industrial Automation and Control Lecture 51 - Higher Level Automation Systems (Continued...)
Link NOC:Industrial Automation and Control Lecture 52 - Course Review and Conclusion (Self Study)
Link NOC:Medical Image Analysis Lecture 1 - Introduction to Medical Image Analysis
Link NOC:Medical Image Analysis Lecture 2 - X Ray and CT Imaging
Link NOC:Medical Image Analysis Lecture 3 - Magnetic Resonance Imaging
Link NOC:Medical Image Analysis Lecture 4 - Ultrasound Imaging
Link NOC:Medical Image Analysis Lecture 5 - Optical Microscopy and Molecular Imaging
Link NOC:Medical Image Analysis Lecture 6 - Texture in Medical Images
Link NOC:Medical Image Analysis Lecture 7 - Region Growing and Clustering
Link NOC:Medical Image Analysis Lecture 8 - Random Walks for Segmentation
Link NOC:Medical Image Analysis Lecture 9 - Active Contours for Segmentation
Link NOC:Medical Image Analysis Lecture 10 - Systematic Evaluation and Validation
Link NOC:Medical Image Analysis Lecture 11 - Decision Trees for Segmentation and Classification
Link NOC:Medical Image Analysis Lecture 12 - Random Forests for Segmentation and Classification
Link NOC:Medical Image Analysis Lecture 13 - Neural Networks for Segmentation and Classification
Link NOC:Medical Image Analysis Lecture 14 - Deep Learning for Medical Image Analysis
Link NOC:Medical Image Analysis Lecture 15 - Deep Learning for Medical Image Analysis (Continued...)
Link NOC:Medical Image Analysis Lecture 16 - Retinal Vessel Segmentation
Link NOC:Medical Image Analysis Lecture 17 - Vessel Segmentation in Computed Tomography Scan of Lungs
Link NOC:Medical Image Analysis Lecture 18
Link NOC:Medical Image Analysis Lecture 19 - Tissue Characterization in Ultrasound
Link NOC:Medical Image Analysis Lecture 20
Link NOC:Biomedical Signal Processing Lecture 1 - Motivation
Link NOC:Biomedical Signal Processing Lecture 2 - Preliminaries
Link NOC:Biomedical Signal Processing Lecture 3 - Biomedical Signal Origin and Dynamics
Link NOC:Biomedical Signal Processing Lecture 4 - Biomedical Signal Origin and Dynamics (Continued...)
Link NOC:Biomedical Signal Processing Lecture 5 - Biomedical Signal Origin and Dynamics (Continued...)
Link NOC:Biomedical Signal Processing Lecture 6 - Biomedical Signal Origin and Dynamics (Continued...)
Link NOC:Biomedical Signal Processing Lecture 7 - Artifact Removal
Link NOC:Biomedical Signal Processing Lecture 8 - Artifact Removal (Continued...)
Link NOC:Biomedical Signal Processing Lecture 9 - Artifact Removal (Continued...)
Link NOC:Biomedical Signal Processing Lecture 10 - Artifact Removal (Continued...)
Link NOC:Biomedical Signal Processing Lecture 11 - Artifact Removal (Continued...)
Link NOC:Biomedical Signal Processing Lecture 12 - Artifact Removal (Continued...)
Link NOC:Biomedical Signal Processing Lecture 13 - Artifact Removal (Continued...)
Link NOC:Biomedical Signal Processing Lecture 14 - Artifact Removal (Continued...)
Link NOC:Biomedical Signal Processing Lecture 15 - Artifact Removal (Continued...)
Link NOC:Biomedical Signal Processing Lecture 16 - Artifact Removal (Continued...)
Link NOC:Biomedical Signal Processing Lecture 17 - Artifact Removal (Continued...)
Link NOC:Biomedical Signal Processing Lecture 18 - Event Detection
Link NOC:Biomedical Signal Processing Lecture 19 - Event Detection (Continued...)
Link NOC:Biomedical Signal Processing Lecture 20 - Event Detection (Continued...)
Link NOC:Biomedical Signal Processing Lecture 21 - Event Detection (Continued...)
Link NOC:Biomedical Signal Processing Lecture 22 - Event Detection (Continued...)
Link NOC:Biomedical Signal Processing Lecture 23 - Event Detection (Continued...)
Link NOC:Biomedical Signal Processing Lecture 24 - Event Detection (Continued...)
Link NOC:Biomedical Signal Processing Lecture 25 - Homomorphic Processing
Link NOC:Biomedical Signal Processing Lecture 26 - Homomorphic Processing (Continued...)
Link NOC:Biomedical Signal Processing Lecture 27 - Waveform Analysis
Link NOC:Biomedical Signal Processing Lecture 28 - Waveform Analysis (Continued...)
Link NOC:Biomedical Signal Processing Lecture 29 - Waveform Analysis
Link NOC:Biomedical Signal Processing Lecture 30 - Waveform Analysis (Continued...)
Link NOC:Biomedical Signal Processing Lecture 31 - Waveform Analysis (Continued...)
Link NOC:Biomedical Signal Processing Lecture 32 - Waveform Analysis (Continued...)
Link NOC:Biomedical Signal Processing Lecture 33 - Waveform Analysis (Continued...)
Link NOC:Biomedical Signal Processing Lecture 34 - Frequency Domain Characterisation
Link NOC:Biomedical Signal Processing Lecture 35 - Frequency Domain Characterisation (Continued...)
Link NOC:Biomedical Signal Processing Lecture 36 - Frequency Domain Characterisation (Continued...)
Link NOC:Biomedical Signal Processing Lecture 37 - Frequency Domain Characterisation (Continued...)
Link NOC:Biomedical Signal Processing Lecture 38 - Frequency Domain Characterisation (Continued...)
Link NOC:Biomedical Signal Processing Lecture 39 - Frequency Domain Characterisation (Continued...)
Link NOC:Biomedical Signal Processing Lecture 40 - Modelling of Biomedical Systems
Link NOC:Biomedical Signal Processing Lecture 41 - Modelling of Biomedical Systems (Continued...)
Link NOC:Biomedical Signal Processing Lecture 42 - Modelling of Biomedical Systems (Continued...)
Link NOC:Biomedical Signal Processing Lecture 43 - Modelling of Biomedical Systems (Continued...)
Link NOC:Biomedical Signal Processing Lecture 44 - Modelling of Biomedical Systems (Continued...)
Link NOC:Biomedical Signal Processing Lecture 45 - Modelling of Biomedical Systems (Continued...)
Link NOC:Biomedical Signal Processing Lecture 46 - Modelling of Biomedical Systems (Continued...)
Link NOC:Biomedical Signal Processing Lecture 47 - Tutorial - I
Link NOC:Biomedical Signal Processing Lecture 48 - Tutorial - I (Continued...)
Link NOC:Biomedical Signal Processing Lecture 49 - Tutorial - I (Continued...)
Link NOC:Biomedical Signal Processing Lecture 50 - Tutorial - II
Link NOC:Biomedical Signal Processing Lecture 51 - Tutorial - II (Continued...)
Link NOC:Biomedical Signal Processing Lecture 52 - Tutorial - II (Continued...)
Link NOC:Biomedical Signal Processing Lecture 53 - Tutorial - III
Link NOC:Biomedical Signal Processing Lecture 54 - Tutorial - III (Continued...)
Link NOC:Biomedical Signal Processing Lecture 55 - Tutorial - III (Continued...)
Link NOC:Biomedical Signal Processing Lecture 56 - Tutorial - III (Continued...)
Link NOC:Biomedical Signal Processing Lecture 57 - Tutorial - IV
Link NOC:Biomedical Signal Processing Lecture 58 - Tutorial - IV (Continued...)
Link NOC:Biomedical Signal Processing Lecture 59 - Tutorial - IV (Continued...)
Link NOC:Biomedical Signal Processing Lecture 60 - Tutorial - IV (Continued...)
Link NOC:Biomedical Signal Processing Lecture 61 - Tutorial - IV (Continued...)
Link NOC:Biomedical Signal Processing Lecture 62 - Tutorial - IV (Continued...)
Link NOC:Biomedical Signal Processing Lecture 63 - Tutorial - V
Link NOC:Biomedical Signal Processing Lecture 64 - Tutorial - V (Continued...)
Link NOC:Biomedical Signal Processing Lecture 65 - Tutorial - V (Continued...)
Link NOC:Biomedical Signal Processing Lecture 66 - Tutorial - V (Continued...)
Link NOC:Biomedical Signal Processing Lecture 67 - Tutorial - V (Continued...)
Link NOC:Biomedical Signal Processing Lecture 68 - Live Session
Link NOC:Microprocessors and Microcontrollers Lecture 1 - Introduction
Link NOC:Microprocessors and Microcontrollers Lecture 2 - Introduction (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 3 - Introduction (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 4 - Basic Computer Organization
Link NOC:Microprocessors and Microcontrollers Lecture 5 - Basic computer organization
Link NOC:Microprocessors and Microcontrollers Lecture 6 - Basic Computer Organization
Link NOC:Microprocessors and Microcontrollers Lecture 7 - 8085 Microprocessors
Link NOC:Microprocessors and Microcontrollers Lecture 8 - 8085 Microprocessors (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 9 - 8085 Microprocessors (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 10 - 8085 Microprocessors (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 11 - 8085 Microprocessors (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 12 - 8085 Microprocessors (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 13 - 8085 Microprocessors (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 14 - 8085 Microprocessors (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 15 - 8085 Microprocessors (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 16 - 8085 Microprocessors (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 17 - 8085 Microprocessors (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 18 - 8085 Microprocessors (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 19 - 8085 Microprocessors (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 20 - 8085 Microprocessors (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 21 - 8085 Microprocessors (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 22 - 8085 Microprocessors (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 23 - 8051 Microcontroller
Link NOC:Microprocessors and Microcontrollers Lecture 24 - 8051 Microcontroller (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 25 - 8051Microcontroller (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 26 - 8051 Microcontroller (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 27 - 8051 Microcontroller (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 28 - 8051 Microcontroller (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 29 - 8051 Microcontroller (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 30 - 8051 Microcontroller (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 31 - 8051 Microcontroller (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 32 - 8051 Microcontroller (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 33 - 8051 Microcontroller (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 34 - 8051 Microcontroller (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 35 - 8051 Microcontroller (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 36 - 8051 Programming Examples
Link NOC:Microprocessors and Microcontrollers Lecture 37 - 8051 Programming Examples (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 38 - 8051 Programming Examples (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 39 - 8051 Programming Examples (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 40 - 8051 Programming Examples (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 41 - ARM
Link NOC:Microprocessors and Microcontrollers Lecture 42 - ARM (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 43 - ARM (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 44 - ARM (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 45 - ARM (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 46 - ARM (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 47 - ARM (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 48 - ARM (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 49 - PIC
Link NOC:Microprocessors and Microcontrollers Lecture 50 - PIC, AVR
Link NOC:Microprocessors and Microcontrollers Lecture 51 - AVR (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 52 - AVR (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 53 - Interfacing
Link NOC:Microprocessors and Microcontrollers Lecture 54 - Interfacing (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 55 - Interfacing (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 56 - Interfacing (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 57 - Interfacing (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 58 - Interfacing (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 59 - 8086
Link NOC:Microprocessors and Microcontrollers Lecture 60 - 8086 (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 61 - 8086 (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 62 - 8086 (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 63 - 8086 (Continued...)
Link NOC:Microprocessors and Microcontrollers Lecture 64 - 8087
Link NOC:Deep Learning For Visual Computing Lecture 1 - Introduction to Visual Computing
Link NOC:Deep Learning For Visual Computing Lecture 2 - Feature Extraction for Visual Computing
Link NOC:Deep Learning For Visual Computing Lecture 3 - Feature Extraction with Python
Link NOC:Deep Learning For Visual Computing Lecture 4 - Neural Networks for Visual Computing
Link NOC:Deep Learning For Visual Computing Lecture 5 - Classification with Perceptron Model
Link NOC:Deep Learning For Visual Computing Lecture 6 - Introduction to Deep Learning with Neural Networks
Link NOC:Deep Learning For Visual Computing Lecture 7 - Introduction to Deep Learning with Neural Networks
Link NOC:Deep Learning For Visual Computing Lecture 8 - Multilayer Perceptron and Deep Neural Networks
Link NOC:Deep Learning For Visual Computing Lecture 9 - Multilayer Perceptron and Deep Neural Networks
Link NOC:Deep Learning For Visual Computing Lecture 10 - Classification with Multilayer Perceptron
Link NOC:Deep Learning For Visual Computing Lecture 11 - Autoencoder for Representation Learning and MLP Initialization
Link NOC:Deep Learning For Visual Computing Lecture 12 - MNIST handwritten digits classification using autoencoders
Link NOC:Deep Learning For Visual Computing Lecture 13 - Fashion MNIST classification using autoencoders
Link NOC:Deep Learning For Visual Computing Lecture 14 - ALL-IDB Classification using autoencoders
Link NOC:Deep Learning For Visual Computing Lecture 15 - Retinal Vessel Detection using autoencoders
Link NOC:Deep Learning For Visual Computing Lecture 16 - Stacked Autoencoders
Link NOC:Deep Learning For Visual Computing Lecture 17 - MNIST and Fashion MNIST with Stacked Autoencoders
Link NOC:Deep Learning For Visual Computing Lecture 18 - Denoising and Sparse Autoencoders
Link NOC:Deep Learning For Visual Computing Lecture 19 - Sparse Autoencoders for MNIST classification
Link NOC:Deep Learning For Visual Computing Lecture 20 - Denoising Autoencoders for MNIST classification
Link NOC:Deep Learning For Visual Computing Lecture 21 - Cost Function
Link NOC:Deep Learning For Visual Computing Lecture 22 - Classification cost functions
Link NOC:Deep Learning For Visual Computing Lecture 23 - Optimization Techniques and Learning Rules
Link NOC:Deep Learning For Visual Computing Lecture 24 - Gradient Descent Learning Rule
Link NOC:Deep Learning For Visual Computing Lecture 25 - SGD and ADAM Learning Rules
Link NOC:Deep Learning For Visual Computing Lecture 26 - Convolutional Neural Network Building Blocks
Link NOC:Deep Learning For Visual Computing Lecture 27 - Simple CNN Model: LeNet
Link NOC:Deep Learning For Visual Computing Lecture 28 - LeNet Definition
Link NOC:Deep Learning For Visual Computing Lecture 29 - Training a LeNet for MNIST Classification
Link NOC:Deep Learning For Visual Computing Lecture 30 - Modifying a LeNet for CIFAR
Link NOC:Deep Learning For Visual Computing Lecture 31 - Convolutional Autoencoder and Deep CNN
Link NOC:Deep Learning For Visual Computing Lecture 32 - Convolutional Autoencoder for Representation Learning
Link NOC:Deep Learning For Visual Computing Lecture 33 - AlexNet
Link NOC:Deep Learning For Visual Computing Lecture 34 - VGGNet
Link NOC:Deep Learning For Visual Computing Lecture 35 - Revisiting AlexNet and VGGNet for Computational Complexity
Link NOC:Deep Learning For Visual Computing Lecture 36 - GoogLeNet - Going very deep with convolutions
Link NOC:Deep Learning For Visual Computing Lecture 37 - GoogLeNet
Link NOC:Deep Learning For Visual Computing Lecture 38 - ResNet - Residual Connections within Very Deep Networks and DenseNet - Densely connected networks
Link NOC:Deep Learning For Visual Computing Lecture 39 - ResNet
Link NOC:Deep Learning For Visual Computing Lecture 40 - DenseNet
Link NOC:Deep Learning For Visual Computing Lecture 41 - Space and Computational Complexity in DNN
Link NOC:Deep Learning For Visual Computing Lecture 42 - Assessing the space and computational complexity of very deep CNNs
Link NOC:Deep Learning For Visual Computing Lecture 43 - Domain Adaptation and Transfer Learning in Deep Neural Networks
Link NOC:Deep Learning For Visual Computing Lecture 44 - Transfer Learning a GoogLeNet
Link NOC:Deep Learning For Visual Computing Lecture 45 - Transfer Learning a ResNet
Link NOC:Deep Learning For Visual Computing Lecture 46 - Activation pooling for object localization
Link NOC:Deep Learning For Visual Computing Lecture 47 - Region Proposal Networks (rCNN and Faster rCNN)
Link NOC:Deep Learning For Visual Computing Lecture 48 - GAP + rCNN
Link NOC:Deep Learning For Visual Computing Lecture 49 - Semantic Segmentation with CNN
Link NOC:Deep Learning For Visual Computing Lecture 50 - UNet and SegNet for Semantic Segmentation
Link NOC:Deep Learning For Visual Computing Lecture 51 - Autoencoders and Latent Spaces
Link NOC:Deep Learning For Visual Computing Lecture 52 - Principle of Generative Modeling
Link NOC:Deep Learning For Visual Computing Lecture 53 - Adversarial Autoencoders
Link NOC:Deep Learning For Visual Computing Lecture 54 - Adversarial Autoencoder for Synthetic Sample Generation
Link NOC:Deep Learning For Visual Computing Lecture 55 - Adversarial Autoencoder for Classification
Link NOC:Deep Learning For Visual Computing Lecture 56 - Understanding Video Analysis
Link NOC:Deep Learning For Visual Computing Lecture 57 - Recurrent Neural Networks and Long Short-Term Memory
Link NOC:Deep Learning For Visual Computing Lecture 58 - Spatio-Temporal Deep Learning for Video Analysis
Link NOC:Deep Learning For Visual Computing Lecture 59 - Activity recognition using 3D-CNN
Link NOC:Deep Learning For Visual Computing Lecture 60 - Activity recognition using CNN-LSTM
Link NOC:Power System Engineering Lecture 1
Link NOC:Power System Engineering Lecture 2
Link NOC:Power System Engineering Lecture 3
Link NOC:Power System Engineering Lecture 4
Link NOC:Power System Engineering Lecture 5
Link NOC:Power System Engineering Lecture 6
Link NOC:Power System Engineering Lecture 7
Link NOC:Power System Engineering Lecture 8
Link NOC:Power System Engineering Lecture 9
Link NOC:Power System Engineering Lecture 10
Link NOC:Power System Engineering Lecture 11 - Cables (Continued...)
Link NOC:Power System Engineering Lecture 12 - Transient over voltages and Insulation coordination
Link NOC:Power System Engineering Lecture 13 - Transient over voltages and Insulation coordination (Continued...)
Link NOC:Power System Engineering Lecture 14 - Transient over voltages and Insulation coordination (Continued...)
Link NOC:Power System Engineering Lecture 15 - Transient over voltages and Insulation coordination (Continued...)
Link NOC:Power System Engineering Lecture 16 - Transient over voltages and Insulation coordination (Continued...)
Link NOC:Power System Engineering Lecture 17 - Transient over voltages and Insulation coordination (Continued...)
Link NOC:Power System Engineering Lecture 18 - Transient over voltages and Insulation coordination (Continued...)
Link NOC:Power System Engineering Lecture 19 - Transient over voltages and Insulation coordination (Continued...)
Link NOC:Power System Engineering Lecture 20 - Corona
Link NOC:Power System Engineering Lecture 21 - Corona (Continued...)
Link NOC:Power System Engineering Lecture 22 - Corona (Continued...)
Link NOC:Power System Engineering Lecture 23 - Corona (Continued...), Sag and Tension Analysis
Link NOC:Power System Engineering Lecture 24 - Sag and Tension Analysis (Continued...)
Link NOC:Power System Engineering Lecture 25 - Sag and Tension Analysis (Continued...)
Link NOC:Power System Engineering Lecture 26 - Sag and Tension Analysis (Continued...)
Link NOC:Power System Engineering Lecture 27 - Sag and Tension Analysis (Continued...)
Link NOC:Power System Engineering Lecture 28 - Sag and Tension Analysis (Continued...)
Link NOC:Power System Engineering Lecture 29 - Load flow of radial distribution networks
Link NOC:Power System Engineering Lecture 30 - Load flow of radial distribution networks (Continued...)
Link NOC:Power System Engineering Lecture 31 - Load flow of radial distribution networks (Continued...)
Link NOC:Power System Engineering Lecture 32 - Load flow of radial distribution networks (Continued...)
Link NOC:Power System Engineering Lecture 33 - Load flow of radial distribution networks (Continued...)
Link NOC:Power System Engineering Lecture 34 - Load flow of radial distribution networks (Continued...)
Link NOC:Power System Engineering Lecture 35 - Load flow of radial distribution networks (Continued...)
Link NOC:Power System Engineering Lecture 36 - Load flow of radial distribution networks (Continued...)
Link NOC:Power System Engineering Lecture 37 - Load flow of radial distribution networks (Continued...), Voltage stability of distribution network
Link NOC:Power System Engineering Lecture 38 - Voltage stability of distribution network, Approximate method
Link NOC:Power System Engineering Lecture 39 - Application of capacitors in distribution system
Link NOC:Power System Engineering Lecture 40 - Application of capacitors in distribution system (Continued...)
Link NOC:Power System Engineering Lecture 41 - Application of capacitors in distribution system (Continued...)
Link NOC:Power System Engineering Lecture 42 - Application of capacitors in distribution system (Continued...)
Link NOC:Power System Engineering Lecture 43 - Application of capacitors in distribution system (Continued...)
Link NOC:Power System Engineering Lecture 44 - Application of capacitors in distribution system (Continued...), Load frequency control
Link NOC:Power System Engineering Lecture 45 - Load frequency control (Continued...)
Link NOC:Power System Engineering Lecture 46 - Load frequency control (Continued...)
Link NOC:Power System Engineering Lecture 47 - Load frequency control (Continued...)
Link NOC:Power System Engineering Lecture 48 - Load frequency control (Continued...)
Link NOC:Power System Engineering Lecture 49 - Load frequency control (Continued...)
Link NOC:Power System Engineering Lecture 50 - Load frequency control (Continued...)
Link NOC:Power System Engineering Lecture 51 - Load frequency control (Continued...)
Link NOC:Power System Engineering Lecture 52 - Load frequency control (Continued...)
Link NOC:Power System Engineering Lecture 53 - Load frequency control (Continued...)
Link NOC:Power System Engineering Lecture 54 - Load frequency control (Continued...)
Link NOC:Power System Engineering Lecture 55 - Load frequency control (Continued...)
Link NOC:Power System Engineering Lecture 56 - Load frequency control (Continued...)
Link NOC:Power System Engineering Lecture 57 - Automatic generation control
Link NOC:Power System Engineering Lecture 58 - Automatic generation control (Continued...)
Link NOC:Power System Engineering Lecture 59 - Automatic generation control (Continued...), Unit commitment
Link NOC:Power System Engineering Lecture 60 - Unit commitment (Continued...)
Link NOC:Power System Engineering Lecture 61 - Live Session
Link NOC:Fundamentals of Electrical Engineering Lecture 1 - Basic Concepts, Examples
Link NOC:Fundamentals of Electrical Engineering Lecture 2 - Basic Concepts, Examples (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 3 - Basic Concepts, Examples (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 4 - Basic Concepts, Examples (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 5 - Basic Laws
Link NOC:Fundamentals of Electrical Engineering Lecture 6 - Basic Laws (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 7 - Basic Laws (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 8 - Basic Laws (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 9 - Basic Laws (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 10 - Basic Laws (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 11 - Methods of Circuit Analysis
Link NOC:Fundamentals of Electrical Engineering Lecture 12 - Methods of Circuit Analysis (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 13 - Methods of Circuit Analysis (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 14 - Methods of Circuit Analysis (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 15 - Methods of Circuit Analysis (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 16 - Methods of Circuit Analysis (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 17 - Mesh analysis with current sources, Examples
Link NOC:Fundamentals of Electrical Engineering Lecture 18 - Methods of Circuit Analysis (Continued...) and Circuit Theorems
Link NOC:Fundamentals of Electrical Engineering Lecture 19 - Circuit Theorems (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 20 - Circuit Theorems (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 21 - Circuit Theorems (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 22 - Circuit Theorems (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 23 - Circuit Theorems (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 24 - Circuit Theorems (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 25 - Circuit Theorems (Continued...) and Capacitors and Inductors
Link NOC:Fundamentals of Electrical Engineering Lecture 26 - Capacitors and Inductors (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 27 - Capacitors and Inductors (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 28 - Capacitors and Inductors (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 29 - First Order Circuits
Link NOC:Fundamentals of Electrical Engineering Lecture 30 - First Order Circuits (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 31 - First Order Circuits (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 32 - First Order Circuits (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 33 - First Order Circuits (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 34 - First Order Circuits (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 35 - First Order Circuits (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 36 - First Order Circuits (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 37 - Single phase AC circuits
Link NOC:Fundamentals of Electrical Engineering Lecture 38 - Single phase AC circuits (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 39 - Single phase AC circuits (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 40 - Single phase AC circuits (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 41 - Single phase AC circuits (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 42 - Single phase AC circuits (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 43 - Single phase AC circuits (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 44 - Resonance and Maximum Power Transfer Theorem
Link NOC:Fundamentals of Electrical Engineering Lecture 45 - Resonance and Maximum Power Transfer Theorem (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 46 - Resonance and Maximum Power Transfer Theorem (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 47 - Three phase circuits
Link NOC:Fundamentals of Electrical Engineering Lecture 48 - Three phase circuits (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 49 - Three phase circuits (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 50 - Three phase circuits (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 51 - Magnetic Circuits
Link NOC:Fundamentals of Electrical Engineering Lecture 52 - Magnetic Circuits (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 53 - Magnetic Circuits (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 54 - Single Phase Transformer
Link NOC:Fundamentals of Electrical Engineering Lecture 55 - Single Phase Transformer (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 56 - Single Phase Transformer (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 57 - Single Phase Transformer (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 58 - Three phase Induction Motors
Link NOC:Fundamentals of Electrical Engineering Lecture 59 - Three phase Induction Motors (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 60 - Three phase Induction Motors (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 61 - Three phase Induction Motors (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 62 - DC Motors
Link NOC:Fundamentals of Electrical Engineering Lecture 63 - DC Motors (Continued...)
Link NOC:Fundamentals of Electrical Engineering Lecture 64 - DC Motors (Continued...)
Link NOC:Digital Circuits Lecture 1 - Introduction
Link NOC:Digital Circuits Lecture 2 - Introduction (Continued...)
Link NOC:Digital Circuits Lecture 3 - Number System
Link NOC:Digital Circuits Lecture 4 - Number System (Continued...)
Link NOC:Digital Circuits Lecture 5 - Number System (Continued...)
Link NOC:Digital Circuits Lecture 6 - Number System (Continued...)
Link NOC:Digital Circuits Lecture 7 - Number System (Continued...)
Link NOC:Digital Circuits Lecture 8 - Boolean Algebra
Link NOC:Digital Circuits Lecture 9 - Boolean Algebra (Continued...)
Link NOC:Digital Circuits Lecture 10 - Boolean Algebra (Continued...)
Link NOC:Digital Circuits Lecture 11 - Boolean Algebra (Continued...)
Link NOC:Digital Circuits Lecture 12 - Boolean Algebra (Continued...)
Link NOC:Digital Circuits Lecture 13 - Boolean Algebra (Continued...)
Link NOC:Digital Circuits Lecture 14 - Logic Gates
Link NOC:Digital Circuits Lecture 15 - Logic Gates (Continued...)
Link NOC:Digital Circuits Lecture 16 - Logic Gates (Continued...)
Link NOC:Digital Circuits Lecture 17 - Logic Gates (Continued...)
Link NOC:Digital Circuits Lecture 18 - Logic Gates (Continued...)
Link NOC:Digital Circuits Lecture 19 - Logic Gates (Continued...)
Link NOC:Digital Circuits Lecture 20 - Arithmetic Circuits
Link NOC:Digital Circuits Lecture 21 - Arithmetic Circuits (Continued...)
Link NOC:Digital Circuits Lecture 22 - Arithmetic Circuits (Continued...)
Link NOC:Digital Circuits Lecture 23 - Decoders, Multiplexers, PLA
Link NOC:Digital Circuits Lecture 24 - Decoders, Multiplexers, PLA (Continued...)
Link NOC:Digital Circuits Lecture 25 - Decoders, Multiplexers, PLA (Continued...)
Link NOC:Digital Circuits Lecture 26 - Decoders, Multiplexers, PLA (Continued...)
Link NOC:Digital Circuits Lecture 27 - Decoders, Multiplexers, PLA (Continued...)
Link NOC:Digital Circuits Lecture 28 - Sequential Circuits
Link NOC:Digital Circuits Lecture 29 - Sequential Circuits (Continued...)
Link NOC:Digital Circuits Lecture 30 - Sequential Circuits (Continued...)
Link NOC:Digital Circuits Lecture 31 - Sequential Circuits (Continued...)
Link NOC:Digital Circuits Lecture 32 - Sequential Circuits (Continued...)
Link NOC:Digital Circuits Lecture 33 - Sequential Circuits (Continued...)
Link NOC:Digital Circuits Lecture 34 - Sequential Circuits (Continued...)
Link NOC:Digital Circuits Lecture 35 - Finite State Machine
Link NOC:Digital Circuits Lecture 36 - Finite State Machine (Continued...)
Link NOC:Digital Circuits Lecture 37 - Data Converters
Link NOC:Digital Circuits Lecture 38 - Data Converters (Continued...)
Link NOC:Digital Circuits Lecture 39 - Data Converters (Continued...)
Link NOC:Digital Circuits Lecture 40 - Data Converters (Continued...)
Link NOC:Digital Circuits Lecture 41 - Memory
Link NOC:Digital Circuits Lecture 42 - Memory (Continued...)
Link NOC:Digital Circuits Lecture 43 - Memory (Continued...)
Link NOC:Digital Circuits Lecture 44 - FPGA
Link NOC:Digital Circuits Lecture 45 - FPGA (Continued...)
Link NOC:Digital Circuits Lecture 46 - VHDL
Link NOC:Digital Circuits Lecture 47 - VHDL(Continued...)
Link NOC:Digital Circuits Lecture 48 - 8085 Microprocessor
Link NOC:Digital Circuits Lecture 49 - 8085 Microprocessor (Continued...)
Link NOC:Digital Circuits Lecture 50 - 8085 Microprocessor (Continued...)
Link NOC:Digital Circuits Lecture 51 - 8085 Microprocessor (Continued...)
Link NOC:Digital Circuits Lecture 52 - 8085 Microprocessor (Continued...)
Link NOC:Digital Circuits Lecture 53 - 8085 Microprocessor (Continued...)
Link NOC:Digital Circuits Lecture 54 - 8085 Microprocessor (Continued...)
Link NOC:Digital Circuits Lecture 55 - 8085 Microprocessor (Continued...)
Link NOC:Digital Circuits Lecture 56 - 8085 Microprocessor (Continued...)
Link NOC:Digital Circuits Lecture 57 - 8085 Microprocessor (Continued...)
Link NOC:Digital Circuits Lecture 58 - 8085 Microprocessor (Continued...)
Link NOC:Digital Circuits Lecture 59 - 8085 Microprocessor (Continued...)
Link NOC:Digital Circuits Lecture 60 - 8085 Microprocessor (Continued...)
Link NOC:Digital Circuits Lecture 61 - 8085 Microprocessor (Continued...)
Link NOC:Digital Circuits Lecture 62 - 8085 Microprocessor (Continued...)
Link NOC:Digital Circuits Lecture 63 - 8086 Microprocessor
Link NOC:Digital Circuits Lecture 64 - 8086 Microprocessor (Continued...)
Link NOC:Digital Circuits Lecture 65 - 8086 Microprocessor (Continued...)
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 1 - Concept of Scalar and Vector Potentials
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 2 - Radiation From a Current Element (Hertzian Dipole)
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 3 - Specific Properties of the Radiated Fields from a Current Element
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 4 - General Properties of Radiated Fields from an Antenna
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 5 - Farfield and Radiation Pattern of an Antenna
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 6 - Directivity and Gain of an Antenna
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 7 - Idea of Efficiency, Beamwidth, Polarisation and Bandwidth
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 8 - Polarization of Antenna
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 9 - Impedance of Antenna
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 10 - Effective Aperture of an Antenna
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 11 - Friss Transmission Equation and Antenna Temperature
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 12 - Dipole And Monopole Antena
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 13 - Dipole And Monopole Antena (Continued...)
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 14 - BALUN
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 15 - Loop Antenna
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 16 - Folded Dipole Antenna
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 17 - Introduction to Antenna Array
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 18 - Antenna Array Theory
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 19 - Broadside Uniform Linear Array
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 20 - Endfire Linear Uniform Array
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 21 - Parasitic Array and Log Periodic Antenna
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 22 - Analysis Procedures of Aperture Antennas
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 23 - Analysis Procedures of Aperture Antenna (Continued...)
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 24 - Horn Antenna
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 25 - Horn Antenna (Continued...)
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 26 - Reflector Antennas
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 27 - Paraboloid Reflector Antenna (Continued...)
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 28 - Paraboloid Reflector Antenna (Continued...)
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 29 - Dual Reflector Antenna
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 30 - Generalised Analysis of Antenna
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 31 - Solution of Wave Equation for Electric and Magnetic Current Densities
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 32 - Farfield Evaluation of Spherical Wave Radiation by Generalised Antenna
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 33 - Slot Antenna
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 34 - Open Ended Waveguide Antenna and Microstrip Antenna
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 35 - Numerical Evaluation of Wire Antenna Currents
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 36 - Solution of Intregral Equation by Moment Method
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 37 - Array Pattern Synthesis
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 38 - Array Pattern Synthesis (Continued...)
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 39 - Ultra Wideband Antennas
Link NOC:Analysis and Design Principles of Microwave Antennas Lecture 40 - Antenna Measurements
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 1 - Introduction to VLSI Design Flow
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 2 - Introduction to VLSI Design Flow
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 3 - Introduction to VLSI Design Flow
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 4 - Algorithm to Efficient Architecture Mapping
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 5 - Algorithm to Efficient Architecture Mapping (Continued...)
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 6 - Algorithm to Efficient Architecture Mapping (Continued...)
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 7 - Tutorial on Algorithm to Efficient Architecture Mapping
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 8 - Algorithm to Efficient Architecture Mapping (Continued...)
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 9 - Algorithm to Efficient Architecture Mapping (Continued...)
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 10 - Algorithm to Efficient Architecture Mapping (Continued...)
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 11 - Algorithm to Efficient Architecture Mapping (Continued...)
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 12 - Algorithm to Efficient Architecture Mapping (Continued...)
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 13 - Algorithm to Efficient Architecture Mapping
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 14 - Algorithm to Efficient Architecture Mapping (Continued...)
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 15 - Efficient Adder Architecture
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 16 - Efficient Adder Architecture (Continued...)
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 17 - Efficient Adder Architecture (Continued...)
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 18 - Efficient Adder Architecture
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 19 - Efficient Adder Architecture
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 20 - Efficient Adder Architecture
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 21 - Efficient Adder Architecture
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 22 - Efficient Adder Architecture
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 23 - Efficient Adder Architecture
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 24 - Efficient Adder Architecture
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 25 - Pipelining and Parallel Processing
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 26 - Pipelining and Parallel Processing
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 27 - Multiplier Architecture
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 28 - Multiplier Architecture
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 29 - Multiplier Architecture
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 30 - Multiplier Architecture
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 31 - Multiplier Architecture
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 32 - Multiplier Architecture
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 33 - Multiplier Architecture
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 34 - Multiplier Architecture
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 35 - Squaring Circuit Design
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 36 - Reconfigurable Constant Multiplier Design
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 37 - Reconfigurable Constant Multiplier Design
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 38 - Reconfigurable Constant Multiplier Design
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 39 - Fixed Point Number Representation
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 40 - Fixed Point Number Representation
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 41 - CORDIC Architecture
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 42 - CORDIC Architecture
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 43 - CORDIC Architecture
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 44 - CORDIC Architecture
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 45 - Timing Analysis
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 46 - Timing Analysis
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 47 - Timing Analysis
Link NOC:Architectural Design of Digital Integrated Circuits Lecture 48 - Logic Hazard
Link NOC:Electrical Machines-II Lecture 1 - Inductance, Self and Mutual
Link NOC:Electrical Machines-II Lecture 2 - Relationship of Inductances in Transformer
Link NOC:Electrical Machines-II Lecture 3 - Equivalent Circuit from Circuit KVL Equations
Link NOC:Electrical Machines-II Lecture 4 - Co-efficient of Coupling , Energy Stored in Coupled Coils
Link NOC:Electrical Machines-II Lecture 5 - A Single Conductor Generator and Motor
Link NOC:Electrical Machines-II Lecture 6 - Analysis of Single Conductor Generator and Motor
Link NOC:Electrical Machines-II Lecture 7 - Analysis of Single Conductor Generator and Motor (Continued...)
Link NOC:Electrical Machines-II Lecture 8 - Flux Density Distribution in Space and Nature emf
Link NOC:Electrical Machines-II Lecture 9 - Flux Density Distribution in Space and Nature emf (Continued...)
Link NOC:Electrical Machines-II Lecture 10 - From Linear to Rotating Machine
Link NOC:Electrical Machines-II Lecture 11 - From Linear to Rotating Machine (Continued...)
Link NOC:Electrical Machines-II Lecture 12 - Basic Underlying Principle of Operation of Rotating Machine
Link NOC:Electrical Machines-II Lecture 13 - Basic Underlying Principle of Operation of Rotating Machine (Continued...)
Link NOC:Electrical Machines-II Lecture 14 - Flux Density Distribution along the Air Gap
Link NOC:Electrical Machines-II Lecture 15 - Flux Density Distribution along the Air Gap (Continued...)
Link NOC:Electrical Machines-II Lecture 16 - Induced Voltage in a Coil in a Rotating Machine
Link NOC:Electrical Machines-II Lecture 17 - Induced Voltage in a Coil in a Rotating Machine (Continued...)
Link NOC:Electrical Machines-II Lecture 18 - Induced Voltage in a Coil in a Rotating Machine (Continued...)
Link NOC:Electrical Machines-II Lecture 19 - Induced Voltage due to Fundamental and Harmonic Components of Flux Density Distribution
Link NOC:Electrical Machines-II Lecture 20 - Distributed Coils Connected in Series Resultant Voltage
Link NOC:Electrical Machines-II Lecture 21 - Distribution Factor
Link NOC:Electrical Machines-II Lecture 22 - Pitch Factor and Winding Factor
Link NOC:Electrical Machines-II Lecture 23 - How to decide about Short Pitch Angle ϵ
Link NOC:Electrical Machines-II Lecture 24 - Double Layer 3-phase Winding - An Introduction
Link NOC:Electrical Machines-II Lecture 25 - Winding Table for 3-phase Distributed Winding
Link NOC:Electrical Machines-II Lecture 26 - Winding Table for 3-phase Distributed Winding with Examples
Link NOC:Electrical Machines-II Lecture 27 - Winding Table for 3-phase Distributed Winding with Examples (Continued...)
Link NOC:Electrical Machines-II Lecture 28 - 120 degree Phase Spread Winding with Examples
Link NOC:Electrical Machines-II Lecture 29 - Winding Table of 120 degree Phase Spread Coils and Group Connection
Link NOC:Electrical Machines-II Lecture 30 - Introduction to Rotating Magnetic Field
Link NOC:Electrical Machines-II Lecture 31 - Rotating Magnetic Field (Continued...), Mechanical and Electrical Speed
Link NOC:Electrical Machines-II Lecture 32 - Speed and Direction of Rotating Field
Link NOC:Electrical Machines-II Lecture 33 - Synchronous Speed and How to Calculate Induced Voltage in a Coil
Link NOC:Electrical Machines-II Lecture 34 - Introduction to Induction Motor
Link NOC:Electrical Machines-II Lecture 35 - Introduction to Induction Motor (Continued...)
Link NOC:Electrical Machines-II Lecture 36 - General Expression of Torque in Terms of Stator and Rotor Fields
Link NOC:Electrical Machines-II Lecture 37 - Torque Angle and Torque Expression
Link NOC:Electrical Machines-II Lecture 38 - How to Fix Up Positions of Net Field, Rotor Field and Stator Field
Link NOC:Electrical Machines-II Lecture 39 - Slip: Its Importance and Range for Motor Operation
Link NOC:Electrical Machines-II Lecture 40 - Equivalent Circuit of 3-Phase Induction Motor
Link NOC:Electrical Machines-II Lecture 41 - Equivalent Circuit of 3-Phase Induction Motor (Continued...)
Link NOC:Electrical Machines-II Lecture 42 - Equivalent Circuit of 3-Phase Induction Motor (Continued...)
Link NOC:Electrical Machines-II Lecture 43 - Expression for Electromagnetic Torque in terms of Equivalent Circuit Parameters
Link NOC:Electrical Machines-II Lecture 44 - Maximum Electromagnetic Torque and Slip at Which it Occurs
Link NOC:Electrical Machines-II Lecture 45 - Typical Torque Slip Characteristic and Operating Point
Link NOC:Electrical Machines-II Lecture 46 - Change in Torque-slip Characteristic as Supply Voltage and Rotor Resistance are Varied
Link NOC:Electrical Machines-II Lecture 47 - Types of Induction Motor - Slip Ring Type
Link NOC:Electrical Machines-II Lecture 48 - Introduction to Cage Induction Motor
Link NOC:Electrical Machines-II Lecture 49 - Cage Motor Can Operate for Different Stator Poles
Link NOC:Electrical Machines-II Lecture 50 - Core Loss in Induction Motor and Simplified Equivalent Circuit
Link NOC:Electrical Machines-II Lecture 51 - Torque Expression from Simplified Equivalent Circuit and Introduction to Circle Diagram
Link NOC:Electrical Machines-II Lecture 52 - Circle Diagram (Continued...)
Link NOC:Electrical Machines-II Lecture 53 - Exact Power Flow Diagram and Circle Diagram
Link NOC:Electrical Machines-II Lecture 54 - Circle Diagram (Continued...)
Link NOC:Electrical Machines-II Lecture 55 - Circle Diagram: Slip Line
Link NOC:Electrical Machines-II Lecture 56 - Circle Diagram from Test Data
Link NOC:Electrical Machines-II Lecture 57 - Starting of 3 Phase Induction Motor - Introduction
Link NOC:Electrical Machines-II Lecture 58 - DOL and Reactor Starting
Link NOC:Electrical Machines-II Lecture 59 - DOL and Auto Transformer Starting
Link NOC:Electrical Machines-II Lecture 60 - Introduction to Speed Control
Link NOC:Electrical Machines-II Lecture 61 - Idea of VVVF Speed Control of Induction Motor
Link NOC:Electrical Machines-II Lecture 62 - Speed Contro Using Two Motors
Link NOC:Electrical Machines-II Lecture 63 - Electrical Braking of 3 Phase Induction Motor
Link NOC:Electrical Machines-II Lecture 64 - Braking (Continued...)
Link NOC:Electrical Machines-II Lecture 65 - Introduction to Single Phase Induction Motor - Sequence Currents
Link NOC:Electrical Machines-II Lecture 66 - Development of Equivalent Circuit
Link NOC:Electrical Machines-II Lecture 67 - Development of Equivalent Circuit (Continued...)
Link NOC:Electrical Machines-II Lecture 68 - Torque-slip Ch. of 1 ph. I-M Running on Single Winding
Link NOC:Electrical Machines-II Lecture 69 - Introduction to Starting of 1ph. Induction Motor
Link NOC:Electrical Machines-II Lecture 70 - Expression for Starting Torque and Need for Phase Splitting
Link NOC:Electrical Machines-II Lecture 71 - Resistor Split 1 ph. Induction Motor
Link NOC:Electrical Machines-II Lecture 72 - Capacitor Split 1 ph Induction Motor
Link NOC:Electrical Machines-II Lecture 73 - Starting of 1 ph. Induction Motor (Continued...)
Link NOC:Electrical Machines-II Lecture 74 - Synchronous Machine Construction
Link NOC:Electrical Machines-II Lecture 75 - Synchronous Generator - Introduction
Link NOC:Electrical Machines-II Lecture 76 - Synchronisation
Link NOC:Electrical Machines-II Lecture 77 - Expression for Induced Voltage and O.C. Phasor Diagram
Link NOC:Electrical Machines-II Lecture 78 - Loaded Synchronous Generator - Resultant Field
Link NOC:Electrical Machines-II Lecture 79 - Armature Reaction and Synchronous Reactance. Basic Phasor Diagram
Link NOC:Electrical Machines-II Lecture 80 - General Mode of Operation - Rotro Field, Stator Field and Resultant Field
Link NOC:Electrical Machines-II Lecture 81 - Complete Phasor Diagram and Expression for Complex Power
Link NOC:Electrical Machines-II Lecture 82 - Synchronous Motor Operation, Phasor Diagram and Power Expression
Link NOC:Electrical Machines-II Lecture 83 - Effect of Variation of Field Current in Generator
Link NOC:Electrical Machines-II Lecture 84 - Effect of Variation Field Current in Synchronous Motor, Introduction to Salient Pole Machine
Link NOC:Electrical Machines-II Lecture 85 - Analysis of Salient Pole Synchronous Machine
Link NOC:Electrical Machines-II Lecture 86 - Phasor Diagram of Salient Pole Synchronous Machine for Generator and Motor Mode
Link NOC:Electrical Machines-II Lecture 87 - Expression for Load Angle and Expression for Power
Link NOC:Electrical Machines-II Lecture 88 - Phasor Diagrams of Salient Pole Synchronous Generator under Various Conditions
Link NOC:Electrical Machines-II Lecture 89 - Phasor Diagrams of Salient Pole Synchronous Motor under Various Conditions
Link NOC:Electrical Machines-II Lecture 90 - O.C and S.C Test on Synchronous Generator
Link NOC:Digital Electronic Circuits Lecture 1 - Introduction
Link NOC:Digital Electronic Circuits Lecture 2 - Transistor as a switch
Link NOC:Digital Electronic Circuits Lecture 3 - Performance Issues and Introduction to TTL
Link NOC:Digital Electronic Circuits Lecture 4 - Transistor Transistor Logic (TTL)
Link NOC:Digital Electronic Circuits Lecture 5 - CMOS Logic
Link NOC:Digital Electronic Circuits Lecture 6 - Basic Gates and their representations
Link NOC:Digital Electronic Circuits Lecture 7 - Fundamentals of Boolean Algebra
Link NOC:Digital Electronic Circuits Lecture 8 - Boolean Function to Truth Table and Implementaion Issues
Link NOC:Digital Electronic Circuits Lecture 9 - Truth Table to Boolean Function and Implementaion Issues
Link NOC:Digital Electronic Circuits Lecture 10 - Karnugh Map and Digital Circuit Realization
Link NOC:Digital Electronic Circuits Lecture 11 - Karnaugh Map to Entered Variable Map
Link NOC:Digital Electronic Circuits Lecture 12 - Quine - McClusky (QM) Algorithm
Link NOC:Digital Electronic Circuits Lecture 13 - Cost Criteria and Minimization of Multiple Output Functions
Link NOC:Digital Electronic Circuits Lecture 14 - Static 1 Hazard
Link NOC:Digital Electronic Circuits Lecture 15 - Static 0 Hazard and Dynamic Hazard
Link NOC:Digital Electronic Circuits Lecture 16 - Multiplexer: Part I
Link NOC:Digital Electronic Circuits Lecture 17 - Multiplexer: Part II
Link NOC:Digital Electronic Circuits Lecture 18 - Demultiplexer / Decoder
Link NOC:Digital Electronic Circuits Lecture 19 - Decoder with BCD Input and Encoder
Link NOC:Digital Electronic Circuits Lecture 20 - Parity Generator and Checker
Link NOC:Digital Electronic Circuits Lecture 21 - Number System
Link NOC:Digital Electronic Circuits Lecture 22 - Negative Number and 2s Complement Arithmetic
Link NOC:Digital Electronic Circuits Lecture 23 - Arithmetic Building Blocks - I
Link NOC:Digital Electronic Circuits Lecture 24 - Arithmetic Building Blocks - II
Link NOC:Digital Electronic Circuits Lecture 25 - Overflow Detection and BCD Arithmetic
Link NOC:Digital Electronic Circuits Lecture 26 - Magnitude Comparator
Link NOC:Digital Electronic Circuits Lecture 27 - Arithmetic Logic Unit (ALU)
Link NOC:Digital Electronic Circuits Lecture 28 - Unweighted Code
Link NOC:Digital Electronic Circuits Lecture 29 - Error Detection and Correction Code
Link NOC:Digital Electronic Circuits Lecture 30 - Multiplication and Division
Link NOC:Digital Electronic Circuits Lecture 31 - SR Latch and Introduction to Clocked Flip-Flop
Link NOC:Digital Electronic Circuits Lecture 32 - Edge-Triggered Flip-Flop
Link NOC:Digital Electronic Circuits Lecture 33 - Representations of Flip-Flops
Link NOC:Digital Electronic Circuits Lecture 34 - Analysis of Sequential Logic Circuit
Link NOC:Digital Electronic Circuits Lecture 35 - Conversion of Flip-Flops and Flip-Flop Timing Parameters
Link NOC:Digital Electronic Circuits Lecture 36 - Register and Shift Register: PIPO and SISO
Link NOC:Digital Electronic Circuits Lecture 37 - Shift Register: SIPO, PISO and Universal Shift Register
Link NOC:Digital Electronic Circuits Lecture 38 - Application of Shift Register
Link NOC:Digital Electronic Circuits Lecture 39 - Linear Feedback Shift Register
Link NOC:Digital Electronic Circuits Lecture 40 - Serial Addition, Multiplication and Division
Link NOC:Digital Electronic Circuits Lecture 41 - Asynchronous Counter
Link NOC:Digital Electronic Circuits Lecture 42 - Decoding Logic and Synchronous Counter
Link NOC:Digital Electronic Circuits Lecture 43 - Cascading: Mod 2, 3, 5 to Mod 6, 10, 1000 Counter
Link NOC:Digital Electronic Circuits Lecture 44 - Counter Design with Asynchronous Reset and Preset
Link NOC:Digital Electronic Circuits Lecture 45 - Counter Design as Synthesis Problem and Few Other Uses of Counter
Link NOC:Digital Electronic Circuits Lecture 46 - Synthesis of Sequential Logic Circuit: Moore Model and Mealy Model
Link NOC:Digital Electronic Circuits Lecture 47 - Moore Model and Mealy Model: Realization of Digital Logic Circuit
Link NOC:Digital Electronic Circuits Lecture 48 - Algorithmic State Machine (ASM) Chart and Synthesis of Sequential Logic Circuit
Link NOC:Digital Electronic Circuits Lecture 49 - Circuit Realization from ASM Chart and State Minimization
Link NOC:Digital Electronic Circuits Lecture 50 - State Minimization by Implication Table and Partitioning Method
Link NOC:Digital Electronic Circuits Lecture 51 - Digital to Analog Conversion - I
Link NOC:Digital Electronic Circuits Lecture 52 - Digital to Analog Conversion - II
Link NOC:Digital Electronic Circuits Lecture 53 - Analog to Digital Conversion - I
Link NOC:Digital Electronic Circuits Lecture 54 - Analog to Digital Conversion - II
Link NOC:Digital Electronic Circuits Lecture 55 - Certain Performance Issue of ADC and DAC
Link NOC:Digital Electronic Circuits Lecture 56 - Introduction to Memory
Link NOC:Digital Electronic Circuits Lecture 57 - Static Random Access Memory (SRAM)
Link NOC:Digital Electronic Circuits Lecture 58 - Dynamic RAM (DRAM) and Memory Expansion
Link NOC:Digital Electronic Circuits Lecture 59 - Read Only Memory (ROM)
Link NOC:Digital Electronic Circuits Lecture 60 - PAL, PLA, CPLD, FPGA
Link NOC:Power System Dynamics, Control and Monitoring Lecture 1 - Power System stability
Link NOC:Power System Dynamics, Control and Monitoring Lecture 2 - Power System stability (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 3 - Power System stability (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 4 - Power System stability (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 5 - Power System stability (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 6 - Power System Stability (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 7 - Power System Stability (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 8 - Power System Stability (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 9 - Power System Stability (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 10 - Power System Stability (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 11 - Power System Stability (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 12 - Power System Stability (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 13 - Power System Stability (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 14 - Power System Stability (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 15 - Power System Stability (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 16 - Power System Stability (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 17 - Power System Stability (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 18 - Power System Stability (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 19 - Power System Stability (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 20 - Power System Stability (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 21 - Power System stability (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 22 - Power System stability, Eigen properties of the state matrix
Link NOC:Power System Dynamics, Control and Monitoring Lecture 23 - Power System stability, Eigen properties of the state matrix (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 24 - Power System stability, Eigen properties of the state matrix (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 25 - Power System stability, Eigen properties of the state matrix (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 26 - Power System stability, Eigen properties of the state matrix (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 27 - Power System stability, Eigen properties of the state matrix, Transient stability
Link NOC:Power System Dynamics, Control and Monitoring Lecture 28 - Transient stability
Link NOC:Power System Dynamics, Control and Monitoring Lecture 29 - Transient stability (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 30 - Transient stability (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 31 - Transient stability
Link NOC:Power System Dynamics, Control and Monitoring Lecture 32 - Transient stability, Automatic generation control conventional scenario
Link NOC:Power System Dynamics, Control and Monitoring Lecture 33 - Automatic generation control conventional scenario
Link NOC:Power System Dynamics, Control and Monitoring Lecture 34 - Automatic generation control conventional scenario
Link NOC:Power System Dynamics, Control and Monitoring Lecture 35 - Automatic generation control conventional scenario
Link NOC:Power System Dynamics, Control and Monitoring Lecture 36 - Automatic generation control conventional scenario
Link NOC:Power System Dynamics, Control and Monitoring Lecture 37 - Automatic generation control conventional scenario
Link NOC:Power System Dynamics, Control and Monitoring Lecture 38 - Automatic generation control conventional scenario
Link NOC:Power System Dynamics, Control and Monitoring Lecture 39 - Automatic generation control conventional scenario
Link NOC:Power System Dynamics, Control and Monitoring Lecture 40 - Automatic generation control conventional scenario
Link NOC:Power System Dynamics, Control and Monitoring Lecture 41 - AGC in deregulated system
Link NOC:Power System Dynamics, Control and Monitoring Lecture 42 - AGC in deregulated system (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 43 - AGC in deregulated system (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 44 - AGC in deregulated system (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 45 - AGC in deregulated system (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 46 - AGC in deregulated system (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 47 - AGC in deregulated system (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 48 - AGC in deregulated system (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 49 - AGC in deregulated system, Reactive power and voltage control
Link NOC:Power System Dynamics, Control and Monitoring Lecture 50 - Reactive power and voltage control
Link NOC:Power System Dynamics, Control and Monitoring Lecture 51 - Reactive power and voltage control, State extimation in power system
Link NOC:Power System Dynamics, Control and Monitoring Lecture 52 - State estimation in power system
Link NOC:Power System Dynamics, Control and Monitoring Lecture 53 - State estimation in power system (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 54 - State estimation in power system (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 55 - State estimation in power system (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 56 - State estimation in power system (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 57 - Hydraulic turbine modelling
Link NOC:Power System Dynamics, Control and Monitoring Lecture 58 - Hydraulic turbine modelling (Continued...)
Link NOC:Power System Dynamics, Control and Monitoring Lecture 59 - Subsynchronous oscillation
Link NOC:Power System Dynamics, Control and Monitoring Lecture 60 - Subsynchronous oscillation, Windup and non windup limits
Link NOC:Evolution of Air Interface towards 5G Lecture 1 - Evolution of wireless Communication
Link NOC:Evolution of Air Interface towards 5G Lecture 2 - Evolution of wireless Communication Standards From 2G to 5G
Link NOC:Evolution of Air Interface towards 5G Lecture 3 - Evolution of wireless Communication Standards From 2G to 5G (Continued...)
Link NOC:Evolution of Air Interface towards 5G Lecture 4 - Evolution of wireless Communication Standards From 2G to 5G (Continued...)
Link NOC:Evolution of Air Interface towards 5G Lecture 5 - Evolution of wireless Communication Standards From 2G to 5G (Continued...)
Link NOC:Evolution of Air Interface towards 5G Lecture 6 - Requirements and operating scenarios of 5G
Link NOC:Evolution of Air Interface towards 5G Lecture 7 - Requirements and operating scenarios of 5G (Continued....)
Link NOC:Evolution of Air Interface towards 5G Lecture 8 - 5G scenarios
Link NOC:Evolution of Air Interface towards 5G Lecture 9 - Ultra reliable low latency communication
Link NOC:Evolution of Air Interface towards 5G Lecture 10 - Designing 5G new radio
Link NOC:Evolution of Air Interface towards 5G Lecture 11 - Fundamental Framework for waveform analysis
Link NOC:Evolution of Air Interface towards 5G Lecture 12 - Fundamental Framework for waveform analysis (Continued...)
Link NOC:Evolution of Air Interface towards 5G Lecture 13 - Waveform Design Aspects of 2G
Link NOC:Evolution of Air Interface towards 5G Lecture 14 - Waveforms in 3G
Link NOC:Evolution of Air Interface towards 5G Lecture 15 - Waveforms in 3G (Continued...)
Link NOC:Evolution of Air Interface towards 5G Lecture 16 - Waveform in 4G and 5G (OFDM)
Link NOC:Evolution of Air Interface towards 5G Lecture 17 - Waveform in 4G and 5G (OFDM) (Continued...)
Link NOC:Evolution of Air Interface towards 5G Lecture 18 - Waveform in 4G and 5G (OFDM) (Continued...)
Link NOC:Evolution of Air Interface towards 5G Lecture 19 - Waveform in 4G and 5G (OFDMA)
Link NOC:Evolution of Air Interface towards 5G Lecture 20 - Waveform in 4G and 5G (OFDMA, SCFDMA, SCFDE)
Link NOC:Evolution of Air Interface towards 5G Lecture 21 - Waveform in 4G and 5G (SCFDMA Continued...)
Link NOC:Evolution of Air Interface towards 5G Lecture 22 - Waveform in 5G
Link NOC:Evolution of Air Interface towards 5G Lecture 23 - Waveform in 5G Numerology
Link NOC:Evolution of Air Interface towards 5G Lecture 24 - Frame Structure in 5G NR
Link NOC:Evolution of Air Interface towards 5G Lecture 25 - Numerology in 5G and adaptive subcarrier bandwidth
Link NOC:Evolution of Air Interface towards 5G Lecture 26 - Numerology in 5G (Continued...)
Link NOC:Evolution of Air Interface towards 5G Lecture 27 - Waveforms beyond 5G
Link NOC:Evolution of Air Interface towards 5G Lecture 28 - Waveforms beyond 5G (Continued...)
Link NOC:Evolution of Air Interface towards 5G Lecture 29 - Waveforms beyond 5G (Continued...)
Link NOC:Evolution of Air Interface towards 5G Lecture 30 - Waveforms beyond 5G (Continued...)
Link NOC:Evolution of Air Interface towards 5G Lecture 31 - Waveform beyond 5G (Precoded GFDM)
Link NOC:Evolution of Air Interface towards 5G Lecture 32 - Comparison of waveforms
Link NOC:Evolution of Air Interface towards 5G Lecture 33 - Channel models for performance evaluation - Part I
Link NOC:Evolution of Air Interface towards 5G Lecture 34 - Channel models for performance evaluation - Part II
Link NOC:Evolution of Air Interface towards 5G Lecture 35 - Channel models for performance evaluation - Part III
Link NOC:Evolution of Air Interface towards 5G Lecture 36 - MIMO Signal Processing (Receive Diversity)
Link NOC:Evolution of Air Interface towards 5G Lecture 37 - MIMO Signal Processing
Link NOC:Evolution of Air Interface towards 5G Lecture 38 - MIMO Signal Processing (Capacity)
Link NOC:Evolution of Air Interface towards 5G Lecture 39 - MIMO Signal Processing (Capacity and Massive MIMO)
Link NOC:Evolution of Air Interface towards 5G Lecture 40 - Hybrid beamforming (mmWave)
Link NOC:Electrical Measurement and Electronic Instruments Lecture 1 - PMMC Instruments
Link NOC:Electrical Measurement and Electronic Instruments Lecture 2 - Electrodynamic Instrument
Link NOC:Electrical Measurement and Electronic Instruments Lecture 3 - Demonstration of PMMC and Electrodynamic Instruments
Link NOC:Electrical Measurement and Electronic Instruments Lecture 4 - Features of PMMC and Electrodynamic Instruments
Link NOC:Electrical Measurement and Electronic Instruments Lecture 5 - Moving Iron Instruments
Link NOC:Electrical Measurement and Electronic Instruments Lecture 6 - Demonstration of Moving Iron Instrument
Link NOC:Electrical Measurement and Electronic Instruments Lecture 7 - Electrostatic Instrument
Link NOC:Electrical Measurement and Electronic Instruments Lecture 8 - Derivation of Deflecting Torque in Electrodynamic, Electrostatic and Moving Iron Instrument
Link NOC:Electrical Measurement and Electronic Instruments Lecture 9 - Damping and Eddy Current Damping
Link NOC:Electrical Measurement and Electronic Instruments Lecture 10 - Dynamics of the Moving Coil and Damping
Link NOC:Electrical Measurement and Electronic Instruments Lecture 11 - Dynamics of the Moving Coil and Damping (Continued...)
Link NOC:Electrical Measurement and Electronic Instruments Lecture 12 - Ballistic Galvanometer
Link NOC:Electrical Measurement and Electronic Instruments Lecture 13 - Ammeter - I
Link NOC:Electrical Measurement and Electronic Instruments Lecture 14 - Ammeter - II
Link NOC:Electrical Measurement and Electronic Instruments Lecture 15 - Voltmeter
Link NOC:Electrical Measurement and Electronic Instruments Lecture 16 - Ohmmeters - I
Link NOC:Electrical Measurement and Electronic Instruments Lecture 17 - Ohmmeters - II
Link NOC:Electrical Measurement and Electronic Instruments Lecture 18 - Rectifier based Voltmeters and Ammeter - I
Link NOC:Electrical Measurement and Electronic Instruments Lecture 19 - Rectifier based Voltmetesr and Ammeter - II
Link NOC:Electrical Measurement and Electronic Instruments Lecture 20 - Resistance measurement with a Voltmeter and an Ammeter
Link NOC:Electrical Measurement and Electronic Instruments Lecture 21 - Four-Terminal Resistance
Link NOC:Electrical Measurement and Electronic Instruments Lecture 22 - Problems: Four Terminal Resistance
Link NOC:Electrical Measurement and Electronic Instruments Lecture 23 - Error Calculation
Link NOC:Electrical Measurement and Electronic Instruments Lecture 24 - Sensitivity, Accuracy, and Resolution of Wheatstone Bridge
Link NOC:Electrical Measurement and Electronic Instruments Lecture 25 - Kelvin Double Bridge
Link NOC:Electrical Measurement and Electronic Instruments Lecture 26 - High Resistance Measurement
Link NOC:Electrical Measurement and Electronic Instruments Lecture 27 - Wattmeter Connection and Compensated Wattmeter
Link NOC:Electrical Measurement and Electronic Instruments Lecture 28 - Single Phase Energy Meter
Link NOC:Electrical Measurement and Electronic Instruments Lecture 29 - Demonstration: 1. Eddy Current Braking 2.Creation of Magnetic Field Without Moving Objects
Link NOC:Electrical Measurement and Electronic Instruments Lecture 30 - Single Phase Energy Meter (Continued...)
Link NOC:Electrical Measurement and Electronic Instruments Lecture 31 - Connection of Energy Meter, Wattmeter, and Three Phase Supply
Link NOC:Electrical Measurement and Electronic Instruments Lecture 32 - DC Potentiometer
Link NOC:Electrical Measurement and Electronic Instruments Lecture 33 - AC Potentiometer
Link NOC:Electrical Measurement and Electronic Instruments Lecture 34 - Polar potentiometer and phase shifter
Link NOC:Electrical Measurement and Electronic Instruments Lecture 35 - Polar potentiometer
Link NOC:Electrical Measurement and Electronic Instruments Lecture 36 - Co-ordinate potentiometer
Link NOC:Electrical Measurement and Electronic Instruments Lecture 37 - Kelvin-Varley potential divider
Link NOC:Electrical Measurement and Electronic Instruments Lecture 38 - Impedance measurement
Link NOC:Electrical Measurement and Electronic Instruments Lecture 39 - AC bridges - I
Link NOC:Electrical Measurement and Electronic Instruments Lecture 40 - AC bridges - II
Link NOC:Electrical Measurement and Electronic Instruments Lecture 41 - AC bridges - III
Link NOC:Electrical Measurement and Electronic Instruments Lecture 42 - Current transformer and potential transformer
Link NOC:Electrical Measurement and Electronic Instruments Lecture 43 - Review of transformer and magnetic circuit
Link NOC:Electrical Measurement and Electronic Instruments Lecture 44 - Errrors in Instrument ransformer
Link NOC:Electrical Measurement and Electronic Instruments Lecture 45 - Flux density measurement with Ballistic Galvanometer
Link NOC:Electrical Measurement and Electronic Instruments Lecture 46 - Flux density measurement with Ballistic Galvanometer (Continued...)
Link NOC:Electrical Measurement and Electronic Instruments Lecture 47 - Background: From Flip Flop to Counters - I
Link NOC:Electrical Measurement and Electronic Instruments Lecture 48 - Background: From Flip Flop to Counters - II
Link NOC:Electrical Measurement and Electronic Instruments Lecture 49 - Background: Operational Amplifiers - I
Link NOC:Electrical Measurement and Electronic Instruments Lecture 50 - Background: Operational Amplifiers - II
Link NOC:Electrical Measurement and Electronic Instruments Lecture 51 - Background: Operational Amplifiers - III
Link NOC:Electrical Measurement and Electronic Instruments Lecture 52 - Background: Operational Amplifiers - IV
Link NOC:Electrical Measurement and Electronic Instruments Lecture 53 - Inverting amplifier versus Schmitt Trigger
Link NOC:Electrical Measurement and Electronic Instruments Lecture 54 - Non-inverting amplifier versus Schmitt Trigger
Link NOC:Electrical Measurement and Electronic Instruments Lecture 55 - Difference amplifier - I
Link NOC:Electrical Measurement and Electronic Instruments Lecture 56 - Difference amplifier - II
Link NOC:Electrical Measurement and Electronic Instruments Lecture 57 - Difference amplifier - III
Link NOC:Electrical Measurement and Electronic Instruments Lecture 58 - Digital frequency meter
Link NOC:Electrical Measurement and Electronic Instruments Lecture 59 - Digital frequency meter and Schmitt Trigger
Link NOC:Electrical Measurement and Electronic Instruments Lecture 60 - Schmitt Trigger
Link NOC:Electrical Measurement and Electronic Instruments Lecture 61 - Schmitt Trigger
Link NOC:Electrical Measurement and Electronic Instruments Lecture 62 - Digital frequency meter
Link NOC:Electrical Measurement and Electronic Instruments Lecture 63 - Linear ramp type digital voltmeter
Link NOC:Electrical Measurement and Electronic Instruments Lecture 64 - Dual slope digital voltmeter - I
Link NOC:Electrical Measurement and Electronic Instruments Lecture 65 - Dual slope digital voltmeter - II
Link NOC:Electrical Measurement and Electronic Instruments Lecture 66 - Dual slope digital voltmeter and Integrator circuit
Link NOC:Electrical Measurement and Electronic Instruments Lecture 67 - Digital ramp type voltmeter
Link NOC:Electrical Measurement and Electronic Instruments Lecture 68 - Digital ramp type voltmeter and Successive approximation type voltmeter
Link NOC:Electrical Measurement and Electronic Instruments Lecture 69 - ADC and DAC - I
Link NOC:Electrical Measurement and Electronic Instruments Lecture 70 - ADC and DAC - II
Link NOC:Electrical Measurement and Electronic Instruments Lecture 71 - Why we need electronic Instruments
Link NOC:Electrical Measurement and Electronic Instruments Lecture 72 - Instruments with op-amp based amplifiers - I
Link NOC:Electrical Measurement and Electronic Instruments Lecture 73 - Instruments with op-amp based amplifiers - II
Link NOC:Electrical Measurement and Electronic Instruments Lecture 74 - Instruments with op-amp based amplifiers - III
Link NOC:Electrical Measurement and Electronic Instruments Lecture 75 - Instrumentation Amplifier
Link NOC:Electrical Measurement and Electronic Instruments Lecture 76 - Function generator
Link NOC:Electrical Measurement and Electronic Instruments Lecture 77 - 555-Timer circuit
Link NOC:Electrical Measurement and Electronic Instruments Lecture 78 - Astable and monostable oscillator circuits
Link NOC:Electrical Measurement and Electronic Instruments Lecture 79 - Pulse generator
Link NOC:Electrical Measurement and Electronic Instruments Lecture 80 - Oscilloscope - I
Link NOC:Electrical Measurement and Electronic Instruments Lecture 81 - Oscilloscope - II
Link NOC:Electrical Measurement and Electronic Instruments Lecture 82 - Emitter follower voltmeter
Link NOC:Electrical Measurement and Electronic Instruments Lecture 83 - Linear ohmmeter
Link NOC:Electrical Measurement and Electronic Instruments Lecture 84 - Ramp generator
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 1 - Historical Development and Application
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 2 - Radar Bands and System Modeling
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 3 - Radar Equation
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 4 - Some Basic Concepts of Pulsed Radar
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 5 - Some Basic Concepts of Pulsed Radar (Continued...)
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 6 - Some Basic Concepts of Pulsed Radar (Continued...)
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 7 - Some Basic Concepts of Pulsed Radar (Continued...)
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 8 - Tutorial Problems on Basic Concepts of Radar - Part I
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 9 - Tutorial Problems on Basic Concepts of Radar - Part II
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 10 - CW Radar
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 11 - CW Radar Mathematical Model and Applications
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 12 - FM-CW Radar
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 13 - Double Frequency CW Radar
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 14 - Pulsed Radar
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 15 - MTI Filter
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 16 - Clutter and Single DLC
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 17 - Double DLC and Recursive MTI Filter
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 18 - Multiple prf MTI Radar
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 19 - Multiple prf MTI Radar and Clutter Attenuation
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 20 - MTI Improvement Factor
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 21 - Tutorial Problems on CW and Pulsed Radar - Part I
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 22 - Tutorial Problems on CW and Pulsed Radar - Part II
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 23 - Pulsed Doppler Radar
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 24 - Pulsed Doppler Radar (Continued...) and Search Radar
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 25 - Tracking Radar
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 26 - Tracking Radar (Continued...)
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 27 - Tracking Radar (Continued...)
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 28 - Tracking Radar (Continued...)
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 29 - Tracking Radar (Continued...)
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 30 - Tracking Radar (Continued...)
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 31 - Tracking Radar (Continued...)
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 32 - Tutorial Problems on Search and Tracking Radar
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 33 - Detection in Radar Receiver
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 34 - Detection in Radar Receiver (Continued...)
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 35 - Detection in Radar Receiver (Continued...)
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 36 - Detection in Radar Receiver (Continued...)
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 37 - Detection in Radar Receiver (Continued...)
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 38 - Detection in Radar Receiver (Continued...)
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 39 - Detection in Radar Receiver (Continued...)
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 40 - Detection in Radar Receiver (Continued...)
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 41 - Detection in Radar Receiver (Continued...)
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 42 - Detection in Radar Receiver (Continued...)
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 43 - Detection in Radar Receiver (Continued...)
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 44 - Detection in Radar Receiver (Continued...)
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 45 - Detection in Radar Receiver (Continued...)
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 46 - Detection in Radar Receiver (Continued...)
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 47 - Tutorial Problems on Detection in Radar Receiver
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 48 - SAR Processing
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 49 - SAR Processing (Continued...)
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 50 - SAR Processing (Continued...)
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 51 - SAR Processor
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 52 - Tutorial
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 53 - Statistical Detection Theory: Introduction
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 54 - Statistical Detection Theory (Continued...)
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 55 - Statistical Detection Theory (Continued...)
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 56 - Statistical Detection Theory (Continued...)
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 57 - Statistical Detection Theory (Continued...)
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 58 - Tutorial
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 59 - Ground Penetrating Radar
Link NOC:Principles and Techniques of Modern Radar Systems Lecture 60 - GPR Measurements and Microwave Tomography
Link NOC:Electrical Machines-I Lecture 1 - Magnetic Circuit and Transformer
Link NOC:Electrical Machines-I Lecture 2 - Magnetising Current from B-H Curve
Link NOC:Electrical Machines-I Lecture 3 - Ideal Transformer, Dot Convention and Phasor Diagram
Link NOC:Electrical Machines-I Lecture 4 - Operation of Ideal Operation with Load Connected
Link NOC:Electrical Machines-I Lecture 5 - Equivalent Circuit of Ideal Transformer
Link NOC:Electrical Machines-I Lecture 6 - Rating of Single Phase Transformer: Rated Current and Rated Voltage with Example
Link NOC:Electrical Machines-I Lecture 7 - Transformer with Multiple Coils
Link NOC:Electrical Machines-I Lecture 8 - Modelling of Practical Transformer - I
Link NOC:Electrical Machines-I Lecture 9 - Modelling of Practical Transformer - II
Link NOC:Electrical Machines-I Lecture 10 - Modelling of Practical Transformer - III
Link NOC:Electrical Machines-I Lecture 11 - Core Loss - Eddy Current Loss
Link NOC:Electrical Machines-I Lecture 12 - Factors on Eddy Current Loss Depends
Link NOC:Electrical Machines-I Lecture 13 - Hysteresis Loss
Link NOC:Electrical Machines-I Lecture 14 - Exact Equivalent Circuit
Link NOC:Electrical Machines-I Lecture 15 - Approximate Equivalent Circuit
Link NOC:Electrical Machines-I Lecture 16 - Determination of Equivalent Circuit Parameters - No Load Test
Link NOC:Electrical Machines-I Lecture 17 - Short Circuit Test
Link NOC:Electrical Machines-I Lecture 18 - Choosing Sides to Carry Out O.C / S.C Test
Link NOC:Electrical Machines-I Lecture 19 - Efficiency of Transformer - Losses
Link NOC:Electrical Machines-I Lecture 20 - Efficiency (Continued...)
Link NOC:Electrical Machines-I Lecture 21 - Condition for Maximum Efficiency When Load Power Factor Constant
Link NOC:Electrical Machines-I Lecture 22 - Family of Efficiency Curve at Various Power Factor and Energy Efficiency
Link NOC:Electrical Machines-I Lecture 23 - Load Description and Energy Efficiency
Link NOC:Electrical Machines-I Lecture 24 - Regulation: its Expression
Link NOC:Electrical Machines-I Lecture 25 - Regulation: its Expression (Continued...)
Link NOC:Electrical Machines-I Lecture 26 - Auto Transformer - Introduction
Link NOC:Electrical Machines-I Lecture 27 - AutoTransformer versus Two Winding Transformer
Link NOC:Electrical Machines-I Lecture 28 - AutoTransformer versus Two Winding Transformer (Continued...)
Link NOC:Electrical Machines-I Lecture 29 - Numerical Problems on Ideal Auto Transformer
Link NOC:Electrical Machines-I Lecture 30 - Two Winding Transformer Connected as Auto Transformer
Link NOC:Electrical Machines-I Lecture 31 - Practical Auto Transformer
Link NOC:Electrical Machines-I Lecture 32 - Equivalent Circuit of an Auto Transformer
Link NOC:Electrical Machines-I Lecture 33 - Polarity Test and Sumpner Test
Link NOC:Electrical Machines-I Lecture 34 - 3 Phase Transformer Using 3 Single Phase Transformer
Link NOC:Electrical Machines-I Lecture 35 - Various Connections of 3-Phase Transformer - I
Link NOC:Electrical Machines-I Lecture 36 - Various Connections of 3-Phase Transformer - II
Link NOC:Electrical Machines-I Lecture 37 - Vector Group of 3-Phase Transformer
Link NOC:Electrical Machines-I Lecture 38 - Vector Group (Continued...)
Link NOC:Electrical Machines-I Lecture 39 - Open Delta Connection
Link NOC:Electrical Machines-I Lecture 40 - 3-Phase Cone Type and Shell Type Transformer
Link NOC:Electrical Machines-I Lecture 41 - Zig Zag Connection
Link NOC:Electrical Machines-I Lecture 42 - Effect 3rd Harmonic Exciting Current and Flux
Link NOC:Electrical Machines-I Lecture 43 - Choosing Transformer Connection
Link NOC:Electrical Machines-I Lecture 44 - Choosing Transformer Connection (Continued...)
Link NOC:Electrical Machines-I Lecture 45 - Phase Conversion using Transformer: Scott Connection
Link NOC:Electrical Machines-I Lecture 46 - Scott Connection (Continued...)
Link NOC:Electrical Machines-I Lecture 47 - 3 Phase to 6 Phase Conversion O.C / S.C Test on 3 Phase Transformer
Link NOC:Electrical Machines-I Lecture 48 - Parallel Operation of Transformers - I
Link NOC:Electrical Machines-I Lecture 49 - Parallel Operation of Transformers - II
Link NOC:Electrical Machines-I Lecture 50 - Parallel Operation of Transformers - III
Link NOC:Electrical Machines-I Lecture 51 - Specific Magnetic and Electric Loadings
Link NOC:Electrical Machines-I Lecture 52 - ooling of Transformer and Fillings of Transformer
Link NOC:Electrical Machines-I Lecture 53 - Output Equation of 3- Phase Transformer
Link NOC:Electrical Machines-I Lecture 54 - Introduction to D.C Machine
Link NOC:Electrical Machines-I Lecture 55 - Single Conductor D.C Generator / Motor Operation
Link NOC:Electrical Machines-I Lecture 56 - Homopolar D.C Generator
Link NOC:Electrical Machines-I Lecture 57 - Homopolar D.C Motor
Link NOC:Electrical Machines-I Lecture 58 - Introduction to Rotating D.C Machines
Link NOC:Electrical Machines-I Lecture 59 - Armature Winding of D.C Machine - I
Link NOC:Electrical Machines-I Lecture 60 - Armature Winding of D.C Machine - II
Link NOC:Electrical Machines-I Lecture 61 - Armature Winding of D.C Machine - III
Link NOC:Electrical Machines-I Lecture 62 - Generated Voltage Across the Armature
Link NOC:Electrical Machines-I Lecture 63 - Electromagnetic Troque in D.C Machine
Link NOC:Electrical Machines-I Lecture 64 - Generator and Motor Operation - Basics
Link NOC:Electrical Machines-I Lecture 65 - O.C.C and Load Characteristic of Separately Excited Generators
Link NOC:Electrical Machines-I Lecture 66 - Voltage Build Up in Shunt Generator
Link NOC:Electrical Machines-I Lecture 67 - Load Characteristic of Shunt Generator
Link NOC:Electrical Machines-I Lecture 68 - Qualitative Discussion on Armature Reaction
Link NOC:Electrical Machines-I Lecture 69 - Ill Effects of Armature Reaction
Link NOC:Electrical Machines-I Lecture 70 - Compensating and Interpoles
Link NOC:Electrical Machines-I Lecture 71 - Armature Reaction (Continued...)
Link NOC:Electrical Machines-I Lecture 72 - Field Flux Density, Armature Flux Density and Resultant Field Distribution
Link NOC:Electrical Machines-I Lecture 73 - Field Patterns for Both Motor and Generators
Link NOC:Electrical Machines-I Lecture 74 - Demagnetising and Cross Magnetising mmf for Brush Shifted Machine
Link NOC:Electrical Machines-I Lecture 75 - Calculation of Compensating, Interpole and Series Field Turns
Link NOC:Electrical Machines-I Lecture 76 - Estimating Armature and Field Resistance from its Rating
Link NOC:Electrical Machines-I Lecture 77 - Power Flow Diagram, Rotational Loss
Link NOC:Electrical Machines-I Lecture 78 - Shunt Motor: Basic Equation
Link NOC:Electrical Machines-I Lecture 79 - Starting of D.C Motor - 3-Point Starter
Link NOC:Electrical Machines-I Lecture 80 - Speed Control of Shunt Motor - I
Link NOC:Electrical Machines-I Lecture 81 - Speed Control of Shunt Motor - II
Link NOC:Electrical Machines-I Lecture 82 - Speed Control of Shunt Motor - III
Link NOC:Electrical Machines-I Lecture 83 - Field Control (Continued...)
Link NOC:Electrical Machines-I Lecture 84 - D.C Motor Braking
Link NOC:Electrical Machines-I Lecture 85 - Introduction to Series Motor
Link NOC:Electrical Machines-I Lecture 86 - Series Motor Characteristics
Link NOC:Electrical Machines-I Lecture 87 - Series Motor Speed Control
Link NOC:Electrical Machines-I Lecture 88 - Universal Motor
Link NOC:Electrical Machines-I Lecture 89 - Swinburne Test
Link NOC:Electrical Machines-I Lecture 90 - Hopkinson Test
Link NOC:Electrical Machines-I Lecture 91 - Efficiency Calculation
Link NOC:Electrical Machines-I Lecture 92 - Field Test on D.C Series Motor
Link NOC:Electrical Machines-I Lecture 93 - Simplex Wave winding
Link NOC:Electrical Machines-I Lecture 94 - Wave Winding (Continued...)
Link Modelling and Analysis of Electric Machines Lecture 1 - Introduction
Link Modelling and Analysis of Electric Machines Lecture 2 - Magnetic Fields
Link Modelling and Analysis of Electric Machines Lecture 3 - Magnetic Circuit
Link Modelling and Analysis of Electric Machines Lecture 4 - Singly Excited Linear Motion System
Link Modelling and Analysis of Electric Machines Lecture 5 - Linear and Cylindrical Motion Systems
Link Modelling and Analysis of Electric Machines Lecture 6 - Systems with Multiple Excitations
Link Modelling and Analysis of Electric Machines Lecture 7 - Non-linear Magnetic Systems
Link Modelling and Analysis of Electric Machines Lecture 8 - Inductances in Constant Air gap Machines
Link Modelling and Analysis of Electric Machines Lecture 9 - Inductance in Salient Pole Machine - I
Link Modelling and Analysis of Electric Machines Lecture 10 - Inductance in Salient Pole Machine - II
Link Modelling and Analysis of Electric Machines Lecture 11 - Inductance in Salient Pole Machine - III
Link Modelling and Analysis of Electric Machines Lecture 12 - Inductance in Salient Pole Machine - IV
Link Modelling and Analysis of Electric Machines Lecture 13 - Inductance in Salient Pole Machine - V
Link Modelling and Analysis of Electric Machines Lecture 14 - Inductances of Distributed Winding - I
Link Modelling and Analysis of Electric Machines Lecture 15 - Inductances of Distributed Winding - II
Link Modelling and Analysis of Electric Machines Lecture 16 - Inductances of Distributed Winding - III
Link Modelling and Analysis of Electric Machines Lecture 17 - Dynamic Equations of Induction Machines
Link Modelling and Analysis of Electric Machines Lecture 18 - Dynamic Equations of Salient Pole Synchronous Machine
Link Modelling and Analysis of Electric Machines Lecture 19 - Three-to-Two Phase Transformation
Link Modelling and Analysis of Electric Machines Lecture 20 - Induction Machine in Two-Phase Reference Frame
Link Modelling and Analysis of Electric Machines Lecture 21 - The Pseudo-Stationary Reference Frame
Link Modelling and Analysis of Electric Machines Lecture 22 - Induction Machine in Pseudo-Stationary Reference Frame
Link Modelling and Analysis of Electric Machines Lecture 23 - The Primitive Machine Equations
Link Modelling and Analysis of Electric Machines Lecture 24 - Dynamic Equations of DC Machines
Link Modelling and Analysis of Electric Machines Lecture 25 - Small Signal Model of DC Machine
Link Modelling and Analysis of Electric Machines Lecture 26 - Small Signal Behaviour of DC Machine
Link Modelling and Analysis of Electric Machines Lecture 27 - The Arbitrary Reference Frame
Link Modelling and Analysis of Electric Machines Lecture 28 - Induction Machine Equations in Arbitrary, Synchronous Reference Frames and Small Signal Modelling
Link Modelling and Analysis of Electric Machines Lecture 29 - Introduction to Field Oriented Control of Induction Machines
Link Modelling and Analysis of Electric Machines Lecture 30 - Space Vector Formulation of Induction Machine Equations
Link Modelling and Analysis of Electric Machines Lecture 31 - Modelling of Salient Pole Synchronous Machines - I
Link Modelling and Analysis of Electric Machines Lecture 32 - Modelling of Salient Pole Synchronous Machines - II
Link Modelling and Analysis of Electric Machines Lecture 33 - Modelling of Salient Pole Synchronous Machines - III
Link Modelling and Analysis of Electric Machines Lecture 34 - Steady State Models - Induction Machine
Link Modelling and Analysis of Electric Machines Lecture 35 - Steady State Models - Salient Pole Synchronous Machine
Link Modelling and Analysis of Electric Machines Lecture 36 - Solution of Dynamic Equations of Induction Machine - I
Link Modelling and Analysis of Electric Machines Lecture 37 - Solution of Dynamic Equations of Induction Machine - II
Link Modelling and Analysis of Electric Machines Lecture 38 - Reactances of Salient Pole Synchronous Machines - I
Link Modelling and Analysis of Electric Machines Lecture 39 - Reactances of Salient Pole Synchronous Machines - II
Link Modelling and Analysis of Electric Machines Lecture 40 - Reactances of Salient Pole Synchronous Machines - III
Link Modelling and Analysis of Electric Machines Lecture 41 - Suddent Short Circuit of Three Phase Alternator - Analytical Solution
Link Modelling and Analysis of Electric Machines Lecture 42 - Suddent Short Circuit of Three Phase Alternator - Numerical Simulation
Link Modelling and Analysis of Electric Machines Lecture 43 - Course Recapitulation and Assignments
Link Analog ICs Lecture 1 - Basic Building Blocks In Analog ICs
Link Analog ICs Lecture 2 - Current Mirrors
Link Analog ICs Lecture 3 - Translinear Networks
Link Analog ICs Lecture 4 - Differential Amplifier
Link Analog ICs Lecture 5 - Differential Amplifier Characteristics
Link Analog ICs Lecture 6 - Video Amplifier and RF/IF Amplifiers
Link Analog ICs Lecture 7 - Cascade Amplifier
Link Analog ICs Lecture 8 - IC Negative Feedback Wide Band Amplifiers
Link Analog ICs Lecture 9 - IC Negative Feedback Amplifiers
Link Analog ICs Lecture 10 - Voltage Sources And References
Link Analog ICs Lecture 11 - IC Voltage Regulator
Link Analog ICs Lecture 12 - Characteristics and Parameters Of Voltage
Link Analog ICs Lecture 13 - Protection Circuitry For Voltage Regulator
Link Analog ICs Lecture 14 - Switched Mode Regulator And Operational
Link Analog ICs Lecture 15 - IC Operational Voltage Amplifier
Link Analog ICs Lecture 16 - General Purpose Operational Amplifier-747
Link Analog ICs Lecture 17 - Transconductance Operational Amplifier
Link Analog ICs Lecture 18 - Audio Power Amplifier and Norton's Amplifier
Link Analog ICs Lecture 19 - Analog Multipliers
Link Analog ICs Lecture 20 - Analog Multipliers
Link Analog ICs Lecture 21 - Voltage Controlled Oscillator
Link Analog ICs Lecture 22 - Voltage Controlled Oscillator
Link Analog ICs Lecture 23 - Self Tuned Filter
Link Analog ICs Lecture 24 - Phase Locked Loop24 Phase Locked Loop
Link Analog ICs Lecture 25 - Phase Locked Loop
Link Analog ICs Lecture 26 - Phase Locked Loop
Link Analog ICs Lecture 27 - Phase Locked Loop
Link Analog ICs Lecture 28 - Current Mode ICs
Link Digital Integrated Circuits Lecture 1 - Semiconductors
Link Digital Integrated Circuits Lecture 2 - Modelling of PN Junction Diodes
Link Digital Integrated Circuits Lecture 3 - Modelling of BJTs
Link Digital Integrated Circuits Lecture 4 - Diode and BJT Model Parameter Extraction
Link Digital Integrated Circuits Lecture 5 - BJT Inverters DC and Switching Characteristics
Link Digital Integrated Circuits Lecture 6 - Schottky Transistor
Link Digital Integrated Circuits Lecture 7 - Specifications of Logic Circuits
Link Digital Integrated Circuits Lecture 8 - Qualitative discussion on TTL Circuits
Link Digital Integrated Circuits Lecture 9 - Standard TTL Circuits
Link Digital Integrated Circuits Lecture 10 - Schottky (74s..) and Low power Schottky (74ls)
Link Digital Integrated Circuits Lecture 11 - Advanced TTL Circuits
Link Digital Integrated Circuits Lecture 12 - I2 L Technology
Link Digital Integrated Circuits Lecture 13 - Edge triggered D-F/F
Link Digital Integrated Circuits Lecture 14 - I2 L - Condition for Proper Operation
Link Digital Integrated Circuits Lecture 15 - I2 L - Propagation delay Self aligned
Link Digital Integrated Circuits Lecture 16 - Schottky Transistor Logic
Link Digital Integrated Circuits Lecture 17 - Stacked I2 L
Link Digital Integrated Circuits Lecture 18 - ECL Basic Operation
Link Digital Integrated Circuits Lecture 19 - Quantitative analysis of ECL 10k Series gates
Link Digital Integrated Circuits Lecture 20 - ECL 100k series; Stacked ECL gates; D-F/F
Link Digital Integrated Circuits Lecture 21 - Emitter Function Logic;Low Power ECL
Link Digital Integrated Circuits Lecture 22 - Polyemitter Bipolar Transistor In ECL;Propagation
Link Digital Integrated Circuits Lecture 23 - Heterojunction Bipolar Transistor Based ECL;ECL
Link Digital Integrated Circuits Lecture 24 - nMOS Logic Circuits
Link Digital Integrated Circuits Lecture 25 - nMOS Logic Circuits(contd); CMOS :Introduction
Link Digital Integrated Circuits Lecture 26 - CMOS Inverter
Link Digital Integrated Circuits Lecture 27 - CMOS NAND,NOR and Other Gates: Clocked CMOS
Link Digital Integrated Circuits Lecture 28 - Dynamic CMOS ;Transmission Gates;Realization Of MUX,decoder, D-F/F
Link Digital Integrated Circuits Lecture 29 - BiCMOS Gates
Link Digital Integrated Circuits Lecture 30 - BiCMOS Driver;BiCMOS 32-bit Adder
Link Digital Integrated Circuits Lecture 31 - Digital Integrated Circuits
Link Digital Integrated Circuits Lecture 32 - Digital Integrated Circuits
Link Digital Integrated Circuits Lecture 33 - CMOS SRAM
Link Digital Integrated Circuits Lecture 34 - BiCMOS SRAM
Link Digital Integrated Circuits Lecture 35 - DRAM-CMOS and BiCMOS
Link Digital Integrated Circuits Lecture 36 - ROM-EPROM,EEPROM and Flash EPROM
Link Digital Integrated Circuits Lecture 37 - GaAs MESFET Characteristics and Equivalent Circuits
Link Digital Integrated Circuits Lecture 38 - Direct Coupled FET Logic; Superbuffer FET Logic
Link Digital Integrated Circuits Lecture 39 - Buffered FET Logic; Schottky Diode FET Logic
Link Digital Integrated Circuits Lecture 40 - Transmission Line Effects
Link Electromagnetic Fields Lecture 1 - Introduction To Vector
Link Electromagnetic Fields Lecture 2 - Introduction To Vector (Continued...)
Link Electromagnetic Fields Lecture 3 - Coulomb's Law
Link Electromagnetic Fields Lecture 4 - Electric Field
Link Electromagnetic Fields Lecture 5 - Electro Static Potential
Link Electromagnetic Fields Lecture 6 - The Gradient
Link Electromagnetic Fields Lecture 7 - Gauss's Law
Link Electromagnetic Fields Lecture 8 - Poisson's Equation
Link Electromagnetic Fields Lecture 9 - Energy In The Field
Link Electromagnetic Fields Lecture 10 - Sample Problems In Electrostatics
Link Electromagnetic Fields Lecture 11 - Fields In Materials
Link Electromagnetic Fields Lecture 12 - Fields In Material Bodies
Link Electromagnetic Fields Lecture 13 - Displacement Vectors
Link Electromagnetic Fields Lecture 14 - Capacitors
Link Electromagnetic Fields Lecture 15 - Method Of Images
Link Electromagnetic Fields Lecture 16 - Poisson's Equation 2 Dimensions
Link Electromagnetic Fields Lecture 17 - Field Near Sharp Edges And Points
Link Electromagnetic Fields Lecture 18 - Magnetic Field 1
Link Electromagnetic Fields Lecture 19 - Magnetic Field 2
Link Electromagnetic Fields Lecture 20 - Stokes Theorems
Link Electromagnetic Fields Lecture 21 - The curl
Link Electromagnetic Fields Lecture 22 - Field due to current loop
Link Electromagnetic Fields Lecture 23 - Ampere's law
Link Electromagnetic Fields Lecture 24 - Examples of Ampere's law
Link Electromagnetic Fields Lecture 25 - Inductance
Link Electromagnetic Fields Lecture 26 - Mutual Inductance
Link Electromagnetic Fields Lecture 27 - Faraday's law
Link Electromagnetic Fields Lecture 28 - Magnetic Energy
Link Electromagnetic Fields Lecture 29 - Magnetic Energy (Continued...)
Link Electromagnetic Fields Lecture 30 - Magnetic Energy (Continued...)
Link Electromagnetic Fields Lecture 31 - Generalised Ampere's Law
Link Electromagnetic Fields Lecture 32 - The Wave Equation
Link Electromagnetic Fields Lecture 33 - The Wave Equation
Link Electromagnetic Fields Lecture 34 - Poynting Theorem
Link Electromagnetic Fields Lecture 35 - Skin Effect
Link Electromagnetic Fields Lecture 36 - Skin Effect (Continued...)
Link Electromagnetic Fields Lecture 37 - Radiation And Circuits
Link Electromagnetic Fields Lecture 38 - Phasor Form Of Poynting Theorem
Link Electromagnetic Fields Lecture 39 - Reflection At Dielectric Boundaries
Link Electromagnetic Fields Lecture 40 - Reflection At Dielectric Boundaries (Continued...)
Link Electromagnetic Fields Lecture 41 - Transmission Lines
Link Electromagnetic Fields Lecture 42 - Transmission Lines (Continued...) and Conclusion
Link Networks and Systems Lecture 1 - Introductory Concepts - 1
Link Networks and Systems Lecture 2 - Introductory Concepts - 2
Link Networks and Systems Lecture 3 - Introductory Concepts - 3
Link Networks and Systems Lecture 4 - Introductory Concepts - 4
Link Networks and Systems Lecture 5 - Introductory Concepts - 5
Link Networks and Systems Lecture 6 - Introductory Concepts - 6
Link Networks and Systems Lecture 7 - Fourier Series - 1
Link Networks and Systems Lecture 8 - Fourier Series - 2
Link Networks and Systems Lecture 9 - Fourier Series - 3
Link Networks and Systems Lecture 10 - Fourier Series - 4
Link Networks and Systems Lecture 11 - Fourier Series - 5
Link Networks and Systems Lecture 12 - Fourier Series - 6
Link Networks and Systems Lecture 13 - Fourier Transforms - 1
Link Networks and Systems Lecture 14 - Fourier Transforms - 2
Link Networks and Systems Lecture 15 - Fourier Transforms - 3
Link Networks and Systems Lecture 16 - Fourier Transforms - 4
Link Networks and Systems Lecture 17 - Fourier Transforms - 5
Link Networks and Systems Lecture 18 - Fourier Transforms - 6
Link Networks and Systems Lecture 19 - Fourier Transforms - 7
Link Networks and Systems Lecture 20 - Laplace Transforms - 1
Link Networks and Systems Lecture 21 - Laplace Transforms - 2
Link Networks and Systems Lecture 22 - Laplace Transforms - 3
Link Networks and Systems Lecture 23 - Laplace Transforms - 4
Link Networks and Systems Lecture 24 - Laplace Transforms - 5
Link Networks and Systems Lecture 25 - Laplace Transforms - 6
Link Networks and Systems Lecture 26 - Application of Laplace Transforms - 1
Link Networks and Systems Lecture 27 - Application of Laplace Transforms - 2
Link Networks and Systems Lecture 28 - Application of Laplace Transforms - 3
Link Networks and Systems Lecture 29 - Application of Laplace Transforms - 4
Link Networks and Systems Lecture 30 - Network Functions - 1
Link Networks and Systems Lecture 31 - Network Functions - 2
Link Networks and Systems Lecture 32 - Network Functions - 3
Link Networks and Systems Lecture 33 - Network Functions - 4
Link Networks and Systems Lecture 34 - Network Theorems - 1
Link Networks and Systems Lecture 35 - Network Theorems - 2
Link Networks and Systems Lecture 36 - Network Theorems - 3
Link Networks and Systems Lecture 37 - Network Theorems - 4
Link Networks and Systems Lecture 38 - Discrete - Time Systems - 1
Link Networks and Systems Lecture 39 - Discrete - Time Systems - 2
Link Networks and Systems Lecture 40 - Discrete - Time Systems - 3
Link Networks and Systems Lecture 41 - Discrete - Time Systems - 4
Link Networks and Systems Lecture 42 - Discrete - Time Systems - 5
Link Networks and Systems Lecture 43 - Discrete - Time Systems - 6
Link Networks and Systems Lecture 44 - Discrete - Time Systems - 7
Link Networks and Systems Lecture 45 - State-Variable Methods - 1
Link Networks and Systems Lecture 46 - State-Variable Methods - 2
Link Networks and Systems Lecture 47 - State Variable Methods - 3
Link Networks and Systems Lecture 48 - State Variable Methods - 4
Link Networks and Systems Lecture 49 - State Variable Methods - 5
Link Networks and Systems Lecture 50 - State Variable Methods - 6
Link Probability Foundation for Electrical Engineers Lecture 1 - Introduction
Link Probability Foundation for Electrical Engineers Lecture 2 - Cardinality and Countability - 1
Link Probability Foundation for Electrical Engineers Lecture 3 - Cardinality and Countability - 2
Link Probability Foundation for Electrical Engineers Lecture 4 - Probability Spaces - 1
Link Probability Foundation for Electrical Engineers Lecture 5 - Probability Spaces - 2
Link Probability Foundation for Electrical Engineers Lecture 6 - Properties of Probability Measures
Link Probability Foundation for Electrical Engineers Lecture 7 - Discrete Probability Spaces
Link Probability Foundation for Electrical Engineers Lecture 8 - Generated ?-Algebra, Borel Sets
Link Probability Foundation for Electrical Engineers Lecture 9 - Borel Sets and Lebesgue Measure - 1
Link Probability Foundation for Electrical Engineers Lecture 10 - Borel Sets and Lebesgue Measure - 2
Link Probability Foundation for Electrical Engineers Lecture 11 - The Infinite Coin Toss Model
Link Probability Foundation for Electrical Engineers Lecture 12 - Conditional Probability and Independence
Link Probability Foundation for Electrical Engineers Lecture 13 - Independence (Continued...)
Link Probability Foundation for Electrical Engineers Lecture 14 - The Borel-Cantelli Lemmas
Link Probability Foundation for Electrical Engineers Lecture 15 - Random Variables
Link Probability Foundation for Electrical Engineers Lecture 16 - Cumulative Distribution Function
Link Probability Foundation for Electrical Engineers Lecture 17 - Types of Random Variables
Link Probability Foundation for Electrical Engineers Lecture 18 - Continuous Random Variables
Link Probability Foundation for Electrical Engineers Lecture 19 - Continuous Random Variables (Continued...) And Singular Random Variables
Link Probability Foundation for Electrical Engineers Lecture 20 - Several Random Variables
Link Probability Foundation for Electrical Engineers Lecture 21 - Independent Random Variables - 1
Link Probability Foundation for Electrical Engineers Lecture 22 - Independent Random Variables - 2
Link Probability Foundation for Electrical Engineers Lecture 23 - Jointly Continuous Random Variables
Link Probability Foundation for Electrical Engineers Lecture 24 - Transformation of Random Variables - 1
Link Probability Foundation for Electrical Engineers Lecture 25 - Transformation of Random Variables - 2
Link Probability Foundation for Electrical Engineers Lecture 26 - Transformation of Random Variables - 3
Link Probability Foundation for Electrical Engineers Lecture 27 - Transformation of Random Variables - 4
Link Probability Foundation for Electrical Engineers Lecture 28 - Integration And Expectation - 1
Link Probability Foundation for Electrical Engineers Lecture 29 - Integration And Expectation - 2
Link Probability Foundation for Electrical Engineers Lecture 30 - Properties of Integrals
Link Probability Foundation for Electrical Engineers Lecture 31 - Monotone Convergence Theorem
Link Probability Foundation for Electrical Engineers Lecture 32 - Expectation of Dicrete Random Variables, Expectation Over Different Spaces
Link Probability Foundation for Electrical Engineers Lecture 33 - Expectation of Dicrete Random Variables
Link Probability Foundation for Electrical Engineers Lecture 34 - Fatou'S Lemma and Dominated Convergence Theorem
Link Probability Foundation for Electrical Engineers Lecture 35 - Variance and Covariance
Link Probability Foundation for Electrical Engineers Lecture 36 - Covariance, Correlation Coefficient
Link Probability Foundation for Electrical Engineers Lecture 37 - Conditional Expectation
Link Probability Foundation for Electrical Engineers Lecture 38 - MMSE Estimator, Transforms
Link Probability Foundation for Electrical Engineers Lecture 39 - Moment Generating Function
Link Probability Foundation for Electrical Engineers Lecture 40 - Characteristic Function - 1
Link Probability Foundation for Electrical Engineers Lecture 41 - Characteristic Function - 2
Link Probability Foundation for Electrical Engineers Lecture 42 - Concentration Inequalities
Link Probability Foundation for Electrical Engineers Lecture 43 - Convergence of Random Variables - 1
Link Probability Foundation for Electrical Engineers Lecture 44 - Convergence of Random Variables - 2
Link Probability Foundation for Electrical Engineers Lecture 45 - Convergence of Random Variables - 3
Link Probability Foundation for Electrical Engineers Lecture 46 - Convergence of Charcteristic Functions, Limit Theorems
Link Probability Foundation for Electrical Engineers Lecture 47 - The Laws of Large Numbers
Link Probability Foundation for Electrical Engineers Lecture 48 - The Central Limit Theorem
Link Probability Foundation for Electrical Engineers Lecture 49 - A Brief Overview of Multivariate Gaussians
Link NOC:Analog Circuits Lecture 1 - Introduction to the course
Link NOC:Analog Circuits Lecture 2 - Obtaining power gain
Link NOC:Analog Circuits Lecture 3 - Obtaining power gain using a linear two port?
Link NOC:Analog Circuits Lecture 4 - One port (two terminal) nonlinear element
Link NOC:Analog Circuits Lecture 5 - Nonlinear circuit analysis
Link NOC:Analog Circuits Lecture 6 - Small signal incremental analysis-graphical view
Link NOC:Analog Circuits Lecture 7 - Small signal incremental analysis
Link NOC:Analog Circuits Lecture 8 - Incremental equivalent circuit
Link NOC:Analog Circuits Lecture 9 - Large signal characteristics of a diode
Link NOC:Analog Circuits Lecture 10 - Analysis of diode circuits
Link NOC:Analog Circuits Lecture 11 - Small signal model of a diode
Link NOC:Analog Circuits Lecture 12 - Two port nonlinearity
Link NOC:Analog Circuits Lecture 13 - Small signal equivalent of a two port network
Link NOC:Analog Circuits Lecture 14 - Small signal equivalent circuit of a two port network
Link NOC:Analog Circuits Lecture 15 - Gain of a two port network
Link NOC:Analog Circuits Lecture 16 - Constraints on small signal parameters to maximize the gain
Link NOC:Analog Circuits Lecture 17 - Constraints on large signal characteristics to maximize the gain
Link NOC:Analog Circuits Lecture 18 - Implications of constraints in terms of the circuit equivalent
Link NOC:Analog Circuits Lecture 19 - MOS transistor-description
Link NOC:Analog Circuits Lecture 20 - MOS transistor large signal characteristics
Link NOC:Analog Circuits Lecture 21 - MOS transistor large signal characteristics-graphical view
Link NOC:Analog Circuits Lecture 22 - MOS transistor small signal characteristics
Link NOC:Analog Circuits Lecture 23 - Linear (Triode) region of the MOS transistor
Link NOC:Analog Circuits Lecture 24 - Small signal amplifier using the MOS transistor
Link NOC:Analog Circuits Lecture 25 - Basic amplifier structure
Link NOC:Analog Circuits Lecture 26 - Problems with the basic structure
Link NOC:Analog Circuits Lecture 27 - Adding bias and signal-ac coupling
Link NOC:Analog Circuits Lecture 28 - Common source amplifier with biasing
Link NOC:Analog Circuits Lecture 29 - Common source amplifier: Small signal equivalent circuit
Link NOC:Analog Circuits Lecture 30 - Common source amplifier analysis: Effect of biasing components
Link NOC:Analog Circuits Lecture 31 - Constraint on the input coupling capacitor
Link NOC:Analog Circuits Lecture 32 - Constraint on the output coupling capacitor
Link NOC:Analog Circuits Lecture 33 - Dependence of Id on Vds
Link NOC:Analog Circuits Lecture 34 - Small signal output conductance of a MOS TRANSISTOR
Link NOC:Analog Circuits Lecture 35 - Effect of gds on a common source amplifier, Inherent gain limit of a Transistor
Link NOC:Analog Circuits Lecture 36 - Variation of gm with transistors parameters
Link NOC:Analog Circuits Lecture 37 - Variation of gm with constant Vgs and constant drain current bias
Link NOC:Analog Circuits Lecture 38 - Negative feedback control for constant drain current bias
Link NOC:Analog Circuits Lecture 39 - Types of feedback for constant drain current bias
Link NOC:Analog Circuits Lecture 40 - Sense at the drain and feedback to the gate-Drain feedback
Link NOC:Analog Circuits Lecture 41 - Intuitive explanation of low sensitivity with drain feedback
Link NOC:Analog Circuits Lecture 42 - Common source amplifier with drain feedback bias
Link NOC:Analog Circuits Lecture 43 - Constraint on the gate bias resistor
Link NOC:Analog Circuits Lecture 44 - Constraint on the input coupling capacitor.
Link NOC:Analog Circuits Lecture 45 - Constraint on the output coupling capacitor.
Link NOC:Analog Circuits Lecture 46 - Input and output resistances of the common source amplifier with constant VGS bias
Link NOC:Analog Circuits Lecture 47 - Current mirror
Link NOC:Analog Circuits Lecture 48 - Common souce amplifier with current mirror bias
Link NOC:Analog Circuits Lecture 49 - Constraint on coupling capacitors and bias resistance
Link NOC:Analog Circuits Lecture 50 - Diode connected transistor
Link NOC:Analog Circuits Lecture 51 - Source feedback biasing
Link NOC:Analog Circuits Lecture 52 - Common source amplifier with source feedback bias
Link NOC:Analog Circuits Lecture 53 - Constraints on capacitor values
Link NOC:Analog Circuits Lecture 54 - Sensing at the drain and feeding back to the source
Link NOC:Analog Circuits Lecture 55 - Sensing at the source and feeding back to the gate
Link NOC:Analog Circuits Lecture 56 - Ensuring that transistor is in saturation
Link NOC:Analog Circuits Lecture 57 - Using a resistor instead of current source for biasing
Link NOC:Analog Circuits Lecture 58 - Quick tour of amplifying devices
Link NOC:Analog Circuits Lecture 59 - Controlled sources using a MOS transistor-Introduction
Link NOC:Analog Circuits Lecture 60 - Voltage controlled voltage source
Link NOC:Analog Circuits Lecture 61 - VCVS using a MOS transistor
Link NOC:Analog Circuits Lecture 62 - VCVS using a MOS transistor-Small signal picture
Link NOC:Analog Circuits Lecture 63 - VCVS using a MOS transistor-Complete circuit
Link NOC:Analog Circuits Lecture 64 - Source follower: Effect of output conductance; Constraints on coupling capacitors
Link NOC:Analog Circuits Lecture 65 - VCCS using a MOS transistor
Link NOC:Analog Circuits Lecture 66 - VCCS using a MOS transistor: Small signal picture
Link NOC:Analog Circuits Lecture 67 - VCCS using a MOS transistor: Complete circuit
Link NOC:Analog Circuits Lecture 68 - VCCS using a MOS transistor: AC coupling the output
Link NOC:Analog Circuits Lecture 69 - Source degenrated CS amplifier
Link NOC:Analog Circuits Lecture 70 - CCCS using a MOS transistor
Link NOC:Analog Circuits Lecture 71 - CCCS using a MOS transistor: Small signal picture
Link NOC:Analog Circuits Lecture 72 - CCCS using a MOS transistor: Complete circuit
Link NOC:Analog Circuits Lecture 73 - CCVS using a MOS transistor
Link NOC:Analog Circuits Lecture 74 - CCVS using a MOS transistor: Gain
Link NOC:Analog Circuits Lecture 75 - CCVS using a MOS transistor: Input and output resistances
Link NOC:Analog Circuits Lecture 76 - CCVS using a MOS transistor: Complete circuit
Link NOC:Analog Circuits Lecture 77 - VCVS using an opamp
Link NOC:Analog Circuits Lecture 78 - CCVS using an opamp
Link NOC:Analog Circuits Lecture 79 - Negative feedback and virtual short in an opamp
Link NOC:Analog Circuits Lecture 80 - Negative feedback and virtual short in a transistor
Link NOC:Analog Circuits Lecture 81 - Constraints on controlled sources using opamps and transistors
Link NOC:Analog Circuits Lecture 82 - Summary of basic amplifiers
Link NOC:Analog Circuits Lecture 83 - Signal swing limits in amplifiers
Link NOC:Analog Circuits Lecture 84 - Swing limit due to transistor entering triode region
Link NOC:Analog Circuits Lecture 85 - Swing limit due to transistor entering cutoff region
Link NOC:Analog Circuits Lecture 86 - Swing limit calculation example
Link NOC:Analog Circuits Lecture 87 - Swing limits - more calculations
Link NOC:Analog Circuits Lecture 88 - pMOS transistor
Link NOC:Analog Circuits Lecture 89 - Small signal model of the pMOS transistor
Link NOC:Analog Circuits Lecture 90 - Common source amplifier using the pMOS transistor
Link NOC:Analog Circuits Lecture 91 - Swing limits of the pMOS common source amplifier
Link NOC:Analog Circuits Lecture 92 - Biasing a pMOS transistor at a constant current; pMOS current mirror
Link NOC:Analog Circuits Lecture 93 - Converting nMOS transistor circuits to pMOS
Link NOC:Analog Circuits Lecture 94 - Bias current generation
Link NOC:Analog Circuits Lecture 95 - Examples of more than one transistor in feedback
Link NOC:Introduction to Non Linear Dynamics Lecture 1 - A brief introduction to modelling
Link NOC:Introduction to Non Linear Dynamics Lecture 2 - Dynamics and Nonlinear systems: getting started
Link NOC:Introduction to Non Linear Dynamics Lecture 3 - 1-Dimensional Flows, Flows on the Line, Lecture 1
Link NOC:Introduction to Non Linear Dynamics Lecture 4 - 1-Dimensional Flows, Flows on the Line, Lecture 2
Link NOC:Introduction to Non Linear Dynamics Lecture 5 - 1-Dimensional Flows, Flows on the Line, Lecture 3
Link NOC:Introduction to Non Linear Dynamics Lecture 6 - 1-Dimensional Flows, Flows on the Line, Lecture 4
Link NOC:Introduction to Non Linear Dynamics Lecture 7 - 1-Dimensional Flows, Flows on the Line, Lecture 5
Link NOC:Introduction to Non Linear Dynamics Lecture 8 - 1-Dimensional Flows, Flows on the Line, Lecture 6
Link NOC:Introduction to Non Linear Dynamics Lecture 9 - 1-Dimensional Flows, Bifurcations, Lecture 1
Link NOC:Introduction to Non Linear Dynamics Lecture 10 - 1-Dimensional Flows, Bifurcations, Lecture 2
Link NOC:Introduction to Non Linear Dynamics Lecture 11 - 1-Dimensional Flows, Bifurcations, Lecture 3
Link NOC:Introduction to Non Linear Dynamics Lecture 12 - 1-Dimensional Flows, Bifurcations, Lecture 4
Link NOC:Introduction to Non Linear Dynamics Lecture 13 - 1-Dimensional Flows, Bifurcations, Lecture 5
Link NOC:Introduction to Non Linear Dynamics Lecture 14 - 1-Dimensional Flows, Bifurcations, Lecture 6
Link NOC:Introduction to Non Linear Dynamics Lecture 15 - 1-Dimensional Flows, Flows on the Circle, Lecture 1
Link NOC:Introduction to Non Linear Dynamics Lecture 16 - 1-Dimensional Flows, Flows on the Circle, Lecture 2
Link NOC:Introduction to Non Linear Dynamics Lecture 17 - 2-Dimensional Flows, Linear Systems, Lecture 1
Link NOC:Introduction to Non Linear Dynamics Lecture 18 - 2-Dimensional Flows, Linear Systems, Lecture 2
Link NOC:Introduction to Non Linear Dynamics Lecture 19 - 2-Dimensional Flows, Linear Systems, Lecture 3
Link NOC:Introduction to Non Linear Dynamics Lecture 20 - 2-Dimensional Flows, Linear Systems, Lecture 4
Link NOC:Introduction to Non Linear Dynamics Lecture 21 - 2-Dimensional Flows, Phase Plane, Lecture 1
Link NOC:Introduction to Non Linear Dynamics Lecture 22 - 2-Dimensional Flows, Phase Plane, Lecture 2
Link NOC:Introduction to Non Linear Dynamics Lecture 23 - 2-Dimensional Flows, Phase Plane, Lecture 3
Link NOC:Introduction to Non Linear Dynamics Lecture 24 - 2-Dimensional Flows, Limit Cycles, Lecture 1
Link NOC:Introduction to Non Linear Dynamics Lecture 25 - 2-Dimensional Flows, Limit Cycles, Lecture 2
Link NOC:Introduction to Non Linear Dynamics Lecture 26 - 2-Dimensional Flows, Limit Cycles, Lecture 3
Link NOC:Introduction to Non Linear Dynamics Lecture 27 - 2-Dimensional Flows, Bifurcations, Lecture 1
Link NOC:Introduction to Non Linear Dynamics Lecture 28 - 2-Dimensional Flows, Bifurcations, Lecture 2
Link NOC:Introduction to Non Linear Dynamics Lecture 29 - 2-Dimensional Flows, Bifurcations, Lecture 3
Link NOC:Control Engineering Lecture 1 - Introduction to Systems and Control
Link NOC:Control Engineering Lecture 2 - Modelling of Systems
Link NOC:Control Engineering Lecture 3 - Elements of Modelling
Link NOC:Control Engineering Lecture 4 - Examples of Modelling
Link NOC:Control Engineering Lecture 5 - Solving Problems in Modelling of Systems
Link NOC:Control Engineering Lecture 6 - Laplace Transforms
Link NOC:Control Engineering Lecture 7 - Inverse Laplace Transforms
Link NOC:Control Engineering Lecture 8 - Transfer Function of Modelling Block Diagram Representation
Link NOC:Control Engineering Lecture 9 - Solving Problems on Laplace Transforms and Transfer Functions
Link NOC:Control Engineering Lecture 10 - Block Diagram Reduction, Signal Flow Graphs
Link NOC:Control Engineering Lecture 11 - Solving Problems on Block Diagram Reduction, Signal Flow Graphs
Link NOC:Control Engineering Lecture 12 - Time Response Analyzsis of systems
Link NOC:Control Engineering Lecture 13 - Time Response specifications
Link NOC:Control Engineering Lecture 14 - Solving Problems on Time Response Analyzsis ans specifications
Link NOC:Control Engineering Lecture 15 - Stability
Link NOC:Control Engineering Lecture 16 - Routh Hurwitz Criterion
Link NOC:Control Engineering Lecture 17 - Routh Hurwitz Criterion T 1
Link NOC:Control Engineering Lecture 18 - Closed loop System and Stability
Link NOC:Control Engineering Lecture 19 - Root Locus Technique
Link NOC:Control Engineering Lecture 20 - Root Locus Plots
Link NOC:Control Engineering Lecture 21 - Root Locus Plots (Continued...)
Link NOC:Control Engineering Lecture 22 - Root Locus Plots (Continued...)
Link NOC:Control Engineering Lecture 23 - Root Locus Plots (Continued...)
Link NOC:Control Engineering Lecture 24 - Introduction to Frequency Response
Link NOC:Control Engineering Lecture 25 - Frequency Response Plots
Link NOC:Control Engineering Lecture 26 - Relative Stability
Link NOC:Control Engineering Lecture 27 - Bode plots
Link NOC:Control Engineering Lecture 28 - Basics of Control design Proportional, Integral and Derivative Actions
Link NOC:Control Engineering Lecture 29 - Basics of Control design Proportional, Integral and Derivative Actions
Link NOC:Control Engineering Lecture 30 - Problems on PID Controllers
Link NOC:Control Engineering Lecture 31 - Basics of Control design Proportional, Integral and Derivative Actions
Link NOC:Control Engineering Lecture 32 - Control design in time domain and discusses the lead compensator
Link NOC:Control Engineering Lecture 33 - Improvement of the Transient Response using lead compensation
Link NOC:Control Engineering Lecture 34 - Design of control using lag compensators
Link NOC:Control Engineering Lecture 35 - The design of Lead-Lag compensators using root locus
Link NOC:Control Engineering Lecture 36 - Introduction design of control in frequency domain
Link NOC:Control Engineering Lecture 37 - Design of Lead Compensator using Bode Plots
Link NOC:Control Engineering Lecture 38 - Design of Lag Compensators using Bode Plots
Link NOC:Control Engineering Lecture 39 - Design of Lead-Lag Compensators using Bode plots
Link NOC:Control Engineering Lecture 40 - Experimental Determination of Transfer Function
Link NOC:Control Engineering Lecture 41 - Effect of Zeros on System Response
Link NOC:Control Engineering Lecture 42 - Navigation - Stories and Some Basics
Link NOC:Control Engineering Lecture 43 - Navigation - Dead Reckoning and Reference Frames
Link NOC:Control Engineering Lecture 44 - Inertial Sensors and Their Characteristics
Link NOC:Control Engineering Lecture 45 - Filter Design to Attentuate Inertial Sensor Noise
Link NOC:Control Engineering Lecture 46 - Complementary Filter
Link NOC:Control Engineering Lecture 47 - Complementary Filter - 1
Link NOC:Control Engineering Lecture 48 - Introduction to State Space Systems
Link NOC:Control Engineering Lecture 49 - Linearization of State Space Dynamics
Link NOC:Control Engineering Lecture 50 - Linearization of State Space Dynamics - 1
Link NOC:Control Engineering Lecture 51 - Controllability and Observability
Link NOC:Analog IC Design Lecture 1 - Introduction to MOSFETs
Link NOC:Analog IC Design Lecture 2 - Simple MOSFET Circuits
Link NOC:Analog IC Design Lecture 3 - MOSFET Current Mirrors
Link NOC:Analog IC Design Lecture 4 - Cascode Amplifiers
Link NOC:Analog IC Design Lecture 5 - MOSFET in Integrated Circuits
Link NOC:Analog IC Design Lecture 6 - MOSFET Capacitances
Link NOC:Analog IC Design Lecture 7 - Noise
Link NOC:Analog IC Design Lecture 8 - Noise of Simple Circuits
Link NOC:Analog IC Design Lecture 9 - Systematic Mismatch
Link NOC:Analog IC Design Lecture 10 - Random Mismatch
Link NOC:Analog IC Design Lecture 11 - Differential Amplifiers
Link NOC:Analog IC Design Lecture 12 - Negative Feedback
Link NOC:Analog IC Design Lecture 13 - Stability of Negative Feedback Systems
Link NOC:Analog IC Design Lecture 14 - Dominant Pole Compensation
Link NOC:Analog IC Design Lecture 15 - Active Load
Link NOC:Analog IC Design Lecture 16 - One Stage OpAmps - 1
Link NOC:Analog IC Design Lecture 17 - One Stage OpAmps - 2
Link NOC:Analog IC Design Lecture 18 - One Stage OpAmps - 3
Link NOC:Analog IC Design Lecture 19 - Differential Amplifiers Offset
Link NOC:Analog IC Design Lecture 20 - One Stage OpAmps - Noise and Offset
Link NOC:Analog IC Design Lecture 21 - One Stage OpAmps - Slew Rate
Link NOC:Analog IC Design Lecture 22 - One Stage OpAmps - Datasheet
Link NOC:Analog IC Design Lecture 23 - One Stage OpAmps - Example 1
Link NOC:Analog IC Design Lecture 24 - One Stage OpAmps - Example 2
Link NOC:Analog IC Design Lecture 25 - Telescopic OpAmp - 1
Link NOC:Analog IC Design Lecture 26 - Telescopic OpAmp - 2
Link NOC:Analog IC Design Lecture 27 - Telescopic OpAmp - 3
Link NOC:Analog IC Design Lecture 28 - Telescopic OpAmp - 4
Link NOC:Analog IC Design Lecture 29 - Telescopic OpAmp - 5
Link NOC:Analog IC Design Lecture 30 - Telescopic OpAmp - Datasheet
Link NOC:Analog IC Design Lecture 31 - Telescopic OpAmp - Design Example
Link NOC:Analog IC Design Lecture 32 - Folded-Cascode OpAmp - 1
Link NOC:Analog IC Design Lecture 33 - Folded-Cascode OpAmp - 2
Link NOC:Analog IC Design Lecture 34 - Folded-Cascode OpAmp - 3
Link NOC:Analog IC Design Lecture 35 - Folded-Cascode OpAmp - 4
Link NOC:Analog IC Design Lecture 36 - Folded-Cascode OpAmp - 5
Link NOC:Analog IC Design Lecture 37 - Negative feedback amplifier
Link NOC:Analog IC Design Lecture 38 - Step response, sinusoidal steady state response
Link NOC:Analog IC Design Lecture 39 - Loop gain and unity loop gain frequency; Opamp
Link NOC:Analog IC Design Lecture 40 - Opamp realization using controlled sources; Delay in the loop
Link NOC:Analog IC Design Lecture 41 - Negative feedback amplifier with ideal delay-small delays
Link NOC:Analog IC Design Lecture 42 - Negative feedback amplifier with ideal delay-large delays
Link NOC:Analog IC Design Lecture 43 - Negative feedback amplifier with parasitic poles and zeros
Link NOC:Analog IC Design Lecture 44 - Negative feedback amplifier with parasitic poles and zeros; Nyquist criterion
Link NOC:Analog IC Design Lecture 45 - Nyquist criterion; Phase margin
Link NOC:Analog IC Design Lecture 46 - Phase margin
Link NOC:Analog IC Design Lecture 47 - Single stage opamp realization
Link NOC:Analog IC Design Lecture 48 - Two stage miller compensated opamp
Link NOC:Analog IC Design Lecture 49 - Two stage miller compensated opamp.
Link NOC:Analog IC Design Lecture 50 - Two and three stage miller compensated opamps; Feedforward compensated opamp
Link NOC:Analog IC Design Lecture 51 - Two Stage Opamp
Link NOC:Analog IC Design Lecture 52 - Two Stage Opamp ; Three Stage and Triple Cascade Opamps
Link NOC:Analog IC Design Lecture 53 - Common Mode Rejection Ratio ; Example
Link NOC:Analog IC Design Lecture 54 - Fully differential single stage opamp
Link NOC:Analog IC Design Lecture 55 - Common mode feedback
Link NOC:Analog IC Design Lecture 56 - Fully differential single stage opamp-2
Link NOC:Analog IC Design Lecture 57 - Fully differential two stage opamp; Fully differential versus pseudo-differential
Link NOC:Probability Foundations for Electrical Engineers Lecture 1 - Experiments, Outcomes and Events
Link NOC:Probability Foundations for Electrical Engineers Lecture 2 - Examples: Experiments and sample spaces
Link NOC:Probability Foundations for Electrical Engineers Lecture 3 - Operations on Events
Link NOC:Probability Foundations for Electrical Engineers Lecture 4 - Examples: Sample spaces and events
Link NOC:Probability Foundations for Electrical Engineers Lecture 5 - Sigma Fields and Probability
Link NOC:Probability Foundations for Electrical Engineers Lecture 6 - Discrete Sample Spaces
Link NOC:Probability Foundations for Electrical Engineers Lecture 7 - Union and Partition
Link NOC:Probability Foundations for Electrical Engineers Lecture 8 - Examples: Probability Calculation for Equally likely Outcomes
Link NOC:Probability Foundations for Electrical Engineers Lecture 9 - Definition and Basic Properties
Link NOC:Probability Foundations for Electrical Engineers Lecture 10 - Bayes' Rule for Partitions
Link NOC:Probability Foundations for Electrical Engineers Lecture 11 - Examples: Conditional probability
Link NOC:Probability Foundations for Electrical Engineers Lecture 12 - Example of Detection
Link NOC:Probability Foundations for Electrical Engineers Lecture 13 - Example: Coloured Cards from a Box
Link NOC:Probability Foundations for Electrical Engineers Lecture 14 - Independence of Events
Link NOC:Probability Foundations for Electrical Engineers Lecture 15 - Examples: Independence
Link NOC:Probability Foundations for Electrical Engineers Lecture 16 - Combining Independent Experiments
Link NOC:Probability Foundations for Electrical Engineers Lecture 17 - Conditional Independence
Link NOC:Probability Foundations for Electrical Engineers Lecture 18 - Examples and Computations with Conditional Independence
Link NOC:Probability Foundations for Electrical Engineers Lecture 19 - Binomial and Geometric Models
Link NOC:Probability Foundations for Electrical Engineers Lecture 20 - Examples: Binomial and Geometric Model
Link NOC:Probability Foundations for Electrical Engineers Lecture 21 - Definition and Discrete Setting
Link NOC:Probability Foundations for Electrical Engineers Lecture 22 - RandomVariables and Events
Link NOC:Probability Foundations for Electrical Engineers Lecture 23 - Examples: Discrete random variables
Link NOC:Probability Foundations for Electrical Engineers Lecture 24 - Important distributions
Link NOC:Probability Foundations for Electrical Engineers Lecture 25 - Examples: Discrete PMFs
Link NOC:Probability Foundations for Electrical Engineers Lecture 26 - Real-life modeling example
Link NOC:Probability Foundations for Electrical Engineers Lecture 27 - More Distributions
Link NOC:Probability Foundations for Electrical Engineers Lecture 28 - Conditional PMFs, Conditioning on an event, Indicator random variables
Link NOC:Probability Foundations for Electrical Engineers Lecture 29 - Example: Conditioning on an event, Indicator random variables
Link NOC:Probability Foundations for Electrical Engineers Lecture 30 - Multiple random variables and joint distribution
Link NOC:Probability Foundations for Electrical Engineers Lecture 31 - Example: Two random variables
Link NOC:Probability Foundations for Electrical Engineers Lecture 32 - Marginal PMF
Link NOC:Probability Foundations for Electrical Engineers Lecture 33 - Trinomial joint PMF
Link NOC:Probability Foundations for Electrical Engineers Lecture 34 - Events and Conditioning with Two Random Variables
Link NOC:Probability Foundations for Electrical Engineers Lecture 35 - Example: compute marginal and conditional PMFs, probability of events
Link NOC:Probability Foundations for Electrical Engineers Lecture 36 - Independent random variables
Link NOC:Probability Foundations for Electrical Engineers Lecture 37 - More on independence
Link NOC:Probability Foundations for Electrical Engineers Lecture 38 - Example: IID Repetitions
Link NOC:Probability Foundations for Electrical Engineers Lecture 39 - Addition of Random Variables
Link NOC:Probability Foundations for Electrical Engineers Lecture 40 - Sum, Difference and Max of Two Random Variables
Link NOC:Probability Foundations for Electrical Engineers Lecture 41 - More Computations: Min of Two Random Variables
Link NOC:Probability Foundations for Electrical Engineers Lecture 42 - Example: X+Y, X-Y, min(X,Y), max(X,Y)
Link NOC:Probability Foundations for Electrical Engineers Lecture 43 - Real line as sample space
Link NOC:Probability Foundations for Electrical Engineers Lecture 44 - Probability density function (pdf)
Link NOC:Probability Foundations for Electrical Engineers Lecture 45 - Cumulative distribution function (CDF)
Link NOC:Probability Foundations for Electrical Engineers Lecture 46 - Continuous random variables
Link NOC:Probability Foundations for Electrical Engineers Lecture 47 - pdf and CDF of continuous random variables
Link NOC:Probability Foundations for Electrical Engineers Lecture 48 - Spinning pointer example
Link NOC:Probability Foundations for Electrical Engineers Lecture 49 - Important continuous distributions
Link NOC:Probability Foundations for Electrical Engineers Lecture 50 - More continuous distributions
Link NOC:Probability Foundations for Electrical Engineers Lecture 51 - Two-dimensional real sample space
Link NOC:Probability Foundations for Electrical Engineers Lecture 52 - Joint pdf and joint CDF
Link NOC:Probability Foundations for Electrical Engineers Lecture 53 - More on assigning probability to regions of x-y plain
Link NOC:Probability Foundations for Electrical Engineers Lecture 54 - Darts example and marginal pdfs
Link NOC:Probability Foundations for Electrical Engineers Lecture 55 - Independence to two continuous random variables
Link NOC:Probability Foundations for Electrical Engineers Lecture 56 - Examples: two independent continuous random variables
Link NOC:Probability Foundations for Electrical Engineers Lecture 57 - Prob[ X > Y ]: computation of probability of a non-rectangular region
Link NOC:Probability Foundations for Electrical Engineers Lecture 58 - Transformations of random variables
Link NOC:Probability Foundations for Electrical Engineers Lecture 59 - CDF method
Link NOC:Probability Foundations for Electrical Engineers Lecture 60 - pdf method
Link NOC:Probability Foundations for Electrical Engineers Lecture 61 - Examples
Link NOC:Probability Foundations for Electrical Engineers Lecture 62 - One-to-one transformations
Link NOC:Probability Foundations for Electrical Engineers Lecture 63 - Expected Value or Mean of a Random Variable
Link NOC:Probability Foundations for Electrical Engineers Lecture 64 - Properties of Expectation
Link NOC:Probability Foundations for Electrical Engineers Lecture 65 - Expectation Computations for Important Distributions
Link NOC:Probability Foundations for Electrical Engineers Lecture 66 - Variance
Link NOC:Probability Foundations for Electrical Engineers Lecture 67 - Examples of Variance
Link NOC:Probability Foundations for Electrical Engineers Lecture 68 - Expectations with Two Random Variables
Link NOC:Probability Foundations for Electrical Engineers Lecture 69 - Correlation and Covariance
Link NOC:Probability Foundations for Electrical Engineers Lecture 70 - Examples: Continuous Distributions
Link NOC:Probability Foundations for Electrical Engineers Lecture 71 - Examples: Symmetry
Link NOC:Probability Foundations for Electrical Engineers Lecture 72 - Examples: Discrete Distributions
Link NOC:Probability Foundations for Electrical Engineers Lecture 73 - Live Session
Link NOC:Introduction to Photonics Lecture 1 - Introduction to Photonics
Link NOC:Introduction to Photonics Lecture 2 - Diffraction and Interference
Link NOC:Introduction to Photonics Lecture 3 - Tutorial on Ray Optics and Wave Optics
Link NOC:Introduction to Photonics Lecture 4 - Lab Demonstration : Diffractions and Interference
Link NOC:Introduction to Photonics Lecture 5 - Interferometers
Link NOC:Introduction to Photonics Lecture 6 - Coherence
Link NOC:Introduction to Photonics Lecture 7 - Spatial and Temporal Coherence
Link NOC:Introduction to Photonics Lecture 8 - Tutorial on Wave Optics
Link NOC:Introduction to Photonics Lecture 9 - Lab Demonstration: Michelson Interferometer
Link NOC:Introduction to Photonics Lecture 10 - Electromagnetic Optics
Link NOC:Introduction to Photonics Lecture 11 - Fiber Optics
Link NOC:Introduction to Photonics Lecture 12 - Photon Properties
Link NOC:Introduction to Photonics Lecture 13 - Lab Demonstration: Fiber modes, NA and MFD
Link NOC:Introduction to Photonics Lecture 14 - Photon Optics
Link NOC:Introduction to Photonics Lecture 15 - Tutorial on Photon optics
Link NOC:Introduction to Photonics Lecture 16 - Photon interaction - 1
Link NOC:Introduction to Photonics Lecture 17 - Photon interaction - 2
Link NOC:Introduction to Photonics Lecture 18 - Lab Demonstration: Interaction of light with matter
Link NOC:Introduction to Photonics Lecture 19 - Optical Amplification
Link NOC:Introduction to Photonics Lecture 20 - Three Level systems
Link NOC:Introduction to Photonics Lecture 21 - Four Level Systems
Link NOC:Introduction to Photonics Lecture 22 - EDFA Introduction
Link NOC:Introduction to Photonics Lecture 23 - EDFA Tutorial
Link NOC:Introduction to Photonics Lecture 24 - Lasers Part - 1
Link NOC:Introduction to Photonics Lecture 25 - Lab Demonstration: EDFA Characterization
Link NOC:Introduction to Photonics Lecture 26 - Lasers part- 2
Link NOC:Introduction to Photonics Lecture 27 - Lasers part- 3
Link NOC:Introduction to Photonics Lecture 28 - Lasers part- 4
Link NOC:Introduction to Photonics Lecture 29 - Lab Demonstration: Fiber Laser
Link NOC:Introduction to Photonics Lecture 30 - Semiconductor light Source and detector - Band structure
Link NOC:Introduction to Photonics Lecture 31 - Semiconductor light Source and detector - Light emission
Link NOC:Introduction to Photonics Lecture 32 - Semiconductor light Source and detector LED Characteristics
Link NOC:Introduction to Photonics Lecture 33 - Lab Demonstration: Semiconductor Sources
Link NOC:Introduction to Photonics Lecture 34 - Semiconductor light Source and detector Laser Characteristics
Link NOC:Introduction to Photonics Lecture 35 - Semiconductor Detectors - 1
Link NOC:Introduction to Photonics Lecture 36 - Semiconductor Detectors - 2
Link NOC:Introduction to Photonics Lecture 37 - Semiconductor Detectors - 3
Link NOC:Introduction to Photonics Lecture 38 - Lab Demonstration: Semiconductor Detectors
Link NOC:Introduction to Photonics Lecture 39 - Semiconductor Detectors - 4
Link NOC:Introduction to Photonics Lecture 40 - Light manipulation-Mallus' Law
Link NOC:Introduction to Photonics Lecture 41 - Light manipulation-Birefringence
Link NOC:Introduction to Photonics Lecture 42 - Light manipulation-Faraday Rotation
Link NOC:Introduction to Photonics Lecture 43 - Lab Demonstration: Manipulation of Light Intensity and Polarization
Link NOC:Introduction to Photonics Lecture 44 - Non-linear optics-Pockels effect
Link NOC:Introduction to Photonics Lecture 45 - Non-linear optics-Kerr Effect
Link NOC:Introduction to Photonics Lecture 46 - Lab Demonstration: Manipulation of Light Electro Optic Modulator (EOM)
Link NOC:Introduction to Photonics Lecture 47 - Non-linear optics-stimulated Brillouin scattering
Link NOC:Introduction to Photonics Lecture 48 - Non-linear optics-stimulated Raman scattering
Link NOC:Multirate DSP Lecture 1 - Introduction to Multirate DSP - Part 1
Link NOC:Multirate DSP Lecture 2 - Introduction to Multirate DSP - Part 2
Link NOC:Multirate DSP Lecture 3 - Sampling and Nyquist criterion - Part 1
Link NOC:Multirate DSP Lecture 4 - Sampling and Nyquist criterion - Part 2
Link NOC:Multirate DSP Lecture 5 - Signal Reconstruction - Part 1
Link NOC:Multirate DSP Lecture 6 - Signal Reconstruction - Part 2
Link NOC:Multirate DSP Lecture 7 - Reconstruction filter - Part 1
Link NOC:Multirate DSP Lecture 8 - Reconstruction filter - Part 2
Link NOC:Multirate DSP Lecture 9 - Discrete time processing of continuous time signal - Part 1
Link NOC:Multirate DSP Lecture 10 - Discrete time processing of continuous time signal - Part 2
Link NOC:Multirate DSP Lecture 11 - DT processing of CT signal example
Link NOC:Multirate DSP Lecture 12 - Time scaling- upsampler and downsampler - Part 1
Link NOC:Multirate DSP Lecture 13 - Time scaling- upsampler and downsampler - Part 2
Link NOC:Multirate DSP Lecture 14 - Upsampler and downsampler- continued - Part 1
Link NOC:Multirate DSP Lecture 15 - Upsampler and downsampler- continued - Part 2
Link NOC:Multirate DSP Lecture 16 - Decimator properties
Link NOC:Multirate DSP Lecture 17 - Properties of Upsampler and Downsampler
Link NOC:Multirate DSP Lecture 18 - Fractional sampling rate change - Part 1
Link NOC:Multirate DSP Lecture 19 - Fractional sampling rate change - Part 2
Link NOC:Multirate DSP Lecture 20 - Multiplexer/ demultiplexer interpretation
Link NOC:Multirate DSP Lecture 21 - Noble identities and polyphase decomposition - Part 1
Link NOC:Multirate DSP Lecture 22 - Noble identities and polyphase decomposition - Part 2
Link NOC:Multirate DSP Lecture 23 - Polyphase decomposition continued - Part 1
Link NOC:Multirate DSP Lecture 24 - Polyphase decomposition continued - Part 2
Link NOC:Multirate DSP Lecture 25 - Introduction to Multirate Filter Banks
Link NOC:Multirate DSP Lecture 26 - Applications of Multirate - Part 1
Link NOC:Multirate DSP Lecture 27 - Applications of Multirate - Part 2
Link NOC:Multirate DSP Lecture 28 - Spectral Analysis of Filter Bank - Part 1
Link NOC:Multirate DSP Lecture 29 - Spectral Analysis of Filter Bank - Part 2
Link NOC:Multirate DSP Lecture 30 - DFT and High Resolution Spectral Analysis - Part 1
Link NOC:Multirate DSP Lecture 31 - DFT and High Resolution Spectral Analysis - Part 2
Link NOC:Multirate DSP Lecture 32 - Transmultiplexer and Maximally Decimated Filterbanks - Part 1
Link NOC:Multirate DSP Lecture 33 - Transmultiplexer and Maximally Decimated Filterbanks - Part 2
Link NOC:Multirate DSP Lecture 34 - Maximally Decimated Filterbanks 2 - Part 1
Link NOC:Multirate DSP Lecture 35 - Maximally Decimated Filterbanks 2 - Part 2
Link NOC:Multirate DSP Lecture 36 - Study of Two-channel filter bank
Link NOC:Multirate DSP Lecture 37 - Introduction to Quadrature Mirror Filters (QMF)
Link NOC:Multirate DSP Lecture 38 - 2-channel QMF Filter Bank Design
Link NOC:Multirate DSP Lecture 39 - Study of All-pass filters
Link NOC:Multirate DSP Lecture 40 - Study of All-pass lattice
Link NOC:Multirate DSP Lecture 41 - All-pass decomposition, the study of Mth band and Nyquist filters
Link NOC:Multirate DSP Lecture 42 - Study of two-channel filter bank with perfect reconstruction
Link NOC:Multirate DSP Lecture 43 - First part name : Perfect Reconstruction Final Overview. Second part name : Introduction to OFDM- Motivation - Part 1
Link NOC:Multirate DSP Lecture 44 - First part name : Perfect Reconstruction Final Overview. Second part name : Introduction to OFDM- Motivation - Part 2
Link NOC:Multirate DSP Lecture 45 - Capacity of wireless channels - CSIR - Part 1
Link NOC:Multirate DSP Lecture 46 - Capacity of wireless channels - CSIT - Part 2
Link NOC:Multirate DSP Lecture 47 - Capacity of wireless channels - Formulation of capacity calculation - Part 3
Link NOC:Multirate DSP Lecture 48 - Capacity of wireless channels - Formulation of capacity calculation (Continued...) - Part 1
Link NOC:Multirate DSP Lecture 49 - Capacity of wireless channels - Formulation of capacity calculation (Continued...) - Part 2
Link NOC:Multirate DSP Lecture 50 - Capacity of wireless channels - Time-invariant Frequency selective channel - Part 3
Link NOC:Multirate DSP Lecture 51 - Capacity of wireless channels - Time varying Frequency selective channels - Part 1
Link NOC:Multirate DSP Lecture 52 - Multi-rate DSP framework for Multi-carrier Modulation - Part 2
Link NOC:Multirate DSP Lecture 53 - MCM with overlapping spectra - Part 1
Link NOC:Multirate DSP Lecture 54 - Recap of multirate DSP concepts for building OFDM - Part 2
Link NOC:Multirate DSP Lecture 55 - Introduction to Redundancy and it's implementation in multi-rate framework - Part 3
Link NOC:Multirate DSP Lecture 56 - M-channel multicarrier Transceiver - Part 1
Link NOC:Multirate DSP Lecture 57 - M-channel multicarrier Transceiver - Part 2
Link NOC:Multirate DSP Lecture 58 - M-channel multicarrier Transceiver - Part 3
Link NOC:Multirate DSP Lecture 59 - Pseudo -circulant structure - Part 1
Link NOC:Multirate DSP Lecture 60 - Pseudo -circulant structure - Part 2
Link NOC:Multirate DSP Lecture 61 - MCM impairments and CP - Part 1
Link NOC:Multirate DSP Lecture 62 - MCM impairments and CP - Part 2
Link NOC:Multirate DSP Lecture 63 - Orthogonal Frequency Division Multiplexing - Part 1
Link NOC:Multirate DSP Lecture 64 - Orthogonal Frequency Division Multiplexing - Part 2
Link NOC:Multirate DSP Lecture 65 - Review of OFDM with CP
Link NOC:Multirate DSP Lecture 66 - Review of Lec 1-28
Link NOC:Multirate DSP Lecture 67 - OFDM applications - Quantization - Part 1
Link NOC:Multirate DSP Lecture 68 - OFDM applications - Quantization - Part 2
Link NOC:Multirate DSP Lecture 69 - Some more applications of MDSP
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 1 - Additive White Gaussian Noise (AWGN) Channel and BPSK
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 2 - Bit Error Rate (BER) and Signal to Noise Ratio (SNR)
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 3 - Error Correction Coding in a Digital Communication System
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 4 - Complementary Error Function
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 5 - Simulation of Uncoded BPSK and BER v/s Eb/N0 plot Generation in MATLAB/Octave
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 6 - n = 3 Repetition Code
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 7 - Implementation of n = 3 Repetition Code in MATLAB
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 8 - (7,4) Hamming Code
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 9 - A Brief Introduction to Linear Block Codes
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 10 - Simulation of (7,4) Hamming Code in MATLAB
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 11 - Low Density Parity Check Codes: definition, properties and introduction to protograph construction
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 12 - LDPC Codes in 5G: protograph, base matrix, expansion
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 13 - Encoding LDPC codes in 5G
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 14 - MATLAB programs for encoding LDPC codes
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 15 - Log-Likelihood Ratio and Soft Input and Soft Output (SISO) Decoder for the Repetition Code
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 16 - Soft Input and Soft Output (SISO) Decoder for the Single Parity Check (SPC) Code
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 17 - Illustration of SISO decoder for (3,2) SPC code and min-sum approximation
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 18 - SISO decoder for a general (n,n-1) SPC code
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 19 - Soft-Input Soft-Output Iterative Message Passing Decoder for LDPC Codes
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 20 - A Toy Example Illustration of the SISO MInsum Iterative Message Passing Decoder
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 21 - Modifications to the Decoder: Layered Decoding and Offset
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 22 - Implementation of SISO Layered Minsum Iterative Message Passing Decoder in MATLAB
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 23 - Debugging and Improvements to the MATLAB Implementation
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 24 - Rate Matching in LDPC Codes using Puncturing and Shortening
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 25 - Implementation of Fixed Point Quantization and Offset Minsum in the Decoder
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 26 - Introduction to Polar Codes: Polar Transform
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 27 - Channel Polarization, Definition of (N,K) Polar Code and Encoding
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 28 - MATLAB Implementation for Encoding Polar Codes
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 29 - Successive Cancellation (SC) Decoder for Polar Codes: Illustration of its Building Blocks with N=2,4
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 30 - Successive Cancellation (SC) Decoder for a General (N,K) Polar Code
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 31 - MATLAB Implementation of Successive Cancellation Decoder - Part 1
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 32 - MATLAB Implementation of Successive Cancellation Decoder - Part 2
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 33 - Successive Cancellation List Decoding
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 34 - Fixed Point Quantization for SC Decoder and LDPC Decoder
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 35 - MATLAB Implementation of Successive Cancellation List Decoding
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 36 - Rate Matching for LDPC codes
Link NOC:LDPC and Polar Codes in 5G Standard Lecture 37 - Performance Comparison of LDPC codes and Polar Codes in 5G
Link NOC:Electromagnetic Compatibility, EMC Lecture 1 - Introduction to EMC - Definitions
Link NOC:Electromagnetic Compatibility, EMC Lecture 2 - Introduction to EMC - Sources, units etc
Link NOC:Electromagnetic Compatibility, EMC Lecture 3 - Electromagnetic principles - Faraday's and Ampere's equations
Link NOC:Electromagnetic Compatibility, EMC Lecture 4 - Electromagnetic principles - Gauss's equation, boundary conditions
Link NOC:Electromagnetic Compatibility, EMC Lecture 5 - Electromagnetic principles - Uniform plane wave
Link NOC:Electromagnetic Compatibility, EMC Lecture 6 - Electromagnetic principles - Transmission lines
Link NOC:Electromagnetic Compatibility, EMC Lecture 7 - Electromagnetic principles - Dipoles
Link NOC:Electromagnetic Compatibility, EMC Lecture 8 - High-frequency behaviour of components - Conductors
Link NOC:Electromagnetic Compatibility, EMC Lecture 9 - High-frequency behaviour of components - Capacitors, inductors, resistors
Link NOC:Electromagnetic Compatibility, EMC Lecture 10 - High-frequency behaviour of components - Mechanical switches and transformers
Link NOC:Electromagnetic Compatibility, EMC Lecture 11 - Crosstalk or near-field coupling - Capacitive coupling, inductive coupling, common-impedance coupling
Link NOC:Electromagnetic Compatibility, EMC Lecture 12 - Crosstalk or near-field coupling - Crosstalk combinations
Link NOC:Electromagnetic Compatibility, EMC Lecture 13 - Crosstalk or near-field coupling - Coupling to shielded cables
Link NOC:Electromagnetic Compatibility, EMC Lecture 14 - Electromagnetic coupling in the far-field
Link NOC:Electromagnetic Compatibility, EMC Lecture 15 - Field Coupling - Exercises
Link NOC:Electromagnetic Compatibility, EMC Lecture 16 - Solutions to EMC problems - Lay out and control of interfaces
Link NOC:Electromagnetic Compatibility, EMC Lecture 17 - Solutions to EMC problems - Grounding or earthing
Link NOC:Electromagnetic Compatibility, EMC Lecture 18 - Solutions to EMC problems - Electromagnetic Shielding
Link NOC:Electromagnetic Compatibility, EMC Lecture 19 - Solutions to EMC problems - Electromagnetic Shielding (Continued...)
Link NOC:Electromagnetic Compatibility, EMC Lecture 20 - Solutions to EMC problems - Shielded cables
Link NOC:Electromagnetic Compatibility, EMC Lecture 21 - Solutions to EMC problems - Filters and Surge protectors
Link NOC:Electromagnetic Compatibility, EMC Lecture 22 - Lightning Protection - Introduction
Link NOC:Electromagnetic Compatibility, EMC Lecture 23 - Lightning protection - Currents, charges and fields
Link NOC:Electromagnetic Compatibility, EMC Lecture 24 - Lightning Protection - Buildings
Link NOC:Electromagnetic Compatibility, EMC Lecture 25 - Lightning Protection - Towers, Lightning safety
Link NOC:Electromagnetic Compatibility, EMC Lecture 26 - EMC Requirements and Standard, Testing and Difficulties - 1
Link NOC:Electromagnetic Compatibility, EMC Lecture 27 - EMC Requirements and Standard, Testing and Difficulties - 2
Link NOC:Electromagnetic Compatibility, EMC Lecture 28 - Intentional Electromagnetic Interference or IEMI - 1
Link NOC:Electromagnetic Compatibility, EMC Lecture 29 - Intentional Electromagnetic Interference or IEMI - 2
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 1 - Introduction: Objectives and Pre-requisites
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 2 - Review of digital logic
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 3 - Timing and Power in digital circuits
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 4 - Implementation Costs and Metrics
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 5 - Example: Audio processing
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 6 - Example: AlexNet
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 7 - Architecture cost components
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 8 - Examples of Architectures
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 9 - Multi-objective Optimization
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 10 - Number representation
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 11 - Scientific notation and Floating point
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 12 - Basic FIR filter
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 13 - Serial FIR filter architectures
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 14 - Simple programmable architecture
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 15 - Block diagrams and SFGs
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 16 - Dataflow Graphs
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 17 - Iteration period
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 18 - FIR filter iteration period
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 19 - IIR filter iteration period
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 20 - Computation Model
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 21 - Constraint analysis for IPB computation
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 22 - Motivational examples for IPB
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 23 - General IPB computation
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 24 - Sample period calculation
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 25 - Parallel architecture
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 26 - Odd-even register reuse
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 27 - Power consumption
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 28 - Pipelining
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 29 - Time-invariant systems
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 30 - Valid pipelining examples
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 31 - Feedforward cutsets
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 32 - Balanced pipeline
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 33 - Retiming basic concept
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 34 - Retiming basic concept
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 35 - Example and uses of retiming
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 36 - Resource sharing: adder example
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 37 - Changing iteration period
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 38 - Hardware assumptions and constraint analysis
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 39 - Mathematical formulation
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 40 - Examples with formulation
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 41 - Example: Biquad filter
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 42 - Hardware architecture
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 43 - Review biquad folding sets
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 44 - Complete biquad hardware
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 45 - DEMO: FFT in Vivado HLS
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 46 - DEMO: FFT synthesis
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 47 - Obtaining a folding schedule
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 48 - ASAP schedule
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 49 - Utilization Efficiency
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 50 - ALAP schedule
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 51 - Iteration period bound and scheduling
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 52 - Retiming for scheduling
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 53 - Blocked schedules
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 54 - Overlapped schedules
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 55 - Improved blocked schedule
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 56 - Allocation, Binding and Scheduling
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 57 - DEMO: Analyze FFT implementation
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 58 - DEMO: FFT interface
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 59 - Scheduling: problem formulation
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 60 - Example: differential equation solver
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 61 - Heuristic approaches to scheduling
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 62 - Mathematical formulation
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 63 - ILP formulation
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 64 - List scheduling
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 65 - Hardware model
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 66 - Force Directed Scheduling
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 67 - DEMO: HLS on FFT
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 68 - DEMO: FFT Simulation and Optimization
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 69 - DEMO: CPU interfacing
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 70 - Software Compilation
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 71 - Optimization Examples
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 72 - Loop optimizations - 1
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 73 - Loop optimizations - 2
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 74 - Loop optimizations - 3
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 75 - Software pipelining - 1
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 76 - Software pipelining - 2
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 77 - FFT Optimization
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 78 - Demo: Vivado setup
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 79 - Background: CPUs and FPGAs
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 80 - Demo: Vivado HLS FFT IP Export
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 81 - Demo: Vivado ILA and VIO on hardware
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 82 - Demo: FFT on FPGA board
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 83 - Demo: Simulating SoC and SDK
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 84 - Background: Understanding ELF files
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 85 - On-chip communication basics
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 86 - Many-to-Many communication
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 87 - AXI bus handshaking
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 88 - AXI bus (Continued...)
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 89 - Demo: Microblaze processor on FPGA
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 90 - Demo: Performance counter AXI peripheral
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 91 - Demo: HW accelerator for FPGA
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 92 - DMA and arbitration
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 93 - Network-on-chip basics
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 94 - NoC - Topologies and metrics
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 95 - NoC - Routing
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 96 - NoC - Switching and flow control
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 97 - Systolic Arrays - Background
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 98 - Systolic Arrays - Examples
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 99 - CORDIC algorithm
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 100 - Parallel implementation of FIR filters
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 101 - Unfolding Transformation
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 102 - Lookahead Transformation
Link NOC:Mapping Signal Processing Algorithms to Architectures Lecture 103 - Introduction to GPUs and Matrix multiplication
Link NOC:Linear System Theory Lecture 1 - Introduction to Linear Systems
Link NOC:Linear System Theory Lecture 2 - System Models
Link NOC:Linear System Theory Lecture 3 - System Models - Part 1
Link NOC:Linear System Theory Lecture 4 - System Models - Part 2
Link NOC:Linear System Theory Lecture 5 - General Representation
Link NOC:Linear System Theory Lecture 6 - Sets, Functions and Fields
Link NOC:Linear System Theory Lecture 7 - Linear Algebra - Vector Spaces and Metric Spaces
Link NOC:Linear System Theory Lecture 8 - Linear Algebra - Span, Basis and Subspaces
Link NOC:Linear System Theory Lecture 9 - Linear Algebra - Linear Maps and Matrices
Link NOC:Linear System Theory Lecture 10 - Linear Algebra - Fundamental Subspaces and Rank-Nullity
Link NOC:Linear System Theory Lecture 11 - Tutorial 1 on Linear Algebra
Link NOC:Linear System Theory Lecture 12 - Linear Algebra - Change of Basis and Similarity Transformation
Link NOC:Linear System Theory Lecture 13 - Linear Algebra - Invariant Subspaces, Eigen Values and Eigen Vectors
Link NOC:Linear System Theory Lecture 14 - Linear Algebra - Diagonalization and Jordan Forms
Link NOC:Linear System Theory Lecture 15 - Linear Algebra - Eigen Decomposition and Singular Value Decomposition
Link NOC:Linear System Theory Lecture 16 - Tutorial 2 on Linear Algebra
Link NOC:Linear System Theory Lecture 17 - Solutions to LTI Systems
Link NOC:Linear System Theory Lecture 18 - State Transition Matrix for LTI systems
Link NOC:Linear System Theory Lecture 19 - Forced Reponse of Continuous and Discrete LTI system
Link NOC:Linear System Theory Lecture 20 - State Transition Matrix and Solutions to LTV systems
Link NOC:Linear System Theory Lecture 21 - Equilibrium Points
Link NOC:Linear System Theory Lecture 22 - Limit Cycles and Linearisation
Link NOC:Linear System Theory Lecture 23 - Stability Analysis and Types of Stability
Link NOC:Linear System Theory Lecture 24 - Lyapunov Stability
Link NOC:Linear System Theory Lecture 25 - Stability of Discrete Time Systems
Link NOC:Linear System Theory Lecture 26 - Supplementary Lecture: Comparison Lemma and Lyapunov Stabilty
Link NOC:Linear System Theory Lecture 27 - Controllability and Reachability
Link NOC:Linear System Theory Lecture 28 - Controllability Matrix and Controllable Systems
Link NOC:Linear System Theory Lecture 29 - Controllability Tests
Link NOC:Linear System Theory Lecture 30 - Controllability of Discrete Time Systems
Link NOC:Linear System Theory Lecture 31 - Controllable Decomposition
Link NOC:Linear System Theory Lecture 32 - Stabilizability
Link NOC:Linear System Theory Lecture 33 - Observability
Link NOC:Linear System Theory Lecture 34 - Gramians and Duality
Link NOC:Linear System Theory Lecture 35 - Observability for Discrete Time Systems and Observability Tests
Link NOC:Linear System Theory Lecture 36 - Observable Decompositon and Detectability
Link NOC:Linear System Theory Lecture 37 - Kalman Decomposition and Minimal Realisation
Link NOC:Linear System Theory Lecture 38 - Canonical Forms and State Feedback Control
Link NOC:Linear System Theory Lecture 39 - Control Design using Pole Placement
Link NOC:Linear System Theory Lecture 40 - Tutorial for Modules 9 and 10
Link NOC:Linear System Theory Lecture 41 - State Estimation and Output Feedback
Link NOC:Linear System Theory Lecture 42 - Design of Observer and Observer based Controller
Link NOC:Linear System Theory Lecture 43 - Optimal Control and Linear Quadratic Regulator (LQR)
Link NOC:Linear System Theory Lecture 44 - Feedback Invariant and Algebraic Ricatti Equation
Link NOC:Linear System Theory Lecture 45 - Tutorial for Module 11
Link NOC:Linear System Theory Lecture 46 - Linear Matrix Inequalities
Link NOC:Linear System Theory Lecture 47 - Properties of LMIs and Delay LMIs
Link NOC:Digital Signal Processing Lecture 1 - Signal Definition and Classification
Link NOC:Digital Signal Processing Lecture 2 - Affine Transform
Link NOC:Digital Signal Processing Lecture 3 - Recap of Affine Transform
Link NOC:Digital Signal Processing Lecture 4 - Even and Odd Parts of a Signal
Link NOC:Digital Signal Processing Lecture 5 - The Unit Step Sequence
Link NOC:Digital Signal Processing Lecture 6 - The Unit Impulse
Link NOC:Digital Signal Processing Lecture 7 - The Unit Impulse (Continued...)
Link NOC:Digital Signal Processing Lecture 8 - Exponential Signals and Sinusoids
Link NOC:Digital Signal Processing Lecture 9 - Sinusoids (Continued...)
Link NOC:Digital Signal Processing Lecture 10 - When are two sinusoids independent?
Link NOC:Digital Signal Processing Lecture 11 - Another Difference Between CT and DT Sinusoids
Link NOC:Digital Signal Processing Lecture 12 - System definition and properties (linearity)
Link NOC:Digital Signal Processing Lecture 13 - Time-invariance, memory, causality, and stability
Link NOC:Digital Signal Processing Lecture 14 - LTI systems, impulse response, and convolution
Link NOC:Digital Signal Processing Lecture 15 - Properties of convolution, system interconnections
Link NOC:Digital Signal Processing Lecture 16 - Java applet demo of convolution
Link NOC:Digital Signal Processing Lecture 17 - Systems governed by LCCDE
Link NOC:Digital Signal Processing Lecture 18 - FIR and IIR systems
Link NOC:Digital Signal Processing Lecture 19 - Karplus-Strong algorithm
Link NOC:Digital Signal Processing Lecture 20 - Z-transform definition and RoC
Link NOC:Digital Signal Processing Lecture 21 - Z-transform (Continued...)
Link NOC:Digital Signal Processing Lecture 22 - Poles and zeros
Link NOC:Digital Signal Processing Lecture 23 - Recursive implementation of FIR filters
Link NOC:Digital Signal Processing Lecture 24 - Convergence criterion
Link NOC:Digital Signal Processing Lecture 25 - Properties of the RoC
Link NOC:Digital Signal Processing Lecture 26 - DTFT definition and absolute summability
Link NOC:Digital Signal Processing Lecture 27 - Linearity
Link NOC:Digital Signal Processing Lecture 28 - Delay
Link NOC:Digital Signal Processing Lecture 29 - Exponential multiplication
Link NOC:Digital Signal Processing Lecture 30 - Complex conjugation
Link NOC:Digital Signal Processing Lecture 31 - Time reversal
Link NOC:Digital Signal Processing Lecture 32 - Differentiation in the Z-domain
Link NOC:Digital Signal Processing Lecture 33 - Convolution in the time domain
Link NOC:Digital Signal Processing Lecture 34 - Relationship between x[n] and X(1)
Link NOC:Digital Signal Processing Lecture 35 - Initial Value Theorem
Link NOC:Digital Signal Processing Lecture 36 - Final Value Theorem
Link NOC:Digital Signal Processing Lecture 37 - Multiplication in the time domain
Link NOC:Digital Signal Processing Lecture 38 - Parseval's Theorem
Link NOC:Digital Signal Processing Lecture 39 - Partial Fractions Method
Link NOC:Digital Signal Processing Lecture 40 - Power series method
Link NOC:Digital Signal Processing Lecture 41 - Contour Integral Method
Link NOC:Digital Signal Processing Lecture 42 - Contour Integral Method (Continued...)
Link NOC:Digital Signal Processing Lecture 43 - Inverse DTFT
Link NOC:Digital Signal Processing Lecture 44 - DTFT of Sequences that are not absolutely summable
Link NOC:Digital Signal Processing Lecture 45 - Response to cos(?_0 n+?)
Link NOC:Digital Signal Processing Lecture 46 - Causality and Stability
Link NOC:Digital Signal Processing Lecture 47 - Response to suddenly applied inputs
Link NOC:Digital Signal Processing Lecture 48 - Introduction to frequency response
Link NOC:Digital Signal Processing Lecture 49 - Magnitude response and its geometric interpretation
Link NOC:Digital Signal Processing Lecture 50 - Magnitude Response (Continued...)
Link NOC:Digital Signal Processing Lecture 51 - Response of a single complex zero/pole
Link NOC:Digital Signal Processing Lecture 52 - Resonator and Improved Resonator
Link NOC:Digital Signal Processing Lecture 53 - Notch filter
Link NOC:Digital Signal Processing Lecture 54 - Moving Average Filter
Link NOC:Digital Signal Processing Lecture 55 - Comb filter
Link NOC:Digital Signal Processing Lecture 56 - Phase response of a single complex zero
Link NOC:Digital Signal Processing Lecture 57 - Effect of crossing a unit circle zero, wrapped and unwrapped phase, resonator phase response
Link NOC:Digital Signal Processing Lecture 58 - Allpass Filter
Link NOC:Digital Signal Processing Lecture 59 - Group delay and its physical interpretation
Link NOC:Digital Signal Processing Lecture 60 - Zero-phase filtering, effect on nonlinear phase on waveshape
Link NOC:Digital Signal Processing Lecture 61 - Zero-Phase Filtering, Linear Phase - 1
Link NOC:Digital Signal Processing Lecture 62 - Linear Phase - 2
Link NOC:Digital Signal Processing Lecture 63 - Linear Phase - 3
Link NOC:Digital Signal Processing Lecture 64 - Linear Phase - 3
Link NOC:Digital Signal Processing Lecture 65 - Linear Phase - 3
Link NOC:Digital Signal Processing Lecture 66 - Linear Phase - 4, Sampling - 1
Link NOC:Digital Signal Processing Lecture 67 - Linear Phase - 4, Sampling - 1
Link NOC:Digital Signal Processing Lecture 68 - Linear Phase - 4, Sampling - 1
Link NOC:Digital Signal Processing Lecture 69 - Sampling - 2
Link NOC:Digital Signal Processing Lecture 70 - Sampling - 3
Link NOC:Digital Signal Processing Lecture 71 - Sampling - 4
Link NOC:Digital Signal Processing Lecture 72 - Sampling - 4
Link NOC:Digital Signal Processing Lecture 73 - Sampling - 4
Link NOC:Digital Signal Processing Lecture 74 - The Discrete Fourier Transform - 1
Link NOC:Digital Signal Processing Lecture 75 - The Discrete Fourier Transform - 1
Link NOC:Digital Signal Processing Lecture 76 - The Discrete Fourier Transform - 2
Link NOC:Digital Signal Processing Lecture 77 - The Discrete Fourier Transform - 3
Link NOC:Digital Signal Processing Lecture 78 - The Discrete Fourier Transform - 3
Link NOC:Digital Signal Processing Lecture 79 - The Discrete Fourier Transform - 3
Link NOC:Digital Signal Processing Lecture 80 - The Discrete Fourier Transform - 4
Link NOC:Digital Signal Processing Lecture 81 - The Discrete Fourier Transform - 4
Link NOC:Digital Signal Processing Lecture 82 - The Discrete Fourier Transform - 4
Link NOC:Computational Electromagnetics Lecture 1 - Chain rule of differentiation
Link NOC:Computational Electromagnetics Lecture 2 - Gradient, Divergence, and Curl operators
Link NOC:Computational Electromagnetics Lecture 3 - Common theorems in vector calculus
Link NOC:Computational Electromagnetics Lecture 4 - Corollaries of these theorems
Link NOC:Computational Electromagnetics Lecture 5 - Mathematical History
Link NOC:Computational Electromagnetics Lecture 6 - Different regimes of Maxwell's equations
Link NOC:Computational Electromagnetics Lecture 7 - Different ways of solving them
Link NOC:Computational Electromagnetics Lecture 8 - Maxwell's Equations
Link NOC:Computational Electromagnetics Lecture 9 - Boundary Conditions
Link NOC:Computational Electromagnetics Lecture 10 - Uniqueness Theorem
Link NOC:Computational Electromagnetics Lecture 11 - Equivalence Theorem
Link NOC:Computational Electromagnetics Lecture 12 - Simple Numerical Integration
Link NOC:Computational Electromagnetics Lecture 13 - Interpolating a Function
Link NOC:Computational Electromagnetics Lecture 14 - Gauss Quadrature
Link NOC:Computational Electromagnetics Lecture 15 - Line Charge Problem
Link NOC:Computational Electromagnetics Lecture 16 - Solving the Integral Equation
Link NOC:Computational Electromagnetics Lecture 17 - Basis Functions
Link NOC:Computational Electromagnetics Lecture 18 - Helmholtz Equation
Link NOC:Computational Electromagnetics Lecture 19 - Solving Helmholtz Equation
Link NOC:Computational Electromagnetics Lecture 20 - Huygen's principle and the Extinction theorem
Link NOC:Computational Electromagnetics Lecture 21 - Formulating the integral equations
Link NOC:Computational Electromagnetics Lecture 22 - Conclusions of surface integral equations
Link NOC:Computational Electromagnetics Lecture 23 - Motivations for Green's functions
Link NOC:Computational Electromagnetics Lecture 24 - A one-dimensional example
Link NOC:Computational Electromagnetics Lecture 25 - 1-D example: alternate representation
Link NOC:Computational Electromagnetics Lecture 26 - 2-D wave example : finding solution
Link NOC:Computational Electromagnetics Lecture 27 - 2-D wave example : boundary conds
Link NOC:Computational Electromagnetics Lecture 28 - 2-D example : Evaluating Constants - Part 1
Link NOC:Computational Electromagnetics Lecture 29 - 2-D example : Evaluating Constants - Part 2
Link NOC:Computational Electromagnetics Lecture 30 - 3-D example
Link NOC:Computational Electromagnetics Lecture 31 - Motivation for MoM
Link NOC:Computational Electromagnetics Lecture 32 - Linear Vector Spaces
Link NOC:Computational Electromagnetics Lecture 33 - Formulating Method of Moments
Link NOC:Computational Electromagnetics Lecture 34 - Surface Integral Equations: Recap
Link NOC:Computational Electromagnetics Lecture 35 - Surface Integral Equations: Evaluating the Integrals - Part 1
Link NOC:Computational Electromagnetics Lecture 36 - Surface Integral Equations: Evaluating the Integrals - Part 2
Link NOC:Computational Electromagnetics Lecture 37 - Surface Integral Equations: Conclusion
Link NOC:Computational Electromagnetics Lecture 38 - Volume Integral Equations:Setting Up
Link NOC:Computational Electromagnetics Lecture 39 - Volume Integral Equations:Solving - Part 1
Link NOC:Computational Electromagnetics Lecture 40 - Volume Integral Equations:Solving - Part 2
Link NOC:Computational Electromagnetics Lecture 41 - Volume Integral Equations:Summary
Link NOC:Computational Electromagnetics Lecture 42 - Surface integral equations for PEC
Link NOC:Computational Electromagnetics Lecture 43 - Surface v/s volume integral equations
Link NOC:Computational Electromagnetics Lecture 44 - Definition of radar cross-section
Link NOC:Computational Electromagnetics Lecture 45 - Computational Considerations
Link NOC:Computational Electromagnetics Lecture 46 - History and Overview of the FEM
Link NOC:Computational Electromagnetics Lecture 47 - Basic framework of FEM
Link NOC:Computational Electromagnetics Lecture 48 - 1D Basis Functions
Link NOC:Computational Electromagnetics Lecture 49 - 2D Basis Functions
Link NOC:Computational Electromagnetics Lecture 50 - Weak form of 1D-FEM - Part 1
Link NOC:Computational Electromagnetics Lecture 51 - Weak form of 1D-FEM - Part 2
Link NOC:Computational Electromagnetics Lecture 52 - Generating System of Equations for 1D FEM
Link NOC:Computational Electromagnetics Lecture 53 - 1D wave equation: Formulation
Link NOC:Computational Electromagnetics Lecture 54 - 1D Wave Equation: Boundary Conditions
Link NOC:Computational Electromagnetics Lecture 55 - 1D Wave Equation: Basis and testing functions
Link NOC:Computational Electromagnetics Lecture 56 - 1D Wave Equation: Matrix assembly
Link NOC:Computational Electromagnetics Lecture 57 - 2D FEM Shape Functions
Link NOC:Computational Electromagnetics Lecture 58 - Converting to Weak Form (2D FEM)
Link NOC:Computational Electromagnetics Lecture 59 - Radiation Boundary Condition
Link NOC:Computational Electromagnetics Lecture 60 - Total field formulation
Link NOC:Computational Electromagnetics Lecture 61 - Scattered field formulation
Link NOC:Computational Electromagnetics Lecture 62 - Comparing total and scattered field formulation
Link NOC:Computational Electromagnetics Lecture 63 - Matrix assembly - Part 1
Link NOC:Computational Electromagnetics Lecture 64 - Matrix assembly - Part 2
Link NOC:Computational Electromagnetics Lecture 65 - Computing Far Field
Link NOC:Computational Electromagnetics Lecture 66 - Numerical Aspects of 2D FEM
Link NOC:Computational Electromagnetics Lecture 67 - Summary of FEM Procedure
Link NOC:Computational Electromagnetics Lecture 68 - Introduction to FDTD
Link NOC:Computational Electromagnetics Lecture 69 - 2D FDTD Formulation : Stencil
Link NOC:Computational Electromagnetics Lecture 70 - 2D FDTD Formulation : Time Stepping
Link NOC:Computational Electromagnetics Lecture 71 - 2D FDTD Formulation : Divergence Conditions
Link NOC:Computational Electromagnetics Lecture 72 - Stability Criteria - Part 1
Link NOC:Computational Electromagnetics Lecture 73 - Stability Criteria - Part 2
Link NOC:Computational Electromagnetics Lecture 74 - Stability Criteria - Higher Dimensions
Link NOC:Computational Electromagnetics Lecture 75 - Accuracy Considerations - 1D
Link NOC:Computational Electromagnetics Lecture 76 - Accuracy Considerations - Higher Dimensions
Link NOC:Computational Electromagnetics Lecture 77 - Dealing with non-dispersive dielectric media
Link NOC:Computational Electromagnetics Lecture 78 - Dealing with dispersive dielectric media
Link NOC:Computational Electromagnetics Lecture 79 - Debye Model - Part 1
Link NOC:Computational Electromagnetics Lecture 80 - Debye Model - Part 2
Link NOC:Computational Electromagnetics Lecture 81 - Absorbing Boundary Conditions - 1D
Link NOC:Computational Electromagnetics Lecture 82 - Absorbing Boundary Conditions - 2D
Link NOC:Computational Electromagnetics Lecture 83 - Implementing ABC in FDTD
Link NOC:Computational Electromagnetics Lecture 84 - Failure of ABC
Link NOC:Computational Electromagnetics Lecture 85 - Perfectly Matched Layers (PML) - Introduction
Link NOC:Computational Electromagnetics Lecture 86 - Implementing PML using Coordinate Stretching
Link NOC:Computational Electromagnetics Lecture 87 - PML - Phase Matching
Link NOC:Computational Electromagnetics Lecture 88 - PML - Tangential Boundary Conditions
Link NOC:Computational Electromagnetics Lecture 89 - Perfectly Matched Interface
Link NOC:Computational Electromagnetics Lecture 90 - PML theory - Summary
Link NOC:Computational Electromagnetics Lecture 91 - Implementing PML into FDTD - Part 1
Link NOC:Computational Electromagnetics Lecture 92 - Implementing PML into FDTD - Part 2
Link NOC:Computational Electromagnetics Lecture 93 - Sources in FDTD - Currents
Link NOC:Computational Electromagnetics Lecture 94 - Sources in FDTD - Part 2
Link NOC:Computational Electromagnetics Lecture 95 - Summary of FDTD
Link NOC:Computational Electromagnetics Lecture 96 - MEEP : FDTD in action
Link NOC:Computational Electromagnetics Lecture 97 - Inverse Problems - Introduction
Link NOC:Computational Electromagnetics Lecture 98 - Inverse Problems - Mathematical Formulation
Link NOC:Computational Electromagnetics Lecture 99 - Inverse Problems - Challenges
Link NOC:Computational Electromagnetics Lecture 100 - Inverse Problems - Non-Linearity
Link NOC:Computational Electromagnetics Lecture 101 - Inverse Problems - Summary
Link NOC:Computational Electromagnetics Lecture 102 - Antennas - Potential formulation
Link NOC:Computational Electromagnetics Lecture 103 - Antennas - Hertz Dipole - Part 1
Link NOC:Computational Electromagnetics Lecture 104 - Antennas - Hertz Dipole - Part 2
Link NOC:Computational Electromagnetics Lecture 105 - Antennas - Radiation Patterns
Link NOC:Computational Electromagnetics Lecture 106 - Antennas - Motivation for CEM
Link NOC:Computational Electromagnetics Lecture 107 - Antennas - Pocklington’s Integral Equation - Part 1
Link NOC:Computational Electromagnetics Lecture 108 - Antennas - Pocklington’s Integral Equation - Part 2
Link NOC:Computational Electromagnetics Lecture 109 - Antennas - Source Modeling
Link NOC:Computational Electromagnetics Lecture 110 - Antennas - Circuit Model
Link NOC:Computational Electromagnetics Lecture 111 - Antennas - MoM details
Link NOC:Computational Electromagnetics Lecture 112 - Antennas - Mutual Coupling - Part 1
Link NOC:Computational Electromagnetics Lecture 113 - Antennas - Mutual Coupling - Part 2
Link NOC:Computational Electromagnetics Lecture 114 - Hybrid Methods - Motivation
Link NOC:Computational Electromagnetics Lecture 115 - Finite Element-Boundary Integral - Part 1
Link NOC:Computational Electromagnetics Lecture 116 - Finite Element-Boundary Integral - Part 2
Link NOC:Computational Electromagnetics Lecture 117 - Finite Element-Boundary Integral - Part 3
Link NOC:Optimal Control Lecture 1 - Introduction and Performance Index
Link NOC:Optimal Control Lecture 2 - Basic Concepts of Calculus of Variation
Link NOC:Optimal Control Lecture 3 - The Basic Variational Problem
Link NOC:Optimal Control Lecture 4 - Fixed End Point Problem
Link NOC:Optimal Control Lecture 5 - Free End Point Problem
Link NOC:Optimal Control Lecture 6 - Free End Point Problem (Continued...)
Link NOC:Optimal Control Lecture 7 - Free End Point Problem (Continued...)
Link NOC:Optimal Control Lecture 8 - Free End Point Problem (Continued...)
Link NOC:Optimal Control Lecture 9 - Optimum of Functions with Conditions
Link NOC:Optimal Control Lecture 10 - Optimum of Functions with Conditions (Lagrange Multiplier Method)
Link NOC:Optimal Control Lecture 11 - Optimum of Functional with Conditions
Link NOC:Optimal Control Lecture 12 - Variational Approach to Optimal Control Systems
Link NOC:Optimal Control Lecture 13 - Variational Approach to Optimal Control Systems (Continued...)
Link NOC:Optimal Control Lecture 14 - Linear Quadratic Optimal Control Systems
Link NOC:Optimal Control Lecture 15 - Linear Quadratic Optimal Control Systems (Continued...)
Link NOC:Optimal Control Lecture 16 - Linear Quadratic Optimal Control Systems (Continued...)
Link NOC:Optimal Control Lecture 17 - Linear Quadratic Optimal Control Systems (Continued...)
Link NOC:Optimal Control Lecture 18 - Linear Quadratic Optimal Control Systems (Continued...)
Link NOC:Optimal Control Lecture 19 - Linear Quadratic Optimal Control Systems (Optimal Value of Performance Index)
Link NOC:Optimal Control Lecture 20 - Infinite Horizon Regulator Problem
Link NOC:Optimal Control Lecture 21 - Infinite Horizon Regulator Problem (Continued...)
Link NOC:Optimal Control Lecture 22 - Analytical Solution of MDRE - State Transition Matrix Approach
Link NOC:Optimal Control Lecture 23 - Analytical Solution of MDRE - Similarity Transformation Approach
Link NOC:Optimal Control Lecture 24 - Analytical Solution of MDRE - Similarity Transformation Approach (Continued...)
Link NOC:Optimal Control Lecture 25 - Frequency Domain Interpretation of LQR - Linear Time Invariant System
Link NOC:Optimal Control Lecture 26 - Frequency Domain Interpretation of LQR - Linear Time Invariant System (Continued...)
Link NOC:Optimal Control Lecture 27 - LQR with a Specified Degree of Stability
Link NOC:Optimal Control Lecture 28 - Inverse Matrix Riccati Equation
Link NOC:Optimal Control Lecture 29 - Linear Quadratic Tracking System
Link NOC:Optimal Control Lecture 30 - Discrete-Time Optimal Control Systems
Link NOC:Optimal Control Lecture 31 - Discrete-Time Optimal Control Systems (Continued...)
Link NOC:Optimal Control Lecture 32 - Discrete-Time Optimal Control Systems (Continued...)
Link NOC:Optimal Control Lecture 33 - Matrix Discrete Riccati Equation
Link NOC:Optimal Control Lecture 34 - Analytical Solution of Matrix Difference Riccati Equation
Link NOC:Optimal Control Lecture 35 - Analytical Solution of Matrix Difference Riccati Equation (Continued...)
Link NOC:Optimal Control Lecture 36 - Optimal Control using Dynamic Programming
Link NOC:Optimal Control Lecture 37 - The Hamilton-Jacobi-Bellman (HJB) Equation
Link NOC:Optimal Control Lecture 38 - LQR System Using HJB Equation
Link NOC:Optimal Control Lecture 39 - Time Optimal Control System - Constrained Input
Link NOC:Optimal Control Lecture 40 - Time Optimal Control System (Continued...)
Link NOC:Basics of Software Defined Radios and Practical Applications Lecture 1 - Foundation for software defined radio
Link NOC:Basics of Software Defined Radios and Practical Applications Lecture 2 - Components of a software defined radio
Link NOC:Basics of Software Defined Radios and Practical Applications Lecture 3 - Software defined radio architectures - Part I
Link NOC:Basics of Software Defined Radios and Practical Applications Lecture 4 - Software defined radio architectures - Part II
Link NOC:Basics of Software Defined Radios and Practical Applications Lecture 5 - Software defined radio architectures - Part III
Link NOC:Basics of Software Defined Radios and Practical Applications Lecture 6 - Software defined radio architectures - Part IV
Link NOC:Basics of Software Defined Radios and Practical Applications Lecture 7 - Distortion Parameters - Part I
Link NOC:Basics of Software Defined Radios and Practical Applications Lecture 8 - Distortion Parameters - Part II
Link NOC:Basics of Software Defined Radios and Practical Applications Lecture 9 - Distortion Parameters: Nonlinear Distortion
Link NOC:Basics of Software Defined Radios and Practical Applications Lecture 10 - Distortion Parameters: Nonlinearity Specifications
Link NOC:Basics of Software Defined Radios and Practical Applications Lecture 11 - Power Amplifiers: Nonlinear Distortion in Transmitted Signals
Link NOC:Basics of Software Defined Radios and Practical Applications Lecture 12 - Power Amplifiers: Useful Definitions
Link NOC:Basics of Software Defined Radios and Practical Applications Lecture 13 - Case study-I: Power amplifier Line-up for achieving linearity and power requirement example
Link NOC:Basics of Software Defined Radios and Practical Applications Lecture 14 - Case study-II: Power amplifier Line-up for linearity and power requirement: Need for linearization techniques
Link NOC:Basics of Software Defined Radios and Practical Applications Lecture 15 - Behavioral models for representing nonlinear distortions
Link NOC:Basics of Software Defined Radios and Practical Applications Lecture 16 - Linearization Techniques for nonlinear distortion
Link NOC:Basics of Software Defined Radios and Practical Applications Lecture 17 - Predistortion Techniques for nonlinearity distortion in SDR
Link NOC:Basics of Software Defined Radios and Practical Applications Lecture 18 - Basic Digital Predistortion Techniques for nonlinear distortion in SDR
Link NOC:Basics of Software Defined Radios and Practical Applications Lecture 19 - State-of-the-art Digital Predistortion Techniques for Nonlinear Distortion in SDR
Link NOC:Basics of Software Defined Radios and Practical Applications Lecture 20 - Digital Predistortion Techniques for Linear as well as Nonlinear Distortion in SDR
Link NOC:Electrical Distribution System Analysis Lecture 1 - Introduction to Electrical Distribution System
Link NOC:Electrical Distribution System Analysis Lecture 2 - Components of Distribution System Substation and Busbar Layouts
Link NOC:Electrical Distribution System Analysis Lecture 3 - Components of Distribution System and Feeder Configurations
Link NOC:Electrical Distribution System Analysis Lecture 4 - Nature of Loads in a Distribution System
Link NOC:Electrical Distribution System Analysis Lecture 5 - Load Allocation in a Distribution System
Link NOC:Electrical Distribution System Analysis Lecture 6 - K Factors and Their Applications
Link NOC:Electrical Distribution System Analysis Lecture 7 - Analysis of Uniformly Distributed
Link NOC:Electrical Distribution System Analysis Lecture 8 - Lumping Loads in Geometric Configurations Rectangular
Link NOC:Electrical Distribution System Analysis Lecture 9 - Lumping Loads in Geometric Configurations Triangular
Link NOC:Electrical Distribution System Analysis Lecture 10 - Impedance of Distribution Lines and Feeders - Part I
Link NOC:Electrical Distribution System Analysis Lecture 11 - Series Impedance of Distribution Lines and Feeders - Part II
Link NOC:Electrical Distribution System Analysis Lecture 12 - Models of Distribution Lines and Cables
Link NOC:Electrical Distribution System Analysis Lecture 13 - Modelling of Single-Phase and Three-Phase Transformers
Link NOC:Electrical Distribution System Analysis Lecture 14 - Modelling of Three-Phase Transformers - Part I
Link NOC:Electrical Distribution System Analysis Lecture 15 - Modelling of Three-Phase Transformers - Part II
Link NOC:Electrical Distribution System Analysis Lecture 16 - Modelling of Three-Phase Transformers - Part III
Link NOC:Electrical Distribution System Analysis Lecture 17 - Modelling of Three-Phase Transformers - Part IV
Link NOC:Electrical Distribution System Analysis Lecture 18 - Modelling of Step Voltage Regulators - Part I
Link NOC:Electrical Distribution System Analysis Lecture 19 - Modelling of Step Voltage Regulators - Part II
Link NOC:Electrical Distribution System Analysis Lecture 20 - Modelling of Step Voltage Regulators - Part III
Link NOC:Electrical Distribution System Analysis Lecture 21 - Modelling of Step Voltage Regulators - Part IV
Link NOC:Electrical Distribution System Analysis Lecture 22 - Load Models in Distribution System - Part I
Link NOC:Electrical Distribution System Analysis Lecture 23 - Load Models in Distribution System - Part II
Link NOC:Electrical Distribution System Analysis Lecture 24 - Modelling of Distributed Generation
Link NOC:Electrical Distribution System Analysis Lecture 25 - Applications and Modeling of Capacitor Banks
Link NOC:Electrical Distribution System Analysis Lecture 26 - Summary of Modelling of Distribution System Components
Link NOC:Electrical Distribution System Analysis Lecture 27 - Backward/Forward Sweep Load Flow Analysis - Part I
Link NOC:Electrical Distribution System Analysis Lecture 28 - Backward/Forward Sweep Load Flow Analysis - Part II
Link NOC:Electrical Distribution System Analysis Lecture 29 - Direct Approach Based Load Flow Analysis - Part I
Link NOC:Electrical Distribution System Analysis Lecture 30 - Direct Approach Based Load Flow Analysis - Part II
Link NOC:Electrical Distribution System Analysis Lecture 31 - Direct Approach Based Load Flow Analysis - Part III
Link NOC:Electrical Distribution System Analysis Lecture 32 - Direct Approach Based Load Flow Analysis: Weakly Meshed System
Link NOC:Electrical Distribution System Analysis Lecture 33 - Gauss Implicit Z-matrix Method
Link NOC:Electrical Distribution System Analysis Lecture 34 - Sequence Component Based Short Circuit Analysis
Link NOC:Electrical Distribution System Analysis Lecture 35 - Thevenin's Equivalent and Phase Variable Based Short Circuit Analysis
Link NOC:Electrical Distribution System Analysis Lecture 36 - Direct Approach for Short-Circuit Analysis: Introduction and LG Fault
Link NOC:Electrical Distribution System Analysis Lecture 37 - Direct Approach for Short-Circuit Analysis: LLG and LLLG Fault
Link NOC:Electrical Distribution System Analysis Lecture 38 - Direct Approach for Short-Circuit Analysis: LL Fault and Examples
Link NOC:Electrical Distribution System Analysis Lecture 39 - Direct Approach for Short-Circuit Analysis: Weakly Meshed System
Link NOC:Electrical Distribution System Analysis Lecture 40 - Applications of Distribution System Analysis
Link NOC:Introduction to Smart Grid Lecture 1 - Introduction to Smart Grid - I
Link NOC:Introduction to Smart Grid Lecture 2 - Introduction to Smart Grid - II
Link NOC:Introduction to Smart Grid Lecture 3 - Architecture of smart grid system
Link NOC:Introduction to Smart Grid Lecture 4 - Standards for smart grid system
Link NOC:Introduction to Smart Grid Lecture 5 - Elements and Technologies of smart grid system - I
Link NOC:Introduction to Smart Grid Lecture 6 - Elements and Technologies of smart grid system - II
Link NOC:Introduction to Smart Grid Lecture 7 - Distributed Generation Resources - I
Link NOC:Introduction to Smart Grid Lecture 8 - Distributed Generation Resources - II
Link NOC:Introduction to Smart Grid Lecture 9 - Distributed Generation Resources - III
Link NOC:Introduction to Smart Grid Lecture 10 - Distributed Generation Resources - IV
Link NOC:Introduction to Smart Grid Lecture 11 - Wide Area Monitoring System - I
Link NOC:Introduction to Smart Grid Lecture 12 - Wide Area Monitoring System - II
Link NOC:Introduction to Smart Grid Lecture 13 - Phasor Estimation - I
Link NOC:Introduction to Smart Grid Lecture 14 - Phasor Estimation - II
Link NOC:Introduction to Smart Grid Lecture 15 - Digital Relays for Smart Grid Protection
Link NOC:Introduction to Smart Grid Lecture 16 - Islanding Detection Techniques - I
Link NOC:Introduction to Smart Grid Lecture 17 - Islanding Detection Techniques - II
Link NOC:Introduction to Smart Grid Lecture 18 - Islanding Detection Techniques - III
Link NOC:Introduction to Smart Grid Lecture 19 - Smart Grid Protection - I
Link NOC:Introduction to Smart Grid Lecture 20 - Smart Grid Protection - II
Link NOC:Introduction to Smart Grid Lecture 21 - Smart Grid Protection - III
Link NOC:Introduction to Smart Grid Lecture 22 - Smart Grid Protection - IV
Link NOC:Introduction to Smart Grid Lecture 23 - Modelling of Storage Devices
Link NOC:Introduction to Smart Grid Lecture 24 - Modelling of DC Smart Grid Components
Link NOC:Introduction to Smart Grid Lecture 25 - Operation and Control of AC Microgrid - I
Link NOC:Introduction to Smart Grid Lecture 26 - Operation and Control of AC Microgrid - Il
Link NOC:Introduction to Smart Grid Lecture 27 - Operation and Control of DC Microgrid - I
Link NOC:Introduction to Smart Grid Lecture 28 - Operation and Control of DC Microgrid - II
Link NOC:Introduction to Smart Grid Lecture 29 - Operation and Control of AC-DC hybrid Microgrid - I
Link NOC:Introduction to Smart Grid Lecture 30 - Operation and Control of AC-DC hybrid Microgrid - II
Link NOC:Introduction to Smart Grid Lecture 31 - Simulation and Case Study of AC Microgrid
Link NOC:Introduction to Smart Grid Lecture 32 - Simulation and Case Study of DC Microgrid
Link NOC:Introduction to Smart Grid Lecture 33 - Simulation and Case Study of AC-DC Hybrid Microgrid
Link NOC:Introduction to Smart Grid Lecture 34 - Demand Side Management in Smart Grid
Link NOC:Introduction to Smart Grid Lecture 35 - Demand Response Analysis of Smart Grid
Link NOC:Introduction to Smart Grid Lecture 36 - Energy Management
Link NOC:Introduction to Smart Grid Lecture 37 - Design of Smart Grid and Practical Smart Grid Case Study - I
Link NOC:Introduction to Smart Grid Lecture 38 - Design of Smart Grid and Practical Smart Grid Case Study - II
Link NOC:Introduction to Smart Grid Lecture 39 - System Analysis of AC/DC Smart Grid
Link NOC:Introduction to Smart Grid Lecture 40 - Conclusions
Link NOC:Facts Devices Lecture 1 - Introduction - I
Link NOC:Facts Devices Lecture 2 - Introduction - II
Link NOC:Facts Devices Lecture 3 - Switch Realization
Link NOC:Facts Devices Lecture 4 - PWM - I
Link NOC:Facts Devices Lecture 5 - PWM - II
Link NOC:Facts Devices Lecture 6 - Closed Loop Control
Link NOC:Facts Devices Lecture 7 - Multi Level Inverter - I
Link NOC:Facts Devices Lecture 8 - Multi Level Inverter - II
Link NOC:Facts Devices Lecture 9 - Multi Level Inverter - III
Link NOC:Facts Devices Lecture 10 - Shunt Compensator Analysis
Link NOC:Facts Devices Lecture 11 - Shunt Compensator TCR and TSC - I
Link NOC:Facts Devices Lecture 12 - Shunt Compensator TCR and TSC - II
Link NOC:Facts Devices Lecture 13 - Static Var Compensator - I
Link NOC:Facts Devices Lecture 14 - Static Var Compensator - II
Link NOC:Facts Devices Lecture 15 - STATCOM - I
Link NOC:Facts Devices Lecture 16 - STATCOM - II
Link NOC:Facts Devices Lecture 17 - STATCOM/SVC Comparisons
Link NOC:Facts Devices Lecture 18 - External Control Design of Static Var Compensator
Link NOC:Facts Devices Lecture 19 - DSTATCOM
Link NOC:Facts Devices Lecture 20 - Design of DSTATCOM
Link NOC:Facts Devices Lecture 21 - Series Compensator - I
Link NOC:Facts Devices Lecture 22 - Series Compensator - II
Link NOC:Facts Devices Lecture 23 - GCSC and SSSC
Link NOC:Facts Devices Lecture 24 - SSSC - II
Link NOC:Facts Devices Lecture 25 - SSSC - III and TSSC
Link NOC:Facts Devices Lecture 26 - TSSC - II and TCSC
Link NOC:Facts Devices Lecture 27 - TCSC Characteristics and Control
Link NOC:Facts Devices Lecture 28 - Voltage and Phase Angle Regulation
Link NOC:Facts Devices Lecture 29 - Voltage and Phase Angle Regulator Device - I
Link NOC:Facts Devices Lecture 30 - Voltage and Phase Angle Regulator Device - II
Link NOC:Facts Devices Lecture 31 - UPQC Introduction and Classification
Link NOC:Facts Devices Lecture 32 - UPQC Classification - I
Link NOC:Facts Devices Lecture 33 - Operation and Control of UPQC - II
Link NOC:Facts Devices Lecture 34 - Operation and Control of UPQC - III
Link NOC:Facts Devices Lecture 35 - UPFC
Link NOC:Facts Devices Lecture 36 - Control Structure of UPFC
Link NOC:Facts Devices Lecture 37 - Comparison of UPFC with PAR and Series Compensators
Link NOC:Facts Devices Lecture 38 - Interline Power Flow Controller (IPFC) - I
Link NOC:Facts Devices Lecture 39 - Interline Power Flow Controller (IPFC) - II
Link NOC:Facts Devices Lecture 40 - Practical Application and Conclusion
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 1 - Introduction to State Space
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 2 - State Space Representation
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 3 - State Space Representation: Companion Form (Controllable Canonical Form)
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 4 - State Space Representation: Extended Controllable Canonical Form
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 5 - State Space Representation: Observable Canonical Form
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 6 - State Space Representation: Diagonal Canonical Form - Part I
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 7 - State Space Representation: Diagonal Canonical Form - Part II
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 8 - State Space Representation: Jordan Canonical Form
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 9 - State Space Representation: Numerical Examples on State space Modelling - Part I
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 10 - State Space Representation: Numerical Examples on State space Modelling - Part II
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 11 - Modelling of Mechanical Systems in State Space
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 12 - Modelling of DC Servo Motor - Part I
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 13 - Modelling of DC Servo Motor - Part II
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 14 - Determination of Transfer Function from State Space Model - Part I
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 15 - Determination of Transfer Function from State Space Model - Part II
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 16 - Stability Analysis in State Space: Concept of Eigenvalues and Eigenvectors - Part I
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 17 - Stability Analysis in State Space - Part II
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 18 - Stability Analysis in State Space: Lyapunov Stability Analysis (Sylvester’s Criterion) - Part III
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 19 - Stability Analysis in State Space: Lyapunov Stability Analysis (Stability Criterion) - PartIV
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 20 - Stability Analysis in State Space: Lyapunov Stability Analysis (Direct Method) - Part V
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 21 - Concept of Diagonalization
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 22 - Solution of State Equation
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 23 - Solution of State Equation (Forced System)
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 24 - Steady State Error for State Space System
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 25 - State Transition Matrix - Part I
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 26 - State Transition Matrix - Part II
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 27 - State Transition Matrix using Cayley-Hamilton Theorem - Part III
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 28 - MATLAB Programming with State Space
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 29 - Controllability in State Space - Part I
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 30 - Controllability in State Space - Part II
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 31 - Observability in State Space - Part I
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 32 - Observability in State Space - Part II
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 33 - Pole Placement by State Feedback - Part I
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 34 - Pole Placement by State Feedback - Part II
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 35 - Pole Placement by State Feedback - Part III
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 36 - Tracking Problem in State Feedback Design - Part I
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 37 - Tracking Problem in State Feedback Design - Part II
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 38 - State Observer Design - Part I
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 39 - State Observer Design - Part II
Link NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink Lecture 40 - State Observer Design - Part III
Link NOC:Computer Aided Power System Analysis Lecture 1 - Modeling of Power System Components
Link NOC:Computer Aided Power System Analysis Lecture 2 - Modeling of Power System Components (Continued...)
Link NOC:Computer Aided Power System Analysis Lecture 3 - Bus Admittance Matrix
Link NOC:Computer Aided Power System Analysis Lecture 4 - Bus Admittance Matrix with Mutual Impedance
Link NOC:Computer Aided Power System Analysis Lecture 5 - Bus Admittance Matrix with mutual impedance (Continued...)
Link NOC:Computer Aided Power System Analysis Lecture 6 - Power flow equations and classification of buses
Link NOC:Computer Aided Power System Analysis Lecture 7 - Basic Gauss - Seidel Numerical Method
Link NOC:Computer Aided Power System Analysis Lecture 8 - Gauss - Seidel Load Flow (GSLF)
Link NOC:Computer Aided Power System Analysis Lecture 9 - GSLF with Multiple Generators
Link NOC:Computer Aided Power System Analysis Lecture 10 - Example of GSLF
Link NOC:Computer Aided Power System Analysis Lecture 11 - Basics of Newton Raphson Numerical Method
Link NOC:Computer Aided Power System Analysis Lecture 12 - Newton - Raphson Load Flow (NRLF) in Polar Co-Ordinate
Link NOC:Computer Aided Power System Analysis Lecture 13 - NRLF in polar co-ordinate (Continued...)
Link NOC:Computer Aided Power System Analysis Lecture 14 - NRLF in polar co-ordinate (Continued...)
Link NOC:Computer Aided Power System Analysis Lecture 15 - NRLF (Polar) Algorithm and Example
Link NOC:Computer Aided Power System Analysis Lecture 16 - NRLF in rectangular coordinate
Link NOC:Computer Aided Power System Analysis Lecture 17 - NRLF in rectangular coordinate (Continued...)
Link NOC:Computer Aided Power System Analysis Lecture 18 - NRLF in rectangular coordinate (Continued...)
Link NOC:Computer Aided Power System Analysis Lecture 19 - Example of NRLF (Rectangular) Method
Link NOC:Computer Aided Power System Analysis Lecture 20 - Fast decoupled load flow (FDLF)
Link NOC:Computer Aided Power System Analysis Lecture 21 - FDLF (Continued...)
Link NOC:Computer Aided Power System Analysis Lecture 22 - FDLF (Continued...)
Link NOC:Computer Aided Power System Analysis Lecture 23 - AC- DC Load Flow
Link NOC:Computer Aided Power System Analysis Lecture 24 - AC- DC Load Flow (Continued...)
Link NOC:Computer Aided Power System Analysis Lecture 25 - AC- DC Load Flow (Continued...)
Link NOC:Computer Aided Power System Analysis Lecture 26 - Sparsity and Gaussian Elimination
Link NOC:Computer Aided Power System Analysis Lecture 27 - Gaussian Elimination Method
Link NOC:Computer Aided Power System Analysis Lecture 28 - Example of Gaussian Elimination Method
Link NOC:Computer Aided Power System Analysis Lecture 29 - Gaussian Elimination and Optimal Ordering
Link NOC:Computer Aided Power System Analysis Lecture 30 - Triangular Factorization
Link NOC:Computer Aided Power System Analysis Lecture 31 - LU Decomposition
Link NOC:Computer Aided Power System Analysis Lecture 32 - Introduction to Contingency Analysis
Link NOC:Computer Aided Power System Analysis Lecture 33 - Linear Sensitivity Factor
Link NOC:Computer Aided Power System Analysis Lecture 34 - Linear Sensitivity Factors (Continued...)
Link NOC:Computer Aided Power System Analysis Lecture 35 - Line outage sensitivity factor
Link NOC:Computer Aided Power System Analysis Lecture 36 - Line outage sensitivity factor (Continued...)
Link NOC:Computer Aided Power System Analysis Lecture 37 - Line outage sensitivity factor (Continued...)
Link NOC:Computer Aided Power System Analysis Lecture 38 - State Estimation Technique
Link NOC:Computer Aided Power System Analysis Lecture 39 - Weighted Least Square (WLS) Method
Link NOC:Computer Aided Power System Analysis Lecture 40 - WLS (Continued...)
Link NOC:Computer Aided Power System Analysis Lecture 41 - WLS Examples
Link NOC:Computer Aided Power System Analysis Lecture 42 - Error Analysis
Link NOC:Computer Aided Power System Analysis Lecture 43 - Error Analysis (Continued...)
Link NOC:Computer Aided Power System Analysis Lecture 44 - Bad Data Detection
Link NOC:Computer Aided Power System Analysis Lecture 45 - Power system state estimation
Link NOC:Computer Aided Power System Analysis Lecture 46 - Power system state estimation (Continued...)
Link NOC:Computer Aided Power System Analysis Lecture 47 - Power system state estimation (Continued...)
Link NOC:Computer Aided Power System Analysis Lecture 48 - Power system state estimation (Continued...)
Link NOC:Computer Aided Power System Analysis Lecture 49 - Fault Analysis
Link NOC:Computer Aided Power System Analysis Lecture 50 - Fault Analysis (Continued...)
Link NOC:Computer Aided Power System Analysis Lecture 51 - Fault Analysis (Continued...)
Link NOC:Computer Aided Power System Analysis Lecture 52 - Fault Analysis (Continued...)
Link NOC:Computer Aided Power System Analysis Lecture 53 - Fault Analysis (Continued...)
Link NOC:Computer Aided Power System Analysis Lecture 54 - Fault Analysis (Continued...)
Link NOC:Computer Aided Power System Analysis Lecture 55 - Fault Analysis (Continued...)
Link NOC:Computer Aided Power System Analysis Lecture 56 - Fault Analysis (Continued...)
Link NOC:Computer Aided Power System Analysis Lecture 57 - Fault Analysis (Continued...)
Link NOC:Computer Aided Power System Analysis Lecture 58 - Fault Analysis (Continued...)
Link NOC:Computer Aided Power System Analysis Lecture 59 - Fault Analysis (Continued...)
Link NOC:Computer Aided Power System Analysis Lecture 60 - Fault Analysis (Continued...)
Link NOC:Advance Power Electronics and Control Lecture 1 - Introduction
Link NOC:Advance Power Electronics and Control Lecture 2 - Basic Concept of Switches
Link NOC:Advance Power Electronics and Control Lecture 3 - Device Physics - I
Link NOC:Advance Power Electronics and Control Lecture 4 - Device Physics - II
Link NOC:Advance Power Electronics and Control Lecture 5 - Device Physics - III
Link NOC:Advance Power Electronics and Control Lecture 6 - Device Physics - IV
Link NOC:Advance Power Electronics and Control Lecture 7 - Application and Analysis of Switches - I
Link NOC:Advance Power Electronics and Control Lecture 8 - Application and Analysis of Switches - II
Link NOC:Advance Power Electronics and Control Lecture 9 - Single Phase Converter
Link NOC:Advance Power Electronics and Control Lecture 10 - Single Phase Converters - II
Link NOC:Advance Power Electronics and Control Lecture 11 - Single Phase Converters - III
Link NOC:Advance Power Electronics and Control Lecture 12 - Three Phase Converters - I
Link NOC:Advance Power Electronics and Control Lecture 13 - Three Phase Converters - II
Link NOC:Advance Power Electronics and Control Lecture 14 - Multipulse Converters II
Link NOC:Advance Power Electronics and Control Lecture 15 - Effect of Source Inductance and PWM Rectifiers
Link NOC:Advance Power Electronics and Control Lecture 16 - PWM Rectifiers - II
Link NOC:Advance Power Electronics and Control Lecture 17 - PWM Rectifiers - III and Power Factor Improvement Techniques
Link NOC:Advance Power Electronics and Control Lecture 18 - PWM Rectifiers - IV and Power Factor Improvement Techniques - II
Link NOC:Advance Power Electronics and Control Lecture 19 - Power Factor Improvement Techniques III and Non Isolated DC- DC Converters
Link NOC:Advance Power Electronics and Control Lecture 20 - Non Isolated DC- DC Converters - II
Link NOC:Advance Power Electronics and Control Lecture 21 - Non Isolated and Isolated DC- DC Converters and Choppers
Link NOC:Advance Power Electronics and Control Lecture 22 - Isolated DC-DC Converters and Choppers
Link NOC:Advance Power Electronics and Control Lecture 23 - Isolated DC-DC Converters - II
Link NOC:Advance Power Electronics and Control Lecture 24 - Isolated DC-DC Converters - III
Link NOC:Advance Power Electronics and Control Lecture 25 - Isolated DC-DC Converters - IV and VSI and CSI
Link NOC:Advance Power Electronics and Control Lecture 26 - VSI and CSI
Link NOC:Advance Power Electronics and Control Lecture 27 - VSI and CSI II and MLI
Link NOC:Advance Power Electronics and Control Lecture 28 - PWM Techniques II and MLI
Link NOC:Advance Power Electronics and Control Lecture 29 - MLI II and ZSI
Link NOC:Advance Power Electronics and Control Lecture 30 - ZSI II and Space Vector Modulation (SVM)
Link NOC:Advance Power Electronics and Control Lecture 31 - SVM II and AC to AC Converters
Link NOC:Advance Power Electronics and Control Lecture 32 - SVM III and AC to AC Converters
Link NOC:Advance Power Electronics and Control Lecture 33 - Cycloconverters and Matrix Converters
Link NOC:Advance Power Electronics and Control Lecture 34 - Matrix Converter - II
Link NOC:Advance Power Electronics and Control Lecture 35 - Matrix Converter - III and Power Quality Mitigation Devices
Link NOC:Advance Power Electronics and Control Lecture 36 - Power Quality Mitigation Devices - II
Link NOC:Advance Power Electronics and Control Lecture 37 - Linear and Non Linear Control in Power Electronics - I
Link NOC:Advance Power Electronics and Control Lecture 38 - Linear and Non Linear Control in Power Electronics - II
Link NOC:Advance Power Electronics and Control Lecture 39 - Non-Linear Control in Power Electronics
Link NOC:Advance Power Electronics and Control Lecture 40 - Application and Conclusion
Link NOC:CMOS Digital VLSI Design Lecture 1 - MOS Transistor Basics - I
Link NOC:CMOS Digital VLSI Design Lecture 2 - MOS Transistor Basics - II
Link NOC:CMOS Digital VLSI Design Lecture 3 - MOS Transistor Basics - III
Link NOC:CMOS Digital VLSI Design Lecture 4 - MOS Parasitics and SPICE Model
Link NOC:CMOS Digital VLSI Design Lecture 5 - CMOS Inverter Basics - I
Link NOC:CMOS Digital VLSI Design Lecture 6 - CMOS Inverter Basics - II
Link NOC:CMOS Digital VLSI Design Lecture 7 - CMOS Inverter Basics - III
Link NOC:CMOS Digital VLSI Design Lecture 8 - Power Analysis - I
Link NOC:CMOS Digital VLSI Design Lecture 9 - Power Analysis - II
Link NOC:CMOS Digital VLSI Design Lecture 10 - SPICE Simulation - I
Link NOC:CMOS Digital VLSI Design Lecture 11 - SPICE Simulation - II
Link NOC:CMOS Digital VLSI Design Lecture 12 - Combinational Logic Design - I
Link NOC:CMOS Digital VLSI Design Lecture 13 - Combinational Logic Design - II
Link NOC:CMOS Digital VLSI Design Lecture 14 - Combinational Logic Design - III
Link NOC:CMOS Digital VLSI Design Lecture 15 - Combinational Logic Design - IV
Link NOC:CMOS Digital VLSI Design Lecture 16 - Combinational Logic Design - V
Link NOC:CMOS Digital VLSI Design Lecture 17 - Combinational Logic Design - VI
Link NOC:CMOS Digital VLSI Design Lecture 18 - Combinational Logic Design - VII
Link NOC:CMOS Digital VLSI Design Lecture 19 - Combinational Logic Design - VIII
Link NOC:CMOS Digital VLSI Design Lecture 20 - Combinational Logic Design - IX
Link NOC:CMOS Digital VLSI Design Lecture 21 - Combinational Logic Design - X
Link NOC:CMOS Digital VLSI Design Lecture 22 - Logical Efforts - I
Link NOC:CMOS Digital VLSI Design Lecture 23 - Logical Efforts - II
Link NOC:CMOS Digital VLSI Design Lecture 24 - Logical Efforts - III
Link NOC:CMOS Digital VLSI Design Lecture 25 - Sequential Logic Design - I
Link NOC:CMOS Digital VLSI Design Lecture 26 - Sequential Logic Design - II
Link NOC:CMOS Digital VLSI Design Lecture 27 - Sequential Logic Design - III
Link NOC:CMOS Digital VLSI Design Lecture 28 - Sequential Logic Design - IV
Link NOC:CMOS Digital VLSI Design Lecture 29 - Sequential Logic Design - V
Link NOC:CMOS Digital VLSI Design Lecture 30 - Sequential Logic Design - VI
Link NOC:CMOS Digital VLSI Design Lecture 31 - Sequential Logic Design - VII
Link NOC:CMOS Digital VLSI Design Lecture 32 - Sequential Logic Design - VIII
Link NOC:CMOS Digital VLSI Design Lecture 33 - Clocking Strategies for Sequential Design - I
Link NOC:CMOS Digital VLSI Design Lecture 34 - Clocking Strategies for Sequential Design - II
Link NOC:CMOS Digital VLSI Design Lecture 35 - Clocking Strategies for Sequential Design - III
Link NOC:CMOS Digital VLSI Design Lecture 36 - Clocking Strategies for Sequential Design - IV
Link NOC:CMOS Digital VLSI Design Lecture 37 - Sequential Logic Design - IX
Link NOC:CMOS Digital VLSI Design Lecture 38 - Clocking Strategies for Sequential Design - V
Link NOC:CMOS Digital VLSI Design Lecture 39 - Concept of Memory and its Designing - I
Link NOC:CMOS Digital VLSI Design Lecture 40 - Concept of Memory and its Designing - II
Link NOC:Microelectronics: Devices to Circuits Lecture 1 - Bipolar Junction Transistor : Physical structure and Modes of Operation
Link NOC:Microelectronics: Devices to Circuits Lecture 2 - Bipolar Junction Transistor : Modes of operation - I
Link NOC:Microelectronics: Devices to Circuits Lecture 3 - Bipolar Junction Transistor : Modes of operation - II
Link NOC:Microelectronics: Devices to Circuits Lecture 4 - BJT Operation in active mode Circuit symbol and conventions - I
Link NOC:Microelectronics: Devices to Circuits Lecture 5 - BJT Operation in active mode Circuit symbol and conventions - II
Link NOC:Microelectronics: Devices to Circuits Lecture 6 - BJT as an amplifier small circuit model - I
Link NOC:Microelectronics: Devices to Circuits Lecture 7 - BJT as an amplifier small circuit model - II
Link NOC:Microelectronics: Devices to Circuits Lecture 8 - BJT Small Signal Circuit Model - I
Link NOC:Microelectronics: Devices to Circuits Lecture 9 - BJT Small Signal Circuit Model - II
Link NOC:Microelectronics: Devices to Circuits Lecture 10 - BJT as a switch and Ebers Moll Model
Link NOC:Microelectronics: Devices to Circuits Lecture 11 - Simple BJT Inverter and second order effects
Link NOC:Microelectronics: Devices to Circuits Lecture 12 - BJT Second order effects - I
Link NOC:Microelectronics: Devices to Circuits Lecture 13 - BJT Second order effects - II
Link NOC:Microelectronics: Devices to Circuits Lecture 14 - MOS Transistor basics - I
Link NOC:Microelectronics: Devices to Circuits Lecture 15 - MOS Transistor basics - II
Link NOC:Microelectronics: Devices to Circuits Lecture 16 - MOS Transistor basics - III
Link NOC:Microelectronics: Devices to Circuits Lecture 17 - MOS Parasitic and SPICE Model
Link NOC:Microelectronics: Devices to Circuits Lecture 18 - CMOS Inverter Basics - I
Link NOC:Microelectronics: Devices to Circuits Lecture 19 - CMOS Inverter Basics - II
Link NOC:Microelectronics: Devices to Circuits Lecture 20 - CMOS Inverter Basics - III
Link NOC:Microelectronics: Devices to Circuits Lecture 21 - Power Analysis - I
Link NOC:Microelectronics: Devices to Circuits Lecture 22 - Logical Efforts - I
Link NOC:Microelectronics: Devices to Circuits Lecture 23 - Fabrication-Process - I
Link NOC:Microelectronics: Devices to Circuits Lecture 24 - Fabrication-Process - II
Link NOC:Microelectronics: Devices to Circuits Lecture 25 - Biasing of Amplifier and its behaviour as an Analog switch - I
Link NOC:Microelectronics: Devices to Circuits Lecture 26 - Biasing of Amplifier and its behaviour as an Analog switch - II
Link NOC:Microelectronics: Devices to Circuits Lecture 27 - Biasing of Amplifier and its behaviour as an Analog switch - III
Link NOC:Microelectronics: Devices to Circuits Lecture 28 - CMOS CS/CG/CD Amplifier Configuration
Link NOC:Microelectronics: Devices to Circuits Lecture 29 - CMOS CG/CD Amplifier Configuration
Link NOC:Microelectronics: Devices to Circuits Lecture 30 - Internal CAP Models and high frequency Modelling - I
Link NOC:Microelectronics: Devices to Circuits Lecture 31 - Internal CAP Models and high frequency Modelling - II
Link NOC:Microelectronics: Devices to Circuits Lecture 32 - JFET, Structure and Operation
Link NOC:Microelectronics: Devices to Circuits Lecture 33 - Multistage and Differential Amplifier - I
Link NOC:Microelectronics: Devices to Circuits Lecture 34 - Multistage and Differential Amplifier - II
Link NOC:Microelectronics: Devices to Circuits Lecture 35 - MOS Differential Amplifier - I
Link NOC:Microelectronics: Devices to Circuits Lecture 36 - MOS Differential Amplifier - II
Link NOC:Microelectronics: Devices to Circuits Lecture 37 - Small signal operation and Differential Amplifiers - I
Link NOC:Microelectronics: Devices to Circuits Lecture 38 - Small signal operation and Differential Amplifiers - II
Link NOC:Microelectronics: Devices to Circuits Lecture 39 - Multistage Amplifier with SPICE Simulation
Link NOC:Microelectronics: Devices to Circuits Lecture 40 - S-Domain Analysis, Transfer Function, Poles and Zeros - I
Link NOC:Microelectronics: Devices to Circuits Lecture 41 - S-Domain Analysis, Transfer Function, Poles and Zeros - II
Link NOC:Microelectronics: Devices to Circuits Lecture 42 - High Frequency response of CS and CE Amplifier
Link NOC:Microelectronics: Devices to Circuits Lecture 43 - High Frequency response of CC and SF Configuration
Link NOC:Microelectronics: Devices to Circuits Lecture 44 - Frequency response of Differential Amplifier
Link NOC:Microelectronics: Devices to Circuits Lecture 45 - General Feedback Structure and properties of negative Feedback
Link NOC:Microelectronics: Devices to Circuits Lecture 46 - Basic Feedback Topologies
Link NOC:Microelectronics: Devices to Circuits Lecture 47 - Design of feedback amplifier for all configuration
Link NOC:Microelectronics: Devices to Circuits Lecture 48 - Stability and amplifier poles
Link NOC:Microelectronics: Devices to Circuits Lecture 49 - Bode plots and Frequency Plot
Link NOC:Microelectronics: Devices to Circuits Lecture 50 - Ideal Operational Amplifier and its terminal
Link NOC:Microelectronics: Devices to Circuits Lecture 51 - Op-amp as a Integrator and Differentiator
Link NOC:Microelectronics: Devices to Circuits Lecture 52 - Large Signal Operation of Op-amp and second order effects
Link NOC:Microelectronics: Devices to Circuits Lecture 53 - Combinational logic design - I
Link NOC:Microelectronics: Devices to Circuits Lecture 54 - Combinational logic design - II
Link NOC:Microelectronics: Devices to Circuits Lecture 55 - Combinational logic design - III
Link NOC:Microelectronics: Devices to Circuits Lecture 56 - Combinational logic design - IV
Link NOC:Microelectronics: Devices to Circuits Lecture 57 - Sequential logic design - I
Link NOC:Microelectronics: Devices to Circuits Lecture 58 - Clocking strategies For Sequential design - I
Link NOC:Microelectronics: Devices to Circuits Lecture 59 - Clocking strategies For Sequential design - II
Link NOC:Microelectronics: Devices to Circuits Lecture 60 - Memory Design
Link NOC:DC Microgrid Lecture 1 - Overview of Microgrids
Link NOC:DC Microgrid Lecture 2 - Concept of Microgrids
Link NOC:DC Microgrid Lecture 3 - Microgrid and distributed generation
Link NOC:DC Microgrid Lecture 4 - Microgrid vs Conventional Power System
Link NOC:DC Microgrid Lecture 5 - AC and DC Microgrid with Distributed Energy Resources (AC Microgrid Part)
Link NOC:DC Microgrid Lecture 6 - AC and DC Microgrid with Distributed Energy Resources (AC Microgrid Part) (Continued...)
Link NOC:DC Microgrid Lecture 7 - Power Electronics for Microgrid
Link NOC:DC Microgrid Lecture 8 - Power Electronic Converters in Microgrid Applications
Link NOC:DC Microgrid Lecture 9 - Power Electronic Converters in Microgrid Applications (Power Electronic for Interfacing )
Link NOC:DC Microgrid Lecture 10 - Power Electronic Converters in Microgrid Applications (Converter Modulation Techniques)
Link NOC:DC Microgrid Lecture 11 - Modeling of converters in microgrid power system (AC/DC and DC/AC Converters Modeling)
Link NOC:DC Microgrid Lecture 12 - Modeling of Power Converters in Microgrid Power System (DC/DC Converter Modeling and Control)
Link NOC:DC Microgrid Lecture 13 - Modeling of Renewable Energy Resources (Modeling of Wind Energy System)
Link NOC:DC Microgrid Lecture 14 - Modeling of Renewable Energy Resources (Modeling of Photovoltaic System)
Link NOC:DC Microgrid Lecture 15 - Modeling of Energy Storage System
Link NOC:DC Microgrid Lecture 16 - Microgrid Dynamics and Modeling
Link NOC:DC Microgrid Lecture 17 - Microgrid Dynamics and Modeling (Continued...)
Link NOC:DC Microgrid Lecture 18 - Microgrid Operation Modes and Standards - Part I
Link NOC:DC Microgrid Lecture 19 - Microgrid Operation Modes and Standards - Part II
Link NOC:DC Microgrid Lecture 20 - Microgrid Control Architectures
Link NOC:DC Microgrid Lecture 21 - Microgrid Control Architectures (Continued...)
Link NOC:DC Microgrid Lecture 22 - Intelligent Microgrid Operation and Control
Link NOC:DC Microgrid Lecture 23 - Intelligent Microgrid Operation and Control (Continued...)
Link NOC:DC Microgrid Lecture 24 - Intelligent Microgrid Operation and Control (Continued...)
Link NOC:DC Microgrid Lecture 25 - Energy Management in Microgrid System (Continued...)
Link NOC:DC Microgrid Lecture 26 - DC Microgrid System Architecture and AC Interface
Link NOC:DC Microgrid Lecture 27 - DC Microgrid System Architecture and AC Interface (Continued...)
Link NOC:DC Microgrid Lecture 28 - DC Microgrid System Architecture and AC Interface (Continued...)
Link NOC:DC Microgrid Lecture 29 - DC Microgrid Dynamics and Modeling
Link NOC:DC Microgrid Lecture 30 - DC Microgrid Dynamics and Modeling (Continued...)
Link NOC:DC Microgrid Lecture 31 - Control of DC Microgrid System
Link NOC:DC Microgrid Lecture 32 - Control of DC Microgrid System (Continued...)
Link NOC:DC Microgrid Lecture 33 - Applications of DC Microgrids
Link NOC:DC Microgrid Lecture 34 - Stability in Microgrid
Link NOC:DC Microgrid Lecture 35 - Stability Analysis of DC Microgrid
Link NOC:DC Microgrid Lecture 36 - Stability Analysis of DC Microgrid (Continued...)
Link NOC:DC Microgrid Lecture 37 - DC Microgrid stabilization strategies (Passive damping method)
Link NOC:DC Microgrid Lecture 38 - DC Microgrid Stabilization Strategies (Impedance/Admittance stability criteria)
Link NOC:DC Microgrid Lecture 39 - DC microgrid stabilization using nonlinear Techniques
Link NOC:DC Microgrid Lecture 40 - General Summary of DC Microgrids
Link An Introduction to Electronics Systems Packaging Lecture 1 - Introduction and Objectives of the course
Link An Introduction to Electronics Systems Packaging Lecture 2 - Definition of a system and history of semiconductors
Link An Introduction to Electronics Systems Packaging Lecture 3 - Products and levels of packaging
Link An Introduction to Electronics Systems Packaging Lecture 4 - Packaging aspects of handheld products; Case studies in applications
Link An Introduction to Electronics Systems Packaging Lecture 5 - Case Study (continued); Definition of PWB, summary and Questions for review
Link An Introduction to Electronics Systems Packaging Lecture 6 - Basics of Semiconductor and Process flowchart; Video on “Sand-to-Silicon”
Link An Introduction to Electronics Systems Packaging Lecture 7 - Wafer fabrication, inspection and testing
Link An Introduction to Electronics Systems Packaging Lecture 8 - Wafer packaging; Packaging evolution; Chip connection choices
Link An Introduction to Electronics Systems Packaging Lecture 9 - Wire bonding, TAB and flipchip-1
Link An Introduction to Electronics Systems Packaging Lecture 10 - Wire bonding, TAB and flipchip-2; Tutorials
Link An Introduction to Electronics Systems Packaging Lecture 11 - Why packaging? & Single chip packages or modules (SCM)
Link An Introduction to Electronics Systems Packaging Lecture 12 - Commonly used packages and advanced packages; Materials in packages
Link An Introduction to Electronics Systems Packaging Lecture 13 - Advances packages (continued); Thermal mismatch in packages; Current trends in packaging
Link An Introduction to Electronics Systems Packaging Lecture 14 - Multichip modules (MCM)-types; System-in-package (SIP); Packaging roadmaps; Hybrid circuits; Quiz on packages
Link An Introduction to Electronics Systems Packaging Lecture 15 - Electrical Issues – I; Resistive Parasitic
Link An Introduction to Electronics Systems Packaging Lecture 16 - Electrical Issues – II; Capacitive and Inductive Parasitic
Link An Introduction to Electronics Systems Packaging Lecture 17 - Electrical Issues – III; Layout guidelines and the Reflection problem
Link An Introduction to Electronics Systems Packaging Lecture 18 - Electrical Issues – IV; Interconnection
Link An Introduction to Electronics Systems Packaging Lecture 19 - Quick Tutorial on packages; Benefits from CAD; Introduction to DFM, DFR & DFT
Link An Introduction to Electronics Systems Packaging Lecture 20 - Components of a CAD package and its highlights
Link An Introduction to Electronics Systems Packaging Lecture 21 - Design Flow considerations; Beginning a circuit design with schematic work and component layout
Link An Introduction to Electronics Systems Packaging Lecture 22 - Demo and examples of layout and routing; Technology file generation from CAD; DFM check list and design rules; Design for Reliability
Link An Introduction to Electronics Systems Packaging Lecture 23 - Review of CAD output files for PCB fabrication; Photo plotting and mask generation
Link An Introduction to Electronics Systems Packaging Lecture 24 - Process flow-chart; Vias; PWB substrates
Link An Introduction to Electronics Systems Packaging Lecture 25 - Substrates continued; Video highlights; Surface preparation
Link An Introduction to Electronics Systems Packaging Lecture 26 - Photoresist and application methods; UV exposure and developing; Printing technologies for PWBs
Link An Introduction to Electronics Systems Packaging Lecture 27 - PWB etching; Resist stripping; Screen-printing technology
Link An Introduction to Electronics Systems Packaging Lecture 28 - Through-hole manufacture process steps; Panel and pattern plating methods
Link An Introduction to Electronics Systems Packaging Lecture 29 - Video highlights on manufacturing; Solder mask for PWBs; Multilayer PWBs; Introduction to microvias
Link An Introduction to Electronics Systems Packaging Lecture 30 - Microvia technology and Sequential build-up technology process flow for high-density interconnects
Link An Introduction to Electronics Systems Packaging Lecture 31 - Conventional Vs HDI technologies; Flexible circuits; Tutorial session
Link An Introduction to Electronics Systems Packaging Lecture 32 - SMD benefits; Design issues; Introduction to soldering
Link An Introduction to Electronics Systems Packaging Lecture 33 - Reflow and Wave Soldering methods to attach SMDs
Link An Introduction to Electronics Systems Packaging Lecture 34 - Solders; Wetting of solders; Flux and its properties; Defects in wave soldering
Link An Introduction to Electronics Systems Packaging Lecture 35 - Vapour phase soldering, BGA soldering and Desoldering/Repair; SMT failures
Link An Introduction to Electronics Systems Packaging Lecture 36 - SMT failure library and Tin Whiskers
Link An Introduction to Electronics Systems Packaging Lecture 37 - Tin-lead and lead-free solders; Phase diagrams; Thermal profiles for reflow soldering; Lead-free alloys
Link An Introduction to Electronics Systems Packaging Lecture 38 - Lead-free solder considerations; Green electronics; RoHS compliance and e-waste recycling issues
Link An Introduction to Electronics Systems Packaging Lecture 39 - Thermal Design considerations in systems packaging
Link An Introduction to Electronics Systems Packaging Lecture 40 - Introduction to embedded passives; Need for embedded passives; Design Library; Embedded resistor processes
Link An Introduction to Electronics Systems Packaging Lecture 41 - Embedded capacitors; Processes for embedding capacitors; Case study examples; Summary of materials in packaging
Link An Introduction to Electronics Systems Packaging Lecture 42 - Chapter-wise summary
Link Power Electronics and Distributed Generation Lecture 1 - Course introduction and overview
Link Power Electronics and Distributed Generation Lecture 2 - Distributed generation technologies
Link Power Electronics and Distributed Generation Lecture 3 - Distributed storage technologies
Link Power Electronics and Distributed Generation Lecture 4 - Distribution system protection
Link Power Electronics and Distributed Generation Lecture 5 - Circuit breaker coordination
Link Power Electronics and Distributed Generation Lecture 6 - Symmetrical component analysis and sequence excitation
Link Power Electronics and Distributed Generation Lecture 7 - Modeling of distribution system components
Link Power Electronics and Distributed Generation Lecture 8 - Protection components
Link Power Electronics and Distributed Generation Lecture 9 - Impact of distributed generation of distribution protection
Link Power Electronics and Distributed Generation Lecture 10 - Consumption and distribution grounding
Link Power Electronics and Distributed Generation Lecture 11 - Islanding of distribution systems
Link Power Electronics and Distributed Generation Lecture 12 - Modeling of islanded distribution systems
Link Power Electronics and Distributed Generation Lecture 13 - Distribution system problems and examples
Link Power Electronics and Distributed Generation Lecture 14 - Distribution system problems and examples continued
Link Power Electronics and Distributed Generation Lecture 15 - Anti-islanding methods
Link Power Electronics and Distributed Generation Lecture 16 - Solid state circuit switching
Link Power Electronics and Distributed Generation Lecture 17 - Relaying for distributed generation
Link Power Electronics and Distributed Generation Lecture 18 - Feeder voltage regulation
Link Power Electronics and Distributed Generation Lecture 19 - Grounding, distribution protection coordination problems and examples
Link Power Electronics and Distributed Generation Lecture 20 - Ring and network distribution
Link Power Electronics and Distributed Generation Lecture 21 - Economic evaluation of DG systems
Link Power Electronics and Distributed Generation Lecture 22 - Design for effective initial cost
Link Power Electronics and Distributed Generation Lecture 23 - Single phase inverters
Link Power Electronics and Distributed Generation Lecture 24 - DC bus design in voltage source inverter
Link Power Electronics and Distributed Generation Lecture 25 - Electrolytic capacitor reliability and lifetime
Link Power Electronics and Distributed Generation Lecture 26 - Inverter switching and average model
Link Power Electronics and Distributed Generation Lecture 27 - Common mode and differential mode model of inverters
Link Power Electronics and Distributed Generation Lecture 28 - Two leg single phase inverter
Link Power Electronics and Distributed Generation Lecture 29 - Distribution system problems, and examples
Link Power Electronics and Distributed Generation Lecture 30 - DG evaluation problems and examples
Link Power Electronics and Distributed Generation Lecture 31 - Switch selection in two level voltage source inverters and loss evaluation
Link Power Electronics and Distributed Generation Lecture 32 - Thermal model, management and cycling failure of IGBT modules
Link Power Electronics and Distributed Generation Lecture 33 - Semiconductor switch design reliability considerations
Link Power Electronics and Distributed Generation Lecture 34 - AC filters for grid connected inverters
Link Power Electronics and Distributed Generation Lecture 35 - AC inductor design and need for LCL filter
Link Power Electronics and Distributed Generation Lecture 36 - LCL filter design
Link Power Electronics and Distributed Generation Lecture 37 - Examples in power electronic design for DG systems
Link Power Electronics and Distributed Generation Lecture 38 - Examples in power electronic design for DG systems continued
Link Power Electronics and Distributed Generation Lecture 39 - Higher order passive damping design for LCL filters
Link Power Electronics and Distributed Generation Lecture 40 - Balance of hardware component for inverters in DG systems
Link Pulse width Modulation for Power Electronic Converters Lecture 1 - Electronic switches
Link Pulse width Modulation for Power Electronic Converters Lecture 2 - DC - DC converters
Link Pulse width Modulation for Power Electronic Converters Lecture 3 - DC - AC converters
Link Pulse width Modulation for Power Electronic Converters Lecture 4 - Multilevel converters - I
Link Pulse width Modulation for Power Electronic Converters Lecture 5 - Multilevel converters - II
Link Pulse width Modulation for Power Electronic Converters Lecture 6 - Applications of voltage source converter - I
Link Pulse width Modulation for Power Electronic Converters Lecture 7 - Applications of voltage source converter - II
Link Pulse width Modulation for Power Electronic Converters Lecture 8 - Applications of voltage source converter - III
Link Pulse width Modulation for Power Electronic Converters Lecture 9 - Purpose of PWM - I
Link Pulse width Modulation for Power Electronic Converters Lecture 10 - Purpose of PWM - II
Link Pulse width Modulation for Power Electronic Converters Lecture 11 - Low switching frequency PWM - I
Link Pulse width Modulation for Power Electronic Converters Lecture 12 - Low switching frequency PWM - II
Link Pulse width Modulation for Power Electronic Converters Lecture 13 - Selective harmonic elimination
Link Pulse width Modulation for Power Electronic Converters Lecture 14 - Off-line optimized pulsewidth modulation
Link Pulse width Modulation for Power Electronic Converters Lecture 15 - Sine-triangle pulsewidth modulation
Link Pulse width Modulation for Power Electronic Converters Lecture 16 - Harmonic injection pulsewidth modulation
Link Pulse width Modulation for Power Electronic Converters Lecture 17 - Bus-clamping pulsewidth modulation
Link Pulse width Modulation for Power Electronic Converters Lecture 18 - Triangle-comparison based PWM for three-phase inverter
Link Pulse width Modulation for Power Electronic Converters Lecture 19 - Concept of space vector
Link Pulse width Modulation for Power Electronic Converters Lecture 20 - Conventional space vector PWM
Link Pulse width Modulation for Power Electronic Converters Lecture 21 - Space vector based bus-clamping PWM
Link Pulse width Modulation for Power Electronic Converters Lecture 22 - Space vector based advanced bus-clamping PWM
Link Pulse width Modulation for Power Electronic Converters Lecture 23 - Harmonic analysis of PWM techniques
Link Pulse width Modulation for Power Electronic Converters Lecture 24 - Analysis of RMS line current ripple using the notion of stator flux ripple
Link Pulse width Modulation for Power Electronic Converters Lecture 25 - Evaluation of RMS line current ripple using the notion of stator flux ripple
Link Pulse width Modulation for Power Electronic Converters Lecture 26 - Analysis and design of PWM techniques from line current ripple perspective
Link Pulse width Modulation for Power Electronic Converters Lecture 27 - Instantaneous and average dc link current in a voltage source inverter
Link Pulse width Modulation for Power Electronic Converters Lecture 28 - DC link current and DC capacitor current in a voltage source inverter
Link Pulse width Modulation for Power Electronic Converters Lecture 29 - Analysis of torque ripple in induction motor drives - I
Link Pulse width Modulation for Power Electronic Converters Lecture 30 - Analysis of torque ripple in induction motor drives - II
Link Pulse width Modulation for Power Electronic Converters Lecture 31 - Evaluation of conduction loss in three-phase inverter
Link Pulse width Modulation for Power Electronic Converters Lecture 32 - Evaluation of switching loss in three-phase inverter
Link Pulse width Modulation for Power Electronic Converters Lecture 33 - Design of PWM for reduced switching loss in three-phase inverter
Link Pulse width Modulation for Power Electronic Converters Lecture 34 - Effect of dead-time on inverter output voltage for continuous PWM schemes
Link Pulse width Modulation for Power Electronic Converters Lecture 35 - Effect of dead-time on inverter output voltage for bus-clamping PWM schemes
Link Pulse width Modulation for Power Electronic Converters Lecture 36 - Analysis of overmodulation in sine-triangle PWM from space vector perspective
Link Pulse width Modulation for Power Electronic Converters Lecture 37 - Overmodulation in space vector modulated inverter
Link Pulse width Modulation for Power Electronic Converters Lecture 38 - PWM for three-level neutral-point-clamped inverter - I
Link Pulse width Modulation for Power Electronic Converters Lecture 39 - PWM for three-level neutral-point-clamped inverter - II
Link Pulse width Modulation for Power Electronic Converters Lecture 40 - PWM for three-level neutral-point-clamped inverter - III
Link Switched Mode Power Conversion Lecture 1 - Introduction to DC-DC converter
Link Switched Mode Power Conversion Lecture 2 - Diode
Link Switched Mode Power Conversion Lecture 3 - Controlled Switches
Link Switched Mode Power Conversion Lecture 4 - Prior Art
Link Switched Mode Power Conversion Lecture 5 - Inductor
Link Switched Mode Power Conversion Lecture 6 - Transformer
Link Switched Mode Power Conversion Lecture 7 - Capacitor
Link Switched Mode Power Conversion Lecture 8 - Issues related to switches
Link Switched Mode Power Conversion Lecture 9 - Energy storage - Capacitor
Link Switched Mode Power Conversion Lecture 10 - Energy storage - Inductor
Link Switched Mode Power Conversion Lecture 11 - Primitive Converter
Link Switched Mode Power Conversion Lecture 12 - Non-Isolated converter - I
Link Switched Mode Power Conversion Lecture 13 - Non-Isolated converter - II
Link Switched Mode Power Conversion Lecture 14 - Isolated Converters - I
Link Switched Mode Power Conversion Lecture 15 - Isolated Converters - II
Link Switched Mode Power Conversion Lecture 16 - Conduction Mode
Link Switched Mode Power Conversion Lecture 17 - Problem set - I
Link Switched Mode Power Conversion Lecture 18 - Problem set - II
Link Switched Mode Power Conversion Lecture 19 - Modeling DC-DC converters
Link Switched Mode Power Conversion Lecture 20 - State space representation - I
Link Switched Mode Power Conversion Lecture 21 - State Space representation - II
Link Switched Mode Power Conversion Lecture 22 - Circuit Averaging - I
Link Switched Mode Power Conversion Lecture 23 - Circuit Averaging - II
Link Switched Mode Power Conversion Lecture 24 - State Space Model of Boost Converter
Link Switched Mode Power Conversion Lecture 25 - DC-DC converter controller
Link Switched Mode Power Conversion Lecture 26 - Controller Structure
Link Switched Mode Power Conversion Lecture 27 - PID Controller - I
Link Switched Mode Power Conversion Lecture 28 - PID Controller - II
Link Switched Mode Power Conversion Lecture 29 - PID Controller - III
Link Switched Mode Power Conversion Lecture 30 - Implementation of PID controller
Link Switched Mode Power Conversion Lecture 31 - Pulse Width Modulator
Link Switched Mode Power Conversion Lecture 32 - Controller Design - I
Link Switched Mode Power Conversion Lecture 33 - Controller Design - II
Link Switched Mode Power Conversion Lecture 34 - Controllers and Sensing Circuit
Link Switched Mode Power Conversion Lecture 35 - Regulation of Multiple outputs - I
Link Switched Mode Power Conversion Lecture 36 - Regulation of Multiple outputs - II
Link Switched Mode Power Conversion Lecture 37 - Current Control
Link Switched Mode Power Conversion Lecture 38 - Unity Power Factor Converter
Link Switched Mode Power Conversion Lecture 39 - Magnetic Design
Link Switched Mode Power Conversion Lecture 40 - DC-DC Converter Design
Link Basic Electrical Technology Lecture 1 - Basic Electrical Technology
Link Basic Electrical Technology Lecture 2 - Passive Components
Link Basic Electrical Technology Lecture 3 - Sources
Link Basic Electrical Technology Lecture 4 - Kirchoff's Law
Link Basic Electrical Technology Lecture 5 - Modelling of Circuit - Part 1
Link Basic Electrical Technology Lecture 6 - Modelling of Circuit - Part 2
Link Basic Electrical Technology Lecture 7 - Analysis Using MatLab
Link Basic Electrical Technology Lecture 8 - Sinusoidal steady state
Link Basic Electrical Technology Lecture 9 - Transfer Function and Pole Zero domain
Link Basic Electrical Technology Lecture 10 - Transfer function & pole zero
Link Basic Electrical Technology Lecture 11 - The Sinusoid
Link Basic Electrical Technology Lecture 12 - Phasor Analysis - Part 1
Link Basic Electrical Technology Lecture 13 - Phasor Analysis - Part 2
Link Basic Electrical Technology Lecture 14 - Power Factor
Link Basic Electrical Technology Lecture 15 - Power ports
Link Basic Electrical Technology Lecture 16 - Transformer Basics - Part 1
Link Basic Electrical Technology Lecture 17 - Transformer Basics - Part 2
Link Basic Electrical Technology Lecture 18 - Transformer Basics - Part 3
Link Basic Electrical Technology Lecture 19 - The Practical Transformer - Part 1
Link Basic Electrical Technology Lecture 20 - The Practical Transformer - Part 2
Link Basic Electrical Technology Lecture 21 - The Practical Transformer - Part 3
Link Basic Electrical Technology Lecture 22 - DC Machines - Part 1
Link Basic Electrical Technology Lecture 23 - DC Machines - Part 2
Link Basic Electrical Technology Lecture 24 - DC Generators - Part 1
Link Basic Electrical Technology Lecture 25 - DC Generators - Part 2
Link Basic Electrical Technology Lecture 26 - DC Motors - Part 1
Link Basic Electrical Technology Lecture 27 - DC Motors - Part 2
Link Basic Electrical Technology Lecture 28 - DC Motors - Part 3
Link Basic Electrical Technology Lecture 29 - Three Phase System - Part 1
Link Basic Electrical Technology Lecture 30 - Three Phase System - Part 2
Link Basic Electrical Technology Lecture 31 - Three Phase System - Part 3
Link Basic Electrical Technology Lecture 32 - Three Phase System - Part 4
Link Basic Electrical Technology Lecture 33 - Three Phase Transformer - Part 1
Link Basic Electrical Technology Lecture 34 - Three Phase Transformer - Part 2
Link Basic Electrical Technology Lecture 35 - Induction Motor - Part 1
Link Basic Electrical Technology Lecture 36 - Induction Motor - Part 2
Link Basic Electrical Technology Lecture 37 - Induction Motor - Part 3
Link Basic Electrical Technology Lecture 38 - Induction Motor - Part 4
Link Basic Electrical Technology Lecture 39 - Synchronous Machine
Link Industrial Drives - Power Electronics Lecture 1 - Electric Drive
Link Industrial Drives - Power Electronics Lecture 2 - Controlled Rectifier - Part-1
Link Industrial Drives - Power Electronics Lecture 3 - Controlled Rectifier - Part-2 (Three phase)
Link Industrial Drives - Power Electronics Lecture 4 - Controlled Rectifier - Part-3 (Three phase)
Link Industrial Drives - Power Electronics Lecture 5 - Controlled Rectifier - Part-4 (Three Phase)
Link Industrial Drives - Power Electronics Lecture 6 - Controlled Rectifier - Part-5 (Three Phase)
Link Industrial Drives - Power Electronics Lecture 7 - Power Electronics Improvements
Link Industrial Drives - Power Electronics Lecture 8 - Four Quadrant Dc to Dc Converter
Link Industrial Drives - Power Electronics Lecture 9 - Sine Triangle PWM Control of Converter
Link Industrial Drives - Power Electronics Lecture 10 - Front-end Ac-Dc Converter with harmonic control
Link Industrial Drives - Power Electronics Lecture 11 - Ac to Dc Converter Close Loop Control Schematic
Link Industrial Drives - Power Electronics Lecture 12 - Ac-Dc Converter Close loop Control Block Diagram
Link Industrial Drives - Power Electronics Lecture 13 - Design of the Converter Controller & AC to DC
Link Industrial Drives - Power Electronics Lecture 14 - Front-End Ac to Dc Converter-Design
Link Industrial Drives - Power Electronics Lecture 15 - Front-End Ac to Dc Converter - Simulation study
Link Industrial Drives - Power Electronics Lecture 16 - Dc Motor Speed Control - Introduction
Link Industrial Drives - Power Electronics Lecture 17 - Dc Motor Speed Control - Block Diagram
Link Industrial Drives - Power Electronics Lecture 18 - Dc Motor Speed Control Current Control & S C L
Link Industrial Drives - Power Electronics Lecture 19 - Dc-Motor Speed Control Controller Design - Part-1
Link Industrial Drives - Power Electronics Lecture 20 - Dc Motor Speed Control Controller Design - Part-2
Link Industrial Drives - Power Electronics Lecture 21 - Dc Motor Speed Control Controller Design - Part-3
Link Industrial Drives - Power Electronics Lecture 22 - Basics of DC to AC Converter - Part-1
Link Industrial Drives - Power Electronics Lecture 23 - Basics of DC to AC Converter - Part-2
Link Industrial Drives - Power Electronics Lecture 24 - Inverter Sine Triangle PWM
Link Industrial Drives - Power Electronics Lecture 25 - Inverter - Current Hysteresis Controlled PWM
Link Industrial Drives - Power Electronics Lecture 26 - C H controlled & Basics of space vector PWM
Link Industrial Drives - Power Electronics Lecture 27 - Space Vector PWM - Part-2
Link Industrial Drives - Power Electronics Lecture 28 - Space Vector PWM - Part-3
Link Industrial Drives - Power Electronics Lecture 29 - Space Vector PWM Signal Generation
Link Industrial Drives - Power Electronics Lecture 30 - Speed Control of Induction Motor - Part-1
Link Industrial Drives - Power Electronics Lecture 31 - Speed Control of Induction Motor - Part-2
Link Industrial Drives - Power Electronics Lecture 32 - High dynamic performance of I M Drive
Link Industrial Drives - Power Electronics Lecture 33 - Dynamic Model of Induction Motor - Part-1
Link Industrial Drives - Power Electronics Lecture 34 - Dynamic Model of Induction Motor - Part-2
Link Industrial Drives - Power Electronics Lecture 35 - Vector Control of Induction Motor
Link Industrial Drives - Power Electronics Lecture 36 - Effect of Switching Time lag in Inverter
Link Industrial Drives - Power Electronics Lecture 37 - Power Switch Protection - Snubbers
Link NOC:Design for Internet of Things Lecture 1 - Introduction to IOTs - Part I
Link NOC:Design for Internet of Things Lecture 2 - Introduction to IOTs - Part II
Link NOC:Design for Internet of Things Lecture 3 - Introduction to IOTs - Examples
Link NOC:Design for Internet of Things Lecture 4 - IOT applications - I
Link NOC:Design for Internet of Things Lecture 5 - IOT applications - II
Link NOC:Design for Internet of Things Lecture 6 - Power management in IOT device
Link NOC:Design for Internet of Things Lecture 7 - Introduction to LDO
Link NOC:Design for Internet of Things Lecture 8 - Design with an LDO
Link NOC:Design for Internet of Things Lecture 9 - Introduction to switching regulators
Link NOC:Design for Internet of Things Lecture 10 - Designing with LDO's, switching regulators and case studies - Part I
Link NOC:Design for Internet of Things Lecture 11 - Designing with LDO's, switching regulators and case studies - Part II
Link NOC:Design for Internet of Things Lecture 12 - Designing with LDO's, switching regulators and case studies - Part II
Link NOC:Design for Internet of Things Lecture 13 - Designing with LDO's, switching regulators and case studies - Part IV
Link NOC:Design for Internet of Things Lecture 14 - Power Conditioning with Energy Harvesters - I
Link NOC:Design for Internet of Things Lecture 15 - Power Conditioning with Energy Harvesters - II
Link NOC:Design for Internet of Things Lecture 16 - Power Conditioning with Energy Harvesters - III
Link NOC:Design for Internet of Things Lecture 17 - Battery less power supply and battery life calculation for embedded devices - I
Link NOC:Design for Internet of Things Lecture 18 - Battery less power supply and battery life calculation for embedded devices - II
Link NOC:Design for Internet of Things Lecture 19 - Battery less power supply and battery life calculation for embedded devices - III
Link NOC:Design for Internet of Things Lecture 20 - Introduction to MQTT
Link NOC:Design for Internet of Things Lecture 21 - Quality of Service in MQTT
Link NOC:Design for Internet of Things Lecture 22 - Standards and Security in MQTT
Link NOC:Design for Internet of Things Lecture 23 - Introduction and Implementation of AMQP
Link NOC:Design for Internet of Things Lecture 24 - Implementation of CoAP and MDNS
Link NOC:Design for Internet of Things Lecture 25 - Basics of RFID
Link NOC:Design for Internet of Things Lecture 26 - RFID protocol and applications
Link NOC:Design for Internet of Things Lecture 27 - BLE Security
Link NOC:Design for Internet of Things Lecture 28 - LPWAN technologies
Link NOC:Design for Internet of Things Lecture 29 - Choice of Microcontrollers
Link NOC:Design for Internet of Things Lecture 30 - Case Study 1 - Joule Jotter
Link NOC:Design for Internet of Things Lecture 31 - Case Study 2 - Cloud Based Systems
Link NOC:Advances in UHV Transmission and Distribution Lecture 1 - Advantages of HVAC/DC Transmission, Introduction to Grid Management
Link NOC:Advances in UHV Transmission and Distribution Lecture 2 - Transmission system development, Important components of transmission system
Link NOC:Advances in UHV Transmission and Distribution Lecture 3 - Insulation coordination, over voltage in power systems
Link NOC:Advances in UHV Transmission and Distribution Lecture 4 - Design/selection of insulators, Importance of grading/cc rings
Link NOC:Advances in UHV Transmission and Distribution Lecture 5 - Non ceramic insulators performance-service experience
Link NOC:Advances in UHV Transmission and Distribution Lecture 6 - Failure of apparatus in the field, importance of reliability and testing
Link NOC:Advances in UHV Transmission and Distribution Lecture 7 - Pollution flashover phenomena, modeling etc
Link NOC:Advances in UHV Transmission and Distribution Lecture 8 - Planning of High Voltage laboratories
Link NOC:Advances in UHV Transmission and Distribution Lecture 9 - Importance of High Voltage testing and techniques employed
Link NOC:Advances in UHV Transmission and Distribution Lecture 10 - Basic philosophy of HV testing, tests for various HV apparatus
Link NOC:Advances in UHV Transmission and Distribution Lecture 11 - HV testing techniques for various apparatus
Link NOC:Advances in UHV Transmission and Distribution Lecture 12 - HV testing on Composite Insulators
Link NOC:Advances in UHV Transmission and Distribution Lecture 13 - Surface degradation studies on composite insulators
Link NOC:Advances in UHV Transmission and Distribution Lecture 14 - Surface morphological techniques for composite insulators
Link NOC:Advances in UHV Transmission and Distribution Lecture 15 - Conductors used for EHV/UHV transmission
Link NOC:Advances in UHV Transmission and Distribution Lecture 16 - Corona nad interference on transmission lines
Link NOC:Advances in UHV Transmission and Distribution Lecture 17 - Introduction of HTLS conductors and their advantages
Link NOC:Advances in UHV Transmission and Distribution Lecture 18 - Mechanical considerations for HV conductors
Link NOC:Advances in UHV Transmission and Distribution Lecture 19 - Introduction to Towers and importance of foundations
Link NOC:Advances in UHV Transmission and Distribution Lecture 20 - Selection/Design of clearances for HV towers
Link NOC:Advances in UHV Transmission and Distribution Lecture 21 - Design Optimization for UHV towers
Link NOC:Advances in UHV Transmission and Distribution Lecture 22 - Introduction to 1100kV HVDC
Link NOC:Advances in UHV Transmission and Distribution Lecture 23 - Introduction to HV Substations
Link NOC:Advances in UHV Transmission and Distribution Lecture 24 - Types of Substations, comparison
Link NOC:Advances in UHV Transmission and Distribution Lecture 25 - Insulation coordination, Components in a typical substation
Link NOC:Advances in UHV Transmission and Distribution Lecture 26 - Preventive maintenance of Substation
Link NOC:Advances in UHV Transmission and Distribution Lecture 27 - Electric and magnetic fields, mitigations techniques
Link NOC:Advances in UHV Transmission and Distribution Lecture 28 - Importance of Grounding, reducing Earthing resistance
Link NOC:Advances in UHV Transmission and Distribution Lecture 29 - Introduction to the use of Fiber optic cables, OPGW
Link NOC:Advances in UHV Transmission and Distribution Lecture 30 - Introduction to communication and SCADA
Link NOC:Advances in UHV Transmission and Distribution Lecture 31 - Precautions and safety measures in substation
Link NOC:Advances in UHV Transmission and Distribution Lecture 32 - Electrical hazards, minimum clearances in substation
Link NOC:Advances in UHV Transmission and Distribution Lecture 33 - Importance of Generation of HVDC in the laboratory
Link NOC:Advances in UHV Transmission and Distribution Lecture 34 - Importance of Generation of HVAC, Impulse Voltage and Currents in the laboratory
Link NOC:Advances in UHV Transmission and Distribution Lecture 35 - Measurements of High Voltages
Link NOC:Advances in UHV Transmission and Distribution Lecture 36 - Measurements of High Voltages (Continued...)
Link NOC:Advances in UHV Transmission and Distribution Lecture 37 - Introduction to digital recorders, measurement
Link NOC:Advances in UHV Transmission and Distribution Lecture 38 - Upgradation/uprating of transmission lines- advantages
Link NOC:Advances in UHV Transmission and Distribution Lecture 39 - Upgradation/uprating of transmission lines- advantages (Continued...)
Link NOC:Advances in UHV Transmission and Distribution Lecture 40 - Summary of the course
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 1 - Introduction to signal processing
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 2 - Basics of signals and systems
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 3 - Linear time-invariant systems
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 4 - Modes in a linear system
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 5 - Introduction to state space representation
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 6 - State space representation
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 7 - Non-uniqueness of state space representation
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 8 - Introduction to vector space
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 9 - Linear independence and spanning set
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 10 - Unique representation theorem
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 11 - Basis and cardinality of basis
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 12 - Norms and inner product spaces
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 13 - Inner products and induced norm
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 14 - Cauchy Schwartz inequality
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 15 - Orthonormality
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 16 - Problem on sum of subspaces
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 17 - Linear independence of orthogonal vectors
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 18 - Hilbert space and linear transformation
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 19 - Gram Schmidt orthonormalization
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 20 - Linear approximation of signal space
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 21 - Gram Schmidt orthogonalization of signals
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 22 - Problem on orthogonal complement
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 23 - Problem on signal geometry (4-QAM)
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 24 - Basics of probability and random variables
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 25 - Mean and variance of a random variable
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 26 - Introduction to random process
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 27 - Statistical specification of random processes
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 28 - Stationarity of random processes
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 29 - Problem on mean and variance
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 30 - Problem on MAP Detection
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 31 - Fourier transform of dirac comb sequence
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 32 - Sampling theorem
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 33 - Basics of multirate systems
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 34 - Frequency representation of expanders and decimators
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 35 - Decimation and interpolation filters
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 36 - Fractional sampling rate alterations
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 37 - Digital filter banks
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 38 - DFT as filter bank
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 39 - Noble Identities
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 40 - Polyphase representation
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 41 - Efficient architectures for interpolation and decimation filters
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 42 - Problems on simplifying multirate systems using noble identities
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 43 - Problem on designing synthesis bank filters
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 44 - Efficient architecture for fractional decimator
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 45 - Multistage filter design
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 46 - Two-channel filter banks
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 47 - Amplitude and phase distortion in signals
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 48 - Polyphase representation of 2-channel filter banks, signal flow graphs and perfect reconstruction
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 49 - M-channel filter banks
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 50 - Polyphase representation of M-channel filter bank
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 51 - Perfect reconstruction of signals
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 52 - Nyquist and half band filters
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 53 - Special filter banks for perfect reconstruction
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 54 - Introduction to wavelets
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 55 - Multiresolution analysis and properties
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 56 - The Haar wavelet
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 57 - Structure of subspaces in MRA
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 58 - Haar decomposition - 1
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 59 - Haar decomposition - 2
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 60 - Wavelet Reconstruction
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 61 - Haar wavelet and link to filter banks
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 62 - Demo on wavelet decomposition
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 63 - Problem on circular convolution
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 64 - Time frequency localization
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 65 - Basic analysis: Pointwise and uniform continuity of functions
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 66 - Basic Analysis : Convergence of sequence of functions
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 67 - Fourier series and notions of convergence
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 68 - Convergence of Fourier series at a point of continuity
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 69 - Convergence of Fourier series for piecewise differentiable periodic functions
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 70 - Uniform convergence of Fourier series of piecewise smooth periodic function
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 71 - Convergence in norm of Fourier series
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 72 - Convergence of Fourier series for all square integrable periodic functions
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 73 - Problem on limits of integration of periodic functions
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 74 - Matrix Calculus
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 75 - KL transform
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 76 - Applications of KL transform
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 77 - Demo on KL Transform
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 78 - Live Session
Link NOC:Mathematical Methods and Techniques in Signal Processing Lecture 79 - Live Session 2
Link NOC:Electronics Enclosures Thermal Issues Lecture 1 - Electronic Equipment Thermal issues
Link NOC:Electronics Enclosures Thermal Issues Lecture 2 - Practical Examples - 1
Link NOC:Electronics Enclosures Thermal Issues Lecture 3 - Practical Examples - 2
Link NOC:Electronics Enclosures Thermal Issues Lecture 4 - CEDT worked examples - 1
Link NOC:Electronics Enclosures Thermal Issues Lecture 5 - CEDT worked examples - 2
Link NOC:Electronics Enclosures Thermal Issues Lecture 6 - Text book theory
Link NOC:Electronics Enclosures Thermal Issues Lecture 7 - Sample heat sinks
Link NOC:Electronics Enclosures Thermal Issues Lecture 8 - Published correlations - 1
Link NOC:Electronics Enclosures Thermal Issues Lecture 9 - Published correlations - 2
Link NOC:Electronics Enclosures Thermal Issues Lecture 10 - Parallel combined effects
Link NOC:Electronics Enclosures Thermal Issues Lecture 11 - Mounting of packages
Link NOC:Electronics Enclosures Thermal Issues Lecture 12 - Combined Rth of devices
Link NOC:Electronics Enclosures Thermal Issues Lecture 13 - Schonholzer moduls
Link NOC:Electronics Enclosures Thermal Issues Lecture 14 - 1972 model paper
Link NOC:Electronics Enclosures Thermal Issues Lecture 15 - Jensen model
Link NOC:Electronics Enclosures Thermal Issues Lecture 16 - Thermal management - 1
Link NOC:Electronics Enclosures Thermal Issues Lecture 17 - Thermal management - 2
Link NOC:Electronics Enclosures Thermal Issues Lecture 18 - Round up of full model
Link NOC:Electronics Enclosures Thermal Issues Lecture 19 - Fan cooling
Link NOC:Electronics Enclosures Thermal Issues Lecture 20 - Thermo-electric cooling
Link NOC:Electronics Enclosures Thermal Issues Lecture 21 - On-the-net DIY work
Link NOC:Electronics Enclosures Thermal Issues Lecture 22 - Practical video
Link NOC:Electronics Enclosures Thermal Issues Lecture 23
Link NOC:Electronics Enclosures Thermal Issues Lecture 24
Link NOC:Electronics Enclosures Thermal Issues Lecture 25
Link NOC:Electronics Enclosures Thermal Issues Lecture 26
Link NOC:Electronics Enclosures Thermal Issues Lecture 27 - Real packages
Link NOC:Electronics Enclosures Thermal Issues Lecture 28 - Prior art
Link NOC:Electronics Enclosures Thermal Issues Lecture 29 - OTS standard profiles
Link NOC:Electronics Enclosures Thermal Issues Lecture 30 - CAD detailed design of profiles
Link NOC:Electronics Enclosures Thermal Issues Lecture 31 - Round up
Link NOC:Electronics Enclosures Thermal Issues Lecture 32 - 4X Peltier Cooler
Link NOC:Electronics Enclosures Thermal Issues Lecture 33 - Manufacturing Video
Link NOC:Electronics Enclosures Thermal Issues Lecture 34 - Peltier heat sink
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 1 - Introduction to Integrated Circuits (IC) Technology
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 2 - Introduction to fabrication of IC: Substrates
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 3 - Introduction to IC fabrication
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 4 - Introduction to IC fabrication (Continued...)
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 5 - Introduction to the fabrication of sensors
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 6 - Introduction to fabrication technology
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 7 - Introduction to fabrication technology (Continued...)
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 8 - Introduction to fabrication technology (Continued...)
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 9 - Introduction to fabrication technology (Continued...)
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 10 - Introduction to fabrication technology (Continued...)
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 11 - Process flow for Fabrication of MOSFETs
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 12 - Operation of Enhancement type MOSFET
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 13 - Operation of Depletion type MOSFET
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 14 - MOSFETs Characteristics and Applications (Current Mirrors)
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 15 - Introduction to Operational Amplifiers
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 16 - Operational Amplifier Characteristics
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 17 - Operational Amplifier Characteristics (Continued...)
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 18 - Characteristics of an op-amp (Continued...)
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 19 - Operational Amplifier Configarations
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 20 - Operational Amplifier Configarations (Continued...)
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 21 - Applications of Operational Amplifier: Differential Amplifier
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 22 - Applications of Operational Amplifier: Integerator
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 23 - Applications of Operational Amplifier: Differentiator
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 24 - Introduction to Passive and Active Filters and op-amp as Low Pass Filter
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 25 - Operational Amplifier as a High Pass Filter
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 26 - Operational Amplifier as a Band Pass and Band Reject Filter
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 27 - Introduction to Oscillator
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 28 - RC Phase Shift Oscillator using Op-amp
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 29 - Wein Bridge Oscillator using Op-amp
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 30 - Hartley and Colpitts Oscillator using Op-amp
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 31 - Working of Crystal Oscillators
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 32 - Construction and Operation of UJT Relaxation Oscillators
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 33 - Introduction to Noise and its Types
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 34 - Analysis of Data Sheets of an Op-Amp
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 35 - Analysis of Data Sheets of an Op-Amp (Continued...)
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 36 - Analysis of Data Sheets of an Op-Amp (Continued...)
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 37 - Experiment - Introduction to Laboratory Equipment
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 38 - Experiment - Measurement of Active and Passive elements using Multimeter
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 39 - Experiment - Working with Laboratory Equipment: Power Supply
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 40 - Experiment - Working with Laboratory Equipment: Function Generator, Oscilloscope
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 41 - Experiment - Op-Amp Characteristics: Input Bias Current
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 42 - Experiment - Op-Amp Characteristics: Input Offset Current
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 43 - Experiment - Op-Amp Characteristics: Input Offset Voltage
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 44 - Experiment - Op-Amp as Inverting Amplifier
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 45 - Experiment - Op-Amp as Non-Inverting Amplifier
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 46 - Experiment - To study input and output voltage range of an Op-Amp
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 47 - Experiment - Differential amplifier using op-amp
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 48 - Experiment - To study the gain of instrumentation amplifier
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 49 - Experiment - Summing amplifier using op-amp
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 50 - Experiment - To study op-amp based comparator
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 51 - Experiment - To study op-amp based integrator and differentiator
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 52 - Experiment - Study of passive low pass filter
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 53 - Experiment - Op-amp based active low pass filter
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 54 - Experiment - Passive and active high pass filter
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 55 - Experiment - Introduction to experimental set-up of band pass filter
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 56 - Experiment - Passive and active band pass filter
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 57 - Experiment - Introduction to experimental set-up for band reject filter
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 58 - Experiment - Active band reject filter
Link NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications Lecture 59 - Experiment - Peak detector circuit using Op-Amp
Link NOC:Semiconductor Devices and Circuits Lecture 1 - Quantum Mechanics: Concept of Wave Particle, Schrodinders Equation
Link NOC:Semiconductor Devices and Circuits Lecture 2 - Quantum Mechanics: Particle in a Box
Link NOC:Semiconductor Devices and Circuits Lecture 3 - Quantum Mechanics: Particle in a Box (Continued...), Harmonic Oscillator
Link NOC:Semiconductor Devices and Circuits Lecture 4 - Solids: Formation of Bands, Kronig-Penny Model
Link NOC:Semiconductor Devices and Circuits Lecture 5 - Solids: Kronig-Penny Model (Continued...)
Link NOC:Semiconductor Devices and Circuits Lecture 6 - Solids: Electrons and Holes
Link NOC:Semiconductor Devices and Circuits Lecture 7 - Solids: Electrons and Holes (Continued...)
Link NOC:Semiconductor Devices and Circuits Lecture 8 - Solids: Crystals
Link NOC:Semiconductor Devices and Circuits Lecture 9 - Density of States
Link NOC:Semiconductor Devices and Circuits Lecture 10 - Density of States (Continued...), Fermi Function
Link NOC:Semiconductor Devices and Circuits Lecture 11 - Fermi Function - Carrier Concentration
Link NOC:Semiconductor Devices and Circuits Lecture 12 - Doping
Link NOC:Semiconductor Devices and Circuits Lecture 13 - Doping (Continued...)
Link NOC:Semiconductor Devices and Circuits Lecture 14 - Recombination and Generation
Link NOC:Semiconductor Devices and Circuits Lecture 15 - Recombination and Generation (Continued...)
Link NOC:Semiconductor Devices and Circuits Lecture 16 - Recombination and Generation (Continued...), Charge Transport
Link NOC:Semiconductor Devices and Circuits Lecture 17 - Charge Transport (Continued...)
Link NOC:Semiconductor Devices and Circuits Lecture 18 - Continuity Equation
Link NOC:Semiconductor Devices and Circuits Lecture 19 - Junctions
Link NOC:Semiconductor Devices and Circuits Lecture 20 - Metal Semiconductor Junctions
Link NOC:Semiconductor Devices and Circuits Lecture 21 - Schottky Contact: Electrostatics
Link NOC:Semiconductor Devices and Circuits Lecture 22 - Schottky Contact: Current-Voltage (IV) Characteristics
Link NOC:Semiconductor Devices and Circuits Lecture 23 - Schottky Contact: IV Characteristics (Continued...)
Link NOC:Semiconductor Devices and Circuits Lecture 24 - Schottky Contact: Small Signal Impedance
Link NOC:Semiconductor Devices and Circuits Lecture 25 - PN Junctions: Electrostatics
Link NOC:Semiconductor Devices and Circuits Lecture 26 - PN Junctions: IV Characteristics
Link NOC:Semiconductor Devices and Circuits Lecture 27 - PN Junctions: Small Signal Impedance
Link NOC:Semiconductor Devices and Circuits Lecture 28 - PN Junctions: Non-Idealities
Link NOC:Semiconductor Devices and Circuits Lecture 29 - Bipolar Junction Transistors (BJT)
Link NOC:Semiconductor Devices and Circuits Lecture 30 - BJT: IV Characteristics
Link NOC:Semiconductor Devices and Circuits Lecture 31 - BJT: Non-Idealities and Equivalent Circuit Modeling
Link NOC:Semiconductor Devices and Circuits Lecture 32 - Metal Oxide Semiconductor Capacitor (MOSCAP)
Link NOC:Semiconductor Devices and Circuits Lecture 33 - MOSCAP (Continued...)
Link NOC:Semiconductor Devices and Circuits Lecture 34 - MOSCAP: CV Characteristics
Link NOC:Semiconductor Devices and Circuits Lecture 35 - MOSCAP: CV Characteristics (Continued...)
Link NOC:Semiconductor Devices and Circuits Lecture 36 - MOSFET: Introduction
Link NOC:Semiconductor Devices and Circuits Lecture 37 - MOSFET: I-V characteristics
Link NOC:Semiconductor Devices and Circuits Lecture 38 - MOSFET: I-V characteristics (Continued...)
Link NOC:Semiconductor Devices and Circuits Lecture 39 - MOSFET: I-V characteristics (Continued...)
Link NOC:Semiconductor Devices and Circuits Lecture 40 - Subthreshold swing, Additional concepts
Link NOC:Semiconductor Devices and Circuits Lecture 41 - Trapped charge, Body-bias
Link NOC:Semiconductor Devices and Circuits Lecture 42 - Scaling of MOSFETs
Link NOC:Semiconductor Devices and Circuits Lecture 43 - Scaling of MOSFETs (Continued...), Leakage currents in MOSFETs
Link NOC:Semiconductor Devices and Circuits Lecture 44 - MOSFET characterization: Parameter extraction
Link NOC:Semiconductor Devices and Circuits Lecture 45 - MOSFET characterization: Trapped charges, contact resistance
Link NOC:Semiconductor Devices and Circuits Lecture 46 - MOSFET as a switch
Link NOC:Semiconductor Devices and Circuits Lecture 47 - MOSFET as a switch (Continued...)
Link NOC:Semiconductor Devices and Circuits Lecture 48 - Amplifiers using MOSFET
Link NOC:Semiconductor Devices and Circuits Lecture 49 - Amplifiers using MOSFET (Continued...)
Link NOC:Semiconductor Devices and Circuits Lecture 50 - Circuits: Frequency Response, Noise
Link NOC:Semiconductor Devices and Circuits Lecture 51 - Introduction: Amorphous Semiconductors
Link NOC:Semiconductor Devices and Circuits Lecture 52 - Thin Film Transistors
Link NOC:Semiconductor Devices and Circuits Lecture 53 - Tutorials Session - 1
Link NOC:Semiconductor Devices and Circuits Lecture 54 - Tutorials Session - 2
Link NOC:Semiconductor Devices and Circuits Lecture 55 - Tutorials Session - 3
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 1 - Introduction to Microengineering Devices
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 2 - Introduction to Microengineering Devices (Continued...)
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 3 - Introduction to Microengineering Devices (Continued...)
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 4 - Silicon, silicon di-oxide and photolithography
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 5 - Silicon, silicon di-oxide and photolithography (Continued...)
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 6 - Physical Vapour Deposition
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 7 - Physical Vapour Deposition (Continued...)
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 8 - Photolithography
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 9 - Mask Aligner
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 10 - Mask Aligner (Continued...)
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 11 - Micromachining
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 12 - Micromachining: Fabrication of VOC Sensor
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 13 - Micromachining: Fabrication of VOC Sensor (Continued...)
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 14 - Micromachining: Fabrication of VOC Sensor and Cantilever
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 15 - Chemical Vapour Deposition
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 16 - Typical Microfabricated Devices for Biomedical Applications
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 17 - Cancer Diagnostic Tool
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 18 - Process flow for Fabrication of Micro Heater
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 19 - Process flow for Fabrication of Interdigited Electrodes
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 20 - Process flow for Fabrication of Interdigited Electrodes (Continued...)
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 21 - Process flow for Fabrication of ETM phenotyping
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 22 - Process flow for Fabrication of Piezo canteliver
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 23
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 24
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 25
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 26
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 27 - Microchip for Rapid Drug Screening
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 28 - Microchip for Rapid Drug Screening (Continued...)
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 29 - A Microfluidic chip for rapid bacterial antibiotic Susceptibility testing
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 30 - Smart Catheter
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 31 - Smart Catheter: Flexible Force Sensor
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 32 - Smart Catheter: Flexible Force Sensor (Continued...)
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 33 - Tissue and Cell Culture Techniques
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 34 - Clean Room: Equipments Required
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 35 - GLP: Gowning Procedure for using Lab
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 36 - Introduction to Equipments: Refridgerator
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 37 - Gowning Procedure for using Biological Lab Setup
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 38 - Introduction to Equipments: Desiccator
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 39 - Introduction to Equipments: Impedance Analyzer
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 40 - Introduction to Equipments: DAQ
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 41 - Function generator, Multimeter, Sampling, LabVIEW, NI-CDAQ
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 42 - Introduction to Equipments: Stereo Microscope
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 43 - Introduction to Equipments: Metallurgical Microscope
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 44 - Introduction to Equipments: Inverted Microscope
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 45 - Introduction to Equipments: Fire Alarm
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 46 - Introduction to Equipments: Bio-safety Hood
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 47 - Introduction to Equipments: Peristaltic Pump
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 48 - Introduction to Equipments: Incubator
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 49 - Introduction to Equipments: Oven
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 50 - Introduction to Equipments: Micromanipulator
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 51 - PDMS Moulding
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 52 - 3D Printing
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 53 - Introduction to Fabricated Sensors
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 54 - Simulation: Electro- Thermo- Mechanical Properties of Micro-heater using COMSOL Multiphysics
Link NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective Lecture 55 - Simulation: Electro- Thermo- Mechanical Properties of Micro-heater using COMSOL Multiphysics (Continued...)
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 1 - Introduction/Summary on Op-amps
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 2 - Introduction/Summary on Op-amps (Continued...)
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 3 - Introduction/Summary on Op-amps (Continued...)
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 4 - Effect of Loading and Input Impedance - Part 1
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 5 - Effect of Loading and Input Impedance - Part 2
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 6 - Effect of Loading and Input Impedance - Part 3
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 7 - Effect of Loading and Input Impedance - Part 4
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 8 - Introduction to an Analog Circuit Development Board (TI ASLK Pro)
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 9 - Op-amp Applications: Half Wave Rectifier
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 10 - Op-amp Applications: Full Wave Rectifier
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 11 - Op-amp Applications: Clipper
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 12 - Op-amp Circuits using Diodes: Clamper
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 13 - Understanding the Range of Feedback Amplifiers
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 14 - Op-amps as Phase Shift Oscillator
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 15 - Op-amp as Wein Bridge Oscillator
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 16 - Op-amp as Hartley Oscillator
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 17 - Op-amp as Colpitts Oscillator
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 18 - Op-amps as Comparator: Window Comparator
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 19 - Op-amp with Positive Feedback: Inverting Schmitt Trigger
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 20 - Op-amp with Positive Feedback: Non-Inverting Schmitt Trigger
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 21 - Op-amp with Positive Feedback: Astable Multivibrator
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 22 - Op-amp with Positive Feedback: Monostable Multivibrator
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 23 - Op-amp based Voltage Controlled Current Source
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 24 - Measure of Unknown Resistance by Constant Current Drive Circuit Implemented using Op-amp
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 25 - Design and Development of Temperature Controlled Circuit using Op-amp as ON-OFF, Proportional and Proportional Integral Controllers: Introduction
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 26 - Implemetation of Error Detector Cirucit and Signal Conditioning Circuit for Temperature Control
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 27 - Implementation of Plant/Heating Circuit and ON-OFF Controller
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 28 - Implementation of P and PI Controllers
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 29 - Experiment on Controlling the Temperature on the Plant using different Controllers
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 30 - Experiment: Design and Implementation of Signal Conditioning unit for Thermocouple Cold Junction Compensation
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 31 - Introduction to ECG Experiment
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 32 - Desing and Implementation of ECG Preprocessing Stage - Part 1
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 33 - Desing and Implementation of ECG Preprocessing Stage - Part 2
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 34 - Desing and Implementation of ECG Preprocessing Stage - Part 3
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 35 - Desing and Implementation of ECG Preprocessing Stage - Part 4
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 36 - Desing and Implementation of Peak Detetor and Thresholding Circuit for ECG Signal Conditioning
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 37 - Live Demonstration on ECG Signal Acquistion, Conditioning and Measurement of BPM
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 38 - Understanding Analog Multipliers using Development Board
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 39 - Application: Automatic Gain Controller using Development Board
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 40 - Introdution to Data-Acquisition
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 41 - Analog to Digital Conversion Circuits and Experiment on 2-bit Flash Type ADC
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 42 - Digital to Analog Conversion Circuits and Experiment on 4-bit R-2R DAC
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 43 - DAC Basics using Development Board - Introduction
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 44 - Understanding DAC 7821 Datasheet
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 45 - Basic DAC Experiment on Variable Gain Amplifier
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 46 - Understanding DAC: Experiment on Variable Square and Triangular Wave Generator
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 47 - Introduction to CDAQ (Compact DAQ)
Link NOC:Op-Amp Practical Applications: Design, Simulation and Implementation Lecture 48 - Software-in-Loop based Temperature Controller using CDAQ and LabVIEW
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 1 - Products prototyping
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 2 - Prototype concepts
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 3 - Physical simulation
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 4 - Rapid Prototyping
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 5 - Products detailing
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 6 - Advantages of Design Modelling
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 7 - Sample product concept
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 8 - Product sample exercise 1
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 9 - Exercise in product sample 2
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 10 - Integration of components 1
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 11 - Components integration in models
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 12 - 3D printing detail 1
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 13 - 3D printing detail 2
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 14 - 3D print assembly design
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 15 - Heat spreader to 3D print
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 16 - Metallic, 3D, build up 1
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 17 - 3D build up 2
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 18 - 3D design 1 from Photo snap
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 19 - 3D design 2 from Photo snap
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 20 - 3D Laser cuts 1, prints
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 21 - 3D Laser cuts 2, open source public prints
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 22 - Demo of 3D Part print
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 23 - Building a model 1
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 24 - Building a model 2
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 25 - Common place objects
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 26 - Materials
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 27 - Future 3D In biology
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 28 - Product clamp variants
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 29 - Product clamp build up
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 30 - Multi direction features
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 31 - Multi direction features (Continued...)
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 32 - Fastening detail
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 33 - Flat objects
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 34 - Modularity
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 35 - Creative design work
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 36 - Creative designs
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 37 - Using flat features
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 38 - Organic shapes
Link NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping Lecture 39 - Simulation for alternate use
Link NOC:Recent Advances in Transmission Insulators Lecture 1 - Introduction to Transmission and distribution Insulators
Link NOC:Recent Advances in Transmission Insulators Lecture 2 - Manufacturing process for Ceramic/glass Insulators
Link NOC:Recent Advances in Transmission Insulators Lecture 3 - Manufacturing process for Polymeric Insulators
Link NOC:Recent Advances in Transmission Insulators Lecture 4 - Design Considerations of Transmission Insulators
Link NOC:Recent Advances in Transmission Insulators Lecture 5 - Field experience of Ceramic/Glass and Polymeric Insulators
Link NOC:Recent Advances in Transmission Insulators Lecture 6 - Comparison of Transmission Insulators
Link NOC:Recent Advances in Transmission Insulators Lecture 7 - Environmental issues with transmission Insulators
Link NOC:Recent Advances in Transmission Insulators Lecture 8 - Reliability and Philosophy of Testing
Link NOC:Recent Advances in Transmission Insulators Lecture 9 - Testing of Ceramic, Glass and Composite Insulators
Link NOC:Recent Advances in Transmission Insulators Lecture 10 - Cleaning methods adopted for Insulators
Link NOC:Recent Advances in Transmission Insulators Lecture 11 - Cleaning methods adopted for Insulators (Continued...)
Link NOC:Recent Advances in Transmission Insulators Lecture 12 - Coating techniques for Insulators
Link NOC:Recent Advances in Transmission Insulators Lecture 13 - Introduction to Hybrid Insulators
Link NOC:Fundamentals of Semiconductor Devices Lecture 1 - Introduction to semiconductors
Link NOC:Fundamentals of Semiconductor Devices Lecture 2 - Introduction to energy bands
Link NOC:Fundamentals of Semiconductor Devices Lecture 3 - Fundamentals of band structure
Link NOC:Fundamentals of Semiconductor Devices Lecture 4 - Band structure (Continued...) and Fermi-Dirac distribution
Link NOC:Fundamentals of Semiconductor Devices Lecture 5 - Density of states
Link NOC:Fundamentals of Semiconductor Devices Lecture 6 - Doping and intrinsic carrier concentration
Link NOC:Fundamentals of Semiconductor Devices Lecture 7 - Equilibrium carrier concentration
Link NOC:Fundamentals of Semiconductor Devices Lecture 8 - Temperature-dependence of carrier concentration
Link NOC:Fundamentals of Semiconductor Devices Lecture 9 - High doping effects and incomplete ionization
Link NOC:Fundamentals of Semiconductor Devices Lecture 10 - Carrier scattering and mobility
Link NOC:Fundamentals of Semiconductor Devices Lecture 11 - Low-field and high-field transport, introduction to diffusion
Link NOC:Fundamentals of Semiconductor Devices Lecture 12 - Drift-diffusion and trap statistics
Link NOC:Fundamentals of Semiconductor Devices Lecture 13 - Current continuity equation
Link NOC:Fundamentals of Semiconductor Devices Lecture 14 - Continuity equation (Continued...) and introduction to p-n junction
Link NOC:Fundamentals of Semiconductor Devices Lecture 15 - p-n junction under equilibrium
Link NOC:Fundamentals of Semiconductor Devices Lecture 16 - p-n junction under equilibrium (Continued...)
Link NOC:Fundamentals of Semiconductor Devices Lecture 17 - p-n junction under bias
Link NOC:Fundamentals of Semiconductor Devices Lecture 18 - p-n junction under bias (Continued...)
Link NOC:Fundamentals of Semiconductor Devices Lecture 19 - p-n junction: generation-recombination currents
Link NOC:Fundamentals of Semiconductor Devices Lecture 20 - Application of p-n junctions
Link NOC:Fundamentals of Semiconductor Devices Lecture 21 - Breakdown of junction and C-V profiling
Link NOC:Fundamentals of Semiconductor Devices Lecture 22 - Introduction to Schottky junction
Link NOC:Fundamentals of Semiconductor Devices Lecture 23 - Schottky junction under equilibrium
Link NOC:Fundamentals of Semiconductor Devices Lecture 24 - Schottky junction under bias
Link NOC:Fundamentals of Semiconductor Devices Lecture 25 - Introduction to transistors: BJT
Link NOC:Fundamentals of Semiconductor Devices Lecture 26 - Basics of BJT
Link NOC:Fundamentals of Semiconductor Devices Lecture 27 - Working of BJT
Link NOC:Fundamentals of Semiconductor Devices Lecture 28 - Working of BJT (Continued...)
Link NOC:Fundamentals of Semiconductor Devices Lecture 29 - Delays in BJT
Link NOC:Fundamentals of Semiconductor Devices Lecture 30 - MOS: Introduction
Link NOC:Fundamentals of Semiconductor Devices Lecture 31 - MOS: Capacitance-voltage
Link NOC:Fundamentals of Semiconductor Devices Lecture 32 - Ideal MOS system: derivation of threshold voltage
Link NOC:Fundamentals of Semiconductor Devices Lecture 33 - MOS C-V in more details
Link NOC:Fundamentals of Semiconductor Devices Lecture 34 - MOSFET - An introduction
Link NOC:Fundamentals of Semiconductor Devices Lecture 35 - Gradual Channel Approximation: Derivation of I-V characteristics
Link NOC:Fundamentals of Semiconductor Devices Lecture 36 - Substrate bias effect and subthreshold conduction in MOSFET
Link NOC:Fundamentals of Semiconductor Devices Lecture 37 - Short Channel Effects in MOSFET
Link NOC:Fundamentals of Semiconductor Devices Lecture 38 - Introduction to compound semiconductors
Link NOC:Fundamentals of Semiconductor Devices Lecture 39 - Basics of heterojunctions
Link NOC:Fundamentals of Semiconductor Devices Lecture 40 - Band diagram of heterojunctions
Link NOC:Fundamentals of Semiconductor Devices Lecture 41 - Heterojunctions (Continued....)
Link NOC:Fundamentals of Semiconductor Devices Lecture 42 - Heterojunction transistors
Link NOC:Fundamentals of Semiconductor Devices Lecture 43 - III-nitrides
Link NOC:Fundamentals of Semiconductor Devices Lecture 44 - Solar cell basics
Link NOC:Fundamentals of Semiconductor Devices Lecture 45 - Solar cell (Continued...)
Link NOC:Fundamentals of Semiconductor Devices Lecture 46 - Solar cell: Shockley Quiesser Limit
Link NOC:Fundamentals of Semiconductor Devices Lecture 47 - Basics of photodetectors
Link NOC:Fundamentals of Semiconductor Devices Lecture 48 - Photodetectors: figures of merit and types of devices
Link NOC:Fundamentals of Semiconductor Devices Lecture 49 - Junction photodetectors
Link NOC:Fundamentals of Semiconductor Devices Lecture 50 - Basics of recombination
Link NOC:Fundamentals of Semiconductor Devices Lecture 51 - Basics of LED
Link NOC:Fundamentals of Semiconductor Devices Lecture 52 - LED: light extraction and design issues
Link NOC:Fundamentals of Semiconductor Devices Lecture 53 - Visible LED: photometry and colorimetry
Link NOC:Fundamentals of Semiconductor Devices Lecture 54 - Transistors for power electronics
Link NOC:Fundamentals of Semiconductor Devices Lecture 55 - Transistors for power electronics (Continued...) and for RF electronics
Link NOC:Fundamentals of Semiconductor Devices Lecture 56 - Transistors for RF (Continued...) and transistors for Memory
Link NOC:Fundamentals of Semiconductor Devices Lecture 57 - Basics of microelectronic fabrication
Link NOC:Fundamentals of Semiconductor Devices Lecture 58 - Microelectronic fabrication (Continued...)
Link NOC:Fundamentals of Semiconductor Devices Lecture 59 - Summary
Link NOC:Advanced IOT Applications Lecture 1 - Overview of localization using IoT sensors
Link NOC:Advanced IOT Applications Lecture 2 - Outdoor localization without GPS - I
Link NOC:Advanced IOT Applications Lecture 3 - Outdoor localization without GPS - II
Link NOC:Advanced IOT Applications Lecture 4 - Outdoor localization using elevation - pressure mapping
Link NOC:Advanced IOT Applications Lecture 5 - Localization using IMU sensors - I
Link NOC:Advanced IOT Applications Lecture 6 - Localization using IMU sensors - II
Link NOC:Advanced IOT Applications Lecture 7 - Localization using IMU sensors - III
Link NOC:Advanced IOT Applications Lecture 8 - RFID based localization - I
Link NOC:Advanced IOT Applications Lecture 9 - RFID based localization - II
Link NOC:Advanced IOT Applications Lecture 10 - Simulation of simple algorithms for object detection
Link NOC:Advanced IOT Applications Lecture 11 - Building smart vehicle for collision avoidance
Link NOC:Advanced IOT Applications Lecture 12 - Basic computer vision algorithms - Part 1
Link NOC:Advanced IOT Applications Lecture 13 - Basic computer vision algorithms - Part 2
Link NOC:Advanced IOT Applications Lecture 14 - Code walkthrough of computer vision algorithm
Link NOC:Advanced IOT Applications Lecture 15 - Introduction to LiDAR
Link NOC:Advanced IOT Applications Lecture 16 - Range estimation and Obstacle avoidance
Link NOC:Advanced IOT Applications Lecture 17 - Introduction to vehicle platooning
Link NOC:Advanced IOT Applications Lecture 18 - Building blocks for autonomous vehicles - 1
Link NOC:Advanced IOT Applications Lecture 19 - Building blocks for autonomous vehicles - 2
Link NOC:Advanced IOT Applications Lecture 20 - On Board Diagnostics and protocols
Link NOC:Advanced IOT Applications Lecture 21 - Diagnostic services and fuel-injection ratio control unit
Link NOC:Advanced IOT Applications Lecture 22 - Real time event processing and Anomaly detection
Link NOC:Advanced IOT Applications Lecture 23 - OBD-II and stream processing demonstration
Link NOC:Advanced IOT Applications Lecture 24 - Speech recognition - Part 1
Link NOC:Advanced IOT Applications Lecture 25 - Speech recognition - Part 2
Link NOC:Advanced IOT Applications Lecture 26 - Speech recognition - Part 3
Link NOC:Advanced IOT Applications Lecture 27 - Speech recognition - Part 4
Link NOC:Advanced IOT Applications Lecture 28 - Device Security - Part 1
Link NOC:Advanced IOT Applications Lecture 29 - Device Security - Part 2
Link NOC:Advanced IOT Applications Lecture 30 - Device Security - Part 3
Link NOC:Advanced IOT Applications Lecture 31 - Need for air quality monitoring
Link NOC:Advanced IOT Applications Lecture 32 - Air quality : pollutants and standards
Link NOC:Advanced IOT Applications Lecture 33 - Introduction to air quality sensors
Link NOC:Advanced IOT Applications Lecture 34 - Calibration techniques for IoT air quality sensors
Link NOC:Advanced IOT Applications Lecture 35 - Sensor types : semiconductor and electrochemical
Link NOC:Advanced IOT Applications Lecture 36 - Air quality : Overview of system design
Link NOC:Advanced IOT Applications Lecture 37 - Air quality : System design - Part 1
Link NOC:Advanced IOT Applications Lecture 38 - Air quality : System design - Part 2
Link NOC:Advanced IOT Applications Lecture 39 - Air quality : Real time measurement for a drive cycle
Link NOC:Advanced IOT Applications Lecture 40 - Introduction to First Responder networks
Link NOC:Advanced IOT Applications Lecture 41 - First Responders - Applications - Part 1
Link NOC:Advanced IOT Applications Lecture 42 - First Responders - Applications - Part 2
Link NOC:Advanced IOT Applications Lecture 43 - Cargo monitoring for tamper detection - Part 1
Link NOC:Advanced IOT Applications Lecture 44 - Cargo monitoring for tamper detection - Part 2
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 1 - Tissue and Cell Culture Techniques: Introduction
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 2 - Tissue and Cell Culture Techniques: Methods
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 3 - Tissue and Cell Culture Techniques: Devices
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 4 - Cleanroom Equipments
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 5 - Cleanroom Equipments (Continued...)
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 6 - Introduction to photolithography
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 7 - Photolithography: Mask Aligner
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 8 - Photolithography: Designing Mask Aligner
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 9 - Micromachining Techniques
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 10 - Breast Cancer and Oral Cancer Statistics
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 11 - Fabrication of MEMs-based Biochip for cancer diagnosis
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 12 - Fabrication of MEMs-based Biochip for cancer diagnosis (Continued...)
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 13 - Fabrication of Piezoresistive Sensor
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 14 - Fabrication of Piezoresistive Sensor (Continued...)
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 15 - Fabrication of SU-8 pillar on piezoresistive Sensor
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 16 - Portable Cancer Diagnostic Tool Using a Disposable MEMS-Based Biochip
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 17 - Mechanical Phenotyping of Breast Cancer using MEMS
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 18 - Electrical characterization of Breast Tissue Cores
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 19 - Fabrication of MEMS-based sensor for electro-mechanical phenotyping of breast cancer
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 20 - Fabrication of electro-mechanical sensor (Continued...)
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 21 - Assemby of the electro-mechanical sensor
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 22 - Silicon substrate devices for breast cancer diagnosis
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 23 - Understanding the methods and mechanism to study cell morphology
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 24 - Cytology - A detail study on Spin Coater and Cytospin
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 25 - Techniques in oral cytology studies
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 26 - Techniques in cell morphology analysis
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 27 - Comparitive study on diagnostic tools for oral cancer screening
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 28 - Basic building blocks of Electronics System: Amplifiers
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 29 - Basic building blocks of Electronics System: Amplifiers (Continued...)
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 30 - Basic building blocks of Electronics System: Amplifiers (Continued...)
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 31 - Basic building blocks of Electronics System: Filters
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 32 - Basic building blocks of Electronics System: Filters (Continued...)
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 33 - Basic building blocks of Electronics System: Filters (Continued...)
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 34 - Basic building blocks of Electronics System: Data Converteres
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 35 - Basic building blocks of Electronics System: Data Converteres (Continued...)
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 36 - Basic building blocks of Electronics System: Signal Conditioning Circuits
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 37 - Etching Process and Figure of Merits
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 38 - ECG Signal Processing to calculate BPM
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 39 - ECG Signal Processing to calculate BPM (Continued...)
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 40 - ECG Signal Processing to calculate BPM (Continued...)
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 41 - ECG Signal Processing to calculate BPM (Continued...)
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 42 - ECG Signal Processing to calculate BPM (Continued...)
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 43 - ECG Signal Processing to calculate BPM [Continued...)
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 44 - MEMS based Force Sensor for Catheter Contact Force Measurement
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 45 - 3D Printing: Introduction and Work Flow
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 46 - 3D Fabrication Techniques
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 47 - Gowning Procedure in Clean Room
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 48 - Introduction to Equipments: Desiccators
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 49 - PDMS Moulding procedure
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 50 - Introduction to Equipments: Pristaltic Pump
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 51 - Introduction to Equipments: Stereo Microscopy, Metallurgical Microscopy, Inverted Microscopy
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 52 - Micromanipulator
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 53 - Biosafety Cabinet and Ultrasonicbath
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 54 - Incubator Shaker
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 55 - Hotplate and Microcentrifuge
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 56 - Autoclave
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 57 - Impedance Analyser
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 58 - Rapid Prototyping using 3D Printer
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 59 - Etching Process
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 60 - Electronic System for Drug Screening
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 61 - Introduction to Equipments: DAQ
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 62 - Introduction to Equipments: DAQ (Continued...)
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 63 - Electronic Module for Gas sensor
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 64 - Fabrication process flow for a metal oxide gas sensor
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 65 - MEMS Simulation using Comsol Multiphysics
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 66 - Introduction to COMSOL Multiphysics
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 67 - COMSOL Examples for MEMS Applications
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 68 - COMSOL Examples for MEMS Applications (Continued...)
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 69 - Demonstration of Thermal Acutator and Understanding of Application Builder
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 70 - Closed loop control of temperature sensor
Link NOC:Electronic Systems for Cancer Diagnosis Lecture 71 - Experimental Set-up of closed loop control of temperature sensor
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 1 - Introduction to Op-amp
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 2 - Introduction Wafer Manufacturing Process and Clean room Protocols
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 3 - Introduction to Fabrication Process Technology and Op-amp
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 4 - Op-amp Characteristics and Datasheet Parameters
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 5 - Overview of Active Filters and Oscillators
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 6 - Overview of Op-amp Oscillators
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 7 - Introduction to ECG Experiment
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 8 - Design and Implementation of ECG Preprocessing Stage - Part 1
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 9 - Design and Implementation of ECG Preprocessing Stage - Part 2
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 10 - Design and Implementation of ECG Preprocessing Stage - Part 3
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 11 - Design and Implementation of ECG Preprocessing Stage - Part 4
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 12 - Design and Implementation of Peak Detector and Thresholding Circuit for ECG Signal Conditioning
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 13 - Experiment: Live Demonstration of ECG Signal Acquistion, Conditioning and Measurement of BPM
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 14 - Application: ECG Signals for detecting AF and the role of sensors
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 15 - Photolithography: Masks
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 16 - Understanding the process of photolithography
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 17 - Photolithography: Mask Aligner
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 18 - Photolithography: Designing of Mask Aligner System
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 19 - Fabrication of Piezoresistive Sensor
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 20 - Fabrication of MEMS based Catheter Contact Force Sensor
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 21 - Design of Speed Control of DC Motor: Introduction
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 22 - Design of Speed Control of DC Motor: Circuit Explanation
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 23 - Design of Speed Control of DC Motor: Encoder Calibration
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 24 - Design of Speed Control of DC Motor: Encoder Signal Conditioning Circuit - 1
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 25 - Design of Speed Control of DC Motor: Encoder Signal Conditioning Circuit - 2
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 26 - Design of Speed Control of DC Motor: Encoder Signal Conditioning Circuit - 3
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 27 - Design of Speed Control of DC Motor: Encoder Signal Conditioning Circuit - 4
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 28 - Design of Speed Control of DC Motor: Error Amplifier
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 29 - Design of Speed Control of a DC Motor using Op-amp: Controllers
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 30 - Design of Speed Control of a DC Motor using Op-amp: Circuit Implementation
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 31 - Design of Speed Control of a DC Motor using DAQ - Part 1
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 32 - Design of Speed Control of a DC Motor using DAQ - Part 2
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 33 - Design of Speed Control of a DC Motor using DAQ - Part 3
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 34 - Introduction to Hot-Wire Anemometer
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 35 - Signal-conditioning Circuit for Hot-Wire Anemometer
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 36 - Signal-conditioning Circuit for Hot-Wire Anemometer Part 2
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 37 - Signal-conditioning Circuit for Hot-Wire Anemometer: Simulation
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 38 - Signal-conditioning Circuit for Hot-Wire Anemometer: Experiment
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 39 - Introduction to Gas Sensors
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 40 - Fabrication Process for Gas Sensor
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 41 - Signalconditioning Circuit for Operating Heater Voltage of MQ-7 Gas Sensor - Part 1
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 42 - Signalconditioning Circuit for Operating Heater Voltage of MQ-7 Gas Sensor - Part 2
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 43 - Signalconditioning Circuit for Operating Heater Voltage of MQ-7 Gas Sensor - Part 3
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 44 - Fundamentals of Electrophysiological signals
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 45 - Fundamentals of EEG Signal
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 46 - Application of EEG Signal for Detection of Hearing Loss
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 47 - Closed loop control of temperature using DAQ and LabVIEW
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 48 - Experimental Set-up of closed loop control of temperature sensor
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 49 - Introduction to MEMS Simulation using Comsol Multiphysics
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 50 - Introduction to COMSOL Multiphysics
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 51 - COMSOL Examples for MEMS Applications
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 52 - COMSOL Examples for MEMS Applications (Continued...)
Link NOC:Electronic Modules for Industrial Applications using Op-Amps Lecture 53 - Demonstration of Thermal Acutator and Understanding of Application Builder
Link NOC:Sensors and Actuators Lecture 1 - Sensors - Part 1
Link NOC:Sensors and Actuators Lecture 2 - Sensors - Part 2
Link NOC:Sensors and Actuators Lecture 3 - Sensors - Part 3
Link NOC:Sensors and Actuators Lecture 4 - Sensors - Part 4
Link NOC:Sensors and Actuators Lecture 5 - Sensors - Part 5
Link NOC:Sensors and Actuators Lecture 6 - Recent Microsensors based system: E-Nose
Link NOC:Sensors and Actuators Lecture 7 - Recent Microsensors based system: Force Sensor, Basics of Actuators
Link NOC:Sensors and Actuators Lecture 8 - Microfabrication Basics
Link NOC:Sensors and Actuators Lecture 9 - Introduction to cleanroom
Link NOC:Sensors and Actuators Lecture 10 - Cleanroom Protocols
Link NOC:Sensors and Actuators Lecture 11 - Introduction to Cleanroom Equipments: Micromanipulator, Stereo Microscope, metallurgical microscope, Incubator, Static Incubator, Inverted Microscope, Oven, Autoclave, Sonicator
Link NOC:Sensors and Actuators Lecture 12 - Fabrication Process Flow of Microheater and Micromachining
Link NOC:Sensors and Actuators Lecture 13 - Wafer Bonding and PDMS moulding
Link NOC:Sensors and Actuators Lecture 14 - Overview of MEMS based sensors
Link NOC:Sensors and Actuators Lecture 15 - Introduction to Cleanroom Equipments: Impedance Analyzer, LCR Meter, Micromanipulator
Link NOC:Sensors and Actuators Lecture 16 - Introduction to Cleanroom Equipments: Biosafety Hood and safety
Link NOC:Sensors and Actuators Lecture 17 - Process Sensor Process Flow, Cell based Diagnosis Device
Link NOC:Sensors and Actuators Lecture 18 - Basics of Patterning and Drug Screening Device
Link NOC:Sensors and Actuators Lecture 19 - MEMS applications in automobile system
Link NOC:Sensors and Actuators Lecture 20 - Arduino Interfacing for Sensors and Actuators
Link NOC:Sensors and Actuators Lecture 21 - Demonstration of DC Motor as an actuator
Link NOC:Sensors and Actuators Lecture 22 - Demonstration of peristaltic pump using Arduino
Link NOC:Sensors and Actuators Lecture 23 - Demonstration of PDMS Patterning
Link NOC:Sensors and Actuators Lecture 24 - Crystal Orientation and Si-SiO2 interface
Link NOC:Sensors and Actuators Lecture 25 - Surface Profilometry and Physical Vapour Deposition Techniques
Link NOC:Sensors and Actuators Lecture 26 - Introduction to COMSOL Multiphysics and Modelling Examples
Link NOC:Sensors and Actuators Lecture 27 - Demonstration of Thermal Actuators using COMSOL
Link NOC:Sensors and Actuators Lecture 28 - Demonstration of MQ3 Gas sensor using Arduino
Link NOC:Sensors and Actuators Lecture 29 - Photolithography - Part 1
Link NOC:Sensors and Actuators Lecture 30 - Signal Conditioning Circuit for Temperature Sensors
Link NOC:Sensors and Actuators Lecture 31 - Demonstration of Microheaters in COMSOL Multiphysics
Link NOC:Sensors and Actuators Lecture 32 - Introduction to Cleanroom facilities for biomedical applications
Link NOC:Sensors and Actuators Lecture 33 - Physical Deposition Techniques
Link NOC:Sensors and Actuators Lecture 34 - Demonstration on peristaltic pump in cleanroom
Link NOC:Sensors and Actuators Lecture 35 - Installation of Oxygen Plasma System
Link NOC:Sensors and Actuators Lecture 36 - Demonstration of IR Based Sensor using Arduino
Link NOC:Sensors and Actuators Lecture 37 - Illustration of fabricated Microfluidic Device for biochips with PDMS moulding
Link NOC:Sensors and Actuators Lecture 38 - Photolithography - Part 2
Link NOC:Sensors and Actuators Lecture 39 - Photolithography - Part 3
Link NOC:Sensors and Actuators Lecture 40 - Introduction and Demonstration of Shape Memory Alloy
Link NOC:Sensors and Actuators Lecture 41 - Applications of Shape Memory Alloy as a light weight actuators
Link NOC:Sensors and Actuators Lecture 42 - Discussion on Fabricated Sensor with Silicon as Substrate
Link NOC:Sensors and Actuators Lecture 43 - Discussion and Microscopic Inspection of Fabricated Sensor with Silicon as a Substrate
Link NOC:Sensors and Actuators Lecture 44 - Tissue Deparaffinization for Biosensors
Link NOC:Sensors and Actuators Lecture 45 - Clean room guidelines and Cancer Dianostic tool
Link NOC:Sensors and Actuators Lecture 46 - Basics of Pressure Sensor and Demonstration using Arduino Microcontroller
Link NOC:Sensors and Actuators Lecture 47 - Basics of Stepper Motor and Demonstration using Arduino Microcontroller
Link NOC:Sensors and Actuators Lecture 48 - Microscopic Inspection of Diced wafers and CNT Sensing Layer for fabricated sensor
Link NOC:Sensors and Actuators Lecture 49 - Process flow for Microcantilever for Mechanical Phenotyping of breast cancer tissues
Link NOC:Sensors and Actuators Lecture 50 - Applications of microcantilever for Mechanical Phenotyping of breast cancer tissues
Link NOC:Sensors and Actuators Lecture 51 - Installation and Introduction to Physical Vapour Deposition System
Link NOC:Sensors and Actuators Lecture 52 - Human Machine Interface for Controlling Deposition System
Link NOC:Sensors and Actuators Lecture 53 - Flexible MEMS for phenotyping tissue properties - I
Link NOC:Sensors and Actuators Lecture 54 - Flexible MEMS for phenotyping tissue properties - II
Link NOC:Sensors and Actuators Lecture 55 - System Demonstration for Physical Vapor Deposition
Link NOC:Sensors and Actuators Lecture 56 - Introduction to CAD Modelling - I
Link NOC:Sensors and Actuators Lecture 57 - Introduction to CAD Modelling - II
Link NOC:Sensors and Actuators Lecture 58 - Biosensors for ETM Phenotyping of breast cancer tissues for better prognosis
Link NOC:Sensors and Actuators Lecture 59 - Biosensors for Electrothermal sensor
Link NOC:Sensors and Actuators Lecture 60 - MEMS based sensor for catheter contact force measurement
Link NOC:Sensors and Actuators Lecture 61 - Microfluidics based Drug Screening
Link NOC:Sensors and Actuators Lecture 62 - Basic aspects of 3D Printing
Link NOC:Sensors and Actuators Lecture 63 - 3D Printing Materials and Demonstration of Remote 3D Printing
Link NOC:Neural Networks for Signal Processing-I Lecture 1 - The human brain
Link NOC:Neural Networks for Signal Processing-I Lecture 2 - Introduction to Neural Networks
Link NOC:Neural Networks for Signal Processing-I Lecture 3 - Models of a neuron
Link NOC:Neural Networks for Signal Processing-I Lecture 4 - Feedback and network architectures
Link NOC:Neural Networks for Signal Processing-I Lecture 5 - Knowledge representation
Link NOC:Neural Networks for Signal Processing-I Lecture 6 - Prior information and invariances
Link NOC:Neural Networks for Signal Processing-I Lecture 7 - Learning processes
Link NOC:Neural Networks for Signal Processing-I Lecture 8 - Perceptron - 1
Link NOC:Neural Networks for Signal Processing-I Lecture 9 - Perceptron - 2
Link NOC:Neural Networks for Signal Processing-I Lecture 10 - Batch perceptron algorithm
Link NOC:Neural Networks for Signal Processing-I Lecture 11 - Perceptron and Bayes classifier
Link NOC:Neural Networks for Signal Processing-I Lecture 12 - Linear regression - 1
Link NOC:Neural Networks for Signal Processing-I Lecture 13 - Linear regression - 2
Link NOC:Neural Networks for Signal Processing-I Lecture 14 - Linear regression - 3
Link NOC:Neural Networks for Signal Processing-I Lecture 15 - Logistic regression
Link NOC:Neural Networks for Signal Processing-I Lecture 16 - Multi-layer perceptron - 1
Link NOC:Neural Networks for Signal Processing-I Lecture 17 - Multi-layer perceptron - 2
Link NOC:Neural Networks for Signal Processing-I Lecture 18 - Back propagation - 1
Link NOC:Neural Networks for Signal Processing-I Lecture 19 - Back propagation - 2
Link NOC:Neural Networks for Signal Processing-I Lecture 20 - XOR problem
Link NOC:Neural Networks for Signal Processing-I Lecture 21 - Universal approximation function
Link NOC:Neural Networks for Signal Processing-I Lecture 22 - Complexity Regularization and Cross validation
Link NOC:Neural Networks for Signal Processing-I Lecture 23 - Convolutional Neural Networks (CNN)
Link NOC:Neural Networks for Signal Processing-I Lecture 24 - Cover’s Theorem
Link NOC:Neural Networks for Signal Processing-I Lecture 25 - Multivariate interpolation problem
Link NOC:Neural Networks for Signal Processing-I Lecture 26 - Radial basis functions (RBF)
Link NOC:Neural Networks for Signal Processing-I Lecture 27 - Recursive least squares algorithm
Link NOC:Neural Networks for Signal Processing-I Lecture 28 - Comparison of RBF with MLP
Link NOC:Neural Networks for Signal Processing-I Lecture 29 - Kernel regression using RBFs
Link NOC:Neural Networks for Signal Processing-I Lecture 30 - Kernel Functions
Link NOC:Neural Networks for Signal Processing-I Lecture 31 - Basics of constrained optimization
Link NOC:Neural Networks for Signal Processing-I Lecture 32 - Optimization with equality constraint
Link NOC:Neural Networks for Signal Processing-I Lecture 33 - Optimization with inequality constraint
Link NOC:Neural Networks for Signal Processing-I Lecture 34 - Support Vector Machines (SVM)
Link NOC:Neural Networks for Signal Processing-I Lecture 35 - Optimal hyperplane for linearly separable patterns
Link NOC:Neural Networks for Signal Processing-I Lecture 36 - Quadratic optimization for finding optimal hyperplane
Link NOC:Neural Networks for Signal Processing-I Lecture 37 - Optimal hyperplane for non-linearly separable patterns
Link NOC:Neural Networks for Signal Processing-I Lecture 38 - Inner product kernel and Mercer’s theorem
Link NOC:Neural Networks for Signal Processing-I Lecture 39 - Optimal design of an SVM
Link NOC:Neural Networks for Signal Processing-I Lecture 40 - ε-insensitive loss function
Link NOC:Neural Networks for Signal Processing-I Lecture 41 - XOR problem revisited using SVMs
Link NOC:Neural Networks for Signal Processing-I Lecture 42 - Hilbert Space
Link NOC:Neural Networks for Signal Processing-I Lecture 43 - Reproducing Kernel Hilbert Space
Link NOC:Neural Networks for Signal Processing-I Lecture 44 - Representer Theorem
Link NOC:Neural Networks for Signal Processing-I Lecture 45 - Generalized applicability of the representer theorem
Link NOC:Neural Networks for Signal Processing-I Lecture 46 - Regularization Theory
Link NOC:Neural Networks for Signal Processing-I Lecture 47 - Euler-Lagrange Equation
Link NOC:Neural Networks for Signal Processing-I Lecture 48 - Regularization Networks
Link NOC:Neural Networks for Signal Processing-I Lecture 49 - Generalized RBF networks
Link NOC:Neural Networks for Signal Processing-I Lecture 50 - XOR problem revisited using RBF
Link NOC:Neural Networks for Signal Processing-I Lecture 51 - Structural Risk Minimization
Link NOC:Neural Networks for Signal Processing-I Lecture 52 - Bias-Variance Dilemma
Link NOC:Neural Networks for Signal Processing-I Lecture 53 - Estimation of regularization parameters
Link NOC:Neural Networks for Signal Processing-I Lecture 54 - Basics of L1 regularization
Link NOC:Neural Networks for Signal Processing-I Lecture 55 - Grafting
Link NOC:Neural Networks for Signal Processing-I Lecture 56 - Kernel PCA
Link NOC:Neural Networks for Signal Processing-I Lecture 57 - Hebbian based maximum eigen filter - 1
Link NOC:Neural Networks for Signal Processing-I Lecture 58 - Hebbian based maximum eigen filter - 2
Link NOC:Neural Networks for Signal Processing-I Lecture 59 - Hebbian based maximum eigen filter - 3
Link NOC:Neural Networks for Signal Processing-I Lecture 60 - VC dimension
Link NOC:Neural Networks for Signal Processing-I Lecture 61 - Autoencoders
Link NOC:Neural Networks for Signal Processing-I Lecture 62 - Denoising Autoencoders
Link NOC:Neural Networks for Signal Processing-I Lecture 63 - Demo - Perceptron
Link NOC:Neural Networks for Signal Processing-I Lecture 64 - Demo - Motivation for CNN
Link NOC:Neural Networks for Signal Processing-I Lecture 65 - Back propagation in Convolutional Neural Network
Link NOC:Neural Networks for Signal Processing-I Lecture 66 - Ethics in AI research and coverage summary
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 1 - Introduction
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 2 - Transcendental Consciousness
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 3 - Plato's Theory of Mind
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 4 - Parable of Cave : Plato's
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 5 - Aristotle's Concept Mind
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 6 - The Concept of Mind in Upanishadas
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 7 - Dualism - I
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 8 - Dualism - II
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 9 - Dualism - III
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 10 - Against Dualism
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 11 - Property Dualism
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 12 - Varieties of Materialism
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 13 - Mind-Body Identity Theory
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 14 - Functionalism
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 15 - Different Models of Cognitive Mind
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 16 - Connectionism and Folk - Psychology
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 17 - Representation - I
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 18 - Representation - II
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 19 - Artificial Intelligence - I
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 20 - Artificial Intelligence - II
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 21 - Artificial Intelligence - III
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 22 - The Limit of Artificial Intelligence - I
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 23 - The Limit of Artificial Intelligence - II
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 24 - Biological Naturalism
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 25 - The Concept of Intentionality
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 26 - The Structure of Consciousness - I
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 27 - The Structure of Consciousness - II
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 28 - Phenomenal Consciousness - I
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 29 - Phenomenal Consciousness - II
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 30 - Language, Representation & Meaning - I
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 31 - Language & Meaning - II
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 32 - Language & Mind
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 33 - Language & World - I
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 34 - Language & World - II
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 35 - Emergentism & Supervenience
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 36 - Reduction & Realization - I
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 37 - Reduction & Realization - II
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 38 - The Cartesian Mind Revisited
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 39 - Personal Identity - I
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 40 - Personal Identity - II
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 41 - Creativity : Human Vs Machine - I
Link Contemporary Issues in Philosophy of Mind and Cognition Lecture 42 - Creativity : Human Vs Machine - II
Link Understanding Creativity and Creative Writing Lecture 1 - Overview
Link Understanding Creativity and Creative Writing Lecture 2 - In Conversation with Richard Schechner
Link Understanding Creativity and Creative Writing Lecture 3 - Multilingual Plurality: Our Environment - Part I
Link Understanding Creativity and Creative Writing Lecture 4 - Multilingual Plurality: Our Environment - Part II
Link Understanding Creativity and Creative Writing Lecture 5 - Interplay of Languages and Forms of Writing - Part I
Link Understanding Creativity and Creative Writing Lecture 6 - Interplay of Languages and Forms of Writing - Part II
Link Understanding Creativity and Creative Writing Lecture 7 - Creativity and Cultures
Link Understanding Creativity and Creative Writing Lecture 8 - Notion of Play and The Three Domain Activities
Link Understanding Creativity and Creative Writing Lecture 9 - Theory of Enjoyment: Critical Assessment
Link Understanding Creativity and Creative Writing Lecture 10 - Divergences and Convergences - Part I
Link Understanding Creativity and Creative Writing Lecture 11 - Divergences and Convergences - Part II
Link Understanding Creativity and Creative Writing Lecture 12 - Creative and Cultural Spaces for Students
Link Understanding Creativity and Creative Writing Lecture 13 - Being and Doing: Writing as Performance
Link Understanding Creativity and Creative Writing Lecture 14 - Writers and Writing: The Dialogic Process
Link Understanding Creativity and Creative Writing Lecture 15 - Creativity, Writing, Creative Writing: Recent Viewpoints
Link Understanding Creativity and Creative Writing Lecture 16 - Issues Related to the Teaching of Creative Writing
Link Understanding Creativity and Creative Writing Lecture 17 - Writers on Writing: Albert Camus
Link Understanding Creativity and Creative Writing Lecture 18 - Critical Reading of Great Writers: Albert Camus
Link Understanding Creativity and Creative Writing Lecture 19 - Critical Reading of Important Writers: Margaret Atwood
Link Understanding Creativity and Creative Writing Lecture 20 - Reading and Writing
Link Understanding Creativity and Creative Writing Lecture 21 - Indian Writing: Writers/Narrators
Link Understanding Creativity and Creative Writing Lecture 22 - Contemporary Indian Writers: The Search for Creativity - Part I
Link Understanding Creativity and Creative Writing Lecture 23 - Contemporary Indian Writers: The Search for Creativity - Part II
Link Understanding Creativity and Creative Writing Lecture 24 - Mosaic Patterns: Module 2
Link Understanding Creativity and Creative Writing Lecture 25 - Introduction to Drama
Link Understanding Creativity and Creative Writing Lecture 26 - Performance and Script Writing: Mime
Link Understanding Creativity and Creative Writing Lecture 27 - Western Classical Theory
Link Understanding Creativity and Creative Writing Lecture 28 - Student Response - I
Link Understanding Creativity and Creative Writing Lecture 29 - Indian Drama: Classical Theory and Practice
Link Understanding Creativity and Creative Writing Lecture 30 - Interacting Continuum: Classical, Folk and Modern Drama
Link Understanding Creativity and Creative Writing Lecture 31 - From The Perspective of Playwriting: Monologue
Link Understanding Creativity and Creative Writing Lecture 32 - From The Playwright's Perspective - Part I
Link Understanding Creativity and Creative Writing Lecture 33 - From The Playwright's Perspective - Part II
Link Understanding Creativity and Creative Writing Lecture 34 - From The Perspective of Playwriting: Anton Chekhov
Link Understanding Creativity and Creative Writing Lecture 35 - Drama in the Classroom: Experience and Writing
Link Understanding Creativity and Creative Writing Lecture 36 - Student Response - II
Link Understanding Creativity and Creative Writing Lecture 37 - Performative Reading of the Cherry Orchard
Link Understanding Creativity and Creative Writing Lecture 38 - Short Story as a Genre
Link Understanding Creativity and Creative Writing Lecture 39 - Short Stories by Indian Women Writers
Link Understanding Creativity and Creative Writing Lecture 40 - Modern Western Short Story
Link Understanding Creativity and Creative Writing Lecture 41 - Varieties of Writing Processes
Link NOC:Text, Texuality and Digital Media Lecture 1 - Introduction to the course
Link NOC:Text, Texuality and Digital Media Lecture 2 - Marshall McLuhan : The Medium is the Message
Link NOC:Text, Texuality and Digital Media Lecture 3 - Marshall McLuhan : The Gutenberg Galaxy - Part 1
Link NOC:Text, Texuality and Digital Media Lecture 4 - Marshall McLuhan : The Gutenberg Galaxy - Part 2
Link NOC:Text, Texuality and Digital Media Lecture 5 - Walter Ong: Orality and Literacy - Part 1
Link NOC:Text, Texuality and Digital Media Lecture 6 - Walter Ong: Orality and Literacy - Part 2
Link NOC:Text, Texuality and Digital Media Lecture 7 - Walter Ong: Orality and Literacy - Part 3
Link NOC:Text, Texuality and Digital Media Lecture 8 - Dastangoi : History - Part 1
Link NOC:Text, Texuality and Digital Media Lecture 9 - Dastangoi : Chouboli - Part 2
Link NOC:Text, Texuality and Digital Media Lecture 10 - Manuscript Culture: Europe
Link NOC:Text, Texuality and Digital Media Lecture 11 - Manuscript Culture: India
Link NOC:Text, Texuality and Digital Media Lecture 12 - Feudalism to Capitalism
Link NOC:Text, Texuality and Digital Media Lecture 13 - Febre and Martin: ‘The Discovery of Printing’ and ‘The Chinese Precedent’
Link NOC:Text, Texuality and Digital Media Lecture 14 - Guteberg and Revolution 15th Century
Link NOC:Text, Texuality and Digital Media Lecture 15 - Consequences of Print 16-17 Century
Link NOC:Text, Texuality and Digital Media Lecture 16 - John Dryden: [macFlecknoe]
Link NOC:Text, Texuality and Digital Media Lecture 17 - Robert Darnton: ‘What is the History of Books?’
Link NOC:Text, Texuality and Digital Media Lecture 18 - Benedict Anderson: ‘The Origins of National Consciousness’
Link NOC:Text, Texuality and Digital Media Lecture 19 - Colonialism
Link NOC:Text, Texuality and Digital Media Lecture 20 - Print in Bengal
Link NOC:Text, Texuality and Digital Media Lecture 21 - Surveillance and Censorship
Link NOC:Text, Texuality and Digital Media Lecture 22 - Rise of the Telugu Novel
Link NOC:Text, Texuality and Digital Media Lecture 23 - Publishing in Hindi and Urdu
Link NOC:Text, Texuality and Digital Media Lecture 24 - Walter Benjamin: 'The Work of Art in the Age of Mechanical Reproduction'
Link NOC:Text, Texuality and Digital Media Lecture 25 - Raymond Williams: 'Television'
Link NOC:Text, Texuality and Digital Media Lecture 26 - Jay David Bolter: Seeing and Writing
Link NOC:Text, Texuality and Digital Media Lecture 27 - Robert Coover: The End of Books - Part 1
Link NOC:Text, Texuality and Digital Media Lecture 28 - Robert Coover: The End of Books - Part 2
Link NOC:Text, Texuality and Digital Media Lecture 29 - N. katherine Hayles: Electronic Literature
Link NOC:Text, Texuality and Digital Media Lecture 30 - Richard Stallman: The GNU Manifesto
Link NOC:Text, Texuality and Digital Media Lecture 31 - Lawrence Lessig: Free Cultures
Link NOC:Text, Texuality and Digital Media Lecture 32 - Copyright - Part 1
Link NOC:Text, Texuality and Digital Media Lecture 33 - Copyright - Part 2
Link NOC:Text, Texuality and Digital Media Lecture 34 - Nicholas Carr: Juggler’s Brain
Link NOC:Text, Texuality and Digital Media Lecture 35 - Scott Galloway: Google
Link NOC:Text, Texuality and Digital Media Lecture 36 - Zeynep Tufecki: Twitter and Facebook - Part 1
Link NOC:Text, Texuality and Digital Media Lecture 37 - Zeynep Tufecki: Twitter and Facebook - Part 2
Link NOC:Text, Texuality and Digital Media Lecture 38 - Conclusion
Link NOC:Positive Psychology Lecture 1 - Introduction to Psychology
Link NOC:Positive Psychology Lecture 2 - Introduction to Positive Psychology
Link NOC:Positive Psychology Lecture 3 - Research Methods
Link NOC:Positive Psychology Lecture 4 - Character Strengths and Virtues/Positive Personality Traits - Part 1
Link NOC:Positive Psychology Lecture 5 - Character Strengths and Virtues/Positive Personality Traits - Part 2
Link NOC:Positive Psychology Lecture 6 - Character Strengths and Virtues/Positive Personality Traits - Part 3
Link NOC:Positive Psychology Lecture 7 - Happiness and Well-Being - Part 1
Link NOC:Positive Psychology Lecture 8 - Happiness and Well-Being - Part 2
Link NOC:Positive Psychology Lecture 9 - Happiness and Well-Being - Part 3
Link NOC:Positive Psychology Lecture 10 - Positive Emotional States and Processes - Part 1
Link NOC:Positive Psychology Lecture 11 - Positive Emotional States and Processes - Part 2
Link NOC:Positive Psychology Lecture 12 - Hope and Optimism
Link NOC:Positive Psychology Lecture 13 - Self and related Concepts
Link NOC:Positive Psychology Lecture 14 - Resilience
Link NOC:Positive Psychology Lecture 15 - Flow
Link NOC:Positive Psychology Lecture 16 - Mindfulness
Link NOC:Positive Psychology Lecture 17 - Spirituality, Grit and Mindset
Link NOC:Positive Psychology Lecture 18 - Minding and Compassion
Link NOC:Positive Psychology Lecture 19 - Forgiveness, Humanity and Gratitude
Link NOC:Positive Psychology Lecture 20 - Love, Empathy and Altruism
Link NOC:Positive Psychology Lecture 21 - Recent Trends and Directions In Positive Psychology - Part 1
Link NOC:Positive Psychology Lecture 22 - Recent Trends and Directions In Positive Psychology - Part 2
Link NOC:Positive Psychology Lecture 23 - Recent Trends and Directions In Positive Psychology - Part 3
Link Cultural Studies Lecture 1 - Understanding Cultural Studies - Part 1
Link Cultural Studies Lecture 2 - Understanding Cultural Studies - Part 2
Link Cultural Studies Lecture 3 - Evolution and Culture
Link Cultural Studies Lecture 4 - Evolutionary Psychology
Link Cultural Studies Lecture 5 - The Modern Mind: Its Origins
Link Cultural Studies Lecture 6 - Memetics
Link Cultural Studies Lecture 7 - Cultural Theory: Structuralism
Link Cultural Studies Lecture 8 - Marxism - Part 1
Link Cultural Studies Lecture 9 - Marxism - Part 2
Link Cultural Studies Lecture 10 - Poststructuralism
Link Cultural Studies Lecture 11 - Subjectivity
Link Cultural Studies Lecture 12 - Identity
Link Cultural Studies Lecture 13 - Ideology - Part 1
Link Cultural Studies Lecture 14 - Ideology - Part 2
Link Cultural Studies Lecture 15 - Representation - Part 1
Link Cultural Studies Lecture 16 - Representation - Part 2
Link Cultural Studies Lecture 17 - Power
Link Cultural Studies Lecture 18 - Discourse
Link Cultural Studies Lecture 19 - Gender - Part 1
Link Cultural Studies Lecture 20 - Gender - Part 2
Link Cultural Studies Lecture 21 - The Body
Link Cultural Studies Lecture 22 - Space
Link Cultural Studies Lecture 23 - Time
Link Cultural Studies Lecture 24 - Development
Link Cultural Studies Lecture 25 - Language
Link Cultural Studies Lecture 26 - Ethnicity, Race and Nation
Link Cultural Studies Lecture 27 - Globalisation
Link Cultural Studies Lecture 28 - Consumption - Part 1
Link Cultural Studies Lecture 29 - Consumption - Part 2
Link Cultural Studies Lecture 30 - Biology
Link Cultural Studies Lecture 31 - Culture Industry
Link Cultural Studies Lecture 32 - Commodity
Link Cultural Studies Lecture 33 - Media
Link Cultural Studies Lecture 34 - Television
Link Cultural Studies Lecture 35 - New Media
Link Cultural Studies Lecture 36 - Science, Technology and Culture
Link Cultural Studies Lecture 37 - Cyberculture
Link Cultural Studies Lecture 38 - Cultural Policy
Link Cultural Studies Lecture 39 - Critiquing Cultural Studies
Link Cultural Studies Lecture 40 - Conclusion
Link English Language and Literature Lecture 1 - Introduction
Link English Language and Literature Lecture 2 - The Scope of English Studies
Link English Language and Literature Lecture 3 - The English Language
Link English Language and Literature Lecture 4 - International English
Link English Language and Literature Lecture 5 - The Globalization of English
Link English Language and Literature Lecture 6 - World Englishes
Link English Language and Literature Lecture 7 - The Rise of Cultural Studies
Link English Language and Literature Lecture 8 - Old English
Link English Language and Literature Lecture 9 - Middle English
Link English Language and Literature Lecture 10 - Early Modern English
Link English Language and Literature Lecture 11 - Modern English - 1
Link English Language and Literature Lecture 12 - Modern English - 2
Link English Language and Literature Lecture 13 - The Age of Chaucer
Link English Language and Literature Lecture 14 - The Age of Shakespeare
Link English Language and Literature Lecture 15 - Milton and his Times
Link English Language and Literature Lecture 16 - The Augustans
Link English Language and Literature Lecture 17 - The Romantics
Link English Language and Literature Lecture 18 - The Victorians
Link English Language and Literature Lecture 19 - Modern Literature
Link English Language and Literature Lecture 20 - The Novel
Link English Language and Literature Lecture 21 - Poetry
Link English Language and Literature Lecture 22 - Drama
Link English Language and Literature Lecture 23 - Essay
Link English Language and Literature Lecture 24 - Short story
Link English Language and Literature Lecture 25 - Biography
Link English Language and Literature Lecture 26 - Autobiography
Link English Language and Literature Lecture 27 - History Of English Language
Link English Language and Literature Lecture 28 - Marxist Literary Criticism
Link English Language and Literature Lecture 29 - Feminist Criticism
Link English Language and Literature Lecture 30 - Structuralist Criticism
Link English Language and Literature Lecture 31 - Poststructuralism
Link English Language and Literature Lecture 32 - Postcolonialism
Link English Language and Literature Lecture 33 - Cognitive Approaches To Literature
Link English Language and Literature Lecture 34 - Classical Criticism
Link English Language and Literature Lecture 35 - Liberal Humanism
Link English Language and Literature Lecture 36 - Reader-response Criticism
Link English Language and Literature Lecture 37 - New Historicism
Link English Language and Literature Lecture 38 - Ecocriticism
Link Game Theory for Economists Lecture 1 - Definition of Game Theory and Rational Choice
Link Game Theory for Economists Lecture 2 - Interacting Decision Makers
Link Game Theory for Economists Lecture 3 - Strategic Games : Examples
Link Game Theory for Economists Lecture 4 - Matching Pennies, Stag Hunt and Nash Equilibrium
Link Game Theory for Economists Lecture 5 - Examples of Nash Equilibrium
Link Game Theory for Economists Lecture 6 - Altruism and Prisoner’s Dilemma
Link Game Theory for Economists Lecture 7 - Variants Stag Hunt Game, Hawk Dove and Coordination Game
Link Game Theory for Economists Lecture 8 - Public Good Provision, Strict Nash Equilibrium
Link Game Theory for Economists Lecture 9 - Best Response Functions
Link Game Theory for Economists Lecture 10 - Strictly and Weakly Dominated Action
Link Game Theory for Economists Lecture 11 - Application of Weak Domination: Voting
Link Game Theory for Economists Lecture 12 - Symmetric Games and Symmetric Equilibrium
Link Game Theory for Economists Lecture 13 - Cournot Model of Oligopoly
Link Game Theory for Economists Lecture 14 - Different Aspects of Cournot Model
Link Game Theory for Economists Lecture 15 - Further Aspects of Cournot Model
Link Game Theory for Economists Lecture 16 - Cournot & Bertrand Models
Link Game Theory for Economists Lecture 17 - Different Aspects of Bertrand Model
Link Game Theory for Economists Lecture 18 - Electoral Competition 1
Link Game Theory for Economists Lecture 19 - Different Aspects of Hotelling Model
Link Game Theory for Economists Lecture 20 - Hotteling Model: Concluding Remarks
Link Game Theory for Economists Lecture 21 - War of Attrition
Link Game Theory for Economists Lecture 22 - Second Price Sealed Bid Auction
Link Game Theory for Economists Lecture 23 - Further Aspects of Second Price Auction
Link Game Theory for Economists Lecture 24 - First Price Auction
Link Game Theory for Economists Lecture 25 - All Pay Auction, Multi Unit Auction
Link Game Theory for Economists Lecture 26 - Accident Laws
Link Game Theory for Economists Lecture 27 - Mixed Strategy Nash Equilibrium: Introduction
Link Game Theory for Economists Lecture 28 - Mixed Strategy, Mixed Strategy Equilibrium
Link Game Theory for Economists Lecture 29 - Mixed Strategy Equilibrium: Concept and Examples
Link Game Theory for Economists Lecture 30 - Characterisation of Mixed Strategy Equilibrium
Link Game Theory for Economists Lecture 31 - Dominated Actions and Iterated Elimination
Link Game Theory for Economists Lecture 32 - Rationalisability and Beliefs
Link Game Theory for Economists Lecture 33 - Extensive Games: Introduction
Link Game Theory for Economists Lecture 34 - Strategy and Equilibrium
Link Game Theory for Economists Lecture 35 - Nash Equilibrium and Its Problems
Link Game Theory for Economists Lecture 36 - Subgame Perfect Nash Equilibrium
Link Game Theory for Economists Lecture 37 - Backward Induction
Link Game Theory for Economists Lecture 38 - Backward Induction: Exercises
Link Game Theory for Economists Lecture 39 - Ultimatum Game
Link Game Theory for Economists Lecture 40 - Stackelberg Duopoly Model
Link NOC:Digital Human Modeling and Simulation for Virtual Ergonomics Evaluation Lecture 1 - Introduction to Ergonomics
Link NOC:Digital Human Modeling and Simulation for Virtual Ergonomics Evaluation Lecture 2 - Notes 1
Link NOC:Digital Human Modeling and Simulation for Virtual Ergonomics Evaluation Lecture 3 - Use of percentile anthropometric and biomechanical data for product design - Part I
Link NOC:Digital Human Modeling and Simulation for Virtual Ergonomics Evaluation Lecture 4 - Use of percentile anthropometric and biomechanical data for product design - Part II
Link NOC:Digital Human Modeling and Simulation for Virtual Ergonomics Evaluation Lecture 5 - Use of percentile anthropometric and biomechanical data for product design - Part III
Link NOC:Digital Human Modeling and Simulation for Virtual Ergonomics Evaluation Lecture 6 - Use of percentile anthropometric and biomechanical data for product design - Part IV
Link NOC:Digital Human Modeling and Simulation for Virtual Ergonomics Evaluation Lecture 7 - Notes 2
Link NOC:Digital Human Modeling and Simulation for Virtual Ergonomics Evaluation Lecture 8 - Virtual Ergonomics and its Advantages
Link NOC:Digital Human Modeling and Simulation for Virtual Ergonomics Evaluation Lecture 9 - Notes 3
Link NOC:Digital Human Modeling and Simulation for Virtual Ergonomics Evaluation Lecture 10 - Introduction of Digital Human Modeling (DHM) and Simulation
Link NOC:Digital Human Modeling and Simulation for Virtual Ergonomics Evaluation Lecture 11 - Notes 4
Link NOC:Digital Human Modeling and Simulation for Virtual Ergonomics Evaluation Lecture 12 - Techniques/Process of virtual ergonomics evaluation using DHMs - Part A (Part I)
Link NOC:Digital Human Modeling and Simulation for Virtual Ergonomics Evaluation Lecture 13 - Notes 5
Link NOC:Digital Human Modeling and Simulation for Virtual Ergonomics Evaluation Lecture 14 - Techniques/Process of virtual ergonomics evaluation using DHMs - Part B (Part I)
Link NOC:Digital Human Modeling and Simulation for Virtual Ergonomics Evaluation Lecture 15 - Techniques/Process of virtual ergonomics evaluation using DHMs - Part B (Part II)
Link NOC:Digital Human Modeling and Simulation for Virtual Ergonomics Evaluation Lecture 16 - Techniques/Process of virtual ergonomics evaluation using DHMs - Part B (Part III)
Link NOC:Digital Human Modeling and Simulation for Virtual Ergonomics Evaluation Lecture 17 - Notes 6
Link NOC:Digital Human Modeling and Simulation for Virtual Ergonomics Evaluation Lecture 18 - Application of Digital Human Modeling and Simulation in various Industrial Sectors - Part I
Link NOC:Digital Human Modeling and Simulation for Virtual Ergonomics Evaluation Lecture 19 - Application of Digital Human Modeling and Simulation in various Industrial Sectors - Part II
Link NOC:Digital Human Modeling and Simulation for Virtual Ergonomics Evaluation Lecture 20 - Notes 7
Link NOC:Digital Human Modeling and Simulation for Virtual Ergonomics Evaluation Lecture 21 - Future research avenues and steps to be taken towards widespread - Part I
Link NOC:Digital Human Modeling and Simulation for Virtual Ergonomics Evaluation Lecture 22 - Future research avenues and steps to be taken towards widespread - Part II
Link NOC:Digital Human Modeling and Simulation for Virtual Ergonomics Evaluation Lecture 23 - Future research avenues and steps to be taken towards widespread - Part III
Link NOC:Digital Human Modeling and Simulation for Virtual Ergonomics Evaluation Lecture 24 - Notes 8
Link NOC:Science, Technology and Society Lecture 1 - Cognitive Dimensions - I
Link NOC:Science, Technology and Society Lecture 2 - Cognitive Dimensions - II
Link NOC:Science, Technology and Society Lecture 3 - Ethical Dimensions
Link NOC:Science, Technology and Society Lecture 4 - Inductivism and Hypothesism - I
Link NOC:Science, Technology and Society Lecture 5 - Inductivism and Hypothesism - II
Link NOC:Science, Technology and Society Lecture 6 - Positivism - I
Link NOC:Science, Technology and Society Lecture 7 - Positivism - II
Link NOC:Science, Technology and Society Lecture 8 - Karl Popper - I
Link NOC:Science, Technology and Society Lecture 9 - Karl Popper - II
Link NOC:Science, Technology and Society Lecture 10 - Thomas Kuhn
Link NOC:Science, Technology and Society Lecture 11 - Popper versus Kuhn
Link NOC:Science, Technology and Society Lecture 12 - Paul Feyerabend
Link NOC:Science, Technology and Society Lecture 13 - Rewards and Recognitions - I
Link NOC:Science, Technology and Society Lecture 14 - Rewards and Recognitions - II
Link NOC:Science, Technology and Society Lecture 15 - Rewards and Recognitions - III
Link NOC:Science, Technology and Society Lecture 16 - Cumulative Advantage and Symbolism of Intellectual Property - I
Link NOC:Science, Technology and Society Lecture 17 - Cumulative Advantage and Symbolism of Intellectual Property - II
Link NOC:Science, Technology and Society Lecture 18 - Cumulative Advantage and Symbolism of Intellectual Property - III
Link NOC:Science, Technology and Society Lecture 19 - Max Weber
Link NOC:Science, Technology and Society Lecture 20 - Preliminary Exercise and Explanation
Link NOC:Science, Technology and Society Lecture 21 - Edwin Layton Jr.
Link NOC:Science, Technology and Society Lecture 22 - Langdon Winner - I
Link NOC:Science, Technology and Society Lecture 23 - Langdon Winner - II
Link NOC:Science, Technology and Society Lecture 24 - Langdon Winner - III
Link NOC:Science, Technology and Society Lecture 25 - Donald MacKenzie and Judy Wajcman - I
Link NOC:Science, Technology and Society Lecture 26 - Donald MacKenzie and Judy Wajcman - II
Link NOC:Science, Technology and Society Lecture 27 - Thomas Edison
Link NOC:Science, Technology and Society Lecture 28 - Capitalism, class, gender, city, machine, workplace - I
Link NOC:Science, Technology and Society Lecture 29 - Capitalism, class, gender, city, machine, workplace - II
Link NOC:Science, Technology and Society Lecture 30 - Capitalism, class, gender, city, machine, workplace - III
Link NOC:Science, Technology and Society Lecture 31 - Alvin Toffler and Daniel Bell
Link NOC:Science, Technology and Society Lecture 32 - Themes and Factors of Information Technology
Link NOC:Science, Technology and Society Lecture 33 - Information Technology and Reconceptualization of Class
Link NOC:Science, Technology and Society Lecture 34 - Reception of Modern Science in India
Link NOC:Science, Technology and Society Lecture 35 - Science Policies in India
Link NOC:Science, Technology and Society Lecture 36 - Summary of the Course
Link NOC:Gender and Literature Lecture 1 - A Brief Overview of the Course
Link NOC:Gender and Literature Lecture 2 - Performativity and Embodiment
Link NOC:Gender and Literature Lecture 3 - The Chess Players - Part 1
Link NOC:Gender and Literature Lecture 4 - The Chess Players - Part 2
Link NOC:Gender and Literature Lecture 5 - Shooting an Elephant - Part 1
Link NOC:Gender and Literature Lecture 6 - Shooting an Elephant - Part 2
Link NOC:Gender and Literature Lecture 7 - Heart of Darkness - Part 1
Link NOC:Gender and Literature Lecture 8 - Heart of Darkness - Part 2
Link NOC:Gender and Literature Lecture 9 - Heart of Darkness - Part 3
Link NOC:Gender and Literature Lecture 10 - The Fly - Part 1
Link NOC:Gender and Literature Lecture 11 - The Fly - Part 2
Link NOC:Gender and Literature Lecture 12 - Look Back in Anger - Part 1
Link NOC:Gender and Literature Lecture 13 - Look Back in Anger - Part 2
Link NOC:Gender and Literature Lecture 14 - Look Back in Anger - Part 3
Link NOC:Gender and Literature Lecture 15 - Look Back in Anger - Part 4
Link NOC:Gender and Literature Lecture 16 - Look Back in Anger - Part 5
Link NOC:Gender and Literature Lecture 17 - Look Back in Anger - Part 6
Link NOC:Gender and Literature Lecture 18 - Gender and Popular Culture Lecture - 1
Link NOC:Gender and Literature Lecture 19 - Gender and Popular Culture Lecture - 2
Link NOC:Gender and Literature Lecture 20 - Gender and Popular Culture Lecture - 3
Link NOC:Gender and Literature Lecture 21 - Gender and Popular Culture Final Lecture
Link NOC:Ecology and Society Lecture 1 - Ecology and Society - 1
Link NOC:Ecology and Society Lecture 2 - Ecology and Society - 2
Link NOC:Ecology and Society Lecture 3 - Culture and Cultural Ecology
Link NOC:Ecology and Society Lecture 4 - Cultural Ecology and Eocnomic
Link NOC:Ecology and Society Lecture 5 - Cultural Ecological Theory
Link NOC:Ecology and Society Lecture 6 - Human Ecology: Concept and Meaning
Link NOC:Ecology and Society Lecture 7 - Human Ecology - Theoretical Approach
Link NOC:Ecology and Society Lecture 8 - Ecological Anthropology
Link NOC:Ecology and Society Lecture 9 - Ecosystem-based and Actor-based Model of Human Ecology
Link NOC:Ecology and Society Lecture 10 - Nature and Culture Debate
Link NOC:Ecology and Society Lecture 11 - Nature - A Contested Concept
Link NOC:Ecology and Society Lecture 12 - Conceptions of Nature
Link NOC:Ecology and Society Lecture 13 - Contested Domains and Boundaries of Culture
Link NOC:Ecology and Society Lecture 14 - MCQs Discussion
Link NOC:Ecology and Society Lecture 15 - Paradigms in Human—Environmental Relations - Part I
Link NOC:Ecology and Society Lecture 16 - Paradigms in Human—Environmental Relations - Part II
Link NOC:Ecology and Society Lecture 17 - Nature, Culture, Magic and Science
Link NOC:Ecology and Society Lecture 18 - Religion, Nature and Environment
Link NOC:Ecology and Society Lecture 19 - Religion, Nature and Environment Continue
Link NOC:Ecology and Society Lecture 20 - The Historical Roots of our Ecological Crisis
Link NOC:Ecology and Society Lecture 21 - Biodiversity Conservation Ethics in Buddhism
Link NOC:Ecology and Society Lecture 22 - Hinduism and Nature Conservation, Christian Religion Response to Ecological Crisis
Link NOC:Ecology and Society Lecture 23 - Hinduism and Nature Conservation, Christian Religion Response to Ecological Crisis
Link NOC:Ecology and Society Lecture 24 - Deep Ecology
Link NOC:Ecology and Society Lecture 25 - Social Ecology
Link NOC:Ecology and Society Lecture 26 - Ecological Feminist Philosophies
Link NOC:Ecology and Society Lecture 27 - Indigenous Knowledge
Link NOC:Ecology and Society Lecture 28 - Ecological Journey
Link NOC:Ecology and Society Lecture 29 - Kuki Jhumming Practices
Link NOC:Ecology and Society Lecture 30 - Debates on Shifting Cultivation
Link NOC:Ecology and Society Lecture 31 - Course Summary
Link NOC:Sociological Perspectives on Modernity Lecture 1 - Thematic Preliminaries - I
Link NOC:Sociological Perspectives on Modernity Lecture 2 - Thematic Preliminaries - II
Link NOC:Sociological Perspectives on Modernity Lecture 3 - Thematic Preliminaries - III
Link NOC:Sociological Perspectives on Modernity Lecture 4 - Sociological Modernism: Karl Marx - I
Link NOC:Sociological Perspectives on Modernity Lecture 5 - Sociological Modernism: Karl Marx - II
Link NOC:Sociological Perspectives on Modernity Lecture 6 - Sociological Modernism: Karl Marx - III
Link NOC:Sociological Perspectives on Modernity Lecture 7 - Sociological Modernism: Max Weber - I
Link NOC:Sociological Perspectives on Modernity Lecture 8 - Sociological Modernism: Max Weber - II
Link NOC:Sociological Perspectives on Modernity Lecture 9 - Sociological Modernism: Max Weber - III
Link NOC:Sociological Perspectives on Modernity Lecture 10 - Sociological Modernism: Max Weber - IV
Link NOC:Sociological Perspectives on Modernity Lecture 11 - Sociological Modernism: Marx vs. Weber
Link NOC:Sociological Perspectives on Modernity Lecture 12 - Structuralist Interpretation - I
Link NOC:Sociological Perspectives on Modernity Lecture 13 - Structuralist Interpretation - II
Link NOC:Sociological Perspectives on Modernity Lecture 14 - Structuralist Interpretation - III
Link NOC:Sociological Perspectives on Modernity Lecture 15 - Western Marxism - I
Link NOC:Sociological Perspectives on Modernity Lecture 16 - Western Marxism - II
Link NOC:Sociological Perspectives on Modernity Lecture 17 - Modernity and Social Theory - I
Link NOC:Sociological Perspectives on Modernity Lecture 18 - Modernity and Social Theory - II
Link NOC:Sociological Perspectives on Modernity Lecture 19 - Modernity and Social Theory - III
Link NOC:Sociological Perspectives on Modernity Lecture 20 - Modernity and Social Theory - IV
Link NOC:Sociological Perspectives on Modernity Lecture 21 - Deconstruction of Modernity: The Feminist Challenge - I
Link NOC:Sociological Perspectives on Modernity Lecture 22 - Deconstruction of Modernity: The Feminist Challenge - II
Link NOC:Sociological Perspectives on Modernity Lecture 23 - Deconstruction of Modernity: Towards Cultural Studies - I
Link NOC:Sociological Perspectives on Modernity Lecture 24 - Deconstruction of Modernity: Towards Cultural Studies - II
Link NOC:Sociological Perspectives on Modernity Lecture 25 - Deconstruction of Modernity: The Postmodernist Critique - I
Link NOC:Sociological Perspectives on Modernity Lecture 26 - Deconstruction of Modernity: The Postmodernist Critique - II
Link NOC:Sociological Perspectives on Modernity Lecture 27 - A New Totality - I
Link NOC:Sociological Perspectives on Modernity Lecture 28 - A New Totality - II
Link NOC:Sociological Perspectives on Modernity Lecture 29 - Modernity in India
Link NOC:Sociological Perspectives on Modernity Lecture 30 - What have we discussed?
Link NOC:Introduction to Cognitive Psychology Lecture 1 - A Brief History of Cognitive Psychology - 1
Link NOC:Introduction to Cognitive Psychology Lecture 2 - A Brief History of Cognitive Psychology - 2
Link NOC:Introduction to Cognitive Psychology Lecture 3 - Studying Cognition
Link NOC:Introduction to Cognitive Psychology Lecture 4 - Perception:Basic Principles
Link NOC:Introduction to Cognitive Psychology Lecture 5 - Models of Perception - 1
Link NOC:Introduction to Cognitive Psychology Lecture 6 - Models of Perception - 2
Link NOC:Introduction to Cognitive Psychology Lecture 7 - Basic Attention Processes
Link NOC:Introduction to Cognitive Psychology Lecture 8 - Models of Attention
Link NOC:Introduction to Cognitive Psychology Lecture 9 - Automization and Attention
Link NOC:Introduction to Cognitive Psychology Lecture 10 - Memory Introduction
Link NOC:Introduction to Cognitive Psychology Lecture 11 - Short Term Memory
Link NOC:Introduction to Cognitive Psychology Lecture 12 - Working Memory
Link NOC:Introduction to Cognitive Psychology Lecture 13 - Long-Term Memory Encoding
Link NOC:Introduction to Cognitive Psychology Lecture 14 - Retrieval from Long-Term Memory
Link NOC:Introduction to Cognitive Psychology Lecture 15 - Semantic Memory Basics
Link NOC:Introduction to Cognitive Psychology Lecture 16 - Models of Semantic Memory
Link NOC:Introduction to Cognitive Psychology Lecture 17 - Introducing Concepts and Categories - 1
Link NOC:Introduction to Cognitive Psychology Lecture 18 - Introducing Concepts and Categories - 2
Link NOC:Introduction to Cognitive Psychology Lecture 19 - Basics of Visual Memory
Link NOC:Introduction to Cognitive Psychology Lecture 20 - Object Transformation in Visual Memory
Link NOC:Introduction to Cognitive Psychology Lecture 21 - Basic Issues in Language
Link NOC:Introduction to Cognitive Psychology Lecture 22 - Comprehension and Understanding of Language
Link NOC:Introduction to Cognitive Psychology Lecture 23 - Introduction to Problem Solving
Link NOC:Introduction to Cognitive Psychology Lecture 24 - Factors Influencing Problem Solving
Link NOC:Introduction to Cognitive Psychology Lecture 25 - Insight and Creativity
Link NOC:Introduction to Cognitive Psychology Lecture 26 - Reasoning - 1
Link NOC:Introduction to Cognitive Psychology Lecture 27 - Reasoning - 2
Link NOC:Introduction to Cognitive Psychology Lecture 28 - Classical Theory of Decision Making
Link NOC:Introduction to Cognitive Psychology Lecture 29 - Prospect Theory of Decision Making
Link NOC:Introduction to Cognitive Psychology Lecture 30 - Course Summary
Link NOC:Introduction to Modern Indian Political Thought Lecture 1 - Introduction to the course
Link NOC:Introduction to Modern Indian Political Thought Lecture 2 - Raja Rammohan Roy : Religious reforms
Link NOC:Introduction to Modern Indian Political Thought Lecture 3 - Raja Rammohan Roy : Modern education
Link NOC:Introduction to Modern Indian Political Thought Lecture 4 - Raja Rammohan Roy : Freedom of Press
Link NOC:Introduction to Modern Indian Political Thought Lecture 5 - Rabindranath Tagore : Nationalism
Link NOC:Introduction to Modern Indian Political Thought Lecture 6 - Rabindranath Tagore : Cosmopolitanism
Link NOC:Introduction to Modern Indian Political Thought Lecture 7 - Rabindranath Tagore : Idea of man
Link NOC:Introduction to Modern Indian Political Thought Lecture 8 - Aurobindo Ghosh : Self
Link NOC:Introduction to Modern Indian Political Thought Lecture 9 - Aurobindo Ghosh : Community and Religion
Link NOC:Introduction to Modern Indian Political Thought Lecture 10 - Vivekananda : Introduction
Link NOC:Introduction to Modern Indian Political Thought Lecture 11 - Vivekananda : Revitalisation of Indian life
Link NOC:Introduction to Modern Indian Political Thought Lecture 12 - Mahatma Gandhi : Introduction
Link NOC:Introduction to Modern Indian Political Thought Lecture 13 - Mahatma Gandhi : Hind swaraj and Critique of Modern Civilisation
Link NOC:Introduction to Modern Indian Political Thought Lecture 14 - Mahatma Gandhi : India of His Dreams
Link NOC:Introduction to Modern Indian Political Thought Lecture 15 - Muhammad Iqbal : Community
Link NOC:Introduction to Modern Indian Political Thought Lecture 16 - Muhammad Iqbal : Religion and Nation
Link NOC:Introduction to Modern Indian Political Thought Lecture 17 - Savarkar : Introduction
Link NOC:Introduction to Modern Indian Political Thought Lecture 18 - Savarkar : Hinduism and Hindutva
Link NOC:Introduction to Modern Indian Political Thought Lecture 19 - Jawaharlal Nehru : Discovery of India
Link NOC:Introduction to Modern Indian Political Thought Lecture 20 - Jawaharlal Nehru : Secularism
Link NOC:Introduction to Modern Indian Political Thought Lecture 21 - Jawaharlal Nehru : Internationalism
Link NOC:Introduction to Modern Indian Political Thought Lecture 22 - B.R.Ambedkar : Introduction
Link NOC:Introduction to Modern Indian Political Thought Lecture 23 - B.R.Ambedkar : Caste
Link NOC:Introduction to Modern Indian Political Thought Lecture 24 - B.R.Ambedkar : Liberal Democracy and Constitutional Morality
Link NOC:Introduction to Modern Indian Political Thought Lecture 25 - Pandita Ramabai : Introduction
Link NOC:Introduction to Modern Indian Political Thought Lecture 26 - Pandita Ramabai : Gender and Caste
Link NOC:Introduction to Modern Indian Political Thought Lecture 27 - Rammanohar Lohia : Introduction
Link NOC:Introduction to Modern Indian Political Thought Lecture 28 - Rammanohar Lohia : Caste and Class
Link NOC:Introduction to Modern Indian Political Thought Lecture 29 - Rammanohar Lohia : Views on Indian Languages
Link NOC:Introduction to Modern Indian Political Thought Lecture 30 - Conclusion
Link NOC:Consumer Psychology Lecture 1 - Introduction to Consumer Psychology - I
Link NOC:Consumer Psychology Lecture 2 - Introduction to Consumer Psychology - II
Link NOC:Consumer Psychology Lecture 3 - Problem Recognition - I
Link NOC:Consumer Psychology Lecture 4 - Problem Recognition - II
Link NOC:Consumer Psychology Lecture 5 - Alternate Evaluation - I
Link NOC:Consumer Psychology Lecture 6 - Alternate Evaluation - II
Link NOC:Consumer Psychology Lecture 7 - Alternate Evaluation - III
Link NOC:Consumer Psychology Lecture 8 - Post Purchase and Consumption - I
Link NOC:Consumer Psychology Lecture 9 - Post Purchase and Consumption - II
Link NOC:Consumer Psychology Lecture 10 - Perception and Cognition - I
Link NOC:Consumer Psychology Lecture 11 - Perception and Cognition - II
Link NOC:Consumer Psychology Lecture 12 - Memory and Learning - I
Link NOC:Consumer Psychology Lecture 13 - Memory and Learning - II
Link NOC:Consumer Psychology Lecture 14 - Emotion Motivation and Mood - I
Link NOC:Consumer Psychology Lecture 15 - Emotion Motivation and Mood - II
Link NOC:Consumer Psychology Lecture 16 - Attitude and Attitude Change - I
Link NOC:Consumer Psychology Lecture 17 - Attitude and Attitude Change - II
Link NOC:Consumer Psychology Lecture 18 - Communication and Persuassion - I
Link NOC:Consumer Psychology Lecture 19 - Communication and Persuassion - II
Link NOC:Consumer Psychology Lecture 20 - Summary
Link NOC:Introduction to Modern Indian Drama Lecture 1 - Sanskrit and National Theatre
Link NOC:Introduction to Modern Indian Drama Lecture 2 - History of Parsi Theatre and Female Impersonation
Link NOC:Introduction to Modern Indian Drama Lecture 3 - Female Impersonation and Indian Folk Traditions
Link NOC:Introduction to Modern Indian Drama Lecture 4 - Early Indian Playwrights
Link NOC:Introduction to Modern Indian Drama Lecture 5 - Silence! The Court is in Session
Link NOC:Introduction to Modern Indian Drama Lecture 6 - A Friend's Story
Link NOC:Introduction to Modern Indian Drama Lecture 7 - Ghashiram Kotwal
Link NOC:Introduction to Modern Indian Drama Lecture 8 - Kanyadaan
Link NOC:Introduction to Modern Indian Drama Lecture 9 - Hayavadana
Link NOC:Introduction to Modern Indian Drama Lecture 10 - Tughlaq
Link NOC:Introduction to Modern Indian Drama Lecture 11 - The Dreams of Tipu Sultan
Link NOC:Introduction to Modern Indian Drama Lecture 12 - The Fire and the Rain
Link NOC:Introduction to Modern Indian Drama Lecture 13 - Broken Images
Link NOC:Introduction to Modern Indian Drama Lecture 14 - Summary
Link NOC:Introduction to Modern Indian Drama Lecture 15 - Introduction and Garbo
Link NOC:Introduction to Modern Indian Drama Lecture 16 - Old Stone Mansion
Link NOC:Introduction to Modern Indian Drama Lecture 17 - Desire in the Rocks
Link NOC:Introduction to Modern Indian Drama Lecture 18 - Sonata
Link NOC:Introduction to Modern Indian Drama Lecture 19 - Summary of Mahesh Elkunchwar
Link NOC:Introduction to Modern Indian Drama Lecture 20 - Introduction and Final Solutions
Link NOC:Introduction to Modern Indian Drama Lecture 21 - Bravely Fought the Queen
Link NOC:Introduction to Modern Indian Drama Lecture 22 - Dance Like a Man
Link NOC:Introduction to Modern Indian Drama Lecture 23 - Summary of Mahesh Dattani
Link NOC:Introduction to Modern Indian Drama Lecture 24 - Introduction and Procession
Link NOC:Introduction to Modern Indian Drama Lecture 25 - Bhoma
Link NOC:Introduction to Modern Indian Drama Lecture 26 - Stale News and Summary
Link NOC:Introduction to Modern Indian Drama Lecture 27 - Conclusion
Link NOC:Introduction to Political Theory Lecture 1 - General Outline and methods
Link NOC:Introduction to Political Theory Lecture 2 - Political theories and ideologies
Link NOC:Introduction to Political Theory Lecture 3 - Liberty: republican conception of freedom
Link NOC:Introduction to Political Theory Lecture 4 - Freedom as autonomy;Positive and negative liberty
Link NOC:Introduction to Political Theory Lecture 5 - Freedom as Swaraj, Free speech and hate speech
Link NOC:Introduction to Political Theory Lecture 6 - Introduction: Equity and egalitarianism
Link NOC:Introduction to Political Theory Lecture 7 - Equality of opportunity; preferential treatment
Link NOC:Introduction to Political Theory Lecture 8 - Luck Egalitarianism and its critiques; Equality and Liberty
Link NOC:Introduction to Political Theory Lecture 9 - Introduction and forms of rights
Link NOC:Introduction to Political Theory Lecture 10 - Conflicts between rights
Link NOC:Introduction to Political Theory Lecture 11 - Rights and Duties
Link NOC:Introduction to Political Theory Lecture 12 - Justice : A distributive concept
Link NOC:Introduction to Political Theory Lecture 13 - Justice : Procedural and Substantive; Justice as fairness
Link NOC:Introduction to Political Theory Lecture 14 - Justice : Capability approach; libertarian, communitarian conception of Justice
Link NOC:Introduction to Political Theory Lecture 15 - Justice : Feminist conceptions of justice; Global justice
Link NOC:Introduction to Political Theory Lecture 16 - Introduction to Power and authority
Link NOC:Introduction to Political Theory Lecture 17 - Power, legitimacy and hegemony
Link NOC:Introduction to Political Theory Lecture 18 - Power and knowledge; different conceptions of power
Link NOC:Introduction to Political Theory Lecture 19 - Introduction and different conceptions of state and sovereignty
Link NOC:Introduction to Political Theory Lecture 20 - Modern nation state; liberal, Marxist and feminist conceptions of state
Link NOC:Introduction to Political Theory Lecture 21 - State and governmentality
Link NOC:Introduction to Political Theory Lecture 22 - Introduction: Procedural and Substantive Democracy
Link NOC:Introduction to Political Theory Lecture 23 - Various models of democracy
Link NOC:Introduction to Political Theory Lecture 24 - Challenges and Limits of Democracy; Free press and Democracy
Link NOC:Introduction to Political Theory Lecture 25 - Citizenship: Subject and Citizen
Link NOC:Introduction to Political Theory Lecture 26 - T H Marshal and liberal conceptions of citizenship as legal and equal member
Link NOC:Introduction to Political Theory Lecture 27 - Muliticulturalism and Cosmopolitan Citizenship
Link NOC:Introduction to Political Theory Lecture 28 - Introduction; Doom and Gloom; Democracy and environmental crisis
Link NOC:Introduction to Political Theory Lecture 29 - Climate change and environmental justice
Link NOC:Introduction to Political Theory Lecture 30 - Revisiting some key themes and concepts
Link NOC:Human Behaviour Lecture 1 - Introduction to the Science of Human Behavior - I
Link NOC:Human Behaviour Lecture 2 - Introduction to the Science of Human Behavior - II
Link NOC:Human Behaviour Lecture 3 - Sensation - I
Link NOC:Human Behaviour Lecture 4 - Sensation - II
Link NOC:Human Behaviour Lecture 5 - Perception - I
Link NOC:Human Behaviour Lecture 6 - Perception - II
Link NOC:Human Behaviour Lecture 7 - Learning - I
Link NOC:Human Behaviour Lecture 8 - Learning - II
Link NOC:Human Behaviour Lecture 9 - Memory - I
Link NOC:Human Behaviour Lecture 10 - Memory - II
Link NOC:Human Behaviour Lecture 11 - Language - I
Link NOC:Human Behaviour Lecture 12 - Language - II
Link NOC:Human Behaviour Lecture 13 - Intelligence - I
Link NOC:Human Behaviour Lecture 14 - Intelligence - II
Link NOC:Human Behaviour Lecture 15 - Emotion - I
Link NOC:Human Behaviour Lecture 16 - Emotion - II
Link NOC:Human Behaviour Lecture 17 - Personality - I
Link NOC:Human Behaviour Lecture 18 - Personality - II
Link NOC:Human Behaviour Lecture 19 - Social Influence and Cognition - I
Link NOC:Human Behaviour Lecture 20 - Social Influence and Cognition - II
Link NOC:Human Behaviour Lecture 21 - Summary
Link NOC:The Psychology of Language Lecture 1 - Communication and Language - I
Link NOC:The Psychology of Language Lecture 2 - Communication and Language - II
Link NOC:The Psychology of Language Lecture 3 - Science of Language - I
Link NOC:The Psychology of Language Lecture 4 - Science of Language - II
Link NOC:The Psychology of Language Lecture 5 - Speech Perception - I
Link NOC:The Psychology of Language Lecture 6 - Speech Perception - II
Link NOC:The Psychology of Language Lecture 7 - Speech Production - I
Link NOC:The Psychology of Language Lecture 8 - Speech Production - II
Link NOC:The Psychology of Language Lecture 9 - Words - I
Link NOC:The Psychology of Language Lecture 10 - Words - II
Link NOC:The Psychology of Language Lecture 11 - Words - III
Link NOC:The Psychology of Language Lecture 12 - Sentences - I
Link NOC:The Psychology of Language Lecture 13 - Sentences - II
Link NOC:The Psychology of Language Lecture 14 - Discourse - I
Link NOC:The Psychology of Language Lecture 15 - Discourse - II
Link NOC:The Psychology of Language Lecture 16 - Reading and Writing - I
Link NOC:The Psychology of Language Lecture 17 - Reading and Writing - II
Link NOC:The Psychology of Language Lecture 18 - Bilinguilism - I
Link NOC:The Psychology of Language Lecture 19 - Bilinguilism - II
Link NOC:The Psychology of Language Lecture 20 - Overall Review
Link NOC:Development Research Methods Lecture 1 - Reflections on Development Studies and Development Research
Link NOC:Development Research Methods Lecture 2 - Types, Forms, and Processes of Development Studies Research
Link NOC:Development Research Methods Lecture 3 - The Rigour in Development Studies Research
Link NOC:Development Research Methods Lecture 4 - Paradigms of Development Research
Link NOC:Development Research Methods Lecture 5 - Development Research-Development Work Continuum and Action Research in Development Studies
Link NOC:Development Research Methods Lecture 6 - Ethics in Development Studies and Development Research
Link NOC:Development Research Methods Lecture 7 - Literature Study
Link NOC:Development Research Methods Lecture 8 - A General Lecture based on M.N. Srinivas's The Fieldworker and the Field
Link NOC:Development Research Methods Lecture 9 - Introducing Qualitative Research Methods
Link NOC:Development Research Methods Lecture 10 - Introducing Qualitative Research Methods (Continued...)
Link NOC:Development Research Methods Lecture 11 - Interviews and Focus Group Discussions
Link NOC:Development Research Methods Lecture 12 - Participatory Methods and Approaches
Link NOC:Development Research Methods Lecture 13 - Conducting Case Studies and Maintaining Field Diaries
Link NOC:Development Research Methods Lecture 14 - Introducing Quantitative Research Methods
Link NOC:Development Research Methods Lecture 15 - An Overview of Mixed Methods Research
Link NOC:Development Research Methods Lecture 16 - Field Surveys and Inventories
Link NOC:Development Research Methods Lecture 17 - Logical Framwork and SWOT Analysis
Link NOC:Development Research Methods Lecture 18 - The importance of Census and other Secondary Data in Development Studies
Link NOC:Development Research Methods Lecture 19 - Communicating Research
Link NOC:Development Research Methods Lecture 20 - Operationalizing Rights-based Approaches to Development
Link NOC:Development Research Methods Lecture 21 - Poverty Measures and Analysis
Link NOC:Development Research Methods Lecture 22 - Gender-sensitive Indicators and Gender Analysis
Link NOC:Development Research Methods Lecture 23 - Social Capital Assessment Tools
Link NOC:Development Research Methods Lecture 24 - Moitoring and Evaluation
Link NOC:Development Research Methods Lecture 25 - A Final Note
Link Communication Skills Lecture 1 - Introduction
Link Communication Skills Lecture 2 - Barriers to Communication - 1
Link Communication Skills Lecture 3 - Barriers to Communication - 2
Link Communication Skills Lecture 4 - Barriers to Communication - 3
Link Communication Skills Lecture 5 - Non-Verbal Communication - 1
Link Communication Skills Lecture 6 - Non-Verbal Communication - 2
Link Communication Skills Lecture 7 - Non-Verbal Communication - 3
Link Communication Skills Lecture 8 - Non-Verbal Communication - 4
Link Communication Skills Lecture 9 - Non-Verbal Communication - 5
Link Communication Skills Lecture 10 - Listening Skills - 1
Link Communication Skills Lecture 11 - Listening Skills - 2
Link Communication Skills Lecture 12 - Listening Skills - 3
Link Communication Skills Lecture 13 - Business Letters Writing - 1
Link Communication Skills Lecture 14 - Business Letters Writing - 2
Link Communication Skills Lecture 15 - Business Letters Writing - 3
Link Communication Skills Lecture 16 - Business Letters Writing - 4
Link Communication Skills Lecture 17 - Report Writing - 1
Link Communication Skills Lecture 18 - Report Writing - 2
Link Communication Skills Lecture 19 - Group Discussion - 1
Link Communication Skills Lecture 20 - Group Discussion - 2
Link Communication Skills Lecture 21 - Group Discussion - 3
Link Communication Skills Lecture 22 - Interview Skills - 1
Link Communication Skills Lecture 23 - Interview Skills - 2
Link Communication Skills Lecture 24 - Interview Skills - 3
Link Communication Skills Lecture 25 - Interview Skills - 4
Link Communication Skills Lecture 26 - Interview Skills - 5
Link Communication Skills Lecture 27 - Interview Skills - 6
Link Communication Skills Lecture 28 - Interview Skills - 7
Link Communication Skills Lecture 29 - Netiquette - 1
Link Communication Skills Lecture 30 - Netiquette - 2
Link Communication Skills Lecture 31 - Oral Presentation - 1
Link Communication Skills Lecture 32 - Oral Presentation - 2
Link Communication Skills Lecture 33 - Oral Presentation - 3
Link Communication Skills Lecture 34 - Cross Cultural Communication - 1
Link Communication Skills Lecture 35 - Cross Cultural Communication - 2
Link Communication Skills Lecture 36 - Cross Cultural Communication - 3
Link Communication Skills Lecture 37 - Cross Cultural Communication - 4
Link Communication Skills Lecture 38 - Common Errors - 1
Link Communication Skills Lecture 39 - Common Errors - 2
Link Communication Skills Lecture 40 - Common Errors - 3
Link Ethics Lecture 1 - Introduction to Ethics - 'Crtio' A Socratic dialoguea
Link Ethics Lecture 2 - Introduction to Ethics -An assessment of Ethical relativism
Link Ethics Lecture 3 - Consequentialism -Introduction
Link Ethics Lecture 4 - Consequentialism Rule and Act
Link Ethics Lecture 5 - Hedonism
Link Ethics Lecture 6 - Utilitarianism
Link Ethics Lecture 7 - Deontological theories - Introduction
Link Ethics Lecture 8 - Deontological theories - Immanuel Kant
Link Ethics Lecture 9 - Ethical Rules (with reference to W D Ross)
Link Ethics Lecture 10 - Situation Ethics
Link Ethics Lecture 11 - Virtue Ethics
Link Ethics Lecture 12 - Metaethical Theories
Link Ethics Lecture 13 - Ethical Relativism: A discussion on Universal Declaration of Human Rights
Link Ethics Lecture 14 - Ethical Naturalism
Link Ethics Lecture 15 - Ethical Naturalism (Continued...)
Link Ethics Lecture 16 - Ethical Naturalism-Emotivism
Link Ethics Lecture 17A - Ethical Non-naturalism
Link Ethics Lecture 17B - Ethical Non-naturalism-II
Link Ethics Lecture 18 - Non-cognitive or Nondescriptivist Theories - Intuitionism
Link Ethics Lecture 19 - Non-cognitive or Nondescriptivist Theories - Intuitionism Nihilism
Link Ethics Lecture 20 - Why be Moral?
Link Ethics Lecture 21 - Ethics in the Indian tradition
Link Ethics Lecture 22 - Theory of Karma - Part 1
Link Ethics Lecture 23 - Theory of Karma - Part 2
Link Ethics Lecture 24 - Nishkama Karma - Part 1
Link Ethics Lecture 25 - Nishkama Karma - Part 2
Link Ethics Lecture 26 - Gandhian Ethics - Part 1
Link Ethics Lecture 27 - Gandhian Ethics - Part 2
Link Ethics Lecture 28 - Gandhian Ethics - Part 3 (Satyagraha)
Link Ethics Lecture 29 - Purusharthas
Link Ethics Lecture 30 - Buddhist Ethics - Part 1
Link Ethics Lecture 31 - Buddhist Ethics - Part 2 - Jaina Ethics
Link Ethics Lecture 32 - Some ethical issues (Applied Ethics) Discussing Peter Singer's 'Famine Affluence and Morality'
Link Ethics Lecture 33 - Some ethical issues (Applied Ethics) Discussing Peter Singer's 'Famine Affluence and Morality'
Link Ethics Lecture 34 - Discussing Thomas Pogge's 'Real World Justice' - Part 1
Link Ethics Lecture 35 - Discussing Thomas Pogge's 'Real World Justice' - Part 2
Link Ethics Lecture 36 - Discussing Thomas Pogge's 'Real World Justice' - Part 3
Link Ethics Lecture 37 - Sexuality: Ethical Perspectives - Part 1
Link Ethics Lecture 38 - Sexuality: Ethical Perspectives - Part 2
Link International Economics Lecture 1 - International Economics
Link International Economics Lecture 2 - International Economics
Link International Economics Lecture 3 - International Economics
Link International Economics Lecture 4 - International Economics
Link International Economics Lecture 5 - International Economics
Link International Economics Lecture 6 - International Economics
Link International Economics Lecture 7 - International Economics
Link International Economics Lecture 8 - International Economics
Link International Economics Lecture 9 - International Economics
Link International Economics Lecture 10 - International Economics
Link International Economics Lecture 11 - International Economics
Link International Economics Lecture 12 - International Economics
Link International Economics Lecture 13 - International Economics
Link International Economics Lecture 14 - International Economics
Link International Economics Lecture 15 - International Economics
Link International Economics Lecture 16 - International Economics
Link International Economics Lecture 17 - International Economics
Link International Economics Lecture 18 - International Economics
Link International Economics Lecture 19 - International Economics
Link International Economics Lecture 20 - International Economics
Link International Economics Lecture 21 - International Economics
Link International Economics Lecture 22 - International Economics
Link International Economics Lecture 23 - International Economics
Link International Economics Lecture 24 - International Economics
Link International Economics Lecture 25 - International Economics
Link International Economics Lecture 26 - International Economics
Link International Economics Lecture 27 - International Economics
Link International Economics Lecture 28 - International Economics
Link International Economics Lecture 29 - International Economics
Link International Economics Lecture 30 - International Economics
Link International Economics Lecture 31 - International Economics
Link International Economics Lecture 32 - International Economics
Link International Economics Lecture 33 - International Economics
Link International Economics Lecture 34 - International Economics
Link International Economics Lecture 35 - International Economics
Link International Economics Lecture 36 - International Economics
Link International Economics Lecture 37 - International Economics
Link International Economics Lecture 38 - International Economics
Link International Economics Lecture 39 - International Economics
Link International Economics Lecture 40 - International Economics
Link International Economics Lecture 41 - International Economics
Link International Economics Lecture 42 - International Economics
Link International Economics Lecture 43 - International Economics
Link Introduction to Logic Lecture 1 - Identification of Arguments
Link Introduction to Logic Lecture 2 - Non-arguments
Link Introduction to Logic Lecture 3 - Types of Arguments: Deductive vs Inductive
Link Introduction to Logic Lecture 4 - Nature and Scope of Deductive and Inductive Arguments
Link Introduction to Logic Lecture 5 - Truth, Validity and Soundness
Link Introduction to Logic Lecture 6 - Strength of Inductive arguments, Counter example method
Link Introduction to Logic Lecture 7 - Toulmin’s Model of Argumentation
Link Introduction to Logic Lecture 8 - Identification of Formal and Informal Fallacies
Link Introduction to Logic Lecture 9 - Informal Fallacies: Fallacies of relevance
Link Introduction to Logic Lecture 10 - Fallacies of Weak Induction and Fallacies arising out of ambiguity in Language
Link Introduction to Logic Lecture 11 - Introduction and motivation for Syllogistic Logic
Link Introduction to Logic Lecture 12 - Aristotle theory of Syllogisms - 1
Link Introduction to Logic Lecture 13 - Syllogistic Poem, Reduction of Syllogisms
Link Introduction to Logic Lecture 14 - Syllogistic Poem, Reduction of Syllogisms
Link Introduction to Logic Lecture 15 - Nature and Scope of Propositional Logic
Link Introduction to Logic Lecture 16 - Syntax of Propositional Logic
Link Introduction to Logic Lecture 17 - Logical Connectives: Truth Tables
Link Introduction to Logic Lecture 18 - Truth Table Method: Validity, Consistency, Logical Equivalence
Link Introduction to Logic Lecture 19 - Semantic Tableaux Method for Propositional Logic
Link Introduction to Logic Lecture 20 - Knights and Knaves Puzzles
Link Introduction to Logic Lecture 21 - Semantic Tableaux Method: Further Examples
Link Introduction to Logic Lecture 22 - Natural Deduction Method
Link Introduction to Logic Lecture 23 - Natural Deduction: Examples
Link Introduction to Logic Lecture 24 - Conjunctive and Disjunctive Normal Forms
Link Introduction to Logic Lecture 25 - CNF, DNF and satisfiability and Validity
Link Introduction to Logic Lecture 26 - Resolution and refutation method
Link Introduction to Logic Lecture 27 - Resolution and refutation method: Examples
Link Introduction to Logic Lecture 28 - Axiomatic Propositional Logic
Link Introduction to Logic Lecture 29 - Hlbert Ackermann Axiomatic system
Link Introduction to Logic Lecture 30 - Proofs in the PM system
Link Introduction to Logic Lecture 31 - Hilbert and Ackermann System
Link Introduction to Logic Lecture 32 - Outlines of Predicate Logic
Link Introduction to Logic Lecture 33 - Outlines of Predicate Logic
Link Introduction to Logic Lecture 34 - Building blocks of Predicate Logic
Link Introduction to Logic Lecture 35 - Quantifiers, freedom, bondage
Link Introduction to Logic Lecture 36 - Translation in to predicate Logic
Link Introduction to Logic Lecture 37 - Semantics of Predicate Logic
Link Introduction to Logic Lecture 38 - Truth, satisfiability, validity in Predicate Logic
Link Introduction to Logic Lecture 39 - Formation Trees for wff’s in predicate Logic
Link Introduction to Logic Lecture 40 - Semantic Tableaux Method for Predicate Logic
Link Introduction to Logic Lecture 41 - Semantic Tableaux method: Satisfiability, Validity
Link Introduction to Logic Lecture 42 - Natural Deduction in Predicate Logic
Link Introduction to Logic Lecture 43 - Important theorems in First order Logic
Link Introduction to Logic Lecture 44 - Limitations of first order logic and Introduction to the course
Link Population and Society Lecture 1 - Introduction
Link Population and Society Lecture 2 - Basics Concepts
Link Population and Society Lecture 3 - Perspectives On Population
Link Population and Society Lecture 4 - Indian Society
Link Population and Society Lecture 5 - Social Change in India
Link Population and Society Lecture 6 - India: A Developing Economy
Link Population and Society Lecture 7 - Methodology
Link Population and Society Lecture 8 - Primary and Secondry Data and Related Issues
Link Population and Society Lecture 9 - Sources of Population Data
Link Population and Society Lecture 10 - Participatory Rural Appraisal
Link Population and Society Lecture 11 - Demographic Models - I
Link Population and Society Lecture 12 - Demographic models - II
Link Population and Society Lecture 13 - Contemporary Issues In Modelling Population Processes
Link Population and Society Lecture 14 - World Population Growth
Link Population and Society Lecture 15 - Demographic Transition in the Nineteenth and Twentieth Centuries
Link Population and Society Lecture 16 - Demographic schism between Developed and Developing Countries and Future Prospects
Link Population and Society Lecture 17 - History Of Growth
Link Population and Society Lecture 18 - Population of India - II
Link Population and Society Lecture 19 - Trends In Death and Birth Rates
Link Population and Society Lecture 20 - Population projections,Migration and Future Prospects
Link Population and Society Lecture 21 - Urbanization and Development
Link Population and Society Lecture 22 - Urbanization in India
Link Population and Society Lecture 23 - Theories Of urbanization and Development
Link Population and Society Lecture 24 - Future Of Urbanization In India
Link Population and Society Lecture 25 - Population Theories
Link Population and Society Lecture 26 - Marxist theory Of Population
Link Population and Society Lecture 27 - Demographic Transition Theory and Related Issues
Link Population and Society Lecture 28 - Gandhian Theory Of population
Link Population and Society Lecture 29 - Population Policy
Link Population and Society Lecture 30 - Effectiveness Of population Policies
Link Population and Society Lecture 31 - Family Planning Programme and Beyond
Link Population and Society Lecture 32 - National Population Policy
Link Population and Society Lecture 33 - The First Policy Statement
Link Population and Society Lecture 34 - Subsequent Developments Leading To National Population Policy 2000
Link Population and Society Lecture 35 - Ecological Degradation and Environmental Protection
Link Population and Society Lecture 36 - Diffrences In Perception Between Developed and Developing Countries
Link Population and Society Lecture 37 - Total Environment Impact and Beliefs
Link Population and Society Lecture 38 - Emerging Issues In sociology Of Population
Link Population and Society Lecture 39 - Population Issues In The framework of MDGs
Link Population and Society Lecture 40 - Population Issues (Continued...)
Link Macro Economics Lecture 1
Link Macro Economics Lecture 2
Link Macro Economics Lecture 3
Link Macro Economics Lecture 4
Link Macro Economics Lecture 5
Link Macro Economics Lecture 6
Link Macro Economics Lecture 7
Link Macro Economics Lecture 8
Link Macro Economics Lecture 9
Link Macro Economics Lecture 10
Link Macro Economics Lecture 11
Link Macro Economics Lecture 12
Link Macro Economics Lecture 13
Link Macro Economics Lecture 14
Link Macro Economics Lecture 15
Link Macro Economics Lecture 16
Link Macro Economics Lecture 17
Link Macro Economics Lecture 18
Link Macro Economics Lecture 19
Link Macro Economics Lecture 20
Link Macro Economics Lecture 21
Link Macro Economics Lecture 22
Link Introduction to Sociology Lecture 1 - What is sociology?
Link Introduction to Sociology Lecture 2 - Sociological approaches
Link Introduction to Sociology Lecture 3 - Nature of society: Individuals and groups
Link Introduction to Sociology Lecture 4 - Cooperation and conflict
Link Introduction to Sociology Lecture 5 - Family-I: Definition and classification of family
Link Introduction to Sociology Lecture 6 - Family-II: Perspectives on family
Link Introduction to Sociology Lecture 7 - State-I: Definition of state
Link Introduction to Sociology Lecture 8 - State-II: State in India
Link Introduction to Sociology Lecture 9 - State-III: The concept of power
Link Introduction to Sociology Lecture 10 - State-IV: Functionalist and Marxist perspectives on power
Link Introduction to Sociology Lecture 11 - Sociology of work-I: Need for work
Link Introduction to Sociology Lecture 12 - Sociology of work-II: Social change and work
Link Introduction to Sociology Lecture 13 - Sociology of work-III: Development and work
Link Introduction to Sociology Lecture 14 - Sociology of work-IV: Capitalism and motivation for work
Link Introduction to Sociology Lecture 15 - Religion-I: Social conditions and religious thought
Link Introduction to Sociology Lecture 16 - Religion-II: Bases of religion
Link Introduction to Sociology Lecture 17 - Religion-III: Forms of religious beliefs
Link Introduction to Sociology Lecture 18 - What is sociology?
Link Introduction to Sociology Lecture 19 - Religion-V: Religion and society
Link Introduction to Sociology Lecture 20 - Religion-VI: Contributions of Marx and Weber
Link Introduction to Sociology Lecture 21 - Education-I: Concept of education?
Link Introduction to Sociology Lecture 22 - Education-II: Functions of education
Link Introduction to Sociology Lecture 23 - Social stratification-I: Social inequality and stratification
Link Introduction to Sociology Lecture 24 - Social stratification-II: Explanations of social stratification
Link Introduction to Sociology Lecture 25 - Social stratification-III: Theories and facts
Link Introduction to Sociology Lecture 26 - Social stratification-IV: Stratification in India
Link Introduction to Sociology Lecture 27 - Deviance-I: Concept of deviance
Link Introduction to Sociology Lecture 28 - Deviance-II: Perspectives on deviance
Link Introduction to Sociology Lecture 29 - Deviance-III: Theories of deviance
Link Introduction to Sociology Lecture 30 - Social change-I: Definition of social change
Link Introduction to Sociology Lecture 31 - Social change-II: Theories of social change
Link Introduction to Sociology Lecture 32 - Social change-III: Social change in industrial society
Link Introduction to Sociology Lecture 33 - Social change-IV: Urbanization and related issues in social change
Link Introduction to Sociology Lecture 34 - Population-I: Malthusian theory of population
Link Introduction to Sociology Lecture 35 - Population-II: Population and Society
Link Introduction to Sociology Lecture 36 - Perspectives in Sociology-I
Link Introduction to Sociology Lecture 37 - Perspectives in Sociology-II
Link Introduction to Sociology Lecture 38 - Social Problems and Theory
Link Introduction to Sociology Lecture 39 - Sociological methods-I
Link Introduction to Sociology Lecture 40 - Sociological methods-II: Ethnography
Link Introduction to Sociology Lecture 41 - Sociological methods-III: Ethnography in India
Link Money and Banking Lecture 1
Link Money and Banking Lecture 2
Link Money and Banking Lecture 3
Link Money and Banking Lecture 4
Link Money and Banking Lecture 5
Link Money and Banking Lecture 6
Link Money and Banking Lecture 7
Link Money and Banking Lecture 8
Link Money and Banking Lecture 9
Link Money and Banking Lecture 10
Link Money and Banking Lecture 11
Link Money and Banking Lecture 12
Link Money and Banking Lecture 13
Link Money and Banking Lecture 14
Link Money and Banking Lecture 15
Link Money and Banking Lecture 16
Link Money and Banking Lecture 17
Link Money and Banking Lecture 18
Link Money and Banking Lecture 19
Link Money and Banking Lecture 20
Link Money and Banking Lecture 21
Link Money and Banking Lecture 22
Link Money and Banking Lecture 23
Link Money and Banking Lecture 24
Link Money and Banking Lecture 25
Link Money and Banking Lecture 26
Link Money and Banking Lecture 27
Link Money and Banking Lecture 28
Link Money and Banking Lecture 29
Link Money and Banking Lecture 30
Link Money and Banking Lecture 31
Link Money and Banking Lecture 32
Link Money and Banking Lecture 33
Link Money and Banking Lecture 34
Link Money and Banking Lecture 35
Link Money and Banking Lecture 36
Link Money and Banking Lecture 37
Link Money and Banking Lecture 38
Link Money and Banking Lecture 39
Link Money and Banking Lecture 40
Link Human Adjustment Processes Module-1 - Lecture-1 : Understanding Adjustment
Link Human Adjustment Processes Module-1 - Lecture-2 : Understanding Adjustment
Link Human Adjustment Processes Module-1 - Lecture-3 : Understanding Adjustment
Link Human Adjustment Processes Module-1 - Lecture-4 : Understanding Adjustment
Link Human Adjustment Processes Module-2 - Lecture-1 : Dimensions of Adjustment
Link Human Adjustment Processes Module-2 - Lecture-2 : Dimensions of Adjustment
Link Human Adjustment Processes Module-2 - Lecture-3 : Dimensions of Adjustment
Link Human Adjustment Processes Module-3 - Lecture-1 : Adjustment? Range of Reactions
Link Human Adjustment Processes Module-4 - Lecture-1 : Human adjustment process?II
Link Human Adjustment Processes Module-4 - Lecture-2 : Human adjustment process?II
Link Human Adjustment Processes Module-4 - Lecture-3 : Human adjustment process?II
Link Human Adjustment Processes Module-4 - Lecture-4 : Human adjustment process?II
Link Human Adjustment Processes Module-4 - Lecture-5 : Human adjustment process?II
Link Human Adjustment Processes Module-4 - Lecture-6 : Human adjustment process?II
Link Human Adjustment Processes Module-4 - Lecture-7 : Human adjustment process?II
Link Human Adjustment Processes Module-4 - Lecture-8 : Human adjustment process?II
Link Human Adjustment Processes Module-4 - Lecture-9 : Human adjustment process?II
Link Human Adjustment Processes Module-5 - Lecture-1 : Facets of human adjustment
Link Human Adjustment Processes Module-5 - Lecture-2 : Facets of human adjustment
Link Human Adjustment Processes Module-5 - Lecture-3 : Facets of human adjustment
Link Human Adjustment Processes Module-6 - Lecture-1 : Emotions & Adjustment
Link Human Adjustment Processes Module-6 - Lecture-2 : Emotions & Adjustment
Link Human Adjustment Processes Module-6 - Lecture-3 : Emotions & Adjustmen
Link Human Adjustment Processes Module-6 - Lecture-4 : Emotions & Adjustment
Link Human Adjustment Processes Module-7 - Lecture-1 : Facets of human adjustment: Stress, Resilience and Coping
Link Human Adjustment Processes Module-7 - Lecture-2 : Facets of human adjustment: Stress, Resilience and Coping
Link Human Adjustment Processes Module-7 - Lecture-3 : Facets of human adjustment: Stress, Resilience and Coping
Link Human Adjustment Processes Module-7 - Lecture-4 : Facets of human adjustment: Stress, Resilience and Coping
Link Human Adjustment Processes Module-7 - Lecture-5 : Facets of human adjustment: Stress, Resilience and Coping
Link Human Adjustment Processes Module-8 - Lecture-1 : Aggression
Link Human Adjustment Processes Module-8 - Lecture-2 : Aggression
Link Human Adjustment Processes Module-8 - Lecture-3 : Aggression
Link Human Adjustment Processes Module-8 - Lecture-4 : Aggression
Link Human Adjustment Processes Module-9 - Lecture-1 : Psychological disorders
Link Human Adjustment Processes Module-9 - Lecture-2 : Psychological disorders
Link Human Adjustment Processes Module-9 - Lecture-3 : Psychological disorders
Link Human Adjustment Processes Module-9 - Lecture-4 : Psychological disorders
Link Human Adjustment Processes Module-9 - Lecture-5 : Psychological disorders
Link Human Adjustment Processes Module-10 - Lecture-1 : Summing-up
Link Human Adjustment Processes Understanding Oneself
Link Selected Topics in Psychology Lecture 1 - Introduction Selected Topics in Psychology
Link Selected Topics in Psychology Lecture 2 - Psychology: Emerging of a discipline
Link Selected Topics in Psychology Lecture 3 - Psychology: Emerging of a discipline
Link Selected Topics in Psychology Lecture 4 - Beginning, growth and decline of Western psychology in India
Link Selected Topics in Psychology Lecture 5 - The core and context of Indian psychology
Link Selected Topics in Psychology Lecture 6 - The indigenization of psychology in India
Link Selected Topics in Psychology Lecture 7 - Weaving culture into psychology
Link Selected Topics in Psychology Lecture 8 - Culture and Self: Implications for Social Behaviour
Link Selected Topics in Psychology Lecture 9 - Cultural and organizational behaviour
Link Selected Topics in Psychology Lecture 10 - How do similar attitudes determine attraction?
Link Selected Topics in Psychology Lecture 11 - Why do similar attitudes determine attraction?
Link Selected Topics in Psychology Lecture 12 - A beautiful mind? Perspective on brain , mind and it's challenges
Link Selected Topics in Psychology Lecture 13 - Emotion and well?being
Link Selected Topics in Psychology Lecture 14 - Mental health and illness - Part 1
Link Selected Topics in Psychology Lecture 15 - Mental health and illness - Part 2
Link Selected Topics in Psychology Lecture 16 - Folk Healing Traditions in India
Link Selected Topics in Psychology Lecture 17 - To sleep or not
Link Selected Topics in Psychology Lecture 18 - Issues and challenges in psychological assessment
Link Selected Topics in Psychology Lecture 19 - Nontraditional research in behavioural sciences
Link Selected Topics in Psychology Lecture 20 - What a surprise: My results are nonsignificant
Link Selected Topics in Psychology Lecture 21 - Neuropsychology and cognitive neuroscience research
Link Selected Topics in Psychology Lecture 22 - Functional MRI in psychology - Part 1
Link Selected Topics in Psychology Lecture 23 - Functional MRI in psychology - Part 2
Link Selected Topics in Psychology Lecture 24 - Side bias in human behaviour
Link Selected Topics in Psychology Lecture 25 - Brain microstructural correlates of cognition in Cerebral Palsy
Link Selected Topics in Psychology Lecture 26 - Brain microstructural correlates of cognition in vitamin B12 deficiency
Link Selected Topics in Psychology Lecture 27 - The neuroscience of addictive behaviour
Link Selected Topics in Psychology Lecture 28 - Who is at risk and why? The neurogenetics of vulnerability to addiction - Part 1
Link Selected Topics in Psychology Lecture 29 - Who is at risk and why? The neurogenetics of vulnerability to addiction - Part 2
Link Selected Topics in Psychology Lecture 30 - The gambler's lament: Behavioural addictions? gambling, internet and porn addictions
Link Selected Topics in Psychology Lecture 31 - Art and the brain - Part 1
Link Selected Topics in Psychology Lecture 32 - Art and the brain - Part 2
Link Selected Topics in Psychology Lecture 33 - Technological advances in other areas and their impact on psychology
Link Selected Topics in Psychology Lecture 34 - Positioning the state of psychology in India in the global scenario
Link Selected Topics in Psychology Lecture 35 - Introduction Selected Topics in Psychology
Link NOC:Elements of Visual Representation Lecture 1 - Visual Literacy
Link NOC:Elements of Visual Representation Lecture 2 - What is Art? Visual styles
Link NOC:Elements of Visual Representation Lecture 3 - Principle of Visual Communication
Link NOC:Elements of Visual Representation Lecture 4 - Elements of Visual Representation
Link NOC:Elements of Visual Representation Lecture 5 - Need of Visual Harmony, Aerial Perspective in Visual Representation
Link NOC:Elements of Visual Representation Lecture 6 - Visual Mediums Method and Material
Link NOC:Elements of Visual Representation Lecture 7 - Visual Arrangement: Figure ground relationship
Link NOC:Elements of Visual Representation Lecture 8 - Illusion of Space Overlapping and Vertical Location
Link NOC:Elements of Visual Representation Lecture 9 - Multiple point Perspective, Cubist form
Link NOC:Elements of Visual Representation Lecture 10 - Oriental Perspective, Isometric Projection
Link NOC:Elements of Visual Representation Lecture 11 - Unconventional Space, Visual Riddle
Link NOC:Elements of Visual Representation Lecture 12 - Perspective, Foreshortening and Amplification
Link NOC:Elements of Visual Representation Lecture 13 - Static Form
Link NOC:Elements of Visual Representation Lecture 14 - Impression of Movement
Link NOC:Elements of Visual Representation Lecture 15 - Movement by Repetition
Link NOC:Elements of Visual Representation Lecture 16 - Use of Multiple Image to Depict Motion
Link NOC:Elements of Visual Representation Lecture 17 - Principle of Op Art: Optical Movement
Link NOC:Elements of Visual Representation Lecture 18 - Asymmetry in Visual Narration
Link NOC:Elements of Visual Representation Lecture 19 - Scale and Space in Composition
Link NOC:Elements of Visual Representation Lecture 20 - Choosing the Right Scale
Link NOC:Elements of Visual Representation Lecture 21 - Natural Proportion
Link NOC:Elements of Visual Representation Lecture 22 - Ideal Proportion
Link NOC:Elements of Visual Representation Lecture 23 - Arbitrary and Mandatory Proportion
Link NOC:Elements of Visual Representation Lecture 24 - Form of Visual Paradox
Link NOC:Elements of Visual Representation Lecture 25 - Line as Line and Line as Shape
Link NOC:Elements of Visual Representation Lecture 26 - Character Specific Use of Line in Visual Representation
Link NOC:Elements of Visual Representation Lecture 27 - Implied, Psychic, Contour Line and Gesture Line
Link NOC:Elements of Visual Representation Lecture 28 - Line as Building Block
Link NOC:Elements of Visual Representation Lecture 29 - Line for Rendering: Value and Volume
Link NOC:Elements of Visual Representation Lecture 30 - Quality of Line in Visual Expression
Link NOC:Elements of Visual Representation Lecture 31 - Example of Unified Composition: Conceptual Harmony vs. Visual Harmony
Link NOC:Elements of Visual Representation Lecture 32 - Visual Continuity: Proximity, Repetition
Link NOC:Elements of Visual Representation Lecture 33 - Gestalt law of Universal Whole
Link NOC:Elements of Visual Representation Lecture 34 - Unity in Variation. Visual Climax and Harmony: Focal Point and Accents
Link NOC:Elements of Visual Representation Lecture 35 - Degree of Emphasis to Maintain Harmony: Visual Balance
Link NOC:Elements of Visual Representation Lecture 36 - Rhythm and Motion in Visual Representation Alternating and Progressing Arrangement
Link NOC:Elements of Visual Representation Lecture 37 - Visual Balance in Symmetry, Radial and Crystallographic Balance
Link NOC:Elements of Visual Representation Lecture 38 - Balance in Asymmetry
Link NOC:Elements of Visual Representation Lecture 39 - Visual Balance in Colour Combination, Conflicting Colours
Link NOC:Elements of Visual Representation Lecture 40 - Balance through Achromatic Value Distribution
Link NOC:Elements of Visual Representation Lecture 41 - Local, optical and Arbitrary colour
Link NOC:Elements of Visual Representation Lecture 42 - Colour in Digital Media Pigment and Light, Resolution
Link NOC:Elements of Visual Representation Lecture 43 - Rectilinear and Curvilinear Form
Link NOC:Elements of Visual Representation Lecture 44 - Volume and Surface Texture
Link NOC:Elements of Visual Representation Lecture 45 - Visual and Tactile Texture
Link NOC:Elements of Visual Representation Lecture 46 - Form, Texture and Pattern
Link NOC:Elements of Visual Representation Lecture 47 - Visual Analysis
Link NOC:Elements of Visual Representation Lecture 48 - Steps of Problem Solving
Link NOC:Practical English: Learning and Teaching Lecture 1
Link NOC:Practical English: Learning and Teaching Lecture 2
Link NOC:Practical English: Learning and Teaching Lecture 3
Link NOC:Practical English: Learning and Teaching Lecture 4
Link NOC:Practical English: Learning and Teaching Lecture 5
Link NOC:Practical English: Learning and Teaching Lecture 6
Link NOC:Practical English: Learning and Teaching Lecture 7
Link NOC:Practical English: Learning and Teaching Lecture 8
Link NOC:Practical English: Learning and Teaching Lecture 9
Link NOC:Practical English: Learning and Teaching Lecture 10
Link NOC:Practical English: Learning and Teaching Lecture 11
Link NOC:Practical English: Learning and Teaching Lecture 12
Link NOC:Practical English: Learning and Teaching Lecture 13
Link NOC:Practical English: Learning and Teaching Lecture 14
Link NOC:Practical English: Learning and Teaching Lecture 15
Link NOC:Practical English: Learning and Teaching Lecture 16
Link NOC:Practical English: Learning and Teaching Lecture 17
Link NOC:Practical English: Learning and Teaching Lecture 18
Link NOC:Practical English: Learning and Teaching Lecture 19
Link NOC:Practical English: Learning and Teaching Lecture 20
Link NOC:Practical English: Learning and Teaching Lecture 21
Link NOC:Practical English: Learning and Teaching Lecture 22
Link NOC:Practical English: Learning and Teaching Lecture 23
Link NOC:Practical English: Learning and Teaching Lecture 24
Link NOC:Practical English: Learning and Teaching Lecture 25
Link NOC:Practical English: Learning and Teaching Lecture 26
Link NOC:Practical English: Learning and Teaching Lecture 27
Link NOC:Practical English: Learning and Teaching Lecture 28
Link NOC:Practical English: Learning and Teaching Lecture 29
Link NOC:Practical English: Learning and Teaching Lecture 30
Link NOC:Practical English: Learning and Teaching Lecture 31
Link NOC:Practical English: Learning and Teaching Lecture 32
Link NOC:Practical English: Learning and Teaching Lecture 33
Link NOC:Practical English: Learning and Teaching Lecture 34
Link NOC:Practical English: Learning and Teaching Lecture 35
Link NOC:Practical English: Learning and Teaching Lecture 36
Link NOC:Practical English: Learning and Teaching Lecture 37
Link NOC:Practical English: Learning and Teaching Lecture 38
Link NOC:Practical English: Learning and Teaching Lecture 39
Link NOC:Practical English: Learning and Teaching Lecture 40
Link NOC:Brief introduction to Psychology Lecture 1
Link NOC:Brief introduction to Psychology Lecture 2
Link NOC:Brief introduction to Psychology Lecture 3
Link NOC:Brief introduction to Psychology Lecture 4
Link NOC:Brief introduction to Psychology Lecture 5
Link NOC:Brief introduction to Psychology Lecture 6
Link NOC:Brief introduction to Psychology Lecture 7
Link NOC:Brief introduction to Psychology Lecture 8
Link NOC:Brief introduction to Psychology Lecture 9
Link NOC:Brief introduction to Psychology Lecture 10
Link NOC:Brief introduction to Psychology Lecture 11
Link NOC:Brief introduction to Psychology Lecture 12
Link NOC:Brief introduction to Psychology Lecture 13
Link NOC:Brief introduction to Psychology Lecture 14
Link NOC:Brief introduction to Psychology Lecture 15
Link NOC:Brief introduction to Psychology Lecture 16
Link NOC:Brief introduction to Psychology Lecture 17
Link NOC:Brief introduction to Psychology Lecture 18
Link NOC:Brief introduction to Psychology Lecture 19
Link NOC:Brief introduction to Psychology Lecture 20
Link NOC:Brief introduction to Psychology Lecture 21
Link NOC:Brief introduction to Psychology Lecture 22
Link NOC:Brief introduction to Psychology Lecture 23
Link NOC:Brief introduction to Psychology Lecture 24
Link NOC:Psychiatry - An overview Lecture 1 - Neuroanatomy
Link NOC:Psychiatry - An overview Lecture 2 - Neurophysiology
Link NOC:Psychiatry - An overview Lecture 3 - Imaging
Link NOC:Psychiatry - An overview Lecture 4 - Electrophysiology
Link NOC:Psychiatry - An overview Lecture 5 - Psychology
Link NOC:Psychiatry - An overview Lecture 6 - Mental Status Examination 1 & 2
Link NOC:Psychiatry - An overview Lecture 7 - Classificatory Systems
Link NOC:Psychiatry - An overview Lecture 8 - Investigation and Psychological Testing
Link NOC:Psychiatry - An overview Lecture 9 - Organic Syndromes
Link NOC:Psychiatry - An overview Lecture 10 - Schizophrenia
Link NOC:Psychiatry - An overview Lecture 11 - Mood Disorders
Link NOC:Psychiatry - An overview Lecture 12 - Anxiety Disorders
Link NOC:Psychiatry - An overview Lecture 13 - Obsessive Compulsive Disorder
Link NOC:Psychiatry - An overview Lecture 14 - Childhood Disorder Introduction
Link NOC:Psychiatry - An overview Lecture 15 - Autism
Link NOC:Psychiatry - An overview Lecture 16 - Learning Disability
Link NOC:Psychiatry - An overview Lecture 17 - ADHD
Link NOC:Psychiatry - An overview Lecture 18 - Personality Disorder
Link NOC:Psychiatry - An overview Lecture 19 - Sleep Disorder 1
Link NOC:Psychiatry - An overview Lecture 20 - Sleep Disorder 2
Link NOC:Introduction to Indian Art - An appreciation Lecture 1 - Geographical Expanse
Link NOC:Introduction to Indian Art - An appreciation Lecture 2 - Chronological Journey
Link NOC:Introduction to Indian Art - An appreciation Lecture 3 - Forms of Indian Architecture
Link NOC:Introduction to Indian Art - An appreciation Lecture 4 - Variations in Indian Sculpture
Link NOC:Introduction to Indian Art - An appreciation Lecture 5 - Formats of Indian Painting
Link NOC:Introduction to Indian Art - An appreciation Lecture 6 - Pre-historic art: Rock painting of Bhimbetka
Link NOC:Introduction to Indian Art - An appreciation Lecture 7 - Ancient Art: Indus Valley Civilization
Link NOC:Introduction to Indian Art - An appreciation Lecture 8 - Early Buddhist Art: Bharhut, Sanchi and Amaravati Stupa
Link NOC:Introduction to Indian Art - An appreciation Lecture 9 - Art of the Royal Dynasty: Kushana and Gupta period
Link NOC:Introduction to Indian Art - An appreciation Lecture 10 - Islamic Architecture: Sultanate and Mughal Period
Link NOC:Introduction to Indian Art - An appreciation Lecture 11 - Wonder from Classical period: Ajanta Caves
Link NOC:Introduction to Indian Art - An appreciation Lecture 12 - Narrative Art in Sculpture: Mamallapuram and Ellora
Link NOC:Introduction to Indian Art - An appreciation Lecture 13 - Narrative Art in Miniature Painting: Mughal and Rajput
Link NOC:Introduction to Indian Art - An appreciation Lecture 14 - Indigenous Art : Folk Traditions - 1
Link NOC:Introduction to Indian Art - An appreciation Lecture 15 - Indigenous Art : Folk Traditions - 2
Link NOC:Introduction to Indian Art - An appreciation Lecture 16 - End of Traditional Art - Advent of the British
Link NOC:Introduction to Indian Art - An appreciation Lecture 17 - Art patronized by the Colonial Rulers
Link NOC:Introduction to Indian Art - An appreciation Lecture 18 - Art for National Cause
Link NOC:Introduction to Indian Art - An appreciation Lecture 19 - Art in the post-independent India
Link NOC:Introduction to Indian Art - An appreciation Lecture 20 - Art Now - Trends in contemporary art
Link NOC:Basic Concepts of Modal Logic Lecture 1 - What is logic? General Introduction
Link NOC:Basic Concepts of Modal Logic Lecture 2 - Propositional Logic : Syntax
Link NOC:Basic Concepts of Modal Logic Lecture 3 - Propositional Logic : Semantics
Link NOC:Basic Concepts of Modal Logic Lecture 4 - Semantic Tableaux Method for Propositional Logic: General Examples
Link NOC:Basic Concepts of Modal Logic Lecture 5 - Semantic Tableaux Method : Some Puzzles
Link NOC:Basic Concepts of Modal Logic Lecture 6 - Semantic Tableaux Method-3: More puzzles
Link NOC:Basic Concepts of Modal Logic Lecture 7 - Limitations of Classical Logic
Link NOC:Basic Concepts of Modal Logic Lecture 8 - Origin of Modal Logic : Historical Survey
Link NOC:Basic Concepts of Modal Logic Lecture 9 - Origin of Modal Logic : Strict Implication
Link NOC:Basic Concepts of Modal Logic Lecture 10 - Strict Implication
Link NOC:Basic Concepts of Modal Logic Lecture 11 - Strict Implication : Examples
Link NOC:Basic Concepts of Modal Logic Lecture 12 - Language of Normal Modal Logic
Link NOC:Basic Concepts of Modal Logic Lecture 13 - Language of Modal Logic, Modal Sentences - 1
Link NOC:Basic Concepts of Modal Logic Lecture 14 - Language of Modal Logic 2 : Syntax
Link NOC:Basic Concepts of Modal Logic Lecture 15 - Axiomatic Modal Logic : Some Proofs
Link NOC:Basic Concepts of Modal Logic Lecture 16 - Semantics of Modal Logic : Relational Structures
Link NOC:Basic Concepts of Modal Logic Lecture 17 - Kripke semantics for Modal Logic systems
Link NOC:Basic Concepts of Modal Logic Lecture 18 - Kripke semantics for Modal Logic : Some Examples
Link NOC:Basic Concepts of Modal Logic Lecture 19 - Kripke Semantics for Modal Logic : Examples
Link NOC:Basic Concepts of Modal Logic Lecture 20 - Semantic Tableaux method - I
Link NOC:Basic Concepts of Modal Logic Lecture 21 - Semantic Tableaux method - II
Link NOC:Basic Concepts of Modal Logic Lecture 22 - Possible worlds and Modal realism
Link NOC:Basic Concepts of Modal Logic Lecture 23 - Conditional logic introduction
Link NOC:Basic Concepts of Modal Logic Lecture 24 - Conditional logic C
Link NOC:Basic Concepts of Modal Logic Lecture 25 - Conditional logics: C, C+, S, C1, C2 and conclusion
Link NOC:Probability and Stochastic for Finance II Lecture 1 - Fundamentals of Interest Rates
Link NOC:Probability and Stochastic for Finance II Lecture 2 - Fixed Income Securities
Link NOC:Probability and Stochastic for Finance II Lecture 3 - Term Structure of Interest Rates - I
Link NOC:Probability and Stochastic for Finance II Lecture 4 - Optimization Models In Finance
Link NOC:Probability and Stochastic for Finance II Lecture 5 - Crash course on KKT Condition
Link NOC:Probability and Stochastic for Finance II Lecture 6 - Mean Variance Portfolio Optimization - I
Link NOC:Probability and Stochastic for Finance II Lecture 7 - Mean Variance Portfolio Optimization - II
Link NOC:Probability and Stochastic for Finance II Lecture 8 - Mean Variance Portfolio Optimization - III
Link NOC:Probability and Stochastic for Finance II Lecture 9 - Mean Variance Portfolio Optimization - IV
Link NOC:Probability and Stochastic for Finance II Lecture 10 - Last lecture on Portfolio Optimization
Link NOC:Probability and Stochastic for Finance II Lecture 11 - Capital Asset Pricing Model
Link NOC:Probability and Stochastic for Finance II Lecture 12 - The Binomial Model [Lox-Ross-Rubenstein Model]
Link NOC:Probability and Stochastic for Finance II Lecture 13 - The Binomial Method - II
Link NOC:Probability and Stochastic for Finance II Lecture 14 - Binomial Method - III (Multiperiod model)
Link NOC:Probability and Stochastic for Finance II Lecture 15 - Binomial model - IV
Link NOC:Probability and Stochastic for Finance II Lecture 16 - Girsanav's Theorem (Basic tool)
Link NOC:Probability and Stochastic for Finance II Lecture 17 - Girsanav's Theorem (Statement and proof)
Link NOC:Probability and Stochastic for Finance II Lecture 18 - Stock price under risk netral measure
Link NOC:Probability and Stochastic for Finance II Lecture 19 - The Black Scholes formula
Link NOC:Probability and Stochastic for Finance II Lecture 20 - Final Lecture
Link NOC:Introduction to Psychology Lecture 1 - Major Areas of Psychology
Link NOC:Introduction to Psychology Lecture 2 - Major Milestones in Psychology
Link NOC:Introduction to Psychology Lecture 3 - Methods in Psychology
Link NOC:Introduction to Psychology Lecture 4 - Schools of thoughts in Psychology
Link NOC:Introduction to Psychology Lecture 5 - Sensory Mechanisms
Link NOC:Introduction to Psychology Lecture 6 - External Factors in Perception
Link NOC:Introduction to Psychology Lecture 7 - Theory of Signal Detection
Link NOC:Introduction to Psychology Lecture 8 - Gestalt Principles
Link NOC:Introduction to Psychology Lecture 9 - Form Perception
Link NOC:Introduction to Psychology Lecture 10 - Role of Culture in Perception
Link NOC:Introduction to Psychology Lecture 11 - Basic Concepts of Learning
Link NOC:Introduction to Psychology Lecture 12 - Classical Conditioning
Link NOC:Introduction to Psychology Lecture 13 - Concepts and Applications of Classical Conditioning
Link NOC:Introduction to Psychology Lecture 14 - Operant Conditioning
Link NOC:Introduction to Psychology Lecture 15 - Observational Learning
Link NOC:Introduction to Psychology Lecture 16 - Cognitive Learning
Link NOC:Introduction to Psychology Lecture 17 - Models of Memory
Link NOC:Introduction to Psychology Lecture 18 - Short Term Memory - Storage and Retention
Link NOC:Introduction to Psychology Lecture 19 - Long Term Memory - Episodic Memory
Link NOC:Introduction to Psychology Lecture 20 - Long Term Memory - Autobiographical and Semantic Memory
Link NOC:Introduction to Psychology Lecture 21 - Long Term Memory - Procedural Memory
Link NOC:Introduction to Psychology Lecture 22 - Forgetting
Link NOC:Introduction to Psychology Lecture 23 - Theories of Emotion - 1
Link NOC:Introduction to Psychology Lecture 24 - Theories of Emotion - 2
Link NOC:Introduction to Psychology Lecture 25 - Basic Emotions
Link NOC:Introduction to Psychology Lecture 26 - Culture and Emotions
Link NOC:Introduction to Psychology Lecture 27 - Musculature Analysis of Facial Expressions
Link NOC:Introduction to Psychology Lecture 28 - Biological Basis of Emotion
Link NOC:Introduction to Psychology Lecture 29 - Nature vs Nurture
Link NOC:Introduction to Psychology Lecture 30 - Behavioural Genetics - I
Link NOC:Introduction to Psychology Lecture 31 - Behavioural Genetics - II
Link NOC:Introduction to Psychology Lecture 32 - Intelligence
Link NOC:Introduction to Psychology Lecture 33 - Aptitude
Link NOC:Introduction to Psychology Lecture 34 - Various Perspectives of Personality
Link NOC:Introduction to Psychology Lecture 35 - Neo Freudian and Behaviourist Perspective
Link NOC:Introduction to Psychology Lecture 36 - Behaviourist and Humanistic Perspective
Link NOC:Introduction to Psychology Lecture 37 - Indian Perspective of Personality and Assessment of Personality
Link NOC:Introduction to Psychology Lecture 38 - Psychometric tests of Personality Assessment
Link NOC:Introduction to Psychology Lecture 39 - Lab Session 1
Link NOC:Introduction to Psychology Lecture 40 - Lab Session 2
Link NOC:Introduction to Psychology Lecture 41 - Lab Session 3
Link NOC:Introduction to Psychology Lecture 42 - Lab Session 4
Link NOC:Introduction to Psychology Lecture 43 - Lab Session 5
Link NOC:Folk and Minor Art in India Lecture 1 - Changing Definition of Folk and Minor Art
Link NOC:Folk and Minor Art in India Lecture 2 - Timelines and Regions: General Mapping
Link NOC:Folk and Minor Art in India Lecture 3 - Traditional Roots: Elements and Principles
Link NOC:Folk and Minor Art in India Lecture 4 - Timelessness: Primitive Connection
Link NOC:Folk and Minor Art in India Lecture 5 - Evolution in Purpose: Ritualistic to Propagative
Link NOC:Folk and Minor Art in India Lecture 6 - Contemporary Practice
Link NOC:Folk and Minor Art in India Lecture 7 - Classification and Connections: Traditional Roots
Link NOC:Folk and Minor Art in India Lecture 8 - Early Literary Resources
Link NOC:Folk and Minor Art in India Lecture 9 - Mythical Associations
Link NOC:Folk and Minor Art in India Lecture 10 - Idea of Nationalism and Modernism in the Context of Folk Art-I and II
Link NOC:Folk and Minor Art in India Lecture 11 - Relevance of the Art Practice
Link NOC:Folk and Minor Art in India Lecture 12 - Contextualization and Decontextualization
Link NOC:Folk and Minor Art in India Lecture 13 - Concept of Communication for Social Purpose
Link NOC:Folk and Minor Art in India Lecture 14 - Aesthetic Perspective
Link NOC:Folk and Minor Art in India Lecture 15 - Secularity and Religious Plurality
Link NOC:Folk and Minor Art in India Lecture 16 - Ethnographic perspective on the study of Folk Art and Culture
Link NOC:Folk and Minor Art in India Lecture 17 - About the Exponents who brought the culture under the Limelight
Link NOC:Folk and Minor Art in India Lecture 18 - Commonality and Congruity in the Diverse Content of Art
Link NOC:Folk and Minor Art in India Lecture 19 - School of Art in Madhubani Painting
Link NOC:Folk and Minor Art in India Lecture 20 - Art as a Feminine Preserve vs the Male painters of Madhubani
Link NOC:Folk and Minor Art in India Lecture 21 - Yamapata, Pytkar and other art practice of Jharkhand: Yamapata by the Jadopatias, Sohari Painters and their Art
Link NOC:Folk and Minor Art in India Lecture 22 - Patachitra of Bengal
Link NOC:Folk and Minor Art in India Lecture 23 - Patachitra of Odisha
Link NOC:Folk and Minor Art in India Lecture 24 - Continuum of the Practice: Ancient Centres, Contemporary Scenario, Method and Material - 1
Link NOC:Folk and Minor Art in India Lecture 25 - Continuum of the Practice: Ancient Centres, Contemporary Scenario, Method and Material - 2
Link NOC:Folk and Minor Art in India Lecture 26 - Continuum of the Practice: Ancient Centres, Contemporary Scenario, Method and Material - 3
Link NOC:Folk and Minor Art in India Lecture 27 - Case study-1 : Gond Art
Link NOC:Folk and Minor Art in India Lecture 28 - Case study-2 : Bengal Patachitra
Link NOC:Folk and Minor Art in India Lecture 29 - Case study-3 : Madhubani Paintings
Link NOC:Folk and Minor Art in India Lecture 30 - Characteristics of Contemporary Collection - Semiotic Analysis
Link NOC:Folk and Minor Art in India Lecture 31 - Characteristics of Contemporary Collection - Thematic and Iconic Analysis
Link NOC:Folk and Minor Art in India Lecture 32 - Characteristics of Contemporary Collection of Indian Folk and Minor Art
Link NOC:Folk and Minor Art in India Lecture 33 - Thematic Change in Contemporary Collection of Indian Folk and Minor Art
Link NOC:Folk and Minor Art in India Lecture 34 - Individual Expression in Contemporary Collection of Indian Folk and Minor Art
Link NOC:Folk and Minor Art in India Lecture 35 - Cultural Condition: Colonial and Postcolonial Bengal - Part I
Link NOC:Folk and Minor Art in India Lecture 36 - Cultural Condition: Colonial and Postcolonial Bengal - Part II
Link NOC:Folk and Minor Art in India Lecture 37 - Contextualizing Folk idiom - Part I
Link NOC:Folk and Minor Art in India Lecture 38 - Contextualizing Folk idiom - Part II
Link NOC:Folk and Minor Art in India Lecture 39 - Contextualizing Folk idiom - Part III
Link NOC:Folk and Minor Art in India Lecture 40 - Coexistence and Collaborations with Mainstream Art
Link NOC:Folk and Minor Art in India Lecture 41 - Alternative Context: Place of Folk Art in Contemporary Lifestyle
Link NOC:Folk and Minor Art in India Lecture 42 - Need of Paradigm Shift - I
Link NOC:Folk and Minor Art in India Lecture 43 - Need of Paradigm Shift - II
Link NOC:Folk and Minor Art in India Lecture 44 - Endnote
Link NOC:Developing Soft Skills and Personality Lecture 1 - Introduction: A New Approach to Learning
Link NOC:Developing Soft Skills and Personality Lecture 2 - Planning and Goal-Setting
Link NOC:Developing Soft Skills and Personality Lecture 3 - Human Perceptions: Understanding People
Link NOC:Developing Soft Skills and Personality Lecture 4 - Types of Soft Skills: Self-Management Skills
Link NOC:Developing Soft Skills and Personality Lecture 5 - Aiming for Excellence: Developing Potential and Self-Actualisation
Link NOC:Developing Soft Skills and Personality Lecture 6 - Need Achievement and Spiritual Intelligence
Link NOC:Developing Soft Skills and Personality Lecture 7 - Conflict Resolution Skills: Seeking Win-Win Solution
Link NOC:Developing Soft Skills and Personality Lecture 8 - Inter-Personal Conflicts: Two Examples
Link NOC:Developing Soft Skills and Personality Lecture 9 - Inter-Personal Conflicts: Two Solutions
Link NOC:Developing Soft Skills and Personality Lecture 10 - Types of Conflicts: Becoming a Conflict Resolution Expert
Link NOC:Developing Soft Skills and Personality Lecture 11 - Types of Stress: Self-Awareness About Stress
Link NOC:Developing Soft Skills and Personality Lecture 12 - Regulating Stress: Making the best out of Stress
Link NOC:Developing Soft Skills and Personality Lecture 13 - Habits: Guiding Principles
Link NOC:Developing Soft Skills and Personality Lecture 14 - Habits: Identifying Good and Bad Habits
Link NOC:Developing Soft Skills and Personality Lecture 15 - Habits: Habit Cycle
Link NOC:Developing Soft Skills and Personality Lecture 16 - Breaking Bad Habits
Link NOC:Developing Soft Skills and Personality Lecture 17 - Using the Zeigarnik Effect for Productivity and Personal Growth
Link NOC:Developing Soft Skills and Personality Lecture 18 - Forming Habits of Success
Link NOC:Developing Soft Skills and Personality Lecture 19 - Communication: Significance of Listening
Link NOC:Developing Soft Skills and Personality Lecture 20 - Communication: Active Listening
Link NOC:Developing Soft Skills and Personality Lecture 21 - Communication: Barriers to Active Listening
Link NOC:Developing Soft Skills and Personality Lecture 22 - Telephone Communication: Basic Telephone Skills
Link NOC:Developing Soft Skills and Personality Lecture 23 - Telephone Communication: Advanced Telephone Skills
Link NOC:Developing Soft Skills and Personality Lecture 24 - Telephone Communication: Essential Telephone Skills
Link NOC:Developing Soft Skills and Personality Lecture 25 - Technology and Communication: Technological Personality?
Link NOC:Developing Soft Skills and Personality Lecture 26 - Technology and Communication: Mobile Personality?
Link NOC:Developing Soft Skills and Personality Lecture 27 - Topic: Technology and Communication: E-Mail Principles
Link NOC:Developing Soft Skills and Personality Lecture 28 - Technology and Communication: How not to Send E-Mails!
Link NOC:Developing Soft Skills and Personality Lecture 29 - Technology and Communication: Netiquette
Link NOC:Developing Soft Skills and Personality Lecture 30 - Technology and Communication: E-Mail Etiquette
Link NOC:Developing Soft Skills and Personality Lecture 31 - Communication Skills: Effective Communication1
Link NOC:Developing Soft Skills and Personality Lecture 32 - Barriers to Communication: Arising out of Sender / Receiver’s Personality
Link NOC:Developing Soft Skills and Personality Lecture 33 - Barriers to Communication: Interpersonal Transactions
Link NOC:Developing Soft Skills and Personality Lecture 34 - Barriers To Communication: Miscommunication
Link NOC:Developing Soft Skills and Personality Lecture 35 - Non-Verbal Communication: Pre-Thinking Assessment - 1
Link NOC:Developing Soft Skills and Personality Lecture 36 - Non-Verbal Communication: Pre-Thinking Assessment - 2
Link NOC:Developing Soft Skills and Personality Lecture 37 - Nonverbal Communication: Introduction and Importance
Link NOC:Developing Soft Skills and Personality Lecture 38 - Non-Verbal Communication: Issues and Types
Link NOC:Developing Soft Skills and Personality Lecture 39 - Non-Verbal Communication: Basics and Universals
Link NOC:Developing Soft Skills and Personality Lecture 40 - Non-Verbal Communication: Interpreting Non-Verbal Cues
Link NOC:Developing Soft Skills and Personality Lecture 41 - Body Language: For Interviews
Link NOC:Developing Soft Skills and Personality Lecture 42 - Body Language: For Group Discussions
Link NOC:Developing Soft Skills and Personality Lecture 43 - Lecture 43
Link NOC:Developing Soft Skills and Personality Lecture 44 - Presentation Skills: Becoming a Professional
Link NOC:Developing Soft Skills and Personality Lecture 45 - Presentation Skills: The Role of Body Language
Link NOC:Developing Soft Skills and Personality Lecture 46 - Presentation Skills: Using Visuals
Link NOC:Developing Soft Skills and Personality Lecture 47 - Reading Skills: Effective Reading
Link NOC:Developing Soft Skills and Personality Lecture 48 - Human Relations: Developing Trust and Integrity
Link NOC:How the Brain Creates Mind Lecture 1 - Brain - 1
Link NOC:How the Brain Creates Mind Lecture 2 - Brain - 2
Link NOC:How the Brain Creates Mind Lecture 3 - Brain - 3
Link NOC:How the Brain Creates Mind Lecture 4 - Electrical Activity In Brain - 1
Link NOC:How the Brain Creates Mind Lecture 5 - Electrical Activity In Brain - 2
Link NOC:How the Brain Creates Mind Lecture 6 - EEG
Link NOC:How the Brain Creates Mind Lecture 7 - Dynamics - 1
Link NOC:How the Brain Creates Mind Lecture 8 - Dynamics - 2
Link NOC:How the Brain Creates Mind Lecture 9 - Dynamics - 3
Link NOC:How the Brain Creates Mind Lecture 10 - Dynamics - 4
Link NOC:How the Brain Creates Mind Lecture 11 - Cognition and Emotions - 1
Link NOC:How the Brain Creates Mind Lecture 12 - Cognition and Emotions - 2 Edit Lesson
Link NOC:How the Brain Creates Mind Lecture 13 - Cognition and Emotions - 3
Link NOC:How the Brain Creates Mind Lecture 14 - Cognition and Emotions - 4
Link NOC:How the Brain Creates Mind Lecture 15 - Consciousness
Link NOC:How the Brain Creates Mind Lecture 16 - Sleep - 1
Link NOC:How the Brain Creates Mind Lecture 17 - Sleep - 2
Link NOC:How the Brain Creates Mind Lecture 18 - Sleep - 3
Link NOC:How the Brain Creates Mind Lecture 19 - Future of Brain - 1
Link NOC:How the Brain Creates Mind Lecture 20 - Future of Brain - 2
Link NOC:Understanding Design Thinking and People Centred Design Lecture 1 - Introduction to Design Thinking
Link NOC:Understanding Design Thinking and People Centred Design Lecture 2 - The Need to be People Centered
Link NOC:Understanding Design Thinking and People Centred Design Lecture 3 - People Centered Design Methodology
Link NOC:Understanding Design Thinking and People Centred Design Lecture 4 - Examine and Reflect on the Problem
Link NOC:Understanding Design Thinking and People Centred Design Lecture 5 - Reconsider and arrive at the ‘right’ problem to solve
Link NOC:Understanding Design Thinking and People Centred Design Lecture 6 - Research with Users and their Contexts
Link NOC:Understanding Design Thinking and People Centred Design Lecture 7 - Question Framing and Conducting Research
Link NOC:Understanding Design Thinking and People Centred Design Lecture 8 - User Stories and Themes
Link NOC:Understanding Design Thinking and People Centred Design Lecture 9 - Personas
Link NOC:Understanding Design Thinking and People Centred Design Lecture 10 - Insight Statements, ‘How Might We’ Questions, Design Strategy Statement
Link NOC:Understanding Design Thinking and People Centred Design Lecture 11 - Generating Ideas
Link NOC:Understanding Design Thinking and People Centred Design Lecture 12 - Top Five Ideas
Link NOC:Understanding Design Thinking and People Centred Design Lecture 13 - Bundle Ideas and Create a Concept
Link NOC:Understanding Design Thinking and People Centred Design Lecture 14 - Scenarios and Storyboards
Link NOC:Understanding Design Thinking and People Centred Design Lecture 15 - Rapid Prototyping
Link NOC:Understanding Design Thinking and People Centred Design Lecture 16 - Importance of Testing with People
Link NOC:Understanding Design Thinking and People Centred Design Lecture 17 - Testing your Design with People
Link NOC:Understanding Design Thinking and People Centred Design Lecture 18 - Conducting the Usability Test
Link NOC:Understanding Design Thinking and People Centred Design Lecture 19 - Record Results, Enhance, Retest and Refine Design
Link NOC:Understanding Design Thinking and People Centred Design Lecture 20 - Create a Pitch for your Design
Link NOC:Enhancing Soft Skills and Personality Lecture 1 - Introduction: Highlights of Developing SS Course - 1-24
Link NOC:Enhancing Soft Skills and Personality Lecture 2 - Introduction: Highlights of Developing SS Course - 25-48
Link NOC:Enhancing Soft Skills and Personality Lecture 3 - MIND-SET-1: Definitions and Types
Link NOC:Enhancing Soft Skills and Personality Lecture 4 - MIND-SET-2: Learning Mindsets
Link NOC:Enhancing Soft Skills and Personality Lecture 5 - MIND-SET-3: Secrets of Developing Growth Mindsets
Link NOC:Enhancing Soft Skills and Personality Lecture 6 - Managing Time-1: Importance of Time and Understanding Perceptions of Time
Link NOC:Enhancing Soft Skills and Personality Lecture 7 - Managing Time-2: Using Time Efficiently
Link NOC:Enhancing Soft Skills and Personality Lecture 8 - Handling Delay-1: Understanding Procrastination
Link NOC:Enhancing Soft Skills and Personality Lecture 9 - Handling Delay-2: Overcoming Procrastination
Link NOC:Enhancing Soft Skills and Personality Lecture 10 - Assertiveness - 1: Don’t Say “Yes” to Make Others Happy!
Link NOC:Enhancing Soft Skills and Personality Lecture 11 - Assertiveness - 2
Link NOC:Enhancing Soft Skills and Personality Lecture 12 - Assertiveness - 3
Link NOC:Enhancing Soft Skills and Personality Lecture 13 - Managing Negative Emotions
Link NOC:Enhancing Soft Skills and Personality Lecture 14 - Channelizing Positive Emotions - 1
Link NOC:Enhancing Soft Skills and Personality Lecture 15 - Channelizing Positive Emotions - 2
Link NOC:Enhancing Soft Skills and Personality Lecture 16 - People Skills-1-What Makes Others Dislike You
Link NOC:Enhancing Soft Skills and Personality Lecture 17 - People Skills-2-What Makes Others Like You - 1
Link NOC:Enhancing Soft Skills and Personality Lecture 18 - People Skills-3:What Makes Others Like You - 2
Link NOC:Enhancing Soft Skills and Personality Lecture 19 - People Skills-4-Being Attractive - 1
Link NOC:Enhancing Soft Skills and Personality Lecture 20 - People Skills-5-Being Attractive - 2
Link NOC:Enhancing Soft Skills and Personality Lecture 21 - English Skills: 1-Common Errors - 1
Link NOC:Enhancing Soft Skills and Personality Lecture 22 - English Skills-2: Common Errors - 2
Link NOC:Enhancing Soft Skills and Personality Lecture 23 - English Skills-3: Common Errors - 3
Link NOC:Enhancing Soft Skills and Personality Lecture 24 - English Skills-4: Common Errors - 4
Link NOC:Enhancing Soft Skills and Personality Lecture 25 - English Skills-5: Common Errors - 5
Link NOC:Enhancing Soft Skills and Personality Lecture 26 - Significance of Humour in Communication - 1
Link NOC:Enhancing Soft Skills and Personality Lecture 27 - Humour in the Workplace
Link NOC:Enhancing Soft Skills and Personality Lecture 28 - Function of Humour in the Workplace
Link NOC:Enhancing Soft Skills and Personality Lecture 29 - Money and Personality
Link NOC:Enhancing Soft Skills and Personality Lecture 30 - Managing Money
Link NOC:Enhancing Soft Skills and Personality Lecture 31 - Health and Personality
Link NOC:Enhancing Soft Skills and Personality Lecture 32 - Managing Health-1 Importance of Exercise
Link NOC:Enhancing Soft Skills and Personality Lecture 33 - Managing Health-2 Diet and Sleep
Link NOC:Enhancing Soft Skills and Personality Lecture 34 - Love and Personality
Link NOC:Enhancing Soft Skills and Personality Lecture 35 - Managing Love
Link NOC:Enhancing Soft Skills and Personality Lecture 36 - Ethics and Etiquette
Link NOC:Enhancing Soft Skills and Personality Lecture 37 - Business Etiquette
Link NOC:Enhancing Soft Skills and Personality Lecture 38 - Managing Mind and Memory
Link NOC:Enhancing Soft Skills and Personality Lecture 39 - Improving Memory
Link NOC:Enhancing Soft Skills and Personality Lecture 40 - Care for Environment
Link NOC:Postcolonial Literature Lecture 1 - Introduction: What is Postcolonialism?
Link NOC:Postcolonial Literature Lecture 2 - Commonwealth Literature
Link NOC:Postcolonial Literature Lecture 3 - Colonial Discourse Analysis: Michel Foucault
Link NOC:Postcolonial Literature Lecture 4 - Colonial Discourse Analysis: Edward Said
Link NOC:Postcolonial Literature Lecture 5 - Joseph Conrad's Heart of Darkness
Link NOC:Postcolonial Literature Lecture 6 - Colonialism: The African Perspective
Link NOC:Postcolonial Literature Lecture 7 - Chinua Achebe's Things Fall Apart - I
Link NOC:Postcolonial Literature Lecture 8 - Chinua Achebe's Things Fall Apart - II
Link NOC:Postcolonial Literature Lecture 9 - Decolonisation and the Discourse of Nationalism
Link NOC:Postcolonial Literature Lecture 10 - Sonnets of Henry Derozio
Link NOC:Postcolonial Literature Lecture 11 - Raja Rao's Kanthapura - I
Link NOC:Postcolonial Literature Lecture 12 - Raja Rao's Kanthapura - II
Link NOC:Postcolonial Literature Lecture 13 - Critics of Nationalism: Rabindranath Tagore and Frantz Fanon
Link NOC:Postcolonial Literature Lecture 14 - Homi Bhabha and the concept of Cultural Hybridity
Link NOC:Postcolonial Literature Lecture 15 - Caribbean Poetry: Derek Walcott
Link NOC:Postcolonial Literature Lecture 16 - Diasporic Literature: Selections from Jhumpa Lahiri's Interpreter of Maladies
Link NOC:Postcolonial Literature Lecture 17 - Gayatri C. Spivak: Answering the question “Can the Subaltern Speak?”
Link NOC:Postcolonial Literature Lecture 18 - Mahasweta Devi's Pterodactyl - I
Link NOC:Postcolonial Literature Lecture 19 - Mahasweta Devi's Pterodactyl - II
Link NOC:Postcolonial Literature Lecture 20 - Conclusion: Postcolonial Futures
Link NOC:Introducing Modern Western Art: Movements and Artists Lecture 1 - What is Modern Art?
Link NOC:Introducing Modern Western Art: Movements and Artists Lecture 2 - Pre-history of Modern Art
Link NOC:Introducing Modern Western Art: Movements and Artists Lecture 3 - Chronology of Modern Western Art
Link NOC:Introducing Modern Western Art: Movements and Artists Lecture 4 - Beginning(s) of Modern Art – 1 (Romanticism and Realism)
Link NOC:Introducing Modern Western Art: Movements and Artists Lecture 5 - Beginning(s) of Modern Art – 2 (Impressionism and Post - Impressionism)
Link NOC:Introducing Modern Western Art: Movements and Artists Lecture 6 - Fauvism and Matisse
Link NOC:Introducing Modern Western Art: Movements and Artists Lecture 7 - Cubism and Picasso
Link NOC:Introducing Modern Western Art: Movements and Artists Lecture 8 - Futurism and Dada-ism
Link NOC:Introducing Modern Western Art: Movements and Artists Lecture 9 - Surrealism
Link NOC:Introducing Modern Western Art: Movements and Artists Lecture 10 - German Expressionism
Link NOC:Introducing Modern Western Art: Movements and Artists Lecture 11 - Rodin – the precursor of Modern Sculpture
Link NOC:Introducing Modern Western Art: Movements and Artists Lecture 12 - From Figuration to Abstract (Henry Moore and Brancusi)
Link NOC:Introducing Modern Western Art: Movements and Artists Lecture 13 - Pure Abstract Sculpture (Constructivism and Minimalism)
Link NOC:Introducing Modern Western Art: Movements and Artists Lecture 14 - Introspection and Innovations (Giacometti and Calder)
Link NOC:Introducing Modern Western Art: Movements and Artists Lecture 15 - Outdoor Sculpture and Public Art
Link NOC:Introducing Modern Western Art: Movements and Artists Lecture 16 - Abstract Painting (Picasso, Paul Klee, Mondrian)
Link NOC:Introducing Modern Western Art: Movements and Artists Lecture 17 - Abstract Expressionism
Link NOC:Introducing Modern Western Art: Movements and Artists Lecture 18 - Art and Optical Science: Op Art
Link NOC:Introducing Modern Western Art: Movements and Artists Lecture 19 - Art and the Mass Culture: Pop Art
Link NOC:Introducing Modern Western Art: Movements and Artists Lecture 20 - Contemporary Trends: Breaking the Barriers
Link NOC:Cognition, Transformation and Lives Lecture 1 - Cognition, Emotion and Transformation
Link NOC:Cognition, Transformation and Lives Lecture 2 - Self and Others
Link NOC:Cognition, Transformation and Lives Lecture 3 - Human Cognition
Link NOC:Cognition, Transformation and Lives Lecture 4 - Cognition and Human Behaviour
Link NOC:Cognition, Transformation and Lives Lecture 5 - Human Emotions
Link NOC:Cognition, Transformation and Lives Lecture 6 - Understanding Emotions
Link NOC:Cognition, Transformation and Lives Lecture 7 - Stories from the Brain
Link NOC:Cognition, Transformation and Lives Lecture 8 - Stories from the Brain (Continued...)
Link NOC:Cognition, Transformation and Lives Lecture 9 - Humans and Madness
Link NOC:Cognition, Transformation and Lives Lecture 10 - Humans and Madness (Continued...)
Link NOC:Cognition, Transformation and Lives Lecture 11 - Vices and Virtues: Understanding Human Behaviour
Link NOC:Cognition, Transformation and Lives Lecture 12 - Change and its Context
Link NOC:Cognition, Transformation and Lives Lecture 13 - Can we transform?
Link NOC:Cognition, Transformation and Lives Lecture 14 - Need for transformation
Link NOC:Cognition, Transformation and Lives Lecture 15 - Process of Transformation
Link NOC:Cognition, Transformation and Lives Lecture 16 - Biographical models of transformations
Link NOC:Cognition, Transformation and Lives Lecture 17 - Biographical narrative of Gandhi
Link NOC:Cognition, Transformation and Lives Lecture 18 - Gandhi's process of transformation
Link NOC:Cognition, Transformation and Lives Lecture 19 - Transformation and Ethics
Link NOC:Cognition, Transformation and Lives Lecture 20 - Transformation and Society
Link NOC:Visual Perception and Art - A Survey Across the Cultures Lecture 1 - Introductory Lecture
Link NOC:Visual Perception and Art - A Survey Across the Cultures Lecture 2 - What is Visual Perception?
Link NOC:Visual Perception and Art - A Survey Across the Cultures Lecture 3 - Visual Perception and Visual Reality
Link NOC:Visual Perception and Art - A Survey Across the Cultures Lecture 4 - Visual Perception and Creativity - 1
Link NOC:Visual Perception and Art - A Survey Across the Cultures Lecture 5 - Visual Perception and Creativity - 2
Link NOC:Visual Perception and Art - A Survey Across the Cultures Lecture 6 - Child art
Link NOC:Visual Perception and Art - A Survey Across the Cultures Lecture 7 - Pre-historic art
Link NOC:Visual Perception and Art - A Survey Across the Cultures Lecture 8 - Folk art
Link NOC:Visual Perception and Art - A Survey Across the Cultures Lecture 9 - Primitive art
Link NOC:Visual Perception and Art - A Survey Across the Cultures Lecture 10 - Photography
Link NOC:Visual Perception and Art - A Survey Across the Cultures Lecture 11 - Popular visual culture
Link NOC:Visual Perception and Art - A Survey Across the Cultures Lecture 12 - Mimetic and Non-mimetic art
Link NOC:Visual Perception and Art - A Survey Across the Cultures Lecture 13 - Traditional art: India
Link NOC:Visual Perception and Art - A Survey Across the Cultures Lecture 14 - Traditional art: China and Japan
Link NOC:Visual Perception and Art - A Survey Across the Cultures Lecture 15 - Realistic art of the West
Link NOC:Visual Perception and Art - A Survey Across the Cultures Lecture 16 - Alternative realism
Link NOC:Visual Perception and Art - A Survey Across the Cultures Lecture 17 - Breakthrough in Visual Perception
Link NOC:Visual Perception and Art - A Survey Across the Cultures Lecture 18 - Abstract art - 1
Link NOC:Visual Perception and Art - A Survey Across the Cultures Lecture 19 - Abstract art - 2
Link NOC:Visual Perception and Art - A Survey Across the Cultures Lecture 20 - Contemporary art: Challenges of Visual
Link NOC:Introduction to Basic Cognitive Processes Lecture 1 - Introduction to Cognitive Psychology
Link NOC:Introduction to Basic Cognitive Processes Lecture 2 - A Brief History of Cognitive Psychology
Link NOC:Introduction to Basic Cognitive Processes Lecture 3 - A Brief History of Cognitive Psychology (Continued...)
Link NOC:Introduction to Basic Cognitive Processes Lecture 4 - Foundational Assumptions of Cognitive Psychology
Link NOC:Introduction to Basic Cognitive Processes Lecture 5 - Foundations of Cognitive Psychology
Link NOC:Introduction to Basic Cognitive Processes Lecture 6 - Foundations of Cognitive Psychology
Link NOC:Introduction to Basic Cognitive Processes Lecture 7 - Approaches towards Cognitive Psychology
Link NOC:Introduction to Basic Cognitive Processes Lecture 8 - Modularity and Cognitive Neuropsychology
Link NOC:Introduction to Basic Cognitive Processes Lecture 9 - Basic Concepts in Cognitive Neuroscience
Link NOC:Introduction to Basic Cognitive Processes Lecture 10 - The Cerebral Cortex
Link NOC:Introduction to Basic Cognitive Processes Lecture 11 - Basics of Research Methods
Link NOC:Introduction to Basic Cognitive Processes Lecture 12 - Research Methods in Cognitive Psychology
Link NOC:Introduction to Basic Cognitive Processes Lecture 13 - Sensation and Perception
Link NOC:Introduction to Basic Cognitive Processes Lecture 14 - Psychophysics: Measuring Sensation
Link NOC:Introduction to Basic Cognitive Processes Lecture 15 - Signal Detection Theory
Link NOC:Introduction to Basic Cognitive Processes Lecture 16 - Physiology of Visual Perception
Link NOC:Introduction to Basic Cognitive Processes Lecture 17 - Representation in Perception
Link NOC:Introduction to Basic Cognitive Processes Lecture 18 - Approaches to Visual Perception - 1
Link NOC:Introduction to Basic Cognitive Processes Lecture 19 - Approaches to Visual Perception - 2
Link NOC:Introduction to Basic Cognitive Processes Lecture 20 - Approaches to Visual Perception - 3
Link NOC:Introduction to Basic Cognitive Processes Lecture 21 - Theories of Object Recognition
Link NOC:Introduction to Basic Cognitive Processes Lecture 22 - Perception and Action
Link NOC:Introduction to Basic Cognitive Processes Lecture 23 - Auditory Perception - I
Link NOC:Introduction to Basic Cognitive Processes Lecture 24 - Auditory Perception - II
Link NOC:Introduction to Basic Cognitive Processes Lecture 25 - Attention - I
Link NOC:Introduction to Basic Cognitive Processes Lecture 26 - Attention - II
Link NOC:Introduction to Basic Cognitive Processes Lecture 27 - Attention - III
Link NOC:Introduction to Basic Cognitive Processes Lecture 28 - Attention - IV
Link NOC:Introduction to Basic Cognitive Processes Lecture 29 - Memory - I
Link NOC:Introduction to Basic Cognitive Processes Lecture 30 - Memory - II
Link NOC:Introduction to Basic Cognitive Processes Lecture 31 - Memory - III
Link NOC:Introduction to Basic Cognitive Processes Lecture 32 - Memory - IV
Link NOC:Introduction to Basic Cognitive Processes Lecture 33 - Memory - V
Link NOC:Introduction to Basic Cognitive Processes Lecture 34 - Memory - VI
Link NOC:Introduction to Basic Cognitive Processes Lecture 35 - Memory - VII
Link NOC:Introduction to Basic Cognitive Processes Lecture 36 - Everyday Memory and Memory Errors
Link NOC:Introduction to Basic Cognitive Processes Lecture 37 - Disorders for Perception and Attention
Link NOC:Introduction to Basic Cognitive Processes Lecture 38 - Disorders of Memory
Link NOC:Introduction to Basic Cognitive Processes Lecture 39 - Summary and Q & A
Link NOC:Calculus of One Real Variable Lecture 1 - Introduction to Numbers
Link NOC:Calculus of One Real Variable Lecture 2 - Countability and Uncountability
Link NOC:Calculus of One Real Variable Lecture 3 - Examples of Irrational numbers
Link NOC:Calculus of One Real Variable Lecture 4 - Functions
Link NOC:Calculus of One Real Variable Lecture 5 - Limits of Functions - I
Link NOC:Calculus of One Real Variable Lecture 6 - Limits of Functions - II
Link NOC:Calculus of One Real Variable Lecture 7 - Continuous Functions
Link NOC:Calculus of One Real Variable Lecture 8 - Intermediate Value Theorem
Link NOC:Calculus of One Real Variable Lecture 9 - Maximum Value Theorem
Link NOC:Calculus of One Real Variable Lecture 10 - Supremum and Infimum
Link NOC:Calculus of One Real Variable Lecture 11 - Derivative of a Function
Link NOC:Calculus of One Real Variable Lecture 12 - Rules of Differentiation
Link NOC:Calculus of One Real Variable Lecture 13 - Maxima and Minima
Link NOC:Calculus of One Real Variable Lecture 14 - Rolles Theorem and Lagrange Mean Value Theorem (MVT)
Link NOC:Calculus of One Real Variable Lecture 15 - Monotonic Functions and Inverse Functions
Link NOC:Calculus of One Real Variable Lecture 16 - Newton’s Method for solving Equations
Link NOC:Calculus of One Real Variable Lecture 17 - Optimization Problems
Link NOC:Calculus of One Real Variable Lecture 18 - Integration-I : In the style of Newton and Leibnitz
Link NOC:Calculus of One Real Variable Lecture 19 - Integration-II : In the spirit of Newton and Leibnitz
Link NOC:Calculus of One Real Variable Lecture 20 - Integration-III : Newton and Leibnitz Style
Link NOC:Calculus of One Real Variable Lecture 21 - Integration theory of Riemann - I
Link NOC:Calculus of One Real Variable Lecture 22 - Integration theory of Riemann - II
Link NOC:Calculus of One Real Variable Lecture 23 - Integration Rule
Link NOC:Calculus of One Real Variable Lecture 24 - Fundamental Theorem of Calculus (in Riemann style)
Link NOC:Calculus of One Real Variable Lecture 25 - The Kurzweil-Henstock Integral (K-H Integral)
Link NOC:Calculus of One Real Variable Lecture 26 - Calculating Indefinite Integrals
Link NOC:Calculus of One Real Variable Lecture 27 - Improper Integral - I
Link NOC:Calculus of One Real Variable Lecture 28 - Improper Integral - II
Link NOC:Calculus of One Real Variable Lecture 29 - Application of Definite Integral - I
Link NOC:Calculus of One Real Variable Lecture 30 - Application of definite Integral - II
Link NOC:Calculus of One Real Variable Lecture 31 - Application of definite Integral - III
Link NOC:Calculus of One Real Variable Lecture 32 - Application of definite Integral - III (Continued......)
Link NOC:Calculus of One Real Variable Lecture 33 - Numerical Integration - I
Link NOC:Calculus of One Real Variable Lecture 34 - Numerical Integration - II
Link NOC:Calculus of One Real Variable Lecture 35 - Sequences
Link NOC:Calculus of One Real Variable Lecture 36 - Sequences (Continued...)
Link NOC:Calculus of One Real Variable Lecture 37 - Infinite Series
Link NOC:Calculus of One Real Variable Lecture 38 - infinite series (Continued...)
Link NOC:Calculus of One Real Variable Lecture 39 - Taylors Theorem, other issues and end of the course - I
Link NOC:Calculus of One Real Variable Lecture 40 - Taylors Theorem, other issues and end of the course - II
Link NOC:An Introduction to Microeconomics Lecture 1 - What is Economics ?
Link NOC:An Introduction to Microeconomics Lecture 2 - Resources, Wants and Scarcity
Link NOC:An Introduction to Microeconomics Lecture 3 - Allocation, Command, Market and Mixed Economy
Link NOC:An Introduction to Microeconomics Lecture 4 - Individual
Link NOC:An Introduction to Microeconomics Lecture 5 - Rationality, Self Interest and Optimization
Link NOC:An Introduction to Microeconomics Lecture 6 - Branches of Economics
Link NOC:An Introduction to Microeconomics Lecture 7 - Introduction to Demand and Supply
Link NOC:An Introduction to Microeconomics Lecture 8 - Demand
Link NOC:An Introduction to Microeconomics Lecture 9 - Demand:Effect of Substitutes and Complements
Link NOC:An Introduction to Microeconomics Lecture 10 - Market Demand Function
Link NOC:An Introduction to Microeconomics Lecture 11 - Factors Affecting Demand
Link NOC:An Introduction to Microeconomics Lecture 12 - Supply and Market Supply
Link NOC:An Introduction to Microeconomics Lecture 13 - Supply: Effect of Substitutes and Complements
Link NOC:An Introduction to Microeconomics Lecture 14 - Factors Affecting Supply
Link NOC:An Introduction to Microeconomics Lecture 15 - Market Equilibrium
Link NOC:An Introduction to Microeconomics Lecture 16 - Few Examples
Link NOC:An Introduction to Microeconomics Lecture 17 - Application: Price Control
Link NOC:An Introduction to Microeconomics Lecture 18 - Consumer Surplus
Link NOC:An Introduction to Microeconomics Lecture 19 - Producer Surplus
Link NOC:An Introduction to Microeconomics Lecture 20 - Total Surplus
Link NOC:An Introduction to Microeconomics Lecture 21 - Effect of Price Control on Surplus
Link NOC:An Introduction to Microeconomics Lecture 22 - Implications of Market Equilibrium
Link NOC:An Introduction to Microeconomics Lecture 23 - Price Elasticity of Demand
Link NOC:An Introduction to Microeconomics Lecture 24 - Elastic, Inelastic and Unit- elastic Demand
Link NOC:An Introduction to Microeconomics Lecture 25 - Perfectly Elastic and Perfectly Inelastic Demand
Link NOC:An Introduction to Microeconomics Lecture 26 - More on Elasticity
Link NOC:An Introduction to Microeconomics Lecture 27 - Factors Affecting Price Elasticity of Demand
Link NOC:An Introduction to Microeconomics Lecture 28 - Effect of Taxation
Link NOC:An Introduction to Microeconomics Lecture 29 - Tax Imposed on Seller
Link NOC:An Introduction to Microeconomics Lecture 30 - Incidence of Tax
Link NOC:An Introduction to Microeconomics Lecture 31 - Incidence of Tax: Four Extremes
Link NOC:An Introduction to Microeconomics Lecture 32 - Incidence of Tax: Effect on Surplus
Link NOC:An Introduction to Microeconomics Lecture 33 - Towards Consumer Theory
Link NOC:An Introduction to Microeconomics Lecture 34 - Budget Line and Budget Set
Link NOC:An Introduction to Microeconomics Lecture 35 - Factors Affecting the Budget Line
Link NOC:An Introduction to Microeconomics Lecture 36 - Few Examples of Changes in Budget Line
Link NOC:An Introduction to Microeconomics Lecture 37 - Consumption Set
Link NOC:An Introduction to Microeconomics Lecture 38 - Convexity of Consumption Set
Link NOC:An Introduction to Microeconomics Lecture 39 - Describing Utility
Link NOC:An Introduction to Microeconomics Lecture 40 - Some Axioms
Link NOC:An Introduction to Microeconomics Lecture 41 - Preferences as a Mathematical Construct
Link NOC:An Introduction to Microeconomics Lecture 42 - Rationality in Real Life Vs. Rationality in Economics
Link NOC:An Introduction to Microeconomics Lecture 43 - More on Three Axioms of Rationality
Link NOC:An Introduction to Microeconomics Lecture 44 - Defining Utility Function
Link NOC:An Introduction to Microeconomics Lecture 45 - Ordinal Vs. Cardinal Utility
Link NOC:An Introduction to Microeconomics Lecture 46 - Properties of Preferences: Continuity
Link NOC:An Introduction to Microeconomics Lecture 47 - Indifference Set
Link NOC:An Introduction to Microeconomics Lecture 48 - Indifference Curve
Link NOC:An Introduction to Microeconomics Lecture 49 - Behavioural Assumption: More is Better
Link NOC:An Introduction to Microeconomics Lecture 50 - Properties of Preferences: Convexity
Link NOC:An Introduction to Microeconomics Lecture 51 - Marginal Rate of Substitution (MRS)
Link NOC:An Introduction to Microeconomics Lecture 52 - DMRS and Convexity: Example
Link NOC:An Introduction to Microeconomics Lecture 53 - Summary
Link NOC:An Introduction to Microeconomics Lecture 54 - Utility Maximization
Link NOC:An Introduction to Microeconomics Lecture 55 - Utility Maximization: tangency criterion
Link NOC:An Introduction to Microeconomics Lecture 56 - More on Utility Maximization
Link NOC:An Introduction to Microeconomics Lecture 57 - Utility Maximization: Example
Link NOC:An Introduction to Microeconomics Lecture 58 - Example Revisited
Link NOC:An Introduction to Microeconomics Lecture 59 - Marginal Utility Vs. Marginal Rate of Substitution (MRS)
Link NOC:An Introduction to Microeconomics Lecture 60 - Perfect Substitutes
Link NOC:An Introduction to Microeconomics Lecture 61 - Perfect Complements
Link NOC:An Introduction to Microeconomics Lecture 62 - An Example with Quasi Linear Preferences
Link NOC:An Introduction to Microeconomics Lecture 63 - Demand Revisited
Link NOC:An Introduction to Microeconomics Lecture 64 - Effect of Income on Quantity Demanded
Link NOC:An Introduction to Microeconomics Lecture 65 - Effect of Change in Price
Link NOC:An Introduction to Microeconomics Lecture 66 - Substitution Effect and Income Effect
Link NOC:An Introduction to Microeconomics Lecture 67 - Giffen Good
Link NOC:An Introduction to Microeconomics Lecture 68 - Expenditure Minimization as a Dual Problem of Utility Maximization
Link NOC:An Introduction to Microeconomics Lecture 69 - Marshallian and Hicksian Demand Function
Link NOC:An Introduction to Microeconomics Lecture 70 - Slutsky Equation
Link NOC:An Introduction to Microeconomics Lecture 71 - An Application: Subsidy Vs. Direct Benefit Transfer
Link NOC:An Introduction to Microeconomics Lecture 72 - Towards Producer Theory
Link NOC:An Introduction to Microeconomics Lecture 73 - Technology or Production Function
Link NOC:An Introduction to Microeconomics Lecture 74 - Isoquants
Link NOC:An Introduction to Microeconomics Lecture 75 - Few Axioms Related to Technology
Link NOC:An Introduction to Microeconomics Lecture 76 - Axioms/ Assumptions Continued
Link NOC:An Introduction to Microeconomics Lecture 77 - Production in Short Run
Link NOC:An Introduction to Microeconomics Lecture 78 - Average and Marginal Product of Labour (APL and MPL)
Link NOC:An Introduction to Microeconomics Lecture 79 - More on APL and MPL
Link NOC:An Introduction to Microeconomics Lecture 80 - Law of Diminishing Marginal Returns
Link NOC:An Introduction to Microeconomics Lecture 81 - Production in Long Run
Link NOC:An Introduction to Microeconomics Lecture 82 - MRTS: Few Examples
Link NOC:An Introduction to Microeconomics Lecture 83 - Decreasing MRTS
Link NOC:An Introduction to Microeconomics Lecture 84 - Elasticity of Substitution
Link NOC:An Introduction to Microeconomics Lecture 85 - Returns to Scale
Link NOC:An Introduction to Microeconomics Lecture 86 - Elasticity of Scale
Link NOC:An Introduction to Microeconomics Lecture 87 - Economic Terminology: Opportunity Cost
Link NOC:An Introduction to Microeconomics Lecture 88 - Economic Terminology: Sunk Cost
Link NOC:An Introduction to Microeconomics Lecture 89 - Economic Terminology: Economic Profit and Accounting Profit
Link NOC:An Introduction to Microeconomics Lecture 90 - Diminishing Marginal Product Vs. DMRTS
Link NOC:An Introduction to Microeconomics Lecture 91 - Returns to Scale through Graphs
Link NOC:An Introduction to Microeconomics Lecture 92 - Cost in Long Run
Link NOC:An Introduction to Microeconomics Lecture 93 - Cost Minimization
Link NOC:An Introduction to Microeconomics Lecture 94 - Cost Minimization: Few Examples
Link NOC:An Introduction to Microeconomics Lecture 95 - Cost Minimization: Cobb-Douglas Production Function
Link NOC:An Introduction to Microeconomics Lecture 96 - More on Cost Minimization
Link NOC:An Introduction to Microeconomics Lecture 97 - Cost Function in the Long Run
Link NOC:An Introduction to Microeconomics Lecture 98 - Cost in Short Run: TC, FC and VC
Link NOC:An Introduction to Microeconomics Lecture 99 - Cost in Short Run: MC
Link NOC:An Introduction to Microeconomics Lecture 100 - Shape of Cost Curves
Link NOC:An Introduction to Microeconomics Lecture 101 - Factor Demand Function
Link NOC:An Introduction to Microeconomics Lecture 102 - Output Expansion Path
Link NOC:An Introduction to Microeconomics Lecture 103 - Cost Revisited: Quasi Fixed Cost
Link NOC:An Introduction to Microeconomics Lecture 104 - Cobb-Douglas Function: Cost and Returns to Scale
Link NOC:An Introduction to Microeconomics Lecture 105 - Short Run Vs. Long Run Cost Minimization
Link NOC:An Introduction to Microeconomics Lecture 106 - Short Run Vs. Long Run Cost Minimization Through Graphs
Link NOC:An Introduction to Microeconomics Lecture 107 - Average Cost in Short Run Vs. Long Run
Link NOC:An Introduction to Microeconomics Lecture 108 - Short Run Marginal Cost Vs. Long Run Marginal Cost
Link NOC:An Introduction to Microeconomics Lecture 109 - Profit Maximization
Link NOC:An Introduction to Microeconomics Lecture 110 - Marginal Revenue
Link NOC:An Introduction to Microeconomics Lecture 111 - Profit Maximization in Short Run Through Graphs
Link NOC:An Introduction to Microeconomics Lecture 112 - Profit Maximization in Short Run Through Algebra and Calculus
Link NOC:An Introduction to Microeconomics Lecture 113 - Market Environment
Link NOC:An Introduction to Microeconomics Lecture 114 - Perfectly Competitive Market
Link NOC:An Introduction to Microeconomics Lecture 115 - Supply Curve
Link NOC:An Introduction to Microeconomics Lecture 116 - An example obtaining the short run supply function
Link NOC:An Introduction to Microeconomics Lecture 117 - Two Interpretation of Supply Function
Link NOC:An Introduction to Microeconomics Lecture 118 - Profit maximization implies cost minimization
Link NOC:An Introduction to Microeconomics Lecture 119 - Producer’s Surplus Revisited
Link NOC:An Introduction to Microeconomics Lecture 120 - Profit Maximization and Returns to Scale
Link NOC:An Introduction to Microeconomics Lecture 121 - Short Run Supply Vs. Long Run Supply
Link NOC:An Introduction to Microeconomics Lecture 122 - Long Run Equilibrium and Supply Function
Link NOC:An Introduction to Microeconomics Lecture 123 - Introduction to Monopoly
Link NOC:An Introduction to Microeconomics Lecture 124 - Marginal Revenue of the Monopolist
Link NOC:An Introduction to Microeconomics Lecture 125 - Monopoly: Price Elasticity of the Demand and MR
Link NOC:An Introduction to Microeconomics Lecture 126 - Profit Maximization for the Monopolist
Link NOC:An Introduction to Microeconomics Lecture 127 - Inverse Elasticity Pricing Rule
Link NOC:An Introduction to Microeconomics Lecture 128 - Profit Maximization for the Monopolist through Graph
Link NOC:An Introduction to Microeconomics Lecture 129 - No Supply Function for Monopoly
Link NOC:An Introduction to Microeconomics Lecture 130 - Monopoly: Comparative Statics
Link NOC:An Introduction to Microeconomics Lecture 131 - Imposition of the Tax on the Monopolist
Link NOC:An Introduction to Microeconomics Lecture 132 - Welfare Effects of Monopoly Pricing
Link NOC:An Introduction to Microeconomics Lecture 133 - Price Discrimination
Link NOC:An Introduction to Microeconomics Lecture 134 - Monopoly: Example
Link NOC:An Introduction to Microeconomics Lecture 135 - Responses from Policy Makers
Link NOC:An Introduction to Microeconomics Lecture 136 - Introduction to Oligopoly
Link NOC:An Introduction to Microeconomics Lecture 137 - Nash Equilibrium
Link NOC:An Introduction to Microeconomics Lecture 138 - Cournot Model of Duopoly
Link NOC:An Introduction to Microeconomics Lecture 139 - Stackelberg Model of Duopoly
Link NOC:An Introduction to Microeconomics Lecture 140 - Bertrand Model of Duopoly
Link NOC:An Introduction to Microeconomics Lecture 141 - Market Environment: Comparison Table
Link NOC:Introduction to Advanced Cognitive Processes Lecture 1 - Preface, Outline and Course Structure
Link NOC:Introduction to Advanced Cognitive Processes Lecture 2 - Knowledge - I
Link NOC:Introduction to Advanced Cognitive Processes Lecture 3 - Knowledge - II
Link NOC:Introduction to Advanced Cognitive Processes Lecture 4 - Knowledge - III
Link NOC:Introduction to Advanced Cognitive Processes Lecture 5 - Knowledge - IV
Link NOC:Introduction to Advanced Cognitive Processes Lecture 6 - Knowledge - V
Link NOC:Introduction to Advanced Cognitive Processes Lecture 7 - Visual Imagery - I
Link NOC:Introduction to Advanced Cognitive Processes Lecture 8 - Visual Imagery - II
Link NOC:Introduction to Advanced Cognitive Processes Lecture 9 - Cognitive Maps
Link NOC:Introduction to Advanced Cognitive Processes Lecture 10 - Mental Imagery
Link NOC:Introduction to Advanced Cognitive Processes Lecture 11 - Language: Introduction
Link NOC:Introduction to Advanced Cognitive Processes Lecture 12 - Language: Historical Background
Link NOC:Introduction to Advanced Cognitive Processes Lecture 13 - Evolution of Language
Link NOC:Introduction to Advanced Cognitive Processes Lecture 14 - Language Acquisition - I
Link NOC:Introduction to Advanced Cognitive Processes Lecture 15 - Language Acquisition - II
Link NOC:Introduction to Advanced Cognitive Processes Lecture 16 - Language Comprehension - I
Link NOC:Introduction to Advanced Cognitive Processes Lecture 17 - Language Comprehension - II
Link NOC:Introduction to Advanced Cognitive Processes Lecture 18 - Language Production
Link NOC:Introduction to Advanced Cognitive Processes Lecture 19 - Reading - I
Link NOC:Introduction to Advanced Cognitive Processes Lecture 20 - Reading - II
Link NOC:Introduction to Advanced Cognitive Processes Lecture 21 - Aphasia
Link NOC:Introduction to Advanced Cognitive Processes Lecture 22 - Bilingualism
Link NOC:Introduction to Advanced Cognitive Processes Lecture 23 - Reasoning and Decision Making - I
Link NOC:Introduction to Advanced Cognitive Processes Lecture 24 - Reasoning and Decision Making - II
Link NOC:Introduction to Advanced Cognitive Processes Lecture 25 - Reasoning and Decision Making - III
Link NOC:Introduction to Advanced Cognitive Processes Lecture 26 - Problem Solving - I
Link NOC:Introduction to Advanced Cognitive Processes Lecture 27 - Problem Solving - II
Link NOC:Introduction to Advanced Cognitive Processes Lecture 28 - Problem Solving - III
Link NOC:Introduction to Advanced Cognitive Processes Lecture 29 - Problem Solving - IV
Link NOC:Introduction to Advanced Cognitive Processes Lecture 30 - Creativity
Link NOC:Introduction to Advanced Cognitive Processes Lecture 31 - Cognition and Emotion - I
Link NOC:Introduction to Advanced Cognitive Processes Lecture 32 - Cognition and Emotion - II
Link NOC:Introduction to Advanced Cognitive Processes Lecture 33 - Cognition and Emotion - III
Link NOC:Introduction to Advanced Cognitive Processes Lecture 34 - Cognition and Emotion - IV
Link NOC:Introduction to Advanced Cognitive Processes Lecture 35 - Cognition and Emotion - V
Link NOC:Introduction to Advanced Cognitive Processes Lecture 36 - Cognitive Development - I
Link NOC:Introduction to Advanced Cognitive Processes Lecture 37 - Cognitive Development - II
Link NOC:Introduction to Advanced Cognitive Processes Lecture 38 - Cognitive Development - III
Link NOC:Introduction to Advanced Cognitive Processes Lecture 39 - Cognitive Development - IV
Link NOC:Introduction to Advanced Cognitive Processes Lecture 40 - Summary and Conclusion
Link NOC:Introduction to Literary Theory Lecture 1 - Introduction: What is Literary Theory?
Link NOC:Introduction to Literary Theory Lecture 2 - Literature and Mimesis: Plato - I
Link NOC:Introduction to Literary Theory Lecture 3 - Literature and Mimesis: Plato - II
Link NOC:Introduction to Literary Theory Lecture 4 - Literature and Mimesis: Aristotle - I
Link NOC:Introduction to Literary Theory Lecture 5 - Literature and Mimesis: Aristotle - II
Link NOC:Introduction to Literary Theory Lecture 6 - Literature and the Sublime
Link NOC:Introduction to Literary Theory Lecture 7 - Neoclassical Literary Theory
Link NOC:Introduction to Literary Theory Lecture 8 - Literature and Romanticism - I
Link NOC:Introduction to Literary Theory Lecture 9 - Literature and Romanticism - II
Link NOC:Introduction to Literary Theory Lecture 10 - New Criticism
Link NOC:Introduction to Literary Theory Lecture 11 - Formalism
Link NOC:Introduction to Literary Theory Lecture 12 - Dialogism I
Link NOC:Introduction to Literary Theory Lecture 13
Link NOC:Introduction to Literary Theory Lecture 14 - Reader Response Theory I: The Phenomenological Tradition
Link NOC:Introduction to Literary Theory Lecture 15 - Reader Response Theory II: Wolfgang Iser, Harold Bloom, and Stanley Fish
Link NOC:Introduction to Literary Theory Lecture 16 - Structuralism I: Ferdinand de Saussure
Link NOC:Introduction to Literary Theory Lecture 17 - Structuralism II: Claude Lévi-Strauss
Link NOC:Introduction to Literary Theory Lecture 18 - Poststructuralism I: Roland Barthes
Link NOC:Introduction to Literary Theory Lecture 19 - Poststructuralism II: Jacques Derrida
Link NOC:Introduction to Literary Theory Lecture 20 - Poststructuralism III: Michel Foucault
Link NOC:Introduction to Literary Theory Lecture 21 - Marxist Literary Theory I: Marx and Brecht
Link NOC:Introduction to Literary Theory Lecture 22 - Marxist Literary Theory II: Althusser and Gramsci
Link NOC:Introduction to Literary Theory Lecture 23 - Marxist Literary Theory III: Raymond Williams
Link NOC:Introduction to Literary Theory Lecture 24 - Literature and Psychoanalysis: Sigmund Freud - I
Link NOC:Introduction to Literary Theory Lecture 25 - Literature and Psychoanalysis: Sigmund Freud - II
Link NOC:Introduction to Literary Theory Lecture 26 - Literature and Psychoanalysis: Sigmund Freud - III
Link NOC:Introduction to Literary Theory Lecture 27 - Literature and Psychoanalysis IV: Carl Jung
Link NOC:Introduction to Literary Theory Lecture 28 - Literature and Psychoanalysis V: Jacques Lacan
Link NOC:Introduction to Literary Theory Lecture 29 - Feminism and Literature I: Mary Wollstonecraft
Link NOC:Introduction to Literary Theory Lecture 30 - Feminism and Literature II: Woolf and de Beauvoir
Link NOC:Introduction to Literary Theory Lecture 31 - Feminism and Literature III: Gynocriticism, Écriture Feminine, Judith Butler
Link NOC:Introduction to Literary Theory Lecture 32 - Modernism and Postmodernism
Link NOC:Introduction to Literary Theory Lecture 33 - Postcolonial Theory I: Edward Said
Link NOC:Introduction to Literary Theory Lecture 34 - Postcolonial Theory II: Bhabha and Spivak
Link NOC:Introduction to Literary Theory Lecture 35 - Conclusion
Link NOC:Development of Sociology in India Lecture 1 - On Emergence and Growth of Sociology in India
Link NOC:Development of Sociology in India Lecture 2 - On Emergence and Growth of Sociology in India
Link NOC:Development of Sociology in India Lecture 3 - On Indigenization of Sociology
Link NOC:Development of Sociology in India Lecture 4 - On Indigenization of Sociology
Link NOC:Development of Sociology in India Lecture 5 - On Civilizational Perspective
Link NOC:Development of Sociology in India Lecture 6 - On Civilizational perspective
Link NOC:Development of Sociology in India Lecture 7 - On Indological perspective
Link NOC:Development of Sociology in India Lecture 8 - On Indological perspective: A
Link NOC:Development of Sociology in India Lecture 9 - On Marxian perspective
Link NOC:Development of Sociology in India Lecture 10 - On Marxian perspective: A
Link NOC:Development of Sociology in India Lecture 11 - Structural-functional perspective
Link NOC:Development of Sociology in India Lecture 12 - Structural-functional perspective
Link NOC:Development of Sociology in India Lecture 13 - On Environmental Perspective
Link NOC:Development of Sociology in India Lecture 14 - On Environmental Perspective
Link NOC:Development of Sociology in India Lecture 15 - On Gender perspective
Link NOC:Development of Sociology in India Lecture 16 - On Gender perspective
Link NOC:Development of Sociology in India Lecture 17 - Subaltern perspective
Link NOC:Development of Sociology in India Lecture 18 - Subaltern perspective
Link NOC:Development of Sociology in India Lecture 19 - On Dalit Perspective
Link NOC:Development of Sociology in India Lecture 20 - On Dalit Perspective
Link NOC:Introduction to the Pyschology of Language Lecture 1 - Introduction to Language
Link NOC:Introduction to the Pyschology of Language Lecture 2 - Basic Concepts in Psycholinguistics
Link NOC:Introduction to the Pyschology of Language Lecture 3 - Animal Communication
Link NOC:Introduction to the Pyschology of Language Lecture 4 - Evolution of Language
Link NOC:Introduction to the Pyschology of Language Lecture 5 - Language and Thought
Link NOC:Introduction to the Pyschology of Language Lecture 6 - Do children talk ? And How ?
Link NOC:Introduction to the Pyschology of Language Lecture 7 - The First Steps in Language Acquisition
Link NOC:Introduction to the Pyschology of Language Lecture 8 - Segmenting the speech stream
Link NOC:Introduction to the Pyschology of Language Lecture 9 - Learning Word - Meanings
Link NOC:Introduction to the Pyschology of Language Lecture 10 - Acquiring Morphological and Syntactic Knowledge
Link NOC:Introduction to the Pyschology of Language Lecture 11 - Speech Production - 1
Link NOC:Introduction to the Pyschology of Language Lecture 12 - Speech Production - 2
Link NOC:Introduction to the Pyschology of Language Lecture 13 - Speech Production - 3
Link NOC:Introduction to the Pyschology of Language Lecture 14 - Speech Comprehension - 1
Link NOC:Introduction to the Pyschology of Language Lecture 15 - Speech Comprehension - 2
Link NOC:Introduction to the Pyschology of Language Lecture 16 - Understanding Word Meaning
Link NOC:Introduction to the Pyschology of Language Lecture 17 - Word Meaning and Lexical Access
Link NOC:Introduction to the Pyschology of Language Lecture 18 - Lexical Access
Link NOC:Introduction to the Pyschology of Language Lecture 19 - Ambiguity and Representation of Meaning in the Brain
Link NOC:Introduction to the Pyschology of Language Lecture 20 - Meaning in the Brain
Link NOC:Introduction to the Pyschology of Language Lecture 21 - What is a sentence ?
Link NOC:Introduction to the Pyschology of Language Lecture 22 - Parsing Sentences - 1
Link NOC:Introduction to the Pyschology of Language Lecture 23 - Parsing Sentences - 2
Link NOC:Introduction to the Pyschology of Language Lecture 24 - Parsing Sentences - 3
Link NOC:Introduction to the Pyschology of Language Lecture 25 - Parsing Sentences - 4
Link NOC:Introduction to the Pyschology of Language Lecture 26 - Reading - 1
Link NOC:Introduction to the Pyschology of Language Lecture 27 - Theories of Reading
Link NOC:Introduction to the Pyschology of Language Lecture 28 - Cognitive Processes in Reading
Link NOC:Introduction to the Pyschology of Language Lecture 29 - Recognising Visual Words
Link NOC:Introduction to the Pyschology of Language Lecture 30 - Dyslexia
Link NOC:Introduction to the Pyschology of Language Lecture 31 - Neural Basis of Word Meaning
Link NOC:Introduction to the Pyschology of Language Lecture 32 - Neural Basis of Language Comprehension
Link NOC:Introduction to the Pyschology of Language Lecture 33 - Neural Basis of Language Comprehension
Link NOC:Introduction to the Pyschology of Language Lecture 34 - Neural Basis of Language Comprehension and Production
Link NOC:Introduction to the Pyschology of Language Lecture 35 - Aphasia
Link NOC:Introduction to the Pyschology of Language Lecture 36 - Bilingualism - 1
Link NOC:Introduction to the Pyschology of Language Lecture 37 - Bilingualism - 2
Link NOC:Introduction to the Pyschology of Language Lecture 38 - Bilingualism - 3
Link NOC:Population Studies Lecture 1 - Introduction to Population Studies
Link NOC:Population Studies Lecture 2 - Population Ecology / Geography
Link NOC:Population Studies Lecture 3 - Population Growth
Link NOC:Population Studies Lecture 4 - Population Growth and Development
Link NOC:Population Studies Lecture 5 - Population Dynamics - 1
Link NOC:Population Studies Lecture 6 - Population Dynamics - 2
Link NOC:Population Studies Lecture 7 - Population Policies
Link NOC:Population Studies Lecture 8 - Population Policy in India
Link NOC:Population Studies Lecture 9 - Population and Family Welfare - 1
Link NOC:Population Studies Lecture 10 - Population and Family Welfare - 2
Link NOC:Population Studies Lecture 11 - Techniques of Population Analysis - 1
Link NOC:Population Studies Lecture 12 - Techniques of Population Analysis - 2
Link NOC:Population Studies Lecture 13 - Population and Society
Link NOC:Population Studies Lecture 14 - Population and Society
Link NOC:Population Studies Lecture 15 - Statistical Techniques in Population Studies - 1
Link NOC:Population Studies Lecture 16 - Statistical Techniques in Population Studies - 2
Link NOC:Population Studies Lecture 17 - Population Growth and Women - 1
Link NOC:Population Studies Lecture 18 - Population Growth and Women - 2
Link NOC:Population Studies Lecture 19 - Population Concepts and Aging - 1
Link NOC:Population Studies Lecture 20 - Population Concepts and Aging - 2
Link NOC:Psychology of Everyday Lecture 1 - Understanding Psychology
Link NOC:Psychology of Everyday Lecture 2 - Psychology and Psychiatry
Link NOC:Psychology of Everyday Lecture 3 - Understanding day-to-day behaviour - I
Link NOC:Psychology of Everyday Lecture 4 - Understanding day-to-day behaviour - II
Link NOC:Psychology of Everyday Lecture 5 - Revisiting normal-abnormal dilemma - I
Link NOC:Psychology of Everyday Lecture 6 - Revisiting normal-abnormal dilemma - II
Link NOC:Psychology of Everyday Lecture 7 - Revisiting normal-abnormal dilemma - III
Link NOC:Psychology of Everyday Lecture 8 - Revisiting normal-abnormal dilemma - IV
Link NOC:Psychology of Everyday Lecture 9 - Issues confronting the young adults - I and II
Link NOC:Psychology of Everyday Lecture 10 - Issues confronting the young adults - III and IV
Link NOC:Psychology of Everyday Lecture 11 - Mental health issues of adults - I and II
Link NOC:Psychology of Everyday Lecture 12 - Mental health issues of adults - III
Link NOC:Psychology of Everyday Lecture 13 - Mental health issues of adults - IV
Link NOC:Psychology of Everyday Lecture 14 - Mental health issues of child and adolescents - I and II
Link NOC:Psychology of Everyday Lecture 15 - Mental health issues of child and adolescents - III and IV
Link NOC:Technology Transfer through Joint Venture Lecture 1 - Forms of Strategic Alliance
Link NOC:Technology Transfer through Joint Venture Lecture 2 - Negotiations and Contractual Aspect
Link NOC:Technology Transfer through Joint Venture Lecture 3 - Risks and Opportunities
Link NOC:Technology Transfer through Joint Venture Lecture 4 - Regulatory Issues
Link NOC:Technology Transfer through Joint Venture Lecture 5 - Implication on Stakeholders
Link NOC:Technology Transfer through Joint Venture Lecture 6 - Joint Venture [JV] Options
Link NOC:Technology Transfer through Joint Venture Lecture 7 - Types of Joint Venture [JV]
Link NOC:Technology Transfer through Joint Venture Lecture 8 - Issues Frequently Arise During JV Negotiation
Link NOC:Technology Transfer through Joint Venture Lecture 9 - Key Compliance
Link NOC:Technology Transfer through Joint Venture Lecture 10 - Governing Laws in Cross-Border Transaction
Link NOC:Technology Transfer through Joint Venture Lecture 11 - Formation of Joint Venture Agreement
Link NOC:Technology Transfer through Joint Venture Lecture 12 - Governance Issues in Joint Venture
Link NOC:Technology Transfer through Joint Venture Lecture 13 - Business Plan in Joint Venture
Link NOC:Technology Transfer through Joint Venture Lecture 14 - Shareholder Agreement in Joint Venture
Link NOC:Technology Transfer through Joint Venture Lecture 15 - Specific Issues of Share Transfer in Joint Venture
Link NOC:Technology Transfer through Joint Venture Lecture 16 - Preparation for SPV
Link NOC:Technology Transfer through Joint Venture Lecture 17 - Formation of SPV
Link NOC:Technology Transfer through Joint Venture Lecture 18 - Disclosure to be made by SPV
Link NOC:Technology Transfer through Joint Venture Lecture 19 - Risk Management and SPV
Link NOC:Technology Transfer through Joint Venture Lecture 20 - Offset and SPV
Link NOC:Legal Compliance for Incorporating Startup Lecture 1 - Why we need a business form for startup
Link NOC:Legal Compliance for Incorporating Startup Lecture 2 - How to choose appropriate business form for startup
Link NOC:Legal Compliance for Incorporating Startup Lecture 3 - Comparative Analysis of Incorporation Requirement
Link NOC:Legal Compliance for Incorporating Startup Lecture 4 - Comparative Analysis of Compliance Cost
Link NOC:Legal Compliance for Incorporating Startup Lecture 5 - Other Formalities to Comply
Link NOC:Legal Compliance for Incorporating Startup Lecture 6 - Law relating to Partnership and Deed
Link NOC:Legal Compliance for Incorporating Startup Lecture 7 - Law relating to LL.P
Link NOC:Legal Compliance for Incorporating Startup Lecture 8 - How to Incorporate LL.P
Link NOC:Legal Compliance for Incorporating Startup Lecture 9 - Law relating to Co-operative
Link NOC:Legal Compliance for Incorporating Startup Lecture 10 - How to Incorporate Co-operative
Link NOC:Legal Compliance for Incorporating Startup Lecture 11 - Law Relating to One Person Company
Link NOC:Legal Compliance for Incorporating Startup Lecture 12 - Law Relating to Pvt. Ltd. Company
Link NOC:Legal Compliance for Incorporating Startup Lecture 13 - Law Relating to Pub. Ltd. Compnay
Link NOC:Legal Compliance for Incorporating Startup Lecture 14 - Law Relating to Non-Profit Company
Link NOC:Legal Compliance for Incorporating Startup Lecture 15 - How to Incorporate these Companies
Link NOC:Legal Compliance for Incorporating Startup Lecture 16 - How to Capitalize the Business
Link NOC:Legal Compliance for Incorporating Startup Lecture 17 - Raising fund through Private Equity and Venture Capital
Link NOC:Legal Compliance for Incorporating Startup Lecture 18 - Raising fund from Financial Institution
Link NOC:Legal Compliance for Incorporating Startup Lecture 19 - Types of Instruments for raising the fund
Link NOC:Legal Compliance for Incorporating Startup Lecture 20 - Issue of the Instruments
Link NOC:Soft Skill Development Lecture 1 - Understanding the Communicative Environment – I
Link NOC:Soft Skill Development Lecture 2 - Understanding the Communicative Environment – II
Link NOC:Soft Skill Development Lecture 3 - What to listen for and why
Link NOC:Soft Skill Development Lecture 4 - When to speak and how
Link NOC:Soft Skill Development Lecture 5 - Staring and Sustaining a Conversation
Link NOC:Soft Skill Development Lecture 6 - What to Present and How - Part I
Link NOC:Soft Skill Development Lecture 7 - What to Present and How - Part II
Link NOC:Soft Skill Development Lecture 8 - Multimedia Presentation : Understanding the Basics
Link NOC:Soft Skill Development Lecture 9 - Communication Styles
Link NOC:Soft Skill Development Lecture 10 - Speaking in Groups
Link NOC:Soft Skill Development Lecture 11 - The World of Visual Culture I
Link NOC:Soft Skill Development Lecture 12 - Visual Perception
Link NOC:Soft Skill Development Lecture 13 - The Aural : Its relevance and Impact
Link NOC:Soft Skill Development Lecture 14 - The Body and the Way It Communicates
Link NOC:Soft Skill Development Lecture 15 - The Face, Its Expressions and What It Says
Link NOC:Soft Skill Development Lecture 16 - Building Relationships
Link NOC:Soft Skill Development Lecture 17 - Understanding Group Dynamics - I
Link NOC:Soft Skill Development Lecture 18 - Understanding Group Dynamics - II
Link NOC:Soft Skill Development Lecture 19 - Groups, Conflicts and their Resolution
Link NOC:Soft Skill Development Lecture 20 - Social Network, Media and Extending Our Identity
Link NOC:Soft Skill Development Lecture 21 - How Emotionally Mature Are You
Link NOC:Soft Skill Development Lecture 22 - Improving Your Emotional Intelligence
Link NOC:Soft Skill Development Lecture 23 - Empathy
Link NOC:Soft Skill Development Lecture 24 - Intrapersonal Communication
Link NOC:Soft Skill Development Lecture 25 - Change Tolerance
Link NOC:Soft Skill Development Lecture 26 - Creativity : What Does It Mean
Link NOC:Soft Skill Development Lecture 27 - Creativity : A Detailed Exploration
Link NOC:Soft Skill Development Lecture 28 - Creativity : Activities Applied
Link NOC:Soft Skill Development Lecture 29 - Creativity at Workplace
Link NOC:Soft Skill Development Lecture 30 - Creativity, Critical Thinking and Problem Solving
Link NOC:Soft Skill Development Lecture 31 - Motivating Oneself
Link NOC:Soft Skill Development Lecture 32 - The Art of Persuasion - I
Link NOC:Soft Skill Development Lecture 33 - The Art of Persuasion - II
Link NOC:Soft Skill Development Lecture 34 - From Persuasion to Negotiation
Link NOC:Soft Skill Development Lecture 35 - Leadership and Motivating Others
Link NOC:Soft Skill Development Lecture 36 - Managing Time
Link NOC:Soft Skill Development Lecture 37 - Managing Stress
Link NOC:Soft Skill Development Lecture 38 - Resilience
Link NOC:Soft Skill Development Lecture 39 - Work - Life Balance
Link NOC:Soft Skill Development Lecture 40 - Applying Soft Skills to Workplace
Link NOC:Symbolic Logic Lecture 1 - Introduction
Link NOC:Symbolic Logic Lecture 2 - Propositions, Arguments, Components, Basic Characteristics
Link NOC:Symbolic Logic Lecture 3 - Recognizing arguments, Diagramming logic flow
Link NOC:Symbolic Logic Lecture 4 - Types of arguments, Deductive, Inductive, different norms to assess arguments
Link NOC:Symbolic Logic Lecture 5 - Concepts of Validity Soundness, Consistency
Link NOC:Symbolic Logic Lecture 6 - History of Symbolic Language
Link NOC:Symbolic Logic Lecture 7 - Propositional Logic: Syntax
Link NOC:Symbolic Logic Lecture 8 - Connectives, Scope of Connectives
Link NOC:Symbolic Logic Lecture 9 - Truth-functional Connectives, Propositional Variables, Propositional Constants
Link NOC:Symbolic Logic Lecture 10 - Symbolization with Connectives
Link NOC:Symbolic Logic Lecture 11 - Propositional Logic: Semantics Basics of a Truth Table
Link NOC:Symbolic Logic Lecture 12 - Using Truth Table: Tautology, Contradiction, Contingent Propositions
Link NOC:Symbolic Logic Lecture 13 - Using Truth Table: Testing Arguments for Validity and Invalidity
Link NOC:Symbolic Logic Lecture 14 - Shorter Truth Table
Link NOC:Symbolic Logic Lecture 15 - Using Truth Table: Testing a Set of Propositions for consistency and inconsistency, and for logical equivalence
Link NOC:Symbolic Logic Lecture 16 - Introduction to Truth Trees
Link NOC:Symbolic Logic Lecture 17 - Truth Tree Rules and their Application
Link NOC:Symbolic Logic Lecture 18 - More on Truth-Tree Recovery of Partial Truth - Values
Link NOC:Symbolic Logic Lecture 19 - Using the Truth Trees
Link NOC:Symbolic Logic Lecture 20 - More on Truth Trees
Link NOC:Symbolic Logic Lecture 21 - Formal Proof of Validity
Link NOC:Symbolic Logic Lecture 22 - Valid Argument Forms:
Link NOC:Symbolic Logic Lecture 23 - How to Apply the Rules of Inference in a Proof
Link NOC:Symbolic Logic Lecture 24 - Understanding the Rules
Link NOC:Symbolic Logic Lecture 25 - Proofs with All Rules
Link NOC:Symbolic Logic Lecture 26 - Completeness : What it is
Link NOC:Symbolic Logic Lecture 27 - Indirect Proof
Link NOC:Symbolic Logic Lecture 28 - Conditional Proof
Link NOC:Symbolic Logic Lecture 29 - More on Conditional Proof
Link NOC:Symbolic Logic Lecture 30 - More on Derivations
Link NOC:Symbolic Logic Lecture 31 - Limitation of Propositional Logic
Link NOC:Symbolic Logic Lecture 32 - Basic 4 Types of Categorical Propositions
Link NOC:Symbolic Logic Lecture 33 - Understanding Logical Relations in Standard Form Categorical Propositions
Link NOC:Symbolic Logic Lecture 34 - Translating Non-Standard Propositions into Standard Form Categorical Propositions
Link NOC:Symbolic Logic Lecture 35 - Validity and Invalidity of Syllogisms
Link NOC:Symbolic Logic Lecture 36 - First Order Predicate Logic
Link NOC:Symbolic Logic Lecture 37 - Quantifiers
Link NOC:Symbolic Logic Lecture 38 - Scope of a Quantifier Edit Lesson
Link NOC:Symbolic Logic Lecture 39 - Multiple Quantifiers
Link NOC:Symbolic Logic Lecture 40 - Understanding Overlapping Quantifiers Sharing Predicates and Scope
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 1 - Basic of Intellectual Property
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 2 - Introduction to Law
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 3 - Theories of IP
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 4 - Different Forms of IP
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 5 - Different Forms of IP and Applicability of Theory
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 6 - Patent Basic
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 7 - Patent Ability Criteria
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 8 - Non-Patentable Invention
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 9 - Prier-Art Search
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 10 - Patent Filing Procedure
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 11 - Patent Prosecution
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 12 - Patent Prosecution (Continued...)
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 13 - International Patent
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 14 - Patent Infringement
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 15 - Patent Management
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 16 - Utility Model Protection
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 17 - Copyright Basic
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 18 - Copy Right Registration
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 19 - Copyright Infringement and Fair Use
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 20 - Copyright in Digital Media
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 21 - Industrial Design Basic
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 22 - Industrial Design Registration
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 23 - Utility Patent Vs Industrial Design
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 24 - Trademark Basic
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 25 - Trademark Registration
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 26 - Tradmark and Internet
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 27 - Certification Mark and Collective Mark
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 28 - Geographical Indication
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 29 - Economics of GI Edit Lesson
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 30 - Trademark Vs GI Trademark Managment
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 31 - IC Layout Design and Basic
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 32 - IC Layout Design Registration
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 33 - Trade- Secret and Basic
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 34 - Trade-Secret Protection
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 35 - Patent Vs Trade-Secret
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 36 - Plant Variety Protection
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 37 - Bio-diversity
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 38 - Comparative Analysis
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 39 - IP Management
Link NOC:Introduction on Intellectual Property to Engineers and Technologists Lecture 40 - Case - Study on IP Management
Link NOC:Globalization and Culture Lecture 1 - Globalization Definition
Link NOC:Globalization and Culture Lecture 2 - Global Flows and New Media and Technologies
Link NOC:Globalization and Culture Lecture 3 - Globalization and Nation
Link NOC:Globalization and Culture Lecture 4 - Rise of Global Capitalism
Link NOC:Globalization and Culture Lecture 5 - Cultural Imperialism
Link NOC:Globalization and Culture Lecture 6 - Global Monocultures
Link NOC:Globalization and Culture Lecture 7 - Birth of Asian Kool
Link NOC:Globalization and Culture Lecture 8 - Bhangra Reinvention
Link NOC:Globalization and Culture Lecture 9 - Disorienting Bhangra
Link NOC:Globalization and Culture Lecture 10 - The Body of Dance
Link NOC:Globalization and Culture Lecture 11 - World Music I - Tabla
Link NOC:Globalization and Culture Lecture 12 - World Music II - Qawwali
Link NOC:Globalization and Culture Lecture 13 - World Music III - Baul
Link NOC:Globalization and Culture Lecture 14 - Is Chutney the New Rage
Link NOC:Globalization and Culture Lecture 15 - Bollywood Song and Dance
Link NOC:Globalization and Culture Lecture 16 - Planet Bollywood
Link NOC:Globalization and Culture Lecture 17 - Bollywood at Large
Link NOC:Globalization and Culture Lecture 18 - Bollywood Assemblages - Part I
Link NOC:Globalization and Culture Lecture 19 - Bollywood Assemblages - Part II
Link NOC:Globalization and Culture Lecture 20 - Bollywood's Soft Power
Link NOC:Globalization and Culture Lecture 21 - Travels of Dastan
Link NOC:Globalization and Culture Lecture 22 - Scripting the Nation
Link NOC:Globalization and Culture Lecture 23 - Cracking the Nation
Link NOC:Globalization and Culture Lecture 24 - Narrating and Interrogating the Nation
Link NOC:Globalization and Culture Lecture 25 - Cosmopolitans the Borderless World
Link NOC:Globalization and Culture Lecture 26 - Orientalism
Link NOC:Globalization and Culture Lecture 27 - Yoga, Meditation, Gurus
Link NOC:Globalization and Culture Lecture 28 - Beatles, Ravi Shankar and Sitar
Link NOC:Globalization and Culture Lecture 29 - Orientalizing India
Link NOC:Globalization and Culture Lecture 30 - Neoorientalism
Link NOC:Globalization and Culture Lecture 31 - The Birth of Indo-Chic
Link NOC:Globalization and Culture Lecture 32 - Henna, Bindi, Saris and Bangles
Link NOC:Globalization and Culture Lecture 33 - The Taste of Curry
Link NOC:Globalization and Culture Lecture 34 - Global News
Link NOC:Globalization and Culture Lecture 35 - News as Infortainment
Link NOC:Globalization and Culture Lecture 36 - Global Media Cultures
Link NOC:Globalization and Culture Lecture 37 - Cultural Imperialism
Link NOC:Globalization and Culture Lecture 38 - Contraflows in Global Media
Link NOC:Globalization and Culture Lecture 39 - Contraflows in News and Entertainment
Link NOC:Qualitative Research Methods Lecture 1 - Introduction
Link NOC:Qualitative Research Methods Lecture 2 - The Qualitative Researcher
Link NOC:Qualitative Research Methods Lecture 3 - Quantitative vs. Qualitative Research
Link NOC:Qualitative Research Methods Lecture 4 - History of Qualitative Research
Link NOC:Qualitative Research Methods Lecture 5 - The Process of Qualitative Research
Link NOC:Qualitative Research Methods Lecture 6 - Dominant Paradigms of Qualitative Research
Link NOC:Qualitative Research Methods Lecture 7 - Interpretivist Thinking
Link NOC:Qualitative Research Methods Lecture 8 - Verstehen
Link NOC:Qualitative Research Methods Lecture 9 - Constructivism
Link NOC:Qualitative Research Methods Lecture 10 - Properties of Constructions
Link NOC:Qualitative Research Methods Lecture 11 - Constructivism-Sub Paradigms
Link NOC:Qualitative Research Methods Lecture 12 - Criticisms of Interpretivism and Constructivism
Link NOC:Qualitative Research Methods Lecture 13 - Critical Theory
Link NOC:Qualitative Research Methods Lecture 14 - Characteristics of Critical Theory
Link NOC:Qualitative Research Methods Lecture 15 - Critiques of Critical Theory
Link NOC:Qualitative Research Methods Lecture 16 - Introduction to Qualitative Inquiry
Link NOC:Qualitative Research Methods Lecture 17 - Qualitative Research Design
Link NOC:Qualitative Research Methods Lecture 18 - Qualitative Research Design (Continued...)
Link NOC:Qualitative Research Methods Lecture 19 - Ethnography
Link NOC:Qualitative Research Methods Lecture 20 - Autoethnography
Link NOC:Qualitative Research Methods Lecture 21 - Case Studies
Link NOC:Qualitative Research Methods Lecture 22 - Case Studies (Continued...)
Link NOC:Qualitative Research Methods Lecture 23 - Analyzing Interpretive Practice
Link NOC:Qualitative Research Methods Lecture 24 - Analyzing Interpretive Practice (Continued...)
Link NOC:Qualitative Research Methods Lecture 25 - Grounded Theory
Link NOC:Qualitative Research Methods Lecture 26 - Grounded Thoery (Continued...)
Link NOC:Qualitative Research Methods Lecture 27 - Participatory Action Research
Link NOC:Qualitative Research Methods Lecture 28 - Participatory Action Research (Continued...)
Link NOC:Qualitative Research Methods Lecture 29 - Observation
Link NOC:Qualitative Research Methods Lecture 30 - Interviewing
Link NOC:Qualitative Research Methods Lecture 31 - Interviewing (Continued...)
Link NOC:Qualitative Research Methods Lecture 32 - Interpretation of Documents and Material Culture
Link NOC:Qualitative Research Methods Lecture 33 - Autoethnography, Personal Narrative and Reflexivity
Link NOC:Qualitative Research Methods Lecture 34 - Analyzing Visual Data
Link NOC:Qualitative Research Methods Lecture 35 - Analyzing Talk and Text
Link NOC:Qualitative Research Methods Lecture 36 - Data Management and Analysis Methods
Link NOC:Qualitative Research Methods Lecture 37 - Data Management and Analysis Methods (Continued...)
Link NOC:Qualitative Research Methods Lecture 38 - Software and Qualitative Research
Link NOC:Qualitative Research Methods Lecture 39 - The Problem of Criteria
Link NOC:Qualitative Research Methods Lecture 40 - Interpretation
Link NOC:Qualitative Research Methods Lecture 41 - Writing
Link NOC:Qualitative Research Methods Lecture 42 - Writing (Continued...)
Link NOC:Qualitative Research Methods Lecture 43 - Understanding Social Programs through Evaluation
Link NOC:Qualitative Research Methods Lecture 44 - Understanding Social Programs through Evaluation (Continued...)
Link NOC:Qualitative Research Methods Lecture 45 - IInfluencing the Policy Progress with Qualitative Research
Link NOC:Qualitative Research Methods Lecture 46 - Conclusion
Link NOC:Emotional Intelligence Lecture 1 - Introduction to EI and Related Concepts
Link NOC:Emotional Intelligence Lecture 2 - Introduction to EI and Related Concepts (Continued...)
Link NOC:Emotional Intelligence Lecture 3 - Introduction to EI and Related Concepts (Continued...)
Link NOC:Emotional Intelligence Lecture 4 - Introduction to EI and Related Concepts (Continued...)
Link NOC:Emotional Intelligence Lecture 5 - Introduction to Intelligence
Link NOC:Emotional Intelligence Lecture 6 - Meaning, Nature, Scope, Types of Intelligence
Link NOC:Emotional Intelligence Lecture 7 - Measurement of Intelligence
Link NOC:Emotional Intelligence Lecture 8 - Applications
Link NOC:Emotional Intelligence Lecture 9 - Discovery of Emotional Intelligence
Link NOC:Emotional Intelligence Lecture 10 - Meaning, Nature Theory
Link NOC:Emotional Intelligence Lecture 11 - Measurement of EI
Link NOC:Emotional Intelligence Lecture 12 - Difference Between EQ and IQ
Link NOC:Emotional Intelligence Lecture 13 - EQ Assessment
Link NOC:Emotional Intelligence Lecture 14 - EQ and Empathy
Link NOC:Emotional Intelligence Lecture 15 - EQ and Resilience
Link NOC:Emotional Intelligence Lecture 16 - EQ and Health and Wellbeing
Link NOC:Emotional Intelligence Lecture 17 - EQ Map
Link NOC:Emotional Intelligence Lecture 18 - EQ Map (Continued...)
Link NOC:Emotional Intelligence Lecture 19 - EQ Map (Continued...)
Link NOC:Emotional Intelligence Lecture 20 - EQ Map (Continued...)
Link NOC:Emotional Intelligence Lecture 21 - Emotional Intelligence in Education
Link NOC:Emotional Intelligence Lecture 22 - Evaluation of EQ for Students
Link NOC:Emotional Intelligence Lecture 23 - EI New Vision for Learning
Link NOC:Emotional Intelligence Lecture 24 - EQ Skills for Students Success
Link NOC:Emotional Intelligence Lecture 25 - EI in Health and Well Being
Link NOC:Emotional Intelligence Lecture 26 - EI in Health and Well Being (Continued...)
Link NOC:Emotional Intelligence Lecture 27 - EI and Cultural Adjustment
Link NOC:Emotional Intelligence Lecture 28 - EI at Work
Link NOC:Emotional Intelligence Lecture 29 - Emotional Intelligence and Happiness Positive Psychology
Link NOC:Emotional Intelligence Lecture 30 - Emotional Intelligence and Happiness Positive Psychology (Continued...)
Link NOC:Emotional Intelligence Lecture 31 - Emotional Intelligence and Happiness Positive Psychology (Continued...)
Link NOC:Emotional Intelligence Lecture 32 - Emotional Intelligence and Happiness Positive Psychology (Continued...)
Link NOC:Emotional Intelligence Lecture 33 - Emotional Intelligence and Leadership
Link NOC:Emotional Intelligence Lecture 34 - Emotional Intelligence an Leadership (Continued...)
Link NOC:Emotional Intelligence Lecture 35 - Emotional Intelligence an Leadership (Continued...)
Link NOC:Emotional Intelligence Lecture 36 - Emotional Intelligence an Leadership (Continued...)
Link NOC:Emotional Intelligence Lecture 37 - Culture and Emotion
Link NOC:Emotional Intelligence Lecture 38 - Role of EI
Link NOC:Emotional Intelligence Lecture 39 - Cultural Intelligence
Link NOC:Emotional Intelligence Lecture 40 - Emotional Intelligence for Cross Cultural Adaptability
Link NOC:Speaking Effectively Lecture 1 - Introduction, The Art of Speakihg
Link NOC:Speaking Effectively Lecture 2 - Encoding Meaning Using Verbal and Nonverbal Symbols
Link NOC:Speaking Effectively Lecture 3 - Encoding Meaning Using Verbal Symbols
Link NOC:Speaking Effectively Lecture 4 - The Power of words
Link NOC:Speaking Effectively Lecture 5 - Cross Cultural Factors in Communication Verbal and Nonverbal
Link NOC:Speaking Effectively Lecture 6 - Metacommunication: Nature, Function and Types of Nonverbal Communication - I
Link NOC:Speaking Effectively Lecture 7 - Metacommunication: Nature, Function and Types of Nonverbal Communication - II
Link NOC:Speaking Effectively Lecture 8 - How to Improve Body Language I - Eye Communication, Facial Expression, Gesture Posture and Movements
Link NOC:Speaking Effectively Lecture 9 - How to Improve Body Language II - Dress and Appearance Paralanguage
Link NOC:Speaking Effectively Lecture 10 - Role Plays and Activities
Link NOC:Speaking Effectively Lecture 11 - Politics of English
Link NOC:Speaking Effectively Lecture 12 - Concept of Standard Language
Link NOC:Speaking Effectively Lecture 13 - Sounds of English: Vowels
Link NOC:Speaking Effectively Lecture 14 - Sounds of English: Diphthongs and Consonants
Link NOC:Speaking Effectively Lecture 15 - Stress and Rhythm
Link NOC:Speaking Effectively Lecture 16 - Speaking Voice
Link NOC:Speaking Effectively Lecture 17 - Speaking Delivery
Link NOC:Speaking Effectively Lecture 18 - How to Improve Voice
Link NOC:Speaking Effectively Lecture 19 - How to Improve Delivery
Link NOC:Speaking Effectively Lecture 20 - Conversation Skills
Link NOC:Speaking Effectively Lecture 21 - Conversation Skills (Continued...)
Link NOC:Speaking Effectively Lecture 22 - Conversation Skills (Continued...)
Link NOC:Speaking Effectively Lecture 23 - Conversation Skills (Continued...)
Link NOC:Speaking Effectively Lecture 24 - Conversation Skills (Continued...)
Link NOC:Speaking Effectively Lecture 25 - Planning a Presentation
Link NOC:Speaking Effectively Lecture 26 - How to Get Over Your Fear of Speaking and Take Control
Link NOC:Speaking Effectively Lecture 27 - Delivering a Presentation
Link NOC:Speaking Effectively Lecture 28 - Language of Presentation
Link NOC:Speaking Effectively Lecture 29 - Analysis of a Presentation
Link NOC:Speaking Effectively Lecture 30 - How to Lead a Meeting
Link NOC:Speaking Effectively Lecture 31 - How to Contribute Effectively to a Meeting
Link NOC:Speaking Effectively Lecture 32 - How to Speak Effectively in Meetings
Link NOC:Speaking Effectively Lecture 33 - Meetings, Behaviour and Roles
Link NOC:Speaking Effectively Lecture 34 - Role Play: Meeting
Link NOC:Speaking Effectively Lecture 35 - Different Kind of Interviews
Link NOC:Speaking Effectively Lecture 36 - Preparing for an Interview
Link NOC:Speaking Effectively Lecture 37 - How to Face an Interview
Link NOC:Speaking Effectively Lecture 38 - How to Speak in an Interview
Link NOC:Speaking Effectively Lecture 39 - Role Play
Link NOC:Great Experiments in Psychology Lecture 1 - History and Origin of Psychology
Link NOC:Great Experiments in Psychology Lecture 2 - Establishing Psychology as a Science
Link NOC:Great Experiments in Psychology Lecture 3 - Establishing Psychology as a Science (Continued...)
Link NOC:Great Experiments in Psychology Lecture 4 - A New Psychology
Link NOC:Great Experiments in Psychology Lecture 5 - Structuralism and Beyond
Link NOC:Great Experiments in Psychology Lecture 6 - Herman Ebbinghaus on Memory
Link NOC:Great Experiments in Psychology Lecture 7 - Reconstruction of an Automobile Destruction - An Example of the Interactin between Language and Memory
Link NOC:Great Experiments in Psychology Lecture 8 - Emotionality and Perceptual Defence
Link NOC:Great Experiments in Psychology Lecture 9 - Festinger's Cognitive Dissonance Theory
Link NOC:Great Experiments in Psychology Lecture 10 - Milgram's Study on Obedience
Link NOC:Great Experiments in Psychology Lecture 11 - Case Studies and Experiments in Clinical and Health Psychology
Link NOC:Great Experiments in Psychology Lecture 12 - Obsessive Compulsive Disorder
Link NOC:Great Experiments in Psychology Lecture 13 - A Case of Multiple Personality
Link NOC:Great Experiments in Psychology Lecture 14 - The Story of Dibs
Link NOC:Great Experiments in Psychology Lecture 15 - On Being Sane in Insane Places
Link NOC:Great Experiments in Psychology Lecture 16
Link NOC:Great Experiments in Psychology Lecture 17
Link NOC:Great Experiments in Psychology Lecture 18
Link NOC:Great Experiments in Psychology Lecture 19
Link NOC:Great Experiments in Psychology Lecture 20
Link NOC:Human Resource Development Lecture 1 - Introduction to HRD
Link NOC:Human Resource Development Lecture 2 - Introduction to HRD (Continued...)
Link NOC:Human Resource Development Lecture 3 - Introduction to HRD (Continued...)
Link NOC:Human Resource Development Lecture 4 - Introduction to HRD (Continued...)
Link NOC:Human Resource Development Lecture 5 - Introduction to HRD (Continued...)
Link NOC:Human Resource Development Lecture 6 - The Context of HRD
Link NOC:Human Resource Development Lecture 7 - The Context of HRD (Continued...)
Link NOC:Human Resource Development Lecture 8 - The Context of HRD (Continued...)
Link NOC:Human Resource Development Lecture 9 - The Context of HRD (Continued...)
Link NOC:Human Resource Development Lecture 10 - The Context of HRD (Continued...)
Link NOC:Human Resource Development Lecture 11 - HRD Process - I
Link NOC:Human Resource Development Lecture 12 - HRD Process - I (Continued...)
Link NOC:Human Resource Development Lecture 13 - HRD Process - I (Continued...)
Link NOC:Human Resource Development Lecture 14 - HRD Process - I (Continued...)
Link NOC:Human Resource Development Lecture 15 - HRD Process - I (Continued...)
Link NOC:Human Resource Development Lecture 16 - HRD Process - II
Link NOC:Human Resource Development Lecture 17 - HRD Process - II (Continued...)
Link NOC:Human Resource Development Lecture 18 - HRD Process - II (Continued...)
Link NOC:Human Resource Development Lecture 19 - HRD Process - II (Continued...)
Link NOC:Human Resource Development Lecture 20 - HRD Process - II (Continued...)
Link NOC:Human Resource Development Lecture 21 - Coaching
Link NOC:Human Resource Development Lecture 22 - Coaching (Continued...)
Link NOC:Human Resource Development Lecture 23 - Coaching (Continued...)
Link NOC:Human Resource Development Lecture 24 - Coaching (Continued...)
Link NOC:Human Resource Development Lecture 25 - Coaching (Continued...)
Link NOC:Human Resource Development Lecture 26 - Mentoring
Link NOC:Human Resource Development Lecture 27 - Mentoring (Continued...)
Link NOC:Human Resource Development Lecture 28 - Mentoring (Continued...)
Link NOC:Human Resource Development Lecture 29 - Mentoring (Continued...)
Link NOC:Human Resource Development Lecture 30 - Mentoring (Continued...)
Link NOC:Human Resource Development Lecture 31 - Employee Counseling and Wellbeing
Link NOC:Human Resource Development Lecture 32 - Employee Counseling and Wellbeing (Continued...)
Link NOC:Human Resource Development Lecture 33 - Employee Counseling and Wellbeing (Continued...)
Link NOC:Human Resource Development Lecture 34 - Employee Counseling and Wellbeing (Continued...)
Link NOC:Human Resource Development Lecture 35 - Employee Counseling and Wellbeing (Continued...)
Link NOC:Human Resource Development Lecture 36 - Competency Mapping Approach to HRD
Link NOC:Human Resource Development Lecture 37 - Competency Mapping Approach to HRD (Continued...)
Link NOC:Human Resource Development Lecture 38 - Competency Mapping Approach to HRD (Continued...)
Link NOC:Human Resource Development Lecture 39 - Competency Mapping Approach to HRD (Continued...)
Link NOC:Human Resource Development Lecture 40 - Competency Mapping Approach to HRD (Continued...)
Link NOC:Human Resource Development Lecture 41 - Career Planning and Development
Link NOC:Human Resource Development Lecture 42 - Career Planning and Development (Continued...)
Link NOC:Human Resource Development Lecture 43 - Career Planning and Development (Continued...)
Link NOC:Human Resource Development Lecture 44 - Career Planning and Development (Continued...)
Link NOC:Human Resource Development Lecture 45 - Career Planning and Development (Continued...)
Link NOC:Human Resource Development Lecture 46 - Intellectual Capital Management
Link NOC:Human Resource Development Lecture 47 - Intellectual Capital Management (Continued...)
Link NOC:Human Resource Development Lecture 48 - Intellectual Capital Management (Continued...)
Link NOC:Human Resource Development Lecture 49 - Intellectual Capital Management (Continued...)
Link NOC:Human Resource Development Lecture 50 - Intellectual Capital Management (Continued...)
Link NOC:Human Resource Development Lecture 51 - HRD, Organizational Learning, and Learning Organization
Link NOC:Human Resource Development Lecture 52 - HRD, Organizational Learning, and Learning Organization (Continued...)
Link NOC:Human Resource Development Lecture 53 - HRD, Organizational Learning, and Learning Organization (Continued...)
Link NOC:Human Resource Development Lecture 54 - HRD, Organizational Learning, and Learning Organization (Continued...)
Link NOC:Human Resource Development Lecture 55 - HRD, Organizational Learning, and Learning Organization (Continued...)
Link NOC:Human Resource Development Lecture 56 - Diversity, HRD Ethics, and Future of HRD
Link NOC:Human Resource Development Lecture 57 - Diversity, HRD Ethics, and Future of HRD (Continued...)
Link NOC:Human Resource Development Lecture 58 - Diversity, HRD Ethics, and Future of HRD (Continued...)
Link NOC:Human Resource Development Lecture 59 - Diversity, HRD Ethics, and Future of HRD (Continued...)
Link NOC:Human Resource Development Lecture 60 - Diversity, HRD Ethics, and Future of HRD (Continued...)
Link NOC:Educational Leadership Lecture 1 - Educational Management and Leadership
Link NOC:Educational Leadership Lecture 2 - Key Challenges for Educational Leaders
Link NOC:Educational Leadership Lecture 3 - Key Challenges for Educational Leaders (Continued...)
Link NOC:Educational Leadership Lecture 4 - Key Challenges for Educational Leaders (Continued...)
Link NOC:Educational Leadership Lecture 5 - Key Challenges for Educational Leaders (Continued...)
Link NOC:Educational Leadership Lecture 6 - Professional Development and The Reflective Practitioner
Link NOC:Educational Leadership Lecture 7 - Professional Development and The Reflective Practitioner (Continued...)
Link NOC:Educational Leadership Lecture 8 - Professional Development and The Reflective Practitioner (Continued...)
Link NOC:Educational Leadership Lecture 9 - Professional Development and The Reflective Practitioner (Continued...)
Link NOC:Educational Leadership Lecture 10 - Professional Development and The Reflective Practitioner (Continued...)
Link NOC:Educational Leadership Lecture 11 - Professional Ethics and Values in Teaching
Link NOC:Educational Leadership Lecture 12 - Professional Ethics and Values in Teaching (Continued...)
Link NOC:Educational Leadership Lecture 13 - Professional Ethics and Values in Teaching (Continued...)
Link NOC:Educational Leadership Lecture 14 - Emotional Intelligence and Educational Leadership
Link NOC:Educational Leadership Lecture 15 - Emotional Intelligence and Educational Leadership (Continued...)
Link NOC:Educational Leadership Lecture 16 - Emotional Intelligence and Educational Leadership (Continued...)
Link NOC:Educational Leadership Lecture 17 - Emotional Intelligence and Educational Leadership (Continued...)
Link NOC:Educational Leadership Lecture 18 - Managing Diversity and Inclusion
Link NOC:Educational Leadership Lecture 19 - Managing Diversity and Inclusion (Continued...)
Link NOC:Educational Leadership Lecture 20 - Managing Diversity and Inclusion (Continued...)
Link NOC:Educational Leadership Lecture 21 - Managing Diversity and Inclusion (Continued...)
Link NOC:Educational Leadership Lecture 22 - Managing Diversity and Inclusion (Continued...)
Link NOC:Educational Leadership Lecture 23 - Educational Research and Pedagogy
Link NOC:Educational Leadership Lecture 24 - Educational Research and Pedagogy (Continued...)
Link NOC:Educational Leadership Lecture 25 - Educational Research and Pedagogy (Continued...)
Link NOC:Educational Leadership Lecture 26 - Educational Research and Pedagogy (Continued...)
Link NOC:Educational Leadership Lecture 27 - Educational Research and Pedagogy (Continued...)
Link NOC:Educational Leadership Lecture 28 - Innovative Pedagogy and Technology for Learning
Link NOC:Educational Leadership Lecture 29 - Innovative Pedagogy and Technology for Learning (Continued...)
Link NOC:Educational Leadership Lecture 30 - Innovative Pedagogy and Technology for Learning (Continued...)
Link NOC:Educational Leadership Lecture 31 - Innovative Pedagogy and Technology for Learning (Continued...)
Link NOC:Educational Leadership Lecture 32 - Innovative Pedagogy and Technology for Learning (Continued...)
Link NOC:Educational Leadership Lecture 33 - Innovative Pedagogy and Technology for Learning (Continued...)
Link NOC:Educational Leadership Lecture 34 - Innovative Pedagogy and Technology for Learning (Continued...)
Link NOC:Educational Leadership Lecture 35 - Turnaround Leadership and Educational Entrepreneurship
Link NOC:Educational Leadership Lecture 36 - Turnaround Leadership and Educational Entrepreneurship (Continued...)
Link NOC:Educational Leadership Lecture 37 - Turnaround Leadership and Educational Entrepreneurship (Continued...)
Link NOC:Educational Leadership Lecture 38 - Turnaround Leadership and Educational Entrepreneurship (Continued...)
Link NOC:Strategic Performance Management Lecture 1 - Introduction to Performance management
Link NOC:Strategic Performance Management Lecture 2 - Aim and purpose of performance management
Link NOC:Strategic Performance Management Lecture 3 - Characteristics of an effective PM system
Link NOC:Strategic Performance Management Lecture 4 - Performance Management Process
Link NOC:Strategic Performance Management Lecture 5 - Role of PM in employee development and identification of Key performance areas
Link NOC:Strategic Performance Management Lecture 6 - Understanding performance planning
Link NOC:Strategic Performance Management Lecture 7 - Strategic Planning and performance
Link NOC:Strategic Performance Management Lecture 8 - Strategic planning and performance - 2
Link NOC:Strategic Performance Management Lecture 9 - Strategic planning and performance - 3
Link NOC:Strategic Performance Management Lecture 10 - Strategy and performance alignment
Link NOC:Strategic Performance Management Lecture 11 - Performance dimensions: Task and context
Link NOC:Strategic Performance Management Lecture 12 - Behavior, result and trait approach system
Link NOC:Strategic Performance Management Lecture 13 - Measuring behavior and results
Link NOC:Strategic Performance Management Lecture 14 - Measurement system
Link NOC:Strategic Performance Management Lecture 15 - Collecting information in performance management
Link NOC:Strategic Performance Management Lecture 16 - Implementing PM System
Link NOC:Strategic Performance Management Lecture 17 - Implementing PMS (2)
Link NOC:Strategic Performance Management Lecture 18 - Self appraisal
Link NOC:Strategic Performance Management Lecture 19 - Managing team performance
Link NOC:Strategic Performance Management Lecture 20 - 360 degree appraisal
Link NOC:Strategic Performance Management Lecture 21 - Performance Management Skill
Link NOC:Strategic Performance Management Lecture 22 - Performance Management and Employee Development
Link NOC:Strategic Performance Management Lecture 23 - Coaching for performance improvement
Link NOC:Strategic Performance Management Lecture 24 - Coaching process,analysis and techniques
Link NOC:Strategic Performance Management Lecture 25 - Coching skills for managers and evaluation
Link NOC:Strategic Performance Management Lecture 26 - Performance Review
Link NOC:Strategic Performance Management Lecture 27 - Performance Review (Continued...)
Link NOC:Strategic Performance Management Lecture 28 - Performance review Discussion
Link NOC:Strategic Performance Management Lecture 29 - Performance Analysis
Link NOC:Strategic Performance Management Lecture 30 - Use of performance management data for HR decision making
Link NOC:Strategic Performance Management Lecture 31 - Potential Appraisal 1
Link NOC:Strategic Performance Management Lecture 32 - Potential Appraisal 2
Link NOC:Strategic Performance Management Lecture 33 - Reward system 1
Link NOC:Strategic Performance Management Lecture 34 - Reward system 2
Link NOC:Strategic Performance Management Lecture 35 - Performance Management and Legal System
Link NOC:Strategic Performance Management Lecture 36 - PMS in Indian Organisations
Link NOC:Strategic Performance Management Lecture 37 - Culture and Performance Management
Link NOC:Strategic Performance Management Lecture 38 - Technology and Performance Management
Link NOC:Strategic Performance Management Lecture 39 - PMS in Select Indian Companies
Link NOC:Strategic Performance Management Lecture 40 - Future of Performance Management
Link NOC:Introduction to Basic Spoken Sanskrit Lecture 1 - Introduction
Link NOC:Introduction to Basic Spoken Sanskrit Lecture 2 - The Sounds of Sanskrit: Its Alphabet
Link NOC:Introduction to Basic Spoken Sanskrit Lecture 3 - Sentence Construction and its underlying logic
Link NOC:Introduction to Basic Spoken Sanskrit Lecture 4 - Introduction of Self and Others
Link NOC:Introduction to Basic Spoken Sanskrit Lecture 5 - Basic Verbs and Some Conjugations
Link NOC:Introduction to Basic Spoken Sanskrit Lecture 6 - Introduction to the Genitive (6th) Case
Link NOC:Introduction to Basic Spoken Sanskrit Lecture 7 - Counting and Reading the Time
Link NOC:Introduction to Basic Spoken Sanskrit Lecture 8 - Plural of Pronouns and Nouns
Link NOC:Introduction to Basic Spoken Sanskrit Lecture 9 - Conjugation of Basic Verbs in the Plural
Link NOC:Introduction to Basic Spoken Sanskrit Lecture 10 - Introduction to the Locative (7th) Case
Link NOC:Introduction to Basic Spoken Sanskrit Lecture 11 - Days of the Week, Months, Future Tense
Link NOC:Introduction to Basic Spoken Sanskrit Lecture 12 - Past Tense and More Verbs
Link NOC:Introduction to Basic Spoken Sanskrit Lecture 13 - Introduction to the Accusative (2nd) Case
Link NOC:Introduction to Basic Spoken Sanskrit Lecture 14 - Continuation of the Accusative (2nd) Case
Link NOC:Introduction to Basic Spoken Sanskrit Lecture 15 - Introduction to the Instrumental (3rd) Case
Link NOC:Introduction to Basic Spoken Sanskrit Lecture 16 - Continuation of the Instrumental (3rd) Case
Link NOC:Introduction to Basic Spoken Sanskrit Lecture 17 - Introduction to the Ablative (5th) Case
Link NOC:Introduction to Basic Spoken Sanskrit Lecture 18 - Introduction to the Dative (4th) Case
Link NOC:Introduction to Basic Spoken Sanskrit Lecture 19 - Introduction to the Vocative (8th) Case
Link NOC:Introduction to Basic Spoken Sanskrit Lecture 20 - Overview and Conclusion
Link NOC:Water, Society and Sustainability Lecture 1 - Setting the Context
Link NOC:Water, Society and Sustainability Lecture 2 - Beyond Hydrology
Link NOC:Water, Society and Sustainability Lecture 3 - Socio Hydrology
Link NOC:Water, Society and Sustainability Lecture 4 - Political Ecology of Water
Link NOC:Water, Society and Sustainability Lecture 5 - Hydrosocial
Link NOC:Water, Society and Sustainability Lecture 6 - Critical Physical Geography (CPG)
Link NOC:Water, Society and Sustainability Lecture 7 - The South Asian Context
Link NOC:Water, Society and Sustainability Lecture 8 - Water Harvesting and Water Use Techniques in Ancient India - 1
Link NOC:Water, Society and Sustainability Lecture 9 - Water Harvesting and Water Use Techniques in Ancient India - 2
Link NOC:Water, Society and Sustainability Lecture 10 - Water Harvesting and Water Use Techniques in Ancient India - 3
Link NOC:Water, Society and Sustainability Lecture 11 - Water Technology in Medieval India - 1
Link NOC:Water, Society and Sustainability Lecture 12 - Water Technology in Medieval India - 2
Link NOC:Water, Society and Sustainability Lecture 13 - Colonial Hydrology
Link NOC:Water, Society and Sustainability Lecture 14 - Dams and Development in Contemporary India
Link NOC:Water, Society and Sustainability Lecture 15 - The Farakka Barrage Project: Historical and Technical Details
Link NOC:Water, Society and Sustainability Lecture 16 - The FarakkaBarrage Project: Socio-environmental Implicationss
Link NOC:Water, Society and Sustainability Lecture 17 - Urban Waters: Historical and Political Ecological Perspectives
Link NOC:Water, Society and Sustainability Lecture 18 - Peri-urban Water Justice in the Global South
Link NOC:Water, Society and Sustainability Lecture 19 - Transforming Trajectories of Blue Infrastructures of Kolkata
Link NOC:Water, Society and Sustainability Lecture 20 - Discussion and Conclusion
Link NOC:Employment Communication A Lab based course Lecture 1 - Introduction to Employment Communication - A Lab based Course
Link NOC:Employment Communication A Lab based course Lecture 2 - Communication - An Introduction
Link NOC:Employment Communication A Lab based course Lecture 3 - Communication Skills at the Workplace
Link NOC:Employment Communication A Lab based course Lecture 4 - Verbal Communication - Introduction
Link NOC:Employment Communication A Lab based course Lecture 5 - Verbal Communication (Continued...)
Link NOC:Employment Communication A Lab based course Lecture 6 - Non-verbal Communication - Introduction
Link NOC:Employment Communication A Lab based course Lecture 7 - Non-verbal Communication - Conclusion
Link NOC:Employment Communication A Lab based course Lecture 8 - Inter Cultural Communication - Introduction
Link NOC:Employment Communication A Lab based course Lecture 9 - Inter Cultural Communication - Conclusion
Link NOC:Employment Communication A Lab based course Lecture 10 - Practice Session 0
Link NOC:Employment Communication A Lab based course Lecture 11 - Body Language - Introduction
Link NOC:Employment Communication A Lab based course Lecture 12 - Body Language - Conclusion
Link NOC:Employment Communication A Lab based course Lecture 13 - Listening Skills - Introduction
Link NOC:Employment Communication A Lab based course Lecture 14 - Listening Skills - Conclusion
Link NOC:Employment Communication A Lab based course Lecture 15 - Practice Session 1
Link NOC:Employment Communication A Lab based course Lecture 16 - Body Language
Link NOC:Employment Communication A Lab based course Lecture 17 - Introduction to the Employment Process
Link NOC:Employment Communication A Lab based course Lecture 18 - Listening Skills
Link NOC:Employment Communication A Lab based course Lecture 19 - Introduction to CV Writing
Link NOC:Employment Communication A Lab based course Lecture 20 - Samples of Good CVs and Cover Letter
Link NOC:Employment Communication A Lab based course Lecture 21 - The Cover Letter
Link NOC:Employment Communication A Lab based course Lecture 22 - CV Writing Lab Session - I
Link NOC:Employment Communication A Lab based course Lecture 23 - CV Writing Lab Session - II
Link NOC:Employment Communication A Lab based course Lecture 24 - Fundamentals of Group Discussions (GDs)
Link NOC:Employment Communication A Lab based course Lecture 25 - Strategies for Success in GDs
Link NOC:Employment Communication A Lab based course Lecture 26 - Group Discussions Lab - Practice Session I
Link NOC:Employment Communication A Lab based course Lecture 27 - Group Discussions Lab - Practice Session II
Link NOC:Employment Communication A Lab based course Lecture 28 - Group Discussions Lab - Practice Session III
Link NOC:Employment Communication A Lab based course Lecture 29 - Group Discussions Lab - Practice Session IV
Link NOC:Employment Communication A Lab based course Lecture 30 - Interviewing for Employment
Link NOC:Employment Communication A Lab based course Lecture 31 - Preparing for the Personal Interview
Link NOC:Employment Communication A Lab based course Lecture 32 - PI Practice Session - I
Link NOC:Employment Communication A Lab based course Lecture 33 - PI Practice Session - II
Link NOC:Employment Communication A Lab based course Lecture 34 - PI Practice Session - III
Link NOC:Employment Communication A Lab based course Lecture 35 - PI Practice Session - IV
Link NOC:Employment Communication A Lab based course Lecture 36 - Tackling Questions during Personal Interviews (PIs)
Link NOC:Employment Communication A Lab based course Lecture 37 - Success in Personal Interviews (PIs)
Link NOC:Employment Communication A Lab based course Lecture 38 - Life Skills Lab and Student Speak
Link NOC:Employment Communication A Lab based course Lecture 39 - Life Skills
Link NOC:Employment Communication A Lab based course Lecture 40 - Course Wrap Up
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 1 - Introduction to the devanāgarī script: varṇamālā or alphabet
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 2 - Introduction to the devanāgarī script: combining consonants
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 3 - Revision and practice of vibhakti - declension forms: masculine words
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 4 - Revision and practice of vibhakti - declension forms: feminine words
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 5 - Revision and practice of vibhakti - declension forms: neuter words
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 6 - Revision and practice of vibhakti - declension forms: first and second person pronouns in the singular
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 7 - Introduction to the first and second person pronouns in the plural forms - Part 1
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 8 - Revision and practice of the first and second person pronouns in the plural - Part 2
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 9 - Introduction of the first person pronoun in the dual form - Part 1
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 10 - Introduction of the first person pronoun in the dual form - Part 2
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 11 - Introduction of the second person pronoun in the dual form - Part 1
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 12 - Introduction of the second person pronoun in the dual form - Part 2
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 13 - Third person pronouns and nouns (m/f) in the plural - Part 1
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 14 - Third person pronouns and nouns (m/f) in the plural - Part 2
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 15 - Third person pronouns and nouns (m/f) in the plural - Part 3
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 16 - Third person pronouns and nouns (m/n/f) in the plural - Part 4
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 17 - Third person pronouns and nouns (m/n/f) in the plural - Part 5
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 18 - Revision and Exercises: third person pronouns and nouns (m/n/f) in the plural
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 19 - Third person pronouns and nouns (m/n/f) in the dual - Part 1
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 20 - Third person pronouns and nouns (m/n/f) in the dual - Part 2
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 21 - Third person pronouns and nouns (m/n/f) in the dual - Part 3
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 22 - Third person pronouns and nouns (m/n/f) in the dual - Part 4
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 23 - Third person pronouns and nouns (m/n/f) in the dual - Part 5
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 24 - Revision of the third person pronouns and nouns (m/n) in the dual - Part 1
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 25 - Revision of the third person pronouns and nouns (f) in the dual - Part 2
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 26 - Introduction to the verb conjugations in the kriyātipatti-lṛṅ (the conditional)
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 27 - Introduction to the verb conjugations in the vidhi-liṅ (the optative)
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 28 - Introduction to the conjugation of ‘as’ (to be) from the adādigaṇa (2nd group) in the various tenses and moods
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 29 - Introduction to the conjugation of the verb ‘dā’ (to give) from the juhotyādigaṇa (3rd group) in the various tenses and moods
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 30 - Introduction to the conjugation of the verb ‘div’ (to shine, to sport) and ‘vid’ (to know) from the divādigaṇa (4th group)
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 31 - Introduction to the conjugation of the verb ‘śru’ (to hear) from the svādigaṇa (5th group) in the various tenses and moods
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 32 - Introduction to the conjugation of the verb from the kṛ (to do) from the tanādigaṇa (8th group) in the various tenses and moods
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 33 - Introduction to the conjugation of the verb 'mil' (to meet) from the tudādigaṇa (6th group) in the various tenses and moods
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 34 - Introduction to the conjugation of the verb 'bhuj' (to protect) from the rudhādigaṇa (7th group) in the various tenses and moods
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 35 - Introduction to the conjugation of the verb ‘jñā’ (to know) from the kryādigaṇa (9th group) in the various tenses and moods
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 36 - Introduction of nouns (m) ending with ‘u’ and ‘i’ in the three vacanas
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 37 - Introduction of nouns (n) ending with ‘u’ and ‘i’ in the three vacanas
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 38 - Introduction of nouns (f) ending with ‘u’ and ‘i’ in the three vacanas
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 39 - Introduction of nouns (m) ending with ‘in’ and of nouns (n/f) ending with ‘n’ in the three vacanas
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 40 - Introduction of nouns (m/n/f) ending with ‘t’ in the three vacanas
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 41 - Introduction of nouns (m/f/n) ending with ‘ṛ’ in the three vacanas
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 42 - Introduction to the svarasandhi
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 43 - Introduction to the visargasandhi
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 44 - Introduction to the vyañjanasandhi
Link NOC:Intermediate Level of Spoken Sanskrit Lecture 45 - Summary and Conclusion
Link Aspects of Western Philosophy Lecture 1 - Greek Philosophy: Ionians, Pythagoras, Parmenides, Heraclitus and Democritus
Link Aspects of Western Philosophy Lecture 2 - Sophists, Socrates; philosophy of man; relativism and subjectivism; the idea of good
Link Aspects of Western Philosophy Lecture 3 - Platos idealism: theory of ideas
Link Aspects of Western Philosophy Lecture 4 - Plato: theory of knowledge, method of dialectic; theory of soul
Link Aspects of Western Philosophy Lecture 5 - Aristotles criticism of Platonic idealism and the concepts of Form and Matter
Link Aspects of Western Philosophy Lecture 6 - Aristotles theory of causation; potentiality and actuality
Link Aspects of Western Philosophy Lecture 7 - Medieval philosophy: St. Augustine and the Problem of evil; St. Thomas Aquinass concepts of faith and reason; proofs for the existence of God.
Link Aspects of Western Philosophy Lecture 8 - Modern Philosophy: mail characteristic features; renaissance and scientific revolution; rationalism and empiricism: main features.
Link Aspects of Western Philosophy Lecture 9 - Descartes: the method in philosophy; the concepts of doubt and indubitable knowledge.
Link Aspects of Western Philosophy Lecture 10 - Descartes: the mind-body dualism; the concept of God and proofs for Gods existence
Link Aspects of Western Philosophy Lecture 11 - Spinoza: the concepts of Substance, attributes and modes.
Link Aspects of Western Philosophy Lecture 12 - Spinozas pantheism-God and nature
Link Aspects of Western Philosophy Lecture 13 - Leibniz: Monadology; the mind-body problem revisited; concept of God; the concept of pre-established harmony
Link Aspects of Western Philosophy Lecture 14 - The empiricism of John Locke: ideas and their classification; refutation of innate ideas
Link Aspects of Western Philosophy Lecture 15 - John Locke: theory of knowledge; concept of substance; the primary and secondary qualities
Link Aspects of Western Philosophy Lecture 16 - Berkeley: the refutation of the distinction between primary and secondary qualities, immaterialism
Link Aspects of Western Philosophy Lecture 17 - Berkeleys critique of abstract ideas, esse est percipi, the problem of solipsism; God and self
Link Aspects of Western Philosophy Lecture 18 - Hume : Impressions and ideas, knowledge concerning relations of ideas and knowledge concerning matters of fact, induction and causality.
Link Aspects of Western Philosophy Lecture 19 - The external world and the self, personal identity, rejection of metaphysics, scepticism, reason and the passions.
Link Aspects of Western Philosophy Lecture 20 - Critical Philosophy: characteristic features; kantd objectives: the classification of judgements, possibility of synthetic a priori judgements, the Copernican revolution
Link Aspects of Western Philosophy Lecture 21 - Kant: forms of sensibility, categories of understanding; the process of knowledge acquisition; phenomenon and noumenon,
Link Aspects of Western Philosophy Lecture 22 - The Ideas of Reason-soul, God and world as a whole; antinomies; rejection of speculative metaphysics.
Link Aspects of Western Philosophy Lecture 23 - Kants ethics; freedom and immortality, problems with Kant.
Link Aspects of Western Philosophy Lecture 24 - Hegel : The conception of Geist (spirit), the dialectical method, concepts of being, non-being and becoming,
Link Aspects of Western Philosophy Lecture 25 - Absolute idealism; consciousness, self consciousness and reason.
Link Aspects of Western Philosophy Lecture 26 - Karl Marx: historical materialism; the significance of the proletariat; the base structure-superstructure division.
Link Aspects of Western Philosophy Lecture 27 - Nietzsche : Critique of western culture, religion and morality; will to power; the idea of superman.
Link Aspects of Western Philosophy Lecture 28 - Linguistic turn in British philosophy: Russells logical atomism and the refutation of idealism.
Link Aspects of Western Philosophy Lecture 29 - Wittgenstein : early Wittgensteins conception of language and reality; the picture theory of meaning
Link Aspects of Western Philosophy Lecture 30 - Later Wittgensteins conception of language games and forms of life; meaning and use.
Link Aspects of Western Philosophy Lecture 31 - Logical positivism; against metaphysics and a scientific conception of philosophy; the limitation of logical positivism
Link Aspects of Western Philosophy Lecture 32 - Husserl : Phenomenology and the methods of reduction; the principle of intentionality.
Link Aspects of Western Philosophy Lecture 33 - Phenomenological reduction, eidetic reduction and transcendental reduction; transcendental subjectivity; the pure subject.
Link Aspects of Western Philosophy Lecture 34 - Heidegger : phenomenological hermeneutics; concept of Being; man as being-in-the-world; destruction of the western intellectual tradition.
Link Aspects of Western Philosophy Lecture 35 - Authentic and inauthentic existence; Truth as disclosure
Link Aspects of Western Philosophy Lecture 36 - Existentialism: main features; existence precedes essence; freedom and responsibility; finiteness and situatedness of human existence
Link Aspects of Western Philosophy Lecture 37 - Sartres conception of human existence; man is condemned to be free; rejection of essentialism
Link Aspects of Western Philosophy Lecture 38 - The concept of being-in-itself, being-for-itself and being-for-others
Link Aspects of Western Philosophy Lecture 39 - Postmodernism: major trends and chief characteristic features; conceptions of human subject; different postmodern approaches
Link Aspects of Western Philosophy Lecture 40 - Deconstruction, feminism, discourse theory etc.
Link Contemporary Literature Lecture 1 - Introduction to Drama
Link Contemporary Literature Lecture 2 - Harold Pinter
Link Contemporary Literature Lecture 3 - The Dumb Waiter
Link Contemporary Literature Lecture 4 - The Dumb Waiter (Continued...)
Link Contemporary Literature Lecture 5 - Six Degrees of Separation
Link Contemporary Literature Lecture 6 - Six Degrees of Separation
Link Contemporary Literature Lecture 7 - Six Degrees of Separation
Link Contemporary Literature Lecture 8 - Six Degrees of Separation
Link Contemporary Literature Lecture 9 - Six Degrees of Separation
Link Contemporary Literature Lecture 10 - Tom Stoppard - Dogg's Hamlet, Cahoot's Macbeth
Link Contemporary Literature Lecture 11 - Tom Stoppard - Dogg's Hamlet, Cahoot's Macbeth
Link Contemporary Literature Lecture 12 - Tom Stoppard - Dogg's Hamlet, Cahoot's Macbeth
Link Contemporary Literature Lecture 13 - Tom Stoppard - Dogg's Hamlet, Cahoot's Macbeth
Link Contemporary Literature Lecture 14 - Tom Stoppard - Dogg's Hamlet, Cahoot's Macbeth
Link Contemporary Literature Lecture 15 - Tom Stoppard - Dogg's Hamlet, Cahoot's Macbeth
Link Contemporary Literature Lecture 16 - Arthur Miller Clara
Link Contemporary Literature Lecture 17 - Arthur Miller Clara
Link Contemporary Literature Lecture 18 - Arthur Miller Clara
Link Contemporary Literature Lecture 19 - Albert Camus The Fall
Link Contemporary Literature Lecture 20 - Albert Camus The Fall
Link Contemporary Literature Lecture 21 - Albert Camus The Fall
Link Contemporary Literature Lecture 22 - Girish Karnad - Nagamandala
Link Contemporary Literature Lecture 23 - Girish Karnad - Nagamandala
Link Contemporary Literature Lecture 24 - Girish Karnad - Nagamandala
Link Contemporary Literature Lecture 25 - Short Story - Salman Rushdie's
Link Contemporary Literature Lecture 26 - Short Story2 - Hanif Kureishi's
Link Contemporary Literature Lecture 27 - Modernism Post
Link Contemporary Literature Lecture 28 - Kazuo Ishiguro - Remains of the Day
Link Contemporary Literature Lecture 29 - Kazuo Ishiguro - Remains of the Day
Link Contemporary Literature Lecture 30 - Kazuo Ishiguro - Remains of the Day
Link Contemporary Literature Lecture 31 - Kazuo Ishiguro - Remains of the Day
Link Contemporary Literature Lecture 32 - Michael Ondaatje - The English Patient
Link Contemporary Literature Lecture 33 - Michael Ondaatje - The English Patient
Link Contemporary Literature Lecture 34 - Michael Ondaatje - The English Patient
Link Contemporary Literature Lecture 35 - Asian-American Writing
Link Contemporary Literature Lecture 36 - Amy Tan's - The Joy Luck Club
Link Contemporary Literature Lecture 37 - Amy Tan's - The Joy Luck Club
Link Contemporary Literature Lecture 38 - Amy Tan's - The Joy Luck Club
Link Contemporary Literature Lecture 39 - Poetry
Link Contemporary Literature Lecture 40 - Poetry
Link History of Economic Theory Lecture 1 - The Socio-Economic Role of Scarcity and Uncertainty
Link History of Economic Theory Lecture 2 - The Process of Construction of Knowledge
Link History of Economic Theory Lecture 3 - The Roles of Faith and Experience
Link History of Economic Theory Lecture 4 - From Orphism to the Milesians in ancient Greece
Link History of Economic Theory Lecture 5 - Pythagoras and Heraclitus
Link History of Economic Theory Lecture 6 - From Parmenides to the atomists
Link History of Economic Theory Lecture 7 - From the ancient Greece to the emergence of Feudalism
Link History of Economic Theory Lecture 8 - Feudalism and the growth of the Church
Link History of Economic Theory Lecture 9 - The age of Faith: Europe until the crusades
Link History of Economic Theory Lecture 10 - The beginnings of modernity
Link History of Economic Theory Lecture 11 - Scholasticism and St.Thomas
Link History of Economic Theory Lecture 12 - Transformation of Europe towards modernity
Link History of Economic Theory Lecture 13 - Birth of political economy: mercantilism
Link History of Economic Theory Lecture 14 - The debate over mercantilism: Hume and Cantillon
Link History of Economic Theory Lecture 15 - A postscript to mercantilism: Hume and James Stewart
Link History of Economic Theory Lecture 16 - ‘Natural Order’ and the market: Quesney and Galiani
Link History of Economic Theory Lecture 17 - Smith: the Invisible Hand
Link History of Economic Theory Lecture 18 - Smith: Growth theory, long run equilibrium and Institutions
Link History of Economic Theory Lecture 19 - Ricardo-Malthus debate
Link History of Economic Theory Lecture 20 - Ricardian economics and more
Link History of Economic Theory Lecture 21 - Equilibrium of the market: from Say to Walras
Link History of Economic Theory Lecture 22 - More on Equilibrium: Cournot, Dupuit, Gossen, von Thunen
Link History of Economic Theory Lecture 23 - Socialists and Marx
Link History of Economic Theory Lecture 24 - The economics of Marx
Link History of Economic Theory Lecture 25 - Marx as an ideologue of revolution
Link History of Economic Theory Lecture 26 - Arrival of modern universals in Economics: Neo classical school
Link History of Economic Theory Lecture 27 - Economic Theory at the time arrival of Keynes
Link History of Economic Theory Lecture 28 - The centrality of the idea of efficiency in the study of market
Link History of Economic Theory Lecture 29 - Keynesian Revolution: Macroeconomics
Link History of Economic Theory Lecture 30 - Keynesian economics
Link History of Economic Theory Lecture 31 - Economics of Institutions
Link History of Economic Theory Lecture 32 - Transaction cost and Economic Anthropology approaches
Link History of Economic Theory Lecture 33 - Evolutionary Economics: the idea of change as evolution
Link History of Economic Theory Lecture 34 - From Schumpeter to neo Schumpetarian evolutionism
Link History of Economic Theory Lecture 35 - The social construction of knowledge: Case of Economics
Link History of Economic Theory Lecture 36 - The social construction of knowledge: Adaptation and Revolution
Link Indian Philosophy Lecture 1 - Introduction to Indian Philosophy
Link Indian Philosophy Lecture 2 - A Brief Discussion on the Vedas & the Upanishads
Link Indian Philosophy Lecture 3 - The Cārvāka School - I
Link Indian Philosophy Lecture 4 - The Cārvāka School - II
Link Indian Philosophy Lecture 5 - The Sāṅkhya School - I
Link Indian Philosophy Lecture 6 - The Sāṅkhya School - II
Link Indian Philosophy Lecture 7 - The Sāṅkhya School - III
Link Indian Philosophy Lecture 8 - The Sāṅkhya School - IV
Link Indian Philosophy Lecture 9 - The Sāṅkhya School - V
Link Indian Philosophy Lecture 10 - The Sāṅkhya School - VI
Link Indian Philosophy Lecture 11 - The Yoga School - I
Link Indian Philosophy Lecture 12 - The Yoga School - II
Link Indian Philosophy Lecture 13 - The Yoga School - III
Link Indian Philosophy Lecture 14 - The Yoga School - IV
Link Indian Philosophy Lecture 15 - The Nyāya School - I
Link Indian Philosophy Lecture 16 - The Nyāya School - II
Link Indian Philosophy Lecture 17 - The Nyāya School - III
Link Indian Philosophy Lecture 18 - The Nyāya School - IV
Link Indian Philosophy Lecture 19 - The Nyāya School - V
Link Indian Philosophy Lecture 20 - The Nyāya School - VI
Link Indian Philosophy Lecture 21 - The Nyāya School - VII
Link Indian Philosophy Lecture 22 - The Nyāya School - VIII
Link Indian Philosophy Lecture 23 - The Nyāya School - IX
Link Indian Philosophy Lecture 24 - Buddhism - I
Link Indian Philosophy Lecture 25 - Buddhism - II
Link Indian Philosophy Lecture 26 - Buddhism - III
Link Indian Philosophy Lecture 27 - Buddhism - IV
Link Indian Philosophy Lecture 28 - Buddhism - V
Link Indian Philosophy Lecture 29 - Jainism - I
Link Indian Philosophy Lecture 30 - Jainism - II
Link Indian Philosophy Lecture 31 - Jainism - III
Link Indian Philosophy Lecture 32 - The Vaiśeṣika School - I
Link Indian Philosophy Lecture 33 - The Vaiśeṣika School - II
Link Indian Philosophy Lecture 34 - The Vaiśeṣika School - III
Link Indian Philosophy Lecture 35 - The Vaiśeṣika School - IV
Link Indian Philosophy Lecture 36 - The Vaiśeṣika School - V
Link Indian Philosophy Lecture 37 - The Vaiśeṣika School - VI
Link Indian Philosophy Lecture 38 - The Mimānsā School - I
Link Indian Philosophy Lecture 39 - The Mimānsā School - II
Link Indian Philosophy Lecture 40 - The Mimānsā School - III
Link Indian Philosophy Lecture 41 - The Mimānsā School - IV
Link Indian Philosophy Lecture 42 - The Mimānsā School - V
Link Better Spoken English Lecture 1 - Introduction
Link Better Spoken English Lecture 2 - Student Presentations - I
Link Better Spoken English Lecture 3 - Feedback on Presentations - I
Link Better Spoken English Lecture 4 - Stage Manners
Link Better Spoken English Lecture 5 - Tempo of Speech
Link Better Spoken English Lecture 6 - Some Reasons for Mishearing
Link Better Spoken English Lecture 7 - Topics for Presentations - II
Link Better Spoken English Lecture 8 - Message
Link Better Spoken English Lecture 9 - Tables, Charts, Graphs
Link Better Spoken English Lecture 10 - Power Point Slides
Link Better Spoken English Lecture 11 - Criteria for Evaluation
Link Better Spoken English Lecture 12 - Student Presentations - II
Link Better Spoken English Lecture 13 - Feedback on Presentation - II
Link Better Spoken English Lecture 14 - Topics for Presentation - III
Link Better Spoken English Lecture 15 - On “Saying ‘Please!’ ”
Link Better Spoken English Lecture 16 - English Rhythm - I
Link Better Spoken English Lecture 17 - English Rhythm - II
Link Better Spoken English Lecture 18 - Phrasal Pause in English - I
Link Better Spoken English Lecture 19 - Phrasal Pause in English - II
Link Better Spoken English Lecture 20 - Units of Time, Weight, Distance
Link Better Spoken English Lecture 21 - Stress in English - I
Link Better Spoken English Lecture 22 - Stress in English - II
Link Better Spoken English Lecture 23 - Stress in English - III
Link Better Spoken English Lecture 24 - Stress in English - IV
Link Better Spoken English Lecture 25 - Stress in English - V
Link Better Spoken English Lecture 26 - Stress in English - VI
Link Better Spoken English Lecture 27 - Student Presentations - III
Link Better Spoken English Lecture 28 - Student Presentations - III
Link Better Spoken English Lecture 29 - Student Presentations - III (Continued...)
Link Better Spoken English Lecture 30 - Feedback on Presentations - III
Link Better Spoken English Lecture 31 - Some Non-standard Sounds
Link Better Spoken English Lecture 32 - Some “Difficult” Sounds in English
Link Better Spoken English Lecture 33 - Some “Vowel” Sounds in English
Link Better Spoken English Lecture 34 - Some “Consonants” in English
Link Better Spoken English Lecture 35 - Student Presentations - IV
Link Better Spoken English Lecture 36 - Student Presentations - IV
Link Better Spoken English Lecture 37 - Student Presentations - IV (Continued...)
Link Better Spoken English Lecture 38 - Final Tips
Link Introduction to Film Studies Lecture 1 - Course Overview
Link Introduction to Film Studies Lecture 2 - Cinema & Semiotics
Link Introduction to Film Studies Lecture 3 - Cinema & Semiotics (Continued...)
Link Introduction to Film Studies Lecture 4 - Plot in Cinema
Link Introduction to Film Studies Lecture 5 - Plot in Cinema (Continued...)
Link Introduction to Film Studies Lecture 6 - Character as a plot element
Link Introduction to Film Studies Lecture 7 - Editing in Cinema
Link Introduction to Film Studies Lecture 8 - Realism in Cinema
Link Introduction to Film Studies Lecture 9 - Colour : Theory & Practice
Link Introduction to Film Studies Lecture 10 - Intertextuality
Link Introduction to Film Studies Lecture 11 - Intertextuality (Continued...)
Link Introduction to Film Studies Lecture 12 - Intertextuality (Continued...)
Link Introduction to Film Studies Lecture 13 - Cinema & Modernism
Link Introduction to Film Studies Lecture 14 - Cinema and Modernism (Continued...)
Link Introduction to Film Studies Lecture 15 - The French Masters
Link Introduction to Film Studies Lecture 16 - The French Masters (Continued...)
Link Introduction to Film Studies Lecture 17 - The French Masters (Continued...)
Link Introduction to Film Studies Lecture 18 - Canonical Text
Link Introduction to Film Studies Lecture 19 - Canonical Text (Continued...)
Link Introduction to Film Studies Lecture 20 - Canonical Text (Continued...)
Link Introduction to Film Studies Lecture 21 - The Academy Awards
Link Introduction to Film Studies Lecture 22 - Classic Hollywood
Link Introduction to Film Studies Lecture 23 - Classic Hollywood (Continued...)
Link Introduction to Film Studies Lecture 24 - Classic Hollywood (Continued...)
Link Introduction to Film Studies Lecture 25 - Case study
Link Introduction to Film Studies Lecture 26 - Stars as Icons
Link Introduction to Film Studies Lecture 27 - Cinema and the Counterculture Movement
Link Introduction to Film Studies Lecture 28 - Italian cinema
Link Introduction to Film Studies Lecture 29 - Japanese Cinema
Link Introduction to Film Studies Lecture 30 - Auteur Theory in the USA
Link Introduction to Film Studies Lecture 31 - Auteur Theory in the USA (Continued...)
Link Introduction to Film Studies Lecture 32 - New Hollywood
Link Introduction to Film Studies Lecture 33 - New Hollywood (Continued...)
Link Introduction to Film Studies Lecture 34 - New Hollywood (Continued...)
Link Introduction to Film Studies Lecture 35 - New Hollywood (Continued...)
Link Introduction to Film Studies Lecture 36 - Cinema and Genres
Link Introduction to Film Studies Lecture 37 - Cinema and Genres (Continued...)
Link Introduction to Film Studies Lecture 38 - Postmodernism and Cinema
Link Introduction to Film Studies Lecture 39 - Postmodernism & Cinema (Continued...)
Link Introduction to Film Studies Lecture 40 - The Western
Link Introduction to Modern Linguistics Lecture 1 - Introduction
Link Introduction to Modern Linguistics Lecture 2 - Design Features of Language - 1
Link Introduction to Modern Linguistics Lecture 3 - Design Features of Language - 2
Link Introduction to Modern Linguistics Lecture 4 - Design Features of Language - 3
Link Introduction to Modern Linguistics Lecture 5 - Design Features of Language - 4
Link Introduction to Modern Linguistics Lecture 6 - Design Features of Language - 5
Link Introduction to Modern Linguistics Lecture 7 - Production of Speech Sounds
Link Introduction to Modern Linguistics Lecture 8 - Organs of Articulation
Link Introduction to Modern Linguistics Lecture 9 - Functions of Vocal Cords
Link Introduction to Modern Linguistics Lecture 10 - Production of Speech Sounds, Cardinal Vowels
Link Introduction to Modern Linguistics Lecture 11 - English Vowels
Link Introduction to Modern Linguistics Lecture 12 - Diphthong
Link Introduction to Modern Linguistics Lecture 13 - Production of Consonants
Link Introduction to Modern Linguistics Lecture 14 - Consonants
Link Introduction to Modern Linguistics Lecture 15 - Consonants-2
Link Introduction to Modern Linguistics Lecture 16 - Review : Production of Speech Sounds
Link Introduction to Modern Linguistics Lecture 17 - What is Phonology
Link Introduction to Modern Linguistics Lecture 18 - Phonemes & Allophones
Link Introduction to Modern Linguistics Lecture 19 - Phonological Phenomena
Link Introduction to Modern Linguistics Lecture 20 - Syllable Template
Link Introduction to Modern Linguistics Lecture 21 - Syllable
Link Introduction to Modern Linguistics Lecture 22 - Syllable - Based Generalization
Link Introduction to Modern Linguistics Lecture 23 - Syllable - Based Generalization
Link Introduction to Modern Linguistics Lecture 24 - Morphology
Link Introduction to Modern Linguistics Lecture 25 - Units of Word Formation
Link Introduction to Modern Linguistics Lecture 26 - Affixation
Link Introduction to Modern Linguistics Lecture 27 - Syntax: An Introduction
Link Introduction to Modern Linguistics Lecture 28 - Syntax: An Introduction (Continued...)
Link Introduction to Modern Linguistics Lecture 29 - Syntax: X-bar Theory
Link Introduction to Modern Linguistics Lecture 30 - Syntax: X-bar Theory (Continued...)
Link Introduction to Modern Linguistics Lecture 31 - Syntax: Phrase Structure (Compliment and Adjuncts)
Link Introduction to Modern Linguistics Lecture 32 - Syntax: Argument Selection
Link Introduction to Modern Linguistics Lecture 33 - Syntax: Structure of an IP and Thematic Relations
Link Introduction to Modern Linguistics Lecture 34 - Syntax: Structure of an IP and Thematic Relations (Continued...)
Link Introduction to Modern Linguistics Lecture 35 - Syntax: Structure of an IP and Thematic Relations (Continued...)
Link Introduction to Modern Linguistics Lecture 36 - Syntax: Case Assignment
Link Introduction to Modern Linguistics Lecture 37 - Syntax: Exceptional Case Marking
Link Introduction to Modern Linguistics Lecture 38 - Word Formation-3
Link Introduction to Modern Linguistics Lecture 39 - Discourse
Link Introduction to Modern Linguistics Lecture 40 - Discourse..
Link Introduction to Modern Linguistics Lecture 41 - Concluding Remarks
Link Principles and Parameters in Natural Language Lecture 1 - Introduction of the Course
Link Principles and Parameters in Natural Language Lecture 2 - What is linguistics? What is Language?
Link Principles and Parameters in Natural Language Lecture 3 - Language and Arbitrariness, Language and Dialect
Link Principles and Parameters in Natural Language Lecture 4 - E vs I Language, Language as a rule governed system
Link Principles and Parameters in Natural Language Lecture 5 - Language Faculty, Language in Human Mind
Link Principles and Parameters in Natural Language Lecture 6 - How do we learn language?
Link Principles and Parameters in Natural Language Lecture 7 - Language Acquisition
Link Principles and Parameters in Natural Language Lecture 8 - Innateness: Some Essential Concepts
Link Principles and Parameters in Natural Language Lecture 9 - Structure of Language at the Level of Sounds
Link Principles and Parameters in Natural Language Lecture 10 - Sounds (Vocal Apparatus)
Link Principles and Parameters in Natural Language Lecture 11 - Places and Manners of Articulation
Link Principles and Parameters in Natural Language Lecture 12 - Word Formation/Phonotactic Rules
Link Principles and Parameters in Natural Language Lecture 13 - Rules of Word Formation (Singular-Plural)
Link Principles and Parameters in Natural Language Lecture 14 - Sentence: An Introduction
Link Principles and Parameters in Natural Language Lecture 15 - Making of a Sentence (Components)
Link Principles and Parameters in Natural Language Lecture 16 - Grammaticality and Acceptability
Link Principles and Parameters in Natural Language Lecture 17 - Subject and Verb in a Sentence
Link Principles and Parameters in Natural Language Lecture 18 - Sentence: Objects and Verbs
Link Principles and Parameters in Natural Language Lecture 19 - Phrase Structure
Link Principles and Parameters in Natural Language Lecture 20 - X-Bar Theory
Link Principles and Parameters in Natural Language Lecture 21 - Specifier and Complement
Link Principles and Parameters in Natural Language Lecture 22 - Complements and Adjuncts
Link Principles and Parameters in Natural Language Lecture 23 - VP Components
Link Principles and Parameters in Natural Language Lecture 24 - Categorial Selections, Selectional Restrictions on verbs
Link Principles and Parameters in Natural Language Lecture 25 - Thematic Relations
Link Principles and Parameters in Natural Language Lecture 26 - Case
Link Principles and Parameters in Natural Language Lecture 27 - Morphological and Abstract Case
Link Principles and Parameters in Natural Language Lecture 28 - Structural Case
Link Principles and Parameters in Natural Language Lecture 29 - Exceptional Case Marking
Link Principles and Parameters in Natural Language Lecture 30 - Movement
Link Principles and Parameters in Natural Language Lecture 31 - Motivations for Movement
Link Principles and Parameters in Natural Language Lecture 32 - Questions and Movement
Link Principles and Parameters in Natural Language Lecture 33 - Guest Lecture: Generative Grammar by Professor B. N. Patnaik
Link Principles and Parameters in Natural Language Lecture 34 - Passives and NP Movement
Link Principles and Parameters in Natural Language Lecture 35 - NP Movement and Raising
Link Principles and Parameters in Natural Language Lecture 36 - Binding Theory and NP Interpretations
Link Principles and Parameters in Natural Language Lecture 37 - Principles of Binding Theory
Link Principles and Parameters in Natural Language Lecture 38 - Constraints on Movements
Link Principles and Parameters in Natural Language Lecture 39 - Structure of Language and Negation
Link Principles and Parameters in Natural Language Lecture 40 - Negation and Negative Polarity Items
Link Principles and Parameters in Natural Language Lecture 41 - Structure, Language, Cognition and Pragmatics
Link NOC:Literary Criticism and Literary Theory Lecture 1 - Introduction & Course Overview - Lecture 1 - Part A
Link NOC:Literary Criticism and Literary Theory Lecture 2 - Introduction & Course Overview - Lecture 1 - Part B
Link NOC:Literary Criticism and Literary Theory Lecture 3 - Key terms and Concepts - 1 - Lecture 2
Link NOC:Literary Criticism and Literary Theory Lecture 4 - Key terms and Concepts - 2 - Lecture 3
Link NOC:Literary Criticism and Literary Theory Lecture 5 - Key terms and Concepts - 3 - Lecture 4
Link NOC:Literary Criticism and Literary Theory Lecture 6 - Classical Theory - Lecture 5 - Part C
Link NOC:Literary Criticism and Literary Theory Lecture 7 - Classical Theory - Lecture 5 - Part A
Link NOC:Literary Criticism and Literary Theory Lecture 8 - Classical Theory - Lecture 5 - Part B
Link NOC:Literary Criticism and Literary Theory Lecture 9 - Classical Theory - Lecture 6 - Part A
Link NOC:Literary Criticism and Literary Theory Lecture 10 - Neoclassicism - Lecture 6 - Part B
Link NOC:Literary Criticism and Literary Theory Lecture 11 - Romanticism - Early Romanticism - Lecture 7 - Part A
Link NOC:Literary Criticism and Literary Theory Lecture 12 - Romanticism - Romanticism - Lecture 7 - Part C
Link NOC:Literary Criticism and Literary Theory Lecture 13 - Romanticism - Romanticism - Lecture 7 - Part D
Link NOC:Literary Criticism and Literary Theory Lecture 14 - Romanticism - Early Romanticism - Lecture 7 Part B
Link NOC:Literary Criticism and Literary Theory Lecture 15 - Late 19th Century - Lecture 9 - Late 19th century
Link NOC:Literary Criticism and Literary Theory Lecture 16 - Lecture 10 A - Marxism
Link NOC:Literary Criticism and Literary Theory Lecture 17 - Lecture 10 B - Marxism
Link NOC:Literary Criticism and Literary Theory Lecture 18 - Twentieth Century Criticism - Lecture 11 A - Formalism
Link NOC:Literary Criticism and Literary Theory Lecture 19 - Twentieth Century Criticism - Lecture 11 B - New criticism
Link NOC:Literary Criticism and Literary Theory Lecture 20 - Psychoanalysis and Psychoanalytic Criticism - PART A
Link NOC:Literary Criticism and Literary Theory Lecture 21 - Psychoanalysis and Psychoanalytic Criticism - PART B
Link NOC:Literary Criticism and Literary Theory Lecture 22 - Psychoanalysis and Psychoanalytic Criticism - PART C
Link NOC:Literary Criticism and Literary Theory Lecture 23 - Structuralism - Lecture 12 Part A structuralism
Link NOC:Literary Criticism and Literary Theory Lecture 24 - Structuralism - Lecture 12 Part B structuralism
Link NOC:Literary Criticism and Literary Theory Lecture 25 - Archetypal Criticism - Lecture 13 - Archetypal Criticism
Link NOC:Literary Criticism and Literary Theory Lecture 26 - Post Structuralism - Part A
Link NOC:Literary Criticism and Literary Theory Lecture 27 - Post Structuralism - Part B
Link NOC:Literary Criticism and Literary Theory Lecture 28 - Post Colonialism - Part A
Link NOC:Literary Criticism and Literary Theory Lecture 29 - New Historicism and Cultural Materialism - Part A
Link NOC:Literary Criticism and Literary Theory Lecture 30 - New Historicism and Cultural Materialism - Part B
Link NOC:Literary Criticism and Literary Theory Lecture 31 - Reader Response criticism
Link NOC:Literary Criticism and Literary Theory Lecture 32 - Semiotics theory - PART A
Link NOC:Literary Criticism and Literary Theory Lecture 33 - Semiotics theory - PART B
Link NOC:Literary Criticism and Literary Theory Lecture 34 - Film studies - Part A
Link NOC:Literary Criticism and Literary Theory Lecture 35 - Film studies - Part B
Link NOC:Literary Criticism and Literary Theory Lecture 36 - Postmodernism - Part A
Link NOC:Literary Criticism and Literary Theory Lecture 37 - Postmodernism - Part B
Link NOC:Literary Criticism and Literary Theory Lecture 38 - Ecocriticism - Part A
Link NOC:Literary Criticism and Literary Theory Lecture 39 - Ecocriticism - Part B
Link NOC:Literary Criticism and Literary Theory Lecture 40 - Post theory - Part A
Link NOC:Literary Criticism and Literary Theory Lecture 41 - Post theory - Part B
Link NOC:Language and Mind Lecture 1 - On Language - What is language
Link NOC:Language and Mind Lecture 2 - On Language - How do we learn language
Link NOC:Language and Mind Lecture 3 - On Language - Learning language
Link NOC:Language and Mind Lecture 4 - On Language - Acquiring language
Link NOC:Language and Mind Lecture 5 - On Language - Language evolution
Link NOC:Language and Mind Lecture 6 - Language in Mind - Language and language learning
Link NOC:Language and Mind Lecture 7 - Language in Mind - Language in mind
Link NOC:Language and Mind Lecture 8 - Language in Mind - Grammar
Link NOC:Language and Mind Lecture 9 - Language in Mind - Language and human mind
Link NOC:Language and Mind Lecture 10 - Language in Mind - Mechanism of sound production
Link NOC:Language and Mind Lecture 11 - Patterns in Sounds and Words - Consonants
Link NOC:Language and Mind Lecture 12 - Patterns in Sounds and Words - Features of sounds
Link NOC:Language and Mind Lecture 13 - Patterns in Sounds and Words - Words
Link NOC:Language and Mind Lecture 14 - Patterns in Sounds and Words - Words II
Link NOC:Language and Mind Lecture 15 - Patterns in Sounds and Words - Words III
Link NOC:Language and Mind Lecture 16 - Words and Sentences - Words IV
Link NOC:Language and Mind Lecture 17 - Words and Sentences - Words V
Link NOC:Language and Mind Lecture 18 - Words and Sentences - Structure of a sentence
Link NOC:Language and Mind Lecture 19 - Words and Sentences - Nature of sentences and phrases
Link NOC:Language and Mind Lecture 20 - Words and Sentences - Syntax
Link NOC:Language and Mind Lecture 21 - Grammar - Structure of sentence (agreement)
Link NOC:Language and Mind Lecture 22 - Grammar - Sentence (categories and phrase)
Link NOC:Language and Mind Lecture 23 - Grammar - Sentence (phrase structure)
Link NOC:Language and Mind Lecture 24 - Grammar - Sentence (X bar and IP)
Link NOC:Language and Mind Lecture 25 - Grammar - Sentence (inflectional phrase)
Link NOC:Language and Mind Lecture 26 - Advanced Grammar - Sentence (compliment and adjunct)
Link NOC:Language and Mind Lecture 27 - Advanced Grammar - Sentence (restrictions)
Link NOC:Language and Mind Lecture 28 - Advanced Grammar - Sentence (semantic relations)
Link NOC:Language and Mind Lecture 29 - Advanced Grammar - Sentence (case)
Link NOC:Language and Mind Lecture 30 - Advanced Grammar - Sentence (movement)
Link NOC:Language and Mind Lecture 31 - Levels of Representation and Principles of Grammar - CP and displacement
Link NOC:Language and Mind Lecture 32 - Levels of Representation and Principles of Grammar - Sentence (CP in subject and object position)
Link NOC:Language and Mind Lecture 33 - Levels of Representation and Principles of Grammar - Sentence (passivization and NP movement)
Link NOC:Language and Mind Lecture 34 - Levels of Representation and Principles of Grammar - Sentence (referential expressions)
Link NOC:Language and Mind Lecture 35 - Levels of Representation and Principles of Grammar - Sentence (binding)
Link NOC:Language and Mind Lecture 36 - Language and Cognition - Sentence Dependencies: Compound verbs and negation
Link NOC:Language and Mind Lecture 37 - Language and Cognition - Language and cognition
Link NOC:Language and Mind Lecture 38 - Language and Cognition - Language, cognition and computers
Link NOC:Language and Mind Lecture 39 - Language and Cognition - Language and computers: resolving ambiguity
Link NOC:Language and Mind Lecture 40 - Language and Cognition - Language and mind: a summary
Link NOC:Film Appreciation Lecture 1 - Introduction
Link NOC:Film Appreciation Lecture 2 - Key Concepts: Part-1
Link NOC:Film Appreciation Lecture 3 - Key Concepts: Part-2
Link NOC:Film Appreciation Lecture 4 - Lecture: Film Theory
Link NOC:Film Appreciation Lecture 5 - Lecture: Genre Theory
Link NOC:Film Appreciation Lecture 6 - Lecture: German Expressionism
Link NOC:Film Appreciation Lecture 7 - Lecture: Italian Neo-Realism
Link NOC:Film Appreciation Lecture 8 - Lecture: French New Wave
Link NOC:Film Appreciation Lecture 9 - Lecture: Spanish Cinema
Link NOC:Film Appreciation Lecture 10 - Lecture: British New Wave
Link NOC:Film Appreciation Lecture 11 - Lecture: Chinese Cinema
Link NOC:Film Appreciation Lecture 12 - Action Cinema
Link NOC:Film Appreciation Lecture 13 - Lecture: Deewar
Link NOC:Film Appreciation Lecture 14 - Melodrama
Link NOC:Film Appreciation Lecture 15 - Formalism in Cinema
Link NOC:Film Appreciation Lecture 16 - The Language of Cinema
Link NOC:Film Appreciation Lecture 17 - Devdas
Link NOC:Film Appreciation Lecture 18 - City Cinema
Link NOC:Film Appreciation Lecture 19 - The Semiotics of Cinema
Link NOC:Film Appreciation Lecture 20 - Raging Bull
Link NOC:Film Appreciation Lecture 21 - Robert Bresson
Link NOC:Film Appreciation Lecture 22 - Studio Cinema: Part-1
Link NOC:Film Appreciation Lecture 23 - Studio Cinema: Part-2
Link NOC:Film Appreciation Lecture 24 - New Hollywood Cinema: Part-1
Link NOC:Film Appreciation Lecture 25 - New Hollywood Cinema: Part-2
Link NOC:Film Appreciation Lecture 26 - History of Hindi Cinima: Part-1
Link NOC:Film Appreciation Lecture 27 - History of Hindi Cinima: Part-2
Link NOC:Film Appreciation Lecture 28 - History of Hindi Cinema: Part-3
Link NOC:Film Appreciation Lecture 29 - Ideology in Cinema
Link NOC:Film Appreciation Lecture 30 - Character in Cinema
Link NOC:Film Appreciation Lecture 31 - Mythological Cinema in India
Link NOC:Film Appreciation Lecture 32 - The Cinema of Satyajit Ray
Link NOC:Film Appreciation Lecture 33 - Hindi Film Music
Link NOC:Film Appreciation Lecture 34 - The Hollywood musicals
Link NOC:Film Appreciation Lecture 35 - African cinema
Link NOC:Film Appreciation Lecture 36 - Iranian cinema
Link NOC:Film Appreciation Lecture 37 - Canadian Cinema
Link NOC:Film Appreciation Lecture 38 - Eastern European Cinema
Link NOC:Film Appreciation Lecture 39 - European Cinema Hungary, Sweden, Greece
Link NOC:Film Appreciation Lecture 40 - Postmodernism and cinema
Link NOC:Film Appreciation Lecture 41 - Mall towns in cinema
Link NOC:Film Appreciation Lecture 42 - Film sequels, remakes and cult films
Link NOC:Film Appreciation Lecture 43 - Parallel Cinema From India
Link NOC:Appreciating Carnatic Music Lecture 1 - The Body of Music
Link NOC:Appreciating Carnatic Music Lecture 2 - Music everywhere finding the classical
Link NOC:Appreciating Carnatic Music Lecture 3 - Classical Music Art Music
Link NOC:Appreciating Carnatic Music Lecture 4 - Music through Melody & Music through Harmony
Link NOC:Appreciating Carnatic Music Lecture 5 - Musical Material A Hard Look
Link NOC:Appreciating Carnatic Music Lecture 6 - Musical material Mo2
Link NOC:Appreciating Carnatic Music Lecture 7 - Carnatic Music as Raga Music
Link NOC:Appreciating Carnatic Music Lecture 8 - Understanding Raga - Part I
Link NOC:Appreciating Carnatic Music Lecture 9 - Understanding Raga - Part II (Raga and Swara)
Link NOC:Appreciating Carnatic Music Lecture 10 - Understanding Raga - Part III A Glimpse into Gamaka (Ornamentation) and Phraseology
Link NOC:Appreciating Carnatic Music Lecture 11 - Swara in the Sanskrit Textual Tradition
Link NOC:Appreciating Carnatic Music Lecture 12 - Sruti in Sanskrit Textual tradition
Link NOC:Appreciating Carnatic Music Lecture 13 - Tambura
Link NOC:Appreciating Carnatic Music Lecture 14 - Gamaka I
Link NOC:Appreciating Carnatic Music Lecture 15 - Gamaka II
Link NOC:Appreciating Carnatic Music Lecture 16 - Gamaka III
Link NOC:Appreciating Carnatic Music Lecture 17 - Gamakas IV
Link NOC:Appreciating Carnatic Music Lecture 18 - Raga and Phraseology
Link NOC:Appreciating Carnatic Music Lecture 19 - Raga - some basic expectations
Link NOC:Appreciating Carnatic Music Lecture 20 - A string of Ragas and a teaser
Link NOC:Appreciating Carnatic Music Lecture 21 - Raga in the textual tradition
Link NOC:Appreciating Carnatic Music Lecture 22 - Classification of Ragas I
Link NOC:Appreciating Carnatic Music Lecture 23 - Classification of Ragas II
Link NOC:Appreciating Carnatic Music Lecture 24 - Mela system of classifying raga-s
Link NOC:Appreciating Carnatic Music Lecture 25 - Generating the 72 mela-s
Link NOC:Appreciating Carnatic Music Lecture 26 - Application of 72 mela
Link NOC:Appreciating Carnatic Music Lecture 27 - Katapayadi Naming the 72 melas
Link NOC:Appreciating Carnatic Music Lecture 28 - Vivadi I
Link NOC:Appreciating Carnatic Music Lecture 29 - Vivadi II
Link NOC:Appreciating Carnatic Music Lecture 30 - Raga - Circles and Triangles
Link NOC:Appreciating Carnatic Music Lecture 31 - Laya: temporal discipline in music.
Link NOC:Appreciating Carnatic Music Lecture 32 - Tala an Introduction to the Concept
Link NOC:Appreciating Carnatic Music Lecture 33 - More on Tala and laya
Link NOC:Appreciating Carnatic Music Lecture 34 - Aspects of Tala - I
Link NOC:Appreciating Carnatic Music Lecture 35 - Aspects of Tala - II
Link NOC:Appreciating Carnatic Music Lecture 36 - Aspects of Tala - III
Link NOC:Appreciating Carnatic Music Lecture 37 - Aspects of IV
Link NOC:Appreciating Carnatic Music Lecture 38 - Composition in Carnatic Music
Link NOC:Appreciating Carnatic Music Lecture 39 - An Introduction
Link NOC:Appreciating Carnatic Music Lecture 40 - Varnam and laya intricacies
Link NOC:Appreciating Carnatic Music Lecture 41 - Kriti the premier compositional form in Carnatic music
Link NOC:Appreciating Carnatic Music Lecture 42 - Kriti some basic features
Link NOC:Appreciating Carnatic Music Lecture 43 - Precursors to the Kriti
Link NOC:Appreciating Carnatic Music Lecture 44 - Bhakti and Carnatic Music: Metaphor, World view and Yearning in Carnatic compositions.
Link NOC:Appreciating Carnatic Music Lecture 45 - Tanjavur and the Carnatic Trinity
Link NOC:Appreciating Carnatic Music Lecture 46 - Tyagaraja, the Vaggeyakara
Link NOC:Appreciating Carnatic Music Lecture 47 - Tyagaraja and His Many Moods -I
Link NOC:Appreciating Carnatic Music Lecture 48 - Tyagaraja and His Many Moods II
Link NOC:Appreciating Carnatic Music Lecture 49 - Muthuswami Dikshitar an overview
Link NOC:Appreciating Carnatic Music Lecture 50 - Muthuswami Dikshitar the Sanskirt Scholar and Advaitin
Link NOC:Appreciating Carnatic Music Lecture 51 - Muthuswami Dikshitar Some Other Aspects of his Work.
Link NOC:Appreciating Carnatic Music Lecture 52 - Syama Sastri
Link NOC:Appreciating Carnatic Music Lecture 53 - Tamil Composers before the trinity
Link NOC:Appreciating Carnatic Music Lecture 54 - Post trinity Composers
Link NOC:Appreciating Carnatic Music Lecture 55 - Swathi Tirunal - the Versatile Royal Composer
Link NOC:Appreciating Carnatic Music Lecture 56 - The Romance of Padam and Javali
Link NOC:Appreciating Carnatic Music Lecture 57 - Tillana
Link NOC:Appreciating Carnatic Music Lecture 58 - Improvisation in Carnatic Music - Alapana
Link NOC:Appreciating Carnatic Music Lecture 59 - ALAPANA : Style and Aesthetics
Link NOC:Appreciating Carnatic Music Lecture 60 - Neraval and Swaraprastara
Link NOC:Appreciating Carnatic Music Lecture 61 - TANAM
Link NOC:Appreciating Carnatic Music Lecture 62 - An expostion of Balagopala,a kriti in the rega Bhairavi with alapana, neraval and swaraprastara followed by tani Avartanam
Link NOC:Appreciating Carnatic Music Lecture 63 - Accompaniment in Carnatic Music - The Violin
Link NOC:Appreciating Carnatic Music Lecture 64 - Percussive Accompaniment - the Mridangam
Link NOC:Appreciating Carnatic Music Lecture 65 - Subsidiary Accompaniment - Interaction Among Accompanists
Link NOC:Appreciating Carnatic Music Lecture 66 - Percussion MRIDANGAM
Link NOC:Appreciating Carnatic Music Lecture 67 - Percussion KANJIRA
Link NOC:Appreciating Carnatic Music Lecture 68 - Percussion Ghatam
Link NOC:Appreciating Carnatic Music Lecture 69 - Percussion Morsing
Link NOC:Appreciating Carnatic Music Lecture 70 - Percussion Korvai and Thani Avartanam
Link NOC:Appreciating Carnatic Music Lecture 71 - The Typical carnatic Concert And Ragam Tanam Pallavi - RTP
Link NOC:Infrastructure Economics Lecture 1
Link NOC:Infrastructure Economics Lecture 2
Link NOC:Infrastructure Economics Lecture 3
Link NOC:Infrastructure Economics Lecture 4
Link NOC:Infrastructure Economics Lecture 5
Link NOC:Infrastructure Economics Lecture 6
Link NOC:Infrastructure Economics Lecture 7
Link NOC:Infrastructure Economics Lecture 8
Link NOC:Infrastructure Economics Lecture 9
Link NOC:Infrastructure Economics Lecture 10
Link NOC:Infrastructure Economics Lecture 11
Link NOC:Infrastructure Economics Lecture 12
Link NOC:Infrastructure Economics Lecture 13
Link NOC:Infrastructure Economics Lecture 14
Link NOC:Infrastructure Economics Lecture 15
Link NOC:Infrastructure Economics Lecture 16
Link NOC:Infrastructure Economics Lecture 17
Link NOC:Infrastructure Economics Lecture 18
Link NOC:Infrastructure Economics Lecture 19
Link NOC:Infrastructure Economics Lecture 20
Link NOC:Infrastructure Economics Lecture 21
Link NOC:Infrastructure Economics Lecture 22
Link NOC:Infrastructure Economics Lecture 23
Link NOC:Infrastructure Economics Lecture 24
Link NOC:Infrastructure Economics Lecture 25
Link NOC:Infrastructure Economics Lecture 26
Link NOC:Infrastructure Economics Lecture 27
Link NOC:Infrastructure Economics Lecture 28
Link NOC:Infrastructure Economics Lecture 29
Link NOC:Infrastructure Economics Lecture 30
Link NOC:Infrastructure Economics Lecture 31
Link NOC:Infrastructure Economics Lecture 32
Link NOC:Infrastructure Economics Lecture 33
Link NOC:Infrastructure Economics Lecture 34
Link NOC:Infrastructure Economics Lecture 35
Link NOC:Infrastructure Economics Lecture 36
Link NOC:Infrastructure Economics Lecture 37
Link NOC:Infrastructure Economics Lecture 38
Link NOC:Language and Society Lecture 1 - Introduction to language and society
Link NOC:Language and Society Lecture 2 - Language and India
Link NOC:Language and Society Lecture 3 - Language and a language
Link NOC:Language and Society Lecture 4 - Language, dialect and variety
Link NOC:Language and Society Lecture 5 - Dialect and standard language
Link NOC:Language and Society Lecture 6 - How do children learn language?
Link NOC:Language and Society Lecture 7 - First language acquisition
Link NOC:Language and Society Lecture 8 - Critical period and SLA
Link NOC:Language and Society Lecture 9 - Sounds and words
Link NOC:Language and Society Lecture 10 - Sentence
Link NOC:Language and Society Lecture 11 - India as a linguistic area
Link NOC:Language and Society Lecture 12 - Language variation
Link NOC:Language and Society Lecture 13 - Language and culture
Link NOC:Language and Society Lecture 14 - Language and power- politics
Link NOC:Language and Society Lecture 15 - Indian english
Link NOC:Language and Society Lecture 16 - Fluidity and continuum
Link NOC:Language and Society Lecture 17 - Language in education
Link NOC:Language and Society Lecture 18 - Language and scholastic achievement
Link NOC:Language and Society Lecture 19 - Language and language teaching
Link NOC:Language and Society Lecture 20 - Concluding remarks
Link NOC:Issues in Bioethics Lecture 1 - Module 1 - Unit 1 - Overview of Bioethics
Link NOC:Issues in Bioethics Lecture 2 - Module 1 - Unit 2 - Historical Evolution of Bioethics-I
Link NOC:Issues in Bioethics Lecture 3 - Module 1 - Unit 3 - Historical Evolution of Bioethics-II
Link NOC:Issues in Bioethics Lecture 4 - Module 1 - Unit 4 - Historical Evolution of Bioethics-III
Link NOC:Issues in Bioethics Lecture 5 - Module 1 - Unit 5 - Bioethics Today: Culture, Democracy and Law
Link NOC:Issues in Bioethics Lecture 6 - Module 2 - Unit 1 - Ethical theories and Bioethical Issues
Link NOC:Issues in Bioethics Lecture 7 - Module 2 - Unit 2 - Other ethical theories
Link NOC:Issues in Bioethics Lecture 8 - Module 2 - Unit 3 - Hedonistic Approaches in Ethical Theories
Link NOC:Issues in Bioethics Lecture 9 - Module 2 - Unit 4 - Deontological Approach
Link NOC:Issues in Bioethics Lecture 10 - Module 2 - Unit 5 - Priniciple-Based Theories
Link NOC:Issues in Bioethics Lecture 11 - Module 3 - Unit 1 - Challenges to the Person of the Individual
Link NOC:Issues in Bioethics Lecture 12 - Module 3 - Unit 2 - Challenges to Dignity and the Human Rights Approach in Bioethics
Link NOC:Issues in Bioethics Lecture 13 - Module 3 - Unit 3 - Problems in Resource Allocation
Link NOC:Issues in Bioethics Lecture 14 - Module 3 - Unit 4 - End of Life Issues
Link NOC:Issues in Bioethics Lecture 15 - Module 3 - Unit 5 - Ethics of Care, Gender Concerns and Feminist Perspectives
Link NOC:Issues in Bioethics Lecture 16 - Module 4 - Unit 1 - Technological Advancements and Bioethical concerns
Link NOC:Issues in Bioethics Lecture 17 - Module 4 - UNIT 2 - The challenges posed by Genetic Engineering and Gener Therapy Not Started
Link NOC:Issues in Bioethics Lecture 18 - Module 4 - Unit 3 - The challenges posed by Epidemic Threats
Link NOC:Issues in Bioethics Lecture 19 - Module 4 - Unit 4 - Religious Traditions and Contemporary Bioethics
Link NOC:Issues in Bioethics Lecture 20 - Module 4 - Unit 5 - Towards a Phronetic Bioethics
Link NOC:Technical English for Engineers Lecture 1 - An Introduction to the Course
Link NOC:Technical English for Engineers Lecture 2 - Parts of Speech - Nouns
Link NOC:Technical English for Engineers Lecture 3 - Parts of Speech - Preposition and Noun Phrases
Link NOC:Technical English for Engineers Lecture 4 - Countable and Uncountable Nouns
Link NOC:Technical English for Engineers Lecture 5 - Reading (Identifying main ideas) and Listening
Link NOC:Technical English for Engineers Lecture 6 - What is a Sentence
Link NOC:Technical English for Engineers Lecture 7 - What is a Sentence (Continued...)
Link NOC:Technical English for Engineers Lecture 8 - Subject Verb Agreement
Link NOC:Technical English for Engineers Lecture 9 - Articles
Link NOC:Technical English for Engineers Lecture 10 - Verbs
Link NOC:Technical English for Engineers Lecture 11 - Comparatives
Link NOC:Technical English for Engineers Lecture 12 - Modals and Voices
Link NOC:Technical English for Engineers Lecture 13 - Passive Voice (Continued...)
Link NOC:Technical English for Engineers Lecture 14 - Tenses
Link NOC:Technical English for Engineers Lecture 15 - Tenses (Continued...)
Link NOC:Technical English for Engineers Lecture 16 - Effective Speaking
Link NOC:Technical English for Engineers Lecture 17 - Formal Presentation
Link NOC:Technical English for Engineers Lecture 18 - Punctuation
Link NOC:Technical English for Engineers Lecture 19 - Punctuation (Continued...)
Link NOC:Technical English for Engineers Lecture 20 - Reading – SQW3R Method and Note-taking
Link NOC:Technical English for Engineers Lecture 21 - Phrasal Verbs
Link NOC:Technical English for Engineers Lecture 22 - Collocation
Link NOC:Technical English for Engineers Lecture 23 - Word Formation
Link NOC:Technical English for Engineers Lecture 24 - Understanding the text organization
Link NOC:Technical English for Engineers Lecture 25 - Writing Emails
Link NOC:Technical English for Engineers Lecture 26 - Academic Writing and Linking Words
Link NOC:Technical English for Engineers Lecture 27 - Paragraph Writing
Link NOC:Technical English for Engineers Lecture 28 - Describing/Explaining Processes
Link NOC:Technical English for Engineers Lecture 29 - Essay Writing
Link NOC:Technical English for Engineers Lecture 30 - Essay Writing and Formal Letters
Link NOC:Technical English for Engineers Lecture 31 - Letter Writing and Usage
Link NOC:Technical English for Engineers Lecture 32 - Understanding the Mechanics of Publishable Essays
Link NOC:Technical English for Engineers Lecture 33 - Writing Publishable Essays and Usage
Link NOC:Technical English for Engineers Lecture 34 - Report
Link NOC:Technical English for Engineers Lecture 35 - Everyday Usage
Link NOC:Technical English for Engineers Lecture 36 - Writing a Statement of Purpose
Link NOC:Technical English for Engineers Lecture 37 - CV/Resume and Cover Letters
Link NOC:Technical English for Engineers Lecture 38 - Conclusion
Link NOC:Health Research Fundamentals Lecture 1 - Introduction to Health Research
Link NOC:Health Research Fundamentals Lecture 2 - Formulating research question, hypothesis and objectives
Link NOC:Health Research Fundamentals Lecture 3 - Literature review
Link NOC:Health Research Fundamentals Lecture 4 - Measurement of disease frequency
Link NOC:Health Research Fundamentals Lecture 5 - Descriptive study designs
Link NOC:Health Research Fundamentals Lecture 6 - Analytical study designs
Link NOC:Health Research Fundamentals Lecture 7 - Experimental study designs: Clinical trials
Link NOC:Health Research Fundamentals Lecture 8 - Validity of epidemiological studies
Link NOC:Health Research Fundamentals Lecture 9 - Qualitative research methods: An overview
Link NOC:Health Research Fundamentals Lecture 10 - Measurement of study variables
Link NOC:Health Research Fundamentals Lecture 11 - Sampling methods
Link NOC:Health Research Fundamentals Lecture 12 - Calculating sample size and power
Link NOC:Health Research Fundamentals Lecture 13 - Selection of study population
Link NOC:Health Research Fundamentals Lecture 14 - Study plan and project management
Link NOC:Health Research Fundamentals Lecture 15 - Designing data collection tools
Link NOC:Health Research Fundamentals Lecture 16 - Principles of data collection
Link NOC:Health Research Fundamentals Lecture 17 - Data management
Link NOC:Health Research Fundamentals Lecture 18 - Overview of data analysis
Link NOC:Health Research Fundamentals Lecture 19 - Ethical framework for health research
Link NOC:Health Research Fundamentals Lecture 20 - Conducting clinical trials
Link NOC:Health Research Fundamentals Lecture 21 - Preparing a concept paper for research projects
Link NOC:Health Research Fundamentals Lecture 22 - Elements of a protocol for research studies
Link NOC:American Literature and Culture Lecture 1 - Lecture 1 - Introduction to the course on American Literature and Culture
Link NOC:American Literature and Culture Lecture 2 - Lecture 2 - Henry James : Introduction
Link NOC:American Literature and Culture Lecture 3 - Lecture 3 - Henry James : The Portrait of a Lady
Link NOC:American Literature and Culture Lecture 4 - Lecture 4 - Henry James : The Portrait of a Lady (Chapter 1-20)
Link NOC:American Literature and Culture Lecture 5 - Lecture 5 - Henry James : The Portrait of a Lady (Chapter 1-20 continued)
Link NOC:American Literature and Culture Lecture 6 - Lecture 6 - Henry James : The Portrait of a Lady (Chapter 1-20 continued)
Link NOC:American Literature and Culture Lecture 7 - Lecture 7 - Henry James : The Portrait of a Lady (Chapter 21-35)
Link NOC:American Literature and Culture Lecture 8 - Lecture 8a - Henry James : The Portrait of a Lady (Chapter 21-34)
Link NOC:American Literature and Culture Lecture 9 - Lecture 8b - Henry James : The Portrait of a Lady (Chapter 35)
Link NOC:American Literature and Culture Lecture 10 - Lecture 9a - Theodore Dreiser : An American Tragedy- Introduction
Link NOC:American Literature and Culture Lecture 11 - Lecture 9b - Theodore Dreiser : An American Tragedy
Link NOC:American Literature and Culture Lecture 12 - Lecture 10a - Theodore Dreiser : An American Tragedy
Link NOC:American Literature and Culture Lecture 13 - Lecture 10b - Theodore Dreiser : An American Tragedy
Link NOC:American Literature and Culture Lecture 14 - Lecture 10c - Theodore Dreiser : An American Tragedy
Link NOC:American Literature and Culture Lecture 15 - Lecture 11 - Herman Melville : Moby Dick
Link NOC:American Literature and Culture Lecture 16 - Lecture 12 - Herman Melville : Moby Dick
Link NOC:American Literature and Culture Lecture 17 - Lecture 12a - Herman Melville : A brief overview
Link NOC:American Literature and Culture Lecture 18 - Lecture 13a - Short Story
Link NOC:American Literature and Culture Lecture 19 - Lecture 13b - Flannery O'Connor : A brief overview
Link NOC:American Literature and Culture Lecture 20 - Lecture 14 - Flannery O'Connor
Link NOC:American Literature and Culture Lecture 21 - Lecture 15 - Ernest Hemingway : A brief overview
Link NOC:American Literature and Culture Lecture 22 - Lecture 16 - Ernest Hemingway : The Sun also Rises
Link NOC:American Literature and Culture Lecture 23 - Lecture 17 - Ernest Hemingway : The Sun also Rises
Link NOC:American Literature and Culture Lecture 24 - Lecture 18 - Ernest Hemingway : The Sun also Rises
Link NOC:American Literature and Culture Lecture 25 - Lecture 19 - Ernest Hemingway : The Sun also Rises
Link NOC:American Literature and Culture Lecture 26 - Lecture 20 - F. Scott Fitzgerald : A brief overview
Link NOC:American Literature and Culture Lecture 27 - Lecture 21 - Romanticism
Link NOC:American Literature and Culture Lecture 28 - Lecture 22 - Edgar Allen Poe : Annabel Lee
Link NOC:American Literature and Culture Lecture 29 - Lecture 23 - American Drama
Link NOC:American Literature and Culture Lecture 30 - Lecture 24 - Lillian Hellman
Link NOC:American Literature and Culture Lecture 31 - Lecture 25 - Lillian Hellman : The Children's Hour
Link NOC:American Literature and Culture Lecture 32 - Lecture 26 - Lillian Hellman : The Children's Hour
Link NOC:American Literature and Culture Lecture 33 - Lecture 27 - Lillian Hellman : The Children's Hour
Link NOC:American Literature and Culture Lecture 34 - Lecture 28 - Arthur Miller : The Dramatist, his life and works
Link NOC:American Literature and Culture Lecture 35 - Lecture 29 - Arthur Miller : A View From The Bridge
Link NOC:American Literature and Culture Lecture 36 - Lecture 30 - Arthur Miller : A View From The Bridge
Link NOC:American Literature and Culture Lecture 37 - Lecture 31 - Arthur Miller : A View From The Bridge
Link NOC:American Literature and Culture Lecture 38 - Lecture 32 - Eugene O'Neill : An Introduction
Link NOC:American Literature and Culture Lecture 39 - Lecture 33 - Eugene O'Neill : Desire Under the Elms
Link NOC:American Literature and Culture Lecture 40 - Lecture 34 - Edith Wharton : An Introduction
Link NOC:American Literature and Culture Lecture 41 - Lecture 35 - Edith Wharton : Age Of Innocence
Link NOC:American Literature and Culture Lecture 42 - Lecture 36 - Edith Wharton : The Age of Innocence
Link NOC:American Literature and Culture Lecture 43 - Lecture 37 - Edith Wharton : The Age of Innocence
Link NOC:American Literature and Culture Lecture 44 - Lecture 38 - Christopher Hitchens : Jewish Power, Jewish Peril
Link NOC:American Literature and Culture Lecture 45 - Lecture 39 - Hart Crane : The Bridge
Link NOC:Economics of IPR Lecture 1 - Introduction to IPR - Historical Overview from GATT to WTO
Link NOC:Economics of IPR Lecture 2 - Why IPR Matters
Link NOC:Economics of IPR Lecture 3 - Application of IPR in the Global World
Link NOC:Economics of IPR Lecture 4 - Economic Perspective on IPR
Link NOC:Economics of IPR Lecture 5 - Types of IPR Its introduction and objectives
Link NOC:Economics of IPR Lecture 6 - Globalization of IPR
Link NOC:Economics of IPR Lecture 7 - Economics of Copyright
Link NOC:Economics of IPR Lecture 8 - Economics of Patent
Link NOC:Economics of IPR Lecture 9 - Economics of Trademarks
Link NOC:Economics of IPR Lecture 10 - Economics of Trade Secrets
Link NOC:Economics of IPR Lecture 11 - Economics of Industrial Design
Link NOC:Economics of IPR Lecture 12 - Issues in Contemporary Patent
Link NOC:Economics of IPR Lecture 13 - Critical Issues in Copyright and Related Rights
Link NOC:Economics of IPR Lecture 14 - Issues in Traditional Knowledge
Link NOC:Economics of IPR Lecture 15 - Plant Varieties Protection and Biotechnology
Link NOC:Economics of IPR Lecture 16 - Commercialization of Intellectual Property and Unfair Competition
Link NOC:Economics of IPR Lecture 17 - Disputes related to Patent in WTO
Link NOC:Economics of IPR Lecture 18 - Disputes related to copyright, etc. in WTO
Link NOC:Economics of IPR Lecture 19 - IP and Development
Link NOC:Economics of IPR Lecture 20 - Summarizing the course
Link NOC:Applied Linguistics Lecture 1 - Introduction
Link NOC:Applied Linguistics Lecture 2 - Language
Link NOC:Applied Linguistics Lecture 3 - Language in Society
Link NOC:Applied Linguistics Lecture 4 - Acquisition
Link NOC:Applied Linguistics Lecture 5 - Vocal Apparatus
Link NOC:Applied Linguistics Lecture 6 - Places and Manners of Articulation
Link NOC:Applied Linguistics Lecture 7 - Word Formation Phonotactic Rules
Link NOC:Applied Linguistics Lecture 8 - Rules of Word Formation
Link NOC:Applied Linguistics Lecture 9 - Sentences- an introduction
Link NOC:Applied Linguistics Lecture 10 - Components of a Sentence
Link NOC:Applied Linguistics Lecture 11 - Grammaticality and Acceptability
Link NOC:Applied Linguistics Lecture 12 - Subject and Verb in a sentence
Link NOC:Applied Linguistics Lecture 13 - Sentence : Objects and Verbs
Link NOC:Applied Linguistics Lecture 14 - Application of linguistic structure in social theory
Link NOC:Applied Linguistics Lecture 15 - Second Language Acquisition
Link NOC:Applied Linguistics Lecture 16 - Language and Multilingualism
Link NOC:Applied Linguistics Lecture 17 - Language, Culture and Cognition
Link NOC:Applied Linguistics Lecture 18 - Classroom discussion on Language, Culture and Cognition
Link NOC:Applied Linguistics Lecture 19 - Language and Gender
Link NOC:Applied Linguistics Lecture 20 - Language, Media and Network society
Link NOC:Applied Linguistics Lecture 21 - Language Teaching
Link NOC:Applied Linguistics Lecture 22 - Language Teaching Methods - I
Link NOC:Applied Linguistics Lecture 23 - Language Teaching Methods - II
Link NOC:Applied Linguistics Lecture 24 - Materials and Assessment in Teaching Language
Link NOC:Applied Linguistics Lecture 25 - Disability and Learning Disorder
Link NOC:Applied Linguistics Lecture 26 - Language Development and Specific Difficulties
Link NOC:Applied Linguistics Lecture 27 - Dyslexia: A Developmental Phenomenon or a Disorder
Link NOC:Applied Linguistics Lecture 28 - Specific Learning Difficulties
Link NOC:Applied Linguistics Lecture 29 - Language and Computers
Link NOC:Applied Linguistics Lecture 30 - Language, Computers and Applications
Link NOC:Applied Linguistics Lecture 31 - Language and Education
Link NOC:Applied Linguistics Lecture 32 - Language and Application
Link NOC:English Language for Competitive Exams Lecture 1 - What is Reading Comprehension?
Link NOC:English Language for Competitive Exams Lecture 2 - Literature and reading comprehension
Link NOC:English Language for Competitive Exams Lecture 3 - Scientific passages and reading comprehension
Link NOC:English Language for Competitive Exams Lecture 4 - Analyze a task - 1
Link NOC:English Language for Competitive Exams Lecture 5 - Analyze a task - 2
Link NOC:English Language for Competitive Exams Lecture 6 - Reading - Comprehending Scientific Passages
Link NOC:English Language for Competitive Exams Lecture 7 - Comprehending Literary Passages - 1
Link NOC:English Language for Competitive Exams Lecture 8 - Comprehending Literary Passages - 2
Link NOC:English Language for Competitive Exams Lecture 9 - Academic writing
Link NOC:English Language for Competitive Exams Lecture 10 - Text - Completion
Link NOC:English Language for Competitive Exams Lecture 11 - Analogy
Link NOC:English Language for Competitive Exams Lecture 12 - Writing : Long Essays
Link NOC:English Language for Competitive Exams Lecture 13 - Writing : Long Essays (Continued...)
Link NOC:English Language for Competitive Exams Lecture 14 - Listening
Link NOC:English Language for Competitive Exams Lecture 15 - Writing : Imaginative Essays
Link NOC:English Language for Competitive Exams Lecture 16 - Listening for Specific Information
Link NOC:English Language for Competitive Exams Lecture 17 - Reading Comprehension
Link NOC:English Language for Competitive Exams Lecture 18 - (Lecture Missing)
Link NOC:English Language for Competitive Exams Lecture 19 - Reading Comprehension: Long Passages
Link NOC:English Language for Competitive Exams Lecture 20 - Verbal Analogy and Vocabulary
Link NOC:English Language for Competitive Exams Lecture 21 - Vocabulary: Word Families and Confusable Words
Link NOC:English Language for Competitive Exams Lecture 22 - Vocabulary: word origins and confusable words
Link NOC:English Language for Competitive Exams Lecture 23 - Vocabulary: Text Completion - Part 1
Link NOC:English Language for Competitive Exams Lecture 24 - Vocabulary: Text Completion - Part 2
Link NOC:English Language for Competitive Exams Lecture 25 - Vocabulary: Text Completion - Part 3
Link NOC:English Language for Competitive Exams Lecture 26 - Vocabulary: Synonyms, Meanings and Confusable Words
Link NOC:English Language for Competitive Exams Lecture 27 - Text Completion
Link NOC:English Language for Competitive Exams Lecture 28 - Text Completion (Continued...)
Link NOC:English Language for Competitive Exams Lecture 29 - Analogy and Text Completion
Link NOC:English Language for Competitive Exams Lecture 30 - Text Completion (Continued...)
Link NOC:English Language for Competitive Exams Lecture 31 - Text Completion - Part 4
Link NOC:English Language for Competitive Exams Lecture 32 - Names and Vocabulary
Link NOC:English Language for Competitive Exams Lecture 33 - Latin Terms in English Vocabulary
Link NOC:English Language for Competitive Exams Lecture 34 - Greek Mythology and Vocabulary
Link NOC:English Language for Competitive Exams Lecture 35 - Green Names and Foreign Words
Link NOC:English Language for Competitive Exams Lecture 36 - Vocabulary Practice Test
Link NOC:English Language for Competitive Exams Lecture 37 - Analogy
Link NOC:English Language for Competitive Exams Lecture 38 - Foreign Words and Names
Link NOC:English Language for Competitive Exams Lecture 39 - Suffixes and Reference Words
Link NOC:English Language for Competitive Exams Lecture 40 - Uncommon Words - Part 1
Link NOC:English Language for Competitive Exams Lecture 41 - Uncommon Words - Part 2
Link NOC:English Language for Competitive Exams Lecture 42 - More Uncommon Words
Link NOC:English Language for Competitive Exams Lecture 43 - More Uncommon Words (Continued...)
Link NOC:English Language for Competitive Exams Lecture 44 - Vocabulary and Analogy
Link NOC:English Language for Competitive Exams Lecture 45 - Vocabulary: Mixed Bag
Link NOC:English Language for Competitive Exams Lecture 46 - Subject-Verb Agreement and Sentence Correction
Link NOC:English Language for Competitive Exams Lecture 47 - Sentence Correction
Link NOC:English Language for Competitive Exams Lecture 48 - Conditional Clauses, Prepositions and Reported Speech
Link NOC:English Language for Competitive Exams Lecture 49 - Clauses
Link NOC:English Language for Competitive Exams Lecture 50 - Modifiers, Active Voice and Passive Voice
Link NOC:English Language for Competitive Exams Lecture 51 - Gerunds and Infinitives
Link NOC:English Language for Competitive Exams Lecture 52 - Coordinators and Conjunctions - Part 1
Link NOC:English Language for Competitive Exams Lecture 53 - Coordinators and Conjunctions - Part 2
Link NOC:English Language for Competitive Exams Lecture 54 - Grammar: Words and Expressions
Link NOC:English Language for Competitive Exams Lecture 55 - Grammar: Phrasal Verbs
Link NOC:English Language for Competitive Exams Lecture 56 - Punctuation
Link NOC:English Language for Competitive Exams Lecture 57 - Punctuation (Continued...)
Link NOC:English Language for Competitive Exams Lecture 58 - Revision - Vocabulary
Link NOC:English Language for Competitive Exams Lecture 59 - Revision - Subject verb agreement
Link NOC:English Language for Competitive Exams Lecture 60 - Read and Revise
Link NOC:Ethics Lecture 1 - Ethics and Morals: Introductory Remarks
Link NOC:Ethics Lecture 2 - Different Approaches to Ethics
Link NOC:Ethics Lecture 3 - Historical Perspectives: Agent-Centric Moral Theory of the East and the West
Link NOC:Ethics Lecture 4 - Medieval and Modern Moral Theories
Link NOC:Ethics Lecture 5 - Socratic Framework in Morla Philosophy
Link NOC:Ethics Lecture 6 - Eudaimonism to Divine Command
Link NOC:Ethics Lecture 7 - Divine Command Theory and the Euthyphro Dilemma
Link NOC:Ethics Lecture 8 - Different Types of Ethical Theory
Link NOC:Ethics Lecture 9 - Thomas Hobbes: Morality as Contract
Link NOC:Ethics Lecture 10 - Contractarianism
Link NOC:Ethics Lecture 11 - Contractarianism and its Moral Implications
Link NOC:Ethics Lecture 12 - Introduction to Deontological Approaches
Link NOC:Ethics Lecture 13 - Kantian Deontologism
Link NOC:Ethics Lecture 14 - Egoism and its Ethical Implications
Link NOC:Ethics Lecture 15 - Motivational and Ethical Hedonism
Link NOC:Ethics Lecture 16 - Utilitarianism and its Moral Position
Link NOC:Ethics Lecture 17 - The Individual and the Whole: The Ethics of Social Relations
Link NOC:Ethics Lecture 18 - Critique of Moral Absolutism: Nietzsche and his Reevaluation of Morals
Link NOC:Ethics Lecture 19 - Existentialism and Ethics
Link NOC:Ethics Lecture 20 - Ethics in the Present Age
Link NOC:The Renaissance and Shakespeare Lecture 1 - The Renaissance An Introduction - Part-1
Link NOC:The Renaissance and Shakespeare Lecture 2 - The Renaissance An Introduction - Part-2
Link NOC:The Renaissance and Shakespeare Lecture 3 - Shakespeare's Life and Times
Link NOC:The Renaissance and Shakespeare Lecture 4 - Shakespeare's, William Shakespeare The Merchant of Venice performance
Link NOC:The Renaissance and Shakespeare Lecture 5 - Shakespeare's, William Shakespeare The Merchant of Venice Panel Discussion
Link NOC:The Renaissance and Shakespeare Lecture 6 - Othello Part-1
Link NOC:The Renaissance and Shakespeare Lecture 7 - Othello Part-2
Link NOC:The Renaissance and Shakespeare Lecture 8 - Lecture on A Midsummer Night's Dream
Link NOC:The Renaissance and Shakespeare Lecture 9 - A Midsummer Night's Dream Performance
Link NOC:The Renaissance and Shakespeare Lecture 10 - A Midsummer Night's Dream Panel Discussion
Link NOC:The Renaissance and Shakespeare Lecture 11 - Shakespeare's History Plays
Link NOC:The Renaissance and Shakespeare Lecture 12 - Lecture on Macbeth
Link NOC:The Renaissance and Shakespeare Lecture 13 - Shakespeare's Romances or The Last Plays
Link NOC:The Renaissance and Shakespeare Lecture 14 - Twelfth Night
Link NOC:The Renaissance and Shakespeare Lecture 15 - Whose Shakespeares?? Colonial Encounters/Post Colonial Negotiations
Link NOC:The Renaissance and Shakespeare Lecture 16 - Global Shakespeare
Link NOC:The Renaissance and Shakespeare Lecture 17 - Global Shakespeare (Continued...)
Link NOC:Literature for Competitive Exams Lecture 1 - An Overview of the History of English Literature
Link NOC:Literature for Competitive Exams Lecture 2 - An Overview of the History of English Literature (Continued...)
Link NOC:Literature for Competitive Exams Lecture 3 - Landmarks of the English literature
Link NOC:Literature for Competitive Exams Lecture 4 - The Novel: An Overview
Link NOC:Literature for Competitive Exams Lecture 5 - Landmarks in the English History
Link NOC:Literature for Competitive Exams Lecture 6 - The Elizabethan Age
Link NOC:Literature for Competitive Exams Lecture 7 - The Elizabethan Period (Part 1)
Link NOC:Literature for Competitive Exams Lecture 8 - Key Figures of the Renaissance and the Elizabethan Age
Link NOC:Literature for Competitive Exams Lecture 9 - 17 and early 18th century landmark events and literature
Link NOC:Literature for Competitive Exams Lecture 10 - Literature and major events in 18 and 19 century
Link NOC:Literature for Competitive Exams Lecture 11 - 18 and 19 century European masters
Link NOC:Literature for Competitive Exams Lecture 12 - The English Poets
Link NOC:Literature for Competitive Exams Lecture 13 - The Romantic Period
Link NOC:Literature for Competitive Exams Lecture 14 - The English Romanticism
Link NOC:Literature for Competitive Exams Lecture 15 - The English Poets (Continued...)
Link NOC:Literature for Competitive Exams Lecture 16 - New Criticism
Link NOC:Literature for Competitive Exams Lecture 17 - The American Romanticism
Link NOC:Literature for Competitive Exams Lecture 18 - American Literature
Link NOC:Literature for Competitive Exams Lecture 19 - Henry James
Link NOC:Literature for Competitive Exams Lecture 20 - American literature: Practice Test
Link NOC:Literature for Competitive Exams Lecture 21 - The American Novel
Link NOC:Literature for Competitive Exams Lecture 22 - American Drama and Poetry
Link NOC:Literature for Competitive Exams Lecture 23 - American Drama
Link NOC:Literature for Competitive Exams Lecture 24 - American poets and Dramatists
Link NOC:Literature for Competitive Exams Lecture 25 - Practice Test (Continued...)
Link NOC:Literature for Competitive Exams Lecture 26 - Indian Writing in English: Novel and Poetry
Link NOC:Literature for Competitive Exams Lecture 27 - Postcolonialism
Link NOC:Literature for Competitive Exams Lecture 28 - Asian American Writing
Link NOC:Literature for Competitive Exams Lecture 29 - South Asian Writing in English
Link NOC:Literature for Competitive Exams Lecture 30 - World Literature
Link NOC:Literature for Competitive Exams Lecture 31 - World Literature (Continued...)
Link NOC:Literature for Competitive Exams Lecture 32 - Goethe Faust
Link NOC:Literature for Competitive Exams Lecture 33 - Goethe Faust (Continued...)
Link NOC:History of English Language and Literature Lecture 1 - Introduction : Literary History
Link NOC:History of English Language and Literature Lecture 2 - Locating the Starting Points : The Anglo-Saxon Period
Link NOC:History of English Language and Literature Lecture 3 - Old English period : Anglo-Saxon period
Link NOC:History of English Language and Literature Lecture 4 - Middle English Period : English Before Chaucer
Link NOC:History of English Language and Literature Lecture 5 - The Age of Chaucer
Link NOC:History of English Language and Literature Lecture 6 - Middle English period after Chaucer
Link NOC:History of English Language and Literature Lecture 7 - Middle English period after Chaucer
Link NOC:History of English Language and Literature Lecture 8 - The Development of English Language - Tracing the Origins and Early Influences
Link NOC:History of English Language and Literature Lecture 9 - The Development of English Language - Old English to Middle English
Link NOC:History of English Language and Literature Lecture 10 - Introducing the Elizabethan Era - The English Reformation
Link NOC:History of English Language and Literature Lecture 11 - The Elizabethan Age : The Beginning Of a Golden Era
Link NOC:History of English Language and Literature Lecture 12 - Elizabethan Age : English Drama Before Shakespeare
Link NOC:History of English Language and Literature Lecture 13 - The Emergence of Elizabethan 'Romantic' Drama
Link NOC:History of English Language and Literature Lecture 14 - The University Wits : A Prelude to Shakespeare
Link NOC:History of English Language and Literature Lecture 15 - The University Wits : A Prelude to Shakespeare-
Link NOC:History of English Language and Literature Lecture 16 - William Shakespeare : The Man, the Dramatist and an Age
Link NOC:History of English Language and Literature Lecture 17 - William Shakespeare : An Overview of his Drama
Link NOC:History of English Language and Literature Lecture 18 - Elizabethan Theatre
Link NOC:History of English Language and Literature Lecture 19 - Elizabethan Poetry and Prose
Link NOC:History of English Language and Literature Lecture 20 - The Jacobean Age
Link NOC:History of English Language and Literature Lecture 21 - The Jacobean Age (Continued...)
Link NOC:History of English Language and Literature Lecture 22 - Jacobean Drama
Link NOC:History of English Language and Literature Lecture 23 - Did Women Have a Renaissance?
Link NOC:History of English Language and Literature Lecture 24 - The Caroline Period / The Age of Milton and The Interregnum
Link NOC:History of English Language and Literature Lecture 25 - The Caroline Period / The Age of Milton and The Interregnum (Continued...)
Link NOC:History of English Language and Literature Lecture 26 - The Age of Milton : Prose and Poetry
Link NOC:History of English Language and Literature Lecture 27 - Changes in Language : Early Modern English
Link NOC:History of English Language and Literature Lecture 28 - Early Modern English (Continued...)
Link NOC:History of English Language and Literature Lecture 29 - The Age of Restoration
Link NOC:History of English Language and Literature Lecture 30 - The Age of Dryden
Link NOC:History of English Language and Literature Lecture 31 - The Restoration Drama
Link NOC:History of English Language and Literature Lecture 32 - The Age of Pope / The Augustan Age
Link NOC:History of English Language and Literature Lecture 33 - The Age of Pope : Prose (Perodicals,Essays and The Rise Of the Novel)
Link NOC:History of English Language and Literature Lecture 34 - The Age of Pope : Prose (Perodicals,Essays and The Rise Of Novel) (Continued...)
Link NOC:History of English Language and Literature Lecture 35 - The Age of Pope Conclusion
Link NOC:History of English Language and Literature Lecture 36 - Scottish Enlightenment of the 18th Century
Link NOC:History of English Language and Literature Lecture 37 - The Age of Johnson (1745 - 1798)
Link NOC:History of English Language and Literature Lecture 38 - The Age of Johnson (Continued...)
Link NOC:History of English Language and Literature Lecture 39 - The Rise of the Novel
Link NOC:History of English Language and Literature Lecture 40 - The Rise of the Novel
Link NOC:History of English Language and Literature Lecture 41 - The Rise of the Novel (Continued...)
Link NOC:History of English Language and Literature Lecture 42 - The Rise of the Woman Writer in the 18th Century
Link NOC:History of English Language and Literature Lecture 43 - The Revival of Romance
Link NOC:History of English Language and Literature Lecture 44 - The Revival of Romance (Continued...)
Link NOC:History of English Language and Literature Lecture 45 - The Revival of Romance
Link NOC:History of English Language and Literature Lecture 46 - The Age of Romanticism: Introduction
Link NOC:History of English Language and Literature Lecture 47 - The Age of Wordsworth
Link NOC:History of English Language and Literature Lecture 48 - Age of Wordsworth (Continued...)
Link NOC:History of English Language and Literature Lecture 49 - Age of Wordsworth (Continued...)
Link NOC:History of English Language and Literature Lecture 50 - Prose in the age of Romanticism
Link NOC:History of English Language and Literature Lecture 51 - Drama in the age of Romanticism
Link NOC:History of English Language and Literature Lecture 52 - Novel in the age of Romanticism
Link NOC:History of English Language and Literature Lecture 53 - Women writers in the Romantic age
Link NOC:History of English Language and Literature Lecture 54 - The Age of Tennyson : Victorian Era
Link NOC:History of English Language and Literature Lecture 55 - The Age of Tennyson : Victorian Poetry
Link NOC:History of English Language and Literature Lecture 56 - The Age of Tennyson : Victorian Poetry (Continued...)
Link NOC:History of English Language and Literature Lecture 57 - The Age of Tennyson : Victorian Poetry (Continued...)
Link NOC:History of English Language and Literature Lecture 58 - Prose in the Victorial Age
Link NOC:History of English Language and Literature Lecture 59 - Drama in the Victorian Age
Link NOC:History of English Language and Literature Lecture 60 - Victorian Novel and the Late Victorian Period
Link NOC:History of English Language and Literature Lecture 61 - The Age of Tennyson : Victorian Poetry (New)
Link NOC:History of English Language and Literature Lecture 62 - Towards Modernism
Link NOC:History of English Language and Literature Lecture 63 - Modernist Literature
Link NOC:History of English Language and Literature Lecture 64 - Modernist Poetry
Link NOC:History of English Language and Literature Lecture 65 - Modernist Prose and Fiction
Link NOC:History of English Language and Literature Lecture 66 - Post-1945: Post-Modern Age
Link NOC:History of English Language and Literature Lecture 67 - The Age of Restoration (New)
Link NOC:History of English Language and Literature Lecture 68 - The Age of Tennyson: Victorial Poetry (New)
Link NOC:Patent Drafting for Beginners Lecture 1 - PDB-What are Inventions?
Link NOC:Patent Drafting for Beginners Lecture 2 - Background
Link NOC:Patent Drafting for Beginners Lecture 3 - Field of Invention
Link NOC:Patent Drafting for Beginners Lecture 4 - Prior Art
Link NOC:Patent Drafting for Beginners Lecture 5 - Patent Classification
Link NOC:Patent Drafting for Beginners Lecture 6 - Technical Advance
Link NOC:Patent Drafting for Beginners Lecture 7 - What are not inventions
Link NOC:Patent Drafting for Beginners Lecture 8 - Why People Invent
Link NOC:Patent Drafting for Beginners Lecture 9 - How Inventions Look
Link NOC:Patent Drafting for Beginners Lecture 10 - Where to Look for Inventions
Link NOC:Patent Drafting for Beginners Lecture 11 - How to Catch an Invention
Link NOC:Patent Drafting for Beginners Lecture 12 - Getting a working disclosure
Link NOC:Patent Drafting for Beginners Lecture 13 - Searching with the disclosure
Link NOC:Patent Drafting for Beginners Lecture 14 - Outcome of search
Link NOC:Patent Drafting for Beginners Lecture 15 - What is a Patentability Search
Link NOC:Patent Drafting for Beginners Lecture 16 - Reasons for Ordering a Patentability Search
Link NOC:Patent Drafting for Beginners Lecture 17 - When a Patentability Search is Not Required
Link NOC:Patent Drafting for Beginners Lecture 18 - How to Order a Patentability Search
Link NOC:Patent Drafting for Beginners Lecture 19 - Limits of Patentability Search
Link NOC:Patent Drafting for Beginners Lecture 20 - Patentability Search Report
Link NOC:Patent Drafting for Beginners Lecture 21 - How to pitch an invention
Link NOC:Patent Drafting for Beginners Lecture 22 - Identifying the inventive concept
Link NOC:Patent Drafting for Beginners Lecture 23 - Problem Solution Statement
Link NOC:Patent Drafting for Beginners Lecture 24 - Problem-Solution to Claim
Link NOC:Patent Drafting for Beginners Lecture 25 - How to Search for a Granted Patent
Link NOC:Patent Drafting for Beginners Lecture 26 - Provisions relating to claim
Link NOC:Patent Drafting for Beginners Lecture 27 - Some Exceptions to patentability
Link NOC:Patent Drafting for Beginners Lecture 28 - Structure of Claims
Link NOC:Patent Drafting for Beginners Lecture 29 - Preamble
Link NOC:Patent Drafting for Beginners Lecture 30 - Transition
Link NOC:Patent Drafting for Beginners Lecture 31 - Body
Link NOC:Patent Drafting for Beginners Lecture 32 - Form and Punctuation of Claims
Link NOC:Patent Drafting for Beginners Lecture 33 - Omnibus Claims
Link NOC:Patent Drafting for Beginners Lecture 34 - Structural and Functional Definitions
Link NOC:Patent Drafting for Beginners Lecture 35 - Cooperation
Link NOC:Patent Drafting for Beginners Lecture 36 - Types of Claims
Link NOC:Patent Drafting for Beginners Lecture 37 - Dependent claims
Link NOC:Patent Drafting for Beginners Lecture 38 - Apparatus Claims
Link NOC:Patent Drafting for Beginners Lecture 39 - Methods or Process Claims
Link NOC:Patent Drafting for Beginners Lecture 40 - Claim Drafting Best Practices
Link NOC:Patent Drafting for Beginners Lecture 41 - Claims Drafting What to Avoid
Link NOC:Patent Drafting for Beginners Lecture 42 - How to Download Copy of Patent Specification
Link NOC:Patent Drafting for Beginners Lecture 43 - Amendment to Claims
Link NOC:Patent Drafting for Beginners Lecture 44 - Claim Analysis Combo Pen with Marker
Link NOC:Patent Drafting for Beginners Lecture 45 - Introduction to Specification Drafting
Link NOC:Patent Drafting for Beginners Lecture 46 - Enabling Disclosure
Link NOC:Patent Drafting for Beginners Lecture 47 - Best method
Link NOC:Patent Drafting for Beginners Lecture 48 - Parts of the specification
Link NOC:Patent Drafting for Beginners Lecture 49 - Background and Summary
Link NOC:Patent Drafting for Beginners Lecture 50 - Detailed description
Link NOC:Patent Drafting for Beginners Lecture 51 - Parts of the Application
Link NOC:Patent Drafting for Beginners Lecture 52 - Evolution of Patent Specifications
Link NOC:Patent Drafting for Beginners Lecture 53 - Live Session
Link NOC:Business English Communication Lecture 1 - Reading Comprehension - 1
Link NOC:Business English Communication Lecture 2 - Reading Comprehension - 2
Link NOC:Business English Communication Lecture 3 - Reading Comprehension - 3
Link NOC:Business English Communication Lecture 4 - Reading Comprehension - 4
Link NOC:Business English Communication Lecture 5 - Reading Comprehension - 5
Link NOC:Business English Communication Lecture 6 - Vocabulary - 1
Link NOC:Business English Communication Lecture 7 - Vocabulary - 2
Link NOC:Business English Communication Lecture 8 - Vocabulary - 3
Link NOC:Business English Communication Lecture 9 - Vocabulary - 4
Link NOC:Business English Communication Lecture 10 - Vocabulary - 5
Link NOC:Business English Communication Lecture 11 - Grammar (subject verb agreement)
Link NOC:Business English Communication Lecture 12 - Grammar (Tenses)
Link NOC:Business English Communication Lecture 13 - Grammar (Clauses, Gerund and Infinitives, Coordinating conjunctions )
Link NOC:Business English Communication Lecture 14 - Grammar (Prepositions, Reported Speech, Active Voice and Passive Voice)
Link NOC:Business English Communication Lecture 15 - Grammar (Punctuations and Types of sentences: simple, compound and complex )
Link NOC:Business English Communication Lecture 16 - Writing (Emails and Memos)
Link NOC:Business English Communication Lecture 17 - Writing (Official letters and Presentation scripts)
Link NOC:Business English Communication Lecture 18 - Writing (Different business writing genres)
Link NOC:Business English Communication Lecture 19 - Writing (Business writing and vocabulary for specific situations)
Link NOC:Postmodernism in Literature Lecture 1 - Introduction Part - 1
Link NOC:Postmodernism in Literature Lecture 2 - Introduction Part - 2
Link NOC:Postmodernism in Literature Lecture 3 - Introduction Part - 3
Link NOC:Postmodernism in Literature Lecture 4 - The Genealogy of Postmodernism
Link NOC:Postmodernism in Literature Lecture 5 - The Genealogy of Postmodernism : Locating the starting points
Link NOC:Postmodernism in Literature Lecture 6 - The Death of the author and it's Postmodern implications
Link NOC:Postmodernism in Literature Lecture 7 - The Death of the author and it's Postmodern implications (Continued...)
Link NOC:Postmodernism in Literature Lecture 8 - The Death of the author and it's Postmodern implications (Continued...)
Link NOC:Postmodernism in Literature Lecture 9 - What is an Author ?
Link NOC:Postmodernism in Literature Lecture 10 - What is an Author ? (Continued...)
Link NOC:Postmodernism in Literature Lecture 11 - Postmodern Theories and Frameworks : An Outline
Link NOC:Postmodernism in Literature Lecture 12 - Lyotard's Postmodern condition : Challenging Metanarratives
Link NOC:Postmodernism in Literature Lecture 13 - Lyotard's Postmodern condition : Challenging Metanarratives (Continued...)
Link NOC:Postmodernism in Literature Lecture 14 - Baudrillard,Hyperreality and Postmodern representations
Link NOC:Postmodernism in Literature Lecture 15 - Baudrillard,Hyperreality and Postmodern representations (Continued...)
Link NOC:Postmodernism in Literature Lecture 16 - Derrida,Deconstruction and Postmodern texts
Link NOC:Postmodernism in Literature Lecture 17 - Derrida,Deconstruction and Postmodern texts (Continued...)
Link NOC:Postmodernism in Literature Lecture 18 - Derrida,Deconstruction and Postmodern texts (Continued...)
Link NOC:Postmodernism in Literature Lecture 19 - Intertextuality,Kristeva and the study of Postmodern Texts
Link NOC:Postmodernism in Literature Lecture 20 - Postmodern Feminism : Gender and Performativity
Link NOC:Postmodernism in Literature Lecture 21 - Formulation of the Postmodern : Deleuze and Guattari
Link NOC:Postmodernism in Literature Lecture 22 - Minor Literature' and Postmodern Narratives
Link NOC:Postmodernism in Literature Lecture 23 - Critiques of Postmodernism : A Marxist Perspective
Link NOC:Postmodernism in Literature Lecture 24 - Critiques of Postmodernism
Link NOC:Postmodernism in Literature Lecture 25 - Feminism and Postmodernism
Link NOC:Postmodernism in Literature Lecture 26 - Situating the Postcolonial in the Postmodern
Link NOC:Postmodernism in Literature Lecture 27 - Homi K.Bhabha : The Postmodern and the Postcolonial
Link NOC:Postmodernism in Literature Lecture 28 - Is the Post-in Postmodernism the Post-in Postcolonial? : Understanding Appiah
Link NOC:Postmodernism in Literature Lecture 29 - Can the Subaltern Speak? : Deconstructing the Postcolonial
Link NOC:Postmodernism in Literature Lecture 30 - Reading Postmodern-Postcolonial Fiction
Link NOC:Postmodernism in Literature Lecture 31 - Hyperreality in Delillo's Postmodernist Fiction : A Discussion of White Noise
Link NOC:Postmodernism in Literature Lecture 32 - The Garden of Forking Paths : Postmodernist short fiction
Link NOC:Postmodernism in Literature Lecture 33 - The Garden of Forking Paths : Postmodernist short fiction (Continued...)
Link NOC:Postmodernism in Literature Lecture 34 - Postmodern Fiction by women : Reading Atwood's The Edible Woman
Link NOC:Postmodernism in Literature Lecture 35 - Postmodern Fiction by women : Reading Atwood's The Handmaid's Tale
Link NOC:Postmodernism in Literature Lecture 36 - Reading Postmdern Fiction : Slaughterhouse-Five b Kurt Vonnegut
Link NOC:Postmodernism in Literature Lecture 37 - Reading Postmdern Fiction : The French Lieutenant's Woman by John Fowles
Link NOC:Postmodernism in Literature Lecture 38 - Postmodern Writings : Features,trends and some departures
Link NOC:Postmodernism in Literature Lecture 39 - Postmodern Writings : Situating Pynchon and the Beat Generation
Link NOC:Postmodernism in Literature Lecture 40 - Postmodern literature today : Some concluding thoughts
Link NOC:Indian Fiction in English Lecture 1 - Indian Fiction in English - Introduction
Link NOC:Indian Fiction in English Lecture 2 - Rushdie and Indian Writing
Link NOC:Indian Fiction in English Lecture 3 - Situating 'fiction' in the history of Indian Writing in English
Link NOC:Indian Fiction in English Lecture 4 - Indian Writing in English: A Background
Link NOC:Indian Fiction in English Lecture 5 - Introducing Indian Fiction in English
Link NOC:Indian Fiction in English Lecture 6 - The Critical Tradition of Indian Fiction in English
Link NOC:Indian Fiction in English Lecture 7 - The rise of novel in regional languages: Indulekha
Link NOC:Indian Fiction in English Lecture 8 - Rajmohan's Wife to Kanthapura
Link NOC:Indian Fiction in English Lecture 9 - Kanthapura, Mythmaking and Gandhi
Link NOC:Indian Fiction in English Lecture 10 - Mahatma and Indian novels in English
Link NOC:Indian Fiction in English Lecture 11 - Waiting for the Mahatma - Part I
Link NOC:Indian Fiction in English Lecture 12 - Waiting for the Mahatma - Part II
Link NOC:Indian Fiction in English Lecture 13 - Indian Fiction in English: 1950s and 1960s
Link NOC:Indian Fiction in English Lecture 14 - Heat and Dust
Link NOC:Indian Fiction in English Lecture 15 - The Strange Case of Billy Biswas
Link NOC:Indian Fiction in English Lecture 16 - Cry, the Peacock
Link NOC:Indian Fiction in English Lecture 17 - Midnight's children: An introduction
Link NOC:Indian Fiction in English Lecture 18 - Reading Midnight's Children
Link NOC:Indian Fiction in English Lecture 19 - Salman Rushdie in Indian Fiction in English
Link NOC:Indian Fiction in English Lecture 20 - Midnight's Children
Link NOC:Indian Fiction in English Lecture 21 - Zelaldinus: A Masque
Link NOC:Indian Fiction in English Lecture 22 - Trotter Nama
Link NOC:Indian Fiction in English Lecture 23 - Shadow Lines
Link NOC:Indian Fiction in English Lecture 24 - Reading the Shadow Lines
Link NOC:Indian Fiction in English Lecture 25 - Caste in Indian English Fiction
Link NOC:Indian Fiction in English Lecture 26 - Caste in Untouchable
Link NOC:Indian Fiction in English Lecture 27 - Reading The God of Small Things - I
Link NOC:Indian Fiction in English Lecture 28 - Reading The God of Small Things - II
Link NOC:Indian Fiction in English Lecture 29 - Other Representations of Caste in IE fiction
Link NOC:Indian Fiction in English Lecture 30 - All About H.Hatterr
Link NOC:Indian Fiction in English Lecture 31 - Rich Like Us
Link NOC:Indian Fiction in English Lecture 32 - Partition novels
Link NOC:Indian Fiction in English Lecture 33 - White Tiger
Link NOC:Indian Fiction in English Lecture 34 - Notes on the New Indian Novel in English
Link NOC:Indian Fiction in English Lecture 35 - Riot: A Novel by Shashi Tharoor
Link NOC:Indian Fiction in English Lecture 36 - English, August by Upamanyu Chatterjee
Link NOC:Indian Fiction in English Lecture 37 - The Hungry Tide by Amitav Ghosh
Link NOC:Indian Fiction in English Lecture 38 - Remains of the Feast
Link NOC:Indian Fiction in English Lecture 39 - Writings in English from the Northeast: Reading Temsula Ao
Link NOC:Indian Fiction in English Lecture 40 - The writings of Ruskin Bond
Link NOC:Indian Fiction in English Lecture 41 - Inheritance of Loss by Kiran Desai
Link NOC:Indian Fiction in English Lecture 42 - Indian Fiction in English - Positioning Literary Studies
Link NOC:Indian Fiction in English Lecture 43 - New Writings in Contemporary Indian Fiction in English
Link NOC:Indian Fiction in English Lecture 44 - Graphic Novel in India
Link NOC:Indian Fiction in English Lecture 45 - The city in Indian English Fiction
Link NOC:Indian Fiction in English Lecture 46 - Postcoloniality and its Challenges
Link NOC:Indian Fiction in English Lecture 47 - Commomwealth literature does not exist
Link NOC:Introduction to Cultural Studies Lecture 1 - Introduction to Course
Link NOC:Introduction to Cultural Studies Lecture 2 - Different Interpretations Of Culture (Marxism)
Link NOC:Introduction to Cultural Studies Lecture 3 - Edward Said’s Orientalism
Link NOC:Introduction to Cultural Studies Lecture 4 - Homi Bhaba’s The Other Question
Link NOC:Introduction to Cultural Studies Lecture 5 - The Other Question (Continued...)
Link NOC:Introduction to Cultural Studies Lecture 6 - Goerge Orwell’s Shooting An Elephant - Part - I
Link NOC:Introduction to Cultural Studies Lecture 7 - Goerge Orwell’s Shooting An Elephant - Part - II
Link NOC:Introduction to Cultural Studies Lecture 8 - Goerge Orwell’s Shooting An Elephant - Part - III
Link NOC:Introduction to Cultural Studies Lecture 9 - The Post Modern Condition (Lyotard) - Part I
Link NOC:Introduction to Cultural Studies Lecture 10 - The Post Modern Condition (Lyotard) - Part II
Link NOC:Introduction to Cultural Studies Lecture 11 - The Post Modern Condition (Lyotard) - Part III
Link NOC:Introduction to Cultural Studies Lecture 12 - The Post Modern Condition (Lyotard) - Part IV
Link NOC:Introduction to Cultural Studies Lecture 13 - Fanon - Black Skin,White Masks - Part - I
Link NOC:Introduction to Cultural Studies Lecture 14 - Fanon - Black Skin,White Masks - Part - II
Link NOC:Introduction to Cultural Studies Lecture 15 - Fanon - Black Skin,White Masks - Part - III
Link NOC:Introduction to Cultural Studies Lecture 16 - Fanon - Black Skin,White Masks - Part - IV
Link NOC:Introduction to Cultural Studies Lecture 17 - Fanon - Black Skin,White Masks - Part - V
Link NOC:Introduction to Cultural Studies Lecture 18 - Judith Butler - Gender Trouble I
Link NOC:Introduction to Cultural Studies Lecture 19 - Judith Butler - Gender Trouble II
Link NOC:Introduction to Cultural Studies Lecture 20 - Judith Butler - Gender Trouble III
Link NOC:Introduction to Cultural Studies Lecture 21 - Judith Butler - Gender Trouble IV
Link NOC:Introduction to Cultural Studies Lecture 22 - Judith Butler - Gender Trouble V
Link NOC:Introduction to Cultural Studies Lecture 23 - Judith Butler - Gender Trouble VI
Link NOC:Introduction to Cultural Studies Lecture 24 - Judith Butler - Gender Trouble VII
Link NOC:Introduction to Cultural Studies Lecture 25 - Culture Studies: A Recap
Link NOC:Introduction to Cultural Studies Lecture 26 - Hannah Arendt - The Human Condition 1
Link NOC:Introduction to Cultural Studies Lecture 27 - Hannah Arendt - The Human Condition 2
Link NOC:Introduction to Cultural Studies Lecture 28 - Hannah Arendt - The Human Condition 3
Link NOC:Introduction to Cultural Studies Lecture 29 - Foucault - What Is An Author 1
Link NOC:Introduction to Cultural Studies Lecture 30 - Foucault - What Is An Author 2
Link NOC:Introduction to Cultural Studies Lecture 31 - Foucault - What Is An Author 3
Link NOC:Introduction to Cultural Studies Lecture 32 - Foucault - What Is An Author 4
Link NOC:Introduction to Cultural Studies Lecture 33 - Foucault - What Is An Author 5
Link NOC:Introduction to Cultural Studies Lecture 34 - Foucault - What Is An Author 6
Link NOC:Introduction to Cultural Studies Lecture 35 - Ian Hacking - The Social Construction Of What 1
Link NOC:Introduction to Cultural Studies Lecture 36 - Ian Hacking - The Social Construction Of What 2
Link NOC:Introduction to Cultural Studies Lecture 37 - Ian Hacking - The Social Construction Of What 3
Link NOC:Introduction to Cultural Studies Lecture 38 - Ian Hacking - The Social Construction Of What 4
Link NOC:Introduction to Cultural Studies Lecture 39 - Ian Hacking - The Social Construction Of What 5
Link NOC:Introduction to Cultural Studies Lecture 40 - Bell Hooks- Understanding Patriarchy 1
Link NOC:Introduction to Cultural Studies Lecture 41 - Bell Hooks- Understanding Patriarchy 2
Link NOC:Introduction to Cultural Studies Lecture 42 - Bell Hooks- Understanding Patriarchy 3
Link NOC:Introduction to Cultural Studies Lecture 43 - Bell Hooks- Understanding Patriarchy 4
Link NOC:Introduction to Cultural Studies Lecture 44 - Bell Hooks- Understanding Patriarchy 5
Link NOC:Introduction to Cultural Studies Lecture 45 - Bell Hooks- Understanding Patriarchy 6
Link NOC:Introduction to Cultural Studies Lecture 46 - Introduction To Cultural Studies - Summary
Link NOC:Introduction to Cultural Studies Lecture 47 - Dick Hebdige-Subculture The Meaning Of Style 1
Link NOC:Introduction to Cultural Studies Lecture 48 - Dick Hebdige-Subculture The Meaning Of Style 2
Link NOC:Introduction to Cultural Studies Lecture 49 - Dick Hebdige-Subculture The Meaning Of Style 3
Link NOC:Introduction to Cultural Studies Lecture 50 - Dick Hebdige-Subculture The Meaning Of Style 4
Link NOC:Introduction to Cultural Studies Lecture 51 - Catherine Belsey Critical Practice 1
Link NOC:Introduction to Cultural Studies Lecture 52 - Catherine Belsey Critical Practice 2
Link NOC:Introduction to Cultural Studies Lecture 53 - Catherine Belsey Critical Practice 3
Link NOC:Introduction to Cultural Studies Lecture 54 - Stuart Hall - Questions On Cultural Identity 1
Link NOC:Introduction to Cultural Studies Lecture 55 - Stuart Hall - Questions On Cultural Identity 2
Link NOC:Introduction to Cultural Studies Lecture 56 - Slavoj Zizek - Welcome To The Desert Of The Real Ii
Link NOC:Introduction to Cultural Studies Lecture 57 - Slavoj Zizek - Welcome To The Desert Of The Real Ii
Link NOC:Introduction to Cultural Studies Lecture 58 - Introduction to Cultural Studies - Summary and Conclusion
Link NOC:Intellectual Property Lecture 1 - Week 1 summary
Link NOC:Intellectual Property Lecture 2 - An Introduction to Intellectual Property
Link NOC:Intellectual Property Lecture 3 - What are Rights?
Link NOC:Intellectual Property Lecture 4 - What is Property in IPR?
Link NOC:Intellectual Property Lecture 5 - Meaning of Intellectual in IPR
Link NOC:Intellectual Property Lecture 6 - Characteristics of IP
Link NOC:Intellectual Property Lecture 7 - Defining IPR
Link NOC:Intellectual Property Lecture 8 - Kinds of IPRs and their Duration
Link NOC:Intellectual Property Lecture 9 - Rights Granted by IP
Link NOC:Intellectual Property Lecture 10 - The Origin of Intellectual Property - Part 1
Link NOC:Intellectual Property Lecture 11 - The Origin of Intellectual Property - Part 2
Link NOC:Intellectual Property Lecture 12 - Growth of Intellectual Property
Link NOC:Intellectual Property Lecture 13 - Learning Intellectual Property
Link NOC:Intellectual Property Lecture 14 - Intangible Economy
Link NOC:Intellectual Property Lecture 15 - The traits Intangibility
Link NOC:Intellectual Property Lecture 16 - Policy Challenges in an Intangible Economy
Link NOC:Intellectual Property Lecture 17 - Novartis Case
Link NOC:Intellectual Property Lecture 18 - Novartis Standard
Link NOC:Intellectual Property Lecture 19 - Definition of Start-up
Link NOC:Intellectual Property Lecture 20 - Subject Matter
Link NOC:Intellectual Property Lecture 21 - Patents in India
Link NOC:Intellectual Property Lecture 22 - To file or not to file a patent
Link NOC:Intellectual Property Lecture 23 - When and how to file a patent
Link NOC:Intellectual Property Lecture 24 - Who can apply for a patent
Link NOC:Intellectual Property Lecture 25 - Requirements of a patent application
Link NOC:Intellectual Property Lecture 26 - Types of patent application
Link NOC:Intellectual Property Lecture 27 - Mercedes Benz TV Commercial Patents
Link NOC:Intellectual Property Lecture 28 - Patent Prosecution: Publication, Examination, Grant - Part 1
Link NOC:Intellectual Property Lecture 29 - Patent Prosecution: Publication, Examination, Grant - Part 2
Link NOC:Intellectual Property Lecture 30 - Rights, Assignment and Licenses - Part 1
Link NOC:Intellectual Property Lecture 31 - Rights, Assignment and Licenses - Part 2
Link NOC:Intellectual Property Lecture 32 - Opposition to Patents
Link NOC:Intellectual Property Lecture 33 - Infringement of Patent
Link NOC:Intellectual Property Lecture 34 - Defences to Patent Infringement
Link NOC:Intellectual Property Lecture 35 - Intellectual Property Appellate Board
Link NOC:Intellectual Property Lecture 36 - Declaratory Suits
Link NOC:Intellectual Property Lecture 37 - Limitations of Patent Rights - Compulsory License
Link NOC:Intellectual Property Lecture 38 - Limitations of Patent Rights - Govt Use
Link NOC:Intellectual Property Lecture 39 - Trade Marks
Link NOC:Intellectual Property Lecture 40 - Case Study - Frozen Desserts
Link NOC:Intellectual Property Lecture 41 - Amul Advertisement
Link NOC:Intellectual Property Lecture 42 - Kwality Wall’s Advertisement
Link NOC:Intellectual Property Lecture 43 - International Arrangements
Link NOC:Intellectual Property Lecture 44 - Trade marks in India
Link NOC:Intellectual Property Lecture 45 - What can be protected?
Link NOC:Intellectual Property Lecture 46 - Registration of Trade Mark
Link NOC:Intellectual Property Lecture 47 - Rights and Defences
Link NOC:Intellectual Property Lecture 48 - Introduction to Copyright
Link NOC:Intellectual Property Lecture 49 - Origin and Evolution of Copyright
Link NOC:Intellectual Property Lecture 50 - Copyright in India
Link NOC:Intellectual Property Lecture 51 - Criteria of Protection
Link NOC:Intellectual Property Lecture 52 - Subject matter
Link NOC:Intellectual Property Lecture 53 - Rights and Infringement
Link NOC:Intellectual Property Lecture 54 - Educational Exceptions
Link NOC:Intellectual Property Lecture 55 - Confidential Information Introduction
Link NOC:Intellectual Property Lecture 56 - Confidential Information Requirements
Link NOC:Intellectual Property Lecture 57 - Geographical Indications
Link NOC:Intellectual Property Lecture 58 - Designs
Link NOC:Intellectual Property Lecture 59 - Enforcement of IP
Link NOC:Intellectual Property Lecture 60 - Infringement
Link NOC:Intellectual Property Lecture 61 - Remedies
Link NOC:Intellectual Property Lecture 62 - Alternate Dispute Resolution
Link NOC:Intellectual Property Lecture 63 - Compulsory Licenses
Link NOC:Intellectual Property Lecture 64 - Managing IP
Link NOC:Intellectual Property Lecture 65 - Case Study Dolby
Link NOC:Intellectual Property Lecture 66 - Case Study Disney
Link NOC:Intellectual Property Lecture 67 - Case Study AstraZeneca
Link NOC:Intellectual Property Lecture 68 - IP and Competition
Link NOC:Intellectual Property Lecture 69 - Valuing IP
Link NOC:Intellectual Property Lecture 70 - Universities and IP
Link NOC:Intellectual Property Lecture 71 - Publish or Patent
Link NOC:Intellectual Property Lecture 72 - Managing IP at Universities
Link NOC:Intellectual Property Lecture 73 - Indian Universities and Patents
Link NOC:Intellectual Property Lecture 74 - IP in Creative and Entertainment Industries
Link NOC:Intellectual Property Lecture 75 - Piracy in the Film Industry
Link NOC:Intellectual Property Lecture 76 - Government's Role in Fostering IP System
Link NOC:Intellectual Property Lecture 77 - Teaching Intellectual Property
Link NOC:Intellectual Property Lecture 78 - Q and A - Discussion
Link NOC:Short Fiction in Indian Literature Lecture 1 - Plotting the Story world of In the Flood by Thakazhi Sivasankara Pillai
Link NOC:Short Fiction in Indian Literature Lecture 2 - Plotting the Story world of In the Flood by Thakazhi Sivasankara Pillai
Link NOC:Short Fiction in Indian Literature Lecture 3 - Narrative Patterns in In the Flood
Link NOC:Short Fiction in Indian Literature Lecture 4 - Narrative Patterns in In the Flood
Link NOC:Short Fiction in Indian Literature Lecture 5 - Narrative point of View and Setting in In the Flood
Link NOC:Short Fiction in Indian Literature Lecture 6 - Close reading Kamala Das Summer Vacation
Link NOC:Short Fiction in Indian Literature Lecture 7 - Close reading Kamala Das Summer Vacation
Link NOC:Short Fiction in Indian Literature Lecture 8 - Summer Vacation Overview
Link NOC:Short Fiction in Indian Literature Lecture 9 - Plotting Tagore's Story Kabuliwala (1892)
Link NOC:Short Fiction in Indian Literature Lecture 10 - Plotting Tagore's Story Kabuliwala
Link NOC:Short Fiction in Indian Literature Lecture 11 - Plotting the Spatiality of Tagore's Kabuliwala
Link NOC:Short Fiction in Indian Literature Lecture 12 - Plotting the spatiality of Tagore's Kabuliwala
Link NOC:Short Fiction in Indian Literature Lecture 13 - Realism,Gender in Tagore's Kabuliwala
Link NOC:Short Fiction in Indian Literature Lecture 14 - How to write an Effective Paragraph
Link NOC:Short Fiction in Indian Literature Lecture 15 - Plotting downfall in Khuswant Singh's Karma
Link NOC:Short Fiction in Indian Literature Lecture 16 - Plotting downfall in Khuswant Singh's Karma
Link NOC:Short Fiction in Indian Literature Lecture 17 - Narrative aspects in Khuswant Singh's Karma
Link NOC:Short Fiction in Indian Literature Lecture 18 - Khuswant Singh's Karma Overview
Link NOC:Short Fiction in Indian Literature Lecture 19 - Plotting Sundara Ramaswamy's Reflowering
Link NOC:Short Fiction in Indian Literature Lecture 20 - Reading the Plot for themes in Sundara Ramaswamy's Reflowering
Link NOC:Short Fiction in Indian Literature Lecture 21 - Reading the Plot for themes in Sundara Ramaswamy's Reflowering (Continued...)
Link NOC:Short Fiction in Indian Literature Lecture 22 - Narrative Devices in Sundara Ramaswamy's Reflowering
Link NOC:Short Fiction in Indian Literature Lecture 23 - Plotting Sundara Ramaswamy's Reflowering Overview
Link NOC:Short Fiction in Indian Literature Lecture 24 - Short Genre and Premchand's The Chess Players
Link NOC:Short Fiction in Indian Literature Lecture 25 - Short Story Genre and Premchand's The Chess Players
Link NOC:Short Fiction in Indian Literature Lecture 26 - Short Story Structure and Premchand's The Chess Players
Link NOC:Short Fiction in Indian Literature Lecture 27 - The Chess Players Overview
Link NOC:Short Fiction in Indian Literature Lecture 28 - Psychological Climax in Premchand's The Shroud
Link NOC:Short Fiction in Indian Literature Lecture 29 - Psychological Climax in Premchand's The Shroud (Continued...)
Link NOC:Short Fiction in Indian Literature Lecture 30 - Psychological Climax in Premchand's The Shroud (Continued...)
Link NOC:Short Fiction in Indian Literature Lecture 31 - Premchand's The Shroud
Link NOC:Short Fiction in Indian Literature Lecture 32 - The Shroud Overview
Link NOC:Short Fiction in Indian Literature Lecture 33 - Patriarchal Culture in A Kitchen in the Corner of the House - I
Link NOC:Short Fiction in Indian Literature Lecture 34 - Patriarchal Culture in A Kitchen in the Corner of the House - II
Link NOC:Short Fiction in Indian Literature Lecture 35 - Patriarchal Culture in Ambai's A Kitchen in the Corner of the House - I
Link NOC:Short Fiction in Indian Literature Lecture 36 - Patriarchal Culture in Ambai's A Kitchen in the Corner of the House - II
Link NOC:Short Fiction in Indian Literature Lecture 37 - Patriarchal Culture in Ambai's A Kitchen in the Corner of the House - III
Link NOC:Short Fiction in Indian Literature Lecture 38 - Catharsis in Mulk Raj Anand's The Price of Bananas - I
Link NOC:Short Fiction in Indian Literature Lecture 39 - Catharsis in Mulk Raj Anand's The Price of Bananas - II
Link NOC:Short Fiction in Indian Literature Lecture 40 - Catharsis in Mulk Raj Anand's The Price of Bananas - III
Link NOC:Short Fiction in Indian Literature Lecture 41 - Catharsis in Mulk Raj Anand's The Price of Bananas - Overview
Link NOC:Short Fiction in Indian Literature Lecture 42 - Hidden Fractures in Ruskin Bond's The Blue Umbrella - I
Link NOC:Short Fiction in Indian Literature Lecture 43 - Hidden Fractures in Ruskin Bond's The Blue Umbrella - II
Link NOC:Short Fiction in Indian Literature Lecture 44 - Hidden Fractures in Ruskin Bond's The Blue Umbrella - III
Link NOC:Short Fiction in Indian Literature Lecture 45 - Hidden Fractures in Ruskin Bond's The Blue Umbrella - Overview
Link NOC:Short Fiction in Indian Literature Lecture 46 - Plotting and Ideology in RK Narayan's A Horse and Two Goats - I
Link NOC:Short Fiction in Indian Literature Lecture 47 - Plotting and Ideology in RK Narayan's A Horse and Two Goats - Overview
Link NOC:Short Fiction in Indian Literature Lecture 48 - Plotting and Ideology in RK Narayan's A Horse and Two Goats - Overview
Link NOC:Short Fiction in Indian Literature Lecture 49 - Childhood anxiety at Play in Anita Desai's Games at Twilight - I
Link NOC:Short Fiction in Indian Literature Lecture 50 - Childhood anxiety at Play in Anita Desai's Games at Twilight - II
Link NOC:Short Fiction in Indian Literature Lecture 51 - Childhood anxiety at Play in Anita Desai's Games at Twilight - III
Link NOC:Short Fiction in Indian Literature Lecture 52 - Childhood anxiety at Play in Anita Desai's Games at Twilight - Overview
Link NOC:Short Fiction in Indian Literature Lecture 53 - Short Fiction In Indian Literature - Overview I
Link NOC:Short Fiction in Indian Literature Lecture 54 - Short Fiction In Indian Literature - Overview II
Link NOC:The Nineteenth-Century English Novel Lecture 1 - The Nineteenth Century Novel
Link NOC:The Nineteenth-Century English Novel Lecture 2 - The Nineteenth Century Novel (Continued...)
Link NOC:The Nineteenth-Century English Novel Lecture 3 - The Nineteenth Century Novel (Continued...)
Link NOC:The Nineteenth-Century English Novel Lecture 4 - Jane Austen's Persuasion Chapters 1-6
Link NOC:The Nineteenth-Century English Novel Lecture 5 - Jane Austen's Persuasion
Link NOC:The Nineteenth-Century English Novel Lecture 6 - Persuasion, Chapter 7-12
Link NOC:The Nineteenth-Century English Novel Lecture 7 - Austen's Persuasion, Chapter 7-12
Link NOC:The Nineteenth-Century English Novel Lecture 8 - Austen's Persuasion, Chapter 7-12 (Continued...)
Link NOC:The Nineteenth-Century English Novel Lecture 9 - Persuasion Vol.II, Chapters 13-18
Link NOC:The Nineteenth-Century English Novel Lecture 10 - Persuasion Vol.II, Chapters 13-18 (Continued...)
Link NOC:The Nineteenth-Century English Novel Lecture 11 - Persuasion Vol.II, Chapters 13-18 (Continued...)
Link NOC:The Nineteenth-Century English Novel Lecture 12 - Persuasion Vol.II, Chapters 13-18 (Continued...)
Link NOC:The Nineteenth-Century English Novel Lecture 13 - Persuasion, Volume II, Chapters 19-24
Link NOC:The Nineteenth-Century English Novel Lecture 14 - Persuasion, Volume II, Chapters 19-24 (Continued...)
Link NOC:The Nineteenth-Century English Novel Lecture 15 - Persuasion, Volume II, Chapters 19-24 (Continued...)
Link NOC:The Nineteenth-Century English Novel Lecture 16 - Persuasion, Volume II, Chapters 19-24 (Continued...)
Link NOC:The Nineteenth-Century English Novel Lecture 17 - Jane Austen Seminar
Link NOC:The Nineteenth-Century English Novel Lecture 18 - Dicken's A Tale of Two Cities, Book I
Link NOC:The Nineteenth-Century English Novel Lecture 19 - A Tale of Two Cities Book I ; Chapters 4-6
Link NOC:The Nineteenth-Century English Novel Lecture 20 - Tale of Two Cities Book I : Chapters 4-6
Link NOC:The Nineteenth-Century English Novel Lecture 21 - Dicken's A Tale of Two Cities Book II : Chapters 1-3
Link NOC:The Nineteenth-Century English Novel Lecture 22 - Dicken's A Tale of Two Cities Book II : Chapters 3
Link NOC:The Nineteenth-Century English Novel Lecture 23 - Dicken's A Tale of Two Cities Book II : Chapters 4-6
Link NOC:The Nineteenth-Century English Novel Lecture 24 - Dicken's A Tale of Two Cities Book II : Chapters 6-9
Link NOC:The Nineteenth-Century English Novel Lecture 25 - Dicken's A Tale of Two Cities Book II : Chapters 9-12
Link NOC:The Nineteenth-Century English Novel Lecture 26 - Dicken's A Tale of Two Cities Book II : Chapters 10-12
Link NOC:The Nineteenth-Century English Novel Lecture 27 - Dickens' A Tale of Two Cities Book II : Chapters 13-15
Link NOC:The Nineteenth-Century English Novel Lecture 28 - Dickens' A Tale of Two Cities Book II : Chapters 13-15 (Continued...)
Link NOC:The Nineteenth-Century English Novel Lecture 29 - Dickens' A Tale of Two Cities Book II : Chapters 15-18
Link NOC:The Nineteenth-Century English Novel Lecture 30 - Dickens' A Tale of Two Cities Book II : Chapters 16-18
Link NOC:The Nineteenth-Century English Novel Lecture 31 - Dickens' A Tale of Two Cities : Chapters 19-21
Link NOC:The Nineteenth-Century English Novel Lecture 32 - Dickens' A Tale of Two Cities : Chapters - 21
Link NOC:The Nineteenth-Century English Novel Lecture 33 - Dickens' A tale of Two Cities Book II : Chapters 22 - 24
Link NOC:The Nineteenth-Century English Novel Lecture 34 - Dickens' A tale of Two Cities Book II : Chapters 22 - 24 (Continued...)
Link NOC:The Nineteenth-Century English Novel Lecture 35 - Dickens' A tale of Two Cities Book III : Chapters 1 - 3
Link NOC:The Nineteenth-Century English Novel Lecture 36 - Dickens' A tale of Two Cities Book III : Chapters 2 - 3
Link NOC:The Nineteenth-Century English Novel Lecture 37 - Dickens' A Tale of Two cities Book III : Chapters 7 - 9
Link NOC:The Nineteenth-Century English Novel Lecture 38 - Dickens' A Tale of Two cities Book III : Chapters 8 - 12
Link NOC:The Nineteenth-Century English Novel Lecture 39 - Dickens' A Tale of Two cities Book III : Chapters 10 - 12
Link NOC:The Nineteenth-Century English Novel Lecture 40 - Dickens' A Tale of Two cities Book III : Chapters 13
Link NOC:The Nineteenth-Century English Novel Lecture 41 - Dickens' A Tale of Two cities Book III : Chapters 14
Link NOC:The Nineteenth-Century English Novel Lecture 42 - Dickens' A Tale of Two cities Book III : Chapters 15
Link NOC:The Nineteenth-Century English Novel Lecture 43 - The Strange Case of Dr. Jekyll and Mr Hyde, Chapter 1
Link NOC:The Nineteenth-Century English Novel Lecture 44 - The Strange Case of Dr. Jekyll and Mr Hyde, Chapter 2
Link NOC:The Nineteenth-Century English Novel Lecture 45 - The Strange Case of Dr. Jekyll and Mr Hyde, Chapter 3
Link NOC:The Nineteenth-Century English Novel Lecture 46 - The Strange Case of Dr. Jekyll and Mr Hyde, Chapter 4
Link NOC:The Nineteenth-Century English Novel Lecture 47 - R.L.Stevenson, The Strange Case of Dr. Jekyll and Mr Hyde key Themes and Incident, Chapters 1-4
Link NOC:The Nineteenth-Century English Novel Lecture 48 - The Strange Case of Dr. Jekyll and Mr Hyde, Chapter 5
Link NOC:The Nineteenth-Century English Novel Lecture 49 - The Strange Case of Dr. Jekyll and Mr Hyde, Chapter 5 (Continued...)
Link NOC:The Nineteenth-Century English Novel Lecture 50 - The Strange Case of Dr. Jekyll and Mr Hyde, Chapter 6
Link NOC:The Nineteenth-Century English Novel Lecture 51 - The Strange Case of Dr. Jekyll and Mr Hyde, Chapters 8-10
Link NOC:The Nineteenth-Century English Novel Lecture 52 - The Strange Case of Dr. Jekyll and Mr Hyde, Chapters 8.
Link NOC:The Nineteenth-Century English Novel Lecture 53 - The Strange Case of Dr. Jekyll and Mr Hyde, Chapters 9
Link NOC:The Nineteenth-Century English Novel Lecture 54 - The Strange Case of Dr. Jekyll and Mr Hyde, Chapters 10
Link NOC:The Nineteenth-Century English Novel Lecture 55 - Themes and Contexts in R.L.Stevenson, The Strange Case of Dr. Jekyll and Mr Hyde
Link NOC:The Nineteenth-Century English Novel Lecture 56 - Discussion on Narrative Points of View
Link NOC:The Nineteenth-Century English Novel Lecture 57 - Discussion on Gender, Class and History
Link NOC:Feminist Writings Lecture 1 - Understanding Patriarchy - Part 1
Link NOC:Feminist Writings Lecture 2 - Understanding Patriarchy - Part 2
Link NOC:Feminist Writings Lecture 3 - Understanding Patriarchy - Part 3
Link NOC:Feminist Writings Lecture 4 - Understanding Patriarchy - Part 4
Link NOC:Feminist Writings Lecture 5 - Understanding Patriarchy - Part 5
Link NOC:Feminist Writings Lecture 6 - The Fly - Part 1
Link NOC:Feminist Writings Lecture 7 - The Fly - Part 2
Link NOC:Feminist Writings Lecture 8 - The Fly - Part 3
Link NOC:Feminist Writings Lecture 9 - Tickets, Please! - Part 1
Link NOC:Feminist Writings Lecture 10 - Tickets, Please! - Part 2
Link NOC:Feminist Writings Lecture 11 - Tickets, Please! - Part 3
Link NOC:Feminist Writings Lecture 12 - The Cyborg Manifesto - Part 1
Link NOC:Feminist Writings Lecture 13 - The Cyborg Manifesto - Part 2
Link NOC:Feminist Writings Lecture 14 - The Cyborg Manifesto - Part 3
Link NOC:Feminist Writings Lecture 15 - The Cyborg Manifesto - Part 4
Link NOC:Feminist Writings Lecture 16 - The Cyborg Manifesto - Part 5
Link NOC:Feminist Writings Lecture 17 - The Goblin Market - Part 1
Link NOC:Feminist Writings Lecture 18 - The Goblin Market - Part 2
Link NOC:Feminist Writings Lecture 19 - The Goblin Market - Part 3
Link NOC:Feminist Writings Lecture 20 - The Goblin Market - Part 4
Link NOC:Feminist Writings Lecture 21 - The Goblin Market - Part 5
Link NOC:Feminist Writings Lecture 22 - Tulips - Part 1
Link NOC:Feminist Writings Lecture 23 - Tulips - Part 2
Link NOC:Feminist Writings Lecture 24 - The Yellow Wallpaper - Part 1
Link NOC:Feminist Writings Lecture 25 - The Yellow Wallpaper - Part 2
Link NOC:Feminist Writings Lecture 26 - The Yellow Wallpaper - Part 3
Link NOC:Feminist Writings Lecture 27 - The Yellow Wallpaper - Part 4
Link NOC:Feminist Writings Lecture 28 - The Second Sex - Part 1
Link NOC:Feminist Writings Lecture 29 - The Second Sex - Part 2
Link NOC:Feminist Writings Lecture 30 - The Second Sex - Part 3
Link NOC:Feminist Writings Lecture 31 - The Second Sex - Part 4
Link NOC:Feminist Writings Lecture 32 - The Second Sex - Part 5
Link NOC:Feminist Writings Lecture 33 - The Iraqi Nights
Link NOC:Feminist Writings Lecture 34 - Gender Trouble - Part 1
Link NOC:Feminist Writings Lecture 35 - Gender Trouble - Part 2
Link NOC:Feminist Writings Lecture 36 - Gender Trouble - Part 3
Link NOC:Feminist Writings Lecture 37 - Gender Trouble - Part 4
Link NOC:Feminist Writings Lecture 38 - A Temporary Matter - Part 1
Link NOC:Feminist Writings Lecture 39 - A Temporary Matter - Part 2
Link NOC:Feminist Writings Lecture 40 - A Temporary Matter - Part 3
Link NOC:Feminist Writings Lecture 41 - A Temporary Matter - Part 4
Link NOC:Feminist Writings Lecture 42 - A Temporary Matter - Part 5
Link NOC:Feminist Writings Lecture 43 - Remains of the Feast - Part 1
Link NOC:Feminist Writings Lecture 44 - Remains of the Feast - Part 2
Link NOC:Feminist Writings Lecture 45 - Remains of the Feast - Part 3
Link NOC:Feminist Writings Lecture 46 - Feminist Theory and Criticism
Link NOC:Feminist Writings Lecture 47 - The Narratology of the graphic: Exploring the contemporary Graphic novel
Link NOC:Feminist Writings Lecture 48 - Angela Carter: Fairytale Sexuality and the Deconstruction of myth
Link NOC:Feminist Writings Lecture 49 - Interactive Session - 1
Link NOC:Feminist Writings Lecture 50 - Interactive Session - 2
Link NOC:Feminist Writings Lecture 51 - Feminist Writings and Feminism Today
Link NOC:Introduction to World Literature Lecture 1 - Reading World Literature
Link NOC:Introduction to World Literature Lecture 2 - Epic of Gilgamesh
Link NOC:Introduction to World Literature Lecture 3 - Beowulf : The Anglo - Saxon narratie poem
Link NOC:Introduction to World Literature Lecture 4 - The Lusiads by Luis De Camoes
Link NOC:Introduction to World Literature Lecture 5 - Challenges and Possibilities for World Literature by Kathleen Shields
Link NOC:Introduction to World Literature Lecture 6 - The Garden of Forking Paths by Borges - Part I
Link NOC:Introduction to World Literature Lecture 7 - The Garden of Forking Paths by Borges - Part II
Link NOC:Introduction to World Literature Lecture 8 - A Rose for Emily by William Faulkner - Part I
Link NOC:Introduction to World Literature Lecture 9 - A Rose for Emily by William Faulkner - Part II
Link NOC:Introduction to World Literature Lecture 10 - Sonnet 130 by Shakespeare and Love Sonnet XVI by Neruda
Link NOC:Introduction to World Literature Lecture 11 - Song of Lawino by Okot p' Bitek
Link NOC:Introduction to World Literature Lecture 12 - Tortures by Wislawa Szymborska
Link NOC:Introduction to World Literature Lecture 13 - Spivak, Gayatri Chakravorty The Politics of translation
Link NOC:Introduction to World Literature Lecture 14 - Othello - 1
Link NOC:Introduction to World Literature Lecture 15 - Othello - 2
Link NOC:Introduction to World Literature Lecture 16 - Othello - 3
Link NOC:Introduction to World Literature Lecture 17 - Doll's House
Link NOC:Introduction to World Literature Lecture 18 - Yellow Wallpaper
Link NOC:Introduction to World Literature Lecture 19 - Toba Tek Singh
Link NOC:Introduction to World Literature Lecture 20 - Oroonoko - I
Link NOC:Introduction to World Literature Lecture 21 - Oroonoko - II
Link NOC:Introduction to World Literature Lecture 22 - Poetics Of Aristotle - I
Link NOC:Introduction to World Literature Lecture 23 - Poetics Of Aristotle - II
Link NOC:Introduction to World Literature Lecture 24 - Longinus on the Subline - I
Link NOC:Introduction to World Literature Lecture 25 - Longinus on the Subline - II
Link NOC:Introduction to World Literature Lecture 26 - Errata in MC
Link NOC:Introduction to World Literature Lecture 27 - From Errata to MC
Link NOC:Introduction to World Literature Lecture 28 - The Third and the final Continent - I
Link NOC:Introduction to World Literature Lecture 29 - The Third and the final Continent - II
Link NOC:Introduction to World Literature Lecture 30 - Balthazar's Marvellous Afternoon - I by Marquez
Link NOC:Introduction to World Literature Lecture 31 - Balthazar's Marvellous Afternoon - II
Link NOC:Introduction to World Literature Lecture 32 - The Wasteland - I
Link NOC:Introduction to World Literature Lecture 33 - The Wasteland - II
Link NOC:Introduction to World Literature Lecture 34 - The Wall by Sartre - I
Link NOC:Introduction to World Literature Lecture 35 - The Wall by Sartre - II
Link NOC:Introduction to World Literature Lecture 36 - The Applicant
Link NOC:Introduction to World Literature Lecture 37 - Everyday Use
Link NOC:Introduction to World Literature Lecture 38 - Catcher in the Rye - I
Link NOC:Introduction to World Literature Lecture 39 - Catcher in the Rye - II
Link NOC:Introduction to World Literature Lecture 40 - Stage'ing Protests
Link NOC:Introduction to World Literature Lecture 41 - DR Faustus
Link NOC:Introduction to World Literature Lecture 42 - In A Grove
Link NOC:Introduction to World Literature Lecture 43 - Metamorphosis - I
Link NOC:Introduction to World Literature Lecture 44 - Metamorphosis - II
Link NOC:Introduction to World Literature Lecture 45 - Diary Of a Madman
Link NOC:Introduction to World Literature Lecture 46 - Solid Objects
Link NOC:Introduction to World Literature Lecture 47 - Dawn of the New Indian Novel in English
Link NOC:Introduction to World Literature Lecture 48 - Bartleby The Scrivener
Link NOC:Introduction to World Literature Lecture 49 - The Great Gatsby - I
Link NOC:Introduction to World Literature Lecture 50 - The Great Gatsby - II
Link NOC:Managing Intellectual Property in Universities Lecture 1 - An Introduction to Intellectual Property
Link NOC:Managing Intellectual Property in Universities Lecture 2 - What are Rights ?
Link NOC:Managing Intellectual Property in Universities Lecture 3 - What is Property in IPR ?
Link NOC:Managing Intellectual Property in Universities Lecture 4 - Meaning of Intellectual in IPR
Link NOC:Managing Intellectual Property in Universities Lecture 5 - Characteristics of IP
Link NOC:Managing Intellectual Property in Universities Lecture 6 - Defining IPR
Link NOC:Managing Intellectual Property in Universities Lecture 7 - Kinds of IPRs and their Duration
Link NOC:Managing Intellectual Property in Universities Lecture 8 - Rights Granted by IP
Link NOC:Managing Intellectual Property in Universities Lecture 9 - The Origin of Intellectual Property - Part 1
Link NOC:Managing Intellectual Property in Universities Lecture 10 - The Origin of Intellectual Property - Part 2
Link NOC:Managing Intellectual Property in Universities Lecture 11 - Growth of Intellectual Property
Link NOC:Managing Intellectual Property in Universities Lecture 12 - Learning Intellectual Property
Link NOC:Managing Intellectual Property in Universities Lecture 13 - Patents in India
Link NOC:Managing Intellectual Property in Universities Lecture 14 - Who can Apply for a Patent
Link NOC:Managing Intellectual Property in Universities Lecture 15 - Requirements of a Patent Application
Link NOC:Managing Intellectual Property in Universities Lecture 16 - Types of Patent Application
Link NOC:Managing Intellectual Property in Universities Lecture 17 - Trade Marks
Link NOC:Managing Intellectual Property in Universities Lecture 18 - Trademarks in India
Link NOC:Managing Intellectual Property in Universities Lecture 19 - What can be Protected
Link NOC:Managing Intellectual Property in Universities Lecture 20 - Introduction to Copyrights
Link NOC:Managing Intellectual Property in Universities Lecture 21 - Origin and Evolution of Copyrights
Link NOC:Managing Intellectual Property in Universities Lecture 22 - Copyrights in India
Link NOC:Managing Intellectual Property in Universities Lecture 23 - Geographical Indications
Link NOC:Managing Intellectual Property in Universities Lecture 24 - Designs
Link NOC:Managing Intellectual Property in Universities Lecture 25 - The Enterpreneurial University
Link NOC:Managing Intellectual Property in Universities Lecture 26 - Universities and IP
Link NOC:Managing Intellectual Property in Universities Lecture 27 - Publish or Patent
Link NOC:Managing Intellectual Property in Universities Lecture 28 - Managing IP at Universities
Link NOC:Managing Intellectual Property in Universities Lecture 29 - Indian Universities and Patents
Link NOC:Managing Intellectual Property in Universities Lecture 30 - Why People Invent
Link NOC:Managing Intellectual Property in Universities Lecture 31 - How Inventions Look
Link NOC:Managing Intellectual Property in Universities Lecture 32 - Where to Look for Inventions
Link NOC:Managing Intellectual Property in Universities Lecture 33 - How to Catch an Invention
Link NOC:Managing Intellectual Property in Universities Lecture 34 - Getting a working disclosure
Link NOC:Managing Intellectual Property in Universities Lecture 35 - Searching with the disclosure
Link NOC:Managing Intellectual Property in Universities Lecture 36 - Outcome of search
Link NOC:Managing Intellectual Property in Universities Lecture 37 - What is a Patentability Search
Link NOC:Managing Intellectual Property in Universities Lecture 38 - Reasons for Ordering a Patentability Search
Link NOC:Managing Intellectual Property in Universities Lecture 39 - When a Patentability Search is Not Required
Link NOC:Managing Intellectual Property in Universities Lecture 40 - How to Order a Patentability Search
Link NOC:Managing Intellectual Property in Universities Lecture 41 - Limits of Patentability Search
Link NOC:Managing Intellectual Property in Universities Lecture 42 - Patentability Search Report
Link NOC:Managing Intellectual Property in Universities Lecture 43 - Setting up IP Center - Part 1
Link NOC:Managing Intellectual Property in Universities Lecture 44 - Setting up IP Center - Part 2
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 1 - Publishing, Literacy and Reading - I
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 2 - Publishing, Literacy and Reading - II Literacy, Reading and the Audience
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 3 - Empire
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 4 - Empire - II
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 5 - Science
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 6 - European Romanticism Sensibility
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 7 - Dissent and Revolution
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 8 - The Debate on Rights
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 9 - Nature and the Environment
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 10 - The Self and Imagination
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 11 - Fiction of the Romantic Period
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 12 - Jane Austen
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 13 - Criticism: Coleridge and Wordsworth
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 14 - The Historical Novel
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 15 - The Gothic Novel
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 16 - Romantic Poetry 1 - William Blake (1757-1827)
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 17 - Romantic Poetry 1 - Romanticism and sentiment - Introduction: Sensibility and Passion
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 18 - Romantic Poetry 1 - Sensibility and Passion
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 19 - Romantic Poetry 2 - William Wordsworth (1770-1850)
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 20 - English Romantic Poetry 1:Samuel Taylor Coleridge
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 21 - Introduction: Nature and the Environment
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 22 - Wordsworth
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 23 - Coleridge
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 24 - Shelley
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 25 - Keats and Byron
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 26 - Romantic Poetry 3 - Aesthetics Introduction: Sublime and Picturesque Aesthetics
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 27 - Romantic Poetry 3 - Visual arts and the Romantics
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 28 - Romantic Poetry 3 - Aesthetics Wordsworth
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 29 - Romantic Poetry 3 - Aesthetics Blake
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 30 - Romantic Poetry 3 - Aesthetics Shelley
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 31 - Romantic Poetry 4 - Politics Introduction Gender and Class
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 32 - Romantic Poetry 4 - Politics: Race, Empire, Tyranny
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 33 - Romantic Poetry 4 - Politics Abolitionist Poetry
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 34 - Romantic Poetry 4 - Politics Wordsworth and Shelley
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 35 - Romantic Poetry 4 - Politics John Clare
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 36 - Romantic Literature - Empire and Orientalism Introduction 1: Romanticism, the Empire and the Other
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 37 - Romantic Literature - Empire and Orientalism Introduction 2: Romanticism, the Empire and the Other
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 38 - Romantic Literature - Empire and Orientalism 3 Prose: Thomas de Quincey
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 39 - Romantic Literature - Empire and Orientalism 4 Byron
Link NOC:English Literature of the Romantic Period, 1798-1832 Lecture 40 - Romantic Literature - Empire and Orientalism 5 Felicia Hemans
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 1 - Language and Linguistics
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 2 - Introductory concepts
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 3 - Goals of the course
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 4 - Introduction to Language Typology
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 5 - Linguistics as a discipline
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 6 - History of Linguistics
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 7 - Introduction to Morphology - Part 1
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 8 - Introduction to Morphology - Part 2
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 9 - Morphology (Continued...)
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 10 - Simple Compound and Complex Words
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 11 - Morphology - Prefixes, Suffixes and Infixes
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 12 - Introduction to Neologism
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 13 - Word formation rules and Neologism - Part 1
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 14 - Word formation rules and Neologism - Part 2
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 15 - Lexical Typology: An Introduction
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 16 - Lexical Typology (Continued...)
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 17 - Lexical Typology: Generalizations (Kinship terms and Personal Pronouns)
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 18 - Lexical Typology: Generalizations (Numerals)
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 19 - Lexical Typology: Generalizations (Antonymic Adjectives)
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 20 - Typology of Affixes
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 21 - Morphological Typology: A Cross Linguistic Study - Part 1
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 22 - Morphological Typology: A Cross Linguistic Study - Part 2
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 23 - Morphological Typology: Generalizations
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 24 - Morphological Typology: Generalizations continued - Part 1
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 25 - Morphological Typology: Generalizations continued - Part 2
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 26 - Introduction to Phonetics - Part 1
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 27 - Introduction to Phonetics - Part 2
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 28 - Introduction to Phonetics and Speech sounds - Part 1
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 29 - Introduction to Phonetics and Speech sounds - Part 2
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 30 - Phonological typology - Part 1
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 31 - Phonological typology - Part 2
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 32 - Introduction to Allophones
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 33 - Introduction to Syntax - Part 1
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 34 - Introduction to Syntax - Part 2
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 35 - Syntactic Structures
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 36 - Prescriptive vs Descriptive approach
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 37 - Introduction to PS rules
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 38 - Deep Structure and Surface Structure
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 39 - Tree diagrams and X - bar structures
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 40 - Movement and Recursion
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 41 - Syntactic Typology - Part 1
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 42 - Syntactic Typology - Part 2
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 43 - Syntactic Typology - Part 3
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 44 - Semantic Typology - Part 1
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 45 - Semantic Typology - Part 2
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 46 - Semantic Typology - Part 3
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 47 - Semantic Typology - Part 4
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 48 - Goals of Language Typology - Part 1
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 49 - Goals of Language Typology - Part 2
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 50 - Pragmatics: An introduction - Part 1
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 51 - Pragmatics: An introduction - Part 2
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 52 - Pragmatics: An introduction - Part 3
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 53 - Pragmatic Typology
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 54 - Typology of language change
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 55 - History of the development Articles
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 56 - Language Change : Word order
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 57 - Word Order Typology - Part 1
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 58 - Word Order Typology - Part 2
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 59 - Word Order Typology - Part 3
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 60 - Typology and word change: Child language Aquisition - Part 1
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 61 - Typology and word change: Child language Aquisition - Part 2
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 62 - Typology and word change: Child language Aquisition - Part 3
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 63 - Typology and Universals
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 64 - Typology and Universals (Continued...)
Link NOC:Appreciating Linguistics: A Typological Approach Lecture 65 - Conclusion
Link NOC:Inclusion and Technology Design Lecture 1 - Introduction: Inclusive Digital Societies
Link NOC:Inclusion and Technology Design Lecture 2 - Missing Women in Tech: Why Lack of Female Technologists Matters for Technology Design and Development?
Link NOC:Inclusion and Technology Design Lecture 3 - Are Technologies Gender Neutral?
Link NOC:Inclusion and Technology Design Lecture 4 - ICTs and Gender: Field Concerns and Project Management Approaches for Technology Design
Link NOC:Inclusion and Technology Design Lecture 5 - The Political Nature of Technology Design
Link NOC:Inclusion and Technology Design Lecture 6 - Accessibility Fundamentals
Link NOC:Inclusion and Technology Design Lecture 7 - Accessibility Fundamentals: Disabilities, Guidelines, and Laws
Link NOC:Inclusion and Technology Design Lecture 8 - Accessibility Fundamentals: Disabilities, Guidelines, and Laws
Link NOC:Inclusion and Technology Design Lecture 9 - Designing an Assistive Technology Ecosystem: STEM Education for the Visually Impaired
Link NOC:Inclusion and Technology Design Lecture 10 - Inclusion in Designing ICT for Development Projects: Who Should Matter - Part 1
Link NOC:Inclusion and Technology Design Lecture 11 - ICTs in Agricultural Markets: Are they Inclusive
Link NOC:Inclusion and Technology Design Lecture 12 - Inclusion in Designing ICT for Development Projects: Who Should Matter - Part 2
Link NOC:Inclusion and Technology Design Lecture 13 - Digital Labour, Platforms and the Future of Work
Link NOC:Inclusion and Technology Design Lecture 14 - Assignment Video: Design Jam
Link NOC:Inclusion and Technology Design Lecture 15 - Assignment Examples Video: Students Presentations
Link NOC:Energy Economics and Policy Lecture 1 - Energy as an Economic Resource - Introduction
Link NOC:Energy Economics and Policy Lecture 2 - Energy as an Economic Resource - Classification of Energy Resource
Link NOC:Energy Economics and Policy Lecture 3 - Energy as an Economic Resource - Measurement of Energy
Link NOC:Energy Economics and Policy Lecture 4 - Energy as an Economic Resource - Energy Accounting
Link NOC:Energy Economics and Policy Lecture 5 - Energy as an Economic Resource - Problem Discussion on Module 1
Link NOC:Energy Economics and Policy Lecture 6 - Energy Demand - Part I - Basic concepts in Economics
Link NOC:Energy Economics and Policy Lecture 7 - Energy Demand - Part I - Descriptive Analysis of Energy Demand
Link NOC:Energy Economics and Policy Lecture 8 - Energy Demand - Part I - Decomposition Analysis and Parametric Approach
Link NOC:Energy Economics and Policy Lecture 9 - Energy Demand - Part II - Demand Side Management
Link NOC:Energy Economics and Policy Lecture 10 - Energy Demand - Part II - Load Management
Link NOC:Energy Economics and Policy Lecture 11 - Energy Demand - Part II - Demand Side Management - Energy Efficiency
Link NOC:Energy Economics and Policy Lecture 12 - Energy Demand - Part II - Rebound Effect
Link NOC:Energy Economics and Policy Lecture 13 - Energy Supply - Part I - Supply Behaviour of a Producer
Link NOC:Energy Economics and Policy Lecture 14 - Energy Supply - Part I - Energy Investment
Link NOC:Energy Economics and Policy Lecture 15 - Energy Supply - Part I - Economics of Non-renewable Resources
Link NOC:Energy Economics and Policy Lecture 16 - Energy Supply - Part II - Economics of Renewable Energy Supply Setting the context
Link NOC:Energy Economics and Policy Lecture 17 - Energy Supply - Part II - Economics of Renewable Energy Supply - Part 1
Link NOC:Energy Economics and Policy Lecture 18 - Energy Supply - Part II - Economics of Renewable Energy Supply - Part 2
Link NOC:Energy Economics and Policy Lecture 19 - Energy Supply - Part II - Economics of Electricity Supply
Link NOC:Energy Economics and Policy Lecture 20 - Energy Market - Prefect Competition as a Market Form
Link NOC:Energy Economics and Policy Lecture 21 - Energy Market - Why Energy Market is not Perfectly Competitive?
Link NOC:Energy Economics and Policy Lecture 22 - Energy Market - Market Failure and Monopoly
Link NOC:Energy Economics and Policy Lecture 23 - Energy Market - Oil Market: Pre OPEC Era - I
Link NOC:Energy Economics and Policy Lecture 24 - Energy Market - Oil Market: Pre OPEC Era - II
Link NOC:Energy Economics and Policy Lecture 25 - Energy Market - Oil Market: OPEC
Link NOC:Energy Economics and Policy Lecture 26 - Special Topics on Energy - Energy Security
Link NOC:Energy Economics and Policy Lecture 27 - Special Topics on Energy - Energy Access
Link NOC:Energy Economics and Policy Lecture 28 - Special Topics on Energy - Energy, Environment and Climate Change
Link NOC:The Victorian Gothic Short Story Lecture 1 - THE GOTHIC - Literary Genre
Link NOC:The Victorian Gothic Short Story Lecture 2 - Charles Dickens 'THE SIGNAL - MAN' - I - Close reading and the anxieties of the age
Link NOC:The Victorian Gothic Short Story Lecture 3 - Charles Dickens 'THE SIGNAL - MAN' - II - Close reading and the anxieties of the age
Link NOC:The Victorian Gothic Short Story Lecture 4 - Charles Dickens 'THE SIGNAL - MAN' - III - Close reading and the anxieties of the age
Link NOC:The Victorian Gothic Short Story Lecture 5 - Charles Dickens 'THE SIGNAL - MAN' - IV - Close Reading and the anxieties of the age
Link NOC:The Victorian Gothic Short Story Lecture 6 - Charles Dickens 'THE HAUNTED SIGNAL MAN' Lecture Summary and Character Sketches
Link NOC:The Victorian Gothic Short Story Lecture 7 - Rudyard Kipling - My own true ghost story
Link NOC:The Victorian Gothic Short Story Lecture 8 - Imperial Gothic - Major Characteristics
Link NOC:The Victorian Gothic Short Story Lecture 9 - Rudyard Kipling 'My own true ghost story' - Close reading for implications of the imperial Gothic - I
Link NOC:The Victorian Gothic Short Story Lecture 10 - Rudyard Kipling 'My own true ghost story' - Close reading for implications of the imperial Gothic - II
Link NOC:The Victorian Gothic Short Story Lecture 11 - My Own True GhosT STORY - Lecture Summary and Comparison
Link NOC:The Victorian Gothic Short Story Lecture 12 - Arthur Conan Doyle - The Red-Headed League - I
Link NOC:The Victorian Gothic Short Story Lecture 13 - Arthur Conan Doyle - The Red-Headed League - II
Link NOC:The Victorian Gothic Short Story Lecture 14 - Arthur Conan Doyle - The Red-Headed League - III
Link NOC:The Victorian Gothic Short Story Lecture 15 - Arthur Conan Doyle 'The Red-Headed League' - A Conversation
Link NOC:The Victorian Gothic Short Story Lecture 16 - Arthur Conan Doyle 'The Red-Headed League' - Summary and Interview of the Author
Link NOC:The Victorian Gothic Short Story Lecture 17 - H.G. WELLS 'THE RED ROOM' - Close Reading And Its Implications
Link NOC:The Victorian Gothic Short Story Lecture 18 - H.G. WELLS 'THE RED ROOM' - Victorian Gothic
Link NOC:The Victorian Gothic Short Story Lecture 19 - H.G. WELLS 'THE RED ROOM' - Close Reading And Its Ideological Implications
Link NOC:German-II Lecture 1 - Was mochten Sie dieses Semester machen?
Link NOC:German-II Lecture 2 - Wiederholung : Dativ und Prapositionen
Link NOC:German-II Lecture 3 - Wir lernen das Perfekt
Link NOC:German-II Lecture 4 - Wir uben das Perfekt
Link NOC:German-II Lecture 5 - Was hast du in den Ferien gemacht ?
Link NOC:German-II Lecture 6 - Farben und Kleidung
Link NOC:German-II Lecture 7 - Wir lernen Präpositionen
Link NOC:German-II Lecture 8 - Wir üben Präpositionen
Link NOC:German-II Lecture 9 - Präpositionen Akkusativ oder Dativ?
Link NOC:German-II Lecture 10 - Was bringt mir der Postbote?
Link NOC:German-II Lecture 11 - Gesundheit: Was fehlt Ihnen?
Link NOC:German-II Lecture 12 - Jeder für sich
Link NOC:German-II Lecture 13 - Reflexiv - Akkusativ oder Dativ ?
Link NOC:German-II Lecture 14 - Lektion 1 und Witze und Faust
Link NOC:German-II Lecture 15 - Lektion 2, Präteritum von Modalverben, Ordinalzahlen
Link NOC:German-II Lecture 16 - Lektion 2; Detour -- Was ist Geschichte ? | Basic Tenses
Link NOC:German-II Lecture 17 - Was hast du nach der Schule gemacht?
Link NOC:German-II Lecture 18 - Lektion 3: Welche Medien hast du gestern benutzt?
Link NOC:German-II Lecture 19 - Komparativ und Superlativ
Link NOC:German-II Lecture 20 - dass-Sätze
Link NOC:German-II Lecture 21 - Wir wiederholen Komparativ und Superlativ
Link NOC:German-II Lecture 22 - Imperativ mit 'du' und 'ihr'
Link NOC:German-II Lecture 23 - Wir machen Lektion 5
Link NOC:German-II Lecture 24 - Adjektivdeklination
Link NOC:German-II Lecture 25 - Lektion 6 | Verkehr und Verkehrsmittel
Link NOC:German-II Lecture 26 - Welche Verkehrsmittel benutzt du ? | Indirekte Fragesätze
Link NOC:German-II Lecture 27 - Lektion 6 -- Aufgaben 4 und 6
Link NOC:German-II Lecture 28 - Lektion 7 -- Es geht ums Lernen
Link NOC:German-II Lecture 29 - Was hast du wann gelernt?
Link NOC:German-II Lecture 30 - Probleme beim Lernen | Verben mit dem Dativ
Link NOC:German-II Lecture 31 - Welche Probleme hast du beim Lernen ?
Link NOC:German-II Lecture 32 - Perfekt von untrennbaren Verben | Wie löse ich meine Probleme beim Lernen ?
Link NOC:German-II Lecture 33 - Ratschläge mit sollten | Sprache und Berufe | Wir lesen vor. (Lektion 7)
Link NOC:German-II Lecture 34 - Exkurs ins Absurde! | Generationenprojekte (Lektion 7)
Link NOC:German-II Lecture 35 - Generationenprojekte - wir hören die Texte
Link NOC:German-II Lecture 36 - Welche Sportart möchtest du ausprobieren? | deshalb, trotzdem
Link NOC:German-II Lecture 37 - Wiederholung Lektion 7 | Wir machen mit ​Lektion 8 weiter.
Link NOC:German-II Lecture 38 - Wofür entscheiden sich Sandra und Conny ? | Fragewort WO + Präposition
Link NOC:German-II Lecture 39 - Alles über Fragewörter: mit und ohne Präpositionen
Link NOC:German-II Lecture 40 - Eine Stadt entdecken | Wir beginnen Lektion 9
Link NOC:German-II Lecture 41 - Lektion 9 | Interessante Häuser und Wohnungen
Link NOC:German-II Lecture 42 - Lektion 9 | Die lieben Nachbarn
Link NOC:German-II Lecture 43 - Lektion 9 | Höfliche Bitte | wenn und als
Link NOC:German-II Lecture 44 - Lektion 9 | Wir üben als und wenn. | Sätze und Wortgruppen
Link NOC:German-II Lecture 45 - Die Deutschen und ihre Haustiere
Link NOC:German-II Lecture 46 - Wir beginnen Lektion 10 | Der Superlativ
Link NOC:German-II Lecture 47 - Welche/r/s und Was für ein/e...
Link NOC:German-II Lecture 48 - Lektion 10 | etwas, man, niemand, jemand...
Link NOC:German-II Lecture 49 - Der Relativsatz | Wir machen Lektion 10 zu Ende
Link NOC:German-II Lecture 50 - Wir machen Lektion 11. | K 2 - Verben und W-Fragen mit Präpositionen
Link NOC:German-II Lecture 51 - Lektion 12 | Wir sind mit unserem Kurs fertig!
Link NOC:German-I Lecture 1 - Herzlich willkommen!
Link NOC:German-I Lecture 2 - Wie ist dein Name ?
Link NOC:German-I Lecture 3 - Ich trinke gern Kaffee
Link NOC:German-I Lecture 4 - Wir konjugieren die Verben
Link NOC:German-I Lecture 5 - A bit of history and ZAHLEN
Link NOC:German-I Lecture 6 - Verben, W-Fragen, Ja-Nein Fragen, Imperativ
Link NOC:German-I Lecture 7 - das Alphabet, die Woche, das Jahr
Link NOC:German-I Lecture 8 - Was sind deine Hobbys ? Formular ausfullen
Link NOC:German-I Lecture 9 - Mein Lehrbuch | Meine personlichen Daten
Link NOC:German-I Lecture 10 - Mein Arbeitsbuch
Link NOC:German-I Lecture 11 - Wir beginnen Lektion 3
Link NOC:German-I Lecture 12 - Wir lesen Lektion 3
Link NOC:German-I Lecture 13 - Kein | Unregelmabige Verben | Ein Lied
Link NOC:German-I Lecture 14 - Wer ist das? | ich-mein; du-dein
Link NOC:German-I Lecture 15 - Lektion 4 Guten Appetit!
Link NOC:German-I Lecture 16 - Das Essen | Some revision
Link NOC:German-I Lecture 17 - mag oder möchte | der Akkusativ
Link NOC:German-I Lecture 18 - Ein Lesetext | die Uhr
Link NOC:German-I Lecture 19 - die Uhrzeit | trennbare Verben
Link NOC:German-I Lecture 20 - Familie und Possessiv
Link NOC:German-I Lecture 21 - Wir machen Lektion 6 | Ordinalzahlen
Link NOC:German-I Lecture 22 - Wie feierst du deinen Geburtstag?
Link NOC:German-I Lecture 23 - der Akkusativ | ein Würfelspiel
Link NOC:German-I Lecture 24 - das Kaffeehaus |die Kneipe |der Biergarten
Link NOC:German-I Lecture 25 - Lektion 6: Freizeitprogramm
Link NOC:German-I Lecture 26 - Sprache, Bundesländer, Städte | Wir beginnen Lektion 7
Link NOC:German-I Lecture 27 - Akkusativ-Dativ | Annika im Büro | Wir machen Kaffee
Link NOC:German-I Lecture 28 - Lektion 7 -- formeller Brief
Link NOC:German-I Lecture 29 - Wie lernst du Deutsch ? Wir hören ein deutsches Lied
Link NOC:German-I Lecture 30 - Wir lernen die Präpositionen
Link NOC:German-I Lecture 31 - Hörverständnis | Wir beginnen Lektion 8
Link NOC:German-I Lecture 32 - Lektion 8 -- Haus-Wohnung-Möbel-Geräte
Link NOC:German-I Lecture 33 - Extra Lektion on Modal Verbs
Link NOC:German-I Lecture 34 - Eine E-Mail schreiben | Eine Wohnung beschreiben
Link NOC:German-I Lecture 35 - Warum ist die Miete so hoch ? | Vorteile und Nachteile
Link NOC:German-I Lecture 36 - Die neue Wohnung -- Was ist wo ? | Wechselpräpositionen
Link NOC:German-I Lecture 37 - gefallen, gehören, passen, schmecken
Link NOC:German-I Lecture 38 - Lektion 9 | Wir lernen das Perfekt
Link NOC:German-I Lecture 39 - Lektion 9 | Wir üben das Perfekt
Link NOC:German-I Lecture 40 - Was hast du in den Ferien gemacht ?
Link NOC:German-I Lecture 41 - Lektion 9 | Die Jobsuche
Link NOC:German-I Lecture 42 - Lektion 9 | Telefongespräche
Link NOC:German-I Lecture 43 - Im Kaufhaus | Welche/Diese
Link NOC:German-I Lecture 44 - Lektion 11 | Korper und Gesundheit
Link NOC:German-I Lecture 45 - Gesund und munter | Wir machen Lektion 11 zu Ende
Link NOC:German-I Lecture 46 - Ab in den Urlaub | Wir machen Lektion 12
Link NOC:Disability Studies: An Introduction Lecture 1 - Disability Definition: An Evolving Phenomenon
Link NOC:Disability Studies: An Introduction Lecture 2 - Medical Model of Disability
Link NOC:Disability Studies: An Introduction Lecture 3 - Social Model of Disability - Part 1
Link NOC:Disability Studies: An Introduction Lecture 4 - Social Model of Disability - Part 2
Link NOC:Disability Studies: An Introduction Lecture 5 - Stigma: A Universal Phenomenon
Link NOC:Disability Studies: An Introduction Lecture 6 - Stigma and Disability: What can we learn?
Link NOC:Disability Studies: An Introduction Lecture 7 - Ableism - Part 1
Link NOC:Disability Studies: An Introduction Lecture 8 - Ableism - Part 2
Link NOC:Disability Studies: An Introduction Lecture 9 - Disability Activism
Link NOC:Disability Studies: An Introduction Lecture 10 - Models of Disability Activism
Link NOC:Disability Studies: An Introduction Lecture 11 - Dependency
Link NOC:Disability Studies: An Introduction Lecture 12 - Interdependence
Link NOC:Disability Studies: An Introduction Lecture 13 - Blindness
Link NOC:Disability Studies: An Introduction Lecture 14 - Blindness as metaphor
Link NOC:Disability Studies: An Introduction Lecture 15 - Eugenics
Link NOC:Disability Studies: An Introduction Lecture 16 - Disability Pride
Link NOC:Disability Studies: An Introduction Lecture 17 - Disability Resilience
Link NOC:Disability Studies: An Introduction Lecture 18 - Disability Passing: The musings of the blue Jackal
Link NOC:Disability Studies: An Introduction Lecture 19 - Coming out: A performance in disability inhabitation
Link NOC:Disability Studies: An Introduction Lecture 20 - Assistive Technology: An interview with Prof. Madhusudan Rao
Link NOC:Disability Studies: An Introduction Lecture 21 - Disability and Ethnography: An Interview with Prof. James Staple
Link NOC:Disability Studies: An Introduction Lecture 22 - Schizophrenia: A Personal Account - An interview with Reshma Valliappan
Link NOC:Disability Studies: An Introduction Lecture 23 - Autism and the Indian Family: An interview with Dr. Shubhangi Vaidhya
Link NOC:Disability Studies: An Introduction Lecture 24 - Dyslexia and the Modern University: An Interview with Prof. Tanya Titchkosky
Link NOC:Disability Studies: An Introduction Lecture 25 - Gender and Disability: Interviews with Prof. Anita Ghai
Link NOC:Disability Studies: An Introduction Lecture 26 - Gender and Disability: Interviews with Prof. Nandini Ghosh
Link NOC:Disability Studies: An Introduction Lecture 27 - Lennard Davis, hemachandran karah, normal, normalcy, disability studies
Link NOC:Disability Studies: An Introduction Lecture 28 - The Normal and its End: Part 2
Link NOC:Disability Studies: An Introduction Lecture 29 - Literary Disability Studies: An Interview with Dr. Shilpa Anand
Link NOC:Disability Studies: An Introduction Lecture 30 - What is Deaf Culture? An Interview with Dr. Michele Friedner
Link NOC:Disability Studies: An Introduction Lecture 31 - Disability and Life Writing
Link NOC:Disability Studies: An Introduction Lecture 32 - Disability and Metaphor
Link NOC:Disability Studies: An Introduction Lecture 33 - Conclusion
Link Introduction to Film Studies (2019) Lecture 1 - Course Overview - Part 1
Link Introduction to Film Studies (2019) Lecture 2 - Course Overview - Part 2
Link Introduction to Film Studies (2019) Lecture 3 - Cinema and Semiotics - Part 1
Link Introduction to Film Studies (2019) Lecture 4 - Cinema and Semiotics - Part 2
Link Introduction to Film Studies (2019) Lecture 5 - Cinema and Semiotics - Seven (1995) - Part 1
Link Introduction to Film Studies (2019) Lecture 6 - Cinema and Semiotics - Seven (1995) - Part 2
Link Introduction to Film Studies (2019) Lecture 7 - Plot in Cinema - Part 1
Link Introduction to Film Studies (2019) Lecture 8 - Plot in Cinema - Part 2
Link Introduction to Film Studies (2019) Lecture 9 - Plot in CInema - 7 primary types of plot
Link Introduction to Film Studies (2019) Lecture 10 - Plot in Cinema - Conflict as a Plot Element
Link Introduction to Film Studies (2019) Lecture 11 - Character as a Plot Element - Part 1
Link Introduction to Film Studies (2019) Lecture 12 - Character as a Plot Element - Part 2
Link Introduction to Film Studies (2019) Lecture 13 - Editing in Cinema - (Montage, Jumpcut) - Part 1
Link Introduction to Film Studies (2019) Lecture 14 - Editing in Cinema - (Montage, Jumpcut) - Part 2
Link Introduction to Film Studies (2019) Lecture 15 - Realism in Cinema - Part 1
Link Introduction to Film Studies (2019) Lecture 16 - Realism in Cinema - Part 2
Link Introduction to Film Studies (2019) Lecture 17 - Colour: Theory and Practice - Part 1
Link Introduction to Film Studies (2019) Lecture 18 - Colour: Theory and Practice - Part 2
Link Introduction to Film Studies (2019) Lecture 19 - Intertextuality - Casablanca (1942) - Part 1
Link Introduction to Film Studies (2019) Lecture 20 - Intertextuality - Casablanca (1942) - Part 2
Link Introduction to Film Studies (2019) Lecture 21 - Intertextuality - Blade Runner (1982) - Part 1
Link Introduction to Film Studies (2019) Lecture 22 - Intertextuality - Blade Runner (1982) - Part 2
Link Introduction to Film Studies (2019) Lecture 23 - Intertextuality - The Matrix (1999) - Part 1
Link Introduction to Film Studies (2019) Lecture 24 - Intertextuality - The Matrix (1999) - Part 2
Link Introduction to Film Studies (2019) Lecture 25 - Cinema and Modernism - Part 1
Link Introduction to Film Studies (2019) Lecture 26 - Cinema and Modernism - Part 2
Link Introduction to Film Studies (2019) Lecture 27 - Cinema and Modernism - Part 3
Link Introduction to Film Studies (2019) Lecture 28 - Guest Lecture by Sudhish Kamath (Film Critic and Film Maker)
Link Introduction to Film Studies (2019) Lecture 29 - The French Masters - Jean Renoir - Part 1
Link Introduction to Film Studies (2019) Lecture 30 - The French Masters - Jean Renoir - Part 2
Link Introduction to Film Studies (2019) Lecture 31 - The French Masters - Robert Bresson - Part 1
Link Introduction to Film Studies (2019) Lecture 32 - The French Masters - Robert Bresson - Part 2
Link Introduction to Film Studies (2019) Lecture 33 - The French Masters - Robert Bresson - Part 3
Link Introduction to Film Studies (2019) Lecture 34 - What is a Canon?
Link Introduction to Film Studies (2019) Lecture 35 - Canonical Text - Citizen Kane (1941) - Part 1
Link Introduction to Film Studies (2019) Lecture 36 - Canonical Text - Citizen Kane (1941) - Part 2
Link Introduction to Film Studies (2019) Lecture 37 - Canonical Text - The Godfather (1972/1974) Part 1
Link Introduction to Film Studies (2019) Lecture 38 - Canonical Text - The Godfather (1972/1974) Part 2
Link Introduction to Film Studies (2019) Lecture 39 - Canonical Text - The Godfather (1972/1974) Part 3
Link Introduction to Film Studies (2019) Lecture 40 - Canonical Text - The Godfather (1972/1974) Part 4
Link Introduction to Film Studies (2019) Lecture 41 - The Academy Awards Case Study - My Left Foot (1989) and Daniel Day-Lewis Method Acting - Part 1
Link Introduction to Film Studies (2019) Lecture 42 - The Academy Awards Case Study - My Left Foot (1989) and Daniel Day-Lewis Method Acting - Part 2
Link Introduction to Film Studies (2019) Lecture 43 - Classic Hollywood - Hay’s Code, Studio Years, Major Filmmakers - Part 1
Link Introduction to Film Studies (2019) Lecture 44 - Classic Hollywood - Hay’s Code, Studio Years, Major Filmmakers - Part 2
Link Introduction to Film Studies (2019) Lecture 45 - Classic Hollywood - Major Filmmakers, Melodrama - Part 1
Link Introduction to Film Studies (2019) Lecture 46 - Classic Hollywood - Major Filmmakers, Melodrama - Part 2
Link Introduction to Film Studies (2019) Lecture 47 - Classic Hollywood - Major Filmmakers, Melodrama - Part 3
Link Introduction to Film Studies (2019) Lecture 48 - Classic Hollywood - Major Filmmakers, Melodrama - Part 4
Link Introduction to Film Studies (2019) Lecture 49 - German Expressionism, Film Noir Case Study: Laura (1944) and Neo Noir Case Study: Taxi Driver (1976) - Part 1
Link Introduction to Film Studies (2019) Lecture 50 - German Expressionism, Film Noir Case Study: Laura (1944) and Neo Noir Case Study: Taxi Driver (1976) - Part 2
Link Introduction to Film Studies (2019) Lecture 51 - Stars as Icons, Case Study of the Stardom of James Dean and Fandoms - Part 1
Link Introduction to Film Studies (2019) Lecture 52 - Stars as Icons, Case Study of the Stardom of James Dean and Fandoms - Part 2
Link Introduction to Film Studies (2019) Lecture 53 - Cinema and the Counterculture Movement - Beat Generation, Woodstock Nation, Easy Rider (1968) - Part 1
Link Introduction to Film Studies (2019) Lecture 54 - Cinema and the Counterculture Movement - Beat Generation, Woodstock Nation, Easy Rider (1968) - Part 2
Link Introduction to Film Studies (2019) Lecture 55 - Italian Cinema - Part 1
Link Introduction to Film Studies (2019) Lecture 56 - Italian Cinema - Part 2
Link Introduction to Film Studies (2019) Lecture 57 - Japanese Cinema - Part 1
Link Introduction to Film Studies (2019) Lecture 58 - Japanese Cinema - Part 2
Link Introduction to Film Studies (2019) Lecture 59 - Auteur Theory in the USA - Part 1
Link Introduction to Film Studies (2019) Lecture 60 - Auteur Theory in the USA - Part 2
Link Introduction to Film Studies (2019) Lecture 61 - Auteur Theory in the USA - Part 3
Link Introduction to Film Studies (2019) Lecture 62 - Auteur Theory in the USA - Part 4
Link Introduction to Film Studies (2019) Lecture 63 - New Hollywood - Part 1
Link Introduction to Film Studies (2019) Lecture 64 - New Hollywood - Part 2
Link Introduction to Film Studies (2019) Lecture 65 - New Hollywood - Part 3
Link Introduction to Film Studies (2019) Lecture 66 - New Hollywood - Part 4
Link Introduction to Film Studies (2019) Lecture 67 - New Hollywood - Part 5
Link Introduction to Film Studies (2019) Lecture 68 - New Hollywood - Part 6
Link Introduction to Film Studies (2019) Lecture 69 - New Hollywood - Part 7
Link Introduction to Film Studies (2019) Lecture 70 - New Hollywood - Part 8
Link Introduction to Film Studies (2019) Lecture 71 - Cinema and Genres - Part 1
Link Introduction to Film Studies (2019) Lecture 72 - Cinema and Genres - Part 2
Link Introduction to Film Studies (2019) Lecture 73 - Cinema and Genres - Part 3
Link Introduction to Film Studies (2019) Lecture 74 - Cinema and Genres - Part 4
Link Introduction to Film Studies (2019) Lecture 75 - Postmodernism and Cinema - Part 1
Link Introduction to Film Studies (2019) Lecture 76 - Postmodernism and Cinema - Part 2
Link Introduction to Film Studies (2019) Lecture 77 - Postmodernism and Cinema - Part 3
Link Introduction to Film Studies (2019) Lecture 78 - Postmodernism and Cinema - Part 4
Link Introduction to Film Studies (2019) Lecture 79 - The Western - Part 1
Link Introduction to Film Studies (2019) Lecture 80 - The Western - Part 2
Link NOC:Time value of money-Concepts and Calculations Lecture 1 - Introduction
Link NOC:Time value of money-Concepts and Calculations Lecture 2 - Interest Rate
Link NOC:Time value of money-Concepts and Calculations Lecture 3 - Simple interest
Link NOC:Time value of money-Concepts and Calculations Lecture 4 - Compounding techniques - I & II
Link NOC:Time value of money-Concepts and Calculations Lecture 5 - Discrete annually compounding - I & II
Link NOC:Time value of money-Concepts and Calculations Lecture 6 - Continuous compounding
Link NOC:Time value of money-Concepts and Calculations Lecture 7 - Comparison of all compounding methods
Link NOC:Time value of money-Concepts and Calculations Lecture 8 - Present value
Link NOC:Time value of money-Concepts and Calculations Lecture 9 - Future Value
Link NOC:Time value of money-Concepts and Calculations Lecture 10 - Annuities - I & II
Link NOC:Time value of money-Concepts and Calculations Lecture 11 - Perpetuity
Link NOC:Time value of money-Concepts and Calculations Lecture 12 - Amortization
Link NOC:Time value of money-Concepts and Calculations Lecture 13 - Multiple cash flow - I & II
Link NOC:Time value of money-Concepts and Calculations Lecture 14 - Valuation of bond - I & II
Link NOC:Time value of money-Concepts and Calculations Lecture 15 - Valuation of ordinary shares
Link NOC:Depreciation, Alternate Investment and Profitability Analysis Lecture 1 - Introduction to course
Link NOC:Depreciation, Alternate Investment and Profitability Analysis Lecture 2 - Introduction to depreciation and Straight line method
Link NOC:Depreciation, Alternate Investment and Profitability Analysis Lecture 3 - Declining balance method
Link NOC:Depreciation, Alternate Investment and Profitability Analysis Lecture 4 - Double-declining balance method
Link NOC:Depreciation, Alternate Investment and Profitability Analysis Lecture 5 - Sum-of-the-digits method
Link NOC:Depreciation, Alternate Investment and Profitability Analysis Lecture 6 - Sinking fund method and Repair provision method
Link NOC:Depreciation, Alternate Investment and Profitability Analysis Lecture 7 - Accelerated cost recovery method - I
Link NOC:Depreciation, Alternate Investment and Profitability Analysis Lecture 8 - Accelerated cost recovery method - II
Link NOC:Depreciation, Alternate Investment and Profitability Analysis Lecture 9 - Introduction to alternate investment: Annual cost method-I
Link NOC:Depreciation, Alternate Investment and Profitability Analysis Lecture 10 - Introduction to alternate investment: Annual cost method
Link NOC:Depreciation, Alternate Investment and Profitability Analysis Lecture 11 - Present worth method
Link NOC:Depreciation, Alternate Investment and Profitability Analysis Lecture 12 - Rate of return method
Link NOC:Depreciation, Alternate Investment and Profitability Analysis Lecture 13 - Incremental rate of return
Link NOC:Depreciation, Alternate Investment and Profitability Analysis Lecture 14 - Perpetuity method
Link NOC:Depreciation, Alternate Investment and Profitability Analysis Lecture 15 - Minimum return as cost
Link NOC:Depreciation, Alternate Investment and Profitability Analysis Lecture 16 - Introduction to profitability analysis and Payback period
Link NOC:Depreciation, Alternate Investment and Profitability Analysis Lecture 17 - Return on investment
Link NOC:Depreciation, Alternate Investment and Profitability Analysis Lecture 18 - Net Return
Link NOC:Depreciation, Alternate Investment and Profitability Analysis Lecture 19 - Discounted cash flow - I
Link NOC:Depreciation, Alternate Investment and Profitability Analysis Lecture 20 - Discounted cash flow - II
Link NOC:Soft Skills Lecture 1 - Introduction to Soft Skills
Link NOC:Soft Skills Lecture 2 - Aspects of Soft Skills
Link NOC:Soft Skills Lecture 3 - Effective Communication Skills
Link NOC:Soft Skills Lecture 4 - Classification of Communication
Link NOC:Soft Skills Lecture 5 - Personality Development
Link NOC:Soft Skills Lecture 6 - Positive Thinking
Link NOC:Soft Skills Lecture 7 - Telephonic Communication Skills - Part I
Link NOC:Soft Skills Lecture 8 - Telephonic Communication Skills - Part II
Link NOC:Soft Skills Lecture 9 - Communicating Without Words
Link NOC:Soft Skills Lecture 10 - Paralanguage
Link NOC:Soft Skills Lecture 11 - Proxemics
Link NOC:Soft Skills Lecture 12 - Haptics: The Language of Touch
Link NOC:Soft Skills Lecture 13 - Meta-communication
Link NOC:Soft Skills Lecture 14 - Listening Skills
Link NOC:Soft Skills Lecture 15 - Types of Listening
Link NOC:Soft Skills Lecture 16 - Negotiation Skills - I
Link NOC:Soft Skills Lecture 17 - Negotiation Skills - II
Link NOC:Soft Skills Lecture 18 - Culture as Communication
Link NOC:Soft Skills Lecture 19 - Communicating across Cultures
Link NOC:Soft Skills Lecture 20 - Organizational Communication
Link NOC:Soft Skills Lecture 21 - Communication Breakdown - Part I
Link NOC:Soft Skills Lecture 22 - Communication Breakdown - Part II
Link NOC:Soft Skills Lecture 23 - Advanced Writing Skills
Link NOC:Soft Skills Lecture 24 - Principles of Business Writing
Link NOC:Soft Skills Lecture 25 - Types of Business Writing - Part I
Link NOC:Soft Skills Lecture 26 - Types of Business Writing - Part II
Link NOC:Soft Skills Lecture 27 - Business Letters
Link NOC:Soft Skills Lecture 28 - Business Letters: Format and Style
Link NOC:Soft Skills Lecture 29 - Types of Business Letters - Part I
Link NOC:Soft Skills Lecture 30 - Types of Business Letters - Part II
Link NOC:Soft Skills Lecture 31 - Report Writing
Link NOC:Soft Skills Lecture 32 - Types of Reports
Link NOC:Soft Skills Lecture 33 - Strategies for Report Writing - Part I
Link NOC:Soft Skills Lecture 34 - Strategies for Report Writing - Part II
Link NOC:Soft Skills Lecture 35 - Evaluation and Organization of Data
Link NOC:Soft Skills Lecture 36 - Structure of Reports - Part I
Link NOC:Soft Skills Lecture 37 - Structure of Reports - Part II
Link NOC:Soft Skills Lecture 38 - Report Style - Part I
Link NOC:Soft Skills Lecture 39 - Report Style - Part II
Link NOC:Soft Skills Lecture 40 - Group Communication
Link NOC:Soft Skills Lecture 41 - Leadership Skills
Link NOC:Soft Skills Lecture 42 - Group Discussion - Part I
Link NOC:Soft Skills Lecture 43 - Group Discussion - Part II
Link NOC:Soft Skills Lecture 44 - Meeting Management
Link NOC:Soft Skills Lecture 45 - Adaptability and Work Ethics
Link NOC:Soft Skills Lecture 46 - Advanced Speaking Skills
Link NOC:Soft Skills Lecture 47 - Oral Presentations, Speeches, and Debates
Link NOC:Soft Skills Lecture 48 - Combating Nervousness
Link NOC:Soft Skills Lecture 49 - Patterns and Methods of Presentation
Link NOC:Soft Skills Lecture 50 - Oral Presentation: Planning and Preparation
Link NOC:Soft Skills Lecture 51 - Making Effective Presentations
Link NOC:Soft Skills Lecture 52 - Speeches for Various Occasions
Link NOC:Soft Skills Lecture 53 - Interviews
Link NOC:Soft Skills Lecture 54 - Planning and Preparation - Part I
Link NOC:Soft Skills Lecture 55 - Planning and Preparation - Part II
Link NOC:Soft Skills Lecture 56 - Drafting an Effective Résumé
Link NOC:Soft Skills Lecture 57 - Facing Job Interviews - Part I
Link NOC:Soft Skills Lecture 58 - Facing Job Interviews - Part II
Link NOC:Soft Skills Lecture 59 - Emotional Intelligence and Critical Thinking
Link NOC:Soft Skills Lecture 60 - Applied Grammar
Link NOC:Sociology of Science Lecture 1 - Sociology: Anthony Giddens - Part 1
Link NOC:Sociology of Science Lecture 2 - Sociology: Anthony Giddens - Part 2
Link NOC:Sociology of Science Lecture 3 - History of Science: Thomas Kuhn
Link NOC:Sociology of Science Lecture 4 - HSS in Technology Institutes: Ravinder Kaur - Part 1
Link NOC:Sociology of Science Lecture 5 - HSS in Technology Institutes: Ravinder Kaur - Part 2
Link NOC:Sociology of Science Lecture 6 - Ethos of Science - I
Link NOC:Sociology of Science Lecture 7 - Ethos of Science - II
Link NOC:Sociology of Science Lecture 8 - Science and Economy of 17th Century England
Link NOC:Sociology of Science Lecture 9 - Matthew Effect - Part 1
Link NOC:Sociology of Science Lecture 10 - Matthew Effect - Part 2
Link NOC:Sociology of Science Lecture 11 - Matthew Effect - Part 3
Link NOC:Sociology of Science Lecture 12 - Thomas Kuhn - Part 1
Link NOC:Sociology of Science Lecture 13 - Thomas Kuhn - Part 2
Link NOC:Sociology of Science Lecture 14 - Karl Popper - Part 1
Link NOC:Sociology of Science Lecture 15 - Karl Popper - Part 2
Link NOC:Sociology of Science Lecture 16 - Scientist as Indexical Reasoner - Part 1
Link NOC:Sociology of Science Lecture 17 - Scientist as Indexical Reasoner - Part 2
Link NOC:Sociology of Science Lecture 18 - Science technology and Colonial Power - Part 1
Link NOC:Sociology of Science Lecture 19 - Science Technology and Colonial Power - Part 2
Link NOC:Sociology of Science Lecture 20 - Large Community but Few Peers: E Haribabu
Link NOC:Perspectives on Neurolinguistic Lecture 1 - Introduction
Link NOC:Perspectives on Neurolinguistic Lecture 2 - Scope of Neurolinguistic Programming
Link NOC:Perspectives on Neurolinguistic Lecture 3 - NLP Communicating Model
Link NOC:Perspectives on Neurolinguistic Lecture 4 - NLP Filters
Link NOC:Perspectives on Neurolinguistic Lecture 5 - Causes and Effect
Link NOC:Perspectives on Neurolinguistic Lecture 6 - Four Pillars of NLP
Link NOC:Perspectives on Neurolinguistic Lecture 7 - Sensory Acuity
Link NOC:Perspectives on Neurolinguistic Lecture 8 - Rapport
Link NOC:Perspectives on Neurolinguistic Lecture 9 - Flexibility
Link NOC:Perspectives on Neurolinguistic Lecture 10 - Useful NLP Techniques
Link NOC:Perspectives on Neurolinguistic Lecture 11 - Presuppositions of NLP
Link NOC:Perspectives on Neurolinguistic Lecture 12 - Four Stages of Competence
Link NOC:Perspectives on Neurolinguistic Lecture 13 - Metacognition
Link NOC:Perspectives on Neurolinguistic Lecture 14 - Outcome and Ecology
Link NOC:Perspectives on Neurolinguistic Lecture 15 - Introducing Frames : Outcome and Ecology
Link NOC:Perspectives on Neurolinguistic Lecture 16 - Negotiation
Link NOC:Perspectives on Neurolinguistic Lecture 17 - Persuasion
Link NOC:Perspectives on Neurolinguistic Lecture 18 - Emotionality
Link NOC:Perspectives on Neurolinguistic Lecture 19 - Stage Fear - I
Link NOC:Perspectives on Neurolinguistic Lecture 20 - Stage Fear - II
Link NOC:Literature, Culture and Media Lecture 1 - Introduction Aims and Objectives
Link NOC:Literature, Culture and Media Lecture 2 - Defining Literature
Link NOC:Literature, Culture and Media Lecture 3 - Defining Culture
Link NOC:Literature, Culture and Media Lecture 4 - Relationship between Literature and Culture
Link NOC:Literature, Culture and Media Lecture 5 - Literature, Culture and Media
Link NOC:Literature, Culture and Media Lecture 6 - Introduction to Cultural Studies
Link NOC:Literature, Culture and Media Lecture 7 - Cultural Studies I: Raymond Williams
Link NOC:Literature, Culture and Media Lecture 8 - Cultural Studies II: Stuart Hall
Link NOC:Literature, Culture and Media Lecture 9 - High Culture and Popular Culture
Link NOC:Literature, Culture and Media Lecture 10 - Subculture and Counterculture
Link NOC:Literature, Culture and Media Lecture 11 - Modernism and Postmodernism - I
Link NOC:Literature, Culture and Media Lecture 12 - Modernism and Postmodernism - II
Link NOC:Literature, Culture and Media Lecture 13 - Lyotards The Postmodern Condition: A Report on Knowledge
Link NOC:Literature, Culture and Media Lecture 14 - Foucault’s Notion of Knowledge and Power
Link NOC:Literature, Culture and Media Lecture 15 - Poststructuralism and Deconstruction
Link NOC:Literature, Culture and Media Lecture 16 - Introduction to Feminism - I
Link NOC:Literature, Culture and Media Lecture 17 - Introduction to Feminism - II
Link NOC:Literature, Culture and Media Lecture 18 - Theories of Gender
Link NOC:Literature, Culture and Media Lecture 19 - Men's and Masculinity Studies
Link NOC:Literature, Culture and Media Lecture 20 - Queer Studies and Representations of Gender in Media
Link NOC:Literature, Culture and Media Lecture 21 - Intersectionality
Link NOC:Literature, Culture and Media Lecture 22 - Introduction to Postcolonial Theory
Link NOC:Literature, Culture and Media Lecture 23 - Key Concepts in Postcolonial theory
Link NOC:Literature, Culture and Media Lecture 24 - Said, Spivak and Bhabha
Link NOC:Literature, Culture and Media Lecture 25 - Postcolonial Reading of Achebe and Amitav Ghosh
Link NOC:Literature, Culture and Media Lecture 26 - Theories of Ideology
Link NOC:Literature, Culture and Media Lecture 27 - Adorno and Horkheimer on Culture
Link NOC:Literature, Culture and Media Lecture 28 - 1. Culture Industry and Mass Deception; 2. Walter Benjamin
Link NOC:Literature, Culture and Media Lecture 29 - Interconnections between Literature, Culture and Identity: Woolf and Deshpande - I
Link NOC:Literature, Culture and Media Lecture 30 - Interconnections between Literature, Culture and Identity: Woolf and Deshpande - II
Link NOC:Literature, Culture and Media Lecture 31 - The Evolution of Media: Print forms
Link NOC:Literature, Culture and Media Lecture 32 - Media and Culture - I
Link NOC:Literature, Culture and Media Lecture 33 - Media and Culture - II
Link NOC:Literature, Culture and Media Lecture 34 - Media, Culture and Technology
Link NOC:Literature, Culture and Media Lecture 35 - Harold Innis
Link NOC:Literature, Culture and Media Lecture 36 - Introduction to Marshall McLuhan
Link NOC:Literature, Culture and Media Lecture 37 - Media and the Electric Age
Link NOC:Literature, Culture and Media Lecture 38 - Hot and Cool Media
Link NOC:Literature, Culture and Media Lecture 39 - Postmodern Media - I
Link NOC:Literature, Culture and Media Lecture 40 - Postmodern Media - II and Formation of Public Opinion
Link NOC:Literature, Culture and Media Lecture 41 - Word and the Image: Drama, Photography, Birth of the Cinema
Link NOC:Literature, Culture and Media Lecture 42 - Film and Literature - I
Link NOC:Literature, Culture and Media Lecture 43 - Film and Literature - II
Link NOC:Literature, Culture and Media Lecture 44 - Language of Films: Mise-en-scene, Type of Shots, Camera angles/movements, Montage
Link NOC:Literature, Culture and Media Lecture 45 - Reading of 12 Years a Slave: Film and Text
Link NOC:Literature, Culture and Media Lecture 46 - Development of Media: Radio
Link NOC:Literature, Culture and Media Lecture 47 - Development of Media: Television
Link NOC:Literature, Culture and Media Lecture 48 - Film, Television and Literature
Link NOC:Literature, Culture and Media Lecture 49 - Impact of Technology on Literary Genres: Novel
Link NOC:Literature, Culture and Media Lecture 50 - Media in the 21st Century
Link NOC:Literature, Culture and Media Lecture 51 - Approaches to Digital Forms of Media
Link NOC:Literature, Culture and Media Lecture 52 - Literature, Internet and Culture
Link NOC:Literature, Culture and Media Lecture 53 - Digital Culture, Media, and Literature
Link NOC:Literature, Culture and Media Lecture 54 - Representation of Partition in Different Media: A historical and Cultural Analysis - I
Link NOC:Literature, Culture and Media Lecture 55 - Representation of Partition in Different Media: A historical and Cultural Analysis - II
Link NOC:Literature, Culture and Media Lecture 56 - Game Studies - I
Link NOC:Literature, Culture and Media Lecture 57 - Game Studies - II
Link NOC:Literature, Culture and Media Lecture 58 - Body Culture Studies and Representation of Women in the Media
Link NOC:Literature, Culture and Media Lecture 59 - Media and Gender
Link NOC:Literature, Culture and Media Lecture 60 - Media and Language, Glass Ceiling in Media
Link NOC:Body Language: Key to Professional Success Lecture 1 - Defining Body Language, Scope and Relevance
Link NOC:Body Language: Key to Professional Success Lecture 2 - Defining Proxemics, Four Zones
Link NOC:Body Language: Key to Professional Success Lecture 3 - Proxemics: Behavioral Connotations
Link NOC:Body Language: Key to Professional Success Lecture 4 - Oculesics - I
Link NOC:Body Language: Key to Professional Success Lecture 5 - Oculesics - II
Link NOC:Body Language: Key to Professional Success Lecture 6 - Haptics - I
Link NOC:Body Language: Key to Professional Success Lecture 7 - Haptics - II
Link NOC:Body Language: Key to Professional Success Lecture 8 - Kinesics: Types and Contexts
Link NOC:Body Language: Key to Professional Success Lecture 9 - Facial Expressions
Link NOC:Body Language: Key to Professional Success Lecture 10 - Macro and Micro Facial Expressions
Link NOC:Body Language: Key to Professional Success Lecture 11 - Mouth and Smiles
Link NOC:Body Language: Key to Professional Success Lecture 12 - Cultural Differences in Smiles; Head Nods
Link NOC:Body Language: Key to Professional Success Lecture 13 - Hand Movements
Link NOC:Body Language: Key to Professional Success Lecture 14 - Understanding Finger Movements
Link NOC:Body Language: Key to Professional Success Lecture 15 - Movements of Feet and Legs
Link NOC:Body Language: Key to Professional Success Lecture 16 - Paralanguage
Link NOC:Body Language: Key to Professional Success Lecture 17 - Chronemics
Link NOC:Body Language: Key to Professional Success Lecture 18 - Chromatics, Olfactics and Physical Appearance
Link NOC:Body Language: Key to Professional Success Lecture 19 - Digital Body Language
Link NOC:Body Language: Key to Professional Success Lecture 20 - Gustorics and Silence
Link NOC:Interpersonal Skills Lecture 1 - Introduction to Interpersonal Skills
Link NOC:Interpersonal Skills Lecture 2 - What are the Important Interpersonal Skills
Link NOC:Interpersonal Skills Lecture 3 - How Can I Develop Interpersonal Skills
Link NOC:Interpersonal Skills Lecture 4 - Practice Makes Interview Perfect
Link NOC:Interpersonal Skills Lecture 5 - Personal Attributes
Link NOC:Interpersonal Skills Lecture 6 - Interpersonal Attributes
Link NOC:Interpersonal Skills Lecture 7 - Technical Communication Skills
Link NOC:Interpersonal Skills Lecture 8 - What is Technical Communication
Link NOC:Interpersonal Skills Lecture 9 - Body Language - 1
Link NOC:Interpersonal Skills Lecture 10 - Body Language - 2
Link NOC:Interpersonal Skills Lecture 11 - Decision making - 1
Link NOC:Interpersonal Skills Lecture 12 - Decision making - 2
Link NOC:Interpersonal Skills Lecture 13 - Pronunciation - 1
Link NOC:Interpersonal Skills Lecture 14 - Pronunciation - 2
Link NOC:Interpersonal Skills Lecture 15 - Creative Problem Solving - 1
Link NOC:Interpersonal Skills Lecture 16 - Creative problem solving - 2
Link NOC:Interpersonal Skills Lecture 17 - Time Management - 1
Link NOC:Interpersonal Skills Lecture 18 - Time Management - 2
Link NOC:Interpersonal Skills Lecture 19 - Leadership skills - 1
Link NOC:Interpersonal Skills Lecture 20 - Leadership skills - 2
Link NOC:Interpersonal Skills Lecture 21 - Group Dynamics - 1
Link NOC:Interpersonal Skills Lecture 22 - Group Dynamics - 2
Link NOC:Interpersonal Skills Lecture 23 - Reducing Stage Fright - 1
Link NOC:Interpersonal Skills Lecture 24 - Reducing Stage Fright - 2
Link NOC:Interpersonal Skills Lecture 25 - Death by Power Point - 1
Link NOC:Interpersonal Skills Lecture 26 - Death by Power Point - 2
Link NOC:Interpersonal Skills Lecture 27 - Negotiation - 1
Link NOC:Interpersonal Skills Lecture 28 - Negotiation - 2
Link NOC:Interpersonal Skills Lecture 29 - Assertiveness - 1
Link NOC:Interpersonal Skills Lecture 30 - Assertiveness - 2
Link NOC:Interpersonal Skills Lecture 31 - Emotional Intelligence - 1
Link NOC:Interpersonal Skills Lecture 32 - Emotional Intelligence - 2
Link NOC:Interpersonal Skills Lecture 33 - Brain Storming Technique - 1
Link NOC:Interpersonal Skills Lecture 34 - Brain Storming Technique - 2
Link NOC:Interpersonal Skills Lecture 35 - Group Discussion - 1
Link NOC:Interpersonal Skills Lecture 36 - Group Discussion - 2
Link NOC:Interpersonal Skills Lecture 37 - Persuasion - 1
Link NOC:Interpersonal Skills Lecture 38 - Persuasion - 2
Link NOC:Interpersonal Skills Lecture 39 - Glossophobia - 1
Link NOC:Interpersonal Skills Lecture 40 - Glossophobia - 2
Link NOC:Artistic Exploration in Scientific Research and Technology Lecture 1 - Science and Humanities
Link NOC:Artistic Exploration in Scientific Research and Technology Lecture 2 - Humanities and Art
Link NOC:Artistic Exploration in Scientific Research and Technology Lecture 3 - Idea of Folk
Link NOC:Artistic Exploration in Scientific Research and Technology Lecture 4 - Folk and Folk Art
Link NOC:Artistic Exploration in Scientific Research and Technology Lecture 5 - Importance of Folklore
Link NOC:Artistic Exploration in Scientific Research and Technology Lecture 6 - Folk Art Around the World
Link NOC:Artistic Exploration in Scientific Research and Technology Lecture 7 - Indian Folk Art
Link NOC:Artistic Exploration in Scientific Research and Technology Lecture 8 - Indian Schools of Painting
Link NOC:Artistic Exploration in Scientific Research and Technology Lecture 9 - Indian Folk Paintings - 1
Link NOC:Artistic Exploration in Scientific Research and Technology Lecture 10 - Indian Folk Paintings - 2
Link NOC:Artistic Exploration in Scientific Research and Technology Lecture 11 - Madhubani: Understanding the Technique
Link NOC:Artistic Exploration in Scientific Research and Technology Lecture 12 - Gond: Understanding the Technique
Link NOC:Artistic Exploration in Scientific Research and Technology Lecture 13 - Warli: Understanding the Technique
Link NOC:Artistic Exploration in Scientific Research and Technology Lecture 14 - Chittara: Understanding the Technique
Link NOC:Artistic Exploration in Scientific Research and Technology Lecture 15 - Sohrai: Understanding the Technique
Link NOC:Artistic Exploration in Scientific Research and Technology Lecture 16 - Importance of Interdisciplinary Approach
Link NOC:Artistic Exploration in Scientific Research and Technology Lecture 17 - Art vis-à-vis Science and Technology
Link NOC:Artistic Exploration in Scientific Research and Technology Lecture 18 - When Art Meets Science and Technology
Link NOC:Artistic Exploration in Scientific Research and Technology Lecture 19 - Folk Art A Potent Medium of Communication
Link NOC:Artistic Exploration in Scientific Research and Technology Lecture 20 - Representation of Science and Technology with Indian Folk Art - 1
Link NOC:Artistic Exploration in Scientific Research and Technology Lecture 21 - Representation of Science and Technology with Indian Folk Art - 2
Link NOC:Artistic Exploration in Scientific Research and Technology Lecture 22 - Recapitulation
Link NOC:Artistic Exploration in Scientific Research and Technology Lecture 23 - Conclusion
Link Managerial Accounting Lecture 1 - Introduction to Management Accounting
Link Managerial Accounting Lecture 2 - Double Entry System, Forms of Organisation
Link Managerial Accounting Lecture 3 - Financial Statements
Link Managerial Accounting Lecture 4 - Balance Sheet
Link Managerial Accounting Lecture 5 - Profit and Loss Account
Link Managerial Accounting Lecture 6 - Company Account
Link Managerial Accounting Lecture 7 - Accounting Concepts, Standards, IFRS
Link Managerial Accounting Lecture 8 - Depreciation, Inventory, Goodwill
Link Managerial Accounting Lecture 9 - Inventory Valuation, Cash Flow
Link Managerial Accounting Lecture 10 - Cash Flow Statement Cases
Link Managerial Accounting Lecture 11 - Cash Flow Statement Cases
Link Managerial Accounting Lecture 12 - Cash Flow Statement Cases-Part II
Link Managerial Accounting Lecture 13 - Fund Flow Statement Cases
Link Managerial Accounting Lecture 14 - Common-size, Comparative Statement Analysis
Link Managerial Accounting Lecture 15 - Ratio Analysis
Link Managerial Accounting Lecture 16 - Financial Statements Analysis
Link Managerial Accounting Lecture 17 - Comparative, Common-size and Ratio Analysis
Link Managerial Accounting Lecture 18 - Financial Statements Analysis - Colgate Palmolive Case
Link Managerial Accounting Lecture 19 - Financial Statements Analysis - Dabur India Case
Link Managerial Accounting Lecture 20 - Types of Costs
Link Managerial Accounting Lecture 21 - Accounting for Costs
Link Managerial Accounting Lecture 22 - Cost Allocation, Absorption
Link Managerial Accounting Lecture 23 - Job and Process Accounting
Link Managerial Accounting Lecture 24 - Job and Process Accounting including cost sheet and equivalent production
Link Managerial Accounting Lecture 25 - Equivalent production and Activity Based Costing
Link Managerial Accounting Lecture 26 - Activity Based Costing and Management
Link Managerial Accounting Lecture 27 - Cost Volume Profit Analysis
Link Managerial Accounting Lecture 28 - Relevant and Sunk Cost in Decision Making
Link Managerial Accounting Lecture 29 - New Product, Shut Down and Joint Products
Link Managerial Accounting Lecture 30 - Budget and Budgetory control
Link Managerial Accounting Lecture 31 - Budgeting and Standard Costing
Link Managerial Accounting Lecture 32 - Standard Costing - Material, Labour and Overhead Variances
Link Managerial Accounting Lecture 33 - Standard Costing - Mix, Yeild, Sales and Fixed Overhead Variances
Link Managerial Accounting Lecture 34 - Standard Costing - Mix, Yeild and Fixed Overhead Variances
Link Managerial Accounting Lecture 35 - Cost Volume Profit and Break-Even Point Analysis
Link Managerial Accounting Lecture 36 - Cost Volume Profit Analysis - Cost Indifference Point and Levearge
Link Managerial Accounting Lecture 37 - Cash Flow Advanced Cases
Link Managerial Accounting Lecture 38 - Cash Flow Advanced Cases-Part II
Link Managerial Accounting Lecture 39 - Financial Statements Analysis Advanced
Link Managerial Accounting Lecture 40 - Financial Statement- Forcasting and Valuation - Dabur Case
Link Managerial Accounting Lecture 41 - Financial Statement- Forcasting and use of Adjusted data - Pfizer and Merck Case
Link Managerial Economics Lecture 1 - Introduction to Managerial Economics
Link Managerial Economics Lecture 2 - Introduction to Managerial Economics (Continued...)
Link Managerial Economics Lecture 3 - Introduction to Managerial Economics (Continued...)
Link Managerial Economics Lecture 4 - Basic Tools of Economic Analysis and Optimization Techniques
Link Managerial Economics Lecture 5 - Basic Tools of Economic Analysis and Optimization Techniques (Continued...)
Link Managerial Economics Lecture 6 - Basic Tools of Economic Analysis and Optimization Techniques (Continued...)
Link Managerial Economics Lecture 7 - Basic Tools of Economic Analysis and Optimization Techniques (Continued...)
Link Managerial Economics Lecture 8 - Theory of Demand
Link Managerial Economics Lecture 9 - Theory of Demand (Continued...)
Link Managerial Economics Lecture 10 - Theory of Demand (Continued...)
Link Managerial Economics Lecture 11 - Theory of Demand (Continued...)
Link Managerial Economics Lecture 12 - Consumer Behaviour
Link Managerial Economics Lecture 13 - Consumer Behaviour (Continued...)
Link Managerial Economics Lecture 14 - Elasticity of Supply
Link Managerial Economics Lecture 15 - Demand Forecasting
Link Managerial Economics Lecture 16 - Demand Forecasting (Continued...)
Link Managerial Economics Lecture 17 - Theory of Production
Link Managerial Economics Lecture 18 - Theory of Production (Continued...)
Link Managerial Economics Lecture 19 - Theory of Production (Continued...)
Link Managerial Economics Lecture 20 - Theory of Cost
Link Managerial Economics Lecture 21 - Theory of Cost (Continued...)
Link Managerial Economics Lecture 22 - Theory of Cost (Continued...)
Link Managerial Economics Lecture 23 - Theory of Cost (Continued...)
Link Managerial Economics Lecture 24 - Theory of Market
Link Managerial Economics Lecture 25 - Perfect Competition
Link Managerial Economics Lecture 26 - Perfect Competition (Continued...)
Link Managerial Economics Lecture 27 - Monopoly
Link Managerial Economics Lecture 28 - Monopoly (Continued...)
Link Managerial Economics Lecture 29 - Monopoly (Continued...)
Link Managerial Economics Lecture 30 - Monopolistic
Link Managerial Economics Lecture 31 - Oligopoly
Link Managerial Economics Lecture 32 - Oligopoly (Continued...)
Link Managerial Economics Lecture 33 - Oligopoly (Continued...)
Link Managerial Economics Lecture 34 - Oligopoly (Continued...)
Link Managerial Economics Lecture 35 - Oligopoly and Game Theory
Link Managerial Economics Lecture 36 - Oligopoly and Game Theory (Continued...)
Link Managerial Economics Lecture 37 - Game Theory / Product Pricing
Link Managerial Economics Lecture 38 - Product Pricing
Link Managerial Economics Lecture 39 - Product Pricing (Continued...)
Link Managerial Economics Lecture 40 - Summary
Link NOC:Financial Accounting Lecture 1 - Introduction and Scope of Accounting
Link NOC:Financial Accounting Lecture 2 - Financial Statements
Link NOC:Financial Accounting Lecture 3 - Balance Sheet - 1
Link NOC:Financial Accounting Lecture 4 - Balance Sheet - 2
Link NOC:Financial Accounting Lecture 5 - Balance Sheet - 3
Link NOC:Financial Accounting Lecture 6 - Balance Sheet - 4
Link NOC:Financial Accounting Lecture 7 - Balance Sheet - 5
Link NOC:Financial Accounting Lecture 8 - Profit and Loss Account - 1
Link NOC:Financial Accounting Lecture 9 - Profit and Loss Account - 2
Link NOC:Financial Accounting Lecture 10 - Profit and Loss Account - 3
Link NOC:Financial Accounting Lecture 11 - Depreciation - 1
Link NOC:Financial Accounting Lecture 12 - Depreciation - 2
Link NOC:Financial Accounting Lecture 13 - Inventory Valuation
Link NOC:Financial Accounting Lecture 14 - Cash Flow Statement - 1
Link NOC:Financial Accounting Lecture 15 - Cash Flow Statement - 2
Link NOC:Financial Accounting Lecture 16 - Cash Flow Statement - 3
Link NOC:Financial Accounting Lecture 17 - Cash Flow Statement - 4
Link NOC:Financial Accounting Lecture 18 - Cash Flow Statement - 5
Link NOC:Financial Accounting Lecture 19 - Corporate Governance
Link NOC:Financial Accounting Lecture 20 - Corporate Governance: Global Models
Link NOC:Financial Accounting Lecture 21 - Corporate Governance: Enron Case
Link NOC:Financial Accounting Lecture 22 - Accounting Standards and Principles
Link NOC:Financial Accounting Lecture 23 - Evolution of Accounting
Link NOC:Financial Accounting Lecture 24 - Recording of Financial Transactions
Link NOC:Financial Accounting Lecture 25 - Zee Case: Profit and Loss and Balance Sheet
Link NOC:Financial Accounting Lecture 26 - Zee Case: Balance Sheet
Link NOC:Financial Accounting Lecture 27 - Hindalco Case: Profit and Loss and Balance Sheet
Link NOC:Financial Accounting Lecture 28 - Hindalco Case: Balance Sheet and Cash Flow Statement
Link NOC:Financial Accounting Lecture 29 - Interpretation and Analysis of Financial Statements
Link NOC:Financial Accounting Lecture 30 - Ratio Analysis and Interpretation - 1
Link NOC:Financial Accounting Lecture 31 - Ratio Analysis and Interpretation - 2
Link NOC:Financial Accounting Lecture 32 - Interpretation and Analysis of Financial Statements: Shipping Corp. of India - 1
Link NOC:Financial Accounting Lecture 33 - Interpretation and Analysis of Financial Statements: Shipping Corp. of India - 2
Link NOC:Financial Accounting Lecture 34 - Interpretation and Analysis of Financial Statements: Shipping Corp. of India - 3
Link NOC:Financial Accounting Lecture 35 - Interpretation and Analysis of Financial Statements: Shipping Corp. of India - 4
Link NOC:Financial Accounting Lecture 36 - Financial Statement Analysis: TCS Case - 1
Link NOC:Financial Accounting Lecture 37 - Financial Statement Analysis: TCS Case - 2
Link NOC:Financial Accounting Lecture 38 - Financial Statement Analysis: RIL Case - 1
Link NOC:Financial Accounting Lecture 39 - Financial Statement Analysis: RIL Case - 2
Link NOC:Financial Accounting Lecture 40 - Revision of Course
Link NOC:Cost Accounting Lecture 1 - Introduction to Cost Accounting
Link NOC:Cost Accounting Lecture 2 - Classification of Costs
Link NOC:Cost Accounting Lecture 3 - Marginal Costing
Link NOC:Cost Accounting Lecture 4 - Cost Volume Profit Analysis
Link NOC:Cost Accounting Lecture 5 - Margin of Safety
Link NOC:Cost Accounting Lecture 6 - Application of Breakeven Point Analysis
Link NOC:Cost Accounting Lecture 7 - Sensitivity Analysis
Link NOC:Cost Accounting Lecture 8 - Case of Ayur Pharma
Link NOC:Cost Accounting Lecture 9 - Different Decision Scenarios and Profit Planning
Link NOC:Cost Accounting Lecture 10 - Relevant Costs in Decision Making
Link NOC:Cost Accounting Lecture 11 - Case Study : Break-even point
Link NOC:Cost Accounting Lecture 12 - Case Study : JSW ISPAT Steel
Link NOC:Cost Accounting Lecture 13 - Case Study on Projection : Divya Aushadhi Ltd
Link NOC:Cost Accounting Lecture 14 - Case Study : Shree Cements
Link NOC:Cost Accounting Lecture 15 - Budgeting and Budgetary Control
Link NOC:Cost Accounting Lecture 16 - Functional Budget
Link NOC:Cost Accounting Lecture 17 - Cash Budget
Link NOC:Cost Accounting Lecture 18 - Standard Costing And Variance Analysis
Link NOC:Cost Accounting Lecture 19 - Material Cost Variances
Link NOC:Cost Accounting Lecture 20 - Overhead Variance
Link NOC:Game Theory Lecture 1 - Combinatorial Games: Introduction and examples
Link NOC:Game Theory Lecture 2 - Combinatorial Games: N and P positions
Link NOC:Game Theory Lecture 3 - Combinatorial Games: Zermelo’s Theorem
Link NOC:Game Theory Lecture 4 - Combinatorial Games: The game of Hex
Link NOC:Game Theory Lecture 5 - Combinatorial Games: Nim games
Link NOC:Game Theory Lecture 6 - Combinatorial Games: Sprague-Grundy Theorem - I
Link NOC:Game Theory Lecture 7 - Combinatorial Games: Sprague-Grundy Theorem - II
Link NOC:Game Theory Lecture 8 - Combinatorial Games: Sprague-Grundy Theorem - III
Link NOC:Game Theory Lecture 9 - Combinatorial Games: The Sylver Coinage Game
Link NOC:Game Theory Lecture 10 - Zero-Sum Games: Introduction and examples
Link NOC:Game Theory Lecture 11 - Zero-Sum Games: Saddle Point Equilibria and the Minimax Theorem
Link NOC:Game Theory Lecture 12 - Zero-Sum Games: Mixed Strategies
Link NOC:Game Theory Lecture 13 - Zero-Sum Games: Existence of Saddle Point Equilibria
Link NOC:Game Theory Lecture 14 - Zero-Sum Games: Proof of the Minimax Theorem
Link NOC:Game Theory Lecture 15 - Zero-Sum Games: Properties of Saddle Point Equilibria
Link NOC:Game Theory Lecture 16 - Zero-Sum Games: Computing Saddle Point Equilibria
Link NOC:Game Theory Lecture 17 - Zero-Sum Games: Matrix Game Properties
Link NOC:Game Theory Lecture 18 - Non-Zero-Sum Games: Introduction and Examples
Link NOC:Game Theory Lecture 19 - Non-Zero-Sum Games: Existence of Nash Equilibrium - Part I
Link NOC:Game Theory Lecture 20 - Non-Zero-Sum Games: Existence of Nash Equilibrium - Part II
Link NOC:Game Theory Lecture 21 - Iterated elimination of strictly dominated strategies
Link NOC:Game Theory Lecture 22 - Lemke-Howson Algorithm - I
Link NOC:Game Theory Lecture 23 - Lemke-Howson Algorithm - II
Link NOC:Game Theory Lecture 24 - Lemke-Howson Algorithm - III
Link NOC:Game Theory Lecture 25 - Evolutionarily Stable Strategies - I
Link NOC:Game Theory Lecture 26 - Evolutionarily Stable Strategies - II
Link NOC:Game Theory Lecture 27 - Evolutionarily Stable Strategies - III
Link NOC:Game Theory Lecture 28 - Fictitious Play
Link NOC:Game Theory Lecture 29 - Brown-Von Neumann-Nash Dynamics
Link NOC:Game Theory Lecture 30 - Potential Games
Link NOC:Game Theory Lecture 31 - Cooperative Games: Correlated Equilibria
Link NOC:Game Theory Lecture 32 - Cooperative Games: The Nash Bargaining Problem - I
Link NOC:Game Theory Lecture 33 - Cooperative Games: The Nash Bargaining Problem - II
Link NOC:Game Theory Lecture 34 - Cooperative Games: The Nash Bargaining Problem - III
Link NOC:Game Theory Lecture 35 - Cooperative Games: Transferable Utility Games
Link NOC:Game Theory Lecture 36 - Cooperative Games: The Core
Link NOC:Game Theory Lecture 37 - Cooperative Games: Characterization of Games with non-empty Core
Link NOC:Game Theory Lecture 38 - Cooperative Games: Shapley Value
Link NOC:Game Theory Lecture 39 - Cooperative Games: The Nucleolus
Link NOC:Game Theory Lecture 40 - The Matching Problem
Link Organisation Management Lecture 1 - Introduction to Organization Management,Nature, Scope and Complexity
Link Organisation Management Lecture 2 - Longitudinal thinking and legacy factor:Organizational Growth
Link Organisation Management Lecture 3 - Longitudinal thinking and legacy factor:Organizational Growth (Continued...)
Link Organisation Management Lecture 4 - Longitudinal thinking and legacy factor:Organizational Growth (Continued...)
Link Organisation Management Lecture 5 - Theory and majors schools of Thought and Framework of Organizational Analysis
Link Organisation Management Lecture 6 - Theory and majors schools of thought and framework of organizational analysis (Continued...)
Link Organisation Management Lecture 7 - Theory and majors schools of thought and framework of organizational analysis (Continued...)
Link Organisation Management Lecture 8 - Systems contingency approach to organization theory and practice; techniques of organizational diagnosis
Link Organisation Management Lecture 9 - Systems contingency approach to organization theory and practice; techniques of organizational diagnosis (Continued...)
Link Organisation Management Lecture 10 - Systems contingency approach to organization theory and practice; techniques of organizational diagnosis (Continued...)
Link Organisation Management Lecture 11 - Theory of organizational structures - nature and consequence of structure
Link Organisation Management Lecture 12 - Theory of organizational structures - nature and consequence of structure (Continued...)
Link Organisation Management Lecture 13 - Socio-culture dimension of work and behavior
Link Organisation Management Lecture 14 - Socio-culture dimension of work and behavior (Continued...)
Link Organisation Management Lecture 15 - Socio-culture dimension of work and behavior (Continued...)
Link Organisation Management Lecture 16 - Impact of environment and cultural variables on organization structure & style
Link Organisation Management Lecture 17 - Impact of environment and cultural variables on organization structure & style (Continued...)
Link Organisation Management Lecture 18 - Impact of environment and cultural variables on organization structure & style (Continued...)
Link Organisation Management Lecture 19 - Organization Change and Organisation Development
Link Organisation Management Lecture 20 - Organization Change and Organisation Development (Continued...)
Link Organisation Management Lecture 21 - Intervention strategies for organization development - individual, Group and Interpersonal Interventions
Link Organisation Management Lecture 22 - Intervention strategies for organization development - individual, Group & interpersonal interventions (Continued...)
Link Organisation Management Lecture 23 - Intervention strategies for organization development - individual, Group & interpersonal interventions (Continued...)
Link Organisation Management Lecture 24 - Total System Intervention & Stabilizing Change Management by Objectives
Link Organisation Management Lecture 25 - Total System Intervention & Stabilizing Change Management by Objectives (Continued...)
Link Organisation Management Lecture 26 - Total System Intervention & Stabilizing Change Management by Objectives (Continued...)
Link Organisation Management Lecture 27 - Nature of Organisational Processes
Link Organisation Management Lecture 28 - Nature of Organisational Processes (Continued...)
Link Organisation Management Lecture 29 - Nature of Organisational Processes (Continued...)
Link Organisation Management Lecture 30 - Environmental analysis Techniques and impact for organizational growth
Link Organisation Management Lecture 31 - Environmental analysis Techniques and impact for organizational growth (Continued...)
Link Organisation Management Lecture 32 - Environmental analysis Techniques and impact for organizational growth (Continued...)
Link Organisation Management Lecture 33 - Issues of Mechnisation, Automation and Computerisation
Link Organisation Management Lecture 34 - Issues of Mechnisation, Automation and Computerisation (Continued...)
Link Organisation Management Lecture 35 - Organisation Interdependence
Link Organisation Management Lecture 36 - Organisation Interdependence (Continued...)
Link Organisation Management Lecture 37 - Organisation Interdependence (Continued...)
Link Organisation Management Lecture 38 - Organisation Evaluation
Link Organisation Management Lecture 39 - Organisation Evaluation (Continued...)
Link Organisation Management Lecture 40 - Organisation Evaluation (Continued...)
Link Organisation of Engineering Systems and Human Resources Management Lecture 1 - Introduction to the subject and the course
Link Organisation of Engineering Systems and Human Resources Management Lecture 2 - Understanding organizations: nature and functions
Link Organisation of Engineering Systems and Human Resources Management Lecture 3 - Understanding organizations: nature and functions (Continued...)
Link Organisation of Engineering Systems and Human Resources Management Lecture 4 - Concerns of organising engineering business and systems
Link Organisation of Engineering Systems and Human Resources Management Lecture 5 - Concerns of organising engineering business and systems (Continued...)
Link Organisation of Engineering Systems and Human Resources Management Lecture 6 - Concerns of organising engineering business and systems (Continued...)
Link Organisation of Engineering Systems and Human Resources Management Lecture 7 - Structure and process issues in running organisations
Link Organisation of Engineering Systems and Human Resources Management Lecture 8 - Structure and process issues in running organisations (Continued...)
Link Organisation of Engineering Systems and Human Resources Management Lecture 9 - Design issues in running organisations
Link Organisation of Engineering Systems and Human Resources Management Lecture 10 - Design issues in running organisations (Continued...)
Link Organisation of Engineering Systems and Human Resources Management Lecture 11 - Operating organizations
Link Organisation of Engineering Systems and Human Resources Management Lecture 12 - Operating organizations (Continued...)
Link Organisation of Engineering Systems and Human Resources Management Lecture 13 - Operating organizations (Continued...)
Link Organisation of Engineering Systems and Human Resources Management Lecture 14 - Cybernetics and systems framework
Link Organisation of Engineering Systems and Human Resources Management Lecture 15 - Cybernetics and systems framework (Continued...)
Link Organisation of Engineering Systems and Human Resources Management Lecture 16 - Socio-technical systems
Link Organisation of Engineering Systems and Human Resources Management Lecture 17 - Socio-technical systems (Continued...)
Link Organisation of Engineering Systems and Human Resources Management Lecture 18 - Socio-technical systems (Continued...)
Link Organisation of Engineering Systems and Human Resources Management Lecture 19 - Dealing with efficiency and excellence
Link Organisation of Engineering Systems and Human Resources Management Lecture 20 - Dealing with efficiency and excellence (Continued...)
Link Organisation of Engineering Systems and Human Resources Management Lecture 21 - Dealing with efficiency and excellence (Continued...)
Link Organisation of Engineering Systems and Human Resources Management Lecture 22 - Man-machine relationship
Link Organisation of Engineering Systems and Human Resources Management Lecture 23 - Man-machine relationship (Continued...)
Link Organisation of Engineering Systems and Human Resources Management Lecture 24 - Longitudinal Thinking
Link Organisation of Engineering Systems and Human Resources Management Lecture 25 - Longitudinal Thinking (Continued...)
Link Organisation of Engineering Systems and Human Resources Management Lecture 26 - Concerns of recruitment, selection, skill formation and redeployment
Link Organisation of Engineering Systems and Human Resources Management Lecture 27 - Concerns of recruitment, selection, skill formation and redeployment (Continued...)
Link Organisation of Engineering Systems and Human Resources Management Lecture 28 - Concerns of recruitment, selection, skill formation and redeployment (Continued...)
Link Organisation of Engineering Systems and Human Resources Management Lecture 29 - Developing teams and leadership
Link Organisation of Engineering Systems and Human Resources Management Lecture 30 - Developing teams and leadership (Continued...)
Link Organisation of Engineering Systems and Human Resources Management Lecture 31 - Understanding motivation
Link Organisation of Engineering Systems and Human Resources Management Lecture 32 - Understanding motivation (Continued...)
Link Organisation of Engineering Systems and Human Resources Management Lecture 33 - Elements of human resources planning
Link Organisation of Engineering Systems and Human Resources Management Lecture 34 - Elements of human resources planning (Continued...)
Link Organisation of Engineering Systems and Human Resources Management Lecture 35 - Elements of human resources planning (Continued...)
Link Organisation of Engineering Systems and Human Resources Management Lecture 36 - Indian Industrial Law and managing industrial
Link Organisation of Engineering Systems and Human Resources Management Lecture 37 - Indian Industrial Law and managing industrial (Continued...)
Link Organisation of Engineering Systems and Human Resources Management Lecture 38 - Indian Industrial Law and managing industrial (Continued...)
Link NOC:Economic Growth and Development Lecture 1 - Concepts of Economic Growth and Development
Link NOC:Economic Growth and Development Lecture 2 - Structural features of developed and underdeveloped countries
Link NOC:Economic Growth and Development Lecture 3 - The Global North and the Global South: Why the Divide?
Link NOC:Economic Growth and Development Lecture 4 - Growth versus Development - some indices of economic development
Link NOC:Economic Growth and Development Lecture 5 - Modern Economic Growth
Link NOC:Economic Growth and Development Lecture 6 - Strategies of economic development and growth - I
Link NOC:Economic Growth and Development Lecture 7 - Strategies of economic development and growth - II
Link NOC:Economic Growth and Development Lecture 8 - Strategies of economic development and growth - III
Link NOC:Economic Growth and Development Lecture 9 - Strategies of economic development and growth - IV
Link NOC:Economic Growth and Development Lecture 10 - Strategies of economic development and growth - V
Link NOC:Economic Growth and Development Lecture 11 - Strategies of economic development and growth - VI
Link NOC:Economic Growth and Development Lecture 12 - Growth and Inequality
Link NOC:Economic Growth and Development Lecture 13 - Economic Growth and Public Support
Link NOC:Economic Growth and Development Lecture 14 - Measures of Inequality
Link NOC:Economic Growth and Development Lecture 15 - Introduction to Human Development-Putting People First
Link NOC:Economic Growth and Development Lecture 16 - The Human Development and Capability Approach
Link NOC:Economic Growth and Development Lecture 17 - Utilitarianism, Basic Needs Approach and the Capability Approach
Link NOC:Economic Growth and Development Lecture 18 - Measuring Human Development - I
Link NOC:Economic Growth and Development Lecture 19 - Measuring Human Development - II
Link NOC:Economic Growth and Development Lecture 20 - Other Human Development Indices
Link NOC:Economic Growth and Development Lecture 21 - Multidimensional Poverty, MDGs and SDGs
Link NOC:Economic Growth and Development Lecture 22 - Gender mainstreaming and Gender budgeting
Link NOC:Economic Growth and Development Lecture 23 - In Conclusion
Link Strategic Marketing - Contemporary Issues Lecture 1 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 2 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 3 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 4 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 5 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 6 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 7 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 8 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 9 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 10 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 11 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 12 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 13 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 14 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 15 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 16 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 17 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 18 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 19 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 20 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 21 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 22 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 23 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 24 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 25 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 26 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 27 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 28 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 29 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 30 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 31 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 32 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 33 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 34 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 35 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 36 - Strategic Marketing
Link Strategic Marketing - Contemporary Issues Lecture 37 - Strategic Marketing
Link NOC:Strategy: An Introduction to game Theory Lecture 1 - Introduction Examples: Markets / Politics / Auctions
Link NOC:Strategy: An Introduction to game Theory Lecture 2 - Prisoners’ Dilemma
Link NOC:Strategy: An Introduction to game Theory Lecture 3 - Best Response and Nash Equilibrium
Link NOC:Strategy: An Introduction to game Theory Lecture 4 - Another Example: Markets
Link NOC:Strategy: An Introduction to game Theory Lecture 5 - Dominant Strategies
Link NOC:Strategy: An Introduction to game Theory Lecture 6 - Stag Hunt – Coordination and Bank Runs
Link NOC:Strategy: An Introduction to game Theory Lecture 7 - Battle of Sexes and Multiple Nash Equilibria
Link NOC:Strategy: An Introduction to game Theory Lecture 8 - Tragedy of Commons
Link NOC:Strategy: An Introduction to game Theory Lecture 9 - Tragedy of Commons
Link NOC:Strategy: An Introduction to game Theory Lecture 10 - Cournot Duopoly
Link NOC:Strategy: An Introduction to game Theory Lecture 11 - Cournot Duopoly
Link NOC:Strategy: An Introduction to game Theory Lecture 12 - Mixed Strategies
Link NOC:Strategy: An Introduction to game Theory Lecture 13 - Battle of Sexes
Link NOC:Strategy: An Introduction to game Theory Lecture 14 - Battle of Sexes: Best Response Dynamic
Link NOC:Strategy: An Introduction to game Theory Lecture 15 - Paying Taxes
Link NOC:Strategy: An Introduction to game Theory Lecture 16 - Portfolio Management Game
Link NOC:Strategy: An Introduction to game Theory Lecture 17 - Rationality, Choice and Common Knowledge
Link NOC:Strategy: An Introduction to game Theory Lecture 18 - Lterated Elimination of Domination Strategies
Link NOC:Strategy: An Introduction to game Theory Lecture 19 - Auction
Link NOC:Strategy: An Introduction to game Theory Lecture 20 - Auction: As a Normal Form Game
Link NOC:Strategy: An Introduction to game Theory Lecture 21 - Traffic at Equilibrium and Braesss Paradox
Link NOC:Strategy: An Introduction to game Theory Lecture 22 - Linear Markets
Link NOC:Strategy: An Introduction to game Theory Lecture 23 - Extensive Form Games
Link NOC:Strategy: An Introduction to game Theory Lecture 24 - Game Tree and Information Sets
Link NOC:Strategy: An Introduction to game Theory Lecture 25 - Strategies in Extensive from Games
Link NOC:Strategy: An Introduction to game Theory Lecture 26 - Extensive from Games with Simultaneous Moves and Their Normal From Representation
Link NOC:Strategy: An Introduction to game Theory Lecture 27 - Sub Game Perfect Equilibrium Part-I
Link NOC:Strategy: An Introduction to game Theory Lecture 28 - Sub Game Perfect Equilibrium Part-II
Link NOC:Strategy: An Introduction to game Theory Lecture 29 - The Art of War: Lesson 1
Link NOC:Strategy: An Introduction to game Theory Lecture 30 - Ultimatum Game
Link NOC:Strategy: An Introduction to game Theory Lecture 31 - Stackelberg Model
Link NOC:Strategy: An Introduction to game Theory Lecture 32 - Bayesian Games
Link NOC:Strategy: An Introduction to game Theory Lecture 33 - Bayesian Game: BoS
Link NOC:Strategy: An Introduction to game Theory Lecture 34 - Bayesian Nash Equilibrium
Link NOC:Strategy: An Introduction to game Theory Lecture 35 - Yield vs Fight
Link NOC:Strategy: An Introduction to game Theory Lecture 36 - Yield vs. Fight: Bayesian NE
Link NOC:Strategy: An Introduction to game Theory Lecture 37 - Bayesian Cournot Game
Link NOC:Strategy: An Introduction to game Theory Lecture 38 - Bayesian Games with mixed strategies
Link NOC:Strategy: An Introduction to game Theory Lecture 39 - Auctions
Link NOC:Strategy: An Introduction to game Theory Lecture 40 - Sealed Bid First Price Auction
Link NOC:Strategy: An Introduction to game Theory Lecture 41 - Expected Revenue
Link NOC:Strategy: An Introduction to game Theory Lecture 42 - Bayesian Second Price Auction
Link NOC:Strategy: An Introduction to game Theory Lecture 43 - Expected Revenue: Second Price Auction
Link NOC:Strategy: An Introduction to game Theory Lecture 44 - All Pay Auction
Link NOC:Strategy: An Introduction to game Theory Lecture 45 - A Hawk-Dove Game
Link NOC:Strategy: An Introduction to game Theory Lecture 46 - Evolutionary Biology
Link NOC:Strategy: An Introduction to game Theory Lecture 47 - Evolutionary stable Strategy (ESS)
Link NOC:Strategy: An Introduction to game Theory Lecture 48 - ESS and NE
Link NOC:Strategy: An Introduction to game Theory Lecture 49 - Repeated Games
Link NOC:Strategy: An Introduction to game Theory Lecture 50 - Finitely Repeated Game having Multiple Equilibriums
Link NOC:Strategy: An Introduction to game Theory Lecture 51 - Chain-Store Paradox
Link NOC:Strategy: An Introduction to game Theory Lecture 52 - Infinitely Repeated Game
Link NOC:Strategy: An Introduction to game Theory Lecture 53 - Non Cooperative Bargaining
Link NOC:Strategy: An Introduction to game Theory Lecture 54 - Axiomatic Bargaining
Link NOC:Strategy: An Introduction to game Theory Lecture 55 - Extensive Form Game with Incomplete Information
Link NOC:Strategy: An Introduction to game Theory Lecture 56 - Introduction to perfect Bayesian Equilibrium
Link NOC:Strategy: An Introduction to game Theory Lecture 57 - Obtaining PBE
Link NOC:Strategy: An Introduction to game Theory Lecture 58 - Gift Game
Link NOC:Managing Services Lecture 1 - What is Service?
Link NOC:Managing Services Lecture 2 - Evolving Service Markets
Link NOC:Managing Services Lecture 3 - The Service Customers
Link NOC:Managing Services Lecture 4 - Product Service Systems
Link NOC:Managing Services Lecture 5 - The Service Act
Link NOC:Managing Services Lecture 6 - Seamless Service
Link NOC:Managing Services Lecture 7 - Service Management Elements
Link NOC:Managing Services Lecture 8 - Core Vs. Supplementary Services
Link NOC:Managing Services Lecture 9 - Intangibility of Services
Link NOC:Managing Services Lecture 10 - Response to IHIP Challenges
Link NOC:Managing Services Lecture 11 - Process & Promotion
Link NOC:Managing Services Lecture 12 - Process Issues in Service
Link NOC:Managing Services Lecture 13 - Challenges of Services-1
Link NOC:Managing Services Lecture 14 - Service Uniqueness-2
Link NOC:Managing Services Lecture 15 - Consumer in the Services Flow-1
Link NOC:Managing Services Lecture 16 - Service Consumer Behavior-2
Link NOC:Managing Services Lecture 17 - Customer Co Creation of Services-1
Link NOC:Managing Services Lecture 18 - Customer Co Creation of Services-2
Link NOC:Managing Services Lecture 19 - Current Service Map to New Service Design
Link NOC:Managing Services Lecture 20 - Current Service Map to New Service Design.
Link NOC:Managing Services Lecture 21 - Case Study on Service Excellence-1
Link NOC:Managing Services Lecture 22 - Case Study on Service Excellence-2
Link NOC:Managing Services Lecture 23 - Services Excellence - Culture
Link NOC:Managing Services Lecture 24 - People in Services
Link NOC:Managing Services Lecture 25 - Position - Value Proposition-1
Link NOC:Managing Services Lecture 26 - Position - Value Proposition-2
Link NOC:Managing Services Lecture 27 - Branding Services-1
Link NOC:Managing Services Lecture 28 - Distributing Services
Link NOC:Managing Services Lecture 29 - Distributing Services
Link NOC:Managing Services Lecture 30 - Network of Services
Link NOC:Managing Services Lecture 31 - Strategy for Service Businesses
Link NOC:Managing Services Lecture 32 - Strategy for Service Businesses.
Link NOC:Managing Services Lecture 33 - Strategy for Service Businesses..
Link NOC:Managing Services Lecture 34 - Pricing - Basic Concepts
Link NOC:Managing Services Lecture 35 - Service Pricing
Link NOC:Managing Services Lecture 36 - Service Pricing.
Link NOC:Managing Services Lecture 37 - Service Quality-I
Link NOC:Managing Services Lecture 38 - Service Quality-II
Link NOC:Managing Services Lecture 39 - Service Quality-III
Link NOC:Managing Services Lecture 40 - Service Complaints and Recovery Strategies
Link NOC:Managing Services Lecture 41 - Loyalty - Relationship-I
Link NOC:Managing Services Lecture 42 - Loyalty - Relationship-II
Link NOC:Managing Services Lecture 43 - Strategy Canvas - Service Portfolio Analysis
Link NOC:Managing Services Lecture 44 - Loyalty - Relationship
Link NOC:Managing Services Lecture 45 - Managing Partner Relationships
Link NOC:Managing Services Lecture 46 - Global Service Ecosystem - Contemporary Issues
Link NOC:Managing Services Lecture 47 - Service Ecosystem - Service Innovation
Link NOC:Managing Services Lecture 48 - Services as Systems: A Holistic Approach
Link NOC:Quantitative Finance Lecture 1
Link NOC:Quantitative Finance Lecture 2
Link NOC:Quantitative Finance Lecture 2 (Continued) - Part 1
Link NOC:Quantitative Finance Lecture 2 (Continued) - Part 2
Link NOC:Quantitative Finance Lecture 3
Link NOC:Quantitative Finance Lecture 4
Link NOC:Quantitative Finance Lecture 5
Link NOC:Quantitative Finance Lecture 6
Link NOC:Quantitative Finance Lecture 7
Link NOC:Quantitative Finance Lecture 8
Link NOC:Quantitative Finance Lecture 9
Link NOC:Quantitative Finance Lecture 10
Link NOC:Quantitative Finance Lecture 11
Link NOC:Quantitative Finance Lecture 12
Link NOC:Quantitative Finance Lecture 13
Link NOC:Quantitative Finance Lecture 14
Link NOC:Quantitative Finance Lecture 15
Link NOC:Quantitative Finance Lecture 16
Link NOC:Quantitative Finance Lecture 17
Link NOC:Quantitative Finance Lecture 18
Link NOC:Quantitative Finance Lecture 19
Link NOC:Quantitative Finance Lecture 20
Link NOC:Quantitative Finance Lecture 21
Link NOC:Quantitative Finance Lecture 22
Link NOC:Quantitative Finance Lecture 23
Link NOC:Quantitative Finance Lecture 24
Link NOC:Quantitative Finance Lecture 25
Link NOC:Quantitative Finance Lecture 26
Link NOC:Quantitative Finance Lecture 27
Link NOC:Quantitative Finance Lecture 28
Link NOC:Quantitative Finance Lecture 29
Link NOC:Quantitative Finance Lecture 30
Link NOC:Quantitative Finance Lecture 31
Link NOC:Quantitative Finance Lecture 32
Link NOC:Quantitative Finance Lecture 33
Link NOC:Quantitative Finance Lecture 34
Link NOC:Quantitative Finance Lecture 35
Link NOC:Quantitative Finance Lecture 36
Link NOC:Quantitative Finance Lecture 37
Link NOC:Quantitative Finance Lecture 38
Link NOC:Quantitative Finance Lecture 39
Link NOC:Quantitative Finance Lecture 40
Link NOC:Quantitative Finance Lecture 41
Link NOC:Quantitative Finance Lecture 42
Link NOC:Quantitative Finance Lecture 43
Link NOC:Quantitative Finance Lecture 44
Link NOC:Quantitative Finance Lecture 45
Link NOC:Quantitative Finance Lecture 46
Link NOC:Quantitative Finance Lecture 47
Link NOC:Quantitative Finance Lecture 48
Link NOC:Marketing Management-I Lecture 1 - Defining Marketing
Link NOC:Marketing Management-I Lecture 2 - Core Concepts in Marketing
Link NOC:Marketing Management-I Lecture 3 - Case Studies
Link NOC:Marketing Management-I Lecture 4 - Marketing of Services
Link NOC:Marketing Management-I Lecture 5 - Evolution of Marketing
Link NOC:Marketing Management-I Lecture 6 - Contemporary Issues in Modern Marketing Practices
Link NOC:Marketing Management-I Lecture 7 - Introduction to Competitor Analysis
Link NOC:Marketing Management-I Lecture 8 - Marketing Objectives
Link NOC:Marketing Management-I Lecture 9 - Strategy and Core Competency
Link NOC:Marketing Management-I Lecture 10 - PESTEL Framework
Link NOC:Marketing Management-I Lecture 11 - Competitive Analysis
Link NOC:Marketing Management-I Lecture 12 - Case Study
Link NOC:Marketing Management-I Lecture 13 - Introduction To Marketing Information System
Link NOC:Marketing Management-I Lecture 14 - Components of a Marketing Information System
Link NOC:Marketing Management-I Lecture 15 - Marketing Research Process
Link NOC:Marketing Management-I Lecture 16 - MDP and MRP
Link NOC:Marketing Management-I Lecture 17 - Exploratory Research
Link NOC:Marketing Management-I Lecture 18 - Exploratory Research (Continued...)
Link NOC:Marketing Management-I Lecture 19 - Causal Research
Link NOC:Marketing Management-I Lecture 20 - Measurment and Scaling
Link NOC:Marketing Management-I Lecture 21 - Questionnaire and Sampling
Link NOC:Marketing Management-I Lecture 22 - Sampling Techniques
Link NOC:Marketing Management-I Lecture 23 - Data Collection, Preparation and Analysis
Link NOC:Marketing Management-I Lecture 24 - Multivariate Data Analysis
Link NOC:Marketing Management-I Lecture 25 - Introduction to Consumer Behviour and Need Recognition
Link NOC:Marketing Management-I Lecture 26 - Information Search
Link NOC:Marketing Management-I Lecture 27 - Socio-Cultural Influences on the Consumer Buying Process
Link NOC:Marketing Management-I Lecture 28 - Psychological Influences on Consumer Buying Process
Link NOC:Marketing Management-I Lecture 29 - Evaluation of Alternatives
Link NOC:Marketing Management-I Lecture 30 - Purchase and Post Purchase Evaluation
Link NOC:Marketing Management-I Lecture 31 - Service Consumption
Link NOC:Marketing Management-I Lecture 32 - Structural Models of Attitude
Link NOC:Marketing Management-I Lecture 33 - Industrial Buyer Behaviour - I
Link NOC:Marketing Management-I Lecture 34 - Industrial Buyer Behaviour - II
Link NOC:Marketing Management-I Lecture 35 - Industrial Marketing Program and Buying Process
Link NOC:Marketing Management-I Lecture 36 - Three Dimension of Industrial Buyer Behaviour
Link NOC:Marketing Management-I Lecture 37 - Consumer Decision-Making Process Revisited
Link NOC:Marketing Management-I Lecture 38 - Identifying and Choosing Oppurtunities
Link NOC:Marketing Management-I Lecture 39 - Market Segmentation - I
Link NOC:Marketing Management-I Lecture 40 - Market Segmentation - II
Link NOC:Marketing Management-I Lecture 41 - Segmentation and Targeting
Link NOC:Marketing Management-I Lecture 42 - Segmentationa and Post Segmentation Strategies
Link NOC:Marketing Management-I Lecture 43 - Introduction to Marketing Strategy
Link NOC:Marketing Management-I Lecture 44 - Positioning
Link NOC:Marketing Management-I Lecture 45 - Segmentation and Targeting in B2B Market
Link NOC:Marketing Management-I Lecture 46 - Crafting the Positioning and Branding Effectively
Link NOC:Marketing Management-II Lecture 1 - Brief Recap of Basic Concepts from Marketing Management 1 - I
Link NOC:Marketing Management-II Lecture 2 - Brief Recap of Basic Concepts from Marketing Management 1 - II
Link NOC:Marketing Management-II Lecture 3 - Product - An Important Component of the 4P
Link NOC:Marketing Management-II Lecture 4 - New Product Development - I
Link NOC:Marketing Management-II Lecture 5 - New Product Development - II
Link NOC:Marketing Management-II Lecture 6 - Entreprenuerial Marketing
Link NOC:Marketing Management-II Lecture 7 - Screening New Product Ideas
Link NOC:Marketing Management-II Lecture 8 - Diffusion of Innovation
Link NOC:Marketing Management-II Lecture 9 - Product Life Cycle and Introduction to Strategy
Link NOC:Marketing Management-II Lecture 10 - Strategy for New Product Introduction - I
Link NOC:Marketing Management-II Lecture 11 - Strategy for New Product Introduction - II
Link NOC:Marketing Management-II Lecture 12 - Marketing Strategies for Different Stages in PLC
Link NOC:Marketing Management-II Lecture 13 - Introduction to Brand, Branding and Brand Equity
Link NOC:Marketing Management-II Lecture 14 - Strategic Brand Management Process
Link NOC:Marketing Management-II Lecture 15 - Brand Building - I
Link NOC:Marketing Management-II Lecture 16 - Brand Building - II
Link NOC:Marketing Management-II Lecture 17 - Secondary Associations of a Brand and Advantages of Brand
Link NOC:Marketing Management-II Lecture 18 - Measuring Brand Equity and other Brand Related Constructs
Link NOC:Marketing Management-II Lecture 19 - Global Dimensions of Brands
Link NOC:Marketing Management-II Lecture 20 - Brand Message and Advantage of Brand
Link NOC:Marketing Management-II Lecture 21 - Branding Strategies - I
Link NOC:Marketing Management-II Lecture 22 - Branding Strategies - II
Link NOC:Marketing Management-II Lecture 23 - Strategic Brand Management
Link NOC:Marketing Management-II Lecture 24 - Creating a Powerful Brand
Link NOC:Marketing Management-II Lecture 25 - Introduction to Pricing
Link NOC:Marketing Management-II Lecture 26 - Considerations for Setting the Price
Link NOC:Marketing Management-II Lecture 27 - Determing the Demand and Cost Estimation
Link NOC:Marketing Management-II Lecture 28 - Cost Estimation and Break Even Analysis
Link NOC:Marketing Management-II Lecture 29 - Different Methods of Pricing - I
Link NOC:Marketing Management-II Lecture 30 - Different Methods of Pricing - II
Link NOC:Marketing Management-II Lecture 31 - Introduction to Distribution
Link NOC:Marketing Management-II Lecture 32 - Types of Channel and their Dynamics
Link NOC:Marketing Management-II Lecture 33 - Different Channel Options
Link NOC:Marketing Management-II Lecture 34 - Integrated Marketing Channel
Link NOC:Marketing Management-II Lecture 35 - Retailing and Wholesaling - I
Link NOC:Marketing Management-II Lecture 36 - Retailing and Wholesaling - II
Link NOC:Marketing Management-II Lecture 37 - Retail Marketing Management
Link NOC:Marketing Management-II Lecture 38 - Choosing Retail Location and Layout
Link NOC:Marketing Management-II Lecture 39 - Introduction to Integrated Marketing Communications
Link NOC:Marketing Management-II Lecture 40 - Models of Communication
Link NOC:Marketing Management-II Lecture 41 - Designing and Implementing Marketing Communication
Link NOC:Marketing Management-II Lecture 42 - Digital Marketing Communication
Link NOC:Marketing Management-II Lecture 43 - Introduction to Services Marketing
Link NOC:Marketing Management-II Lecture 44 - Characteristics of Services
Link NOC:Marketing Management-II Lecture 45 - Failure of Service and Solutions
Link NOC:Marketing Management-II Lecture 46 - Service Quality
Link NOC:Marketing Management-II Lecture 47 - Recap of Important Concepts - I
Link NOC:Marketing Management-II Lecture 48 - Recap of Important Concepts - II
Link NOC:Project Management Lecture 1 - Introduction to Project Management
Link NOC:Project Management Lecture 2 - Introduction to Agile Project Management
Link NOC:Project Management Lecture 3 - Project Management Process for a Project - I
Link NOC:Project Management Lecture 4 - Project Management Process for a Project - II
Link NOC:Project Management Lecture 5 - Project Management Process for a Project - III
Link NOC:Project Management Lecture 6 - Project Stakeholder and Risk Management
Link NOC:Project Management Lecture 7 - Project Risk Management
Link NOC:Project Management Lecture 8 - Solving Project Management Decision Problems
Link NOC:Project Management Lecture 9 - Project Risk Management Analysis - I
Link NOC:Project Management Lecture 10 - Project Risk Management Analysis - II
Link NOC:Project Management Lecture 11 - Analytic Hierarchy Process for Project Selection
Link NOC:Project Management Lecture 12 - Decision Tree Analysis
Link NOC:Project Management Lecture 13 - Decision Tree Analysis and Risk Management
Link NOC:Project Management Lecture 14 - Application of Utility Theory in Project Management - I
Link NOC:Project Management Lecture 15 - Application of Utility Theory in Project Management - II
Link NOC:Project Management Lecture 16 - Application of Utility Theory in Project Management - III
Link NOC:Project Management Lecture 17 - Application of Utility Theory in Project Management - IV
Link NOC:Project Management Lecture 18 - Other Criteria used for Project Selection
Link NOC:Project Management Lecture 19 - Work Breakdown Structure in Project Management
Link NOC:Project Management Lecture 20 - Activity Networks used in Project Management
Link NOC:Project Management Lecture 21 - Concept of Critical Path Method (CPM) and Introduction to PERT
Link NOC:Project Management Lecture 22 - Program Evaluation Review Technique (PERT) - I
Link NOC:Project Management Lecture 23 - Program Evaluation Review Technique (PERT) - II
Link NOC:Project Management Lecture 24 - Aspects and applications of CPM and PERT
Link NOC:Project Management Lecture 25 - Concepts of a Project Life Cycle
Link NOC:Project Management Lecture 26 - Discounting Rates and Project Pricing
Link NOC:Project Management Lecture 27 - Concept of Forward Rates and Payback Time
Link NOC:Project Management Lecture 28 - Important Example of PERT Network involving Probabilistic time and variance
Link NOC:Project Management Lecture 29 - Scheduling and Crashing of Jobs
Link NOC:Project Management Lecture 30 - Resource levelling and resource constraint
Link NOC:Project Management Lecture 31 - Detailed Explanation on Crashing of Jobs
Link NOC:Project Management Lecture 32 - Project scheduling and Crashing – An Example
Link NOC:Project Management Lecture 33 - Earned Value Management
Link NOC:Project Management Lecture 34 - Key components of Earned Value Management
Link NOC:Project Management Lecture 35 - Introduction to Graphical Evaluation and Review Technique (GERT) - I
Link NOC:Project Management Lecture 36 - Graphical Evaluation and Review Technique (GERT) - II
Link NOC:Project Management Lecture 37 - Graphical Evaluation and Review Technique (GERT) - III
Link NOC:Project Management Lecture 38 - Graphical Evaluation and Review Technique (GERT) - IV
Link NOC:Project Management Lecture 39 - Graphical Evaluation and Review Technique (GERT) - V
Link NOC:Project Management Lecture 40 - Q-GERT: Queue graphical evaluation and review technique and Theory of Constraint
Link NOC:Systems Engineering: Theory and Practice Lecture 1 - Systems Engineering – What is, origin and examples
Link NOC:Systems Engineering: Theory and Practice Lecture 2 - Systems Engineering as a profession
Link NOC:Systems Engineering: Theory and Practice Lecture 3 - Systems Engineering Management (SEM)
Link NOC:Systems Engineering: Theory and Practice Lecture 4 - SEM - Lifecycle Integration
Link NOC:Systems Engineering: Theory and Practice Lecture 5 - Systems Engineering - Modern Version
Link NOC:Systems Engineering: Theory and Practice Lecture 6 - Overview of Systems Engineering Process
Link NOC:Systems Engineering: Theory and Practice Lecture 7 - System Design Process
Link NOC:Systems Engineering: Theory and Practice Lecture 8 - Systems View Point
Link NOC:Systems Engineering: Theory and Practice Lecture 9 - Complex Systems and System Development Process
Link NOC:Systems Engineering: Theory and Practice Lecture 10 - System Environments
Link NOC:Systems Engineering: Theory and Practice Lecture 11 - System Interfaces and Interactions
Link NOC:Systems Engineering: Theory and Practice Lecture 12 - System Development Process
Link NOC:Systems Engineering: Theory and Practice Lecture 13 - System Engineering Life Cycle Stages
Link NOC:Systems Engineering: Theory and Practice Lecture 14 - System Engineering Life Cycle Stages (Continued...)
Link NOC:Systems Engineering: Theory and Practice Lecture 15 - Requirement Analysis
Link NOC:Systems Engineering: Theory and Practice Lecture 16 - Requirement Analysis (Continued...)
Link NOC:Systems Engineering: Theory and Practice Lecture 17 - Unmanned Aerial Systems - A Systems Engineering Case Study
Link NOC:Systems Engineering: Theory and Practice Lecture 18 - Discussion about Systems Engineering and System Thinking with Professor Ian Angell
Link NOC:Systems Engineering: Theory and Practice Lecture 19 - Demonstration of real life systems by the Indian Army
Link NOC:Systems Engineering: Theory and Practice Lecture 20 - Need Analysis
Link NOC:Systems Engineering: Theory and Practice Lecture 21 - Functional Analysis
Link NOC:Systems Engineering: Theory and Practice Lecture 22 - Functional Flow Block Diagram
Link NOC:Systems Engineering: Theory and Practice Lecture 23 - Quality Function Deployment
Link NOC:Systems Engineering: Theory and Practice Lecture 24 - Timeline Analysis Sheet and Requirement Allocation Sheet
Link NOC:Systems Engineering: Theory and Practice Lecture 25 - Design Synthesis
Link NOC:Systems Engineering: Theory and Practice Lecture 26 - Design Synthesis (Continued...)
Link NOC:Systems Engineering: Theory and Practice Lecture 27 - Design Synthesis Tools
Link NOC:Total Quality Management - I Lecture 1 - Quality and its Dimensions
Link NOC:Total Quality Management - I Lecture 2 - Quality and Variability
Link NOC:Total Quality Management - I Lecture 3 - History of Quality Control
Link NOC:Total Quality Management - I Lecture 4 - Management Aspects of Quality - I
Link NOC:Total Quality Management - I Lecture 5 - Management aspects of Quality - II
Link NOC:Total Quality Management - I Lecture 6 - Introduction to Concepts of Probability
Link NOC:Total Quality Management - I Lecture 7 - Six Sigma Overview
Link NOC:Total Quality Management - I Lecture 8 - DMAIC for Problem Solving
Link NOC:Total Quality Management - I Lecture 9 - DMAIC exmaples and DMADV
Link NOC:Total Quality Management - I Lecture 10 - Quality Improvement
Link NOC:Total Quality Management - I Lecture 11 - 7 Old Tools for Quality Assurance
Link NOC:Total Quality Management - I Lecture 12 - 7 New Tools for Quality Assurance
Link NOC:Total Quality Management - I Lecture 13 - CPM, PDPC and Introduction To House of Quality
Link NOC:Total Quality Management - I Lecture 14 - Building the House of Quality
Link NOC:Total Quality Management - I Lecture 15 - Introduction to Acceptance Sampling
Link NOC:Total Quality Management - I Lecture 16 - The Operating Characteristic Curve
Link NOC:Total Quality Management - I Lecture 17 - The OC curve and Sampling Plans
Link NOC:Total Quality Management - I Lecture 18 - Double Sampling
Link NOC:Total Quality Management - I Lecture 19 - Sequential Sampling, Military Standard and Introduction to R
Link NOC:Total Quality Management - I Lecture 20 - Basic Understanding of R and Introduction to Control Charts
Link NOC:Total Quality Management - I Lecture 21 - Basics of X bar and R chart
Link NOC:Total Quality Management - I Lecture 22 - Usage of X bar chart and R chart
Link NOC:Total Quality Management - I Lecture 23 - Variable Sample Size in X bar and R chart
Link NOC:Total Quality Management - I Lecture 24 - Patterns in Charts
Link NOC:Total Quality Management - I Lecture 25 - S chart and OC curve
Link NOC:Total Quality Management - I Lecture 26 - S square chart and MR chart
Link NOC:Total Quality Management - I Lecture 27 - Attribute charts- The p chart
Link NOC:Total Quality Management - I Lecture 28 - np control chart
Link NOC:Total Quality Management - I Lecture 29 - Estimating control limits with varying sample size
Link NOC:Total Quality Management - I Lecture 30 - OC curve, c and u charts
Link NOC:Total Quality Management - I Lecture 31 - u, g and h chart
Link NOC:Total Quality Management - I Lecture 32 - Introduction to Process Capability Analysis
Link NOC:Total Quality Management - I Lecture 33 - PCR calculation and Gauge Capability
Link NOC:Total Quality Management - I Lecture 34 - Introduction to ISO 9000
Link NOC:Management of New Products and Services Lecture 1 - Similarities and Differences
Link NOC:Management of New Products and Services Lecture 2 - Theoretical Foundations I Competitive Strategy
Link NOC:Management of New Products and Services Lecture 3 - Theoretical Foundations II Product Strategy
Link NOC:Management of New Products and Services Lecture 4 - Theoretical Foundations III Understanding Customer Behaviour
Link NOC:Management of New Products and Services Lecture 5 - Theoretical Foundations IV Product Life Cycle (PLC) and Chasm
Link NOC:Management of New Products and Services Lecture 6 - Theoretical Foundations V Product Platforms and Portfolios
Link NOC:Management of New Products and Services Lecture 7 - Theoretical Foundations VI Understanding Customers (STP)
Link NOC:Management of New Products and Services Lecture 8 - STP continued
Link NOC:Management of New Products and Services Lecture 9 - Understanding Product Platforms
Link NOC:Management of New Products and Services Lecture 10 - The Idea Generation process
Link NOC:Management of New Products and Services Lecture 11 - Creating Customer Value Proposition
Link NOC:Management of New Products and Services Lecture 12 - Lean Product Process
Link NOC:Management of New Products and Services Lecture 13 - Estimating Marketing and Sales Potential
Link NOC:Management of New Products and Services Lecture 14 - Introduction to New Product Forecasting Techniques
Link NOC:Management of New Products and Services Lecture 15 - Diffusion process and Product Life Cycle
Link NOC:Management of New Products and Services Lecture 16 - Technology Adoption Life Cycle and Crossing the Chasm
Link NOC:Management of New Products and Services Lecture 17 - Managing New Products in Large Organizations
Link NOC:Management of New Products and Services Lecture 18 - Introduction to the Stage Gate model
Link NOC:Management of New Products and Services Lecture 19 - What is a Lean Startup
Link NOC:Management of New Products and Services Lecture 20 - The Business Model Canvas
Link NOC:Management of New Products and Services Lecture 21 - Introduction to Intellectual Property Rights
Link NOC:Management of New Products and Services Lecture 22 - Taking the Product to the Market - Deployment Strategies
Link NOC:Total Quality Management-II Lecture 1 - Introduction to Statistics
Link NOC:Total Quality Management-II Lecture 2 - Introduction to Probability Theory
Link NOC:Total Quality Management-II Lecture 3 - Distribution of a Random Variable - I
Link NOC:Total Quality Management-II Lecture 4 - Distribution of a Random Variable - II
Link NOC:Total Quality Management-II Lecture 5 - Part-I : Interval Estimation - I
Link NOC:Total Quality Management-II Lecture 6 - Part-II : Interval Estimation - II
Link NOC:Total Quality Management-II Lecture 7 - Confidence Interval III and the introduction to Hypothesis Testing
Link NOC:Total Quality Management-II Lecture 8 - Hypothesis Testing
Link NOC:Total Quality Management-II Lecture 9 - The Analysis of Variance (ANOVA) - I
Link NOC:Total Quality Management-II Lecture 10 - The Analysis of Variance (ANOVA) - II
Link NOC:Total Quality Management-II Lecture 11 - The Analysis of Variance (ANOVA) - III
Link NOC:Total Quality Management-II Lecture 12 - The Analysis of Variance (ANOVA) - IV
Link NOC:Total Quality Management-II Lecture 13 - The Analysis of Variance (ANOVA) - V
Link NOC:Total Quality Management-II Lecture 14 - The Analysis of Variance (ANOVA) - VI
Link NOC:Total Quality Management-II Lecture 15 - The Analysis of Variance (ANOVA) - VII and Introduction to Factorial Design
Link NOC:Total Quality Management-II Lecture 16 - Factorial Designs - I
Link NOC:Total Quality Management-II Lecture 17 - Factorial Designs - II
Link NOC:Total Quality Management-II Lecture 18 - Factorial Designs - III
Link NOC:Total Quality Management-II Lecture 19 - Factorial Designs - IV
Link NOC:Total Quality Management-II Lecture 20 - Factorial Designs - V
Link NOC:Total Quality Management-II Lecture 21 - Factorial Designs - VI
Link NOC:Total Quality Management-II Lecture 22 - Factorial Designs - VII
Link NOC:Total Quality Management-II Lecture 23 - Factorial Designs - VIII
Link NOC:Total Quality Management-II Lecture 24 - Two level Fractional Factorial Design - I
Link NOC:Total Quality Management-II Lecture 25 - Two level Fractional Factorial Design - II
Link NOC:Total Quality Management-II Lecture 26 - Two level Fractional Factorial Design - III
Link NOC:Total Quality Management-II Lecture 27 - Two level Fractional Factorial Design - IV
Link NOC:Total Quality Management-II Lecture 28 - Two level Fractional Factorial Design - V
Link NOC:Total Quality Management-II Lecture 29 - Two level Fractional Factorial Design - VI
Link NOC:Total Quality Management-II Lecture 30 - Two level Fractional Factorial Design - VII
Link NOC:Total Quality Management-II Lecture 31 - Additional Design and Analysis Topics for Factorial and Fractional Factorial Designs - I
Link NOC:Total Quality Management-II Lecture 32 - Additional Design and Analysis Topics for Factorial and Fractional Factorial Designs - II
Link NOC:Total Quality Management-II Lecture 33 - Confounding in the 3^k Factorial Design - I
Link NOC:Total Quality Management-II Lecture 34 - Confounding in the 3^k Factorial Design - II
Link NOC:Total Quality Management-II Lecture 35 - Fractional Replication of the 3^k Factorial Design
Link NOC:Total Quality Management-II Lecture 36 - ​Factorials with Mixed Levels
Link NOC:Total Quality Management-II Lecture 37 - Fitting Regression Models - I
Link NOC:Total Quality Management-II Lecture 38 - Fitting Regression Models - II
Link NOC:Total Quality Management-II Lecture 39 - Fitting Regression Models - III
Link NOC:Total Quality Management-II Lecture 40 - Fitting Regression Models - IV
Link NOC:Total Quality Management-II Lecture 41 - Fitting Regression Models - V
Link NOC:Practitioners Course In Descriptive, Predictive and Prescriptive Analytics Lecture 1 - Introduction
Link NOC:Practitioners Course In Descriptive, Predictive and Prescriptive Analytics Lecture 2 - Analytics for Decision Making Support
Link NOC:Practitioners Course In Descriptive, Predictive and Prescriptive Analytics Lecture 3 - Decision Needs and Analytics
Link NOC:Practitioners Course In Descriptive, Predictive and Prescriptive Analytics Lecture 4 - Systems, Models and Modeling Process
Link NOC:Practitioners Course In Descriptive, Predictive and Prescriptive Analytics Lecture 5 - Types of Models
Link NOC:Practitioners Course In Descriptive, Predictive and Prescriptive Analytics Lecture 6 - Data and its Types
Link NOC:Practitioners Course In Descriptive, Predictive and Prescriptive Analytics Lecture 7 - Overview of Probability
Link NOC:Practitioners Course In Descriptive, Predictive and Prescriptive Analytics Lecture 8 - Statistics and Analytics (Private)
Link NOC:Practitioners Course In Descriptive, Predictive and Prescriptive Analytics Lecture 9 - Descriptive Statistics – Graphical Tools (Private)
Link NOC:Practitioners Course In Descriptive, Predictive and Prescriptive Analytics Lecture 10 - Frequency Distribution and Histogram
Link NOC:Practitioners Course In Descriptive, Predictive and Prescriptive Analytics Lecture 11 - Stem and Leaf Plot
Link NOC:Practitioners Course In Descriptive, Predictive and Prescriptive Analytics Lecture 12 - Box Plots
Link NOC:Practitioners Course In Descriptive, Predictive and Prescriptive Analytics Lecture 13 - Business Intelligence and Analytics
Link NOC:Practitioners Course In Descriptive, Predictive and Prescriptive Analytics Lecture 14 - Normal Distribution
Link NOC:Practitioners Course In Descriptive, Predictive and Prescriptive Analytics Lecture 15 - Sampling
Link NOC:Practitioners Course In Descriptive, Predictive and Prescriptive Analytics Lecture 16 - Sampling Techniques
Link NOC:Practitioners Course In Descriptive, Predictive and Prescriptive Analytics Lecture 17 - Hypothesis Testing
Link NOC:Practitioners Course In Descriptive, Predictive and Prescriptive Analytics Lecture 18 - Hypothesis Testing continued
Link NOC:Practitioners Course In Descriptive, Predictive and Prescriptive Analytics Lecture 19 - Machine Learning
Link NOC:Practitioners Course In Descriptive, Predictive and Prescriptive Analytics Lecture 20 - Correlation
Link NOC:Practitioners Course In Descriptive, Predictive and Prescriptive Analytics Lecture 21 - Correlation continued
Link NOC:Practitioners Course In Descriptive, Predictive and Prescriptive Analytics Lecture 22 - Regression
Link NOC:Practitioners Course In Descriptive, Predictive and Prescriptive Analytics Lecture 23 - Analysis of Varience (ANOVA) - Part 1
Link NOC:Practitioners Course In Descriptive, Predictive and Prescriptive Analytics Lecture 24 - Analysis of Varience (ANOVA) - Part 2
Link NOC:Practitioners Course In Descriptive, Predictive and Prescriptive Analytics Lecture 25 - Machine Learning - Part 2
Link NOC:Practitioners Course In Descriptive, Predictive and Prescriptive Analytics Lecture 26 - Machine Learning - Part 3
Link NOC:Practitioners Course In Descriptive, Predictive and Prescriptive Analytics Lecture 27 - Machine Learning - Part 4
Link NOC:Practitioners Course In Descriptive, Predictive and Prescriptive Analytics Lecture 28 - Machine Learning - Part 5
Link NOC:Microeconomics: Theory and Applications Lecture 1 - Introduction
Link NOC:Microeconomics: Theory and Applications Lecture 2 - Major themes in Microeconomics - Part 1
Link NOC:Microeconomics: Theory and Applications Lecture 3 - Major themes in Microeconomics - Part 2
Link NOC:Microeconomics: Theory and Applications Lecture 4 - Basic differential calculus
Link NOC:Microeconomics: Theory and Applications Lecture 5 - Demand Function
Link NOC:Microeconomics: Theory and Applications Lecture 6 - Comparative Statics and Marshallian Consumer Theory
Link NOC:Microeconomics: Theory and Applications Lecture 7 - Marshallian Consumer Theory (Continued...)
Link NOC:Microeconomics: Theory and Applications Lecture 8 - Optimization Theory and Techniques - Part 1
Link NOC:Microeconomics: Theory and Applications Lecture 9 - Optimization Theory and Techniques - Part 2
Link NOC:Microeconomics: Theory and Applications Lecture 10 - Practice Session
Link NOC:Microeconomics: Theory and Applications Lecture 11 - Indifference Curves - Part 1
Link NOC:Microeconomics: Theory and Applications Lecture 12 - Indifference Curves - Part 2
Link NOC:Microeconomics: Theory and Applications Lecture 13 - Consumer Equilibrium - Part 1
Link NOC:Microeconomics: Theory and Applications Lecture 14 - Consumer Equilibrium - Part 2
Link NOC:Microeconomics: Theory and Applications Lecture 15 - Income consumption curve (ICC) and related issues
Link NOC:Microeconomics: Theory and Applications Lecture 16 - Price consumption curves and related issues
Link NOC:Microeconomics: Theory and Applications Lecture 17 - Slutsky Equation
Link NOC:Microeconomics: Theory and Applications Lecture 18 - Price Change and Consumer Welfare - Part 1
Link NOC:Microeconomics: Theory and Applications Lecture 19 - Price Change and Consumer Welfare - Part 2
Link NOC:Microeconomics: Theory and Applications Lecture 20 - Price Change and Consumer Welfare - Part 3
Link NOC:Microeconomics: Theory and Applications Lecture 21 - Intertemporal Choice - Part 1
Link NOC:Microeconomics: Theory and Applications Lecture 22 - Intertemporal Choice - Part 2
Link NOC:Microeconomics: Theory and Applications Lecture 23 - Introduction to Risk
Link NOC:Microeconomics: Theory and Applications Lecture 24 - Consumer Choice Involving Risk - Part 1
Link NOC:Microeconomics: Theory and Applications Lecture 25 - Consumer Choice Involving Risk - Part 2
Link NOC:Microeconomics: Theory and Applications Lecture 26 - Neoclassical Production Function
Link NOC:Microeconomics: Theory and Applications Lecture 27 - Isoquants - Part 1
Link NOC:Microeconomics: Theory and Applications Lecture 28 - Isoquants - Part 2
Link NOC:Microeconomics: Theory and Applications Lecture 29 - Cobb-Douglass production function
Link NOC:Microeconomics: Theory and Applications Lecture 30 - Firm's Optimization Problems - Part 1
Link NOC:Microeconomics: Theory and Applications Lecture 31 - Firm's Optimization Problems - Part 2
Link NOC:Microeconomics: Theory and Applications Lecture 32 - Cost Function - Part 1
Link NOC:Microeconomics: Theory and Applications Lecture 33 - Cost function - Part 2
Link NOC:Microeconomics: Theory and Applications Lecture 34 - Short-run Cost Curves
Link NOC:Microeconomics: Theory and Applications Lecture 35 - Long-run Cost Curves
Link NOC:Microeconomics: Theory and Applications Lecture 36 - Short-run Equilibrium of firm
Link NOC:Microeconomics: Theory and Applications Lecture 37 - Short-run equilibrium of firm and supply function
Link NOC:Microeconomics: Theory and Applications Lecture 38 - Long-run equilibrium of a competitive firm - Part 1
Link NOC:Microeconomics: Theory and Applications Lecture 39 - Long-run equilibrium of a competitive firm - Part 2
Link NOC:Microeconomics: Theory and Applications Lecture 40 - Long-run Equilibrium of Competitive Industry
Link NOC:Microeconomics: Theory and Applications Lecture 41 - Welfare Analysis of Competitive Market
Link NOC:Microeconomics: Theory and Applications Lecture 42 - Welfare Analysis of Government Intervention on Competitive Market - Part 1
Link NOC:Microeconomics: Theory and Applications Lecture 43 - Welfare Analysis of Government Intervention in Competitive Market - Part 2
Link NOC:Microeconomics: Theory and Applications Lecture 44 - Monopoly - Part 1
Link NOC:Microeconomics: Theory and Applications Lecture 45 - Monopoly - Part 2
Link NOC:Microeconomics: Theory and Applications Lecture 46 - Discriminating Monopoly
Link NOC:Microeconomics: Theory and Applications Lecture 47 - Practice session (Monopoly)
Link NOC:Microeconomics: Theory and Applications Lecture 48 - Oligopoly - Part 1
Link NOC:Microeconomics: Theory and Applications Lecture 49 - Oligopoly - Part 2
Link NOC:Microeconomics: Theory and Applications Lecture 50 - Model for Cartel Behaviour
Link NOC:Microeconomics: Theory and Applications Lecture 51 - Practice session (Oligopoly)
Link NOC:Microeconomics: Theory and Applications Lecture 52 - Externality and Market Failure - Part 1
Link NOC:Microeconomics: Theory and Applications Lecture 53 - Externality and Market Failure - Part 2
Link NOC:Microeconomics: Theory and Applications Lecture 54 - Linear Programming - Part 1
Link NOC:Microeconomics: Theory and Applications Lecture 55 - Linear Programming - Part 2
Link NOC:Microeconomics: Theory and Applications Lecture 56 - Linear Programming - Part 3
Link NOC:Microeconomics: Theory and Applications Lecture 57 - Linear Programming - Part 4
Link NOC:Microeconomics: Theory and Applications Lecture 58 - Linear Regression - Part 1
Link NOC:Microeconomics: Theory and Applications Lecture 59 - Linear Regression - Part 2
Link NOC:Microeconomics: Theory and Applications Lecture 60 - Linear Regression - Part 3
Link NOC:Microeconomics: Theory and Applications Lecture 61 - Linear Regression - Part 4
Link NOC:Data Analysis and Decision Making-I Lecture 1 - Introduction
Link NOC:Data Analysis and Decision Making-I Lecture 2 - Data Representation and Frequency
Link NOC:Data Analysis and Decision Making-I Lecture 3 - Frequency Table and Mean
Link NOC:Data Analysis and Decision Making-I Lecture 4 - Descriptive Statistics
Link NOC:Data Analysis and Decision Making-I Lecture 5 - Introduction To Probability
Link NOC:Data Analysis and Decision Making-I Lecture 6 - Conditional Probability
Link NOC:Data Analysis and Decision Making-I Lecture 7 - Baye'S Theorem And Distributions
Link NOC:Data Analysis and Decision Making-I Lecture 8 - Binomial Distribution
Link NOC:Data Analysis and Decision Making-I Lecture 9 - Hypergeometric, Poisson, Normal Distribution
Link NOC:Data Analysis and Decision Making-I Lecture 10 - Distribution Function
Link NOC:Data Analysis and Decision Making-I Lecture 11 - Normal Distribution
Link NOC:Data Analysis and Decision Making-I Lecture 12 - Sampling
Link NOC:Data Analysis and Decision Making-I Lecture 13 - Some Distributions
Link NOC:Data Analysis and Decision Making-I Lecture 14 - More on Distributions
Link NOC:Data Analysis and Decision Making-I Lecture 15 - Estimators
Link NOC:Data Analysis and Decision Making-I Lecture 16 - MLE
Link NOC:Data Analysis and Decision Making-I Lecture 17 - Statistical Inference
Link NOC:Data Analysis and Decision Making-I Lecture 18 - Hypothesis Testing
Link NOC:Data Analysis and Decision Making-I Lecture 19 - Hypothesis Testing:A
Link NOC:Data Analysis and Decision Making-I Lecture 20 - Hypothesis Testing:B
Link NOC:Data Analysis and Decision Making-I Lecture 21 - Hypothesis Testing
Link NOC:Data Analysis and Decision Making-I Lecture 22 - Simple Linear Regression
Link NOC:Data Analysis and Decision Making-I Lecture 23 - Multiple Linear Regression
Link NOC:Data Analysis and Decision Making-I Lecture 24 - Weighted Moving Averages
Link NOC:Data Analysis and Decision Making-I Lecture 25 - Weighted Moving Averages
Link NOC:Data Analysis and Decision Making-I Lecture 26 - Forecasting
Link NOC:Data Analysis and Decision Making-I Lecture 27 - Forecasting
Link NOC:Data Analysis and Decision Making-I Lecture 28 - Data Properties
Link NOC:Data Analysis and Decision Making-I Lecture 29 - Multivariate Statistical Analysis
Link NOC:Data Analysis and Decision Making-I Lecture 30 - Multivariate Statistical Analysis
Link NOC:Data Analysis and Decision Making-I Lecture 31 - Multivariate Statistical Analysis
Link NOC:Data Analysis and Decision Making-I Lecture 32 - Multivariate Statistical Analysis
Link NOC:Data Analysis and Decision Making-I Lecture 33 - Multivariate Distribution
Link NOC:Data Analysis and Decision Making-I Lecture 34 - Multivariate Extreme Value Distribution
Link NOC:Data Analysis and Decision Making-I Lecture 35 - Mle Estimates
Link NOC:Data Analysis and Decision Making-I Lecture 36 - Mle Estimates
Link NOC:Data Analysis and Decision Making-I Lecture 37 - Copula Theory
Link NOC:Data Analysis and Decision Making-I Lecture 38 - PCA
Link NOC:Data Analysis and Decision Making-I Lecture 39 - PCA
Link NOC:Data Analysis and Decision Making-I Lecture 40 - Factor Analysis
Link NOC:Data Analysis and Decision Making-I Lecture 41 - Factor Analysis
Link NOC:Data Analysis and Decision Making-I Lecture 42 - Introduction to Utility Theory
Link NOC:Data Analysis and Decision Making-I Lecture 43 - Utility Analysis
Link NOC:Data Analysis and Decision Making-I Lecture 44 - Decision Sciences
Link NOC:Data Analysis and Decision Making-I Lecture 45 - Utility Functions
Link NOC:Data Analysis and Decision Making-I Lecture 46 - Exponential Utility Function
Link NOC:Data Analysis and Decision Making-I Lecture 47 - Risk Concepts
Link NOC:Data Analysis and Decision Making-I Lecture 48 - Utility Theory Axioms
Link NOC:Data Analysis and Decision Making-I Lecture 49 - Utility Analysis
Link NOC:Data Analysis and Decision Making-I Lecture 50 - Chebyshev'S Inequality
Link NOC:Data Analysis and Decision Making-I Lecture 51 - Loss Function
Link NOC:Data Analysis and Decision Making-I Lecture 52 - Loss Function
Link NOC:Data Analysis and Decision Making-I Lecture 53 - Loss Function and MLR
Link NOC:Data Analysis and Decision Making-I Lecture 54 - MLR
Link NOC:Data Analysis and Decision Making-I Lecture 55 - Loss Function
Link NOC:Data Analysis and Decision Making-I Lecture 56 - Cannonical Correlation
Link NOC:Data Analysis and Decision Making-I Lecture 57 - cannonical Correlation (Continued...)
Link NOC:Data Analysis and Decision Making-I Lecture 58 - Structural Equation Modeling (SEM)
Link NOC:Data Analysis and Decision Making-I Lecture 59 - SEM
Link NOC:Data Analysis and Decision Making-I Lecture 60 - SEM
Link NOC:Economics of Health and Health Care Lecture 1 - Introduction to Health
Link NOC:Economics of Health and Health Care Lecture 2 - Health Economics Map and Health Expenditure
Link NOC:Economics of Health and Health Care Lecture 3 - Utility
Link NOC:Economics of Health and Health Care Lecture 4 - Indifference Curve
Link NOC:Economics of Health and Health Care Lecture 5 - Budget Line
Link NOC:Economics of Health and Health Care Lecture 6 - Theory of Demand
Link NOC:Economics of Health and Health Care Lecture 7 - Theory of Supply
Link NOC:Economics of Health and Health Care Lecture 8 - Price Elasticity of Demand
Link NOC:Economics of Health and Health Care Lecture 9 - Income Elasticity of Demand and Price Elasticity of Supply
Link NOC:Economics of Health and Health Care Lecture 10 - Production Function
Link NOC:Economics of Health and Health Care Lecture 11 - Relationship Between AP, MP and Law of Diminishing Marginal Returns
Link NOC:Economics of Health and Health Care Lecture 12 - Long Run Production Function and Isoquant
Link NOC:Economics of Health and Health Care Lecture 13 - Returns to Scale
Link NOC:Economics of Health and Health Care Lecture 14 - Iso-Cost Curve and Co-production
Link NOC:Economics of Health and Health Care Lecture 15 - Introduction to Cost Theory
Link NOC:Economics of Health and Health Care Lecture 16 - Break-even Point and Long Run Cost Curve
Link NOC:Economics of Health and Health Care Lecture 17 - Cost-Volume-Profit Analysis
Link NOC:Economics of Health and Health Care Lecture 18 - Costing in a Hospital System
Link NOC:Economics of Health and Health Care Lecture 19 - Choice in Healthcare
Link NOC:Economics of Health and Health Care Lecture 20 - Measurements based on Choices
Link NOC:Economics of Health and Health Care Lecture 21 - Grossman's Demand Model
Link NOC:Economics of Health and Health Care Lecture 22 - Market Structures and Perfect Competition
Link NOC:Economics of Health and Health Care Lecture 23 - Market Imperfection
Link NOC:Economics of Health and Health Care Lecture 24 - Ideal Healthcare Market Conditions
Link NOC:Economics of Health and Health Care Lecture 25 - Imperfect in Healthcare Markets
Link NOC:Economics of Health and Health Care Lecture 26 - Building Blocks of Health Systems and Health Financing
Link NOC:Economics of Health and Health Care Lecture 27 - Mechanisms of Health Financing
Link NOC:Economics of Health and Health Care Lecture 28 - Introduction to health insurance
Link NOC:Economics of Health and Health Care Lecture 29 - Important concepts of health insurance
Link NOC:Economics of Health and Health Care Lecture 30 - Strategies for Private Health Insurance companies
Link NOC:Economics of Health and Health Care Lecture 31 - Types of health insurance and Death Spiral
Link NOC:Economics of Health and Health Care Lecture 32 - Third Party Administrator.
Link NOC:Economics of Health and Health Care Lecture 33 - Managed Care Organizations
Link NOC:Economics of Health and Health Care Lecture 34 - Reinsurance
Link NOC:Economics of Health and Health Care Lecture 35 - What is Economic Evaluation?
Link NOC:Economics of Health and Health Care Lecture 36 - Cost Minimization Analysis and Cost Effectiveness Analysis
Link NOC:Economics of Health and Health Care Lecture 37 - Cost-utility Analysis
Link NOC:Economics of Health and Health Care Lecture 38 - Cost-Benefit Analysis
Link NOC:Economics of Health and Health Care Lecture 39 - Types of Goods- Excludability and Rivalry in Consumption
Link NOC:Economics of Health and Health Care Lecture 40 - Public Goods, Common Resources and decision making based on Cost-Benefit Analysis
Link NOC:Economics of Health and Health Care Lecture 41 - Tragedy of Commons and Evaluation Framework
Link NOC:Economics of Health and Health Care Lecture 42 - Fundamental concepts of economic externalities
Link NOC:Economics of Health and Health Care Lecture 43 - External cost, external benefit and efficient output
Link NOC:Economics of Health and Health Care Lecture 44 - External cost, external benefit and efficient output
Link NOC:Economics of Health and Health Care Lecture 45 - Economics of Health and Healthcare
Link NOC:Economics of Health and Health Care Lecture 46 - Development Indices
Link NOC:Economics of Health and Health Care Lecture 47 - Social Determinants of Health
Link NOC:Economics of Health and Health Care Lecture 48 - Fundamental Concepts and Theories Related to Population,Health and Development
Link NOC:Economics of Health and Health Care Lecture 49 - Population Composition and demographic Dividend
Link NOC:Economics of Health and Health Care Lecture 50 - Theories Related to Fertility, Population Growth and Socio-Economic Advancements
Link NOC:Economics of Health and Health Care Lecture 51 - Underwriting
Link NOC:Simulation of Business Systems: An Applied Approach Lecture 1 - What is Simulation
Link NOC:Simulation of Business Systems: An Applied Approach Lecture 2 - Terminologies in Simulation
Link NOC:Simulation of Business Systems: An Applied Approach Lecture 3 - How to Built Simulation Model
Link NOC:Simulation of Business Systems: An Applied Approach Lecture 4 - Components of Discrete Event Simulation
Link NOC:Simulation of Business Systems: An Applied Approach Lecture 5 - A Simple Example
Link NOC:Simulation of Business Systems: An Applied Approach Lecture 6 - Terminologies and Like Approaches
Link NOC:Simulation of Business Systems: An Applied Approach Lecture 7 - Monte-Carlo Simulation
Link NOC:Simulation of Business Systems: An Applied Approach Lecture 8 - How to build Simulation? - Major considerations
Link NOC:Simulation of Business Systems: An Applied Approach Lecture 9 - Basic Simulation terms and Illustrative examples
Link NOC:Simulation of Business Systems: An Applied Approach Lecture 10 - Steps in a Simulation Study
Link NOC:Simulation of Business Systems: An Applied Approach Lecture 11 - An introduction to ARENA
Link NOC:Simulation of Business Systems: An Applied Approach Lecture 12 - Simulation experiments using ARENA
Link NOC:Simulation of Business Systems: An Applied Approach Lecture 13 - Probability and Statistics for simulation
Link NOC:Simulation of Business Systems: An Applied Approach Lecture 14 - Pareto Analysis
Link NOC:Simulation of Business Systems: An Applied Approach Lecture 15 - Frequency Distribution
Link NOC:Simulation of Business Systems: An Applied Approach Lecture 16 - Simulation of Tandem Queues using ARENA
Link NOC:Simulation of Business Systems: An Applied Approach Lecture 17 - Simulation with ARENA: Use of Decision node
Link NOC:Simulation of Business Systems: An Applied Approach Lecture 18 - Simulation with ARENA: Use of Assign Node
Link NOC:Simulation of Business Systems: An Applied Approach Lecture 19 - Simulation with ARENA: Use of Batch Node
Link NOC:Simulation of Business Systems: An Applied Approach Lecture 20 - Stem and Leaf Display
Link NOC:Simulation of Business Systems: An Applied Approach Lecture 21 - Tecnomatix: Plant Simulation - Part 1
Link NOC:Simulation of Business Systems: An Applied Approach Lecture 22 - Tecnomatix: Plant Simulation - Part 2
Link NOC:Simulation of Business Systems: An Applied Approach Lecture 23 - Tecnomatix: Plant Simulation - Part 3
Link NOC:Simulation of Business Systems: An Applied Approach Lecture 24 - Probability Distributions - I
Link NOC:Simulation of Business Systems: An Applied Approach Lecture 25 - Probability Distributions - II
Link NOC:Simulation of Business Systems: An Applied Approach Lecture 26 - Valid Model for Input Data
Link NOC:Management of Field Sales Lecture 1 - Introduction to Management of Field Sales
Link NOC:Management of Field Sales Lecture 2 - Sales Role and Activities
Link NOC:Management of Field Sales Lecture 3 - Value added selling and Non Verbal Messages
Link NOC:Management of Field Sales Lecture 4 - Communication Styles in Field Sales
Link NOC:Management of Field Sales Lecture 5 - Managing Product Life cycle
Link NOC:Management of Field Sales Lecture 6 - From Product To Benefit
Link NOC:Management of Field Sales Lecture 7 - The Sales Process
Link NOC:Management of Field Sales Lecture 8 - Prospecting
Link NOC:Management of Field Sales Lecture 9 - From Prospecting to Preparing the Sales Call
Link NOC:Management of Field Sales Lecture 10 - The Buying Process
Link NOC:Management of Field Sales Lecture 11 - Approaching the Customer with Adaptive Selling
Link NOC:Management of Field Sales Lecture 12 - Interactive Sales Presentation
Link NOC:Management of Field Sales Lecture 13 - Consultative Questioning Strategy
Link NOC:Management of Field Sales Lecture 14 - Account Evaluation - Long Term Approach
Link NOC:Management of Field Sales Lecture 15 - Negotiating Buyer Concerns
Link NOC:Management of Field Sales Lecture 16 - Sales Force Structure
Link NOC:Management of Field Sales Lecture 17 - Leading the Sales Force
Link NOC:Management of Field Sales Lecture 18 - Sales Force Motivation
Link NOC:Management of Field Sales Lecture 19 - Forecasting Sales and Developing Budgets
Link NOC:Management of Field Sales Lecture 20 - Understanding Sales Analytics
Link NOC:Data Analysis and Decision Making-II Lecture 1 - Utility Analysis
Link NOC:Data Analysis and Decision Making-II Lecture 2 - Utility Analysis
Link NOC:Data Analysis and Decision Making-II Lecture 3 - Utility Analysis
Link NOC:Data Analysis and Decision Making-II Lecture 4 - Utility Analysis
Link NOC:Data Analysis and Decision Making-II Lecture 5 - Utility Analysis
Link NOC:Data Analysis and Decision Making-II Lecture 6 - Utility Analysis
Link NOC:Data Analysis and Decision Making-II Lecture 7 - Utility Analysis
Link NOC:Data Analysis and Decision Making-II Lecture 8 - Utility Analysis
Link NOC:Data Analysis and Decision Making-II Lecture 9 - Decisions and Utility Analysis
Link NOC:Data Analysis and Decision Making-II Lecture 10 - Safety first principle
Link NOC:Data Analysis and Decision Making-II Lecture 11 - Loss Function
Link NOC:Data Analysis and Decision Making-II Lecture 12 - Loss Function
Link NOC:Data Analysis and Decision Making-II Lecture 13 - Balanced Loss Function
Link NOC:Data Analysis and Decision Making-II Lecture 14 - DEA
Link NOC:Data Analysis and Decision Making-II Lecture 15 - DEA
Link NOC:Data Analysis and Decision Making-II Lecture 16 - DEA
Link NOC:Data Analysis and Decision Making-II Lecture 17 - DEA
Link NOC:Data Analysis and Decision Making-II Lecture 18 - Decision Trees
Link NOC:Data Analysis and Decision Making-II Lecture 19 - Decision Trees
Link NOC:Data Analysis and Decision Making-II Lecture 20 - Decision Trees
Link NOC:Data Analysis and Decision Making-II Lecture 21 - AHP
Link NOC:Data Analysis and Decision Making-II Lecture 22 - AHP
Link NOC:Data Analysis and Decision Making-II Lecture 23 - AHP
Link NOC:Data Analysis and Decision Making-II Lecture 24 - AHP
Link NOC:Data Analysis and Decision Making-II Lecture 25 - AHP
Link NOC:Data Analysis and Decision Making-II Lecture 26 - ELECTRE
Link NOC:Data Analysis and Decision Making-II Lecture 27 - ELECTRE
Link NOC:Data Analysis and Decision Making-II Lecture 28 - ELECTRE
Link NOC:Data Analysis and Decision Making-II Lecture 29 - ELECTRE
Link NOC:Data Analysis and Decision Making-II Lecture 30 - ELECTRE
Link NOC:Data Analysis and Decision Making-II Lecture 31 - TOPSIS
Link NOC:Data Analysis and Decision Making-II Lecture 32 - TOPSIS
Link NOC:Data Analysis and Decision Making-II Lecture 33 - TOPSIS
Link NOC:Data Analysis and Decision Making-II Lecture 34 - TOPSIS
Link NOC:Data Analysis and Decision Making-II Lecture 35 - TOPSIS
Link NOC:Data Analysis and Decision Making-II Lecture 36 - VIKOR
Link NOC:Data Analysis and Decision Making-II Lecture 37 - VIKOR
Link NOC:Data Analysis and Decision Making-II Lecture 38 - VIKOR
Link NOC:Data Analysis and Decision Making-II Lecture 39 - VIKOR
Link NOC:Data Analysis and Decision Making-II Lecture 40 - VIKOR
Link NOC:Data Analysis and Decision Making-II Lecture 41 - MAUT
Link NOC:Data Analysis and Decision Making-II Lecture 42 - MAUT
Link NOC:Data Analysis and Decision Making-II Lecture 43 - MAUT
Link NOC:Data Analysis and Decision Making-II Lecture 44 - multi-objective optimization
Link NOC:Data Analysis and Decision Making-II Lecture 45 - reliability based optimization
Link NOC:Data Analysis and Decision Making-II Lecture 46 - Optimization
Link NOC:Data Analysis and Decision Making-II Lecture 47 - Goal programming
Link NOC:Data Analysis and Decision Making-II Lecture 48 - GERT
Link NOC:Data Analysis and Decision Making-II Lecture 49 - Demand model
Link NOC:Data Analysis and Decision Making-II Lecture 50 - Bass model
Link NOC:Data Analysis and Decision Making-II Lecture 51 - GERT
Link NOC:Data Analysis and Decision Making-II Lecture 52 - GERT
Link NOC:Data Analysis and Decision Making-II Lecture 53 - GERT
Link NOC:Data Analysis and Decision Making-II Lecture 54 - AIS
Link NOC:Data Analysis and Decision Making-II Lecture 55 - AIS
Link NOC:Data Analysis and Decision Making-II Lecture 56 - AIS
Link NOC:Data Analysis and Decision Making-II Lecture 57 - AIS
Link NOC:Data Analysis and Decision Making-II Lecture 58 - ANN
Link NOC:Data Analysis and Decision Making-II Lecture 59 - Metaheuristics techniques
Link NOC:Data Analysis and Decision Making-II Lecture 60 - General Concepts
Link NOC:Advanced Green Manufacturing Systems Lecture 1 - Significance of manufacturing
Link NOC:Advanced Green Manufacturing Systems Lecture 2 - Productivity in manufacturing
Link NOC:Advanced Green Manufacturing Systems Lecture 3 - Product lifecycle
Link NOC:Advanced Green Manufacturing Systems Lecture 4 - Introduction to optimization
Link NOC:Advanced Green Manufacturing Systems Lecture 5 - Mathematical modeling example
Link NOC:Advanced Green Manufacturing Systems Lecture 6 - Rules of modeling
Link NOC:Advanced Green Manufacturing Systems Lecture 7 - Modeling with continuous variable - Part 1
Link NOC:Advanced Green Manufacturing Systems Lecture 8 - Modeling with continuous variable - Part 2
Link NOC:Advanced Green Manufacturing Systems Lecture 9 - Value Engineering Green Plan: Introduction
Link NOC:Advanced Green Manufacturing Systems Lecture 10 - Value Engineering Green Plan: Methodology - Part 1
Link NOC:Advanced Green Manufacturing Systems Lecture 11 - Value Engineering Green Plan: Methodology - Part 2
Link NOC:Advanced Green Manufacturing Systems Lecture 12 - Value Engineering Green Plan - FAST diagramming
Link NOC:Advanced Green Manufacturing Systems Lecture 13 - Value Engineering - Case Study
Link NOC:Advanced Green Manufacturing Systems Lecture 14 - Value Engineering Green Plan - Paired comparison technique
Link NOC:Advanced Green Manufacturing Systems Lecture 15 - Creativity Techniques
Link NOC:Advanced Green Manufacturing Systems Lecture 16 - Frugal Innovation
Link NOC:Advanced Green Manufacturing Systems Lecture 17 - Green Quality Function Deployment - Part 1
Link NOC:Advanced Green Manufacturing Systems Lecture 18 - Green Quality Function Deployment - Part 2
Link NOC:Advanced Green Manufacturing Systems Lecture 19 - Solving optimization problems
Link NOC:Advanced Green Manufacturing Systems Lecture 20 - Solving optimization problems using MS Excel
Link NOC:Advanced Green Manufacturing Systems Lecture 21 - MS Excel Solver demonstration
Link NOC:Advanced Green Manufacturing Systems Lecture 22 - Solving optimization problems using MS Excel
Link NOC:Advanced Green Manufacturing Systems Lecture 23 - Design of Experiments for Factor Selection
Link NOC:Advanced Green Manufacturing Systems Lecture 24 - Fundamental Techniques of Experimentation
Link NOC:Advanced Green Manufacturing Systems Lecture 25 - Simple Comparative Experiments
Link NOC:Advanced Green Manufacturing Systems Lecture 26 - ANOVA - Part 1
Link NOC:Advanced Green Manufacturing Systems Lecture 27 - ANOVA - Part 2
Link NOC:Advanced Green Manufacturing Systems Lecture 28 - ANOVA - Part 3
Link NOC:Advanced Green Manufacturing Systems Lecture 29 - Design for Environment - Part 1
Link NOC:Advanced Green Manufacturing Systems Lecture 30 - Design for Environment - Part 2
Link NOC:Advanced Green Manufacturing Systems Lecture 31 - Design for Environment - Part 3
Link NOC:Advanced Green Manufacturing Systems Lecture 32 - Design for Environment - Part 4
Link NOC:Advanced Green Manufacturing Systems Lecture 33 - Life Cycle Assessment, EIO-LCA tool
Link NOC:Advanced Green Manufacturing Systems Lecture 34 - Life Cycle Assessment, process based software
Link NOC:Advanced Green Manufacturing Systems Lecture 35 - Introduction to Factorial Experiments
Link NOC:Advanced Green Manufacturing Systems Lecture 36 - Statistical Analysis in Factorial Experiments
Link NOC:Advanced Green Manufacturing Systems Lecture 37 - Numerical Analysis in Factorial Experiments - Part 1
Link NOC:Advanced Green Manufacturing Systems Lecture 38 - Numerical Analysis in Factorial Experiments - Part 2
Link NOC:Advanced Green Manufacturing Systems Lecture 39 - Overview of Optimization Methods - Part 1
Link NOC:Advanced Green Manufacturing Systems Lecture 40 - Overview of Optimization Methods - Part 2
Link NOC:Advanced Green Manufacturing Systems Lecture 41 - Green Factory through Green Unit Processes - Part 1
Link NOC:Advanced Green Manufacturing Systems Lecture 42 - Green Factory through Green Unit Processes - Part 2
Link NOC:Advanced Green Manufacturing Systems Lecture 43 - Green Factory Simulation - Part 1
Link NOC:Advanced Green Manufacturing Systems Lecture 44 - Green Factory Simulation - Part 2
Link NOC:Advanced Green Manufacturing Systems Lecture 45 - Green Factory Simulation - Part 3
Link NOC:Advanced Green Manufacturing Systems Lecture 46 - Advanced Green Manufacturing Systems course summary
Link NOC:Data Analysis and Decision Making-III Lecture 1 - Introduction
Link NOC:Data Analysis and Decision Making-III Lecture 2 - Linear Programming
Link NOC:Data Analysis and Decision Making-III Lecture 3 - Linear Programming
Link NOC:Data Analysis and Decision Making-III Lecture 4 - Utility Analysis
Link NOC:Data Analysis and Decision Making-III Lecture 5 - Utility Analysis
Link NOC:Data Analysis and Decision Making-III Lecture 6 - Utility Theory
Link NOC:Data Analysis and Decision Making-III Lecture 7 - Utility Theory
Link NOC:Data Analysis and Decision Making-III Lecture 8 - Utility Analysis
Link NOC:Data Analysis and Decision Making-III Lecture 9 - Safety First Principle
Link NOC:Data Analysis and Decision Making-III Lecture 10 - Safety First Principle (Continued...)
Link NOC:Data Analysis and Decision Making-III Lecture 11 - Optimization
Link NOC:Data Analysis and Decision Making-III Lecture 12 - Optimization
Link NOC:Data Analysis and Decision Making-III Lecture 13 - Optimization
Link NOC:Data Analysis and Decision Making-III Lecture 14 - Optimization
Link NOC:Data Analysis and Decision Making-III Lecture 15 - Simplex Method
Link NOC:Data Analysis and Decision Making-III Lecture 16 - Simplex Method
Link NOC:Data Analysis and Decision Making-III Lecture 17 - Simplex Method
Link NOC:Data Analysis and Decision Making-III Lecture 18 - Simplex Method
Link NOC:Data Analysis and Decision Making-III Lecture 19 - Optimization
Link NOC:Data Analysis and Decision Making-III Lecture 20 - Simplex Method
Link NOC:Data Analysis and Decision Making-III Lecture 21 - Simplex Method
Link NOC:Data Analysis and Decision Making-III Lecture 22 - Simplex Method
Link NOC:Data Analysis and Decision Making-III Lecture 23 - Simplex Method
Link NOC:Data Analysis and Decision Making-III Lecture 24 - Optimization
Link NOC:Data Analysis and Decision Making-III Lecture 25 - Optimization
Link NOC:Data Analysis and Decision Making-III Lecture 26 - Optimization
Link NOC:Data Analysis and Decision Making-III Lecture 27 - Simplex Method
Link NOC:Data Analysis and Decision Making-III Lecture 28 - Simplex Method
Link NOC:Data Analysis and Decision Making-III Lecture 29 - Simplex Method
Link NOC:Data Analysis and Decision Making-III Lecture 30 - Transportation Problem
Link NOC:Data Analysis and Decision Making-III Lecture 31 - Transportation Problem
Link NOC:Data Analysis and Decision Making-III Lecture 32 - Transportation Problem
Link NOC:Data Analysis and Decision Making-III Lecture 33 - Transportation Problem
Link NOC:Data Analysis and Decision Making-III Lecture 34 - Transportation Problem
Link NOC:Data Analysis and Decision Making-III Lecture 35 - Loss Function
Link NOC:Data Analysis and Decision Making-III Lecture 36 - DEA
Link NOC:Data Analysis and Decision Making-III Lecture 37 - DEA
Link NOC:Data Analysis and Decision Making-III Lecture 38 - DEA
Link NOC:Data Analysis and Decision Making-III Lecture 39 - Gomory Cutting Plane Algorithm
Link NOC:Data Analysis and Decision Making-III Lecture 40 - Gomory Cutting Plane Algorithm
Link NOC:Data Analysis and Decision Making-III Lecture 41 - Integer Programming
Link NOC:Data Analysis and Decision Making-III Lecture 42 - Integer Programming
Link NOC:Data Analysis and Decision Making-III Lecture 43 - Integer Programming
Link NOC:Data Analysis and Decision Making-III Lecture 44 - Quadratic Programming
Link NOC:Data Analysis and Decision Making-III Lecture 45 - Portfolio Optimization
Link NOC:Data Analysis and Decision Making-III Lecture 46 - Chance Constraint Problem
Link NOC:Data Analysis and Decision Making-III Lecture 47 - Branch and Bound
Link NOC:Data Analysis and Decision Making-III Lecture 48 - Branch and Bound
Link NOC:Data Analysis and Decision Making-III Lecture 49 - Branch and Bound
Link NOC:Data Analysis and Decision Making-III Lecture 50 - Branch and Bound
Link NOC:Data Analysis and Decision Making-III Lecture 51 - Quadratic Programming
Link NOC:Data Analysis and Decision Making-III Lecture 52 - Steepest Descent
Link NOC:Data Analysis and Decision Making-III Lecture 53 - Reliability Based Optimization
Link NOC:Data Analysis and Decision Making-III Lecture 54 - Reliability Based Optimization
Link NOC:Data Analysis and Decision Making-III Lecture 55 - Reliability Based Optimization
Link NOC:Data Analysis and Decision Making-III Lecture 56 - Sequential Optimization and Reliability Assessment
Link NOC:Data Analysis and Decision Making-III Lecture 57 - Reliability/Stochastic Optimization
Link NOC:Data Analysis and Decision Making-III Lecture 58 - Reliability/Stochastic Optimization
Link NOC:Data Analysis and Decision Making-III Lecture 59 - Robustness
Link NOC:Data Analysis and Decision Making-III Lecture 60 - Robustness
Link Econometric Modelling Lecture 1 - Introduction to Econometric Modelling
Link Econometric Modelling Lecture 2 - Structure of Econometric Modelling
Link Econometric Modelling Lecture 3 - Univariate Econometric Modelling
Link Econometric Modelling Lecture 4 - Bivariate Econometric Modelling
Link Econometric Modelling Lecture 5 - Bivariate Econometric Modelling (Continued...)
Link Econometric Modelling Lecture 6 - Probability
Link Econometric Modelling Lecture 7 - Bivariate Econometric Modelling
Link Econometric Modelling Lecture 8 - Bivariate Econometric Modelling (Continued...)
Link Econometric Modelling Lecture 9 - Reliability BEM
Link Econometric Modelling Lecture 10 - Reliability BEM (Continued...1)
Link Econometric Modelling Lecture 11 - Reliability BEM (Continued...2)
Link Econometric Modelling Lecture 12 - ANOVA for Bivariate Econometric Modelling
Link Econometric Modelling Lecture 13 - Trivariate Econometric Modelling
Link Econometric Modelling Lecture 14 - Trivariate Econometric Modelling (Continued...)
Link Econometric Modelling Lecture 15 - Reliability of Trivariate Econometric Modelling
Link Econometric Modelling Lecture 16 - Multivariate Econometric Modelling
Link Econometric Modelling Lecture 17 - Multivariate Econometric Modelling (Continued...)
Link Econometric Modelling Lecture 18 - Matrix Approach to Econometric Modelling
Link Econometric Modelling Lecture 19 - Matrix Approach to Econometric Modelling (Continued...)
Link Econometric Modelling Lecture 20 - Multicolinearity Problem
Link Econometric Modelling Lecture 21 - Multicolinearity Problem (Continued...)
Link Econometric Modelling Lecture 22 - Autocorrelation Problem
Link Econometric Modelling Lecture 23 - Autocorrelation Problem (Continued...)
Link Econometric Modelling Lecture 24 - Heteroscedasticity Problem
Link Econometric Modelling Lecture 25 - Heteroscedasticity Problem (Continued...)
Link Econometric Modelling Lecture 26 - Dummy Modelling
Link Econometric Modelling Lecture 27 - Dummy Modelling (Continued...)
Link Econometric Modelling Lecture 28 - LOGIT and PROBIT Model
Link Econometric Modelling Lecture 29 - LOGIT and PROBIT Model (Continued...)
Link Econometric Modelling Lecture 30 - Panel Data Modelling
Link Econometric Modelling Lecture 31 - Panel Data Modelling (Continued...)
Link Econometric Modelling Lecture 32 - Simultaneous Equation Modelling
Link Econometric Modelling Lecture 33 - Simultaneous Equation Modelling (Continued...)
Link Econometric Modelling Lecture 34 - Structural Equation Modelling
Link Econometric Modelling Lecture 35 - Structural Equation Modelling (Continued...)
Link Econometric Modelling Lecture 36 - Time Series Modelling
Link Econometric Modelling Lecture 37 - Time Series Modelling (Continued...)
Link Econometric Modelling Lecture 38 - Unit Root
Link Econometric Modelling Lecture 39 - Cointegration
Link Econometric Modelling Lecture 40 - Concluding Remarks
Link Organizational Behaviour Lecture 1 - Understanding Organizational Behaviour
Link Organizational Behaviour Lecture 2 - Effectiveness in Organizations
Link Organizational Behaviour Lecture 3 - Social System and Organizational Culture
Link Organizational Behaviour Lecture 4 - Social System and Organizational Culture (Continued...)
Link Organizational Behaviour Lecture 5 - Individual differences and work behaviour
Link Organizational Behaviour Lecture 6 - Personality
Link Organizational Behaviour Lecture 7 - Personality (Continued...)
Link Organizational Behaviour Lecture 8 - Attitudes
Link Organizational Behaviour Lecture 9 - Attitudes (Continued...)
Link Organizational Behaviour Lecture 10 - Attitudes (Continued...)
Link Organizational Behaviour Lecture 11 - Perceptions and Attributions
Link Organizational Behaviour Lecture 12 - Perceptions and Attributions (Continued...)
Link Organizational Behaviour Lecture 13 - Motivation
Link Organizational Behaviour Lecture 14 - Motivation (Continued...)
Link Organizational Behaviour Lecture 15 - Job Design, Work and Motivation
Link Organizational Behaviour Lecture 16 - Job Design, Work and Motivation (Continued...)
Link Organizational Behaviour Lecture 17 - Evaluation, Feedback and Rewards
Link Organizational Behaviour Lecture 18 - Evaluation, Feedback and Rewards (Continued...)
Link Organizational Behaviour Lecture 19 - Managing Misbehaviour
Link Organizational Behaviour Lecture 20 - Stress
Link Organizational Behaviour Lecture 21 - Counseling
Link Organizational Behaviour Lecture 22 - Informal and Formal Groups
Link Organizational Behaviour Lecture 23 - Teams and Teambuilding
Link Organizational Behaviour Lecture 24 - Managing Conflict and Negotiation
Link Organizational Behaviour Lecture 25 - Managing Conflict and Negotiation (Continued...)
Link Organizational Behaviour Lecture 26 - Power and Politics
Link Organizational Behaviour Lecture 27 - Empowerment and Participation
Link Organizational Behaviour Lecture 28 - Assertive Behaviour and Transactional Analysis
Link Organizational Behaviour Lecture 29 - Communication
Link Organizational Behaviour Lecture 30 - Communication (Continued...)
Link Organizational Behaviour Lecture 31 - Decision Making
Link Organizational Behaviour Lecture 32 - Decision Making (Continued...)
Link Organizational Behaviour Lecture 33 - Leadership
Link Organizational Behaviour Lecture 34 - Leadership (Continued...)
Link Organizational Behaviour Lecture 35 - Leadership (Continued...)
Link Organizational Behaviour Lecture 36 - Organizational structure and Design
Link Organizational Behaviour Lecture 37 - Organizational structure and Design (Continued...)
Link Organizational Behaviour Lecture 38 - Organizational structure and Design (Continued...)
Link Organizational Behaviour Lecture 39 - Change and Innovation
Link Organizational Behaviour Lecture 40 - Change and Innovation (Continued...)
Link Organizational Behaviour Lecture 41 - Organizational behaviour across cultures
Link Security Analysis and Portfolio Management Lecture 1 - Introduction to Investment Management
Link Security Analysis and Portfolio Management Lecture 2 - Markets for Investment
Link Security Analysis and Portfolio Management Lecture 3 - Risk and Return
Link Security Analysis and Portfolio Management Lecture 4 - Risk and Return (Continued...)
Link Security Analysis and Portfolio Management Lecture 5 - Organization and Function of Equity and Debt Markets
Link Security Analysis and Portfolio Management Lecture 6 - Mutual Funds
Link Security Analysis and Portfolio Management Lecture 7 - Market Efficiency - Concepts and forms of efficiency
Link Security Analysis and Portfolio Management Lecture 8 - Testing Market Efficiency
Link Security Analysis and Portfolio Management Lecture 9 - Financial Statement Analysis
Link Security Analysis and Portfolio Management Lecture 10 - Financial Statement Analysis (Continued...)
Link Security Analysis and Portfolio Management Lecture 11 - Valuation of Equity Shares - I
Link Security Analysis and Portfolio Management Lecture 12 - Valuation of Equity Shares - II
Link Security Analysis and Portfolio Management Lecture 13 - Economic Analysis - I
Link Security Analysis and Portfolio Management Lecture 14 - Economic Analysis - II
Link Security Analysis and Portfolio Management Lecture 15 - Industry Analysis - I
Link Security Analysis and Portfolio Management Lecture 16 - Industry Analysis - II
Link Security Analysis and Portfolio Management Lecture 17 - Company Analysis - I
Link Security Analysis and Portfolio Management Lecture 18 - Company Analysis - II
Link Security Analysis and Portfolio Management Lecture 19 - Technical Analysis - I
Link Security Analysis and Portfolio Management Lecture 20 - Technical Analysis - II
Link Security Analysis and Portfolio Management Lecture 21 - Introduction to Portfolio Management
Link Security Analysis and Portfolio Management Lecture 22 - Introduction to Portfolio Management (Continued...)
Link Security Analysis and Portfolio Management Lecture 23 - Capital Market Theory - I
Link Security Analysis and Portfolio Management Lecture 24 - Capital Market Theory - II
Link Security Analysis and Portfolio Management Lecture 25 - Arbitrage Pricing Theory
Link Security Analysis and Portfolio Management Lecture 26 - Multifactor Pricing Model
Link Security Analysis and Portfolio Management Lecture 27 - Markowitz Optimal Portfolio Selection Model
Link Security Analysis and Portfolio Management Lecture 28 - Other Optimal Portfolio Selection Models
Link Security Analysis and Portfolio Management Lecture 29 - Equity Portfolio Management Strategies - I
Link Security Analysis and Portfolio Management Lecture 30 - Equity Portfolio Management Strategies - II
Link Security Analysis and Portfolio Management Lecture 31 - Introduction to Bond Analysis
Link Security Analysis and Portfolio Management Lecture 32 - Bond Pricing and Yield
Link Security Analysis and Portfolio Management Lecture 33 - Interest Rate: Determination & Structure
Link Security Analysis and Portfolio Management Lecture 34 - Bond Price Volatility
Link Security Analysis and Portfolio Management Lecture 35 - Bond Portfolio Management Strategies - I
Link Security Analysis and Portfolio Management Lecture 36 - Bond Portfolio Management Strategies - II
Link Security Analysis and Portfolio Management Lecture 37 - Derivatives - I
Link Security Analysis and Portfolio Management Lecture 38 - Derivatives - II
Link Security Analysis and Portfolio Management Lecture 39 - Portfolio Performance Evaluation - I
Link Security Analysis and Portfolio Management Lecture 40 - Portfolio Performance Evaluation - II
Link Six Sigma Lecture 1 - Concepts in Quality Management - I
Link Six Sigma Lecture 2 - Concepts in Quality Management - II
Link Six Sigma Lecture 3 - Concepts in Quality Management - III
Link Six Sigma Lecture 4 - Initiating Six Sigma
Link Six Sigma Lecture 5 - Review of Probability and Statistics - I
Link Six Sigma Lecture 6 - Review of Probability and Statistics - II
Link Six Sigma Lecture 7 - Review of Probability and Statistics - III
Link Six Sigma Lecture 8 - Review of Probability and Statistics - IV
Link Six Sigma Lecture 9 - QM Systems Overview
Link Six Sigma Lecture 10 - Cost of Quality and TQM Tools
Link Six Sigma Lecture 11 - QFD and ISO 9000
Link Six Sigma Lecture 12 - QS 9000 and Awards
Link Six Sigma Lecture 13 - Competing Through Service Quality
Link Six Sigma Lecture 14 - Introduction to Project Management
Link Six Sigma Lecture 15 - Project Life Cycle
Link Six Sigma Lecture 16 - Critical Path Method
Link Six Sigma Lecture 17 - Measurement System Analysis
Link Six Sigma Lecture 18 - Acceptance Sampling
Link Six Sigma Lecture 19 - Design of Sampling Plans
Link Six Sigma Lecture 20 - MIL-STD-105E Sampling Plan
Link Six Sigma Lecture 21 - Introduction to SPC
Link Six Sigma Lecture 22 - Control Chart Examples
Link Six Sigma Lecture 23 - Control Charts by Excel
Link Six Sigma Lecture 24 - Process Capability
Link Six Sigma Lecture 25 - Quality Function Deployment
Link Six Sigma Lecture 26 - Design of Experiments - Overview
Link Six Sigma Lecture 27 - Planning for DOE
Link Six Sigma Lecture 28 - Factor Effect Calculations
Link Six Sigma Lecture 29 - ANOVA in DOE
Link Six Sigma Lecture 30 - Benchmarking in Six Sigma
Link Six Sigma Lecture 31 - How to Benchmark
Link Six Sigma Lecture 32 - Six Sigma in Supply Chains
Link Six Sigma Lecture 33 - Taguchi Methods
Link Six Sigma Lecture 34 - Robust Design
Link Six Sigma Lecture 35 - The Journey to Six Sigma
Link Six Sigma Lecture 36 - A Case Study of Defect Reduction
Link Six Sigma Lecture 37 - DFM & Reliability
Link Six Sigma Lecture 38 - Failure Modes & Effects Analysis (FMEA)
Link Six Sigma Lecture 39 - Implementing Six Sigma
Link Six Sigma Lecture 40 - Getting Results From Six Sigma
Link International Business Communication Lecture 1 - Introduction
Link International Business Communication Lecture 2 - Definitions & Concepts
Link International Business Communication Lecture 3 - Communicative Competence - I
Link International Business Communication Lecture 4 - Communicative Competence - II
Link International Business Communication Lecture 5 - Communicative Competence - III
Link International Business Communication Lecture 6 - Intercultural Communication - I
Link International Business Communication Lecture 7 - Intercultural Communication - II
Link International Business Communication Lecture 8 - Intercultural Communication - III
Link International Business Communication Lecture 9 - Intercultural Communication - Thought and Speech
Link International Business Communication Lecture 10 - Intercultural Communication - Thought and Speech (Continued...)
Link International Business Communication Lecture 11 - Intercultural Communication: Translation as Problematic Discourse
Link International Business Communication Lecture 12 - Nonverbal Communication
Link International Business Communication Lecture 13 - Barriers to Communication
Link International Business Communication Lecture 14 - Barriers to Communication (Continued...)
Link International Business Communication Lecture 15 - Barriers to Communication (Continued...) & Listening
Link International Business Communication Lecture 16 - Listening (Continued...)
Link International Business Communication Lecture 17 - Communication Rules
Link International Business Communication Lecture 18 - Communication Style
Link International Business Communication Lecture 19 - Interpersonal Communication
Link International Business Communication Lecture 20 - Interpersonal Communication (Continued...)
Link International Business Communication Lecture 21 - Relational Communication
Link International Business Communication Lecture 22 - Relational Communication (Continued...)
Link International Business Communication Lecture 23 - Organizational Communication
Link International Business Communication Lecture 24 - Organizational Communication (Continued...)
Link International Business Communication Lecture 25 - Collaboration
Link International Business Communication Lecture 26 - Communication in Groups and Teams
Link International Business Communication Lecture 27 - Communication in Groups and Teams (Continued...1)
Link International Business Communication Lecture 28 - Communication in Groups and Teams (Continued...2)
Link International Business Communication Lecture 29 - Persuasive Communication
Link International Business Communication Lecture 30 - Persuasive Communication (Continued...)
Link International Business Communication Lecture 31 - Negotiation and Conflict Management
Link International Business Communication Lecture 32 - Negotiation and Conflict Management (Continued...)
Link International Business Communication Lecture 33 - Leadership
Link International Business Communication Lecture 34 - Written Communication in International Business
Link International Business Communication Lecture 35 - Role of Technology in international Business Communication
Link International Business Communication Lecture 36 - Moving to Another Culture
Link International Business Communication Lecture 37 - Re-entry
Link International Business Communication Lecture 38 - Crisis Communication
Link International Business Communication Lecture 39 - Ethics in Business Communication
Link International Business Communication Lecture 40 - Conclusion
Link Consumer Behaviour Lecture 1 - Introduction to the Study of Consumer Behaviour
Link Consumer Behaviour Lecture 2 - Introduction to the Study of Consumer Behaviour (Continued...)
Link Consumer Behaviour Lecture 3 - Market Research and Consumer Behaviour
Link Consumer Behaviour Lecture 4 - Market Research and Consumer Behaviour (Continued...)
Link Consumer Behaviour Lecture 5 - Market Segmentation and Positioning
Link Consumer Behaviour Lecture 6 - Market Segmentation and Positioning (Continued...)
Link Consumer Behaviour Lecture 7 - The Consumer Decision Making Process
Link Consumer Behaviour Lecture 8 - The Consumer Decision Making Process (Continued...)
Link Consumer Behaviour Lecture 9 - Models of Consumers and Models of Consumer Behaviour
Link Consumer Behaviour Lecture 10 - Models of Consumers and Models of Consumer Behaviour (Continued...)
Link Consumer Behaviour Lecture 11 - Models of Consumers and Models of Consumer Behaviour (Continued...)
Link Consumer Behaviour Lecture 12 - Models of Consumers and Models of Consumer Behaviour (Continued...)
Link Consumer Behaviour Lecture 13 - Consumer Needs and Motivation, Emotions and Mood, Consumer Involvement
Link Consumer Behaviour Lecture 14 - Consumer Needs and Motivation, Emotions and Mood, Consumer Involvement (Continued...)
Link Consumer Behaviour Lecture 15 - Consumer Needs and Motivation, Emotions and Mood, Consumer Involvement (Continued...)
Link Consumer Behaviour Lecture 16 - Consumer Needs and Motivation, Emotions and Mood, Consumer Involvement (Continued...)
Link Consumer Behaviour Lecture 17 - Consumer Needs and Motivation, Emotions and Mood, Consumer Involvement (Continued...)
Link Consumer Behaviour Lecture 18 - Consumer Learning
Link Consumer Behaviour Lecture 19 - Consumer Learning (Continued...)
Link Consumer Behaviour Lecture 20 - Consumer Learning (Continued...)
Link Consumer Behaviour Lecture 21 - Consumer Learning (Continued...)
Link Consumer Behaviour Lecture 22 - Personality, Self Concept and Self Image
Link Consumer Behaviour Lecture 23 - Personality, Self Concept and Self Image (Continued...)
Link Consumer Behaviour Lecture 24 - Consumer Perception, Risk and Imagery
Link Consumer Behaviour Lecture 25 - Consumer Perception, Risk and Imagery (Continued...)
Link Consumer Behaviour Lecture 26 - Consumer Perception, Risk and Imagery (Continued...)
Link Consumer Behaviour Lecture 27 - Consumer Attitudes
Link Consumer Behaviour Lecture 28 - Consumer Attitudes (Continued...)
Link Consumer Behaviour Lecture 29 - Consumer Attitudes (Continued...)
Link Consumer Behaviour Lecture 30 - Consumer Communication
Link Consumer Behaviour Lecture 31 - Consumer Communication (Continued...)
Link Consumer Behaviour Lecture 32 - Consumer Groups and Reference Groups
Link Consumer Behaviour Lecture 33 - Family and Family Life Cycle
Link Consumer Behaviour Lecture 34 - Social Class and Mobility, Lifestyle Analysis
Link Consumer Behaviour Lecture 35 - Culture, Sub-Culture and Cross-Culture
Link Consumer Behaviour Lecture 36 - Culture, Sub-Culture and Cross-Culture (Continued...)
Link Consumer Behaviour Lecture 37 - Interpersonal Communication and Influence
Link Consumer Behaviour Lecture 38 - Opinion Leadership
Link Consumer Behaviour Lecture 39 - Diffusion of Innovation
Link Consumer Behaviour Lecture 40 - Diffusion of Innovation (Continued...)
Link International Finance Lecture 1 - International Financial Environment
Link International Finance Lecture 2 - International Financial Transactions
Link International Finance Lecture 3 - Gold Standard
Link International Finance Lecture 4 - Purchasing Power Parity
Link International Finance Lecture 5 - Floating and Fixed Exchange Rate Regimes
Link International Finance Lecture 6 - Currency Boards and Currency Basket Systems
Link International Finance Lecture 7 - Features of Foreign Exchange Market
Link International Finance Lecture 8 - Exchange Rate Arithmetic
Link International Finance Lecture 9 - Understanding Merchant Rates
Link International Finance Lecture 10 - Foreign Exchange Forward Contracts
Link International Finance Lecture 11 - Value at Risk for Foreign Exchange Market
Link International Finance Lecture 12 - International Parity Conditions and Movement Exchange Rate
Link International Finance Lecture 13 - Exchange Rate Determination and Forecasting
Link International Finance Lecture 14 - Development of Foreign Exchange Market in India
Link International Finance Lecture 15 - Foreign Exchange Exposures : Transaction Exposure
Link International Finance Lecture 16 - Transaction Exposure Management
Link International Finance Lecture 17 - Foreign Exchange Futures Market for Transaction Exposure Management
Link International Finance Lecture 18 - Foreign Currency Options : Transaction Exposure Management
Link International Finance Lecture 19 - Interest Rate Swaps
Link International Finance Lecture 20 - Currency Swaps
Link International Finance Lecture 21 - Operating Exposure Assessment
Link International Finance Lecture 22 - Operating Exposure Management
Link International Finance Lecture 23 - International Capital Structure and Capital Assets Pricing Model
Link International Finance Lecture 24 - International Capital Budgeting
Link International Finance Lecture 25 - Evaluation of Foreign Direct Investment
Link International Finance Lecture 26 - Cross Listing of Shares : Depository Receipts
Link International Finance Lecture 27 - International Financial Integration
Link International Finance Lecture 28 - World Trade Organisation
Link International Finance Lecture 29 - India's Forex Reserves Composition and Determinants of Optimum Reserves
Link International Finance Lecture 30 - Movement of Exchange Rates in India
Link International Finance Lecture 31 - International Trade Theory
Link International Finance Lecture 32 - International Bond Market
Link International Finance Lecture 33 - India's Foreign Trade - Direction and Composition
Link International Finance Lecture 34 - Financial Stability
Link International Finance Lecture 35 - Test-1
Link International Finance Lecture 36 - Money and Forex Market Interaction : Indian Experience
Link International Finance Lecture 37 - Test-2
Link International Finance Lecture 38 - Characteristics of Indian Foreign Exchange Market
Link International Finance Lecture 39 - Test-3
Link International Finance Lecture 40 - Test-4
Link Applied Multivariate Statistical Modeling Lecture 1 - Introduction to multivariate statistical modeling
Link Applied Multivariate Statistical Modeling Lecture 2 - Introduction to multivariate statistical modeling (Continued...)
Link Applied Multivariate Statistical Modeling Lecture 3 - Univariate descriptive statistics
Link Applied Multivariate Statistical Modeling Lecture 4 - Sampling distribution
Link Applied Multivariate Statistical Modeling Lecture 5 - Estimation
Link Applied Multivariate Statistical Modeling Lecture 6 - Estimation (Continued...)
Link Applied Multivariate Statistical Modeling Lecture 7 - Hypothesis testing
Link Applied Multivariate Statistical Modeling Lecture 8 - Multivariate descriptive statistics
Link Applied Multivariate Statistical Modeling Lecture 9 - Multivariate descriptive statistics (Continued...)
Link Applied Multivariate Statistical Modeling Lecture 10 - Multivariate normal distribution
Link Applied Multivariate Statistical Modeling Lecture 11 - Multivariate normal distribution (Continued...)
Link Applied Multivariate Statistical Modeling Lecture 12 - Multivariate Inferential Statistics
Link Applied Multivariate Statistical Modeling Lecture 13 - Multivariate Inferential Statistics (Continued...)
Link Applied Multivariate Statistical Modeling Lecture 14 - ANOVA (Analysis of Varianace)
Link Applied Multivariate Statistical Modeling Lecture 15 - Analysis of Variance (Continued...)
Link Applied Multivariate Statistical Modeling Lecture 16 - Multivariate Analysis of Variance (MANOVA)
Link Applied Multivariate Statistical Modeling Lecture 17 - MANOVA (Continued...)
Link Applied Multivariate Statistical Modeling Lecture 18 - Tutorial - ANOVA
Link Applied Multivariate Statistical Modeling Lecture 19 - Tutorial ANOVA (Continued...)
Link Applied Multivariate Statistical Modeling Lecture 20 - MANOVA - Case Study
Link Applied Multivariate Statistical Modeling Lecture 21 - Multiple Regression – Introduction
Link Applied Multivariate Statistical Modeling Lecture 22 - MLR - Sampling distribution of regression coefficients
Link Applied Multivariate Statistical Modeling Lecture 23 - MLR - Model adequacy tests
Link Applied Multivariate Statistical Modeling Lecture 24 - MLR - Test of assumptions
Link Applied Multivariate Statistical Modeling Lecture 25 - MLR - Model diagnostics
Link Applied Multivariate Statistical Modeling Lecture 26 - MLR - Case Study
Link Applied Multivariate Statistical Modeling Lecture 27 - Multivariate Linear Regression
Link Applied Multivariate Statistical Modeling Lecture 28 - Multivariate Linear Regression - Estimation
Link Applied Multivariate Statistical Modeling Lecture 29 - Multivariate Linear Regression - Model Adequacy tests
Link Applied Multivariate Statistical Modeling Lecture 30 - Principal Component Analysis (PCA)
Link Applied Multivariate Statistical Modeling Lecture 31 - PCA - Model Adequacy & Interpretation
Link Applied Multivariate Statistical Modeling Lecture 32 - Regression Modeling using SPSS
Link Applied Multivariate Statistical Modeling Lecture 33 - Factor Analysis
Link Applied Multivariate Statistical Modeling Lecture 34 - Factor Analysis - Estimation & Model Adequacy testing
Link Applied Multivariate Statistical Modeling Lecture 35 - Factor Analysis - Model Adequacy, rotation, factor scores & case study
Link Applied Multivariate Statistical Modeling Lecture 36 - Cluster Analysis
Link Applied Multivariate Statistical Modeling Lecture 37 - Cluster Analysis (Continued...)
Link Applied Multivariate Statistical Modeling Lecture 38 - Introduction to Structural Equation Modeling (SEM)
Link Applied Multivariate Statistical Modeling Lecture 39 - SEM - Measurement Model
Link Applied Multivariate Statistical Modeling Lecture 40 - SEM - Structural Model
Link Applied Multivariate Statistical Modeling Lecture 41 - Correspondence Analysis
Link Applied Multivariate Statistical Modeling Lecture 42 - Correspondence Analysis (Continued...)
Link Economics, Management, Entrepreneurship Lecture 1 - Introduction
Link Economics, Management, Entrepreneurship Lecture 2 - Market Equilibrium : Demand and Supply
Link Economics, Management, Entrepreneurship Lecture 3 - Elasticity of Demand
Link Economics, Management, Entrepreneurship Lecture 4 - Demand Forecasting
Link Economics, Management, Entrepreneurship Lecture 5 - Production
Link Economics, Management, Entrepreneurship Lecture 6 - Exercises on Economics
Link Economics, Management, Entrepreneurship Lecture 7 - Cost - Volume - Profit Relationships
Link Economics, Management, Entrepreneurship Lecture 8 - Cost Management Systems and Activity Costing Systems
Link Economics, Management, Entrepreneurship Lecture 9 - Relevant Information and Decision Making
Link Economics, Management, Entrepreneurship Lecture 10 - Cost Allocation
Link Economics, Management, Entrepreneurship Lecture 11 - Exercises on Economics (Continued...)
Link Economics, Management, Entrepreneurship Lecture 12 - Double - Entry Bookkeeping
Link Economics, Management, Entrepreneurship Lecture 13 - Job Costing
Link Economics, Management, Entrepreneurship Lecture 14 - Process Costing
Link Economics, Management, Entrepreneurship Lecture 15 - The Master Budget
Link Economics, Management, Entrepreneurship Lecture 16 - Flexible Budegst and Variance Analysis
Link Economics, Management, Entrepreneurship Lecture 17 - Financial Statements
Link Economics, Management, Entrepreneurship Lecture 18 - Financial Statements (Continued...)
Link Economics, Management, Entrepreneurship Lecture 19 - Analysis of Financial Statements
Link Economics, Management, Entrepreneurship Lecture 20 - Exercises (Continued...)
Link Economics, Management, Entrepreneurship Lecture 21 - Time Value of Money
Link Economics, Management, Entrepreneurship Lecture 22 - Comparison of Alternatives
Link Economics, Management, Entrepreneurship Lecture 23 - Comparison of Alternatives (Continued...)
Link Economics, Management, Entrepreneurship Lecture 24 - Comparison of Alternatives (Continued...)
Link Economics, Management, Entrepreneurship Lecture 25 - Depreciation Accounting
Link Economics, Management, Entrepreneurship Lecture 26 - Depreciation Accounting (Continued...)
Link Economics, Management, Entrepreneurship Lecture 27 - Exercises
Link Economics, Management, Entrepreneurship Lecture 28 - Evolution of Management Thoughts
Link Economics, Management, Entrepreneurship Lecture 29 - Functions of Management
Link Economics, Management, Entrepreneurship Lecture 30 - Functions of Management (Continued...)
Link Economics, Management, Entrepreneurship Lecture 31 - Functions of Management (Continued...)
Link Economics, Management, Entrepreneurship Lecture 32 - Directing
Link Economics, Management, Entrepreneurship Lecture 33 - Product Development
Link Economics, Management, Entrepreneurship Lecture 34 - Forecasting Revisited
Link Economics, Management, Entrepreneurship Lecture 35 - Forecasting Revisited (Continued...)
Link Economics, Management, Entrepreneurship Lecture 36 - Forecasting Revisited (Continued...)
Link Economics, Management, Entrepreneurship Lecture 37 - Capacity Planning
Link Economics, Management, Entrepreneurship Lecture 38 - Capacity Planning (Continued...) and Plant Location
Link Economics, Management, Entrepreneurship Lecture 39 - Product Service Strategies and Plant Layout
Link Economics, Management, Entrepreneurship Lecture 40 - Plant Lauout (Continued...) and Production Planning and Control
Link Economics, Management, Entrepreneurship Lecture 41 - Production Planning and Control (Continued...)
Link Economics, Management, Entrepreneurship Lecture 42 - Inventory Management
Link Economics, Management, Entrepreneurship Lecture 43 - Inventory Management (Continued...)
Link Economics, Management, Entrepreneurship Lecture 44 - Supply Chain Management
Link Economics, Management, Entrepreneurship Lecture 45 - Supply Chain Management (Continued...) and Marketing Management
Link Economics, Management, Entrepreneurship Lecture 46 - Marketing Management (Continued...)
Link Economics, Management, Entrepreneurship Lecture 47 - Forms of Ownership
Link Economics, Management, Entrepreneurship Lecture 48 - Starting a New Company and Small - scale Industrial Undertakings
Link Economics, Management, Entrepreneurship Lecture 49 - Capital Financing
Link Economics, Management, Entrepreneurship Lecture 50 - Entrepreneurship - Final Words
Link NOC:Principles of Human Resource Management Lecture 1 - Introduction to HRM
Link NOC:Principles of Human Resource Management Lecture 2 - Job Analysis and Design
Link NOC:Principles of Human Resource Management Lecture 3 - Employee testing and selection
Link NOC:Principles of Human Resource Management Lecture 4 - Performance appraisal
Link NOC:Principles of Human Resource Management Lecture 5 - Performance evaluation and feedback
Link NOC:Principles of Human Resource Management Lecture 6 - The Training process: Assessment of training needs and Training methods
Link NOC:Principles of Human Resource Management Lecture 7 - General and Specific Training and Evaluation of Training
Link NOC:Principles of Human Resource Management Lecture 8 - Career Management and planning
Link NOC:Principles of Human Resource Management Lecture 9 - Career Development
Link NOC:Principles of Human Resource Management Lecture 10 - Compensation
Link NOC:Principles of Human Resource Management Lecture 11 - Pay for performance systems
Link NOC:Principles of Human Resource Management Lecture 12 - Pay and Reward systems
Link NOC:Principles of Human Resource Management Lecture 13 - Benefits
Link NOC:Principles of Human Resource Management Lecture 14 - Separation and Administration of Benefits
Link NOC:Principles of Human Resource Management Lecture 15 - Business Ethics
Link NOC:Principles of Human Resource Management Lecture 16 - Ethical Aspects of HRM Activities
Link NOC:Principles of Human Resource Management Lecture 17 - Employee Health
Link NOC:Principles of Human Resource Management Lecture 18 - Employee Wellbeing in the Workplace
Link NOC:Principles of Human Resource Management Lecture 19 - Organized Labor
Link NOC:Principles of Human Resource Management Lecture 20 - Managing the Labor Relations Process
Link NOC:Principles of Human Resource Management Lecture 21 - International HRM
Link NOC:Principles of Human Resource Management Lecture 22 - Global Employment Law, Industrial Relations and International Ethics
Link NOC:Principles of Human Resource Management Lecture 23 - Challenges to International HRM
Link NOC:Principles of Human Resource Management Lecture 24 - Strategic HRM
Link NOC:Principles of Human Resource Management Lecture 25 - Multilevel Model of Strategic HRM
Link NOC:Principles of Human Resource Management Lecture 26 - Strategic HRM in a Networked World
Link NOC:Principles of Human Resource Management Lecture 27 - Sustainable HRM
Link NOC:Principles of Human Resource Management Lecture 28 - HR Measurement and Accountability
Link NOC:Principles of Human Resource Management Lecture 29 - Types of Score Cards
Link NOC:Principles of Human Resource Management Lecture 30 - Discipline in Organizations
Link NOC:Principles of Human Resource Management Lecture 31 - Dealing with Difficult Employees
Link NOC:Principles of Human Resource Management Lecture 32 - Using HRM to Prevent the Need for Discipline
Link NOC:Commodity Derivatives and Risk Management Lecture 1 - Introduction to Commodity Derivatives and Risk Management
Link NOC:Commodity Derivatives and Risk Management Lecture 2 - Introduction to Commodity Derivatives and Risk Management (Continued...)
Link NOC:Commodity Derivatives and Risk Management Lecture 3 - Futures Contract Specifications
Link NOC:Commodity Derivatives and Risk Management Lecture 4 - Futures Contract Specifications (Continued...)
Link NOC:Commodity Derivatives and Risk Management Lecture 5 - Futures Contract - Mark-to-Market Margin
Link NOC:Commodity Derivatives and Risk Management Lecture 6 - Commodity Options and Commodity Spreads
Link NOC:Commodity Derivatives and Risk Management Lecture 7 - Pricing and Valuations of Futures Contract
Link NOC:Commodity Derivatives and Risk Management Lecture 8 - Pricing and Valuations of Futures Contract (Continued...)
Link NOC:Commodity Derivatives and Risk Management Lecture 9 - Convenience Field, Contango-Backwardation
Link NOC:Commodity Derivatives and Risk Management Lecture 10 - Commodity Basic Risk - Part I
Link NOC:Commodity Derivatives and Risk Management Lecture 11 - Commodity Basic Risk - Part II
Link NOC:Commodity Derivatives and Risk Management Lecture 12 - Minimum Variance Hedge Ratio - Part I
Link NOC:Commodity Derivatives and Risk Management Lecture 13 - Minimum Variance Hedge Ratio - Part II
Link NOC:Commodity Derivatives and Risk Management Lecture 14 - Commodity Indexes - Part I
Link NOC:Commodity Derivatives and Risk Management Lecture 15 - Commodity Indexes - Part II
Link NOC:Commodity Derivatives and Risk Management Lecture 16 - Agri-Commodity Price Risk Management - Part I
Link NOC:Commodity Derivatives and Risk Management Lecture 17 - Agri-Commodity Price Risk Management - Part II
Link NOC:Commodity Derivatives and Risk Management Lecture 18 - Seasonality in Agri-Commodity, Contango and Backwardation - Part I
Link NOC:Commodity Derivatives and Risk Management Lecture 19 - Seasonality in Agri-Commodity, Contango and Backwardation - Part II
Link NOC:Commodity Derivatives and Risk Management Lecture 20 - Commodity Prices Determination - Part I
Link NOC:Commodity Derivatives and Risk Management Lecture 21 - Commodity Prices Determination - Part II
Link NOC:Commodity Derivatives and Risk Management Lecture 22 - Crude Oil Derivatives - Part I
Link NOC:Commodity Derivatives and Risk Management Lecture 23 - Crude Oil Price Determination
Link NOC:Commodity Derivatives and Risk Management Lecture 24 - Spot-Futures Relationship in Crude Oil - Part I
Link NOC:Commodity Derivatives and Risk Management Lecture 25 - Spot-Futures Relationship in Crude Oil - Part II
Link NOC:Commodity Derivatives and Risk Management Lecture 26 - Hedging of Crude Oil and Refined Product Price Risk - Part I
Link NOC:Commodity Derivatives and Risk Management Lecture 27 - Hedging of Crude Oil and Refined Product Price Risk - Part II
Link NOC:Commodity Derivatives and Risk Management Lecture 28 - Introduction to Gold and Gold Derivatives
Link NOC:Commodity Derivatives and Risk Management Lecture 29 - LBMA, Gold Spot Price and Gold Derivatives
Link NOC:Commodity Derivatives and Risk Management Lecture 30 - OTC Contracts on Gold and Gold Dehedge
Link NOC:Commodity Derivatives and Risk Management Lecture 31 - Spot Trading of Electricity in India - Part I
Link NOC:Commodity Derivatives and Risk Management Lecture 32 - Spot Trading of Electricity in India - Part II
Link NOC:Commodity Derivatives and Risk Management Lecture 33 - Weather Derivatives - Part I
Link NOC:Commodity Derivatives and Risk Management Lecture 34 - Weather Derivatives - Part II
Link NOC:Commodity Derivatives and Risk Management Lecture 35 - Introduction to Carbon Credit Market
Link NOC:Commodity Derivatives and Risk Management Lecture 36 - Carbon Derivatives
Link NOC:Commodity Derivatives and Risk Management Lecture 37 - Physical Market for Freight, Freight Exchanges, Freight Indexes
Link NOC:Commodity Derivatives and Risk Management Lecture 38 - Hedging Freight rate Risk with Freight Rate Derivatives
Link NOC:Commodity Derivatives and Risk Management Lecture 39 - Metal Derivatives and London Metal Exchange (LME)
Link NOC:Commodity Derivatives and Risk Management Lecture 40 - Real Estate Derivatives
Link NOC:Strategic Communication for Sustainable Development Lecture 1 - Introduction
Link NOC:Strategic Communication for Sustainable Development Lecture 2 - Models for Public Participation in Sustainable Development
Link NOC:Strategic Communication for Sustainable Development Lecture 3 - Role of Communication in Sustainable Development
Link NOC:Strategic Communication for Sustainable Development Lecture 4 - Sustainability Communication
Link NOC:Strategic Communication for Sustainable Development Lecture 5 - Approaches to Sustainability Communication : Strong Sustainability
Link NOC:Strategic Communication for Sustainable Development Lecture 6 - Approaches to Sustainability Communication : Integrative Approach
Link NOC:Strategic Communication for Sustainable Development Lecture 7 - Sociological Perspectives on Sustainability Communication
Link NOC:Strategic Communication for Sustainable Development Lecture 8 - Psychological Perspectives on Sustainability Communication
Link NOC:Strategic Communication for Sustainable Development Lecture 9 - Psychological Perspectives on Sustainability Communication (Continued...)
Link NOC:Strategic Communication for Sustainable Development Lecture 10 - Steyn and Puth's Model for Communication Strategy
Link NOC:Strategic Communication for Sustainable Development Lecture 11 - Application of Steyn and Puth's Model to Development
Link NOC:Strategic Communication for Sustainable Development Lecture 12 - Tools of Strategic Communication for Sustainable Development
Link NOC:Strategic Communication for Sustainable Development Lecture 13 - Role of Strategic Communication for Sustainable Development
Link NOC:Strategic Communication for Sustainable Development Lecture 14 - Role of Stakeholders in Strategic Communication for Sustainable Development
Link NOC:Strategic Communication for Sustainable Development Lecture 15 - Systems Approach to Identifying Decisive Information
Link NOC:Strategic Communication for Sustainable Development Lecture 16 - Adapting CSR Communication Strategies to Sustainable Development
Link NOC:Strategic Communication for Sustainable Development Lecture 17 - Strategic Conversations
Link NOC:Strategic Communication for Sustainable Development Lecture 18 - Creating a Strategic Communication Plan
Link NOC:Strategic Communication for Sustainable Development Lecture 19 - Communication for Behavioral Impact (COMBI) for Sustainable Development
Link NOC:Strategic Communication for Sustainable Development Lecture 20 - Media and Sustainability Communication
Link NOC:Strategic Communication for Sustainable Development Lecture 21 - ICTs in Sustainable Development
Link NOC:Strategic Communication for Sustainable Development Lecture 22 - Community Informatics
Link NOC:Strategic Communication for Sustainable Development Lecture 23 - Challenges to the use of ICTs in Sustainable Development Efforts
Link NOC:Strategic Communication for Sustainable Development Lecture 24 - Wrap up and Conclusion
Link NOC:Consumer Behaviour Lecture 1 - Introduction to Consumer Behaviour
Link NOC:Consumer Behaviour Lecture 2 - The Changing Patterns of Consumer Behaviour
Link NOC:Consumer Behaviour Lecture 3 - Dimensions of Consumerism
Link NOC:Consumer Behaviour Lecture 4 - Use of Market Segmentation in Consumer Behaviour
Link NOC:Consumer Behaviour Lecture 5 - Process of Motivation
Link NOC:Consumer Behaviour Lecture 6 - Theories of Motivation
Link NOC:Consumer Behaviour Lecture 7 - Consumer Involvement
Link NOC:Consumer Behaviour Lecture 8 - Case Study on Motivation and Involvement
Link NOC:Consumer Behaviour Lecture 9 - Concept and Levels of Perception
Link NOC:Consumer Behaviour Lecture 10 - Process of Perception
Link NOC:Consumer Behaviour Lecture 11 - Theories of Personality - I
Link NOC:Consumer Behaviour Lecture 12 - Theories of Personality - II
Link NOC:Consumer Behaviour Lecture 13 - Brand Personality and Self concept
Link NOC:Consumer Behaviour Lecture 14 - Theories of Learning
Link NOC:Consumer Behaviour Lecture 15 - Attitude Formation - I
Link NOC:Consumer Behaviour Lecture 16 - Attitude Formation - II
Link NOC:Consumer Behaviour Lecture 17 - Changing Attitude
Link NOC:Consumer Behaviour Lecture 18 - Exercise on Attitude Formation and Change
Link NOC:Consumer Behaviour Lecture 19 - Values
Link NOC:Consumer Behaviour Lecture 20 - AIO Classification
Link NOC:Consumer Behaviour Lecture 21 - VALS - I Typology
Link NOC:Consumer Behaviour Lecture 22 - VALS - TM Typology
Link NOC:Consumer Behaviour Lecture 23
Link NOC:Consumer Behaviour Lecture 24
Link NOC:Consumer Behaviour Lecture 25 - Group Influences on Consumption
Link NOC:Consumer Behaviour Lecture 26 - Role of Celebrity Endorsement
Link NOC:Consumer Behaviour Lecture 27 - Concept of Family and Family Life Cycle
Link NOC:Consumer Behaviour Lecture 28 - Family Buying Decisions
Link NOC:Consumer Behaviour Lecture 29 - Diffusion of Innovations - I
Link NOC:Consumer Behaviour Lecture 30 - Diffusion of Innovations - II
Link NOC:Consumer Behaviour Lecture 31 - Influencing Factors for Adoption and Opinion Leadership
Link NOC:Consumer Behaviour Lecture 32 - Consumer Decision Making
Link NOC:Consumer Behaviour Lecture 33 - Consumer Black Box Model
Link NOC:Consumer Behaviour Lecture 34 - Models of Consumer Behaviour - I
Link NOC:Consumer Behaviour Lecture 35 - Models of Consumer Behaviour - II
Link NOC:Consumer Behaviour Lecture 36 - Models of Consumer Behaviour - III
Link NOC:Consumer Behaviour Lecture 37 - Models of Consumer Behaviour - IV
Link NOC:Consumer Behaviour Lecture 38 - Organisational Buying Behaviour - I
Link NOC:Consumer Behaviour Lecture 39 - Organisational Buying Behaviour - II
Link NOC:Consumer Behaviour Lecture 40 - Dimensions of Consumer Research
Link NOC:Foundation Course in Managerial Economics Lecture 1 - Principles of Economics
Link NOC:Foundation Course in Managerial Economics Lecture 2 - Demand - Supply Framework
Link NOC:Foundation Course in Managerial Economics Lecture 3 - Determinants of Demand
Link NOC:Foundation Course in Managerial Economics Lecture 4 - Supply Curve, Determinants of Supply Curve
Link NOC:Foundation Course in Managerial Economics Lecture 5 - Demand Supply Equilibrium
Link NOC:Foundation Course in Managerial Economics Lecture 6 - Elasticity of Demand and Supply
Link NOC:Foundation Course in Managerial Economics Lecture 7 - Determinants of Elasticity of Demand
Link NOC:Foundation Course in Managerial Economics Lecture 8 - Elasticity and Revenue
Link NOC:Foundation Course in Managerial Economics Lecture 9 - Elasticity of Supply
Link NOC:Foundation Course in Managerial Economics Lecture 10 - Demand Supply and Government Policies
Link NOC:Foundation Course in Managerial Economics Lecture 11 - Demand Supply and Government Policies (Continued...)
Link NOC:Foundation Course in Managerial Economics Lecture 12 - Taxes and Demand and Supply Framework
Link NOC:Foundation Course in Managerial Economics Lecture 13 - Elasticity and Taxes
Link NOC:Foundation Course in Managerial Economics Lecture 14 - Efficiency and Market Equilibrium
Link NOC:Foundation Course in Managerial Economics Lecture 15 - Production and Cost
Link NOC:Foundation Course in Managerial Economics Lecture 16 - Costs
Link NOC:Foundation Course in Managerial Economics Lecture 17 - Cost Curves
Link NOC:Foundation Course in Managerial Economics Lecture 18 - LR and SR Cost Curves
Link NOC:Foundation Course in Managerial Economics Lecture 19 - Market Structures
Link NOC:Foundation Course in Managerial Economics Lecture 20 - Perfect Competition
Link NOC:Foundation Course in Managerial Economics Lecture 21 - Perfect Competition and Profit Maximization
Link NOC:Foundation Course in Managerial Economics Lecture 22 - Suppy Curve of Firm in Perfect Competition
Link NOC:Foundation Course in Managerial Economics Lecture 23 - Supply Curve of Market in Perfect Competition
Link NOC:Foundation Course in Managerial Economics Lecture 24 - Market Supply (Continued...)
Link NOC:Foundation Course in Managerial Economics Lecture 25 - Monopoly
Link NOC:Foundation Course in Managerial Economics Lecture 26 - Monopoly - Determination of Price and Quality
Link NOC:Foundation Course in Managerial Economics Lecture 27 - Monopoly - Supply and Efficiency
Link NOC:Foundation Course in Managerial Economics Lecture 28 - Price Discrimination
Link NOC:Foundation Course in Managerial Economics Lecture 29 - Public Policy and Regulation
Link NOC:Foundation Course in Managerial Economics Lecture 30 - Monopolistic Competition
Link NOC:Foundation Course in Managerial Economics Lecture 31 - Monopolistic Competition - Determining P and K
Link NOC:Foundation Course in Managerial Economics Lecture 32 - Monopolistic Competition - Efficiency and Welfare
Link NOC:Foundation Course in Managerial Economics Lecture 33 - Monopolistic Competition - Advertising
Link NOC:Foundation Course in Managerial Economics Lecture 34 - Oligopoly
Link NOC:Foundation Course in Managerial Economics Lecture 35 - Oligopoly - Determining P and Q
Link NOC:Foundation Course in Managerial Economics Lecture 36 - Oligopoly - P and Q Outcomes with Example
Link NOC:Foundation Course in Managerial Economics Lecture 37 - Difference between Market Outcomes
Link NOC:Foundation Course in Managerial Economics Lecture 38 - Oligopoly - Game Theory
Link NOC:Foundation Course in Managerial Economics Lecture 39 - Oligopoly - Game Theory (Continued...)
Link NOC:Foundation Course in Managerial Economics Lecture 40 - Oligopoly Pricing
Link NOC:Foundation Course in Managerial Economics Lecture 41 - Public Policy in Oligopoly
Link NOC:Knowledge Management Lecture 1 - Introduction to KM
Link NOC:Knowledge Management Lecture 2 - Introduction to KM (Continued...)
Link NOC:Knowledge Management Lecture 3 - Why KM ?
Link NOC:Knowledge Management Lecture 4 - KM System Life Cycle (KSLC)
Link NOC:Knowledge Management Lecture 5 - Aligning KM and business strategy
Link NOC:Knowledge Management Lecture 6 - Process and models of KM cycle
Link NOC:Knowledge Management Lecture 7 - Process and models of KM cycle (Continued...)
Link NOC:Knowledge Management Lecture 8 - Knowledge creation and architecture
Link NOC:Knowledge Management Lecture 9 - Capturing tacit knowledge
Link NOC:Knowledge Management Lecture 10 - Capturing tacit knowledge (Continued...)
Link NOC:Knowledge Management Lecture 11 - Knowledge codification
Link NOC:Knowledge Management Lecture 12 - Knowledge codification
Link NOC:Knowledge Management Lecture 13 - System development: system testing and deployment
Link NOC:Knowledge Management Lecture 14 - System development: system testing and deployment (Continued...)
Link NOC:Knowledge Management Lecture 15 - Knowledge transfer and knowledge sharing
Link NOC:Knowledge Management Lecture 16 - Knowledge infrastructure
Link NOC:Knowledge Management Lecture 17 - Knowledge infrastructure (Continued...)
Link NOC:Knowledge Management Lecture 18 - Knowledge audit
Link NOC:Knowledge Management Lecture 19 - The knowledge team
Link NOC:Knowledge Management Lecture 20 - The knowledge team (Continued...)
Link NOC:Knowledge Management Lecture 21 - Analysis, design of KM system
Link NOC:Knowledge Management Lecture 22 - Analysis, design of KM system
Link NOC:Knowledge Management Lecture 23 - Developing the KM system
Link NOC:Knowledge Management Lecture 24 - Prototyping and deployment
Link NOC:Knowledge Management Lecture 25 - Prototyping and deployment
Link NOC:Knowledge Management Lecture 26 - Inferences from data
Link NOC:Knowledge Management Lecture 27 - Inferences from data
Link NOC:Knowledge Management Lecture 28 - Data mining
Link NOC:Knowledge Management Lecture 29 - Data Management
Link NOC:Knowledge Management Lecture 30 - Knowledge portals
Link NOC:Knowledge Management Lecture 31 - Evaluation of KM effectiveness: Tools and
Link NOC:Knowledge Management Lecture 32 - Metrics
Link NOC:Knowledge Management Lecture 33 - Legal issues
Link NOC:Knowledge Management Lecture 34 - Ethical Issues
Link NOC:Knowledge Management Lecture 35 - Managerial issues
Link NOC:Knowledge Management Lecture 36 - KM. Experiences form Indian companies
Link NOC:Knowledge Management Lecture 37 - KM practices of select industries
Link NOC:Knowledge Management Lecture 38 - KM practices of select industries
Link NOC:Knowledge Management Lecture 39 - Linking KM with innovation and learning organization
Link NOC:Knowledge Management Lecture 40 - Future of KM
Link NOC:Services Marketing: A Practical Approach Lecture 1 - Introduction
Link NOC:Services Marketing: A Practical Approach Lecture 2 - Why Study Services Marketing Management?
Link NOC:Services Marketing: A Practical Approach Lecture 3 - The Service System
Link NOC:Services Marketing: A Practical Approach Lecture 4 - Characteristics of Services
Link NOC:Services Marketing: A Practical Approach Lecture 5 - Understanding the Macro-Environment - I
Link NOC:Services Marketing: A Practical Approach Lecture 6 - Understanding the Macro-Environment - II
Link NOC:Services Marketing: A Practical Approach Lecture 7 - Understanding the Macro-Environment - III and Understanding the Micro-Environment - I
Link NOC:Services Marketing: A Practical Approach Lecture 8 - Understanding the Micro-Environment - II
Link NOC:Services Marketing: A Practical Approach Lecture 9 - Services Marketing Process
Link NOC:Services Marketing: A Practical Approach Lecture 10 - Exploring Marketing Oppurtunities - I
Link NOC:Services Marketing: A Practical Approach Lecture 11 - Exploring Marketing Oppurtunities - II
Link NOC:Services Marketing: A Practical Approach Lecture 12 - Segmenting the Market, Targeting and Positioning
Link NOC:Services Marketing: A Practical Approach Lecture 13 - Services Marketing Research
Link NOC:Services Marketing: A Practical Approach Lecture 14 - Understanding Consumer Behaviour
Link NOC:Services Marketing: A Practical Approach Lecture 15 - New Service Development
Link NOC:Services Marketing: A Practical Approach Lecture 16 - The Service Product
Link NOC:Services Marketing: A Practical Approach Lecture 17 - Service Quality - I
Link NOC:Services Marketing: A Practical Approach Lecture 18 - Service Quality - II
Link NOC:Services Marketing: A Practical Approach Lecture 19 - Designing the Service Process - I
Link NOC:Services Marketing: A Practical Approach Lecture 20 - Designing the Service Process - II
Link NOC:Services Marketing: A Practical Approach Lecture 21 - Developing Service Personnel
Link NOC:Services Marketing: A Practical Approach Lecture 22 - Educating Customers
Link NOC:Services Marketing: A Practical Approach Lecture 23 - Managing Service Delivery Channels
Link NOC:Services Marketing: A Practical Approach Lecture 24 - Managing Channel Conflict
Link NOC:Services Marketing: A Practical Approach Lecture 25 - Managing Demand and Capacity - I
Link NOC:Services Marketing: A Practical Approach Lecture 26 - Managing Demand and Capacity - II
Link NOC:Services Marketing: A Practical Approach Lecture 27 - Designing the Physical Evidence
Link NOC:Services Marketing: A Practical Approach Lecture 28 - Managing Integrated Marketing Communications - I
Link NOC:Services Marketing: A Practical Approach Lecture 29 - Managing Integrated Marketing Communications - II
Link NOC:Services Marketing: A Practical Approach Lecture 30 - Pricing the Service
Link NOC:Services Marketing: A Practical Approach Lecture 31 - Managing Customers
Link NOC:Services Marketing: A Practical Approach Lecture 32 - Managing Service Recovery
Link NOC:Services Marketing: A Practical Approach Lecture 33 - Providing Service Guarantees
Link NOC:Services Marketing: A Practical Approach Lecture 34 - Consumer Protection
Link NOC:Services Marketing: A Practical Approach Lecture 35 - Case Study - I
Link NOC:Services Marketing: A Practical Approach Lecture 36 - Case Study - II
Link NOC:Services Marketing: A Practical Approach Lecture 37 - Case Study - III
Link NOC:Services Marketing: A Practical Approach Lecture 38 - Case Study - IV
Link NOC:Services Marketing: A Practical Approach Lecture 39 - Case Study - V
Link NOC:Business Ethics Lecture 1 - What is Business Ethics? Why Business Ethics is important?
Link NOC:Business Ethics Lecture 2 - Business Ethics in different organizational contexts
Link NOC:Business Ethics Lecture 3 - Globalization: a key context for Business Ethics
Link NOC:Business Ethics Lecture 4 - Sustainability: a key goal for Business Ethics
Link NOC:Business Ethics Lecture 5 - What is Corporation?
Link NOC:Business Ethics Lecture 6 - Corporate Social Responsibility
Link NOC:Business Ethics Lecture 7 - Stakeholder theory of the firm
Link NOC:Business Ethics Lecture 8 - Corporate accountability
Link NOC:Business Ethics Lecture 9 - Corporate citizenship
Link NOC:Business Ethics Lecture 10 - Normative ethical theories and descriptive ethical theories, western modernist ethical theories
Link NOC:Business Ethics Lecture 11 - Western modernist ethical theories (Continued...)
Link NOC:Business Ethics Lecture 12 - Alternative perspectives on ethical theories
Link NOC:Business Ethics Lecture 13 - Indian perspective on Ethics
Link NOC:Business Ethics Lecture 14 - Models of ethical decision making and individual influences on ethical decision making
Link NOC:Business Ethics Lecture 15 - Situational influences on ethical decision making
Link NOC:Business Ethics Lecture 16 - Case Study 1
Link NOC:Business Ethics Lecture 17 - What is Business Ethics Management?
Link NOC:Business Ethics Lecture 18 - Setting standards of ethical behavior
Link NOC:Business Ethics Lecture 19 - Managing stakeholder relationship
Link NOC:Business Ethics Lecture 20 - Assessing ethical performance
Link NOC:Business Ethics Lecture 21 - Organizing for business ethics
Link NOC:Business Ethics Lecture 22 - Shareholders as stakeholders: understanding Corporate Governance
Link NOC:Business Ethics Lecture 23 - Ethical issues in corporate governance
Link NOC:Business Ethics Lecture 24 - Shareholders as citizens of corporation
Link NOC:Business Ethics Lecture 25 - Shareholding for sustainability
Link NOC:Business Ethics Lecture 26 - Financial Management: Overview and perspective
Link NOC:Business Ethics Lecture 27 - Models of organizations
Link NOC:Business Ethics Lecture 28 - Firm-employee relationship
Link NOC:Business Ethics Lecture 29 - Firm-employee relationship (Continued...)
Link NOC:Business Ethics Lecture 30 - Globalization and employment
Link NOC:Business Ethics Lecture 31 - Towards sustainable employment
Link NOC:Business Ethics Lecture 32 - Case Study 2
Link NOC:Business Ethics Lecture 33 - Consumers as stakeholders
Link NOC:Business Ethics Lecture 34 - Ethical issues, marketing and the consumer
Link NOC:Business Ethics Lecture 35 - Globalization and consumers
Link NOC:Business Ethics Lecture 36 - Consumers and corporate citizenship
Link NOC:Business Ethics Lecture 37 - Sustainable consumption
Link NOC:Business Ethics Lecture 38 - Suppliers and competitors as stakeholders
Link NOC:Business Ethics Lecture 39 - Ethical issues and competitors
Link NOC:Business Ethics Lecture 40 - Globalization, suppliers and competitors
Link NOC:Business Ethics Lecture 41 - The corporate citizen in the business community
Link NOC:Business Ethics Lecture 42 - Sustainability and business relationship
Link NOC:Business Ethics Lecture 43 - Civil society and business ethics
Link NOC:Business Ethics Lecture 44 - Ethical issues and CSOs
Link NOC:Business Ethics Lecture 45 - Globalization and CSOs
Link NOC:Business Ethics Lecture 46 - Corporate citizenship and civil society
Link NOC:Business Ethics Lecture 47 - Civil society, business and sustainability
Link NOC:Business Ethics Lecture 48 - Government, regulation and business ethics
Link NOC:Business Ethics Lecture 49 - Ethical issues in the relation between business and government
Link NOC:Business Ethics Lecture 50 - Globalization and business-government relations
Link NOC:Business Ethics Lecture 51 - Corporate citizenship and regulation
Link NOC:Business Ethics Lecture 52 - Governments, business and sustainability
Link NOC:Business Ethics Lecture 53 - Case Study 3
Link NOC:Business Ethics Lecture 54 - Environment and business ethics
Link NOC:Business Ethics Lecture 55 - Ethics of pollution control
Link NOC:Business Ethics Lecture 56 - Ethics of conserving depletable resources
Link NOC:Business Ethics Lecture 57 - Sustainability
Link NOC:Business Ethics Lecture 58 - Information technology and business ethics
Link NOC:Business Ethics Lecture 59 - Data identity and security
Link NOC:Business Ethics Lecture 60 - Computer crimes and IPR
Link NOC:Business Ethics Lecture 61 - TRIPS in India
Link NOC:Gender Justice and Workplace Security Lecture 1 - Introduction to Gender Justice
Link NOC:Gender Justice and Workplace Security Lecture 2 - Introduction to Gender Justice (Continued...)
Link NOC:Gender Justice and Workplace Security Lecture 3 - Introduction to Gender Justice (Continued...)
Link NOC:Gender Justice and Workplace Security Lecture 4 - Introduction to Gender Justice (Continued...)
Link NOC:Gender Justice and Workplace Security Lecture 5 - International and Constitutional Perspectives
Link NOC:Gender Justice and Workplace Security Lecture 6 - International Perspectives
Link NOC:Gender Justice and Workplace Security Lecture 7 - Constitutional Perspectives
Link NOC:Gender Justice and Workplace Security Lecture 8 - Constitutional Perspectives (Continued...)
Link NOC:Gender Justice and Workplace Security Lecture 9 - Constitutional Perspectives (Continued...)
Link NOC:Gender Justice and Workplace Security Lecture 10 - Women at workplace
Link NOC:Gender Justice and Workplace Security Lecture 11 - Women at workplace (Continued...)
Link NOC:Gender Justice and Workplace Security Lecture 12 - Women at workplace (Continued...)
Link NOC:Gender Justice and Workplace Security Lecture 13 - Women at workplace (Continued...)
Link NOC:Gender Justice and Workplace Security Lecture 14 - Gender Violence- Within and Beyond
Link NOC:Gender Justice and Workplace Security Lecture 15 - Gender Violence- Within and Beyond (Continued...)
Link NOC:Gender Justice and Workplace Security Lecture 16 - Gender Violence- Within and Beyond (Continued...)
Link NOC:Gender Justice and Workplace Security Lecture 17 - Gender Violence- Within and Beyond (Continued...)
Link NOC:Gender Justice and Workplace Security Lecture 18 - Gender Violence- Within and Beyond (Continued...)
Link NOC:Gender Justice and Workplace Security Lecture 19 - Role of different agencies
Link NOC:Gender Justice and Workplace Security Lecture 20 - Role of different agencies (Continued...)
Link NOC:Corporate Social Responsibility Lecture 1 - Introduction to the Course
Link NOC:Corporate Social Responsibility Lecture 2 - What is CSR?
Link NOC:Corporate Social Responsibility Lecture 3 - Why CSR?
Link NOC:Corporate Social Responsibility Lecture 4 - Theories of CSR
Link NOC:Corporate Social Responsibility Lecture 5 - Theories of CSR (Continued...)
Link NOC:Corporate Social Responsibility Lecture 6 - Theories of CSR (Continued...)
Link NOC:Corporate Social Responsibility Lecture 7 - Evolution of CSR
Link NOC:Corporate Social Responsibility Lecture 8 - Evolution of CSR (Continued...)
Link NOC:Corporate Social Responsibility Lecture 9 - CSR-Global Timeline
Link NOC:Corporate Social Responsibility Lecture 10 - CSR-Global Timeline (Continued...)
Link NOC:Corporate Social Responsibility Lecture 11 - CSR in India
Link NOC:Corporate Social Responsibility Lecture 12 - CSR in India (Continued...)
Link NOC:Corporate Social Responsibility Lecture 13 - Who are Stakeholders?
Link NOC:Corporate Social Responsibility Lecture 14 - The Stakeholder Approach
Link NOC:Corporate Social Responsibility Lecture 15 - Stakeholders and CSR
Link NOC:Corporate Social Responsibility Lecture 16 - Stakeholders Theory Perspectives
Link NOC:Corporate Social Responsibility Lecture 17 - Stakeholder Theory in Action
Link NOC:Corporate Social Responsibility Lecture 18 - Stakeholder Identification
Link NOC:Corporate Social Responsibility Lecture 19 - Stakeholder Salience
Link NOC:Corporate Social Responsibility Lecture 20 - Stakeholder Management
Link NOC:Corporate Social Responsibility Lecture 21 - Stakeholder Dialogue
Link NOC:Corporate Social Responsibility Lecture 22 - Management of Stakeholder Diaglogue
Link NOC:Corporate Social Responsibility Lecture 23 - Planning of CSR Activities: Responsibility Paradigms
Link NOC:Corporate Social Responsibility Lecture 24 - CSR Design and Implementation: Stakeholder Integration
Link NOC:Corporate Social Responsibility Lecture 25 - CSR Design and Implementation: Stakeholder Integration (Continued...)
Link NOC:Corporate Social Responsibility Lecture 26 - CSR Activities: Corporate Social Performance
Link NOC:Corporate Social Responsibility Lecture 27 - CSR Design and Implementation: CSR Process
Link NOC:Corporate Social Responsibility Lecture 28 - CSR Activities
Link NOC:Corporate Social Responsibility Lecture 29 - Bases for Evaluation of CSR Activities
Link NOC:Corporate Social Responsibility Lecture 30 - Measurement of CSR: Sustainability Indexes
Link NOC:Corporate Social Responsibility Lecture 31 - An Example of CSR Evaluation: RobecoSAM Sustainability Index
Link NOC:Corporate Social Responsibility Lecture 32 - CSR in India
Link NOC:Corporate Social Responsibility Lecture 33 - What is Corporate Governance?
Link NOC:Corporate Social Responsibility Lecture 34 - Theories of Corporate Governance
Link NOC:Corporate Social Responsibility Lecture 35 - Why Corporate Governance?
Link NOC:Corporate Social Responsibility Lecture 36 - Models and Systems of Corporate Governance
Link NOC:Corporate Social Responsibility Lecture 37 - Implementing Corporate Governance
Link NOC:Corporate Social Responsibility Lecture 38 - Board of Directors
Link NOC:Corporate Social Responsibility Lecture 39 - Board of Directors (Continued...)
Link NOC:Corporate Social Responsibility Lecture 40 - Principles of Corporate Governance
Link NOC:Corporate Social Responsibility Lecture 41 - Corporate Governance and Corporate Social Responsibility
Link NOC:Corporate Social Responsibility Lecture 42 - Corporate Governance and Corporate Social Responsibility (Continued...)
Link NOC:Corporate Social Responsibility Lecture 43 - What is Corporate Citizenship?
Link NOC:Corporate Social Responsibility Lecture 44 - Stages of Corporate Citizenship
Link NOC:Corporate Social Responsibility Lecture 45 - Why Corporate Citizenship?
Link NOC:Corporate Social Responsibility Lecture 46 - Corporate Citizenship and CSR
Link NOC:Corporate Social Responsibility Lecture 47 - What is Sustainable Development?
Link NOC:Corporate Social Responsibility Lecture 48 - Corporate Sustainability and CSR
Link NOC:Corporate Social Responsibility Lecture 49 - Integration of Corporate Sustainability with CSR
Link NOC:Corporate Social Responsibility Lecture 50 - Integration of Corporate Sustainability with CSR (Continued...)
Link NOC:Corporate Social Responsibility Lecture 51 - SDG Compass
Link NOC:Corporate Social Responsibility Lecture 52 - SDG Compass (Continued...)
Link NOC:Corporate Social Responsibility Lecture 53 - CSR Public Policies: Lessons from Europe
Link NOC:Corporate Social Responsibility Lecture 54 - CSR Public Policies: Lessons from Europe (Continued...)
Link NOC:Corporate Social Responsibility Lecture 55 - Consumer Social Responsibility (CnSR)
Link NOC:Corporate Social Responsibility Lecture 56 - Corporate Social Irresponsibility (CSiR)
Link NOC:Corporate Social Responsibility Lecture 57 - Future of CSR
Link NOC:Corporate Social Responsibility Lecture 58 - Wrap-Up
Link NOC:Decision Modeling Lecture 1 - Decision Analysis: Introduction (Repplace with the new one)
Link NOC:Decision Modeling Lecture 2 - Payoff Matrix
Link NOC:Decision Modeling Lecture 3 - Decision Making Under Risk
Link NOC:Decision Modeling Lecture 4 - Value of Information
Link NOC:Decision Modeling Lecture 5 - Probability Concepts
Link NOC:Decision Modeling Lecture 6 - Bayes Theorem
Link NOC:Decision Modeling Lecture 7 - Decision Tree
Link NOC:Decision Modeling Lecture 8 - Decision Problem with Experimentation
Link NOC:Decision Modeling Lecture 9 - Decision Problem with Experimentation (Continued...)
Link NOC:Decision Modeling Lecture 10 - Decision Problem Example
Link NOC:Decision Modeling Lecture 11 - Introduction to Waiting Lines
Link NOC:Decision Modeling Lecture 12 - Poisson and Exponential Distribution
Link NOC:Decision Modeling Lecture 13 - Birth and Death Process
Link NOC:Decision Modeling Lecture 14 - M/M/1 Queing Model
Link NOC:Decision Modeling Lecture 15 - Queuing Examples
Link NOC:Decision Modeling Lecture 16 - Queuing Examples (Continued...)
Link NOC:Decision Modeling Lecture 17 - M/D/1 and M/M/s Queuing Models
Link NOC:Decision Modeling Lecture 18 - M/M/s and M/M/infinity Models
Link NOC:Decision Modeling Lecture 19 - Finite Queue Space and Queuing Cost Models
Link NOC:Decision Modeling Lecture 20 - Queuing Cost, Priority and Networking Models
Link NOC:Decision Modeling Lecture 21 - Introduction to Simulation
Link NOC:Decision Modeling Lecture 22 - Discrete-Event and Monte-Carlo Simulation
Link NOC:Decision Modeling Lecture 23 - Pseudo random Numbers
Link NOC:Decision Modeling Lecture 24 - Simulation Examples
Link NOC:Decision Modeling Lecture 25 - Generation of Random Variates
Link NOC:Decision Modeling Lecture 26 - Simulation Examples (Continued...)
Link NOC:Decision Modeling Lecture 27 - Monte-Carlo Simulation and Output Analysis
Link NOC:Decision Modeling Lecture 28 - Variance Reduction and Simulation Software
Link NOC:Decision Modeling Lecture 29 - Continuous Simulation and System Dynamics
Link NOC:Decision Modeling Lecture 30 - System Dynamics Example
Link NOC:Decision Modeling Lecture 31 - Introduction to Graph Theory
Link NOC:Decision Modeling Lecture 32 - Introduction (Continued...)
Link NOC:Decision Modeling Lecture 33 - Operations on a Graph, Tree and Spanning Tree
Link NOC:Decision Modeling Lecture 34 - Minimal Spanning Tree
Link NOC:Decision Modeling Lecture 35 - Cutsets
Link NOC:Decision Modeling Lecture 36 - Fundamental Circuits and Network Simplex Method
Link NOC:Decision Modeling Lecture 37 - Maximal Flow Problems
Link NOC:Decision Modeling Lecture 38 - Maximal Flow Problems (Continued...)
Link NOC:Decision Modeling Lecture 39 - Shortest Path Problems
Link NOC:Decision Modeling Lecture 40 - Shortest Path Problems (Continued...)
Link NOC:E-Business Lecture 1 - Introduction
Link NOC:E-Business Lecture 2 - Types of e-business transactions
Link NOC:E-Business Lecture 3 - Business Models on the web
Link NOC:E-Business Lecture 4 - Business Models on the web (Continued...)
Link NOC:E-Business Lecture 5 - Innovative E-Business models for Bricks and Mortar firms
Link NOC:E-Business Lecture 6 - Inter and Intra Organizational Business Processes
Link NOC:E-Business Lecture 7 - Information system foundations
Link NOC:E-Business Lecture 8 - Types of business information system
Link NOC:E-Business Lecture 9 - Decision support for the management
Link NOC:E-Business Lecture 10 - Enterprise Resource planning
Link NOC:E-Business Lecture 11 - Connecting with stakeholders
Link NOC:E-Business Lecture 12 - E-procurement - Reengineering the traditional procurement process
Link NOC:E-Business Lecture 13 - E-procurement - New paradigms in the procurement process
Link NOC:E-Business Lecture 14 - E-procurement - e-procurement Implementation issues and risks
Link NOC:E-Business Lecture 15 - Customer relationship management
Link NOC:E-Business Lecture 16 - E-Marketing
Link NOC:E-Business Lecture 17 - E-Marketing (Continued...)
Link NOC:E-Business Lecture 18 - Supply Chain Management - I - The Information flow
Link NOC:E-Business Lecture 19 - Supply Chain Management - II - Tntegration
Link NOC:E-Business Lecture 20 - Supply Chain Management - III - Interoperability
Link NOC:E-Business Lecture 21 - Supply Chain Management - IV - Logistics and distribution
Link NOC:E-Business Lecture 22 - Supply Chain Management - V - E-Commerce supply chain
Link NOC:E-Business Lecture 23 - Components of E-Business Infrastructure
Link NOC:E-Business Lecture 24 - Internet and the Web
Link NOC:E-Business Lecture 25 - Networking resources
Link NOC:E-Business Lecture 26 - Hardware and software resources
Link NOC:E-Business Lecture 27 - Data resources
Link NOC:E-Business Lecture 28 - Security categories
Link NOC:E-Business Lecture 29 - Security terminologies
Link NOC:E-Business Lecture 30 - Digital signature
Link NOC:E-Business Lecture 31 - Protocols for security: TLS
Link NOC:E-Business Lecture 32 - Impact of security protocol on server performance
Link NOC:E-Business Lecture 33 - Digital Payment systems
Link NOC:E-Business Lecture 34 - Interoperability of information system
Link NOC:E-Business Lecture 35 - Electronic data interchange (EDI)
Link NOC:E-Business Lecture 36 - Fundamentals of web services
Link NOC:E-Business Lecture 37 - Fundamentals of cloud based systems
Link NOC:E-Business Lecture 38 - Automatic data capture using RFID
Link NOC:E-Business Lecture 39 - Automatic data capture using RFID and its applications
Link NOC:E-Business Lecture 40 - Automatic data capture using RFID and its applications (Continued...)
Link NOC:E-Business Lecture 41 - GPS and GIS in supply chain
Link NOC:E-Business Lecture 42 - Sensors and IOT: Traceability Across the supply chain
Link NOC:E-Business Lecture 43 - Business Analytics and Big data
Link NOC:E-Business Lecture 44 - Decision support Concepts
Link NOC:E-Business Lecture 45 - Understanding the web log - I
Link NOC:E-Business Lecture 46 - Understanding the web log - II
Link NOC:E-Business Lecture 47 - Using the Web log: Web usage mining
Link NOC:E-Business Lecture 48 - User behaviour modelling from web log
Link NOC:E-Business Lecture 49 - User behaviour modelling from web log (Continued...)
Link NOC:E-Business Lecture 50 - E-Business Capacity Planning
Link NOC:E-Business Lecture 51 - E-Business Capacity Planning (Continued...)
Link NOC:E-Business Lecture 52 - Introduction to Recommender System
Link NOC:E-Business Lecture 53 - Content Based Recommender System
Link NOC:E-Business Lecture 54 - Collaborative Filtering Based Recommender System
Link NOC:E-Business Lecture 55 - Association and Demographics Based Recommended System
Link NOC:E-Business Lecture 56 - Dynamic Pricing
Link NOC:E-Business Lecture 57 - Introduction to Auction
Link NOC:E-Business Lecture 58 - Economic Considerations in Auction
Link NOC:E-Business Lecture 59 - Winner Determination Problem
Link NOC:E-Business Lecture 60 - Online auction issues
Link NOC:Design and Analysis of Experiments Lecture 1
Link NOC:Design and Analysis of Experiments Lecture 2
Link NOC:Design and Analysis of Experiments Lecture 3
Link NOC:Design and Analysis of Experiments Lecture 4
Link NOC:Design and Analysis of Experiments Lecture 5
Link NOC:Design and Analysis of Experiments Lecture 6
Link NOC:Design and Analysis of Experiments Lecture 7
Link NOC:Design and Analysis of Experiments Lecture 8
Link NOC:Design and Analysis of Experiments Lecture 9
Link NOC:Design and Analysis of Experiments Lecture 10
Link NOC:Design and Analysis of Experiments Lecture 11
Link NOC:Design and Analysis of Experiments Lecture 12
Link NOC:Design and Analysis of Experiments Lecture 13
Link NOC:Design and Analysis of Experiments Lecture 14
Link NOC:Design and Analysis of Experiments Lecture 15
Link NOC:Design and Analysis of Experiments Lecture 16
Link NOC:Design and Analysis of Experiments Lecture 17
Link NOC:Design and Analysis of Experiments Lecture 18
Link NOC:Design and Analysis of Experiments Lecture 19
Link NOC:Design and Analysis of Experiments Lecture 20
Link NOC:Design and Analysis of Experiments Lecture 21
Link NOC:Design and Analysis of Experiments Lecture 22
Link NOC:Design and Analysis of Experiments Lecture 23
Link NOC:Design and Analysis of Experiments Lecture 24
Link NOC:Design and Analysis of Experiments Lecture 25
Link NOC:Design and Analysis of Experiments Lecture 26
Link NOC:Design and Analysis of Experiments Lecture 27
Link NOC:Design and Analysis of Experiments Lecture 28
Link NOC:Design and Analysis of Experiments Lecture 29
Link NOC:Design and Analysis of Experiments Lecture 30 - Introduction to Factorial Experiments
Link NOC:Design and Analysis of Experiments Lecture 31 - Statistical Analysis of Factorial Experiments
Link NOC:Design and Analysis of Experiments Lecture 32 - Estimation of parameters and model adequacy test for factorial experiement
Link NOC:Design and Analysis of Experiments Lecture 33 - Full_Factorial_Single_Replicate
Link NOC:Design and Analysis of Experiments Lecture 34 - General_Full_factorial_design
Link NOC:Design and Analysis of Experiments Lecture 35 - Blocking_Factorial_design
Link NOC:Design and Analysis of Experiments Lecture 36 - Two_level_Factorial_Experiment
Link NOC:Design and Analysis of Experiments Lecture 37 - Statistical analysis of 2^k factorial design
Link NOC:Design and Analysis of Experiments Lecture 38 - 2_k_Factorial_Design_Single_Replicate
Link NOC:Design and Analysis of Experiments Lecture 39 - 2_k_Factorial_Design_Centre_Points
Link NOC:Design and Analysis of Experiments Lecture 40 - 2_k_Factorial_Design_Optimality_Issues
Link NOC:Design and Analysis of Experiments Lecture 41 - 2_k_ Factorial Design - Issues with Coded Design Variables
Link NOC:Design and Analysis of Experiments Lecture 42 - Blocking and Confounding in 2_k_Factorial Design
Link NOC:Design and Analysis of Experiments Lecture 43 - Blocking and Confounding in 2_k_Factorial Design (Continued...)
Link NOC:Design and Analysis of Experiments Lecture 44 - Blocking and Confounding in 2_k_Factorial Design (Continued...)
Link NOC:Design and Analysis of Experiments Lecture 45 - Fractional factorial design: Introduction
Link NOC:Design and Analysis of Experiments Lecture 46 - Fractional factorial design: Continued...
Link NOC:Design and Analysis of Experiments Lecture 47 - Fractional factorial design: One quarter fraction of the 2k design
Link NOC:Design and Analysis of Experiments Lecture 48 - Alias Structure in Fractional factorial design: Regression Approach
Link NOC:Design and Analysis of Experiments Lecture 49 - General 2^(k-p) Fractional Factorial Design
Link NOC:Design and Analysis of Experiments Lecture 50 - Fractional factorial design: Fold-over Design
Link NOC:Design and Analysis of Experiments Lecture 51 - Plackett-Burman Designs
Link NOC:Design and Analysis of Experiments Lecture 52 - Response Surface Methodology (RSM) - First Order Model
Link NOC:Design and Analysis of Experiments Lecture 53 - Response Surface Methodology (RSM) - First Order Model (Continued...)
Link NOC:Design and Analysis of Experiments Lecture 54 - Experimental Design for Fitting Response Surfaces
Link NOC:Design and Analysis of Experiments Lecture 55 - Response Surface Methodology (RSM): Fitting Second Order Model
Link NOC:Design and Analysis of Experiments Lecture 56 - Analysis of Second Order Response Surface
Link NOC:Design and Analysis of Experiments Lecture 57 - ANOVA using MINITAB
Link NOC:Design and Analysis of Experiments Lecture 58 - Factorial Design using MINITAB
Link NOC:Design and Analysis of Experiments Lecture 59 - Fractional Factorial Design using MINITAB
Link NOC:Design and Analysis of Experiments Lecture 60 - Response Surface Methodology using MINITAB
Link NOC:Quality Design and Control Lecture 1 - History and Evolution of Quality Control and Management
Link NOC:Quality Design and Control Lecture 2 - History and Evolution of Quality Control and Management
Link NOC:Quality Design and Control Lecture 3 - History and Evolution of Quality Control and Management
Link NOC:Quality Design and Control Lecture 4 - History and Evolution of Quality Control and Management
Link NOC:Quality Design and Control Lecture 5 - History and Evolution of Quality Control and Management
Link NOC:Quality Design and Control Lecture 6 - Management of Quality - I
Link NOC:Quality Design and Control Lecture 7 - Management of Quality - I
Link NOC:Quality Design and Control Lecture 8 - Management of Quality - I
Link NOC:Quality Design and Control Lecture 9 - Management of Quality - I
Link NOC:Quality Design and Control Lecture 10 - Management of Quality - I
Link NOC:Quality Design and Control Lecture 11 - Management of Quality - II
Link NOC:Quality Design and Control Lecture 12 - Management of Quality - II
Link NOC:Quality Design and Control Lecture 13 - Management of Quality - II
Link NOC:Quality Design and Control Lecture 14 - Management of Quality - II
Link NOC:Quality Design and Control Lecture 15 - Management of Quality - II
Link NOC:Quality Design and Control Lecture 16 - Statistical Process Control - I
Link NOC:Quality Design and Control Lecture 17 - Statistical Process Control - I
Link NOC:Quality Design and Control Lecture 18 - Statistical Process Control - I
Link NOC:Quality Design and Control Lecture 19 - Statistical Process Control - I
Link NOC:Quality Design and Control Lecture 20 - Statistical Process Control - I
Link NOC:Quality Design and Control Lecture 21 - Statistical Process Control - II
Link NOC:Quality Design and Control Lecture 22 - Statistical Process Control - II (Continued...)
Link NOC:Quality Design and Control Lecture 23 - Statistical Process Control - II (Continued...)
Link NOC:Quality Design and Control Lecture 24 - Statistical Process Control - II (Continued...)
Link NOC:Quality Design and Control Lecture 25 - Statistical Process Control - II (Continued...)
Link NOC:Quality Design and Control Lecture 26 - Process Capability Analysis
Link NOC:Quality Design and Control Lecture 27 - Process Capability Analysis (Continued...)
Link NOC:Quality Design and Control Lecture 28 - Process Capability Analysis (Continued...)
Link NOC:Quality Design and Control Lecture 29 - Process Capability Analysis (Continued...)
Link NOC:Quality Design and Control Lecture 30 - Process Capability Analysis (Continued...)
Link NOC:Quality Design and Control Lecture 31 - Acceptance Sampling - I
Link NOC:Quality Design and Control Lecture 32 - Acceptance Sampling - I
Link NOC:Quality Design and Control Lecture 33 - Acceptance Sampling - I
Link NOC:Quality Design and Control Lecture 34 - Acceptance Sampling - I (Continued...)
Link NOC:Quality Design and Control Lecture 35 - Acceptance Sampling - I (Continued...)
Link NOC:Quality Design and Control Lecture 36 - Acceptance Sampling - II
Link NOC:Quality Design and Control Lecture 37 - Acceptance Sampling - II (Continued...)
Link NOC:Quality Design and Control Lecture 38 - Acceptance Sampling - II (Continued...)
Link NOC:Quality Design and Control Lecture 39 - Acceptance Sampling - II (Continued...)
Link NOC:Quality Design and Control Lecture 40 - Acceptance Sampling - II (Continued...)
Link NOC:Quality Design and Control Lecture 41 - Design for Reliability - I
Link NOC:Quality Design and Control Lecture 42 - Design for Reliability - I (Continued...)
Link NOC:Quality Design and Control Lecture 43 - Design for Reliability - I (Continued...)
Link NOC:Quality Design and Control Lecture 44 - Design for Reliability - I (Continued...)
Link NOC:Quality Design and Control Lecture 45 - Design for Reliability - I (Continued...)
Link NOC:Quality Design and Control Lecture 46 - Design for Reliability - II
Link NOC:Quality Design and Control Lecture 47 - Design for Reliability - II (Continued...)
Link NOC:Quality Design and Control Lecture 48 - Design for Reliability - II (Continued...)
Link NOC:Quality Design and Control Lecture 49 - Design for Reliability - II (Continued...)
Link NOC:Quality Design and Control Lecture 50 - Design for Reliability - II (Continued...)
Link NOC:Quality Design and Control Lecture 51 - Quality by Experimental Design
Link NOC:Quality Design and Control Lecture 52 - Quality by Experimental Design (Continued...)
Link NOC:Quality Design and Control Lecture 53 - Quality by Experimental Design (Continued...)
Link NOC:Quality Design and Control Lecture 54 - Quality by Experimental Design (Continued...)
Link NOC:Quality Design and Control Lecture 55 - Quality by Experimental Design (Continued...)
Link NOC:Quality Design and Control Lecture 56 - Robust Design and Taguchi Method
Link NOC:Quality Design and Control Lecture 57 - Robust Design and Taguchi Method (Continued...)
Link NOC:Quality Design and Control Lecture 58 - Robust Design and Taguchi Method (Continued...)
Link NOC:Quality Design and Control Lecture 59 - Robust Design and Taguchi Method (Continued...)
Link NOC:Quality Design and Control Lecture 60 - Robust Design and Taguchi Method (Continued...)
Link NOC:Business Analytics for Management Decision Lecture 1
Link NOC:Business Analytics for Management Decision Lecture 2
Link NOC:Business Analytics for Management Decision Lecture 3
Link NOC:Business Analytics for Management Decision Lecture 4
Link NOC:Business Analytics for Management Decision Lecture 5
Link NOC:Business Analytics for Management Decision Lecture 6
Link NOC:Business Analytics for Management Decision Lecture 7
Link NOC:Business Analytics for Management Decision Lecture 8
Link NOC:Business Analytics for Management Decision Lecture 9
Link NOC:Business Analytics for Management Decision Lecture 10
Link NOC:Business Analytics for Management Decision Lecture 11
Link NOC:Business Analytics for Management Decision Lecture 12
Link NOC:Business Analytics for Management Decision Lecture 13
Link NOC:Business Analytics for Management Decision Lecture 14
Link NOC:Business Analytics for Management Decision Lecture 15
Link NOC:Business Analytics for Management Decision Lecture 16 - Statistical inference
Link NOC:Business Analytics for Management Decision Lecture 17 - Testing of Hypothesis
Link NOC:Business Analytics for Management Decision Lecture 18 - Testing of Hypothesis (Continued...)
Link NOC:Business Analytics for Management Decision Lecture 19 - Confidence Interval
Link NOC:Business Analytics for Management Decision Lecture 20 - Confidence Interval 2
Link NOC:Business Analytics for Management Decision Lecture 21
Link NOC:Business Analytics for Management Decision Lecture 22
Link NOC:Business Analytics for Management Decision Lecture 23
Link NOC:Business Analytics for Management Decision Lecture 24
Link NOC:Business Analytics for Management Decision Lecture 25
Link NOC:Business Analytics for Management Decision Lecture 26
Link NOC:Business Analytics for Management Decision Lecture 27
Link NOC:Business Analytics for Management Decision Lecture 28
Link NOC:Business Analytics for Management Decision Lecture 29
Link NOC:Business Analytics for Management Decision Lecture 30
Link NOC:Business Analytics for Management Decision Lecture 31 - Dummy Modelling
Link NOC:Business Analytics for Management Decision Lecture 32 - Dummy Modelling (Continued...)
Link NOC:Business Analytics for Management Decision Lecture 33 - Panel Data Model
Link NOC:Business Analytics for Management Decision Lecture 34 - Panel Data Model (Continued...)
Link NOC:Business Analytics for Management Decision Lecture 35 - Time Series Forecasting
Link NOC:Business Analytics for Management Decision Lecture 36 - Time Series Forecasting (Continued...)
Link NOC:Business Analytics for Management Decision Lecture 37 - Machine Learning
Link NOC:Business Analytics for Management Decision Lecture 38 - Machine Learning (Continued...)
Link NOC:Business Analytics for Management Decision Lecture 39 - Data Mining
Link NOC:Business Analytics for Management Decision Lecture 40 - Simulation
Link NOC:Business Analytics for Management Decision Lecture 41 - Basics
Link NOC:Business Analytics for Management Decision Lecture 42 - Linear Programming 1
Link NOC:Business Analytics for Management Decision Lecture 43 - Linear Programming 2
Link NOC:Business Analytics for Management Decision Lecture 44 - Special Issues of Linear Programming
Link NOC:Business Analytics for Management Decision Lecture 45 - Simplex Method of Linear Programming
Link NOC:Business Analytics for Management Decision Lecture 46
Link NOC:Business Analytics for Management Decision Lecture 47
Link NOC:Business Analytics for Management Decision Lecture 48
Link NOC:Business Analytics for Management Decision Lecture 49
Link NOC:Business Analytics for Management Decision Lecture 50
Link NOC:Business Analytics for Management Decision Lecture 51
Link NOC:Business Analytics for Management Decision Lecture 52
Link NOC:Business Analytics for Management Decision Lecture 53
Link NOC:Business Analytics for Management Decision Lecture 54
Link NOC:Business Analytics for Management Decision Lecture 55
Link NOC:Business Analytics for Management Decision Lecture 56 - Introduction to decision theory
Link NOC:Business Analytics for Management Decision Lecture 57 - Decision making under uncertainty
Link NOC:Business Analytics for Management Decision Lecture 58 - Decision making under certainty
Link NOC:Business Analytics for Management Decision Lecture 59 - Decision tree
Link NOC:Business Analytics for Management Decision Lecture 60 - The value of information and utility theory
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 1 - Introduction to the Course
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 2 - Definition of Hard and Soft Skills
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 3 - Definition of Hard and Soft Skills
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 4 - Discussion on Soft Skills
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 5 - Discussion on Soft Skills (Continued...)
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 6 - Discussion on Soft Skills (Continued...)
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 7 - Discussion on Soft Skills (Continued...)
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 8 - Discussion on Soft Skills (Continued...)
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 9 - Discussion on Soft Skills (Continued...)
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 10 - Discussion on Soft Skills (Continued...)
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 11 - Discussion on Soft Skills (Continued...)
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 12 - Discussion on Soft Skills (Continued...)
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 13 - Discussion on Soft Skills (Continued...)
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 14 - Discussion on Soft Skills (Continued...)
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 15 - Discussion on Soft Skills (Continued...)
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 16 - Discussion on Soft Skills (Continued...)
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 17 - Discussion on Soft Skills (Continued...)
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 18 - Discussion on Soft Skills (Continued...)
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 19 - Discussion on Soft Skills (Continued...)
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 20 - Discussion on Soft Skills (Continued...)
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 21 - Discussion on Soft Skills (Continued...)
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 22 - Discussion on Soft Skills (Continued...)
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 23 - Communications - Verbal and Non-verbal
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 24 - Communications - Verbal and Non-verbal (Continued...)
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 25 - Communications - Verbal and Non-verbal (Continued...)
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 26 - Communications - Verbal and Non-verbal (Continued...)
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 27 - Body Language : For Interviews
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 28 - Body Language : For Interviews (Continued...)
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 29 - Body Language : For Interviews (Continued...)
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 30 - Body Language : For Interviews (Continued...)
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 31 - Body Language : For Interviews (Continued...)
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 32 - Body Language : For Interviews (Continued...)
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 33 - Interviews
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 34 - Judge the Interviewer
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 35 - Gesturs of Interviewer - When you enter
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 36 - Body Language during the Interviews
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 37 - Group Discussions (GD) and Verbal Communication
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 38 - Leadership Quality
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 39 - Negative Impression
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 40 - Art of Speaking
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 41 - Conversation Building, Good Conversation, Frustating Conversation
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 42 - What is Negotiation
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 43 - Purpose of Negotiation
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 44 - Type of Negotiation
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 45 - Negotiation as a Game
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 46 - Key Concepts and our Concepts of Negotiation
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 47 - Basics of negotiation
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 48 - Process sequence phase frequency
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 49 - Managing the process,trickes of countering
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 50 - Barriers to agreements,ending of negotiation
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 51 - Common mistakes
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 52 - Market Strategy, Rule 1 and Rule 2
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 53 - Rule 3 and Rule 4
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 54 - Rule 5, Rule 6, Rule 7 and Rule 8
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 55 - Rule 9, Rule 10, Rule 11 and Rule 12
Link NOC:Soft Skills for Business Negotiations and Marketing Strategies Lecture 56 - Time Management
Link NOC:Research Writing Lecture 1 - Introduction to the course
Link NOC:Research Writing Lecture 2 - What is research writing
Link NOC:Research Writing Lecture 3 - The Writing Process
Link NOC:Research Writing Lecture 4 - The Writing Process - 2
Link NOC:Research Writing Lecture 5 - Finding what to read
Link NOC:Research Writing Lecture 6 - Reading research documents
Link NOC:Research Writing Lecture 7 - Paying attention to what you read
Link NOC:Research Writing Lecture 8 - Reviewing Literature
Link NOC:Research Writing Lecture 9 - Reviewing Literature (Continued...)
Link NOC:Research Writing Lecture 10 - Elements of writing
Link NOC:Research Writing Lecture 11 - Reviewing literature
Link NOC:Research Writing Lecture 12 - Literature review: Supporting your claim
Link NOC:Research Writing Lecture 13 - Shaping your appeal
Link NOC:Research Writing Lecture 14 - Outlining
Link NOC:Research Writing Lecture 15 - Organizing an argument
Link NOC:Research Writing Lecture 16 - Methodology
Link NOC:Research Writing Lecture 17 - Tools for writing up literature reviews and methodology
Link NOC:Research Writing Lecture 18 - Presenting quantitative data
Link NOC:Research Writing Lecture 19 - Presenting qualitative data
Link NOC:Research Writing Lecture 20 - Writing the results section
Link NOC:Research Writing Lecture 21 - Discussion of Results
Link NOC:Research Writing Lecture 22 - Writing the conclusion section
Link NOC:Research Writing Lecture 23 - Academic Integrity
Link NOC:Research Writing Lecture 24 - Using and acknowledging sources
Link NOC:Research Writing Lecture 25 - Writers Block
Link NOC:Research Writing Lecture 26 - Revising
Link NOC:Research Writing Lecture 27 - Mistakes and Fallacies
Link NOC:Research Writing Lecture 28 - Editing and Proofreading
Link NOC:Research Writing Lecture 29 - Choosing a journal to publish in
Link NOC:Research Writing Lecture 30 - Responding to reviewer comments
Link NOC:Research Writing Lecture 31 - Wrap up
Link NOC:Engineering Econometrics Lecture 1 - Introduction to Engineering Econometrics
Link NOC:Engineering Econometrics Lecture 2 - Introduction to Engineering Econometrics (Continued...)
Link NOC:Engineering Econometrics Lecture 3 - Introduction to Engineering Econometrics (Continued...)
Link NOC:Engineering Econometrics Lecture 4 - Introduction to Engineering Econometrics (Continued...)
Link NOC:Engineering Econometrics Lecture 5 - Introduction to Engineering Econometrics (Continued...)
Link NOC:Engineering Econometrics Lecture 6 - Exploring Data on Spreadsheets
Link NOC:Engineering Econometrics Lecture 7 - Exploring Data on Spreadsheets (Continued...)
Link NOC:Engineering Econometrics Lecture 8 - Exploring Data on Spreadsheets (Continued...)
Link NOC:Engineering Econometrics Lecture 9 - Exploring Data on Spreadsheets (Continued...)
Link NOC:Engineering Econometrics Lecture 10 - Exploring Data on Spreadsheets (Continued...)
Link NOC:Engineering Econometrics Lecture 11 - Descriptive Econometrics
Link NOC:Engineering Econometrics Lecture 12 - Descriptive Econometrics (Continued...)
Link NOC:Engineering Econometrics Lecture 13 - Descriptive Econometrics (Continued...)
Link NOC:Engineering Econometrics Lecture 14 - Descriptive Econometrics (Continued...)
Link NOC:Engineering Econometrics Lecture 15 - Descriptive Econometrics (Continued...)
Link NOC:Engineering Econometrics Lecture 16 - Linear Regression Modelling
Link NOC:Engineering Econometrics Lecture 17 - Linear Regression Modelling (Continued...)
Link NOC:Engineering Econometrics Lecture 18 - Linear Regression Modelling (Continued...)
Link NOC:Engineering Econometrics Lecture 19 - Linear Regression Modelling (Continued...)
Link NOC:Engineering Econometrics Lecture 20 - Linear Regression Modelling (Continued...)
Link NOC:Engineering Econometrics Lecture 21 - Linear Regression Modelling (Continued...)
Link NOC:Engineering Econometrics Lecture 22 - Linear Regression Modelling (Continued...)
Link NOC:Engineering Econometrics Lecture 23 - Modelling Diagnostics
Link NOC:Engineering Econometrics Lecture 24 - Modelling Diagnostics (Continued...)
Link NOC:Engineering Econometrics Lecture 25 - Modelling Diagnostics (Continued...)
Link NOC:Engineering Econometrics Lecture 26 - Multicolinearity problem - III
Link NOC:Engineering Econometrics Lecture 27 - Autocorrelation problem - I
Link NOC:Engineering Econometrics Lecture 28 - Autocorrelation problem - II
Link NOC:Engineering Econometrics Lecture 29 - Heteroskedasticity problem - I
Link NOC:Engineering Econometrics Lecture 30 - Heteroskedasticity problem - II
Link NOC:Engineering Econometrics Lecture 31 - Model Specification- Choosing the Independent Variables
Link NOC:Engineering Econometrics Lecture 32 - Model Specification- Choosing the Independent Variables
Link NOC:Engineering Econometrics Lecture 33 - Non-Linear Regression Modelling - Dummy-Variable Regression Modelling
Link NOC:Engineering Econometrics Lecture 34 - Non-Linear Regression Modelling - Interactive Regression Modelling
Link NOC:Engineering Econometrics Lecture 35 - Non-Linear Regression Modelling - Polynomial (Curvilinear) Regression Model
Link NOC:Engineering Econometrics Lecture 36 - Non-Linear Regression Modelling - Model Transformation
Link NOC:Engineering Econometrics Lecture 37 - Extension of Dummy Regression Modelling
Link NOC:Engineering Econometrics Lecture 38 - Extension of Dummy Regression Modelling - Dummy Independent Variable Modelling
Link NOC:Engineering Econometrics Lecture 39 - Extension of Dummy Regression Modelling - Dummy Dependent Variable Modelling
Link NOC:Engineering Econometrics Lecture 40 - Extension of Dummy Regression Modelling - Dummy Independent Variable Modelling
Link NOC:Engineering Econometrics Lecture 41 - Time Series Modelling - Basics
Link NOC:Engineering Econometrics Lecture 42 - Time Series Modelling - Trend Analysis
Link NOC:Engineering Econometrics Lecture 43 - Time Series Modelling - Trend Analysis (Least Squares Method)
Link NOC:Engineering Econometrics Lecture 44 - Time Series Modelling - Forecasting
Link NOC:Engineering Econometrics Lecture 45 - Time Series Modelling - Stationarity
Link NOC:Engineering Econometrics Lecture 46 - Time Series Modelling - Volatility Modelling
Link NOC:Engineering Econometrics Lecture 47 - Time Series Modelling - Volatility Modelling
Link NOC:Engineering Econometrics Lecture 48 - Time Series Modelling - Volatility Modelling
Link NOC:Engineering Econometrics Lecture 49 - Time Series Modelling - Volatility Modelling
Link NOC:Engineering Econometrics Lecture 50 - Time Series Modelling - Volatility Modelling
Link NOC:Engineering Econometrics Lecture 51 - Time Series Modelling - VAR modelling
Link NOC:Engineering Econometrics Lecture 52 - Time Series Modelling - VAR modelling
Link NOC:Engineering Econometrics Lecture 53 - Panel Data Modelling
Link NOC:Engineering Econometrics Lecture 54 - Panel Data Modelling (Continued...)
Link NOC:Engineering Econometrics Lecture 55 - Panel Data Modelling (Continued...)
Link NOC:Engineering Econometrics Lecture 56 - Panel Data Modelling
Link NOC:Engineering Econometrics Lecture 57 - Fitting Models to Data
Link NOC:Engineering Econometrics Lecture 58 - Fitting Models to Data (Continued...)
Link NOC:Engineering Econometrics Lecture 59 - Fitting Models to Data (Continued...)
Link NOC:Engineering Econometrics Lecture 60 - Fitting Models to Data (Continued...)
Link NOC:Industrial Safety Engineering Lecture 1 - Introduction to Industrial Safety Engineering
Link NOC:Industrial Safety Engineering Lecture 2 - Key concepts and terminologies
Link NOC:Industrial Safety Engineering Lecture 3 - Key concepts and terminologies-Safety domain ontology
Link NOC:Industrial Safety Engineering Lecture 4 - Key concepts and terminologies-Risk Assessment and Control
Link NOC:Industrial Safety Engineering Lecture 5 - Safety Engineering and Accident causing mechanisms
Link NOC:Industrial Safety Engineering Lecture 6 - Preliminary Hazard List
Link NOC:Industrial Safety Engineering Lecture 7 - Preliminary Hazard Analysis
Link NOC:Industrial Safety Engineering Lecture 8 - Hazard and operability study (HAZOP)
Link NOC:Industrial Safety Engineering Lecture 9 - Failure Modes and Effects Analysis (FMEA)- Identification of Failure Modes
Link NOC:Industrial Safety Engineering Lecture 10 - Failure Modes and Effects Analysis (FMEA) (Continued...)
Link NOC:Industrial Safety Engineering Lecture 11 - Application of Hazard Identification Techniques
Link NOC:Industrial Safety Engineering Lecture 12 - Fault Tree Analysis (FTA) - Construction
Link NOC:Industrial Safety Engineering Lecture 13 - Fault Tree Analysis (FTA) - Gate by Gate method
Link NOC:Industrial Safety Engineering Lecture 14 - Fault Tree Analysis (FTA) - Cut-set method
Link NOC:Industrial Safety Engineering Lecture 15 - Fault Tree Analysis (FTA) - Importance measures
Link NOC:Industrial Safety Engineering Lecture 16 - Event Tree Analysis (ETA)
Link NOC:Industrial Safety Engineering Lecture 17 - Bowtie Tool
Link NOC:Industrial Safety Engineering Lecture 18 - Bow-tie: Common Cause Cut Sets
Link NOC:Industrial Safety Engineering Lecture 19 - Bow-tie: Cut-sets for Accident Scenarios
Link NOC:Industrial Safety Engineering Lecture 20 - Bow-tie: Cut-sets for Accident Scenarios (Continued...)
Link NOC:Industrial Safety Engineering Lecture 21 - Bow-tie: Identification of Safety Barriers
Link NOC:Industrial Safety Engineering Lecture 22 - Risk Assessment
Link NOC:Industrial Safety Engineering Lecture 23 - Consequence Assessment
Link NOC:Industrial Safety Engineering Lecture 24 - Energy Control Model and Hazard Control Hierarchy
Link NOC:Industrial Safety Engineering Lecture 25 - Safety Function Deployment
Link NOC:Industrial Safety Engineering Lecture 26 - Ranking of Design Solutions: AHP approach
Link NOC:Industrial Safety Engineering Lecture 27 - Quantification of Basic Events for Non-repairable Components
Link NOC:Industrial Safety Engineering Lecture 28 - Quantification of Basic Events: Hazard Rate
Link NOC:Industrial Safety Engineering Lecture 29 - Quantification of Basic Events: Exponential Distribution
Link NOC:Industrial Safety Engineering Lecture 30 - Quantification of Basic Events: Weibull Distribution
Link NOC:Industrial Safety Engineering Lecture 31 - Quantification of Basic Events: Failure to Repair Process
Link NOC:Industrial Safety Engineering Lecture 32 - Quantification of Basic Events: Combined Process
Link NOC:Industrial Safety Engineering Lecture 33 - Quantification of Basic Events: Failure and Repair Intensities
Link NOC:Industrial Safety Engineering Lecture 34 - Computation of combined process parameters: Laplace transform analysis
Link NOC:Industrial Safety Engineering Lecture 35 - Computation of combined process parameters: Markov Analysis
Link NOC:Industrial Safety Engineering Lecture 36 - Quantification of Systems Safety and Reliability Block Diagram
Link NOC:Industrial Safety Engineering Lecture 37 - Systems Safety Quantification: Truth Table Approach
Link NOC:Industrial Safety Engineering Lecture 38 - Systems Safety Quantification: Structure Function
Link NOC:Industrial Safety Engineering Lecture 39 - Systems Safety Quantification: Minimal Cut and Minimal Path Representation
Link NOC:Industrial Safety Engineering Lecture 40 - Systems Safety Quantification: Tutorial
Link NOC:Industrial Safety Engineering Lecture 41 - Human Error, Classification and Causes
Link NOC:Industrial Safety Engineering Lecture 42 - Human Error, Classification and Causes (Continued...)
Link NOC:Industrial Safety Engineering Lecture 43 - Human Error Identification
Link NOC:Industrial Safety Engineering Lecture 44 - Human Reliability Assessment
Link NOC:Industrial Safety Engineering Lecture 45 - Human Error Quantification from Experts’ opinions – Fuzzy Set Approach
Link NOC:Industrial Safety Engineering Lecture 46 - Accident Investigation
Link NOC:Industrial Safety Engineering Lecture 47 - Accident Investigation and Analysis: Descriptive Analytics
Link NOC:Industrial Safety Engineering Lecture 48 - Control Chart Analysis
Link NOC:Industrial Safety Engineering Lecture 49 - Accident Data Analysis: Regression
Link NOC:Industrial Safety Engineering Lecture 50 - Accident Data Analysis: Classification Tree
Link NOC:Industrial Safety Engineering Lecture 51 - Occupational Health and Safety Management Systems(OH&SMS) and OHSAS 18001 - Part I
Link NOC:Industrial Safety Engineering Lecture 52 - Occupational Health and Safety Management Systems(OH&SMS) and OHSAS 18001 - Part II
Link NOC:Industrial Safety Engineering Lecture 53 - Occupational Health and Safety Management Systems(OH&SMS) and OHSAS 18001 - Part III
Link NOC:Industrial Safety Engineering Lecture 54 - Safety Performance Indicators - Part I
Link NOC:Industrial Safety Engineering Lecture 55 - Safety Performance Indicators - Part II
Link NOC:Industrial Safety Engineering Lecture 56 - Energy Isolations
Link NOC:Industrial Safety Engineering Lecture 57 - Virtual Reality - Introduction
Link NOC:Industrial Safety Engineering Lecture 58 - Geometry of virtual world
Link NOC:Industrial Safety Engineering Lecture 59 - VR roadmap - A case study
Link NOC:Industrial Safety Engineering Lecture 60 - Summary
Link NOC:Management of Inventory Systems Lecture 1 - Introduction to Inventory and Materials Management
Link NOC:Management of Inventory Systems Lecture 2 - Introduction to Inventory and Materials Management (Continued...)
Link NOC:Management of Inventory Systems Lecture 3 - Introduction to Inventory and Materials Management (Continued...)
Link NOC:Management of Inventory Systems Lecture 4 - Introduction to Inventory and Materials Management (Continued...)
Link NOC:Management of Inventory Systems Lecture 5 - Introduction to Inventory and Materials Management (Continued...)
Link NOC:Management of Inventory Systems Lecture 6 - Inventory Problems and Selective Inventory Management
Link NOC:Management of Inventory Systems Lecture 7 - Inventory Problems and Selective Inventory Management (Continued...)
Link NOC:Management of Inventory Systems Lecture 8 - Inventory Problems and Selective Inventory Management (Continued...)
Link NOC:Management of Inventory Systems Lecture 9 - Inventory Problems and Selective Inventory Management (Continued...)
Link NOC:Management of Inventory Systems Lecture 10 - Inventory Problems and Selective Inventory Management (Continued...)
Link NOC:Management of Inventory Systems Lecture 11 - Static Inventory Problem under Risk
Link NOC:Management of Inventory Systems Lecture 12 - Static Inventory Problem under Risk (Continued...)
Link NOC:Management of Inventory Systems Lecture 13 - Static Inventory Problem under Risk (Continued...)
Link NOC:Management of Inventory Systems Lecture 14 - Static Inventory Problem under Risk (Continued...)
Link NOC:Management of Inventory Systems Lecture 15 - Static Inventory Problem under Risk (Continued...)
Link NOC:Management of Inventory Systems Lecture 16 - Static Inventory Problems under Uncertainty
Link NOC:Management of Inventory Systems Lecture 17 - Static Inventory Problems under Uncertainty (Continued...)
Link NOC:Management of Inventory Systems Lecture 18 - Static Inventory Problems under Uncertainty (Continued...)
Link NOC:Management of Inventory Systems Lecture 19 - Static Inventory Problems under Uncertainty (Continued...)
Link NOC:Management of Inventory Systems Lecture 20 - Static Inventory Problems under Uncertainty (Continued...)
Link NOC:Management of Inventory Systems Lecture 21 - Dynamic Inventory Problems under Certainty
Link NOC:Management of Inventory Systems Lecture 22 - Dynamic Inventory Problems under Certainty (Continued...)
Link NOC:Management of Inventory Systems Lecture 23 - Dynamic Inventory Problems under Certainty (Continued...)
Link NOC:Management of Inventory Systems Lecture 24 - Dynamic Inventory Problems under Certainty (Continued...)
Link NOC:Management of Inventory Systems Lecture 25 - Dynamic Inventory Problems under Certainty (Continued...)
Link NOC:Management of Inventory Systems Lecture 26 - Dynamic Inventory Problems under Risk
Link NOC:Management of Inventory Systems Lecture 27 - Dynamic Inventory Problems under Risk (Continued...)
Link NOC:Management of Inventory Systems Lecture 28 - Dynamic Inventory Problems under Risk (Continued...)
Link NOC:Management of Inventory Systems Lecture 29 - Dynamic Inventory Problems under Risk (Continued...)
Link NOC:Management of Inventory Systems Lecture 30 - Dynamic Inventory Problems under Risk (Continued...)
Link NOC:Management of Inventory Systems Lecture 31 - MRP, MRP-II and DRP
Link NOC:Management of Inventory Systems Lecture 32 - MRP, MRP-II and DRP (Continued...)
Link NOC:Management of Inventory Systems Lecture 33 - MRP, MRP-II and DRP (Continued...)
Link NOC:Management of Inventory Systems Lecture 34 - MRP, MRP-II and DRP (Continued...)
Link NOC:Management of Inventory Systems Lecture 35 - MRP, MRP-II and DRP (Continued...)
Link NOC:Management of Inventory Systems Lecture 36 - JIT-based Approaches for Materials Management
Link NOC:Management of Inventory Systems Lecture 37 - JIT-based Approaches for Materials Management (Continued...)
Link NOC:Management of Inventory Systems Lecture 38 - JIT-based Approaches for Materials Management (Continued...)
Link NOC:Management of Inventory Systems Lecture 39 - JIT-based Approaches for Materials Management (Continued...)
Link NOC:Management of Inventory Systems Lecture 40 - JIT-based Approaches for Materials Management (Continued...)
Link NOC:Management of Inventory Systems Lecture 41 - Basics of Purchasing Management
Link NOC:Management of Inventory Systems Lecture 42 - Basics of Purchasing Management (Continued...)
Link NOC:Management of Inventory Systems Lecture 43 - Basics of Purchasing Management (Continued...)
Link NOC:Management of Inventory Systems Lecture 44 - Basics of Purchasing Management (Continued...)
Link NOC:Management of Inventory Systems Lecture 45 - Basics of Purchasing Management (Continued...)
Link NOC:Management of Inventory Systems Lecture 46 - Theory of Constraints and Materials Management
Link NOC:Management of Inventory Systems Lecture 47 - Theory of Constraints and Materials Management (Continued...)
Link NOC:Management of Inventory Systems Lecture 48 - Theory of Constraints and Materials Management (Continued...)
Link NOC:Management of Inventory Systems Lecture 49 - Theory of Constraints and Materials Management (Continued...)
Link NOC:Management of Inventory Systems Lecture 50 - Theory of Constraints and Materials Management (Continued...)
Link NOC:Management of Inventory Systems Lecture 51 - Value Engineering/Analysis and Stores Management
Link NOC:Management of Inventory Systems Lecture 52 - Value Engineering/Analysis and Stores Management (Continued...)
Link NOC:Management of Inventory Systems Lecture 53 - Value Engineering/Analysis and Stores Management (Continued...)
Link NOC:Management of Inventory Systems Lecture 54 - Value Engineering/Analysis and Stores Management (Continued...)
Link NOC:Management of Inventory Systems Lecture 55 - Value Engineering/Analysis and Stores Management (Continued...)
Link NOC:Management of Inventory Systems Lecture 56 - Logistics and Supply Chain Management
Link NOC:Management of Inventory Systems Lecture 57 - Logistics and Supply Chain Management (Continued...)
Link NOC:Management of Inventory Systems Lecture 58 - Logistics and Supply Chain Management (Continued...)
Link NOC:Management of Inventory Systems Lecture 59 - Logistics and Supply Chain Management (Continued...)
Link NOC:Management of Inventory Systems Lecture 60 - Logistics and Supply Chain Management (Continued...)
Link NOC:Selected Topics in Decision Modeling Lecture 1 - Dynamic Programming: Introduction
Link NOC:Selected Topics in Decision Modeling Lecture 2 - Stagecoach Problem
Link NOC:Selected Topics in Decision Modeling Lecture 3 - An Investment Problem
Link NOC:Selected Topics in Decision Modeling Lecture 4 - An Investment Problem (Continued...)
Link NOC:Selected Topics in Decision Modeling Lecture 5 - Further Examples
Link NOC:Selected Topics in Decision Modeling Lecture 6 - Machine Allocation and Cargo Loading Problem
Link NOC:Selected Topics in Decision Modeling Lecture 7 - Knapsack Problem
Link NOC:Selected Topics in Decision Modeling Lecture 8 - Probabilistic Dynamic Programming
Link NOC:Selected Topics in Decision Modeling Lecture 9 - Probabilistic Dynamic Programming (Continued...)
Link NOC:Selected Topics in Decision Modeling Lecture 10 - Dijkstra's Algorithm
Link NOC:Selected Topics in Decision Modeling Lecture 11 - Integer Programming: Introduction
Link NOC:Selected Topics in Decision Modeling Lecture 12 - Integer Programming: Formulation
Link NOC:Selected Topics in Decision Modeling Lecture 13 - Integer Programming: Formulation (Continued...)
Link NOC:Selected Topics in Decision Modeling Lecture 14 - Integer Linear Programming
Link NOC:Selected Topics in Decision Modeling Lecture 15 - Cutting Plane Method
Link NOC:Selected Topics in Decision Modeling Lecture 16 - Exhaustive Enumeration and Branch and Bound Techniques
Link NOC:Selected Topics in Decision Modeling Lecture 17 - Branch and Bound Technique
Link NOC:Selected Topics in Decision Modeling Lecture 18 - Assignment and Travelling Salesman Problem
Link NOC:Selected Topics in Decision Modeling Lecture 19 - Travelling Salesman Problem (Continued...)
Link NOC:Selected Topics in Decision Modeling Lecture 20 - Heuristic Methods for Integer Programming
Link NOC:Selected Topics in Decision Modeling Lecture 21 - Non-Linear Programming: Introduction
Link NOC:Selected Topics in Decision Modeling Lecture 22 - Single-Variable Unconstrained Optimization
Link NOC:Selected Topics in Decision Modeling Lecture 23 - Multi-variable Unconstrained NLP
Link NOC:Selected Topics in Decision Modeling Lecture 24 - Solving Unconstrained NLP
Link NOC:Selected Topics in Decision Modeling Lecture 25 - Numerical Methods for Unconstrained NLP
Link NOC:Selected Topics in Decision Modeling Lecture 26 - Constrained NLP: Lagrange Multipliers
Link NOC:Selected Topics in Decision Modeling Lecture 27 - Constrained NLP: KKT Conditions
Link NOC:Selected Topics in Decision Modeling Lecture 28 - Constrained NLP: KKT Conditions (Continued...)
Link NOC:Selected Topics in Decision Modeling Lecture 29 - Quadratic Programming
Link NOC:Selected Topics in Decision Modeling Lecture 30 - Example problems on Constrained NLP
Link NOC:Selected Topics in Decision Modeling Lecture 31 - Introduction to Metaheuristics
Link NOC:Selected Topics in Decision Modeling Lecture 32 - Genetic Algorithms
Link NOC:Selected Topics in Decision Modeling Lecture 33 - Genetic Algorithm Process
Link NOC:Selected Topics in Decision Modeling Lecture 34 - Genetic Algorithm Process (Continued...)
Link NOC:Selected Topics in Decision Modeling Lecture 35 - Genetic Algorithm Examples
Link NOC:Selected Topics in Decision Modeling Lecture 36 - Simulated Annealing
Link NOC:Selected Topics in Decision Modeling Lecture 37 - Tabu Search
Link NOC:Selected Topics in Decision Modeling Lecture 38 - Particle Swarm Optimization
Link NOC:Selected Topics in Decision Modeling Lecture 39 - Multi-Objective Optimization
Link NOC:Selected Topics in Decision Modeling Lecture 40 - NSGA-II Examples
Link NOC:Ethics in Engineering Practice Lecture 1 - Introduction to Ethical Reasoning and Engineering Ethics
Link NOC:Ethics in Engineering Practice Lecture 2 - Introduction to Ethical Reasoning and Engineering Ethics (Continued...)
Link NOC:Ethics in Engineering Practice Lecture 3 - Introduction to Ethical Reasoning and Engineering Ethics (Continued...)
Link NOC:Ethics in Engineering Practice Lecture 4 - Professional practice in enginnering
Link NOC:Ethics in Engineering Practice Lecture 5 - Professional practice in enginnering (Continued...)
Link NOC:Ethics in Engineering Practice Lecture 6 - Central Professional responsibilities of engineers
Link NOC:Ethics in Engineering Practice Lecture 7 - Central Professional responsibilities of engineers (Continued...)
Link NOC:Ethics in Engineering Practice Lecture 8 - Workplace Rights and Responsibilities
Link NOC:Ethics in Engineering Practice Lecture 9 - Workplace Rights and Responsibilities (Continued...)
Link NOC:Ethics in Engineering Practice Lecture 10 - Ethics as Design doing Justice to Moral Problems
Link NOC:Ethics in Engineering Practice Lecture 11 - Ethics as Design doing Justice to Moral Problems (Continued...)
Link NOC:Ethics in Engineering Practice Lecture 12 - Intellectual Property Rights and Ethics
Link NOC:Ethics in Engineering Practice Lecture 13 - Intellectual Property Rights and Ethics (Continued...)
Link NOC:Ethics in Engineering Practice Lecture 14 - Trade related Intellectual Property Rights
Link NOC:Ethics in Engineering Practice Lecture 15 - Trade related Intellectual Property Rights in India
Link NOC:Ethics in Engineering Practice Lecture 16 - A brief on Paris Convention, 1967 and The Berne Contract, 1971
Link NOC:Ethics in Engineering Practice Lecture 17 - Computer Software and Digital Information
Link NOC:Ethics in Engineering Practice Lecture 18 - Computer Software and Digital Information (Continued...)
Link NOC:Ethics in Engineering Practice Lecture 19 - Engineers, Nuclear Testing and Weapons
Link NOC:Ethics in Engineering Practice Lecture 20 - Engineers, Nuclear Testing and Weapons (Continued...)
Link NOC:Ethics in Engineering Practice Lecture 21 - Responsibility to Environment
Link NOC:Ethics in Engineering Practice Lecture 22 - Responsibility to Environment (Continued...)
Link NOC:Ethics in Engineering Practice Lecture 23 - Environmental Ethics and Spirituality
Link NOC:Ethics in Engineering Practice Lecture 24 - Engineering as Social Experimentation
Link NOC:Ethics in Engineering Practice Lecture 25 - Research Ethics
Link NOC:Ethics in Engineering Practice Lecture 26 - Research Ethics (Continued...)
Link NOC:Ethics in Engineering Practice Lecture 27 - Engineers as Managers Consultants and Leaders
Link NOC:Ethics in Engineering Practice Lecture 28 - Engineers as Managers Consultants and Leaders (Continued...)
Link NOC:Ethics in Engineering Practice Lecture 29 - Engineers as Managers Consultants and Leaders (Continued...)
Link NOC:Ethics in Engineering Practice Lecture 30 - Key Questions - Ethical Conduct of Engineers
Link NOC:Ethics in Engineering Practice Lecture 31 - Key Questions - Ethical Conduct of Engineers (Continued...)
Link NOC:Ethics in Engineering Practice Lecture 32 - Key Questions - Central Professional Responsibilities of Engineers
Link NOC:Ethics in Engineering Practice Lecture 33 - Key Questions - Central Professional Responsibilities of Engineers (Continued...)
Link NOC:Ethics in Engineering Practice Lecture 34 - Key Questions - Relating to Rights and Responsibilities regarding IPR
Link NOC:Ethics in Engineering Practice Lecture 35 - Key Questions - Relating to Rights and Responsibilities regarding IPR (Continued...)
Link NOC:Ethics in Engineering Practice Lecture 36 - Key Questions - Relating to Rights and Responsibilities regarding IPR (Continued...)
Link NOC:Ethics in Engineering Practice Lecture 37 - Key Questions - Related to Engineers Rights and Duties and Ethics
Link NOC:Ethics in Engineering Practice Lecture 38 - Key Questions - Related to Engineers Rights and Duties and Ethics (Continued...)
Link NOC:Ethics in Engineering Practice Lecture 39 - Leadership Styles and Ethical Conduct
Link NOC:Ethics in Engineering Practice Lecture 40 - Leadership Styles and Ethical Conduct (Continued...)
Link NOC:Managing Change in Organizations Lecture 1 - Nature of Change Management (1)
Link NOC:Managing Change in Organizations Lecture 2 - Nature of Change Management (2)
Link NOC:Managing Change in Organizations Lecture 3 - Types of Change
Link NOC:Managing Change in Organizations Lecture 4 - Types of Change (Continued...)
Link NOC:Managing Change in Organizations Lecture 5 - Types of Change (Continued...)
Link NOC:Managing Change in Organizations Lecture 6 - Need for Change
Link NOC:Managing Change in Organizations Lecture 7 - Need for Change (Continued...)
Link NOC:Managing Change in Organizations Lecture 8 - Scope of Change
Link NOC:Managing Change in Organizations Lecture 9 - Scope of Change (Continued...)
Link NOC:Managing Change in Organizations Lecture 10 - Scope of Change (Continued...)
Link NOC:Managing Change in Organizations Lecture 11 - Diagnosing Organisational Change
Link NOC:Managing Change in Organizations Lecture 12 - Diagnosing Organisational Change (Continued...)
Link NOC:Managing Change in Organizations Lecture 13 - Diagnosing Organisational Change (Continued...)
Link NOC:Managing Change in Organizations Lecture 14 - Resistance to Change
Link NOC:Managing Change in Organizations Lecture 15 - Managing Resistance
Link NOC:Managing Change in Organizations Lecture 16 - Approaches to Implementing Change
Link NOC:Managing Change in Organizations Lecture 17 - Approaches to Implementing Change (Continued...)
Link NOC:Managing Change in Organizations Lecture 18 - Approaches to Implementing Change (Continued...)
Link NOC:Managing Change in Organizations Lecture 19 - Approaches to Implementing Change (Continued...)
Link NOC:Managing Change in Organizations Lecture 20 - Approaches to Implementing Change (Continued...)
Link NOC:Managing Change in Organizations Lecture 21 - Implementing Change
Link NOC:Managing Change in Organizations Lecture 22 - Vision and Change
Link NOC:Managing Change in Organizations Lecture 23 - Vision and Change (Continued...)
Link NOC:Managing Change in Organizations Lecture 24 - Vision and Change (Continued...)
Link NOC:Managing Change in Organizations Lecture 25 - Vision and Change (Continued...)
Link NOC:Managing Change in Organizations Lecture 26 - Communication and Change
Link NOC:Managing Change in Organizations Lecture 27 - Communication and Change (Continued...)
Link NOC:Managing Change in Organizations Lecture 28 - Communication and Change (Continued...)
Link NOC:Managing Change in Organizations Lecture 29 - Sustaining Change
Link NOC:Managing Change in Organizations Lecture 30 - Evaluating Change
Link NOC:Managing Change in Organizations Lecture 31 - Innovation and Change
Link NOC:Managing Change in Organizations Lecture 32 - Innovation and Change (Continued...)
Link NOC:Managing Change in Organizations Lecture 33 - Organizational Learning
Link NOC:Managing Change in Organizations Lecture 34 - Learning Organization and Change
Link NOC:Managing Change in Organizations Lecture 35 - Learning Organization and Change (Continued...)
Link NOC:Managing Change in Organizations Lecture 36 - Turnaround Strategy
Link NOC:Managing Change in Organizations Lecture 37 - Strategic Convergence and Learning from Change
Link NOC:Managing Change in Organizations Lecture 38 - Change Effectiveness
Link NOC:Managing Change in Organizations Lecture 39 - Change Management Cases and Examples
Link NOC:Managing Change in Organizations Lecture 40 - Change Management Example, Trends and Dynamics
Link NOC:Financial Institutions and Markets Lecture 1 - Introduction to Financial System
Link NOC:Financial Institutions and Markets Lecture 2 - Equilibrium in Financial Markets
Link NOC:Financial Institutions and Markets Lecture 3 - Efficiency of Financial Markets
Link NOC:Financial Institutions and Markets Lecture 4 - Measures of Financial Development
Link NOC:Financial Institutions and Markets Lecture 5 - Financial Development and Economic Growth
Link NOC:Financial Institutions and Markets Lecture 6 - Systematic risks in financial system
Link NOC:Financial Institutions and Markets Lecture 7 - Unsystematic risks in financial system
Link NOC:Financial Institutions and Markets Lecture 8 - Return concepts in financial system
Link NOC:Financial Institutions and Markets Lecture 9 - Fundamental analysis of financial assets
Link NOC:Financial Institutions and Markets Lecture 10 - Technical analysis of financial assets
Link NOC:Financial Institutions and Markets Lecture 11 - Theories of interest rate determination - I
Link NOC:Financial Institutions and Markets Lecture 12 - Theories of interest rate determination - II
Link NOC:Financial Institutions and Markets Lecture 13 - Term structure theories of interest rate - I
Link NOC:Financial Institutions and Markets Lecture 14 - Term structure theories of interest rate - II
Link NOC:Financial Institutions and Markets Lecture 15 - Term structure theories of interest rate - III
Link NOC:Financial Institutions and Markets Lecture 16 - Financial market regulation
Link NOC:Financial Institutions and Markets Lecture 17 - RBI- structure and objective functions
Link NOC:Financial Institutions and Markets Lecture 18 - Monetary policy instruments
Link NOC:Financial Institutions and Markets Lecture 19 - Challenges and reforms in monetary policy and central bank autonomy
Link NOC:Financial Institutions and Markets Lecture 20 - SEBI, IROA and PFRDA: structure and function
Link NOC:Financial Institutions and Markets Lecture 21 - Commercial banks: Role and Services
Link NOC:Financial Institutions and Markets Lecture 22 - Commercial banks: Financial statements
Link NOC:Financial Institutions and Markets Lecture 23 - Commercial bank performance
Link NOC:Financial Institutions and Markets Lecture 24 - Basel Accords
Link NOC:Financial Institutions and Markets Lecture 25 - Measure of risk in commercial banks
Link NOC:Financial Institutions and Markets Lecture 26 - Provident fund and pension fund
Link NOC:Financial Institutions and Markets Lecture 27 - Insurance companies
Link NOC:Financial Institutions and Markets Lecture 28 - Mutual funds - I
Link NOC:Financial Institutions and Markets Lecture 29 - Mutual funds - II
Link NOC:Financial Institutions and Markets Lecture 30 - NBFCs - I
Link NOC:Financial Institutions and Markets Lecture 31 - NBFCs - II
Link NOC:Financial Institutions and Markets Lecture 32 - Venture capital
Link NOC:Financial Institutions and Markets Lecture 33 - Merchant banks
Link NOC:Financial Institutions and Markets Lecture 34 - Credit Rating Agencies
Link NOC:Financial Institutions and Markets Lecture 35 - Non-banking statutory financial organization
Link NOC:Financial Institutions and Markets Lecture 36 - Call Money Market - I
Link NOC:Financial Institutions and Markets Lecture 37 - Call Money Market - II
Link NOC:Financial Institutions and Markets Lecture 38 - Treasury Bills Market
Link NOC:Financial Institutions and Markets Lecture 39 - Miscellaneous short-term money market - I
Link NOC:Financial Institutions and Markets Lecture 40 - Miscellaneous short-term money market - II
Link NOC:Financial Institutions and Markets Lecture 41 - Bond Analysis - I
Link NOC:Financial Institutions and Markets Lecture 42 - Bond Analysis - II
Link NOC:Financial Institutions and Markets Lecture 43 - Bond Analysis - III
Link NOC:Financial Institutions and Markets Lecture 44 - Bond Analysis - IV
Link NOC:Financial Institutions and Markets Lecture 45 - Bond market in India
Link NOC:Financial Institutions and Markets Lecture 46 - Stock market - I
Link NOC:Financial Institutions and Markets Lecture 47 - Stock market - II
Link NOC:Financial Institutions and Markets Lecture 48 - Stock market - III
Link NOC:Financial Institutions and Markets Lecture 49 - Stock market - IV
Link NOC:Financial Institutions and Markets Lecture 50 - Stock market - V
Link NOC:Financial Institutions and Markets Lecture 51 - Derivatives Market - I
Link NOC:Financial Institutions and Markets Lecture 52 - Derivatives Market - II
Link NOC:Financial Institutions and Markets Lecture 53 - Derivatives Market - III
Link NOC:Financial Institutions and Markets Lecture 54 - Derivatives Market - IV
Link NOC:Financial Institutions and Markets Lecture 55 - Derivatives Market - V
Link NOC:Financial Institutions and Markets Lecture 56 - Foreign Exchange Market - I
Link NOC:Financial Institutions and Markets Lecture 57 - Foreign Exchange Market - II
Link NOC:Financial Institutions and Markets Lecture 58 - Foreign Exchange Market - III
Link NOC:Financial Institutions and Markets Lecture 59 - Foreign Exchange Market - IV
Link NOC:Financial Institutions and Markets Lecture 60 - Foreign Exchange Market - V
Link NOC:Sales and Distribution Management Lecture 1 - Introduction to Sales Management
Link NOC:Sales and Distribution Management Lecture 2 - Sales Management, Personal Selling, and Salesmanship
Link NOC:Sales and Distribution Management Lecture 3 - Functions of Sales Executive and Roles played by Sales Managers
Link NOC:Sales and Distribution Management Lecture 4 - Duties and Responsibilities of Sales Managers and the Effective Sales Executive
Link NOC:Sales and Distribution Management Lecture 5 - Skills required in Sales Managers and Qualities in a Sales Managers
Link NOC:Sales and Distribution Management Lecture 6 - Determining Sales related Marketing Policies
Link NOC:Sales and Distribution Management Lecture 7 - Determining Sales related Marketing Policies
Link NOC:Sales and Distribution Management Lecture 8 - Strategic Planning, Sales Objectives, Strategies and Tactics
Link NOC:Sales and Distribution Management Lecture 9 - The Sales Organization
Link NOC:Sales and Distribution Management Lecture 10 - The Sales Organization
Link NOC:Sales and Distribution Management Lecture 11 - The Sales Department Relations
Link NOC:Sales and Distribution Management Lecture 12 - The Sales Department Relations
Link NOC:Sales and Distribution Management Lecture 13 - Planning, Sales forecasting and Budgeting
Link NOC:Sales and Distribution Management Lecture 14 - Planning, Sales forecasting and Budgeting
Link NOC:Sales and Distribution Management Lecture 15 - Planning, Sales forecasting and Budgeting
Link NOC:Sales and Distribution Management Lecture 16 - Buyer-Seller Dyads
Link NOC:Sales and Distribution Management Lecture 17 - Diversity of Personal-Selling Situations
Link NOC:Sales and Distribution Management Lecture 18 - Theories of Selling
Link NOC:Sales and Distribution Management Lecture 19 - Theories of Selling
Link NOC:Sales and Distribution Management Lecture 20 - The Selling Process
Link NOC:Sales and Distribution Management Lecture 21 - The Selling Process
Link NOC:Sales and Distribution Management Lecture 22 - Sales Force Management : Job Analysis
Link NOC:Sales and Distribution Management Lecture 23 - Sales Force Management : Recruitment
Link NOC:Sales and Distribution Management Lecture 24 - Sales Force Management : Selection
Link NOC:Sales and Distribution Management Lecture 25 - Sales Force Management : Training
Link NOC:Sales and Distribution Management Lecture 26 - Sales Force Management : Training
Link NOC:Sales and Distribution Management Lecture 27 - Sales Force Management : Motivation
Link NOC:Sales and Distribution Management Lecture 28 - Sales Force Management : Compensation
Link NOC:Sales and Distribution Management Lecture 29 - Sales Force Management : Managing Expenses of Sales Personnel
Link NOC:Sales and Distribution Management Lecture 30 - Sales Force Management : Evaluation
Link NOC:Sales and Distribution Management Lecture 31 - Sales Force Management : Evaluation
Link NOC:Sales and Distribution Management Lecture 32 - Sales Quotas
Link NOC:Sales and Distribution Management Lecture 33 - Sales Quotas
Link NOC:Sales and Distribution Management Lecture 34 - Sales Territory
Link NOC:Sales and Distribution Management Lecture 35 - Sales Territory
Link NOC:Sales and Distribution Management Lecture 36 - Distribution Channel Management : Distribution Channels - Part I
Link NOC:Sales and Distribution Management Lecture 37 - Distribution Channel Management : Distribution Channels - Part II
Link NOC:Sales and Distribution Management Lecture 38 - Channel Systems, Channel Management, Logistics and Marketing Channels - Part I
Link NOC:Sales and Distribution Management Lecture 39 - Channel Systems, Channel Management, Logistics and Marketing Channels - Part II
Link NOC:Sales and Distribution Management Lecture 40 - International Sales and Channel Management
Link NOC:Six Sigma Lecture 1 - Brief overview of the course
Link NOC:Six Sigma Lecture 2 - Quality concepts and definition
Link NOC:Six Sigma Lecture 3 - History of continuous improvement
Link NOC:Six Sigma Lecture 4 - Six Sigma Principles and Focus Areas - Part 1
Link NOC:Six Sigma Lecture 5 - Six Sigma Principles and Focus Areas - Part 2
Link NOC:Six Sigma Lecture 6 - Six Sigma Applications
Link NOC:Six Sigma Lecture 7 - Quality Management: Basics and Key Concepts
Link NOC:Six Sigma Lecture 8 - Fundamentals of Total Quality Management
Link NOC:Six Sigma Lecture 9 - Cost of quality
Link NOC:Six Sigma Lecture 10 - Voice of customer
Link NOC:Six Sigma Lecture 11 - Quality Function Deployment (QFD)
Link NOC:Six Sigma Lecture 12 - Management and Planning Tools - Part 1
Link NOC:Six Sigma Lecture 13 - Management and Planning Tools - Part 2
Link NOC:Six Sigma Lecture 14 - Six Sigma Project Identification, Selection and Definition
Link NOC:Six Sigma Lecture 15 - Process characteristics and Monitoring
Link NOC:Six Sigma Lecture 16 - Process characteristics and analysis
Link NOC:Six Sigma Lecture 17 - Process Mapping: SIPOC
Link NOC:Six Sigma Lecture 18 - Data Collection and Summarization - Part 1
Link NOC:Six Sigma Lecture 19 - Data Collection and Summarization - Part 2
Link NOC:Six Sigma Lecture 20 - Measurement systems: Fundamentals
Link NOC:Six Sigma Lecture 21 - Measurement systems analysis: Gage R&R study
Link NOC:Six Sigma Lecture 22 - Fundamentals of statistics
Link NOC:Six Sigma Lecture 23 - Probability theory
Link NOC:Six Sigma Lecture 24 - Process capability analysis: Key Concepts
Link NOC:Six Sigma Lecture 25 - Process capability analysis: Measures and Indices
Link NOC:Six Sigma Lecture 26 - Process capability analysis: Minitab Application
Link NOC:Six Sigma Lecture 27 - Non-normal process capability analysis
Link NOC:Six Sigma Lecture 28 - Hypothesis testing: Fundamentals
Link NOC:Six Sigma Lecture 29 - Hypothesis Testing: Single Population Test
Link NOC:Six Sigma Lecture 30 - Hypothesis Testing: Two Population Test
Link NOC:Six Sigma Lecture 31 - Hypothesis Testing: Two Population: Minitab Application
Link NOC:Six Sigma Lecture 32 - Correlation and Regression Analysis
Link NOC:Six Sigma Lecture 33 - Regression Analysis: Model Validation
Link NOC:Six Sigma Lecture 34 - One-Way ANOVA
Link NOC:Six Sigma Lecture 35 - Two-Way ANOVA
Link NOC:Six Sigma Lecture 36 - Multi-vari Analysis
Link NOC:Six Sigma Lecture 37 - Failure Mode Effect Analysis (FMEA)
Link NOC:Six Sigma Lecture 38 - Introduction to Design of Experiment
Link NOC:Six Sigma Lecture 39 - Randomized Block Design
Link NOC:Six Sigma Lecture 40 - Randomized Block Design: Minitab Application
Link NOC:Six Sigma Lecture 41 - Factorial Design
Link NOC:Six Sigma Lecture 42 - Factorial Design: Minitab Application
Link NOC:Six Sigma Lecture 43 - Fractional Factorial Design
Link NOC:Six Sigma Lecture 44 - Fractional Factorial Design: Minitab Application
Link NOC:Six Sigma Lecture 45 - Taguchi Method: Key Concepts
Link NOC:Six Sigma Lecture 46 - Taguchi Method: Illustrative Application
Link NOC:Six Sigma Lecture 47 - Seven QC Tools
Link NOC:Six Sigma Lecture 48 - Statistical Process Control: Key Concepts
Link NOC:Six Sigma Lecture 49 - Statistical Process Control: Control Charts for Variables
Link NOC:Six Sigma Lecture 50 - Operating Characteristic (OC) Curve for Variable Control charts
Link NOC:Six Sigma Lecture 51 - Statistical Process Control: Control Charts for Attributes
Link NOC:Six Sigma Lecture 52 - Operating Characteristic (OC) Curve for Attribute Control charts
Link NOC:Six Sigma Lecture 53 - Statistical Process Control: Minitab Application
Link NOC:Six Sigma Lecture 54 - Acceptance Sampling: Key Concepts
Link NOC:Six Sigma Lecture 55 - Acceptance Sampling Plans for Attributes: Key Concepts
Link NOC:Six Sigma Lecture 56 - Design of Acceptance Sampling Plans for Attributes
Link NOC:Six Sigma Lecture 57 - Acceptance Sampling Plans for Variables
Link NOC:Six Sigma Lecture 58 - Acceptance Sampling: Minitab Application
Link NOC:Six Sigma Lecture 59 - Design for Six Sigma (DFSS): DMADV, DMADOV
Link NOC:Six Sigma Lecture 60 - Design for Six Sigma (DFSS): DFX
Link NOC:Six Sigma Lecture 61 - Team Management
Link NOC:Six Sigma Lecture 62 - Six Sigma: Case study
Link NOC:Six Sigma Lecture 63 - Six Sigma: Summary of key concepts
Link NOC:Performance and Reward Management Lecture 1 - Understanding meaning of performance management and reward systems management with performance management process
Link NOC:Performance and Reward Management Lecture 2 - Understanding meaning of performance management and reward systems management with performance management process (Continued...)
Link NOC:Performance and Reward Management Lecture 3 - Understanding meaning of performance management and reward systems management with performance management process (Continued...)
Link NOC:Performance and Reward Management Lecture 4 - Understanding meaning of performance management and reward systems management with performance management process (Continued...)
Link NOC:Performance and Reward Management Lecture 5 - Understanding meaning of performance management and reward systems management with performance management process (Continued...)
Link NOC:Performance and Reward Management Lecture 6 - Developing an understanding as to why performance management and reward management are of strategic importance and their role in strategic planning
Link NOC:Performance and Reward Management Lecture 7 - Developing an understanding as to why performance management and reward management are of strategic importance and their role in strategic planning (Continued...)
Link NOC:Performance and Reward Management Lecture 8 - Developing an understanding as to why performance management and reward management are of strategic importance and their role in strategic planning (Continued...)
Link NOC:Performance and Reward Management Lecture 9 - Developing an understanding as to why performance management and reward management are of strategic importance and their role in strategic planning (Continued...)
Link NOC:Performance and Reward Management Lecture 10 - Developing an understanding as to why performance management and reward management are of strategic importance and their role in strategic planning (Continued...)
Link NOC:Performance and Reward Management Lecture 11 - Implementation of a performance management system, definining performance and choosing a measurement approach and understanding the meaning of results
Link NOC:Performance and Reward Management Lecture 12 - Implementation of a performance management system, definining performance and choosing a measurement approach and understanding the meaning of results (Continued...)
Link NOC:Performance and Reward Management Lecture 13 - Implementation of a performance management system, definining performance and choosing a measurement approach and understanding the meaning of results (Continued...)
Link NOC:Performance and Reward Management Lecture 14 - Implementation of a performance management system, definining performance and choosing a measurement approach and understanding the meaning of results (Continued...)
Link NOC:Performance and Reward Management Lecture 15 - Implementation of a performance management system, definining performance and choosing a measurement approach and understanding the meaning of results (Continued...)
Link NOC:Performance and Reward Management Lecture 16 - Implementing a performance management system in your organization
Link NOC:Performance and Reward Management Lecture 17 - Implementing a performance management system in your organization (Continued...)
Link NOC:Performance and Reward Management Lecture 18 - Implementing a performance management system in your organization (Continued...)
Link NOC:Performance and Reward Management Lecture 19 - Implementing a performance management system in your organization (Continued...)
Link NOC:Performance and Reward Management Lecture 20 - Implementing a performance management system in your organization (Continued...)
Link NOC:Performance and Reward Management Lecture 21 - Role of performance management in employee development, addressing performance management skills and team reward management
Link NOC:Performance and Reward Management Lecture 22 - Role of performance management in employee development, addressing performance management skills and team reward management (Continued...)
Link NOC:Performance and Reward Management Lecture 23 - Role of performance management in employee development, addressing performance management skills and team reward management (Continued...)
Link NOC:Performance and Reward Management Lecture 24 - Role of performance management in employee development, addressing performance management skills and team reward management (Continued...)
Link NOC:Performance and Reward Management Lecture 25 - Role of performance management in employee development, addressing performance management skills and team reward management (Continued...)
Link NOC:Performance and Reward Management Lecture 26 - Overview,reward system, understanding total, strategic and international reward
Link NOC:Performance and Reward Management Lecture 27 - Overview,reward system, understanding total, strategic and international reward (Continued...)
Link NOC:Performance and Reward Management Lecture 28 - Overview,reward system, understanding total, strategic and international reward (Continued...)
Link NOC:Performance and Reward Management Lecture 29 - Overview,reward system, understanding total, strategic and international reward (Continued...)
Link NOC:Performance and Reward Management Lecture 30 - Overview,reward system, understanding total, strategic and international reward (Continued...)
Link NOC:Performance and Reward Management Lecture 31 - Understanding linkage between performance management and reward, an overview of various types of reward; financial reward, non-financial reward; contingent pay scheme; bonus scheme; team pay ; rewarding for business performance; recognition sc
Link NOC:Performance and Reward Management Lecture 32 - Understanding linkage between performance management and reward, an overview of various types of reward; financial reward, non-financial reward; contingent pay scheme; bonus scheme; team pay ; rewarding for business performance; recognition sc
Link NOC:Performance and Reward Management Lecture 33 - Understanding linkage between performance management and reward, an overview of various types of reward; financial reward, non-financial reward; contingent pay scheme; bonus scheme; team pay ; rewarding for business performance; recognition sc
Link NOC:Performance and Reward Management Lecture 34 - Understanding linkage between performance management and reward, an overview of various types of reward; financial reward, non-financial reward; contingent pay scheme; bonus scheme; team pay ; rewarding for business performance; recognition sc
Link NOC:Performance and Reward Management Lecture 35 - Understanding linkage between performance management and reward, an overview of various types of reward; financial reward, non-financial reward; contingent pay scheme; bonus scheme; team pay ; rewarding for business performance; recognition sc
Link NOC:Performance and Reward Management Lecture 36 - Understanding linkage between performance management and reward, an overview of various types of reward; financial reward, non-financial reward; contingent pay scheme; bonus scheme; team pay ; rewarding for business performance; recognition sc
Link NOC:Performance and Reward Management Lecture 37 - Valuing and grading jobs, understanding pay levels, job evaluation schemes, equal pay, market rate analysis, designing of grade and pay structure
Link NOC:Performance and Reward Management Lecture 38 - Valuing and grading jobs, understanding pay levels, job evaluation schemes, equal pay, market rate analysis, designing of grade and pay structure (Continued...)
Link NOC:Performance and Reward Management Lecture 39 - Valuing and grading jobs, understanding pay levels, job evaluation schemes, equal pay, market rate analysis, designing of grade and pay structure (Continued...)
Link NOC:Performance and Reward Management Lecture 40 - Valuing and grading jobs, understanding pay levels, job evaluation schemes, equal pay, market rate analysis, designing of grade and pay structure (Continued...)
Link NOC:Performance and Reward Management Lecture 41 - Valuing and grading jobs, understanding pay levels, job evaluation schemes, equal pay, market rate analysis, designing of grade and pay structure (Continued...)
Link NOC:Performance and Reward Management Lecture 42 - Rewarding Special Groups, rewarding directors and senior executives, sales and customer service staff, knowledge workers and manual workers
Link NOC:Performance and Reward Management Lecture 43 - Rewarding Special Groups, rewarding directors and senior executives, sales and customer service staff, knowledge workers and manual workers (Continued...)
Link NOC:Performance and Reward Management Lecture 44 - Rewarding Special Groups, rewarding directors and senior executives, sales and customer service staff, knowledge workers and manual workers (Continued...)
Link NOC:Performance and Reward Management Lecture 45 - Rewarding Special Groups, rewarding directors and senior executives, sales and customer service staff, knowledge workers and manual workers (Continued...)
Link NOC:Performance and Reward Management Lecture 46 - Rewarding Special Groups, rewarding directors and senior executives, sales and customer service staff, knowledge workers and manual workers (Continued...)
Link NOC:Performance and Reward Management Lecture 47 - Rewarding Special Groups, rewarding directors and senior executives, sales and customer service staff, knowledge workers and manual workers (Continued...)
Link NOC:Performance and Reward Management Lecture 48 - Understanding relevance of employee benefits and pension schemes, employee benefits, flexible benefits, pension scheme, 7th Pay Commission
Link NOC:Performance and Reward Management Lecture 49 - Understanding relevance of employee benefits and pension schemes, employee benefits, flexible benefits, pension scheme, 7th Pay Commission (Continued...)
Link NOC:Performance and Reward Management Lecture 50 - Understanding relevance of employee benefits and pension schemes, employee benefits, flexible benefits, pension scheme, 7th Pay Commission (Continued...)
Link NOC:Performance and Reward Management Lecture 51 - Understanding relevance of employee benefits and pension schemes, employee benefits, flexible benefits, pension scheme, 7th Pay Commission (Continued...)
Link NOC:Performance and Reward Management Lecture 52 - Understanding relevance of employee benefits and pension schemes, employee benefits, flexible benefits, pension scheme, 7th Pay Commission (Continued...)
Link NOC:Performance and Reward Management Lecture 53 - Developing and Implementing Reward Systems
Link NOC:Performance and Reward Management Lecture 54 - Developing and Implementing Reward Systems (Continued...)
Link NOC:Performance and Reward Management Lecture 55 - Developing and Implementing Reward Systems (Continued...)
Link NOC:Performance and Reward Management Lecture 56 - Developing and Implementing Reward Systems (Continued...)
Link NOC:Performance and Reward Management Lecture 57 - Developing and Implementing Reward Systems (Continued...)
Link NOC:Performance and Reward Management Lecture 58 - Understanding the implications of performance and reward management in present organizational dynamics through case studies
Link NOC:Performance and Reward Management Lecture 59 - Understanding the implications of performance and reward management in present organizational dynamics through case studies (Continued...)
Link NOC:Performance and Reward Management Lecture 60 - Understanding the implications of performance and reward management in present organizational dynamics through case studies (Continued...)
Link NOC:Performance and Reward Management Lecture 61 - Understanding the implications of performance and reward management in present organizational dynamics through case studies (Continued...)
Link NOC:Performance and Reward Management Lecture 62 - Understanding the implications of performance and reward management in present organizational dynamics through case studies (Continued...)
Link NOC:Performance and Reward Management Lecture 63 - Understanding the implications of performance and reward management in present organizational dynamics through case studies (Continued...)
Link NOC:The Ethical Corporation Lecture 1 - What is a Corporation
Link NOC:The Ethical Corporation Lecture 2 - Ethical Corporation
Link NOC:The Ethical Corporation Lecture 3 - What is Ethics
Link NOC:The Ethical Corporation Lecture 4 - Law and Ethics, and Responsibilities
Link NOC:The Ethical Corporation Lecture 5 - Why should a Corporation be Ethical
Link NOC:The Ethical Corporation Lecture 6 - Normative Ethical Theories : Utilitarianism
Link NOC:The Ethical Corporation Lecture 7 - Normative Ethical Theories : Deontological Ethics
Link NOC:The Ethical Corporation Lecture 8 - Normative Ethical Theories : Rights and Justice
Link NOC:The Ethical Corporation Lecture 9 - Normative Ethical Theories : Virtue Ethics
Link NOC:The Ethical Corporation Lecture 10 - Normative Ethical Theories : Care Ethics
Link NOC:The Ethical Corporation Lecture 11 - Managing Ethics within the Corporation
Link NOC:The Ethical Corporation Lecture 12 - Managing Ethics within the Organization : Formal Approach
Link NOC:The Ethical Corporation Lecture 13 - Managing Ethics within a Corporation : Formal and Informal Approach
Link NOC:The Ethical Corporation Lecture 14 - How to Manage Inter - Personal Ethical Misconduct at Workplace
Link NOC:The Ethical Corporation Lecture 15 - How to Apply Ethics
Link NOC:The Ethical Corporation Lecture 16 - Understanding Corporate Governance
Link NOC:The Ethical Corporation Lecture 17 - Conflicts and Key Elements in Corporate Governance
Link NOC:The Ethical Corporation Lecture 18 - Specific Areas of Concern in Corporate Governance and Countermeasures - I
Link NOC:The Ethical Corporation Lecture 19 - Specific Areas of Concern in Corporate Governance and Countermeasures - II
Link NOC:The Ethical Corporation Lecture 20 - Concluding Session on Corporate Governance
Link NOC:The Ethical Corporation Lecture 21 - Investing in Human relations: Employees as stakeholders and Investors of Human Capital
Link NOC:The Ethical Corporation Lecture 22 - Employer-employee: Duties and rights from both sides
Link NOC:The Ethical Corporation Lecture 23 - Organization model and employer-employee relation
Link NOC:The Ethical Corporation Lecture 24 - Some specific issues in employer-employee relationship
Link NOC:The Ethical Corporation Lecture 25 - Employees All Over the World
Link NOC:The Ethical Corporation Lecture 26 - The Ethical Corporation : Natural Environment
Link NOC:The Ethical Corporation Lecture 27 - Corporate Obligations to Natural Environment through the Laws
Link NOC:The Ethical Corporation Lecture 28 - Corporate Obligations to Natural Environment through Appeal to Business Sense and Strategy
Link NOC:The Ethical Corporation Lecture 29 - Corporate Obligations to Natural Environment on Ethical Grounds
Link NOC:The Ethical Corporation Lecture 30 - Environmental Obligations : What Can an Ethical Corporation Do?
Link NOC:The Ethical Corporation Lecture 31 - Consumers as Stakeholders and Consumer Protection
Link NOC:The Ethical Corporation Lecture 32 - Ethics of Consumer Protection
Link NOC:The Ethical Corporation Lecture 33 - Consumer ethics: Duty of a Corporation in marketing communication and promotion
Link NOC:The Ethical Corporation Lecture 34 - Consumer ethics: Ethical issues in Marketing Management
Link NOC:The Ethical Corporation Lecture 35 - Consumer Ethics: Duty of the Consumers
Link NOC:The Ethical Corporation Lecture 36 - Competitors as Stakeholders and Fiar Competition
Link NOC:The Ethical Corporation Lecture 37 - What is NOT Fair Competition
Link NOC:The Ethical Corporation Lecture 38 - Competitors as Stakeholders; Global Competition
Link NOC:The Ethical Corporation Lecture 39 - Suppliers as Stakeholders : Ethics in Supply Chain
Link NOC:The Ethical Corporation Lecture 40 - Competitors and Suppliers : What can an Ethical Corporation Do?
Link NOC:Intellectual Property Rights and Competition Law Lecture 1 - Concept of Intellectual Property Law Patents
Link NOC:Intellectual Property Rights and Competition Law Lecture 2 - Trademark
Link NOC:Intellectual Property Rights and Competition Law Lecture 3 - Geographical Indications
Link NOC:Intellectual Property Rights and Competition Law Lecture 4 - Copyright
Link NOC:Intellectual Property Rights and Competition Law Lecture 5 - Industrial Designs
Link NOC:Intellectual Property Rights and Competition Law Lecture 6 - Integrated Circuits Layout Designs
Link NOC:Intellectual Property Rights and Competition Law Lecture 7 - Trade Secrets or Undisclosd Information
Link NOC:Intellectual Property Rights and Competition Law Lecture 8 - Information Competition Law
Link NOC:Intellectual Property Rights and Competition Law Lecture 9 - Introduction to Competition Law (Continued...)
Link NOC:Intellectual Property Rights and Competition Law Lecture 10 - Introduction Competieion Low Anti-Competitive Practices
Link NOC:Intellectual Property Rights and Competition Law Lecture 11 - Bid-Rigging
Link NOC:Intellectual Property Rights and Competition Law Lecture 12 - Introduction Competition Law - Vertical Agreements
Link NOC:Intellectual Property Rights and Competition Law Lecture 13 - Abuse of Dominance, Combinations
Link NOC:Intellectual Property Rights and Competition Law Lecture 14 - Regulation of Combinations
Link NOC:Intellectual Property Rights and Competition Law Lecture 15 - Economic Theory of Ip And Competition
Link NOC:Intellectual Property Rights and Competition Law Lecture 16 - Interface Between Ip And Competition
Link NOC:Intellectual Property Rights and Competition Law Lecture 17 - The United States Anti-Trust Law
Link NOC:Intellectual Property Rights and Competition Law Lecture 18 - Tying Arrangements And Intellectual Property Under Sharman Act
Link NOC:Intellectual Property Rights and Competition Law Lecture 19 - Unites States Jurisprudence: Unilateral Refusal To License Or Deal
Link NOC:Intellectual Property Rights and Competition Law Lecture 20 - Price Fixing And Antitrust Law
Link NOC:Intellectual Property Rights and Competition Law Lecture 21 - Market Allocation And Ipr
Link NOC:Intellectual Property Rights and Competition Law Lecture 22 - Vertical Restraints
Link NOC:Intellectual Property Rights and Competition Law Lecture 23 - Vertical Restraints (Contd)
Link NOC:Intellectual Property Rights and Competition Law Lecture 24 - Enforcement of Anti-Trust Law in United States
Link NOC:Intellectual Property Rights and Competition Law Lecture 25 - Introduction To EU Competition Policy And IPR
Link NOC:Intellectual Property Rights and Competition Law Lecture 26 - IP Based Conduct under Article 101
Link NOC:Intellectual Property Rights and Competition Law Lecture 27 - IP Based Conduct under Article 102
Link NOC:Intellectual Property Rights and Competition Law Lecture 28 - IP Based Conduct under Article 102
Link NOC:Intellectual Property Rights and Competition Law Lecture 29 - Technology Transfer Agreements
Link NOC:Intellectual Property Rights and Competition Law Lecture 30 - TTBER and safe harbor provisions
Link NOC:Intellectual Property Rights and Competition Law Lecture 31 - Standard Essential Patents and FRAND Terms
Link NOC:Intellectual Property Rights and Competition Law Lecture 32 - Introduction to Competition Law in India (Continued...)
Link NOC:Intellectual Property Rights and Competition Law Lecture 33 - Introduction to Competition Law in India (Continued...)
Link NOC:Intellectual Property Rights and Competition Law Lecture 34 - Introduction to Competition Law in India (Continued...)
Link NOC:Intellectual Property Rights and Competition Law Lecture 35 - IP Licensing and Indian Competition Law
Link NOC:Intellectual Property Rights and Competition Law Lecture 36 - IP Licensing and Indian Competition Law (Continued...)
Link NOC:Intellectual Property Rights and Competition Law Lecture 37 - IP Licensing and Indian Competition Law (Continued...)
Link NOC:Intellectual Property Rights and Competition Law Lecture 38 - IP Licensing and Indian Competition Law (Continued...)
Link NOC:Intellectual Property Rights and Competition Law Lecture 39 - Patent and Competition Law
Link NOC:Intellectual Property Rights and Competition Law Lecture 40 - Trademark, Copyright and Competition Law
Link NOC:Intellectual Property Rights and Competition Law Lecture 41 - TRIPS and Competition Law
Link NOC:Intellectual Property Rights and Competition Law Lecture 42 - TRIPS and Competition Law (Continued...)
Link NOC:Intellectual Property Rights and Competition Law Lecture 43 - Summary
Link NOC:Patent Search for Engineers and Lawyers Lecture 1 - Introduction to IPR
Link NOC:Patent Search for Engineers and Lawyers Lecture 2 - IP-Economic Rationale
Link NOC:Patent Search for Engineers and Lawyers Lecture 3 - Patentability-Novelty - I
Link NOC:Patent Search for Engineers and Lawyers Lecture 4 - Patentability-Novelty - II
Link NOC:Patent Search for Engineers and Lawyers Lecture 5 - Non-Obviousness
Link NOC:Patent Search for Engineers and Lawyers Lecture 6 - How to read a patent document
Link NOC:Patent Search for Engineers and Lawyers Lecture 7 - How to read a patent document
Link NOC:Patent Search for Engineers and Lawyers Lecture 8 - Introduction to patent search
Link NOC:Patent Search for Engineers and Lawyers Lecture 9 - Introduction to patent search
Link NOC:Patent Search for Engineers and Lawyers Lecture 10 - Fundamentals of patent search
Link NOC:Patent Search for Engineers and Lawyers Lecture 11 - Fundamentals of patent search
Link NOC:Patent Search for Engineers and Lawyers Lecture 12 - Hands on Patent Search
Link NOC:Patent Search for Engineers and Lawyers Lecture 13 - Hands on Patent Search
Link NOC:Patent Search for Engineers and Lawyers Lecture 14 - Hands on Patent Search - Sequence Search
Link NOC:Patent Search for Engineers and Lawyers Lecture 15 - Hands on Patent Search - Emerging areas of Technology
Link NOC:Patent Search for Engineers and Lawyers Lecture 16 - Types of patent Search
Link NOC:Patent Search for Engineers and Lawyers Lecture 17 - Types of patent Search (Continued...)
Link NOC:Patent Search for Engineers and Lawyers Lecture 18 - Types of patent Search (Continued...)
Link NOC:Patent Search for Engineers and Lawyers Lecture 19 - Types of patent Search, Validity Search
Link NOC:Patent Search for Engineers and Lawyers Lecture 20 - Invalidity Search
Link NOC:Patent Search for Engineers and Lawyers Lecture 21 - Types of Patent Search FTO
Link NOC:Patent Search for Engineers and Lawyers Lecture 22 - Types of Patent Search
Link NOC:Patent Search for Engineers and Lawyers Lecture 23 - Introduction to patent landscape
Link NOC:Patent Search for Engineers and Lawyers Lecture 24 - Introduction to patent landscape (Continued...)
Link NOC:Patent Search for Engineers and Lawyers Lecture 25 - Introduction to patent landscape (Continued...)
Link NOC:Patent Search for Engineers and Lawyers Lecture 26 - Hands on Patent Landscape
Link NOC:Patent Search for Engineers and Lawyers Lecture 27 - Hands on Patent Landscape (Continued...)
Link NOC:Patent Search for Engineers and Lawyers Lecture 28 - Hands on Patent Landscape (Continued...)
Link NOC:Patent Search for Engineers and Lawyers Lecture 29 - Hands on Patent Landscape (Continued...)
Link NOC:Patent Search for Engineers and Lawyers Lecture 30 - Hands on Patent Landscape (Continued...)
Link NOC:Patent Search for Engineers and Lawyers Lecture 31 - Analytical tools for Patent search and analysis
Link NOC:Patent Search for Engineers and Lawyers Lecture 32 - Analytical tools for Patent search and analysis (Continued...)
Link NOC:Patent Search for Engineers and Lawyers Lecture 33 - Analytical tools for Patent search and analysis (Continued...)
Link NOC:Patent Search for Engineers and Lawyers Lecture 34 - Analytical tools for Patent search and analysis (Continued...)
Link NOC:Patent Search for Engineers and Lawyers Lecture 35 - Analytical tools for Patent search and analysis (Continued...)
Link NOC:Patent Search for Engineers and Lawyers Lecture 36 - Analytical tools for Patent search and analysis (Continued...)
Link NOC:Patent Search for Engineers and Lawyers Lecture 37 - Administrative Enforcement
Link NOC:Patent Search for Engineers and Lawyers Lecture 38 - Judicial Enforcement
Link NOC:Patent Search for Engineers and Lawyers Lecture 39 - DOE
Link NOC:Patent Search for Engineers and Lawyers Lecture 40 - Patent Infringement
Link Infrastructure Finance Lecture 1 - Introduction
Link Infrastructure Finance Lecture 2 - Overview on Infrastructure Financing Sources
Link Infrastructure Finance Lecture 3 - Basics of Financial Management - Part-1
Link Infrastructure Finance Lecture 4 - Basics of Financial Management - Part-2
Link Infrastructure Finance Lecture 5 - Basics of Financial Management - Part-3
Link Infrastructure Finance Lecture 6 - Basics of Financial Management - Part-4
Link Infrastructure Finance Lecture 7 - Analysis of company Performance - Part-1
Link Infrastructure Finance Lecture 8 - Analysis of company Performance - Part-2
Link Infrastructure Finance Lecture 9 - Analysis of Project Viability Time value of money
Link Infrastructure Finance Lecture 10 - Analysis of Project Viability Cost of Capital
Link Infrastructure Finance Lecture 11 - Analysis of Project Viability Capital Budgeting Techniques - I
Link Infrastructure Finance Lecture 12 - Analysis of Project Viability Capital Budgeting Guidelines - II
Link Infrastructure Finance Lecture 13 - Analysis of Project Viability Capital Budgeting Guidelines - III
Link Infrastructure Finance Lecture 14 - Analysis of Project Viability Capital Budgeting Guidelines - IV
Link Infrastructure Finance Lecture 15 - Overview and introduction to project finance
Link Infrastructure Finance Lecture 16 - Project Financing Attributes and Motivations - I
Link Infrastructure Finance Lecture 17 - Project Financing Attributes and Motivations - II
Link Infrastructure Finance Lecture 18 - Project Finance Markets - I
Link Infrastructure Finance Lecture 19 - Project Finance Markets - II
Link Infrastructure Finance Lecture 20 - Project Finance Markets - III
Link Infrastructure Finance Lecture 21 - Project Finance Markets Mezzanine / Sub-ordinated Debt
Link Infrastructure Finance Lecture 22 - Project Finance Markets - Type of Dept and Leasing
Link Infrastructure Finance Lecture 23 - Project Finance Markets - Financial Intermediation
Link Infrastructure Finance Lecture 24 - Project Finance Markets - Loan Refinancing
Link Infrastructure Finance Lecture 25 - Project Finance Markets - Project Bonds - I
Link Infrastructure Finance Lecture 26 - Project Finance Markets - Project Bonds - II
Link Infrastructure Finance Lecture 27 - Public Private Partnerships
Link Infrastructure Finance Lecture 28 - Risk Management - I
Link Infrastructure Finance Lecture 29 - Risk Management - II
Link Infrastructure Finance Lecture 30 - Risk Management - III
Link Infrastructure Finance Lecture 31 - Risk Management - Market Risks
Link Infrastructure Finance Lecture 32 - Risk Management - Country / Political risks - I
Link Infrastructure Finance Lecture 33 - Risk Management - Country / Political risks - II
Link Infrastructure Finance Lecture 34 - Risk Management - Country / Political risks - III
Link Infrastructure Finance Lecture 35 - Risk Management - Country / Political risks - IV
Link Infrastructure Finance Lecture 36 - Context of infrastructure development - I
Link Infrastructure Finance Lecture 37 - Context of infrastructure development - II
Link Infrastructure Finance Lecture 38 - Context of infrastructure development - III
Link Infrastructure Finance Lecture 39 - Context of infrastructure development - IV
Link Infrastructure Finance Lecture 40 - Context of infrastructure development - V
Link Manufacturing Systems Management Lecture 1 - Introduction to Manufacturing Systems Management
Link Manufacturing Systems Management Lecture 2 - Different types of Manufacturing Systems
Link Manufacturing Systems Management Lecture 3 - Introduction to Cellular Manufacturing
Link Manufacturing Systems Management Lecture 4 - Cellular Manufacturing Applications, Production Flow Analysis
Link Manufacturing Systems Management Lecture 5 - Production Flow Analysis
Link Manufacturing Systems Management Lecture 6 - Cellular Manufacturing - Unidirectional flow, Capacity Planning, Layout
Link Manufacturing Systems Management Lecture 7 - Exercise on Production Flow Analysis
Link Manufacturing Systems Management Lecture 8 - Rank Order Clustering, Similarity Coefficient based algorithm
Link Manufacturing Systems Management Lecture 9 - Similarity Coefficient based clustering algorithm
Link Manufacturing Systems Management Lecture 10 - Hierarchical and Non hierarchical clustering algorithms
Link Manufacturing Systems Management Lecture 11 - Optimization based algorithms
Link Manufacturing Systems Management Lecture 12 - Optimization based algorithms, Assignment based algorithm
Link Manufacturing Systems Management Lecture 13 - Assignment model, Algorithm considering sequence of visit of machines
Link Manufacturing Systems Management Lecture 14 - Algorithm considering sequence of visit of machines
Link Manufacturing Systems Management Lecture 15 - Algorithm considering cell load data, alternate process plans
Link Manufacturing Systems Management Lecture 16 - Reducing Intercell moves
Link Manufacturing Systems Management Lecture 17 - Part subcontracting, Incremental cell formation
Link Manufacturing Systems Management Lecture 18 - Product based cells
Link Manufacturing Systems Management Lecture 19 - Branching algorithm for product based cells, Operator and task assignment
Link Manufacturing Systems Management Lecture 20 - Operator and task assignment
Link Manufacturing Systems Management Lecture 21 - Operator and task assignment continued
Link Manufacturing Systems Management Lecture 22 - Static and dynamic Operator allocation, Multiple products and incremental cells
Link Manufacturing Systems Management Lecture 23 - Cell scheduling and sequencing
Link Manufacturing Systems Management Lecture 24 - Cell scheduling and sequencing continued
Link Manufacturing Systems Management Lecture 25 - Single piece transportation
Link Manufacturing Systems Management Lecture 26 - Cell Layout, Introduction to Just-in-time manufacturing
Link Manufacturing Systems Management Lecture 27 - Cell control and JIT
Link Manufacturing Systems Management Lecture 28 - Basic elements of JIT, Kanban systems
Link Manufacturing Systems Management Lecture 29 - Role of basic elements, Critical success factors
Link Manufacturing Systems Management Lecture 30 - Models in JIT
Link Manufacturing Systems Management Lecture 31 - Models in JIT continued
Link Manufacturing Systems Management Lecture 32 - CONWIP, Introduction to synchronous manufacturing
Link Manufacturing Systems Management Lecture 33 - Theory of constraints, Product mix problem
Link Manufacturing Systems Management Lecture 34 - Statistical Fluctuations, Random events, principles of SM
Link Manufacturing Systems Management Lecture 35 - Scheduling in SM
Link Manufacturing Systems Management Lecture 36 - Drum Buffer Rope system
Link Manufacturing Systems Management Lecture 37 - Flexible Manufacturing System, Part selection problem
Link Manufacturing Systems Management Lecture 38 - FMS Loading problem
Link Manufacturing Systems Management Lecture 39 - FMS Loading, multiple batches and changeover times
Link Manufacturing Systems Management Lecture 40 - FMS Loading and scheduling, Summary of the course contents
Link Operations and Supply Chain Management Lecture 1 - Introduction - (Challenges, Methodologies)
Link Operations and Supply Chain Management Lecture 2 - Forecasting - Time series models - Simple Exponential smoothing
Link Operations and Supply Chain Management Lecture 3 - Forecasting - Linear Models, Regression, Holt’s , seasonality
Link Operations and Supply Chain Management Lecture 4 - Forecasting - Winter’s model, causal models, Goodness of forecast, Aggregate Planning, Tabular method
Link Operations and Supply Chain Management Lecture 5 - Aggregate Planning, Tabular method, Linear Programming
Link Operations and Supply Chain Management Lecture 6 - Aggregate Planning, Transportation model
Link Operations and Supply Chain Management Lecture 7 - Aggregate Planning, Dynamic Programming, backordering
Link Operations and Supply Chain Management Lecture 8 - Aggregate Planning, Quadratic model, Demand and capacity planning
Link Operations and Supply Chain Management Lecture 9 - Inventory Models - Costs, EOQ model
Link Operations and Supply Chain Management Lecture 10 - Inventory - EOQ model graphs, with backordering
Link Operations and Supply Chain Management Lecture 11 - Inventory - Models for all quantity and marginal quantity Discount
Link Operations and Supply Chain Management Lecture 12 - Multiple Quantity Discount, Multiple item inventory - Constraint on numbers of orders
Link Operations and Supply Chain Management Lecture 13 - Multiple item inventory - Constraint on money value, space, equal number of orders
Link Operations and Supply Chain Management Lecture 14 - Multiple item inventory - combining orders, production consumption model
Link Operations and Supply Chain Management Lecture 15 - Inventory - Production consumption model with backordering, Economic lot scheduling problem
Link Operations and Supply Chain Management Lecture 16 - Economic lot scheduling problem, Supply Chain inventory
Link Operations and Supply Chain Management Lecture 17 - Lot sizing
Link Operations and Supply Chain Management Lecture 18 - Lot sizing - heuristics
Link Operations and Supply Chain Management Lecture 19 - Disaggregation
Link Operations and Supply Chain Management Lecture 20 - Disaggregation - time varying demand, Safety stock - ROL for discrete demand distribution
Link Operations and Supply Chain Management Lecture 21 - Safety stock - ROL for normal distribution of lead time demand
Link Operations and Supply Chain Management Lecture 22 - Integrated model, ROL for normal distribution of LTD and given mean
Link Operations and Supply Chain Management Lecture 23 - Safety stock reduction – delayed Product differentiation, substitution. MOM
Link Operations and Supply Chain Management Lecture 24 - Sequencing and scheduling – Assumptions, objectives and shop settings
Link Operations and Supply Chain Management Lecture 25 - Single machine sequencing. Two machine flow shop – Johnson’s algorithm
Link Operations and Supply Chain Management Lecture 26 - Flow shop scheduling - Three machines, Johnson’s algorithm and Branch and bound algorithm
Link Operations and Supply Chain Management Lecture 27 - Flow shop scheduling - heuristics – Palmer, Campbell Dudek Smith algorithm
Link Operations and Supply Chain Management Lecture 28 - Job shop scheduling - Gantt chart, Different dispatching rules
Link Operations and Supply Chain Management Lecture 29 - Job shop scheduling - Shifting bottleneck heuristic
Link Operations and Supply Chain Management Lecture 30 - Job shop scheduling - Shifting bottleneck heuristic. Line Balancing
Link Operations and Supply Chain Management Lecture 31 - Line Balancing
Link Operations and Supply Chain Management Lecture 32 - Location problems - p median problem, Fixed charge problem
Link Operations and Supply Chain Management Lecture 33 - Location allocation problems in supply chain. Layout
Link Operations and Supply Chain Management Lecture 34 - Quantitative models for layout, Summary
Link Operations and Supply Chain Management Lecture 35 - Introduction to Supply Chain Management
Link Operations and Supply Chain Management Lecture 36 - Location Problems
Link Operations and Supply Chain Management Lecture 37 - Transportation and Distribution Models
Link Operations and Supply Chain Management Lecture 38 - Transportation and Distribution Models(continued)
Link Operations and Supply Chain Management Lecture 39 - Bin Packing and Travelling Salesman Problems
Link Operations and Supply Chain Management Lecture 40 - Vehicle Routeing Problems
Link Operations and Supply Chain Management Lecture 41 - Value of Information
Link Business Analysis for Engineers Lecture 1 - Introduction to Business Analysis for Engineers
Link Business Analysis for Engineers Lecture 2 - Introduction to Accounting
Link Business Analysis for Engineers Lecture 3 - Accounting Principles - 1
Link Business Analysis for Engineers Lecture 4 - Balance Sheet Fundamentals
Link Business Analysis for Engineers Lecture 5 - Balance Sheet Fundamentals
Link Business Analysis for Engineers Lecture 6 - Accounting Principles - 2
Link Business Analysis for Engineers Lecture 7 - Introduction to Income Statement & Double Entry
Link Business Analysis for Engineers Lecture 8 - Double Entry Examples - 1
Link Business Analysis for Engineers Lecture 9 - Double Entry Examples - 2
Link Business Analysis for Engineers Lecture 10 - Preparation of Financial Statement
Link Business Analysis for Engineers Lecture 11 - Cash Flow Statement - 1
Link Business Analysis for Engineers Lecture 12 - Cash Flow Statement - 2
Link Business Analysis for Engineers Lecture 13 - Special Accounts Illustrations
Link Business Analysis for Engineers Lecture 14 - Final Illustrative Example
Link Business Analysis for Engineers Lecture 15 - Summary of Financial Accounting
Link Business Analysis for Engineers Lecture 16 - Introduction to Management Accounting & Behaviour of Cost
Link Business Analysis for Engineers Lecture 17 - Cost-Volume Relationship
Link Business Analysis for Engineers Lecture 18 - Cost-Objects & Variance
Link Business Analysis for Engineers Lecture 19 - Labour & Over Heads Variance Analysis
Link Business Analysis for Engineers Lecture 20 - Cash Conversion Cycle
Link Business Analysis for Engineers Lecture 21 - Inventory Management
Link Business Analysis for Engineers Lecture 22 - What is Strategy?
Link Business Analysis for Engineers Lecture 23 - Poter's Diamond Model
Link Business Analysis for Engineers Lecture 24 - Industry Analysis
Link Business Analysis for Engineers Lecture 25 - Industry Analysis & Sources of Strategy
Link Business Analysis for Engineers Lecture 26 - The Need for Value
Link Business Analysis for Engineers Lecture 27 - Value Chain Analysis
Link Business Analysis for Engineers Lecture 28 - Corporate Portfolio Analysis
Link Business Analysis for Engineers Lecture 29 - External & Internal Environ Analysis
Link Business Analysis for Engineers Lecture 30 - Models for Strategy,Ansoff matrix
Link Business Analysis for Engineers Lecture 31 - Porter's Generic Strategy
Link Business Analysis for Engineers Lecture 32 - Prahlad's Core Competency
Link Business Analysis for Engineers Lecture 33 - Case study to understand strategy
Link Business Analysis for Engineers Lecture 34 - Case study to understand strategy
Link Business Analysis for Engineers Lecture 35 - Blue ocean and conclusion
Link Business Analysis for Engineers Lecture 36 - Introduction to Economics
Link Business Analysis for Engineers Lecture 37 - Introduction to GDP
Link Business Analysis for Engineers Lecture 38 - Supply vs Demand
Link Business Analysis for Engineers Lecture 39 - Price & Income Elasticity and Utility
Link Business Analysis for Engineers Lecture 40 - Macroeconomic Variables
Link Business Analysis for Engineers Lecture 41 - Fiscal & Monetary Policy
Link Business Analysis for Engineers Lecture 42 - Union Budget & Conclusion
Link NOC:Introduction to Operations Research Lecture 1 - Linear Programming Introduction and formulations - Product Mix problem and Notations
Link NOC:Introduction to Operations Research Lecture 2 - Linear Programming Introduction and formulations - Manpower and Production planning formulations
Link NOC:Introduction to Operations Research Lecture 3 - Linear Programming Introduction and formulations - Media selection problem and Bicycle problem
Link NOC:Introduction to Operations Research Lecture 4 - Linear Programming Introduction and formulations - Caterer problem
Link NOC:Introduction to Operations Research Lecture 5 - Linear Programming Introduction and formulations - Maximum flow and bin packing problems
Link NOC:Introduction to Operations Research Lecture 6 - Graphical and Algebraic methods - Graphical method (maximization)
Link NOC:Introduction to Operations Research Lecture 7 - Graphical and Algebraic methods - Graphical method (minimization)
Link NOC:Introduction to Operations Research Lecture 8 - Graphical and Algebraic methods - Algebraic method (maximization)
Link NOC:Introduction to Operations Research Lecture 9 - Graphical and Algebraic methods - Algebraic method (minimization)
Link NOC:Introduction to Operations Research Lecture 10 - Graphical and Algebraic methods - Comparing graphical and algebraic methods
Link NOC:Introduction to Operations Research Lecture 11 - Simplex Algorithm - Algebraic form of simplex algorithm
Link NOC:Introduction to Operations Research Lecture 12 - Simplex Algorithm - Tabular form of simplex (maximization)
Link NOC:Introduction to Operations Research Lecture 13 - Simplex Algorithm - Tabular form (minimization)
Link NOC:Introduction to Operations Research Lecture 14 - Simplex Algorithm - Unboundedness
Link NOC:Introduction to Operations Research Lecture 15 - Simplex Algorithm - Infeasibility
Link NOC:Introduction to Operations Research Lecture 16 - Dual - Motivation to the dual
Link NOC:Introduction to Operations Research Lecture 17 - Dual - Writing the dual for a general LP
Link NOC:Introduction to Operations Research Lecture 18 - Dual - Writing the dual for a general LP (Continued...)
Link NOC:Introduction to Operations Research Lecture 19 - Dual - Duality theorems
Link NOC:Introduction to Operations Research Lecture 20 - Dual - Complimentary slackness theorem
Link NOC:Introduction to Operations Research Lecture 21 - Primal dual relationships - Dual solution using complimentary slackness
Link NOC:Introduction to Operations Research Lecture 22 - Primal dual relationships - Dual solution from simplex table; economic interpretation of dual
Link NOC:Introduction to Operations Research Lecture 23 - Primal dual relationships - Economic Interpretation of the dual; Dual Simplex algorithm
Link NOC:Introduction to Operations Research Lecture 24 - Primal dual relationships - Solving LPs with mixed type of constraints
Link NOC:Introduction to Operations Research Lecture 25 - Primal dual relationships - Matrix method for LP problems
Link NOC:Introduction to Operations Research Lecture 26 - Introducing the transportation problem
Link NOC:Introduction to Operations Research Lecture 27 - North West corner Rule and minimum cost method
Link NOC:Introduction to Operations Research Lecture 28 - Penalty cost method
Link NOC:Introduction to Operations Research Lecture 29 - Stepping stone method and Modified Distribution method
Link NOC:Introduction to Operations Research Lecture 30 - MODI method; Dual of the transportation problem and the optimality of the MODI method
Link NOC:Introduction to Operations Research Lecture 31 - Introducing the Assignment problem
Link NOC:Introduction to Operations Research Lecture 32 - Solving the Assignment problem
Link NOC:Introduction to Operations Research Lecture 33 - Hungarian algorithm; Alternate optimum
Link NOC:Introduction to Operations Research Lecture 34 - Unequal number of rows and columns; Dual of the assignment problem
Link NOC:Introduction to Operations Research Lecture 35 - Optimality of the Hungarian algorithm
Link NOC:Introduction to Operations Research Lecture 36 - Setting up the problem and solving simple LP problems
Link NOC:Introduction to Operations Research Lecture 37 - Unboundedness and infeasibility
Link NOC:Introduction to Operations Research Lecture 38 - Solving other formulations
Link NOC:Introduction to Operations Research Lecture 39 - Solving a transportation problem
Link NOC:Introduction to Operations Research Lecture 40 - Solving an assignment problem
Link NOC:Introduction to Data Analytics Lecture 1 - Course Overview
Link NOC:Introduction to Data Analytics Lecture 2 - Course Overview (Continued...)
Link NOC:Introduction to Data Analytics Lecture 3 - Descriptive Statistics - Graphical Approaches
Link NOC:Introduction to Data Analytics Lecture 4 - Descriptive Statistics - Measures of Central Tendency
Link NOC:Introduction to Data Analytics Lecture 5 - Descriptive Statistics - Measures of Dispersion
Link NOC:Introduction to Data Analytics Lecture 6 - Random Variables and Probability Distributions
Link NOC:Introduction to Data Analytics Lecture 7 - Probability Distributions (Continued...)
Link NOC:Introduction to Data Analytics Lecture 8 - Probability Distributions (Continued...)
Link NOC:Introduction to Data Analytics Lecture 9 - Inferential Statistics - Motivation
Link NOC:Introduction to Data Analytics Lecture 10 - Inferential Statistics - Single sample tests
Link NOC:Introduction to Data Analytics Lecture 11 - Two Sample tests
Link NOC:Introduction to Data Analytics Lecture 12 - Type 1 and Type 2 Errors
Link NOC:Introduction to Data Analytics Lecture 13 - Confidence Intervals
Link NOC:Introduction to Data Analytics Lecture 14 - ANOVA and Test of Independence
Link NOC:Introduction to Data Analytics Lecture 15 - Short Introduction to Regression
Link NOC:Introduction to Data Analytics Lecture 16 - Introduction to Machine Learning
Link NOC:Introduction to Data Analytics Lecture 17 - Supervised Learning
Link NOC:Introduction to Data Analytics Lecture 18 - Unsupervised Learning
Link NOC:Introduction to Data Analytics Lecture 19 - Ordinary Least Squares Regression
Link NOC:Introduction to Data Analytics Lecture 20 - Simple and Multiple Regression in Excel and Matlab
Link NOC:Introduction to Data Analytics Lecture 21 - Regularization/ Coefficients Shrinkage
Link NOC:Introduction to Data Analytics Lecture 22 - Data Modelling and Algorithmic Modelling Approaches
Link NOC:Introduction to Data Analytics Lecture 23 - Logistic Regression
Link NOC:Introduction to Data Analytics Lecture 24 - Training a Logistic Regression Classifier
Link NOC:Introduction to Data Analytics Lecture 25 - Classification and Regression Trees
Link NOC:Introduction to Data Analytics Lecture 26 - Classification and Regression Trees (Continued...)
Link NOC:Introduction to Data Analytics Lecture 27 - Bias Variance Dichotomy
Link NOC:Introduction to Data Analytics Lecture 28 - Model Assessment and Selection
Link NOC:Introduction to Data Analytics Lecture 29 - Support Vector Machines
Link NOC:Introduction to Data Analytics Lecture 30 - Support Vector Machines (Continued...)
Link NOC:Introduction to Data Analytics Lecture 31 - Support Vector Machines for Non Linearly Separable Data
Link NOC:Introduction to Data Analytics Lecture 32 - Support Vector Machines and Kernel Transformations
Link NOC:Introduction to Data Analytics Lecture 33 - Ensemble Methods and Random Forests
Link NOC:Introduction to Data Analytics Lecture 34 - Artificial Neural Networks
Link NOC:Introduction to Data Analytics Lecture 35 - Artificial Neural Networks (Continued...)
Link NOC:Introduction to Data Analytics Lecture 36 - Deep Learning
Link NOC:Introduction to Data Analytics Lecture 37 - Associative Rule Mining
Link NOC:Introduction to Data Analytics Lecture 38 - Association Rule Mining (Continued...)
Link NOC:Introduction to Data Analytics Lecture 39 - Big Data - A small introduction
Link NOC:Introduction to Data Analytics Lecture 40 - Big Data - A small introduction (Continued...)
Link NOC:Introduction to Data Analytics Lecture 41 - Clustering Analysis
Link NOC:Introduction to Data Analytics Lecture 42 - Clustering Analysis (Continued...)
Link NOC:Introduction to Data Analytics Lecture 43 - Introduction to Experimentation and Active Learning
Link NOC:Introduction to Data Analytics Lecture 44 - Introduction to Experimentation and Active Learning (Continued...)
Link NOC:Introduction to Data Analytics Lecture 45 - An Introduction to Online Learning - Reinforcement Learning
Link NOC:Introduction to Data Analytics Lecture 46 - An Introduction to Online Learning - Reinforcement Learning (Continued...)
Link NOC:Introduction to Data Analytics Lecture 47 - Summary + Insights into the Final Exam
Link NOC:Introduction to Data analytics Lecture 1 - Course Overview
Link NOC:Introduction to Data analytics Lecture 2 - Course Overview (Continued...)
Link NOC:Introduction to Data analytics Lecture 3 - Descriptive Statistics - Graphical Approaches
Link NOC:Introduction to Data analytics Lecture 4 - Descriptive Statistics - Measures of Central Tendency
Link NOC:Introduction to Data analytics Lecture 5 - Descriptive Statistics - Measures of Dispersion
Link NOC:Introduction to Data analytics Lecture 6 - Random Variables and Probability Distributions
Link NOC:Introduction to Data analytics Lecture 7 - Probability Distributions (Continued...)
Link NOC:Introduction to Data analytics Lecture 8 - Probability Distributions (Continued...)
Link NOC:Introduction to Data analytics Lecture 9 - Inferential Statistics - Motivation
Link NOC:Introduction to Data analytics Lecture 10 - Inferential Statistics - Single sample tests
Link NOC:Introduction to Data analytics Lecture 11 - Two Sample tests
Link NOC:Introduction to Data analytics Lecture 12 - Type 1 and Type 2 Errors
Link NOC:Introduction to Data analytics Lecture 13 - Confidence Intervals
Link NOC:Introduction to Data analytics Lecture 14 - ANOVA and Test of Independence
Link NOC:Introduction to Data analytics Lecture 15 - Short Introduction to Regression
Link NOC:Introduction to Data analytics Lecture 16 - Introduction to Machine Learning
Link NOC:Introduction to Data analytics Lecture 17 - Supervised Learning
Link NOC:Introduction to Data analytics Lecture 18 - Unsupervised Learning
Link NOC:Introduction to Data analytics Lecture 19 - Ordinary Least Squares Regression
Link NOC:Introduction to Data analytics Lecture 20 - Simple and Multiple Regression in Excel and Matlab
Link NOC:Introduction to Data analytics Lecture 21 - Regularization/ Coefficients Shrinkage
Link NOC:Introduction to Data analytics Lecture 22 - Data Modelling and Algorithmic Modelling Approaches
Link NOC:Introduction to Data analytics Lecture 23 - Logistic Regression
Link NOC:Introduction to Data analytics Lecture 24 - Training a Logistic Regression Classifier
Link NOC:Introduction to Data analytics Lecture 25 - Classification and Regression Trees
Link NOC:Introduction to Data analytics Lecture 26 - Classification and Regression Trees (Continued...)
Link NOC:Introduction to Data analytics Lecture 27 - Bias Variance Dichotomy
Link NOC:Introduction to Data analytics Lecture 28 - Model Assessment and Selection
Link NOC:Introduction to Data analytics Lecture 29 - Support Vector Machines
Link NOC:Introduction to Data analytics Lecture 30 - Support Vector Machines (Continued...)
Link NOC:Introduction to Data analytics Lecture 31 - Support Vector Machines for Non Linearly Separable Data
Link NOC:Introduction to Data analytics Lecture 32 - Support Vector Machines and Kernel Transformations
Link NOC:Introduction to Data analytics Lecture 33 - Ensemble Methods and Random Forests
Link NOC:Introduction to Data analytics Lecture 34 - Artificial Neural Networks
Link NOC:Introduction to Data analytics Lecture 35 - Artificial Neural Networks (Continued...)
Link NOC:Introduction to Data analytics Lecture 36 - Deep Learning
Link NOC:Introduction to Data analytics Lecture 37 - Associative Rule Mining
Link NOC:Introduction to Data analytics Lecture 38 - Association Rule Mining (Continued...)
Link NOC:Introduction to Data analytics Lecture 39 - Big Data, A small introduction
Link NOC:Introduction to Data analytics Lecture 40 - Big Data, A small introduction (Continued...)
Link NOC:Introduction to Data analytics Lecture 41 - Clustering Analysis
Link NOC:Introduction to Data analytics Lecture 42 - Clustering Analysis (Continued...)
Link NOC:Introduction to Data analytics Lecture 43 - Introduction to Experimentation and Active Learning
Link NOC:Introduction to Data analytics Lecture 44 - Introduction to Experimentation and Active Learning (Continued...)
Link NOC:Introduction to Data analytics Lecture 45 - An Introduction to Online Learning - Reinforcement Learning
Link NOC:Introduction to Data analytics Lecture 46 - An Introduction to Online Learning - Reinforcement Learning (Continued...)
Link NOC:Introduction to Data analytics Lecture 47 - Summary - Insights into the Final Exam
Link NOC:Introduction to Data analytics Lecture 48 - Tutorial on weka
Link NOC:Introduction to Data analytics Lecture 49 - Tutorial on Decision Trees
Link NOC:Introduction to Data analytics Lecture 50 - Big Data - A Small Introduction (Continued...)
Link NOC:Patent Law for Engineers and Scientists Lecture 1 - Patent Law as Concepts
Link NOC:Patent Law for Engineers and Scientists Lecture 2 - Understanding the Patents Act and the Rules
Link NOC:Patent Law for Engineers and Scientists Lecture 3 - Preliminary Sections
Link NOC:Patent Law for Engineers and Scientists Lecture 4 - Preliminary Rules
Link NOC:Patent Law for Engineers and Scientists Lecture 5 - Patents (Amendment) Rules, 2016
Link NOC:Patent Law for Engineers and Scientists Lecture 6 - Easy way to read the Patents Act and Rules
Link NOC:Patent Law for Engineers and Scientists Lecture 7 - What can be Patented?
Link NOC:Patent Law for Engineers and Scientists Lecture 8 - Inventions not Patentable
Link NOC:Patent Law for Engineers and Scientists Lecture 9 - Novelty
Link NOC:Patent Law for Engineers and Scientists Lecture 10 - Anticipation
Link NOC:Patent Law for Engineers and Scientists Lecture 11 - Inventive Step
Link NOC:Patent Law for Engineers and Scientists Lecture 12 - Capable of Industrial Application
Link NOC:Patent Law for Engineers and Scientists Lecture 13 - Person Skilled in the Art
Link NOC:Patent Law for Engineers and Scientists Lecture 14 - Complete and Provisional Specifications
Link NOC:Patent Law for Engineers and Scientists Lecture 15 - Contents of Specifications
Link NOC:Patent Law for Engineers and Scientists Lecture 16 - Structure of a Patent Specification
Link NOC:Patent Law for Engineers and Scientists Lecture 17 - Reading a Patent Specification
Link NOC:Patent Law for Engineers and Scientists Lecture 18 - Introduction to Patent Drafting: Provisional Specification
Link NOC:Patent Law for Engineers and Scientists Lecture 19 - Introduction to Patent Drafting: Complete Specification
Link NOC:Patent Law for Engineers and Scientists Lecture 20 - Who Can Apply for a Patent?
Link NOC:Patent Law for Engineers and Scientists Lecture 21 - Form of Application
Link NOC:Patent Law for Engineers and Scientists Lecture 22 - Patent Application: Making, What to include, and Types
Link NOC:Patent Law for Engineers and Scientists Lecture 23 - Powers of Controller: Generally
Link NOC:Patent Law for Engineers and Scientists Lecture 24 - Patents of Addition
Link NOC:Patent Law for Engineers and Scientists Lecture 25 - Priority Dates
Link NOC:Patent Law for Engineers and Scientists Lecture 26 - Professor's Interaction 01
Link NOC:Patent Law for Engineers and Scientists Lecture 27 - Publication of Application
Link NOC:Patent Law for Engineers and Scientists Lecture 28 - Request for Examination
Link NOC:Patent Law for Engineers and Scientists Lecture 29 - Examination of Application
Link NOC:Patent Law for Engineers and Scientists Lecture 30 - Expedited Examination of Application
Link NOC:Patent Law for Engineers and Scientists Lecture 31 - Search for Anticipation
Link NOC:Patent Law for Engineers and Scientists Lecture 32 - Procedure in case of Anticipation
Link NOC:Patent Law for Engineers and Scientists Lecture 33 - Consideration of Report of Examiner
Link NOC:Patent Law for Engineers and Scientists Lecture 34 - Refuse, Require Amendment, and Division of Applications
Link NOC:Patent Law for Engineers and Scientists Lecture 35 - Dating of Application and Anticipation
Link NOC:Patent Law for Engineers and Scientists Lecture 36 - Potential Infringement
Link NOC:Patent Law for Engineers and Scientists Lecture 37 - Orders Regarding Substitution of Applicants
Link NOC:Patent Law for Engineers and Scientists Lecture 38 - Putting Applications in Order for Grant
Link NOC:Patent Law for Engineers and Scientists Lecture 39 - Amendments during Prosecution
Link NOC:Patent Law for Engineers and Scientists Lecture 40 - Introduction to Opposition to Grant of Patents
Link NOC:Patent Law for Engineers and Scientists Lecture 41 - Pre-Grant Opposition
Link NOC:Patent Law for Engineers and Scientists Lecture 42 - Post-Grant Opposition
Link NOC:Patent Law for Engineers and Scientists Lecture 43 - Obtained Invention
Link NOC:Patent Law for Engineers and Scientists Lecture 44 - Mention of Inventor
Link NOC:Patent Law for Engineers and Scientists Lecture 45 - Opposition in General
Link NOC:Patent Law for Engineers and Scientists Lecture 46 - Secrecy Provisions
Link NOC:Patent Law for Engineers and Scientists Lecture 47 - Grant of Patents
Link NOC:Patent Law for Engineers and Scientists Lecture 48 - Rights conferred by Grant
Link NOC:Patent Law for Engineers and Scientists Lecture 49 - Rights of Co-Owners of Patents and Power of Controller to give directions
Link NOC:Patent Law for Engineers and Scientists Lecture 50 - Patent obtained by Fraud of True and First Inventor
Link NOC:Patent Law for Engineers and Scientists Lecture 51 - Term of Patent
Link NOC:Patent Law for Engineers and Scientists Lecture 52 - Restoration of Lapsed Patents
Link NOC:Patent Law for Engineers and Scientists Lecture 53 - Surrender of Patents
Link NOC:Patent Law for Engineers and Scientists Lecture 54 - Revocation of Patents
Link NOC:Patent Law for Engineers and Scientists Lecture 55 - Register of Patents
Link NOC:Patent Law for Engineers and Scientists Lecture 56 - Patent Office and its Establishment
Link NOC:Patent Law for Engineers and Scientists Lecture 57 - Patent Agents
Link NOC:Patent Law for Engineers and Scientists Lecture 58 - Use and Acquisition by Government
Link NOC:Patent Law for Engineers and Scientists Lecture 59 - Penalties
Link NOC:Patent Law for Engineers and Scientists Lecture 60 - Introduction to Compulsory Licensing
Link NOC:Patent Law for Engineers and Scientists Lecture 61 - Working of Patents
Link NOC:Patent Law for Engineers and Scientists Lecture 62 - Compulsory Licenses
Link NOC:Patent Law for Engineers and Scientists Lecture 63 - Revocation of Patents 1
Link NOC:Patent Law for Engineers and Scientists Lecture 64 - Powers of Controller
Link NOC:Patent Law for Engineers and Scientists Lecture 65 - Licensing of Related Patents
Link NOC:Patent Law for Engineers and Scientists Lecture 66 - Compulsory License on Notification by Central Government
Link NOC:Patent Law for Engineers and Scientists Lecture 67 - Compulsory License for Export of Pharma Products
Link NOC:Patent Law for Engineers and Scientists Lecture 68 - Termination of Compulsory License, Related Rules
Link NOC:Patent Law for Engineers and Scientists Lecture 69 - Intellectual Property Appellate Board
Link NOC:Patent Law for Engineers and Scientists Lecture 70 - Infringement Suits and Defences
Link NOC:Patent Law for Engineers and Scientists Lecture 71 - Reliefs in Suit for Infringement
Link NOC:Patent Law for Engineers and Scientists Lecture 72 - Declaration as to Non-Infringement
Link NOC:Patent Law for Engineers and Scientists Lecture 73 - Groundless threat of Infringement Proceedings
Link NOC:Patent Law for Engineers and Scientists Lecture 74 - Certificate of Validity
Link NOC:Patent Law for Engineers and Scientists Lecture 75 - Scientific Advisors
Link NOC:Patent Law for Engineers and Scientists Lecture 76 - International Arrangements
Link NOC:Patent Law for Engineers and Scientists Lecture 77 - Miscellaneous
Link NOC:Patent Law for Engineers and Scientists Lecture 78 - Fees
Link NOC:Design Thinking - A Primer Lecture 1 - Design Thinking - A Primer Start - Part 1
Link NOC:Design Thinking - A Primer Lecture 2 - Design Thinking - A Primer Start - Part 2
Link NOC:Design Thinking - A Primer Lecture 3 - Design Thinking - A Primer Start - Part 3
Link NOC:Design Thinking - A Primer Lecture 4 - Intro to Design Thinking
Link NOC:Design Thinking - A Primer Lecture 5 - Case Study - Arcturus IV by John E. Arnold
Link NOC:Design Thinking - A Primer Lecture 6 - Course Preview and History of Design Thinking
Link NOC:Design Thinking - A Primer Lecture 7 - Discussion - Intro to Demo Problem
Link NOC:Design Thinking - A Primer Lecture 8 - Empathize - Lecture 1
Link NOC:Design Thinking - A Primer Lecture 9 - Empathize - Workshop 1
Link NOC:Design Thinking - A Primer Lecture 10 - Empathize - Workshop 2
Link NOC:Design Thinking - A Primer Lecture 11 - Empathize - Skit
Link NOC:Design Thinking - A Primer Lecture 12 - Interviews
Link NOC:Design Thinking - A Primer Lecture 13 - Analyze - Lecture-1 5 Whys
Link NOC:Design Thinking - A Primer Lecture 14 - Analyze - 5ys - IIT Stadium levels
Link NOC:Design Thinking - A Primer Lecture 15 - Analyze - Lecture 2 Conflict of Interest
Link NOC:Design Thinking - A Primer Lecture 16 - Analyze - Workshop - Part 1
Link NOC:Design Thinking - A Primer Lecture 17 - Analyze - Workshop - Part 2
Link NOC:Design Thinking - A Primer Lecture 18 - Solve - Tea cup story
Link NOC:Design Thinking - A Primer Lecture 19 - Solve - Lecture 1
Link NOC:Design Thinking - A Primer Lecture 20 - Solve - Workshop 1
Link NOC:Design Thinking - A Primer Lecture 21 - Elephant and blind men
Link NOC:Design Thinking - A Primer Lecture 22 - Test - Lecture 1
Link NOC:Design Thinking - A Primer Lecture 23 - Test - Workshop 1
Link NOC:Design Thinking - A Primer Lecture 24 - Test - Customer reactions to prototype
Link NOC:Design Thinking - A Primer Lecture 25 - The END - Part 1
Link NOC:Design Thinking - A Primer Lecture 26 - The END - Part 2
Link NOC:Design Thinking - A Primer Lecture 27 - Finale and Appeal for proposals
Link NOC:Decision-Making Under Uncertainty Lecture 1 - Tutorial - How to Install Octave and using Octave
Link NOC:Decision-Making Under Uncertainty Lecture 2 - Background and relevance
Link NOC:Decision-Making Under Uncertainty Lecture 3 - Examples of managing uncertainty and making decisions
Link NOC:Decision-Making Under Uncertainty Lecture 4 - Risk, uncertainty and variability
Link NOC:Decision-Making Under Uncertainty Lecture 5 - Probability: Events, Conditioning and Total Probability
Link NOC:Decision-Making Under Uncertainty Lecture 6 - Discrete random variables
Link NOC:Decision-Making Under Uncertainty Lecture 7 - Continuous random variables: characterisitcs and examples
Link NOC:Decision-Making Under Uncertainty Lecture 8 - Expected Value: Mean, Variance and Functions
Link NOC:Decision-Making Under Uncertainty Lecture 9 - Multiple Random Variables: Discrete and Continuous
Link NOC:Decision-Making Under Uncertainty Lecture 10 - Criteria, Objectives and Settings for Decisions
Link NOC:Decision-Making Under Uncertainty Lecture 11 - Introduction to one-time decisions
Link NOC:Decision-Making Under Uncertainty Lecture 12 - Solving the secretary problem
Link NOC:Decision-Making Under Uncertainty Lecture 13 - Which option to gamble just once?
Link NOC:Decision-Making Under Uncertainty Lecture 14 - Utility Function
Link NOC:Decision-Making Under Uncertainty Lecture 15 - Nested one-time decisions
Link NOC:Decision-Making Under Uncertainty Lecture 16 - Decision Trees
Link NOC:Decision-Making Under Uncertainty Lecture 17 - Decisions in Game Shows: Final Jeopardy
Link NOC:Decision-Making Under Uncertainty Lecture 18 - Decisions in Game Shows: Monte Hall
Link NOC:Decision-Making Under Uncertainty Lecture 19 - Project Network and Analysis
Link NOC:Decision-Making Under Uncertainty Lecture 20 - Newsvendor Problem: Background, Model and Analysis
Link NOC:Decision-Making Under Uncertainty Lecture 21 - Newsvendor Problem: Example and Proof
Link NOC:Decision-Making Under Uncertainty Lecture 22 - Buffers to Cushion for Fluctuations
Link NOC:Decision-Making Under Uncertainty Lecture 23 - Safety Stock for Inventories
Link NOC:Decision-Making Under Uncertainty Lecture 24 - Safety Stock: Example and Derivation
Link NOC:Decision-Making Under Uncertainty Lecture 25 - Route Planning
Link NOC:Decision-Making Under Uncertainty Lecture 26 - Exploration and Exploitation
Link NOC:Decision-Making Under Uncertainty Lecture 27 - Introduction to sequential decision making
Link NOC:Decision-Making Under Uncertainty Lecture 28 - Costs, Ratings, Options and Choices for both Restaurants
Link NOC:Decision-Making Under Uncertainty Lecture 29 - Two Stage Stochastic Optimization
Link NOC:Decision-Making Under Uncertainty Lecture 30 - Concluding Remarks and Simpson's Paradox
Link NOC:Decision-Making Under Uncertainty Lecture 31 - Markov Chains for Decisions
Link NOC:Decision-Making Under Uncertainty Lecture 32 - DTMC Modeling and Analysis
Link NOC:Decision-Making Under Uncertainty Lecture 33 - Markov Decision Process Set Up
Link NOC:Decision-Making Under Uncertainty Lecture 34 - Analyzing the four policies
Link NOC:Decision making using Financial Accounting Lecture 1 - Introduction
Link NOC:Decision making using Financial Accounting Lecture 2 - Introduction (Continued...)
Link NOC:Decision making using Financial Accounting Lecture 3 - Two Finacial Statements
Link NOC:Decision making using Financial Accounting Lecture 4 - Two Finacial Statements (Continued...)
Link NOC:Decision making using Financial Accounting Lecture 5 - Two Finacial Statements (Continued...)
Link NOC:Decision making using Financial Accounting Lecture 6 - Three Finacial Statements
Link NOC:Decision making using Financial Accounting Lecture 7 - Three Finacial Statements (Continued...)
Link NOC:Decision making using Financial Accounting Lecture 8 - Three Finacial Statements (Continued...)
Link NOC:Decision making using Financial Accounting Lecture 9 - Transaction and Finacial Statements
Link NOC:Decision making using Financial Accounting Lecture 10 - Transaction and Finacial Statements (Continued...)
Link NOC:Decision making using Financial Accounting Lecture 11 - Transaction and Finacial Statements (Continued...)
Link NOC:Decision making using Financial Accounting Lecture 12 - Lone Pine Cafe (Case)
Link NOC:Decision making using Financial Accounting Lecture 13 - Lone Pine Cafe (Case)
Link NOC:Decision making using Financial Accounting Lecture 14 - Journal - 1
Link NOC:Decision making using Financial Accounting Lecture 15 - Journal - 2
Link NOC:Decision making using Financial Accounting Lecture 16 - Journal - 3
Link NOC:Decision making using Financial Accounting Lecture 17 - Ledger Posting Part - 1
Link NOC:Decision making using Financial Accounting Lecture 18 - Ledger Posting Part - 2
Link NOC:Decision making using Financial Accounting Lecture 19 - Final Accounts
Link NOC:Decision making using Financial Accounting Lecture 20 - Cash Flow Statements - 1
Link NOC:Decision making using Financial Accounting Lecture 21 - Cash Flow Statements - 2
Link NOC:Decision making using Financial Accounting Lecture 22 - Cash Flow Statements - 3
Link NOC:Decision making using Financial Accounting Lecture 23 - Cash Flow Statements - 4
Link NOC:Decision making using Financial Accounting Lecture 24 - Cash Flow Statements - 5
Link NOC:Decision making using Financial Accounting Lecture 25 - Reading the Financial Statements of a Annual Report - 1
Link NOC:Decision making using Financial Accounting Lecture 26 - Reading the Financial Statements of a Annual Report - 2
Link NOC:Decision making using Financial Accounting Lecture 27 - Reading the Financial Statements of a Annual Report - 3
Link NOC:Decision making using Financial Accounting Lecture 28 - Financial Statement Analysis - 1
Link NOC:Decision making using Financial Accounting Lecture 29 - Financial Statement Analysis - 2
Link NOC:Decision making using Financial Accounting Lecture 30 - Financial Statement Analysis - 3
Link NOC:Decision making using Financial Accounting Lecture 31 - Financial Statement Analysis - 4
Link NOC:Decision making using Financial Accounting Lecture 32 - Recap
Link NOC:Decision making using Financial Accounting Lecture 33 - Ratios Analysis
Link NOC:Decision making using Financial Accounting Lecture 34 - Ratios Analysis
Link NOC:Financial Statement Analysis and Reporting Lecture 1 - Introduction
Link NOC:Financial Statement Analysis and Reporting Lecture 2 - Accounting Process
Link NOC:Financial Statement Analysis and Reporting Lecture 3 - Accounting Concepts
Link NOC:Financial Statement Analysis and Reporting Lecture 4 - Trial Balance and its Relevance
Link NOC:Financial Statement Analysis and Reporting Lecture 5 - Relevant Accounting Statements
Link NOC:Financial Statement Analysis and Reporting Lecture 6 - Journal (Part-I) - The first and original book of accounting
Link NOC:Financial Statement Analysis and Reporting Lecture 7 - Journal (Part-II) - The first and original book of accounting
Link NOC:Financial Statement Analysis and Reporting Lecture 8 - Ledger-The second book of accounts
Link NOC:Financial Statement Analysis and Reporting Lecture 9 - Financial Statements
Link NOC:Financial Statement Analysis and Reporting Lecture 10 - Financial Statements - Income Statement
Link NOC:Financial Statement Analysis and Reporting Lecture 11 - Financial Statements - Balance Sheet
Link NOC:Financial Statement Analysis and Reporting Lecture 12 - Financial Statements with Adjustments (Part-1)
Link NOC:Financial Statement Analysis and Reporting Lecture 13 - Financial Statements with Adjustments (Part-2)
Link NOC:Financial Statement Analysis and Reporting Lecture 14 - Financial Statements with Adjustments (Part-3)
Link NOC:Financial Statement Analysis and Reporting Lecture 15 - Financial Statements with Adjustments (Part-4)
Link NOC:Financial Statement Analysis and Reporting Lecture 16 - Financial Statements with Adjustments (Part-5)
Link NOC:Financial Statement Analysis and Reporting Lecture 17 - Financial Statements with Adjustments (Part-6)
Link NOC:Financial Statement Analysis and Reporting Lecture 18 - Financial Statements with Adjustments (Part-7)
Link NOC:Financial Statement Analysis and Reporting Lecture 19 - Financial Statements with Adjustments (Part-8)
Link NOC:Financial Statement Analysis and Reporting Lecture 20 - Financial Statements with Adjustments (Part-9)
Link NOC:Financial Statement Analysis and Reporting Lecture 21 - Financial Statements with Adjustments (Part-10)
Link NOC:Financial Statement Analysis and Reporting Lecture 22 - Financial Statements with Adjustments (Part-11)
Link NOC:Financial Statement Analysis and Reporting Lecture 23 - Financial Statements with Adjustments (Part-12)
Link NOC:Financial Statement Analysis and Reporting Lecture 24 - Financial Statements with Adjustments (Part-13)
Link NOC:Financial Statement Analysis and Reporting Lecture 25 - Corporate Financial Statements (Part-1)
Link NOC:Financial Statement Analysis and Reporting Lecture 26 - Corporate Financial Statements (Part-2)
Link NOC:Financial Statement Analysis and Reporting Lecture 27 - Corporate Financial Statements (Part-3)
Link NOC:Financial Statement Analysis and Reporting Lecture 28 - Corporate Financial Statements (Part-4)
Link NOC:Financial Statement Analysis and Reporting Lecture 29 - Corporate Financial Statements (Part-5)
Link NOC:Financial Statement Analysis and Reporting Lecture 30 - Corporate Financial Statements (Part-6)
Link NOC:Financial Statement Analysis and Reporting Lecture 31 - Corporate Financial Statements (Part-7)
Link NOC:Financial Statement Analysis and Reporting Lecture 32 - Corporate Financial Statements (Part-8)
Link NOC:Financial Statement Analysis and Reporting Lecture 33 - Corporate Financial Statements (Part-9)
Link NOC:Financial Statement Analysis and Reporting Lecture 34 - Financial Statement Analysis
Link NOC:Financial Statement Analysis and Reporting Lecture 35 - Ratio Analysis (Part-1)
Link NOC:Financial Statement Analysis and Reporting Lecture 36 - Ratio Analysis (Part-2)
Link NOC:Financial Statement Analysis and Reporting Lecture 37 - Ratio Analysis (Part-3)
Link NOC:Financial Statement Analysis and Reporting Lecture 38 - Different Sets of Ratios (Part-1)
Link NOC:Financial Statement Analysis and Reporting Lecture 39 - Different Sets of Ratios (Part-2)
Link NOC:Financial Statement Analysis and Reporting Lecture 40 - Ratio Analysis - A case of Grasim Industries (Part-1)
Link NOC:Financial Statement Analysis and Reporting Lecture 41 - Ratio Analysis - A case of Grasim Industries (Part-2)
Link NOC:Financial Statement Analysis and Reporting Lecture 42 - Liquidity Ratios - Grasim Industries (Part-1)
Link NOC:Financial Statement Analysis and Reporting Lecture 43 - Liquidity Ratios - Grasim Industries (Part-2)
Link NOC:Financial Statement Analysis and Reporting Lecture 44 - Liquidity Ratios - Grasim Industries (Part-3)
Link NOC:Financial Statement Analysis and Reporting Lecture 45 - Profitability Ratios- Grasim Industries (Part-1)
Link NOC:Financial Statement Analysis and Reporting Lecture 46 - Profitability Ratios- Grasim Industries (Part-2)
Link NOC:Financial Statement Analysis and Reporting Lecture 47 - Profitability Ratios- Grasim Industries (Part-3)
Link NOC:Financial Statement Analysis and Reporting Lecture 48 - DuPont Ratios (Part-1)
Link NOC:Financial Statement Analysis and Reporting Lecture 49 - DuPont Ratios (Part-2)
Link NOC:Financial Statement Analysis and Reporting Lecture 50 - Valuation or Capital Market Ratios (Part-1)
Link NOC:Financial Statement Analysis and Reporting Lecture 51 - Valuation or Capital Market Ratios (Part-2)
Link NOC:Financial Statement Analysis and Reporting Lecture 52 - Cash Flow Statement - Introduction (Part-1)
Link NOC:Financial Statement Analysis and Reporting Lecture 53 - Cash Flow Statement (Part-2)
Link NOC:Financial Statement Analysis and Reporting Lecture 54 - Preparation of Cash Flow Statement- Basic Cash Flow Statement
Link NOC:Financial Statement Analysis and Reporting Lecture 55 - Cash Flow Statement - Further Analysis (Part-1)
Link NOC:Financial Statement Analysis and Reporting Lecture 56 - Cash Flow Statement - Further Analysis (Part-2)
Link NOC:Financial Statement Analysis and Reporting Lecture 57 - Final Cash Flow Statement (Part-1)
Link NOC:Financial Statement Analysis and Reporting Lecture 58 - Final Cash Flow Statement (Part-2)
Link NOC:Financial Statement Analysis and Reporting Lecture 59 - Financial Reporting (Part-1)
Link NOC:Financial Statement Analysis and Reporting Lecture 60 - Financial Reporting (Part-2)
Link NOC:Supply Chain Analytics Lecture 1 - Introduction to Supply Chain Management
Link NOC:Supply Chain Analytics Lecture 2 - Evolution of Supply Chain Management
Link NOC:Supply Chain Analytics Lecture 3 - Analytics in Supply Chain Management
Link NOC:Supply Chain Analytics Lecture 4 - Supply Chain Planning
Link NOC:Supply Chain Analytics Lecture 5 - Different views of Supply Chain
Link NOC:Supply Chain Analytics Lecture 6 - Supply Chain Strategy
Link NOC:Supply Chain Analytics Lecture 7 - Supply Chain Drivers
Link NOC:Supply Chain Analytics Lecture 8 - Developing Supply Chain Strategy
Link NOC:Supply Chain Analytics Lecture 9 - Strategic Fit in Supply Chain
Link NOC:Supply Chain Analytics Lecture 10 - Demand Forecasting in Supply Chain
Link NOC:Supply Chain Analytics Lecture 11 - Bullwhip Effect and Time Series Analysis
Link NOC:Supply Chain Analytics Lecture 12 - Exponential Smoothing Method of Forecasting
Link NOC:Supply Chain Analytics Lecture 13 - Measures of Forecasting Errors
Link NOC:Supply Chain Analytics Lecture 14 - Tracking Signal and Seasonality Models
Link NOC:Supply Chain Analytics Lecture 15 - Forecasting using multiple characteristics in Demand Data and Inventory Management in Supply Chain
Link NOC:Supply Chain Analytics Lecture 16 - Inventory Management in Supply Chain
Link NOC:Supply Chain Analytics Lecture 17 - Multi echelon Inventory Management
Link NOC:Supply Chain Analytics Lecture 18 - Multi echelon Inventory Management (Continued...)
Link NOC:Supply Chain Analytics Lecture 19 - Multi echelon Inventory Management for four stations
Link NOC:Supply Chain Analytics Lecture 20 - Multi echelon Inventory Management for four stations (Numerical Example)
Link NOC:Supply Chain Analytics Lecture 21 - Multi echelon Inventory Management for four stations (Numerical Example) (Continued...)
Link NOC:Supply Chain Analytics Lecture 22 - Network Design in Supply Chain
Link NOC:Supply Chain Analytics Lecture 23 - Network Design of Global Supply Chain
Link NOC:Supply Chain Analytics Lecture 24 - Alternative channels of Distribution
Link NOC:Supply Chain Analytics Lecture 25 - Location Decisions in Supply Chain
Link NOC:Supply Chain Analytics Lecture 26 - Network Optimization Models
Link NOC:Supply Chain Analytics Lecture 27 - Using Excel Solver for Network Optimization
Link NOC:Supply Chain Analytics Lecture 28 - Uncertainty in Network Design
Link NOC:Supply Chain Analytics Lecture 29 - Network Design in Uncertain Environment and Flexibility
Link NOC:Supply Chain Analytics Lecture 30 - Flexibility in Supply Chain
Link NOC:Supply Chain Analytics Lecture 31 - Optimal Level of Product Availability in Supply chain
Link NOC:Supply Chain Analytics Lecture 32 - Time Value of money in Supply Chain
Link NOC:Supply Chain Analytics Lecture 33 - Different types of Analytics in Supply Chain
Link NOC:Supply Chain Analytics Lecture 34 - Predictive Modelling in Forecasting in Supply Chain
Link NOC:Supply Chain Analytics Lecture 35 - Representation on Uncertainty in Supply Chain
Link NOC:Supply Chain Analytics Lecture 36 - Using Decision Tree for handling Uncertainty
Link NOC:Supply Chain Analytics Lecture 37 - Example of using Decision Tree incorporating Uncertainty in Single Factor
Link NOC:Supply Chain Analytics Lecture 38 - Example of using Decision Tree incorporating Uncertainty in two Key Factors
Link NOC:Supply Chain Analytics Lecture 39 - Modelling Flexibility in Supply Chain
Link NOC:Supply Chain Analytics Lecture 40 - Trends, Challenges and Future of Supply Chain
Link NOC:Marketing Research and Analysis Lecture 1 - Introduction to Marketing Research
Link NOC:Marketing Research and Analysis Lecture 2 - Defining Research Problem
Link NOC:Marketing Research and Analysis Lecture 3 - Developing Research Approach and Developing Research Design: Non- Conclusive
Link NOC:Marketing Research and Analysis Lecture 4 - Research Design: Conclusive
Link NOC:Marketing Research and Analysis Lecture 5 - Qualitative Research: Nature and Approaches
Link NOC:Marketing Research and Analysis Lecture 6 - Qualitative Research: Depth Interview, Focus Group Discussion
Link NOC:Marketing Research and Analysis Lecture 7 - Projective Technique, Case Study
Link NOC:Marketing Research and Analysis Lecture 8 - Case Study, Descriptive Research Design and Research Errors
Link NOC:Marketing Research and Analysis Lecture 9 - Primary and Secondary Data, Research Error
Link NOC:Marketing Research and Analysis Lecture 10 - Measurement and Scaling: Comparative and Non-comparative Scaling
Link NOC:Marketing Research and Analysis Lecture 11 - Scale Development Process
Link NOC:Marketing Research and Analysis Lecture 12 - Questionnaire and Form Design
Link NOC:Marketing Research and Analysis Lecture 13 - Causal Research and Types
Link NOC:Marketing Research and Analysis Lecture 14 - Experimental Design and Sampling
Link NOC:Marketing Research and Analysis Lecture 15 - Sampling Design and Procedure
Link NOC:Marketing Research and Analysis Lecture 16 - Sampling and Sample Size Determination
Link NOC:Marketing Research and Analysis Lecture 17 - Hypothesis Development: Null and Alternate, Type I and Type II Errors
Link NOC:Marketing Research and Analysis Lecture 18 - Data Preparation
Link NOC:Marketing Research and Analysis Lecture 19 - Hypothesis Testing: T-Test, Z-Test
Link NOC:Marketing Research and Analysis Lecture 20 - T, Z and F Test
Link NOC:Marketing Research and Analysis Lecture 21 - Hypothesis Testing: Anova and Manova
Link NOC:Marketing Research and Analysis Lecture 22 - Cross Tabulation and Chi Square Test
Link NOC:Marketing Research and Analysis Lecture 23 - Correlation and Regression
Link NOC:Marketing Research and Analysis Lecture 24 - Regression
Link NOC:Marketing Research and Analysis Lecture 25 - Factor Analysis
Link NOC:Marketing Research and Analysis Lecture 26 - Factor Analysis
Link NOC:Marketing Research and Analysis Lecture 27 - SEM and CFA - 1
Link NOC:Marketing Research and Analysis Lecture 28 - SEM and CFA - 2
Link NOC:Marketing Research and Analysis Lecture 29 - SEM and CFA - 3
Link NOC:Marketing Research and Analysis Lecture 30 - Cluster Analysis - I
Link NOC:Marketing Research and Analysis Lecture 31 - Cluster Analysis - II
Link NOC:Marketing Research and Analysis Lecture 32 - Discriminant Analysis
Link NOC:Marketing Research and Analysis Lecture 33 - Discriminant Analysis - 1
Link NOC:Marketing Research and Analysis Lecture 34 - Researching Rural Market
Link NOC:Marketing Research and Analysis Lecture 35 - International Marketing Research
Link NOC:Marketing Research and Analysis Lecture 36 - Ethics in Marketing Research
Link NOC:Marketing Research and Analysis Lecture 37 - Ethics in Marketing Research - 1
Link NOC:Marketing Research and Analysis Lecture 38 - Report Preparation and Presentation
Link NOC:Marketing Research and Analysis Lecture 39 - Multi Dimentional Scaling
Link NOC:Marketing Research and Analysis Lecture 40 - Conjoint Analysis
Link NOC:Project Management for Managers Lecture 1 - Introduction of Project Management
Link NOC:Project Management for Managers Lecture 2 - Project Success
Link NOC:Project Management for Managers Lecture 3 - Types of Structure Organizations
Link NOC:Project Management for Managers Lecture 4 - Project Management Office
Link NOC:Project Management for Managers Lecture 5 - Stakeholders Management
Link NOC:Project Management for Managers Lecture 6 - Types of Projects and Project Life Cycle
Link NOC:Project Management for Managers Lecture 7 - Project Life Cycle Phases and Project Appraisal
Link NOC:Project Management for Managers Lecture 8 - Methods of Project Selection - I
Link NOC:Project Management for Managers Lecture 9 - Methods of Project Selection - II
Link NOC:Project Management for Managers Lecture 10 - Methods of Project Selection - MCDM-I
Link NOC:Project Management for Managers Lecture 11 - Methods of Project Selection - MCDM-II
Link NOC:Project Management for Managers Lecture 12 - Methods of Project Selection - MCDM-III
Link NOC:Project Management for Managers Lecture 13 - Market and Demand Analysis - I
Link NOC:Project Management for Managers Lecture 14 - Market and Demand Analysis - II
Link NOC:Project Management for Managers Lecture 15 - Financial Analysis
Link NOC:Project Management for Managers Lecture 16 - Capital Budgeting Techniques - I
Link NOC:Project Management for Managers Lecture 17 - Capital Budgeting Techniques - II
Link NOC:Project Management for Managers Lecture 18 - Financing of Projects
Link NOC:Project Management for Managers Lecture 19 - Risk Management - I
Link NOC:Project Management for Managers Lecture 20 - Risk Management - II
Link NOC:Project Management for Managers Lecture 21 - Risk Management (Control and Documentation)
Link NOC:Project Management for Managers Lecture 22 - Stand Alone Risk Analysis - I
Link NOC:Project Management for Managers Lecture 23 - Stand Alone Risk Analysis - II
Link NOC:Project Management for Managers Lecture 24 - Hillier Model
Link NOC:Project Management for Managers Lecture 25 - Simulation Analysis
Link NOC:Project Management for Managers Lecture 26 - Decision Tree Analysis - I
Link NOC:Project Management for Managers Lecture 27 - Decision Tree Analysis - II
Link NOC:Project Management for Managers Lecture 28 - Abandonment Analysis
Link NOC:Project Management for Managers Lecture 29 - Technical Analysis
Link NOC:Project Management for Managers Lecture 30 - Product Mix and Plant Capacity Analysis
Link NOC:Project Management for Managers Lecture 31 - Project Team Building, Conflict and Negotiation
Link NOC:Project Management for Managers Lecture 32 - HRM Issues and time Management
Link NOC:Project Management for Managers Lecture 33 - Project Time Management - Introduction
Link NOC:Project Management for Managers Lecture 34 - Project Time Management - Project Scheduling
Link NOC:Project Management for Managers Lecture 35 - Project time Management - Numbering of Nodes
Link NOC:Project Management for Managers Lecture 36 - Project Time Management - PERT Networks
Link NOC:Project Management for Managers Lecture 37 - Project Time Management - CPM
Link NOC:Project Management for Managers Lecture 38 - Project Time Management - Laddering in PERT/CPM
Link NOC:Project Management for Managers Lecture 39 - Probability Models in Networks - I
Link NOC:Project Management for Managers Lecture 40 - Probability Models in Networks - II
Link NOC:Project Management for Managers Lecture 41 - Probability Models in Networks - III
Link NOC:Project Management for Managers Lecture 42 - Probability Models in Networks - IV
Link NOC:Project Management for Managers Lecture 43 - Simulation of Networks - I
Link NOC:Project Management for Managers Lecture 44 - Simulation of Networks - II
Link NOC:Project Management for Managers Lecture 45 - Slacks and Floats - I
Link NOC:Project Management for Managers Lecture 46 - Slacks and Floats - II
Link NOC:Project Management for Managers Lecture 47 - Time and Cost Relationship
Link NOC:Project Management for Managers Lecture 48 - Crashing of Networks - I
Link NOC:Project Management for Managers Lecture 49 - Crashing of Networks - II
Link NOC:Project Management for Managers Lecture 50 - Crashing of Networks - III (Free Float Method)
Link NOC:Project Management for Managers Lecture 51 - Crashing of Networks - IV
Link NOC:Project Management for Managers Lecture 52 - Introduction to Project Cost Management
Link NOC:Project Management for Managers Lecture 53 - Cost Control (Tools and Techniques)
Link NOC:Project Management for Managers Lecture 54 - Cost Estimation
Link NOC:Project Management for Managers Lecture 55 - Introduction to Quality Management
Link NOC:Project Management for Managers Lecture 56 - Cost of Quality
Link NOC:Project Management for Managers Lecture 57 - Quality Management (Source of variability and Six Sigma)
Link NOC:Project Management for Managers Lecture 58 - Quality Management (Six Sigma Tools)
Link NOC:Project Management for Managers Lecture 59 - Procurement Management- I
Link NOC:Project Management for Managers Lecture 60 - Procurement Management- II and Project Termination
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 1 - Introduction
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 2 - Data Mining Process
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 3 - Introduction To R
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 4 - Basic Statistics
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 5 - Basic Statistics - Part 2
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 6 - Partitioning Process
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 7 - Visualization Techniques
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 8 - Visualization Techniques - Part 2
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 9 - Visualization Techniques - Part 3
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 10 - Visualization Techniques - Part 4
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 11 - Visualization Techniques - Part 5
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 12 - Visualization Techniques - Part 6
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 13 - Dimension Reduction Techniques
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 14 - Dimension Reduction Techniques - Part 2
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 15 - Dimension Reduction Techniques - Part 3
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 16 - Performance Metrics
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 17 - Performance Metrics - Part 2
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 18 - Performance Metrics - Part 3
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 19 - Performance Metrics - Part 4
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 20 - Performance Metrics - Part 5
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 21 - Prediction Performance
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 22 - Multiple Linear Regression
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 23 - Multiple Linear Regression - Part 2
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 24 - Multiple Linear Regression - Part 3
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 25 - Multiple Linear Regression - Part 4
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 26 - Multiple Linear Regression - Part 5
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 27 - Multiple Linear Regression - Part 6
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 28 - Machine Learning Technique K-Nn
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 29 - Machine Learning Technique K-Nn - Part 2
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 30 - Machine Learning Technique K-Nn - Part 3
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 31 - Naive Bayes
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 32 - Naive Bayes - Part 2
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 33 - Naive Bayes - Part 3
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 34 - Naive Bayes - Part 4
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 35 - Naive Bayes - Part 5
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 36 - Classification And Regression Trees
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 37 - Classification And Regression Trees - Part 2
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 38 - Classification And Regression Trees - Part 3
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 39 - Classification And Regression Trees - Part 4
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 40 - Classification And Regression Trees - Part 5
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 41 - Classification And Regression Trees - Part 6
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 42 - Pruning Process
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 43 - Pruning Process - Part 2
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 44 - Pruning Process - Part 3
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 45 - Regression Trees
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 46 - Logistic Regression
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 47 - Logistic Regression - Part 2
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 48 - Logistic Regression - Part 3
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 49 - Logistic Regression - Part 4
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 50 - Logistic Regression - Part 5
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 51 - Logistic Regression - Part 6
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 52 - Logistic Regression - Part 7
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 53 - Artificial Neural Networks
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 54 - Artificial Neural Network - Part 2
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 55 - Artificial Neural Network - Part 3
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 56 - Artificial Neural Network - Part 4
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 57 - Artificial Neural Network - Part 5
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 58 - Artificial Neural Network - Part 6
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 59 - Discriminant Analysis
Link NOC:Business Analytics and Data Mining Modeling using R Lecture 60 - Discriminant Analysis - Part 2
Link NOC:Working Capital Management Lecture 1 - Introduction - I
Link NOC:Working Capital Management Lecture 2 - Introduction - II
Link NOC:Working Capital Management Lecture 3 - Nature of the Working Capital Management
Link NOC:Working Capital Management Lecture 4 - Approaches of Working Capital Management - I
Link NOC:Working Capital Management Lecture 5 - Approaches of Working Capital Management - II
Link NOC:Working Capital Management Lecture 6 - Trade off between Profitability and Risk - I
Link NOC:Working Capital Management Lecture 7 - Trade off between Profitability and Risk - II
Link NOC:Working Capital Management Lecture 8 - Working Capital Management in Indian Business - I
Link NOC:Working Capital Management Lecture 9 - Working Capital Management in Indian Business - II
Link NOC:Working Capital Management Lecture 10 - Operating Cycle
Link NOC:Working Capital Management Lecture 11 - Weighted Operating Cycle
Link NOC:Working Capital Management Lecture 12 - Working Capital Requirement Assessment - I
Link NOC:Working Capital Management Lecture 13 - Working Capital Requirement Assessment - II
Link NOC:Working Capital Management Lecture 14 - Assessing Working Capital Requirements - Problem 2 and 5
Link NOC:Working Capital Management Lecture 15 - Working Capital Requirement- The Conclusion
Link NOC:Working Capital Management Lecture 16 - Working Capital Leverage
Link NOC:Working Capital Management Lecture 17 - Risk and Cost of Holding Inventory
Link NOC:Working Capital Management Lecture 18 - Inventory Costs
Link NOC:Working Capital Management Lecture 19 - Inventory Behaviour
Link NOC:Working Capital Management Lecture 20 - Inventory Management - Methods and Strategies
Link NOC:Working Capital Management Lecture 21 - EOQ Technique of Inventory Management
Link NOC:Working Capital Management Lecture 22 - Stockouts cause Walkouts
Link NOC:Working Capital Management Lecture 23 - Rationing of Working Capital - I
Link NOC:Working Capital Management Lecture 24 - Rationing of Working Capital - II
Link NOC:Working Capital Management Lecture 25 - Different Modes of Bank Finance
Link NOC:Working Capital Management Lecture 26 - Incremental Inventory - I
Link NOC:Working Capital Management Lecture 27 - Incremental Inventory - II
Link NOC:Working Capital Management Lecture 28 - Management of Accounts Receivables - I
Link NOC:Working Capital Management Lecture 29 - Management of Accounts Receivables - II
Link NOC:Working Capital Management Lecture 30 - Management of Accounts Receivables - III
Link NOC:Working Capital Management Lecture 31 - Motives of Credit Sale - I
Link NOC:Working Capital Management Lecture 32 - Motives of Credit Sale - II
Link NOC:Working Capital Management Lecture 33 - Limitations of Credit Time Period
Link NOC:Working Capital Management Lecture 34 - Written Credit Policy - I
Link NOC:Working Capital Management Lecture 35 - Written Credit Policy - II
Link NOC:Working Capital Management Lecture 36 - Goals and Functions of Accounts Receivables Management
Link NOC:Working Capital Management Lecture 37 - Valuation of Receivables at Cost or Sales Value
Link NOC:Working Capital Management Lecture 38 - Credit Policy Changes - I
Link NOC:Working Capital Management Lecture 39 - Credit Policy Changes - II
Link NOC:Working Capital Management Lecture 40 - Credit Policy Changes - III
Link NOC:Working Capital Management Lecture 41 - Optimum Credit Policy
Link NOC:Working Capital Management Lecture 42 - Credit Risk Analysis - I
Link NOC:Working Capital Management Lecture 43 - Credit Risk Analysis - II
Link NOC:Working Capital Management Lecture 44 - Credit Risk Analysis - III
Link NOC:Working Capital Management Lecture 45 - Credit Policy Variables
Link NOC:Working Capital Management Lecture 46 - Cash Management
Link NOC:Working Capital Management Lecture 47 - Cash Flow Presentation
Link NOC:Working Capital Management Lecture 48 - Models of Cash Management- Certainty Model by Baumol
Link NOC:Working Capital Management Lecture 49 - Certainty Model by Baumol Continued
Link NOC:Working Capital Management Lecture 50 - Uncertainty Model by Miller and Orr
Link NOC:Working Capital Management Lecture 51 - Miller and Orr (Continued...) and Cash Management Techniques
Link NOC:Working Capital Management Lecture 52 - Measures of Liquidity
Link NOC:Working Capital Management Lecture 53 - Window Dressing and Management of Current Liabilities
Link NOC:Working Capital Management Lecture 54 - Management of Accounts Payable
Link NOC:Working Capital Management Lecture 55 - Cost of Stretching Accounts Payable - I
Link NOC:Working Capital Management Lecture 56 - Cost of Stretching Accounts Payable - II
Link NOC:Working Capital Management Lecture 57 - Other Accruals and Overtrading
Link NOC:Working Capital Management Lecture 58 - Bank Finance - Introduction
Link NOC:Working Capital Management Lecture 59 - Recommendations of Tondon and Chore Committees
Link NOC:Working Capital Management Lecture 60 - Deciding a Suitable Mix
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 1 - Analizing the Current Bussiness Scenario
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 2 - Innovation and Creativity - An Introduction
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 3 - Innovation in Current Environment
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 4 - Types of Innovation
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 5 - School of Innovation
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 6 - Challenges of Innovation
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 7 - Steps of Innovation Management
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 8 - Idea Management System
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 9 - Divergent v/s Convergent Thinking
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 10 - Design Thinking and Entrepreneurship
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 11 - Experimentation in Innovation Management
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 12 - Idea Championship
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 13 - Participation for Innovation
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 14 - Co-creation for Innovation
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 15 - Prototyping to Incubation
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 16 - What is Business Model ?
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 17 - Who is an Entrepreneur ?
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 18 - Social Entrepreneurship ?
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 19 - Blue Ocean Strategy - I
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 20 - Blue Ocean Strategy - II
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 21 - Marketing of Innovation
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 22 - Technology Innovation Process
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 23 - Technological Innovation Management Planning
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 24 - Technological Innovation Management Strategies
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 25 - Technology Forecasting
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 26 - Sustainability Innovation and Entrepreneurship
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 27 - Innovation Sustainable Conditions
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 28 - Innovation: Context and Patterns
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 29 - SME’S strategic involvement in sustainable development
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 30 - Insight and Entrepreneurship
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 31 - Management of Innovation, creation of IPR - I
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 32 - Management of Innovation, creation of IPR - II
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 33 - Types of IPR
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 34 - Patents and Copyrights
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 35 - Patents in India
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 36 - Business Models and value proposition
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 37 - Business Model Failure: Reasons and Remedies
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 38 - Incubators: Business Vs Technology
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 39 - Managing Investors for Innovation
Link NOC:Innovation, Business Models and Entrepreneurship Lecture 40 - Future markets and Innovation needs for India
Link NOC:Business Analytics and Data Mining Modeling Using R - Part II Lecture 1 - Association Rules - Part I
Link NOC:Business Analytics and Data Mining Modeling Using R - Part II Lecture 2 - Association Rules - Part II
Link NOC:Business Analytics and Data Mining Modeling Using R - Part II Lecture 3 - Association Rules - Part III
Link NOC:Business Analytics and Data Mining Modeling Using R - Part II Lecture 4 - Association Rules - Part IV
Link NOC:Business Analytics and Data Mining Modeling Using R - Part II Lecture 5 - Cluster Analysis - Part I
Link NOC:Business Analytics and Data Mining Modeling Using R - Part II Lecture 6 - Cluster Analysis - Part II
Link NOC:Business Analytics and Data Mining Modeling Using R - Part II Lecture 7 - Cluster Analysis - Part III
Link NOC:Business Analytics and Data Mining Modeling Using R - Part II Lecture 8 - Cluster Analysis - Part IV
Link NOC:Business Analytics and Data Mining Modeling Using R - Part II Lecture 9 - Cluster Analysis - Part V
Link NOC:Business Analytics and Data Mining Modeling Using R - Part II Lecture 10 - Cluster Analysis - Part VI
Link NOC:Business Analytics and Data Mining Modeling Using R - Part II Lecture 11 - Cluster Analysis - Part VII
Link NOC:Business Analytics and Data Mining Modeling Using R - Part II Lecture 12 - Understanding Time Series - Part I
Link NOC:Business Analytics and Data Mining Modeling Using R - Part II Lecture 13 - Understanding Time Series - Part II
Link NOC:Business Analytics and Data Mining Modeling Using R - Part II Lecture 14 - Understanding Time Series - Part III
Link NOC:Business Analytics and Data Mining Modeling Using R - Part II Lecture 15 - Understanding Time Series - Part IV
Link NOC:Business Analytics and Data Mining Modeling Using R - Part II Lecture 16 - Regression Based Forecasting Methods - Part I
Link NOC:Business Analytics and Data Mining Modeling Using R - Part II Lecture 17 - Regression Based Forecasting Methods - Part II
Link NOC:Business Analytics and Data Mining Modeling Using R - Part II Lecture 18 - Regression Based Forecasting Methods - Part III
Link NOC:Business Analytics and Data Mining Modeling Using R - Part II Lecture 19 - Time Series Forecasting - Smoothing Methods - Part I
Link NOC:Business Analytics and Data Mining Modeling Using R - Part II Lecture 20 - Time Series Forecasting - Smoothing Methods - Part II
Link NOC:Global Marketing Management Lecture 1 - Globalization - Part 1
Link NOC:Global Marketing Management Lecture 2 - Globalization - Part 2
Link NOC:Global Marketing Management Lecture 3 - Global Economic Environment - Part 1
Link NOC:Global Marketing Management Lecture 4 - Global Economic Environment - Part 2
Link NOC:Global Marketing Management Lecture 5 - Global Economic Environment - Part 3
Link NOC:Global Marketing Management Lecture 6 - Financial Environment - Part 1
Link NOC:Global Marketing Management Lecture 7 - Financial Environment - Part 2
Link NOC:Global Marketing Management Lecture 8 - Cultural Issues and Buying Behavior - Part 1
Link NOC:Global Marketing Management Lecture 9 - Cultural Issues and Buying Behavior - Part 2
Link NOC:Global Marketing Management Lecture 10 - Political/ Legal Environment - Part 1
Link NOC:Global Marketing Management Lecture 11 - Political/ Legal Environment - Part 2
Link NOC:Global Marketing Management Lecture 12 - Global Marketing Research - Part 1
Link NOC:Global Marketing Management Lecture 13 - Global Marketing Research - Part 2
Link NOC:Global Marketing Management Lecture 14 - Global Segmentation and Positioning - Part 1
Link NOC:Global Marketing Management Lecture 15 - Global Segmentation and Positioning - Part 2
Link NOC:Global Marketing Management Lecture 16 - Global Marketing Strategies - Part 1
Link NOC:Global Marketing Management Lecture 17 - Global Marketing Strategies - Part 2
Link NOC:Global Marketing Management Lecture 18 - Global Market Entry Modes - Part 1
Link NOC:Global Marketing Management Lecture 19 - Global Market Entry Modes - Part 2
Link NOC:Global Marketing Management Lecture 20 - Global Product Development - Part 1
Link NOC:Global Marketing Management Lecture 21 - Global Product Development - Part 2
Link NOC:Global Marketing Management Lecture 22 - Marketing Products and Services - Part 1
Link NOC:Global Marketing Management Lecture 23 - Marketing Products and Services - Part 2
Link NOC:Global Marketing Management Lecture 24 - Global Pricing - Part 1
Link NOC:Global Marketing Management Lecture 25 - Global Pricing - Part 2
Link NOC:Global Marketing Management Lecture 26 - Communicating with the World Consumer - Part 1
Link NOC:Global Marketing Management Lecture 27 - Communicating with the World Consumer - Part 2
Link NOC:Global Marketing Management Lecture 28 - Sales Management - Part 1
Link NOC:Global Marketing Management Lecture 29 - Sales Management - Part 2
Link NOC:Global Marketing Management Lecture 30 - Global Logistics and Distribution - Part 1
Link NOC:Global Marketing Management Lecture 31 - Global Logistics and Distribution - Part 2
Link NOC:Global Marketing Management Lecture 32 - Export/Import Management - Part 1
Link NOC:Global Marketing Management Lecture 33 - Export/Import Management - Part 2
Link NOC:Global Marketing Management Lecture 34 - Export/Import Management - Part 3
Link NOC:Global Marketing Management Lecture 35 - Planning, Organization and Control of Global Marketing Operations - Part 1
Link NOC:Global Marketing Management Lecture 36 - Planning, Organization and Control of Global Marketing Operations - Part 2
Link NOC:Global Marketing Management Lecture 37 - Marketing in Emerging Markets - Part 1
Link NOC:Global Marketing Management Lecture 38 - Marketing in Emerging Markets - Part 2
Link NOC:Global Marketing Management Lecture 39 - Global Marketing and the Internet - Part 1
Link NOC:Global Marketing Management Lecture 40 - Global Marketing and the Internet - Part 2
Link NOC:Marketing Research and Analysis-II Lecture 1 - Introduction to Marketing Research - I
Link NOC:Marketing Research and Analysis-II Lecture 2 - Introduction to Marketing Research - II
Link NOC:Marketing Research and Analysis-II Lecture 3 - Marketing Research Process - I
Link NOC:Marketing Research and Analysis-II Lecture 4 - Marketing Research Process - II
Link NOC:Marketing Research and Analysis-II Lecture 5 - Marketing Research Process - III
Link NOC:Marketing Research and Analysis-II Lecture 6 - Marketing Research Process - IV
Link NOC:Marketing Research and Analysis-II Lecture 7 - Hypothesis and Research Question - I (with real life example)
Link NOC:Marketing Research and Analysis-II Lecture 8 - Hypothesis and Research Question - II (with real life example)
Link NOC:Marketing Research and Analysis-II Lecture 9 - Hypothesis Development - I (with a real life case)
Link NOC:Marketing Research and Analysis-II Lecture 10 - Hypothesis Development - II (with a real life case)
Link NOC:Marketing Research and Analysis-II Lecture 11 - Research Design - I
Link NOC:Marketing Research and Analysis-II Lecture 12 - Research Design - II
Link NOC:Marketing Research and Analysis-II Lecture 13 - Research Design - III
Link NOC:Marketing Research and Analysis-II Lecture 14 - Research Design - IV
Link NOC:Marketing Research and Analysis-II Lecture 15 - Research Design - V
Link NOC:Marketing Research and Analysis-II Lecture 16 - Research Design - VI
Link NOC:Marketing Research and Analysis-II Lecture 17 - Data Purification and handling - I
Link NOC:Marketing Research and Analysis-II Lecture 18 - Data Purification and handling - II
Link NOC:Marketing Research and Analysis-II Lecture 19 - Data Purification and handling - III
Link NOC:Marketing Research and Analysis-II Lecture 20 - Data Purification and handling - IV
Link NOC:Marketing Research and Analysis-II Lecture 21 - Power of a Test and Sample Size Calculation (Problem Solving)
Link NOC:Marketing Research and Analysis-II Lecture 22 - Sample Size Calculation and Hypothesis Testing (Problem Solving)
Link NOC:Marketing Research and Analysis-II Lecture 23 - Hypothesis Testing - I (Problem Solving)
Link NOC:Marketing Research and Analysis-II Lecture 24 - Hypothesis Testing - II (Problem Solving)
Link NOC:Marketing Research and Analysis-II Lecture 25 - Non-Parametric Test - I
Link NOC:Marketing Research and Analysis-II Lecture 26 - Non-Parametric Test - II
Link NOC:Marketing Research and Analysis-II Lecture 27 - Non-Parametric Test - III
Link NOC:Marketing Research and Analysis-II Lecture 28 - Non-Parametric Test - IV
Link NOC:Marketing Research and Analysis-II Lecture 29 - Non-Parametric Test - V
Link NOC:Marketing Research and Analysis-II Lecture 30 - Non-Parametric Test - VI
Link NOC:Marketing Research and Analysis-II Lecture 31 - Non-Parametric Test - VII
Link NOC:Marketing Research and Analysis-II Lecture 32 - Non-Parametric Test - VIII
Link NOC:Marketing Research and Analysis-II Lecture 33 - Introduction to ANOVA and ANCOVA
Link NOC:Marketing Research and Analysis-II Lecture 34 - Conducting one-way ANOVA
Link NOC:Marketing Research and Analysis-II Lecture 35 - Solving n-way ANOVA - I
Link NOC:Marketing Research and Analysis-II Lecture 36 - Solving n-way ANOVA - II
Link NOC:Marketing Research and Analysis-II Lecture 37 - N-way ANOVA and MANOVA in SPSS
Link NOC:Marketing Research and Analysis-II Lecture 38 - MANOVA and ANCOVA in SPSS
Link NOC:Marketing Research and Analysis-II Lecture 39 - ANCOVA in SPSS
Link NOC:Marketing Research and Analysis-II Lecture 40 - ANCOVA and MANCOVA in SPSS
Link NOC:Marketing Research and Analysis-II Lecture 41 - Covariance and Correlation
Link NOC:Marketing Research and Analysis-II Lecture 42 - Correlation in SPSS
Link NOC:Marketing Research and Analysis-II Lecture 43 - Partial and Multiple Correlation
Link NOC:Marketing Research and Analysis-II Lecture 44 - Simple Regression Analysis in SPSS
Link NOC:Marketing Research and Analysis-II Lecture 45 - Multiple Regression Analysis in SPSS - I
Link NOC:Marketing Research and Analysis-II Lecture 46 - Multiple Regression Analysis in SPSS - II
Link NOC:Marketing Research and Analysis-II Lecture 47 - Stepwise Regression and Hierarchical Regression
Link NOC:Marketing Research and Analysis-II Lecture 48 - Hierarchical Regression and Dummy Variable Regression
Link NOC:Marketing Research and Analysis-II Lecture 49 - Logistic Regression Analysis
Link NOC:Marketing Research and Analysis-II Lecture 50 - Discriminant Analysis in SPSS
Link NOC:Marketing Research and Analysis-II Lecture 51 - Factor Analysis in SPSS - I
Link NOC:Marketing Research and Analysis-II Lecture 52 - Factor Analysis in SPSS - II
Link NOC:Marketing Research and Analysis-II Lecture 53 - Exploratory Factor Analysis in SPSS
Link NOC:Marketing Research and Analysis-II Lecture 54 - Confirmatory Factor Analysis in SPSS - I
Link NOC:Marketing Research and Analysis-II Lecture 55 - Confirmatory Factor Analysis in SPSS - II
Link NOC:Marketing Research and Analysis-II Lecture 56 - Confirmatory Factor Analysis in SPSS - III
Link NOC:Marketing Research and Analysis-II Lecture 57 - Structural Equation Modelling in SPSS
Link NOC:Marketing Research and Analysis-II Lecture 58 - Mediation and Moderation Analysis in SPSS
Link NOC:Marketing Research and Analysis-II Lecture 59 - Cluster Analysis in Practice - I
Link NOC:Marketing Research and Analysis-II Lecture 60 - Cluster Analysis in Practice - II
Link NOC:Business Statistics Lecture 1 - Introduction to Statistics and Data
Link NOC:Business Statistics Lecture 2 - Types of Statistics, types of Data and sources of Data, Population vs Sample
Link NOC:Business Statistics Lecture 3 - Scales of Measurement
Link NOC:Business Statistics Lecture 4 - Data representation techniques - Part 1
Link NOC:Business Statistics Lecture 5 - Data representation techniques - Part 2 and measures of central tendency - Part 1
Link NOC:Business Statistics Lecture 6 - Measures of Central Tendency - Part 2
Link NOC:Business Statistics Lecture 7 - Examples of introduction to data and data representation techniques
Link NOC:Business Statistics Lecture 8 - Measures of Variation
Link NOC:Business Statistics Lecture 9 - Applications of Measures of Central Tendency and Measures of Variation
Link NOC:Business Statistics Lecture 10 - Chapter concepts- Measures of central tendency and measures of variation, Outliers, and shape of a distribution
Link NOC:Business Statistics Lecture 11 - Numerical Descriptive Measures
Link NOC:Business Statistics Lecture 12 - Covariance and Coefficient of Correlation, Introduction to Probability
Link NOC:Business Statistics Lecture 13 - Probability - Part 1
Link NOC:Business Statistics Lecture 14 - Probability - Part 2
Link NOC:Business Statistics Lecture 15 - Probability - Part 3
Link NOC:Business Statistics Lecture 16 - Probability Distributions - Part 1
Link NOC:Business Statistics Lecture 17 - Probability Distributions - Part 2
Link NOC:Business Statistics Lecture 18 - Probability Distributions - Part 3
Link NOC:Business Statistics Lecture 19 - Examples for Standardized Normal Distribution
Link NOC:Business Statistics Lecture 20 - Evaluating Normality, Exponential Probability Distribution
Link NOC:Business Statistics Lecture 21 - Chapter Concepts - Probability Distributions
Link NOC:Business Statistics Lecture 22 - Sampling and Sampling Techniques
Link NOC:Business Statistics Lecture 23 - Sampling Distribution - I
Link NOC:Business Statistics Lecture 24 - Sampling Distribution - II
Link NOC:Business Statistics Lecture 25 - Sampling Distribution - III
Link NOC:Business Statistics Lecture 26 - Method of Estimation
Link NOC:Business Statistics Lecture 27 - Interval Estimation
Link NOC:Business Statistics Lecture 28 - Confidence Interval - I
Link NOC:Business Statistics Lecture 29 - Confidence Interval - II
Link NOC:Business Statistics Lecture 30 - Types of Hypothesis Testing
Link NOC:Business Statistics Lecture 31 - Hypothesis Testing Process - I
Link NOC:Business Statistics Lecture 32 - Hypothesis Testing Process - II
Link NOC:Business Statistics Lecture 33 - Hypothesis Testing Examples
Link NOC:Business Statistics Lecture 34 - Hypothesis Testing of Proportions - I
Link NOC:Business Statistics Lecture 35 - Hypothesis Testing of Proportions - II
Link NOC:Business Statistics Lecture 36 - Hypothesis Testing-One sample Test
Link NOC:Business Statistics Lecture 37 - Hypothesis Testing using Minitab
Link NOC:Business Statistics Lecture 38 - Hypothesis Testing of Proportions using Minitab
Link NOC:Business Statistics Lecture 39 - Hypothesis Testing Two Sample Test - I
Link NOC:Business Statistics Lecture 40 - Hypothesis Testing Two Sample Test - II
Link NOC:Business Statistics Lecture 41 - Hypothesis Testing Two sample Test - III
Link NOC:Business Statistics Lecture 42 - Paired Sample Test
Link NOC:Business Statistics Lecture 43 - Hypothesis Testing of Proportion
Link NOC:Business Statistics Lecture 44 - Example of Hypothesis Testing
Link NOC:Business Statistics Lecture 45 - Design of Experiment
Link NOC:Business Statistics Lecture 46 - Analysis of variance - I
Link NOC:Business Statistics Lecture 47 - Analysis of variance - II
Link NOC:Business Statistics Lecture 48 - Analysis of variance - III
Link NOC:Business Statistics Lecture 49 - Tukey Kramer test
Link NOC:Business Statistics Lecture 50 - Randomized Blocked Design
Link NOC:Business Statistics Lecture 51 - A Factorial Design - I
Link NOC:Business Statistics Lecture 52 - A Factorial Design - II
Link NOC:Business Statistics Lecture 53 - Chi-square test goodness of fit - I
Link NOC:Business Statistics Lecture 54 - Chi-square test goodness of fit - II
Link NOC:Business Statistics Lecture 55 - Chi-square test of independence
Link NOC:Business Statistics Lecture 56 - Simple linear regression - I
Link NOC:Business Statistics Lecture 57 - Simple linear regression - II
Link NOC:Business Statistics Lecture 58 - Assumption of Regression
Link NOC:Business Statistics Lecture 59 - Multiple Regression
Link NOC:Business Statistics Lecture 60 - Example of multiple Regression
Link NOC:MCDM Techniques Using R Lecture 1 - Introduction to MCDM Techniques - Part I
Link NOC:MCDM Techniques Using R Lecture 2 - Introduction to MCDM Techniques - Part II
Link NOC:MCDM Techniques Using R Lecture 3 - Introduction to MCDM Techniques - Part III
Link NOC:MCDM Techniques Using R Lecture 4 - Analytic Hierarchy Process (AHP) - Part I
Link NOC:MCDM Techniques Using R Lecture 5 - Analytic Hierarchy Process (AHP) - Part II
Link NOC:MCDM Techniques Using R Lecture 6 - Analytic Hierarchy Process (AHP) - Part III
Link NOC:MCDM Techniques Using R Lecture 7 - Analytic Hierarchy Process (AHP) - Part IV
Link NOC:MCDM Techniques Using R Lecture 8 - ELECTRE - Part I
Link NOC:MCDM Techniques Using R Lecture 9 - ELECTRE - Part II
Link NOC:MCDM Techniques Using R Lecture 10 - ELECTRE - Part III
Link NOC:MCDM Techniques Using R Lecture 11 - ELECTRE - Part IV
Link NOC:MCDM Techniques Using R Lecture 12 - ELECTRE - Part V
Link NOC:MCDM Techniques Using R Lecture 13 - Introduction of TOPSIS - Part I
Link NOC:MCDM Techniques Using R Lecture 14 - TOPSIS - Part II
Link NOC:MCDM Techniques Using R Lecture 15 - VIKOR - Part I
Link NOC:MCDM Techniques Using R Lecture 16 - VIKOR - Part II
Link NOC:MCDM Techniques Using R Lecture 17 - Introduction of Fuzzy Sets
Link NOC:MCDM Techniques Using R Lecture 18 - Fuzzy AHP - Part I
Link NOC:MCDM Techniques Using R Lecture 19 - Fuzzy AHP - Part II
Link NOC:MCDM Techniques Using R Lecture 20 - Sensitivity Analysis
Link NOC:Manufacturing Strategy Lecture 1 - Output of Manufacturing
Link NOC:Manufacturing Strategy Lecture 2 - Operations Systems
Link NOC:Manufacturing Strategy Lecture 3 - Operations Strategy
Link NOC:Manufacturing Strategy Lecture 4 - Functional Strategy Within Context of a Firm
Link NOC:Manufacturing Strategy Lecture 5 - Functional Dominance within Corporate Strategy
Link NOC:Manufacturing Strategy Lecture 6 - World Class Manufacturing Organization
Link NOC:Manufacturing Strategy Lecture 7 - Ps of Manufacturing Strategy
Link NOC:Manufacturing Strategy Lecture 8 - Contribution of Skinner and Hayes and Wheelwright
Link NOC:Manufacturing Strategy Lecture 9 - Alternative Paradigm of Manufacturing Strategy
Link NOC:Manufacturing Strategy Lecture 10 - Some Generic Manufacturing Strategies - I
Link NOC:Manufacturing Strategy Lecture 11 - Developing Manufacturing Strategy
Link NOC:Manufacturing Strategy Lecture 12 - Understanding Markets
Link NOC:Manufacturing Strategy Lecture 13 - Concept of Order Winner and Qualifiers
Link NOC:Manufacturing Strategy Lecture 14 - Basic Characteristics and Specific Dimensions of Order Winners and Qualifiers
Link NOC:Manufacturing Strategy Lecture 15 - Some Specific Order Winners and Qualifiers - I
Link NOC:Manufacturing Strategy Lecture 16 - Some Specific Order Winners and Qualifiers - II
Link NOC:Manufacturing Strategy Lecture 17 - Some Specific Order Winners and Qualifiers - III
Link NOC:Manufacturing Strategy Lecture 18 - Some Specific Order Winners and Qualifiers (non operation related criteria)
Link NOC:Manufacturing Strategy Lecture 19 - Developing an Operations Strategy: Methodology
Link NOC:Manufacturing Strategy Lecture 20 - Developing an Operations Strategy
Link NOC:Manufacturing Strategy Lecture 21 - Developing an Operations Strategy: Roth and Miller Classification
Link NOC:Manufacturing Strategy Lecture 22 - Enlightened View of Manufacturing
Link NOC:Manufacturing Strategy Lecture 23 - Manufacturing Strategy Taxonomy: Some Evidences from China
Link NOC:Manufacturing Strategy Lecture 24 - Quality Management and Manufacturing Excellence
Link NOC:Manufacturing Strategy Lecture 25 - Total Quality Management and Manufacturing Excellence
Link NOC:Manufacturing Strategy Lecture 26 - Deming's Approach to Quality
Link NOC:Manufacturing Strategy Lecture 27 - Business Excellence Awards
Link NOC:Manufacturing Strategy Lecture 28 - Process Choice
Link NOC:Manufacturing Strategy Lecture 29 - Process Choice: 3 Dimensional View
Link NOC:Manufacturing Strategy Lecture 30 - Product Profiling
Link NOC:Manufacturing Strategy Lecture 31 - Critical Success Factor for World Class Manufacturing
Link NOC:Manufacturing Strategy Lecture 32 - Value Added Engineering
Link NOC:Manufacturing Strategy Lecture 33 - Total Employee Involvement
Link NOC:Manufacturing Strategy Lecture 34 - HR Theories for Operation Strategy
Link NOC:Manufacturing Strategy Lecture 35 - Flexible Manufacturing System
Link NOC:Manufacturing Strategy Lecture 36 - Concept of Focus
Link NOC:Manufacturing Strategy Lecture 37 - Toyota Production System - I
Link NOC:Manufacturing Strategy Lecture 38 - Toyota Production System - II
Link NOC:Manufacturing Strategy Lecture 39 - World Class Manufacturing and India
Link NOC:Manufacturing Strategy Lecture 40 - Achieving World Class Status
Link NOC:Training of Trainers Lecture 1 - Introduction to training - 1
Link NOC:Training of Trainers Lecture 2 - Introduction to training - 2
Link NOC:Training of Trainers Lecture 3 - Introduction to training - 3
Link NOC:Training of Trainers Lecture 4 - Introduction to training - 4
Link NOC:Training of Trainers Lecture 5 - Training Needs Assessment
Link NOC:Training of Trainers Lecture 6 - Methods of Training Needs Assessment - 1
Link NOC:Training of Trainers Lecture 7 - Methods of Training Needs Assessment - 2
Link NOC:Training of Trainers Lecture 8 - Methods of Training Needs Assessment - 3
Link NOC:Training of Trainers Lecture 9 - Trainings Design and Types of Training - 1
Link NOC:Training of Trainers Lecture 10 - Trainings Design and Types of Training - 2
Link NOC:Training of Trainers Lecture 11 - Trainings Design and Types of Training - 3
Link NOC:Training of Trainers Lecture 12 - Trainings Design and Types of Training - 4
Link NOC:Training of Trainers Lecture 13 - Design thinking in training
Link NOC:Training of Trainers Lecture 14 - Role of Technology - 1
Link NOC:Training of Trainers Lecture 15 - Role of Technology - 2
Link NOC:Training of Trainers Lecture 16 - Digital Pedagogy in training
Link NOC:Training of Trainers Lecture 17 - Introduction to Training Methods - 1
Link NOC:Training of Trainers Lecture 18 - Introduction to Training Methods - 2
Link NOC:Training of Trainers Lecture 19 - Choosing a Training Method
Link NOC:Training of Trainers Lecture 20 - Examples of Training
Link NOC:Training of Trainers Lecture 21 - Understanding training groups and its dynamics
Link NOC:Training of Trainers Lecture 22 - Training Methods - Case Study - 1
Link NOC:Training of Trainers Lecture 23 - Training Methods - Case Study - 2
Link NOC:Training of Trainers Lecture 24 - Training Methods - Case Study - 3
Link NOC:Training of Trainers Lecture 25 - Training Methods - Case Study - 4
Link NOC:Training of Trainers Lecture 26 - Training Methods - Business Game - 1
Link NOC:Training of Trainers Lecture 27 - Training Methods - Business Game - 2
Link NOC:Training of Trainers Lecture 28 - Training Methods - Business Game - 3
Link NOC:Training of Trainers Lecture 29 - Training Methods - Role Play - 1
Link NOC:Training of Trainers Lecture 30 - Training Methods - Role Play - 2
Link NOC:Training of Trainers Lecture 31 - Training Methods - Role Play - 3
Link NOC:Training of Trainers Lecture 32 - Training Methods - Behavior Modelling - 1
Link NOC:Training of Trainers Lecture 33 - Training Methods - Behavior Modelling - 2
Link NOC:Training of Trainers Lecture 34 - Training Methods - Behavior Modelling - 3
Link NOC:Training of Trainers Lecture 35 - Cost benefit Analysis
Link NOC:Training of Trainers Lecture 36 - Training Methods - Decision Making - 1
Link NOC:Training of Trainers Lecture 37 - Training Methods - Decision Making - 2
Link NOC:Training of Trainers Lecture 38 - Training Methods - Decision Making - 3
Link NOC:Training of Trainers Lecture 39 - Training Methods - Exercise
Link NOC:Training of Trainers Lecture 40 - Introduction to group training methods
Link NOC:Training of Trainers Lecture 41 - Training Methods - Brainstorming
Link NOC:Training of Trainers Lecture 42 - Training Methods - Group discussion
Link NOC:Training of Trainers Lecture 43 - Training methods - Panel Discussion
Link NOC:Training of Trainers Lecture 44 - A Research Approach in Training - 1
Link NOC:Training of Trainers Lecture 45 - A Research Approach in Training - 2
Link NOC:Training of Trainers Lecture 46 - Training evaluation - 1
Link NOC:Training of Trainers Lecture 47 - Training evaluation - 2
Link NOC:Training of Trainers Lecture 48 - Training response
Link NOC:Management Accounting Lecture 1 - An Introduction - I
Link NOC:Management Accounting Lecture 2 - An Introduction - II
Link NOC:Management Accounting Lecture 3 - Branches of Accounting and Cost Sheet
Link NOC:Management Accounting Lecture 4 - Statement of Cost- An introduction
Link NOC:Management Accounting Lecture 5 - Fundamentals of Management Accounting - I
Link NOC:Management Accounting Lecture 6 - Fundamentals of Management Accounting - II
Link NOC:Management Accounting Lecture 7 - Cost Sheet - Role and Relevance in Management Decision Making - I
Link NOC:Management Accounting Lecture 8 - Cost Sheet - Role and Relevance in Management Decision Making - II
Link NOC:Management Accounting Lecture 9 - Preparation and Analysis of Cost Sheet - I
Link NOC:Management Accounting Lecture 10 - Preparation and Analysis of Cost Sheet - II
Link NOC:Management Accounting Lecture 11 - Preparation and Analysis of Cost Sheet - III
Link NOC:Management Accounting Lecture 12 - Budget and Budgetary Control - I
Link NOC:Management Accounting Lecture 13 - Budget and Budgetary Control - II
Link NOC:Management Accounting Lecture 14 - Preparation of Budgets
Link NOC:Management Accounting Lecture 15 - Preparation of Master Budget
Link NOC:Management Accounting Lecture 16 - Cash Budget - I
Link NOC:Management Accounting Lecture 17 - Cash Budget - II
Link NOC:Management Accounting Lecture 18 - Cash Budget - III
Link NOC:Management Accounting Lecture 19 - Cash Budget - IV
Link NOC:Management Accounting Lecture 20 - Financial Budget
Link NOC:Management Accounting Lecture 21 - Master Budget - A Mini Case - I
Link NOC:Management Accounting Lecture 22 - Master Budget - A Mini Case - II
Link NOC:Management Accounting Lecture 23 - Master Budget - A Mini Case - III
Link NOC:Management Accounting Lecture 24 - Flexible Budget and Variance Analysis - I
Link NOC:Management Accounting Lecture 25 - Flexible Budget and Variance Analysis - II
Link NOC:Management Accounting Lecture 26 - Flexible Budget and Variance Analysis - III
Link NOC:Management Accounting Lecture 27 - Flexible Budget - A Mini Case - I
Link NOC:Management Accounting Lecture 28 - Flexible Budget - A Mini Case - II
Link NOC:Management Accounting Lecture 29 - Standard Costing and Variance Analysis
Link NOC:Management Accounting Lecture 30 - Pre-Requisites to Standard Costing
Link NOC:Management Accounting Lecture 31 - Variance Analysis
Link NOC:Management Accounting Lecture 32 - Material Variances - I
Link NOC:Management Accounting Lecture 33 - Material Variances - II
Link NOC:Management Accounting Lecture 34 - Material Variances - III
Link NOC:Management Accounting Lecture 35 - Material Variances - IV
Link NOC:Management Accounting Lecture 36 - Material Variances - V
Link NOC:Management Accounting Lecture 37 - Labor Variances - I
Link NOC:Management Accounting Lecture 38 - Labor Variances - II
Link NOC:Management Accounting Lecture 39 - Labor Variances - III
Link NOC:Management Accounting Lecture 40 - Labor Variances - IV
Link NOC:Management Accounting Lecture 41 - Labor Variances - V
Link NOC:Management Accounting Lecture 42 - Overhead Variances
Link NOC:Management Accounting Lecture 43 - Marginal Costing - I
Link NOC:Management Accounting Lecture 44 - Marginal Costing - II
Link NOC:Management Accounting Lecture 45 - Marginal Costing - III
Link NOC:Management Accounting Lecture 46 - Tools of Marginal Costing
Link NOC:Management Accounting Lecture 47 - CVP Analysis
Link NOC:Management Accounting Lecture 48 - Applications of Marginal Costing - I
Link NOC:Management Accounting Lecture 49 - Applications of Marginal Costing - II
Link NOC:Management Accounting Lecture 50 - Applications of Marginal Costing - III
Link NOC:Management Accounting Lecture 51 - Activity Based Costing- An Introduction
Link NOC:Management Accounting Lecture 52 - Cost Management System and Activity Based Costing - I
Link NOC:Management Accounting Lecture 53 - Cost Management System and Activity Based Costing - II
Link NOC:Management Accounting Lecture 54 - Designing of ABC System
Link NOC:Management Accounting Lecture 55 - Applications of ABC - I
Link NOC:Management Accounting Lecture 56 - Applications of ABC - II
Link NOC:Management Accounting Lecture 57 - Management Control System and Responsibility Accounting - I
Link NOC:Management Accounting Lecture 58 - Management Control System and Responsibility Accounting - II
Link NOC:Management Accounting Lecture 59 - Implementation of Management Control Systems - I
Link NOC:Management Accounting Lecture 60 - Implementation of Management Control Systems - II
Link NOC:Financial Derivatives and Risk Management Lecture 1 - Overview of Derivatives
Link NOC:Financial Derivatives and Risk Management Lecture 2 - Forwards: Introduction and Pricing
Link NOC:Financial Derivatives and Risk Management Lecture 3 - Forwards: Pricing and Arbitrage
Link NOC:Financial Derivatives and Risk Management Lecture 4 - Forwards Pricing: Consumption Assets
Link NOC:Financial Derivatives and Risk Management Lecture 5 - Futures: Introduction and Salient Features
Link NOC:Financial Derivatives and Risk Management Lecture 6 - Futures: Margining and MTM
Link NOC:Financial Derivatives and Risk Management Lecture 7 - Forwards and Futures Prices, Exposure
Link NOC:Financial Derivatives and Risk Management Lecture 8 - Exposure and Risk
Link NOC:Financial Derivatives and Risk Management Lecture 9 - Basics of Futures Hedging
Link NOC:Financial Derivatives and Risk Management Lecture 10 - Futures Hedging: Nuances
Link NOC:Financial Derivatives and Risk Management Lecture 11 - Futures Hedging: No of Contracts
Link NOC:Financial Derivatives and Risk Management Lecture 12 - Futures Hedging: Examples
Link NOC:Financial Derivatives and Risk Management Lecture 13 - Mean Variance Portfolio Theory
Link NOC:Financial Derivatives and Risk Management Lecture 14 - Capital Asset Pricing Model
Link NOC:Financial Derivatives and Risk Management Lecture 15 - Systematic and Unsystematic Risk
Link NOC:Financial Derivatives and Risk Management Lecture 16 - Index Futures: Basic Theory
Link NOC:Financial Derivatives and Risk Management Lecture 17 - Hedging with Index Futures
Link NOC:Financial Derivatives and Risk Management Lecture 18 - Index Futures: Arbitrage, Examples
Link NOC:Financial Derivatives and Risk Management Lecture 19 - Spot Interest Rates and YTM
Link NOC:Financial Derivatives and Risk Management Lecture 20 - YTM, Other Yield Measures
Link NOC:Financial Derivatives and Risk Management Lecture 21 - Interest Rate Risk
Link NOC:Financial Derivatives and Risk Management Lecture 22 - Duration and Price Sensitivities, Immunization
Link NOC:Financial Derivatives and Risk Management Lecture 23 - Interest Rate Futures: Salient Features
Link NOC:Financial Derivatives and Risk Management Lecture 24 - T-Bill Futures: Applications
Link NOC:Financial Derivatives and Risk Management Lecture 25 - T-Bill Futures: Hedging
Link NOC:Financial Derivatives and Risk Management Lecture 26 - T-Bill Futures: Arbitrage; Eurodollar Futures
Link NOC:Financial Derivatives and Risk Management Lecture 27 - Tailing the Hedge; Clean and Dirty Price
Link NOC:Financial Derivatives and Risk Management Lecture 28 - US T-Bond Futures: Salient Features, Pricing
Link NOC:Financial Derivatives and Risk Management Lecture 29 - US T-Bond Futures: Conversion Factor; Options
Link NOC:Financial Derivatives and Risk Management Lecture 30 - Options: Basic Theory
Link NOC:Financial Derivatives and Risk Management Lecture 31 - Options: Put-Call Parity
Link NOC:Financial Derivatives and Risk Management Lecture 32 - Options: Price Bounds, American Options
Link NOC:Financial Derivatives and Risk Management Lecture 33 - American Options: Properties
Link NOC:Financial Derivatives and Risk Management Lecture 34 - Basic Option Trading Strategies
Link NOC:Financial Derivatives and Risk Management Lecture 35 - Option Strategies (Continued...)
Link NOC:Financial Derivatives and Risk Management Lecture 36 - Option Spread Strategies
Link NOC:Financial Derivatives and Risk Management Lecture 37 - Stochastic Processes: Random Walk
Link NOC:Financial Derivatives and Risk Management Lecture 38 - Stochastic Processes: Brownian Motion
Link NOC:Financial Derivatives and Risk Management Lecture 39 - Stochastic Processes: Diffusion Equation
Link NOC:Financial Derivatives and Risk Management Lecture 40 - Stochastic Processes: Central Limit Theorem, Stochastic Calculus
Link NOC:Financial Derivatives and Risk Management Lecture 41 - Stochastic Calculus: Ito’s Equation
Link NOC:Financial Derivatives and Risk Management Lecture 42 - Stock Price Distributions; Fokker Planck Equation and Solution
Link NOC:Financial Derivatives and Risk Management Lecture 43 - Lognormal Distribution
Link NOC:Financial Derivatives and Risk Management Lecture 44 - Option Pricing: Binomial Model, Risk Neutral Valuation
Link NOC:Financial Derivatives and Risk Management Lecture 45 - Option Pricing: Binomial Model Contd
Link NOC:Financial Derivatives and Risk Management Lecture 46 - Girsanov Theorem; Black Scholes Model
Link NOC:Financial Derivatives and Risk Management Lecture 47 - Black Scholes Model (Continued...)
Link NOC:Financial Derivatives and Risk Management Lecture 48 - Features of BS Model
Link NOC:Financial Derivatives and Risk Management Lecture 49 - Solution of BS PDE; Option Greeks
Link NOC:Financial Derivatives and Risk Management Lecture 50 - Option Greeks: Definition and Properties
Link NOC:Financial Derivatives and Risk Management Lecture 51 - Option Greeks: Further Properties
Link NOC:Financial Derivatives and Risk Management Lecture 52 - Option Greeks: Further Properties, Role in Trading Strategies
Link NOC:Financial Derivatives and Risk Management Lecture 53 - Option Greeks: Further Properties, Role in Trading Strategies (Continued...)
Link NOC:Financial Derivatives and Risk Management Lecture 54 - Option Greeks: Role in Trading Strategies (Continued...); Swaps
Link NOC:Financial Derivatives and Risk Management Lecture 55 - Forward Rate Agreements; Swaps
Link NOC:Financial Derivatives and Risk Management Lecture 56 - Swaps: Theory of Swaps
Link NOC:Financial Derivatives and Risk Management Lecture 57 - Swaps: Valuation of Interest Rate Swaps
Link NOC:Financial Derivatives and Risk Management Lecture 58 - Currency Swaps; Value at Risk
Link NOC:Financial Derivatives and Risk Management Lecture 59 - Value at Risk: Definition and Computation
Link NOC:Financial Derivatives and Risk Management Lecture 60 - Value at Risk: Computation for Bond and Derivative Portfolios
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 1 - Introduction - Part I
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 2 - Introduction - Part II
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 3 - Introduction - Part III
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 4 - Python for Analytics - Part I
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 5 - Python for Analytics - Part II
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 6 - Python for Analytics - Part III
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 7 - Python for Analytics - Part IV
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 8 - Python for Analytics - Part V
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 9 - Built in Capabilities of Python - Part I
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 10 - Built in Capabilities of Python - Part II
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 11 - Built in Capabilities of Python - Part III
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 12 - Built in Capabilities of Python - Part IV
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 13 - Built in Capabilities of Python - Part V
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 14 - Built in Capabilities of Python - Part VI
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 15 - Built in Capabilities of Python - Part VII
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 16 - Built in Capabilities of Python - Part VIII
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 17 - Built in Capabilities of Python - Part IX
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 18 - Built in Capabilities of Python - Part X
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 19 - Numerical Python - Part I
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 20 - Numerical Python - Part II
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 21 - Numerical Python - Part III
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 22 - Numerical Python - Part IV
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 23 - Numerical Python - Part V
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 24 - Numerical Python - Part VI
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 25 - Numerical Python - Part VII
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 26 - Database Using Python Pandas - Part I
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 27 - Database Using Python Pandas - Part II
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 28 - Database Using Python Pandas - Part III
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 29 - Database Using Python Pandas - Part IV
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 30 - Python Working with Data - Part I
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 31 - Python Working with Data - Part II
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 32 - Python Working with Data - Part III
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 33 - String and Text Processing - Part I
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 34 - String and Text Processing - Part II
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 35 - Data Visualization Using Python
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 36 - Text Collection and Transformation - Part I
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 37 - Text Collection and Transformation - Part II
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 38 - Text Mining and Modeling - Part I
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 39 - Text Mining and Modeling - Part II
Link NOC:Business Analytics and Text Mining Modeling Using Python Lecture 40 - Text Mining and Modeling - Part III
Link NOC:Toyota Production System Lecture 1 - Manufacturing Excellence
Link NOC:Toyota Production System Lecture 2 - Global Environment
Link NOC:Toyota Production System Lecture 3 - Production System
Link NOC:Toyota Production System Lecture 4 - Operation Strategy
Link NOC:Toyota Production System Lecture 5 - The Heart of the TPS : Eliminating Waste
Link NOC:Toyota Production System Lecture 6 - Principles of Toyota Way
Link NOC:Toyota Production System Lecture 7 - Culture Behind Toyota Way
Link NOC:Toyota Production System Lecture 8 - Toyota Way in Action
Link NOC:Toyota Production System Lecture 9 - Long Term Philosophy
Link NOC:Toyota Production System Lecture 10 - Create Continuous Flow
Link NOC:Toyota Production System Lecture 11 - Pull System
Link NOC:Toyota Production System Lecture 12 - Leveling Workload
Link NOC:Toyota Production System Lecture 13 - Get Quality Right the First Time
Link NOC:Toyota Production System Lecture 14 - Standardization of Task
Link NOC:Toyota Production System Lecture 15 - Use of Visual Control
Link NOC:Toyota Production System Lecture 16 - Use of Reliable Technology
Link NOC:Toyota Production System Lecture 17 - Role of Leaders in Manufacturing Philosophy
Link NOC:Toyota Production System Lecture 18 - Developing Exceptional Teams
Link NOC:Toyota Production System Lecture 19 - Challenge and Respect Extended Networks
Link NOC:Toyota Production System Lecture 20 - See Yourself to Understand the Situation
Link NOC:Toyota Production System Lecture 21 - Developing Decisions with Consensus
Link NOC:Toyota Production System Lecture 22 - Become a Learning Organization
Link NOC:Toyota Production System Lecture 23 - Become a Learning Organization : Continuous Improvement
Link NOC:Toyota Production System Lecture 24 - Using Toyota Way for Other Organizations (Service and Technical)
Link NOC:Toyota Production System Lecture 25 - Lean Manufacturing
Link NOC:Toyota Production System Lecture 26 - Lean Vs Agile Manufacturing
Link NOC:Toyota Production System Lecture 27 - Sustainable Manufacturing - I
Link NOC:Toyota Production System Lecture 28 - Sustainable Manufacturing - II
Link NOC:Toyota Production System Lecture 29 - Flexible Manufacturing System
Link NOC:Toyota Production System Lecture 30 - Benchmarking
Link NOC:Toyota Production System Lecture 31 - Cultural Issues in Lean
Link NOC:Toyota Production System Lecture 32 - Overview of Lean Implementation
Link NOC:Toyota Production System Lecture 33 - The Significance of Lead Time
Link NOC:Toyota Production System Lecture 34 - Techniques to Reduce Lead Time
Link NOC:Toyota Production System Lecture 35 - Value Stream Mapping
Link NOC:Toyota Production System Lecture 36 - Kanban Approach
Link NOC:Toyota Production System Lecture 37 - Kanban Calculation - I
Link NOC:Toyota Production System Lecture 38 - Kanban Calculation - II
Link NOC:Toyota Production System Lecture 39 - Theory of Constraints
Link NOC:Toyota Production System Lecture 40 - Different Business Excellence Models
Link Strategic Management Lecture 1 - Introduction to Strategic Management
Link Strategic Management Lecture 2 - Concept of Corporate Strategy
Link Strategic Management Lecture 3 - Strategic Management Process - 1
Link Strategic Management Lecture 4 - Strategic Management Process - 2
Link Strategic Management Lecture 5 - The 7-S Framework
Link Strategic Management Lecture 6 - Corporate Policy and Planning in India
Link Strategic Management Lecture 7 - Board of Directors - Role and Functions
Link Strategic Management Lecture 8 - Board of Directors - Role and Functions, Top Management - Role and Skills, Board Functioning - Indian Context
Link Strategic Management Lecture 9 - Board Functioning - Indian Context and Environmental Scanning
Link Strategic Management Lecture 10 - Environmental Scanning and Industry Analysis
Link Strategic Management Lecture 11 - The synthesis of External Factors and External Factors Analysis Summary (EFAS)
Link Strategic Management Lecture 12 - Internal Corporate Analysis and Impact Matrix
Link Strategic Management Lecture 13 - Value Chain Analysis
Link Strategic Management Lecture 14 - Synthesis of Internal Factors - 1
Link Strategic Management Lecture 15 - Synthesis of Internal Factors - 2
Link Strategic Management Lecture 16 - Internal Factors Analysis Summary (IFAS) and Case Study - 1
Link Strategic Management Lecture 17 - Case Analysis
Link Strategic Management Lecture 18 - Key Financial Ratios
Link Strategic Management Lecture 19 - Case Analysis - 2 and SFAS Matrix
Link Strategic Management Lecture 20 - Business Strategy
Link Strategic Management Lecture 21 - Corporate Strategy - 1
Link Strategic Management Lecture 22 - Corporate Strategy - 2
Link Strategic Management Lecture 23 - Corporate Strategy - 3 and Functional Strategy
Link Strategic Management Lecture 24 - Functional Strategy - 1
Link Strategic Management Lecture 25 - Functional Strategy - 2
Link Strategic Management Lecture 26 - Functional Strategy - 3 and Strategic Choice
Link Strategic Management Lecture 27 - Strategy Implementation - 1
Link Strategic Management Lecture 28 - Strategy Implementation - 2
Link Strategic Management Lecture 29 - Evaluation and Control
Link Strategic Management Lecture 30 - Strategic Information Systems - 1
Link Strategic Management Lecture 31 - Strategic Information Systems - 2
Link Strategic Management Lecture 32 - Other Strategic Issues - 1
Link Strategic Management Lecture 33 - Other Strategic Issues - 2
Link Strategic Management Lecture 34 - Small and Medium Enterprises
Link Strategic Management Lecture 35 - Non- Profit Organizations
Link Strategic Management Lecture 36 - Summary - 1
Link Strategic Management Lecture 37 - Summary - 2
Link Global Supply Chain Management Lecture 1 - Introduction to Global Supply Chain Networks Part - 1
Link Global Supply Chain Management Lecture 2 - Introduction to Global Supply Chain Networks Part - 2
Link Global Supply Chain Management Lecture 3 - Zara - fast fashion
Link Global Supply Chain Management Lecture 4 - The Supply Chain Eco-System Framework
Link Global Supply Chain Management Lecture 5 - Supply Chain Eco-System Framework: Supply Chains & Resources
Link Global Supply Chain Management Lecture 6 - Supply Chain Eco-System Framework: Delivery services & Institutions
Link Global Supply Chain Management Lecture 7 - Metro Cash and Carry
Link Global Supply Chain Management Lecture 8 - Performance Analysis
Link Global Supply Chain Management Lecture 9 - Supply Chain Risk - Part-1
Link Global Supply Chain Management Lecture 10 - Supply Chain Risk - Part-2
Link Global Supply Chain Management Lecture 11 - Supply Chain Risk - Part-3
Link Global Supply Chain Management Lecture 12 - Mattel Toy Recalls and Supply Chain Management
Link Global Supply Chain Management Lecture 13 - Innovation in Emerging markets
Link Global Supply Chain Management Lecture 14 - Innovations in Supply Chain Ecosystem
Link Global Supply Chain Management Lecture 15 - Indian Telecom and Bharti Airtel
Link Global Supply Chain Management Lecture 16 - CEMEX - Part-1
Link Global Supply Chain Management Lecture 17 - CEMEX - Part-2
Link Global Supply Chain Management Lecture 18 - Governance
Link Global Supply Chain Management Lecture 19 - Governance of networked organizations
Link Global Supply Chain Management Lecture 20 - The Orchestration Governance Model
Link Global Supply Chain Management Lecture 21 - Orchestration-Examples
Link Global Supply Chain Management Lecture 22 - Li & Fung - Part-1
Link Global Supply Chain Management Lecture 23 - Li & Fung - Part-2
Link Global Supply Chain Management Lecture 24 - Supply Chain Design - Part-1
Link Global Supply Chain Management Lecture 25 - Supply Chain Design - Part-2
Link Global Supply Chain Management Lecture 26 - Green supply chain design - Part-1
Link Global Supply Chain Management Lecture 27 - Green supply chain design - Part-2
Link Global Supply Chain Management Lecture 28 - Green Supply Chain Ecosystem Analysis
Link Global Supply Chain Management Lecture 29 - GRIP Framework
Link Global Supply Chain Management Lecture 30 - Location Selection
Link Global Supply Chain Management Lecture 31 - Ecosystem Aware Location Analysis
Link Global Supply Chain Management Lecture 32 - Food supply chain in India
Link Global Supply Chain Management Lecture 33 - Food supply chain ecosystem - Grip frame work
Link Global Supply Chain Management Lecture 34 - Food Security in India
Link Global Supply Chain Management Lecture 35 - Smart Villages and Cities - Part-1
Link Global Supply Chain Management Lecture 36 - Smart Villages and Cities - Part-2
Link Global Supply Chain Management Lecture 37 - Overview of the Course
Link Global Supply Chain Management Lecture 38 - How to use the Video lectures
Link Elementary Numerical Analysis Lecture 1 - Introduction
Link Elementary Numerical Analysis Lecture 2 - Polynomial Approximation
Link Elementary Numerical Analysis Lecture 3 - Interpolating Polynomials
Link Elementary Numerical Analysis Lecture 4 - Properties of Divided Difference
Link Elementary Numerical Analysis Lecture 5 - Error in the Interpolating polynomial
Link Elementary Numerical Analysis Lecture 6 - Cubic Hermite Interpolation
Link Elementary Numerical Analysis Lecture 7 - Piecewise Polynomial Approximation
Link Elementary Numerical Analysis Lecture 8 - Cubic Spline Interpolation
Link Elementary Numerical Analysis Lecture 9 - Tutorial 1
Link Elementary Numerical Analysis Lecture 10 - Numerical Integration: Basic Rules
Link Elementary Numerical Analysis Lecture 11 - Composite Numerical Integration
Link Elementary Numerical Analysis Lecture 12 - Gauss 2-point Rule: Construction
Link Elementary Numerical Analysis Lecture 13 - Gauss 2-point Rule: Error
Link Elementary Numerical Analysis Lecture 14 - Convergence of Gaussian Integration
Link Elementary Numerical Analysis Lecture 15 - Tutorial 2
Link Elementary Numerical Analysis Lecture 16 - Numerical Differentiation
Link Elementary Numerical Analysis Lecture 17 - Gauss Elimination
Link Elementary Numerical Analysis Lecture 18 - L U decomposition
Link Elementary Numerical Analysis Lecture 19 - Cholesky decomposition
Link Elementary Numerical Analysis Lecture 20 - Gauss Elimination with partial pivoting
Link Elementary Numerical Analysis Lecture 21 - Vector and Matrix Norms
Link Elementary Numerical Analysis Lecture 22 - Perturbed Linear Systems
Link Elementary Numerical Analysis Lecture 23 - Ill-conditioned Linear System
Link Elementary Numerical Analysis Lecture 24 - Tutorial 3
Link Elementary Numerical Analysis Lecture 25 - Effect of Small Pivots
Link Elementary Numerical Analysis Lecture 26 - Solution of Non-linear Equations
Link Elementary Numerical Analysis Lecture 27 - Quadratic Convergence of Newton's Method
Link Elementary Numerical Analysis Lecture 28 - Jacobi Method
Link Elementary Numerical Analysis Lecture 29 - Gauss-Seidel Method
Link Elementary Numerical Analysis Lecture 30 - Tutorial 4
Link Elementary Numerical Analysis Lecture 31 - Initial Value Problem
Link Elementary Numerical Analysis Lecture 32 - Multi-step Methods
Link Elementary Numerical Analysis Lecture 33 - Predictor-Corrector Formulae
Link Elementary Numerical Analysis Lecture 34 - Boundary Value Problems
Link Elementary Numerical Analysis Lecture 35 - Eigenvalues and Eigenvectors
Link Elementary Numerical Analysis Lecture 36 - Spectral Theorem
Link Elementary Numerical Analysis Lecture 37 - Power Method
Link Elementary Numerical Analysis Lecture 38 - Inverse Power Method
Link Elementary Numerical Analysis Lecture 39 - Q R Decomposition
Link Elementary Numerical Analysis Lecture 40 - Q R Method
Link Measure and Integration Lecture 1 - Introduction, Extended Real numbers
Link Measure and Integration Lecture 2 - Algebra and Sigma Algebra of a subset of a set
Link Measure and Integration Lecture 3 - Sigma Algebra generated by a class
Link Measure and Integration Lecture 4 - Monotone Class
Link Measure and Integration Lecture 5 - Set function
Link Measure and Integration Lecture 6 - The Length function and its properties
Link Measure and Integration Lecture 7 - Countably additive set functions on intervals
Link Measure and Integration Lecture 8 - Uniqueness Problem for Measure
Link Measure and Integration Lecture 9 - Extension of measure
Link Measure and Integration Lecture 10 - Outer measure and its properties
Link Measure and Integration Lecture 11 - Measurable sets
Link Measure and Integration Lecture 12 - Lebesgue measure and its properties
Link Measure and Integration Lecture 13 - Characterization of Lebesque measurable sets
Link Measure and Integration Lecture 14 - Measurable functions
Link Measure and Integration Lecture 15 - Properties of measurable functions
Link Measure and Integration Lecture 16 - Measurable functions on measure spaces
Link Measure and Integration Lecture 17 - Integral of non negative simple measurable functions
Link Measure and Integration Lecture 18 - Properties of non negative simple measurable functions
Link Measure and Integration Lecture 19 - Monotone convergence theorem & Fatou's Lemma
Link Measure and Integration Lecture 20 - Properties of Integral functions & Dominated Convergence Theorem
Link Measure and Integration Lecture 21 - Dominated Convergence Theorem and applications
Link Measure and Integration Lecture 22 - Lebesgue Integral and its properties
Link Measure and Integration Lecture 23 - Denseness of continuous function
Link Measure and Integration Lecture 24 - Product measures, an Introduction
Link Measure and Integration Lecture 25 - Construction of Product Measure
Link Measure and Integration Lecture 26 - Computation of Product Measure - I
Link Measure and Integration Lecture 27 - Computation of Product Measure - II
Link Measure and Integration Lecture 28 - Integration on Product spaces
Link Measure and Integration Lecture 29 - Fubini's Theorems
Link Measure and Integration Lecture 30 - Lebesgue Measure and integral on R2
Link Measure and Integration Lecture 31 - Properties of Lebesgue Measure and integral on Rn
Link Measure and Integration Lecture 32 - Lebesgue integral on R2
Link Measure and Integration Lecture 33 - Integrating complex-valued functions
Link Measure and Integration Lecture 34 - Lp - spaces
Link Measure and Integration Lecture 35 - L2(X,S,mue)
Link Measure and Integration Lecture 36 - Fundamental Theorem of calculas for Lebesgue Integral - I
Link Measure and Integration Lecture 37 - Fundamental Theorem of calculus for Lebesgue Integral - II
Link Measure and Integration Lecture 38 - Absolutely continuous measures
Link Measure and Integration Lecture 39 - Modes of convergence
Link Measure and Integration Lecture 40 - Convergence in Measure
Link Mathematics in India - From Vedic Period to Modern Times Lecture 1 - Indian Mathematics: An Overview
Link Mathematics in India - From Vedic Period to Modern Times Lecture 2 - Vedas and Sulbasutras - Part 1
Link Mathematics in India - From Vedic Period to Modern Times Lecture 3 - Vedas and Sulbasutras - Part 2
Link Mathematics in India - From Vedic Period to Modern Times Lecture 4 - Panini's Astadhyayi
Link Mathematics in India - From Vedic Period to Modern Times Lecture 5 - Pingala's Chandahsastra
Link Mathematics in India - From Vedic Period to Modern Times Lecture 6 - Decimal place value system
Link Mathematics in India - From Vedic Period to Modern Times Lecture 7 - Aryabhatiya of Aryabhata - Part 1
Link Mathematics in India - From Vedic Period to Modern Times Lecture 8 - Aryabhatiya of Aryabhata - Part 2
Link Mathematics in India - From Vedic Period to Modern Times Lecture 9 - Aryabhatiya of Aryabhata - Part 3
Link Mathematics in India - From Vedic Period to Modern Times Lecture 10 - Aryabhatiya of Aryabhata - Part 4 and Introduction to Jaina Mathematics
Link Mathematics in India - From Vedic Period to Modern Times Lecture 11 - Brahmasphutasiddhanta of Brahmagupta - Part 1
Link Mathematics in India - From Vedic Period to Modern Times Lecture 12 - Brahmasphutasiddhanta of Brahmagupta - Part 2
Link Mathematics in India - From Vedic Period to Modern Times Lecture 13 - Brahmasphutasiddhanta of Brahmagupta - Part 3
Link Mathematics in India - From Vedic Period to Modern Times Lecture 14 - Brahmasphutasiddhanta of Brahmagupta - Part 4 and The Bakhshali Manuscript
Link Mathematics in India - From Vedic Period to Modern Times Lecture 15 - Mahaviras Ganitasarasangraha - Part 1
Link Mathematics in India - From Vedic Period to Modern Times Lecture 16 - Mahaviras Ganitasarasangraha - Part 2
Link Mathematics in India - From Vedic Period to Modern Times Lecture 17 - Mahaviras Ganitasarasangraha - Part 3
Link Mathematics in India - From Vedic Period to Modern Times Lecture 18 - Development of Combinatorics - Part 1
Link Mathematics in India - From Vedic Period to Modern Times Lecture 19 - Development of Combinatorics - Part 2
Link Mathematics in India - From Vedic Period to Modern Times Lecture 20 - Lilavati of Bhaskaracarya - Part 1
Link Mathematics in India - From Vedic Period to Modern Times Lecture 21 - Lilavati of Bhaskaracarya - Part 2
Link Mathematics in India - From Vedic Period to Modern Times Lecture 22 - Lilavati of Bhaskaracarya - Part 3
Link Mathematics in India - From Vedic Period to Modern Times Lecture 23 - Bijaganita of Bhaskaracarya - Part 1
Link Mathematics in India - From Vedic Period to Modern Times Lecture 24 - Bijaganita of Bhaskaracarya - Part 2
Link Mathematics in India - From Vedic Period to Modern Times Lecture 25 - Ganitakaumudi of Narayana Pandita - Part 1
Link Mathematics in India - From Vedic Period to Modern Times Lecture 26 - Ganitakaumudi of Narayana Pandita - Part 2
Link Mathematics in India - From Vedic Period to Modern Times Lecture 27 - Ganitakaumudi of Narayana Pandita - Part 3
Link Mathematics in India - From Vedic Period to Modern Times Lecture 28 - Magic Squares - Part 1
Link Mathematics in India - From Vedic Period to Modern Times Lecture 29 - Magic Squares - Part 2
Link Mathematics in India - From Vedic Period to Modern Times Lecture 30 - Development of Calculus in India - Part 1
Link Mathematics in India - From Vedic Period to Modern Times Lecture 31 - Development of Calculus in India - Part 2
Link Mathematics in India - From Vedic Period to Modern Times Lecture 32 - Jyanayanam: Computation of Rsines
Link Mathematics in India - From Vedic Period to Modern Times Lecture 33 - Trigonometry and Spherical Trigonometry - Part 1
Link Mathematics in India - From Vedic Period to Modern Times Lecture 34 - Trigonometry and Spherical Trigonometry - Part 2
Link Mathematics in India - From Vedic Period to Modern Times Lecture 35 - Trigonometry and Spherical Trigonometry - Part 3
Link Mathematics in India - From Vedic Period to Modern Times Lecture 36 - Proofs in Indian Mathematics - Part 1
Link Mathematics in India - From Vedic Period to Modern Times Lecture 37 - Proofs in Indian Mathematics - Part 2
Link Mathematics in India - From Vedic Period to Modern Times Lecture 38 - Proofs in Indian Mathematics - Part 3
Link Mathematics in India - From Vedic Period to Modern Times Lecture 39 - Mathematics in Modern India - Part 1
Link Mathematics in India - From Vedic Period to Modern Times Lecture 40 - Mathematics in Modern India - Part 2
Link NOC:Measure Theory Lecture 1 - (1A) Introduction, Extended Real Numbers
Link NOC:Measure Theory Lecture 2 - (1B) Introduction, Extended Real Numbers
Link NOC:Measure Theory Lecture 3 - (2A) Algebra and Sigma Algebra of Subsets of a Set
Link NOC:Measure Theory Lecture 4 - (2B) Algebra and Sigma Algebra of Subsets of a Set
Link NOC:Measure Theory Lecture 5 - (3A) Sigma Algebra generated by a Class
Link NOC:Measure Theory Lecture 6 - (3B) Sigma Algebra generated by a Class
Link NOC:Measure Theory Lecture 7 - (4A) Monotone Class
Link NOC:Measure Theory Lecture 8 - (4B) Monotone Class
Link NOC:Measure Theory Lecture 9 - (5A) Set Functions
Link NOC:Measure Theory Lecture 10 - (5B) Set Functions
Link NOC:Measure Theory Lecture 11 - (6A) The Length Function and its Properties
Link NOC:Measure Theory Lecture 12 - (6B) The Length Function and its Properties
Link NOC:Measure Theory Lecture 13 - (7A) Countably Additive Set Functions on Intervals
Link NOC:Measure Theory Lecture 14 - (7B) Countably Additive Set Functions on Intervals
Link NOC:Measure Theory Lecture 15 - (8A) Uniqueness Problem for Measure
Link NOC:Measure Theory Lecture 16 - (8B) Uniqueness Problem for Measure
Link NOC:Measure Theory Lecture 17 - (9A) Extension of Measure
Link NOC:Measure Theory Lecture 18 - (9B) Extension of Measure
Link NOC:Measure Theory Lecture 19 - (10A) Outer Measure and its Properties
Link NOC:Measure Theory Lecture 20 - (10B) Outer Measure and its Properties
Link NOC:Measure Theory Lecture 21 - (11A) Measurable Sets
Link NOC:Measure Theory Lecture 22 - (11B) Measurable Sets
Link NOC:Measure Theory Lecture 23 - (12A) Lebesgue Measure and its Properties
Link NOC:Measure Theory Lecture 24 - (12B) Lebesgue Measure and its Properties
Link NOC:Measure Theory Lecture 25 - (13A) Characterization of Lebesgue Measurable Sets
Link NOC:Measure Theory Lecture 26 - (13B) Characterization of Lebesgue Measurable Sets
Link NOC:Measure Theory Lecture 27 - (14A) Measurable Functions
Link NOC:Measure Theory Lecture 28 - (14B) Measurable Functions
Link NOC:Measure Theory Lecture 29 - (15A) Properties of Measurable Functions
Link NOC:Measure Theory Lecture 30 - (15B) Properties of Measurable Functions
Link NOC:Measure Theory Lecture 31 - (16A) Measurable Functions on Measure Spaces
Link NOC:Measure Theory Lecture 32 - (16B) Measurable Functions on Measure Spaces
Link NOC:Measure Theory Lecture 33 - (17A) Integral of Nonnegative Simple Measurable Functions
Link NOC:Measure Theory Lecture 34 - (17B) Integral of Nonnegative Simple Measurable Functions
Link NOC:Measure Theory Lecture 35 - (18A) Properties of Nonnegative Simple Measurable Functions
Link NOC:Measure Theory Lecture 36 - (18B) Properties of Nonnegative Simple Measurable Functions
Link NOC:Measure Theory Lecture 37 - (19A) Monotone Convergence Theorem and Fatou's Lemma
Link NOC:Measure Theory Lecture 38 - (19B) Monotone Convergence Theorem and Fatou's Lemma
Link NOC:Measure Theory Lecture 39 - (20A) Properties of Integrable Functions and Dominated Convergence Theorem
Link NOC:Measure Theory Lecture 40 - (20B) Properties of Integrable Functions and Dominated Convergence Theorem
Link NOC:Measure Theory Lecture 41 - (21A) Dominated Convergence Theorem and Applications
Link NOC:Measure Theory Lecture 42 - (21B) Dominated Convergence Theorem and Applications
Link NOC:Measure Theory Lecture 43 - (22A) Lebesgue Integral and its Properties
Link NOC:Measure Theory Lecture 44 - (22B) Lebesgue Integral and its Properties
Link NOC:Measure Theory Lecture 45 - (23A) Product Measure, an Introduction
Link NOC:Measure Theory Lecture 46 - (23B) Product Measure, an Introduction
Link NOC:Measure Theory Lecture 47 - (24A) Construction of Product Measures
Link NOC:Measure Theory Lecture 48 - (24B) Construction of Product Measures
Link NOC:Measure Theory Lecture 49 - (25A) Computation of Product Measure - I
Link NOC:Measure Theory Lecture 50 - (25B) Computation of Product Measure - I
Link NOC:Measure Theory Lecture 51 - (26A) Computation of Product Measure - II
Link NOC:Measure Theory Lecture 52 - (26B) Computation of Product Measure - II
Link NOC:Measure Theory Lecture 53 - (27A) Integration on Product Spaces
Link NOC:Measure Theory Lecture 54 - (27B) Integration on Product Spaces
Link NOC:Measure Theory Lecture 55 - (28A) Fubini's Theorems
Link NOC:Measure Theory Lecture 56 - (28B) Fubini's Theorems
Link NOC:Measure Theory Lecture 57 - (29A) Lebesgue Measure and Integral on R2
Link NOC:Measure Theory Lecture 58 - (29B) Lebesgue Measure and Integral on R2
Link NOC:Measure Theory Lecture 59 - (30A) Properties of Lebesgue Measure on R2
Link NOC:Measure Theory Lecture 60 - (30B) Properties of Lebesgue Measure on R2
Link NOC:Measure Theory Lecture 61 - (31A) Lebesgue Integral on R2
Link NOC:Measure Theory Lecture 62 - (31B) Lebesgue Integral on R2
Link NOC:Calculus for Economics, Commerce and Management Lecture 1 - Introduction to the Course
Link NOC:Calculus for Economics, Commerce and Management Lecture 2 - Concept of a Set, Ways of Representing Sets
Link NOC:Calculus for Economics, Commerce and Management Lecture 3 - Venn Diagrams, Operations on Sets
Link NOC:Calculus for Economics, Commerce and Management Lecture 4 - Operations on Sets, Cardinal Number, Real Numbers
Link NOC:Calculus for Economics, Commerce and Management Lecture 5 - Real Numbers, Sequences
Link NOC:Calculus for Economics, Commerce and Management Lecture 6 - Sequences, Convergent Sequences, Bounded Sequences
Link NOC:Calculus for Economics, Commerce and Management Lecture 7 - Limit Theorems, Sandwich Theorem, Monotone Sequences, Completeness of Real Numbers
Link NOC:Calculus for Economics, Commerce and Management Lecture 8 - Relations and Functions
Link NOC:Calculus for Economics, Commerce and Management Lecture 9 - Functions, Graph of a Functions, Function Formulas
Link NOC:Calculus for Economics, Commerce and Management Lecture 10 - Function Formulas, Linear Models
Link NOC:Calculus for Economics, Commerce and Management Lecture 11 - Linear Models, Elasticity, Linear Functions, Nonlinear Models, Quadratic Functions
Link NOC:Calculus for Economics, Commerce and Management Lecture 12 - Quadratic Functions, Quadratic Models, Power Function, Exponential Function
Link NOC:Calculus for Economics, Commerce and Management Lecture 13 - Exponential Function, Exponential Models, Logarithmic Function
Link NOC:Calculus for Economics, Commerce and Management Lecture 14 - Limit of a Function at a Point, Continuous Functions
Link NOC:Calculus for Economics, Commerce and Management Lecture 15 - Limit of a Function at a Point
Link NOC:Calculus for Economics, Commerce and Management Lecture 16 - Limit of a Function at a Point, Left and Right Limits
Link NOC:Calculus for Economics, Commerce and Management Lecture 17 - Computing Limits, Continuous Functions
Link NOC:Calculus for Economics, Commerce and Management Lecture 18 - Applications of Continuous Functions
Link NOC:Calculus for Economics, Commerce and Management Lecture 19 - Applications of Continuous Functions, Marginal of a Function
Link NOC:Calculus for Economics, Commerce and Management Lecture 20 - Rate of Change, Differentiation
Link NOC:Calculus for Economics, Commerce and Management Lecture 21 - Rules of Differentiation
Link NOC:Calculus for Economics, Commerce and Management Lecture 22 - Derivatives of Some Functions, Marginal, Elasticity
Link NOC:Calculus for Economics, Commerce and Management Lecture 23 - Elasticity, Increasing and Decreasing Functions, Optimization, Mean Value Theorem
Link NOC:Calculus for Economics, Commerce and Management Lecture 24 - Mean Value Theorem, Marginal Analysis, Local Maxima and Minima
Link NOC:Calculus for Economics, Commerce and Management Lecture 25 - Local Maxima and Minima
Link NOC:Calculus for Economics, Commerce and Management Lecture 26 - Local Maxima and Minima, Continuity Test, First Derivative Test, Successive Differentiation
Link NOC:Calculus for Economics, Commerce and Management Lecture 27 - Successive Differentiation, Second Derivative Test
Link NOC:Calculus for Economics, Commerce and Management Lecture 28 - Average and Marginal Product, Marginal of Revenue and Cost, Absolute Maximum and Minimum
Link NOC:Calculus for Economics, Commerce and Management Lecture 29 - Absolute Maximum and Minimum
Link NOC:Calculus for Economics, Commerce and Management Lecture 30 - Monopoly Market, Revenue and Elasticity
Link NOC:Calculus for Economics, Commerce and Management Lecture 31 - Property of Marginals, Monopoly Market, Publisher v/s Author Problem
Link NOC:Calculus for Economics, Commerce and Management Lecture 32 - Convex and Concave Functions
Link NOC:Calculus for Economics, Commerce and Management Lecture 33 - Derivative Tests for Convexity, Concavity and Points of Inflection, Higher Order Derivative Conditions
Link NOC:Calculus for Economics, Commerce and Management Lecture 34 - Convex and Concave Functions, Asymptotes
Link NOC:Calculus for Economics, Commerce and Management Lecture 35 - Asymptotes, Curve Sketching
Link NOC:Calculus for Economics, Commerce and Management Lecture 36 - Functions of Two Variables, Visualizing Graph, Level Curves, Contour Lines
Link NOC:Calculus for Economics, Commerce and Management Lecture 37 - Partial Derivatives and Application to Marginal Analysis
Link NOC:Calculus for Economics, Commerce and Management Lecture 38 - Marginals in Cobb-Douglas model, partial derivatives and elasticity, chain rules
Link NOC:Calculus for Economics, Commerce and Management Lecture 39 - Chain Rules, Higher Order Partial Derivatives, Local Maxima and Minima, Critical Points
Link NOC:Calculus for Economics, Commerce and Management Lecture 40 - Saddle Points, Derivative Tests, Absolute Maxima and Minima
Link NOC:Calculus for Economics, Commerce and Management Lecture 41 - Some Examples, Constrained Maxima and Minima
Link NOC:Basic Linear Algebra Lecture 1 - Introduction - I
Link NOC:Basic Linear Algebra Lecture 2 - Introduction - II
Link NOC:Basic Linear Algebra Lecture 3 - Introduction - III
Link NOC:Basic Linear Algebra Lecture 4 - Systems of Linear Equations - I
Link NOC:Basic Linear Algebra Lecture 5 - Systems of Linear Equations - II
Link NOC:Basic Linear Algebra Lecture 6 - Systems of Linear Equations - III
Link NOC:Basic Linear Algebra Lecture 7 - Reduced Row Echelon Form and Rank - I
Link NOC:Basic Linear Algebra Lecture 8 - Reduced Row Echelon Form and Rank - II
Link NOC:Basic Linear Algebra Lecture 9 - Reduced Row Echelon Form and Rank - III
Link NOC:Basic Linear Algebra Lecture 10 - Solvability of a Linear System, Linear Span, Basis - I
Link NOC:Basic Linear Algebra Lecture 11 - Solvability of a Linear System, Linear Span, Basis - II
Link NOC:Basic Linear Algebra Lecture 12 - Solvability of a Linear System, Linear Span, Basis - III
Link NOC:Basic Linear Algebra Lecture 13 - Linear Span, Linear Independence and Basis - I
Link NOC:Basic Linear Algebra Lecture 14 - Linear Span, Linear Independence and Basis - II
Link NOC:Basic Linear Algebra Lecture 15 - Linear Span, Linear Independence and Basis - III
Link NOC:Basic Linear Algebra Lecture 16 - Row Space, Column Space, Rank-Nullity Theorem - I
Link NOC:Basic Linear Algebra Lecture 17 - Row Space, Column Space, Rank-Nullity Theorem - II
Link NOC:Basic Linear Algebra Lecture 18 - Row Space, Column Space, Rank-Nullity Theorem - III
Link NOC:Basic Linear Algebra Lecture 19 - Determinants and their Properties - I
Link NOC:Basic Linear Algebra Lecture 20 - Determinants and their Properties - II
Link NOC:Basic Linear Algebra Lecture 21 - Determinants and their Properties - III
Link NOC:Basic Linear Algebra Lecture 22 - Linear Transformations - I
Link NOC:Basic Linear Algebra Lecture 23 - Linear Transformations - II
Link NOC:Basic Linear Algebra Lecture 24 - Linear Transformations - III
Link NOC:Basic Linear Algebra Lecture 25 - Orthonormal Basis, Geometry in R^2 - I
Link NOC:Basic Linear Algebra Lecture 26 - Orthonormal Basis, Geometry in R^2 - II
Link NOC:Basic Linear Algebra Lecture 27 - Orthonormal Basis, Geometry in R^2 - III
Link NOC:Basic Linear Algebra Lecture 28 - Isometries, Eigenvalues and Eigenvectors - I
Link NOC:Basic Linear Algebra Lecture 29 - Isometries, Eigenvalues and Eigenvectors - II
Link NOC:Basic Linear Algebra Lecture 30 - Isometries, Eigenvalues and Eigenvectors - III
Link NOC:Basic Linear Algebra Lecture 31 - Diagonalization and Real Symmetric Matrices - I
Link NOC:Basic Linear Algebra Lecture 32 - Diagonalization and Real Symmetric Matrices - II
Link NOC:Basic Linear Algebra Lecture 33 - Diagonalization and Real Symmetric Matrices - III
Link NOC:Basic Linear Algebra Lecture 34 - Diagonalization and its Applications - I
Link NOC:Basic Linear Algebra Lecture 35 - Diagonalization and its Applications - II
Link NOC:Basic Linear Algebra Lecture 36 - Diagonalization and its Applications - III
Link NOC:Basic Linear Algebra Lecture 37 - Abstract Vector Spaces - I
Link NOC:Basic Linear Algebra Lecture 38 - Abstract Vector Spaces - II
Link NOC:Basic Linear Algebra Lecture 39 - Abstract Vector Spaces - III
Link NOC:Basic Linear Algebra Lecture 40 - Inner Product Spaces - I
Link NOC:Basic Linear Algebra Lecture 41 - Inner Product Spaces - II
Link NOC:Commutative Algebra Lecture 1 - Zariski Topology and K-Spectrum
Link NOC:Commutative Algebra Lecture 2 - Algebraic Varieties and Classical Nullstelensatz
Link NOC:Commutative Algebra Lecture 3 - Motivation for Krulls Dimension
Link NOC:Commutative Algebra Lecture 4 - Chevalleys dimension
Link NOC:Commutative Algebra Lecture 5 - Associated Prime Ideals of a Module
Link NOC:Commutative Algebra Lecture 6 - Support of a Module
Link NOC:Commutative Algebra Lecture 7 - Primary Decomposition
Link NOC:Commutative Algebra Lecture 8 - Primary Decomposition (Continued...)
Link NOC:Commutative Algebra Lecture 9 - Uniqueness of Primary Decomposition
Link NOC:Commutative Algebra Lecture 10 - Modules of Finite Length
Link NOC:Commutative Algebra Lecture 11 - Modules of Finite Length (Continued...)
Link NOC:Commutative Algebra Lecture 12 - Introduction to Krull’s Dimension
Link NOC:Commutative Algebra Lecture 13 - Noether Normalization Lemma (Classical Version)
Link NOC:Commutative Algebra Lecture 14 - Consequences of Noether Normalization Lemma
Link NOC:Commutative Algebra Lecture 15 - Nil Radical and Jacobson Radical of Finite type Algebras over a Field and digression of Integral Extension
Link NOC:Commutative Algebra Lecture 16 - Nagata’s version of NNL
Link NOC:Commutative Algebra Lecture 17 - Dimensions of Polynomial ring over Noetherian rings
Link NOC:Commutative Algebra Lecture 18 - Dimension of Polynomial Algebra over arbitrary Rings
Link NOC:Commutative Algebra Lecture 19 - Dimension Inequalities
Link NOC:Commutative Algebra Lecture 20 - Hilbert’s Nullstelensatz
Link NOC:Commutative Algebra Lecture 21 - Computational rules for Poincaré Series
Link NOC:Commutative Algebra Lecture 22 - Graded Rings, Modules and Poincaré Series
Link NOC:Commutative Algebra Lecture 23 - Hilbert-Samuel Polynomials
Link NOC:Commutative Algebra Lecture 24 - Hilbert-Samuel Polynomials (Continued...)
Link NOC:Commutative Algebra Lecture 25 - Numerical Function of polynomial type
Link NOC:Commutative Algebra Lecture 26 - Hilbert-Samuel Polynomial of a Local ring
Link NOC:Commutative Algebra Lecture 27 - Filtration on a Module
Link NOC:Commutative Algebra Lecture 28 - Artin-Rees Lemma
Link NOC:Commutative Algebra Lecture 29 - Dimension Theorem
Link NOC:Commutative Algebra Lecture 30 - Dimension Theorem (Continued...)
Link NOC:Commutative Algebra Lecture 31 - Consequences of Dimension Theorem
Link NOC:Commutative Algebra Lecture 32 - Generalized Krull’s Principal Ideal Theorem
Link NOC:Commutative Algebra Lecture 33 - Second proof of Krull’s Principal Ideal Theorem
Link NOC:Commutative Algebra Lecture 34 - The Spec Functor
Link NOC:Commutative Algebra Lecture 35 - Prime ideals in Polynomial rings
Link NOC:Commutative Algebra Lecture 36 - Characterization of Equidimensional Affine Algebra
Link NOC:Commutative Algebra Lecture 37 - Connection between Regular local rings and associated graded rings
Link NOC:Commutative Algebra Lecture 38 - Statement of the Jacobian Criterion for Regularity
Link NOC:Commutative Algebra Lecture 39 - Hilbert function for Affine Algebra
Link NOC:Commutative Algebra Lecture 40 - Hilbert Serre Theorem
Link NOC:Commutative Algebra Lecture 41 - Jacobian Matrix and its Rank
Link NOC:Commutative Algebra Lecture 42 - Jacobian Matrix and its Rank (Continued...)
Link NOC:Commutative Algebra Lecture 43 - Proof of Jacobian Critrerion
Link NOC:Commutative Algebra Lecture 44 - Proof of Jacobian Critrerion (Continued...)
Link NOC:Commutative Algebra Lecture 45 - Preparation for Homological Dimension
Link NOC:Commutative Algebra Lecture 46 - Complexes of Modules and Homology
Link NOC:Commutative Algebra Lecture 47 - Projective Modules
Link NOC:Commutative Algebra Lecture 48 - Homological Dimension and Projective module
Link NOC:Commutative Algebra Lecture 49 - Global Dimension
Link NOC:Commutative Algebra Lecture 50 - Homological characterization of Regular Local Rings (RLR)
Link NOC:Commutative Algebra Lecture 51 - Homological characterization of Regular Local Rings (Continued...)
Link NOC:Commutative Algebra Lecture 52 - Homological Characterization of Regular Local Rings (Continued...)
Link NOC:Commutative Algebra Lecture 53 - Regular Local Rings are UFD
Link NOC:Commutative Algebra Lecture 54 - RLR-Prime ideals of height 1
Link NOC:Commutative Algebra Lecture 55 - Discrete Valuation Ring
Link NOC:Commutative Algebra Lecture 56 - Discrete Valuation Ring (Continued...)
Link NOC:Commutative Algebra Lecture 57 - Dedekind Domains
Link NOC:Commutative Algebra Lecture 58 - Fractionary Ideals and Dedekind Domains
Link NOC:Commutative Algebra Lecture 59 - Characterization of Dedekind Domain
Link NOC:Commutative Algebra Lecture 60 - Dedekind Domains and prime factorization of ideals
Link NOC:Galois Theory Lecture 1 - Historical Perspectives
Link NOC:Galois Theory Lecture 2 - Examples of Fields
Link NOC:Galois Theory Lecture 3 - Polynomials and Basic properties
Link NOC:Galois Theory Lecture 4 - Polynomial Rings
Link NOC:Galois Theory Lecture 5 - Unit and Unit Groups
Link NOC:Galois Theory Lecture 6 - Division with remainder and prime factorization
Link NOC:Galois Theory Lecture 7 - Zeroes of Polynomials
Link NOC:Galois Theory Lecture 8 - Polynomial functions
Link NOC:Galois Theory Lecture 9 - Algebraically closed Fields and statement of FTA
Link NOC:Galois Theory Lecture 10 - Gauss’s Theorem(Uniqueness of factorization)
Link NOC:Galois Theory Lecture 11 - Digression on Rings homomorphism, Algebras
Link NOC:Galois Theory Lecture 12 - Kernel of homomorphisms and ideals in K[X],Z
Link NOC:Galois Theory Lecture 13 - Algebraic elements
Link NOC:Galois Theory Lecture 14 - Examples
Link NOC:Galois Theory Lecture 15 - Minimal Polynomials
Link NOC:Galois Theory Lecture 16 - Characterization of Algebraic elements
Link NOC:Galois Theory Lecture 17 - Theorem of Kronecker
Link NOC:Galois Theory Lecture 18 - Examples
Link NOC:Galois Theory Lecture 19 - Digression on Groups
Link NOC:Galois Theory Lecture 20 - Some examples and Characteristic of a Ring
Link NOC:Galois Theory Lecture 21 - Finite subGroups of the Unit Group of a Field
Link NOC:Galois Theory Lecture 22 - Construction of Finite Fields
Link NOC:Galois Theory Lecture 23 - Digression on Group action - I
Link NOC:Galois Theory Lecture 24 - Automorphism Groups of a Field Extension
Link NOC:Galois Theory Lecture 25 - Dedekind-Artin Theorem
Link NOC:Galois Theory Lecture 26 - Galois Extension
Link NOC:Galois Theory Lecture 27 - Examples of Galois extension
Link NOC:Galois Theory Lecture 28 - Examples of Automorphism Groups
Link NOC:Galois Theory Lecture 29 - Digression on Linear Algebra
Link NOC:Galois Theory Lecture 30 - Minimal and Characteristic Polynomials, Norms, Trace of elements
Link NOC:Galois Theory Lecture 31 - Primitive Element Theorem for Galois Extension
Link NOC:Galois Theory Lecture 32 - Fundamental Theorem of Galois Theory
Link NOC:Galois Theory Lecture 33 - Fundamental Theorem of Galois Theory (Continued...)
Link NOC:Galois Theory Lecture 34 - Cyclotomic extensions
Link NOC:Galois Theory Lecture 35 - Cyclotomic Polynomials
Link NOC:Galois Theory Lecture 36 - Irreducibility of Cyclotomic Polynomials over Q
Link NOC:Galois Theory Lecture 37 - Reducibility of Cyclotomic Polynomials over Finite Fields
Link NOC:Galois Theory Lecture 38 - Galois Group of Cyclotomic Polynomials
Link NOC:Galois Theory Lecture 39 - Extension over a fixed Field of a finite subGroup is Galois Extension
Link NOC:Galois Theory Lecture 40 - Digression on Group action - II
Link NOC:Galois Theory Lecture 41 - Correspondence of Normal SubGroups and Galois sub-extensions
Link NOC:Galois Theory Lecture 42 - Correspondence of Normal SubGroups and Galois sub-extensions (Continued...)
Link NOC:Galois Theory Lecture 43 - Inverse Galois problem for Abelian Groups
Link NOC:Galois Theory Lecture 44 - Elementary Symmetric Polynomials
Link NOC:Galois Theory Lecture 45 - Fundamental Theorem on Symmetric Polynomials
Link NOC:Galois Theory Lecture 46 - Gal (K[X1,X2,…,Xn]/K[S1,S2,...,Sn])
Link NOC:Galois Theory Lecture 47 - Digression on Symmetric and Alternating Group
Link NOC:Galois Theory Lecture 48 - Discriminant of a Polynomial
Link NOC:Galois Theory Lecture 49 - Zeroes and Embeddings
Link NOC:Galois Theory Lecture 50 - Normal Extensions
Link NOC:Galois Theory Lecture 51 - Existence of Algebraic Closure
Link NOC:Galois Theory Lecture 52 - Uniqueness of Algebraic Closure
Link NOC:Galois Theory Lecture 53 - Proof of The Fundamental Theorem of Algebra
Link NOC:Galois Theory Lecture 54 - Galois Group of a Polynomial
Link NOC:Galois Theory Lecture 55 - Perfect Fields
Link NOC:Galois Theory Lecture 56 - Embeddings
Link NOC:Galois Theory Lecture 57 - Characterization of finite Separable extension
Link NOC:Galois Theory Lecture 58 - Primitive Element Theorem
Link NOC:Galois Theory Lecture 59 - Equivalence of Galois extensions and Normal-Separable extensions
Link NOC:Galois Theory Lecture 60 - Operation of Galois Group of Polynomial on the set of zeroes
Link NOC:Galois Theory Lecture 61 - Discriminants
Link NOC:Galois Theory Lecture 62 - Examples for further study
Link Stochastic Processes Lecture 1 - Introduction to Stochastic Processes
Link Stochastic Processes Lecture 2 - Introduction to Stochastic Processes (Continued.)
Link Stochastic Processes Lecture 3 - Problems in Random Variables and Distributions
Link Stochastic Processes Lecture 4 - Problems in Sequences of Random Variables
Link Stochastic Processes Lecture 5 - Definition, Classification and Examples
Link Stochastic Processes Lecture 6 - Simple Stochastic Processes
Link Stochastic Processes Lecture 7 - Stationary Processes
Link Stochastic Processes Lecture 8 - Autoregressive Processes
Link Stochastic Processes Lecture 9 - Introduction, Definition and Transition Probability Matrix
Link Stochastic Processes Lecture 10 - Chapman-Kolmogrov Equations
Link Stochastic Processes Lecture 11 - Classification of States and Limiting Distributions
Link Stochastic Processes Lecture 12 - Limiting and Stationary Distributions
Link Stochastic Processes Lecture 13 - Limiting Distributions, Ergodicity and Stationary Distributions
Link Stochastic Processes Lecture 14 - Time Reversible Markov Chain, Application of Irreducible Markov Chain in Queueing Models
Link Stochastic Processes Lecture 15 - Reducible Markov Chains
Link Stochastic Processes Lecture 16 - Definition, Kolmogrov Differential Equations and Infinitesimal Generator Matrix
Link Stochastic Processes Lecture 17 - Limiting and Stationary Distributions, Birth Death Processes
Link Stochastic Processes Lecture 18 - Poisson Processes
Link Stochastic Processes Lecture 19 - M/M/1 Queueing Model
Link Stochastic Processes Lecture 20 - Simple Markovian Queueing Models
Link Stochastic Processes Lecture 21 - Queueing Networks
Link Stochastic Processes Lecture 22 - Communication Systems
Link Stochastic Processes Lecture 23 - Stochastic Petri Nets
Link Stochastic Processes Lecture 24 - Conditional Expectation and Filtration
Link Stochastic Processes Lecture 25 - Definition and Simple Examples
Link Stochastic Processes Lecture 26 - Definition and Properties
Link Stochastic Processes Lecture 27 - Processes Derived from Brownian Motion
Link Stochastic Processes Lecture 28 - Stochastic Differential Equations
Link Stochastic Processes Lecture 29 - Ito Integrals
Link Stochastic Processes Lecture 30 - Ito Formula and its Variants
Link Stochastic Processes Lecture 31 - Some Important SDE`s and Their Solutions
Link Stochastic Processes Lecture 32 - Renewal Function and Renewal Equation
Link Stochastic Processes Lecture 33 - Generalized Renewal Processes and Renewal Limit Theorems
Link Stochastic Processes Lecture 34 - Markov Renewal and Markov Regenerative Processes
Link Stochastic Processes Lecture 35 - Non Markovian Queues
Link Stochastic Processes Lecture 36 - Non Markovian Queues Cont,,
Link Stochastic Processes Lecture 37 - Application of Markov Regenerative Processes
Link Stochastic Processes Lecture 38 - Galton-Watson Process
Link Stochastic Processes Lecture 39 - Markovian Branching Process
Link NOC:Stochastic Processes - 1 Lecture 1 - Introduction and motivation for studying stochastic processes
Link NOC:Stochastic Processes - 1 Lecture 2 - Probability space and conditional probability
Link NOC:Stochastic Processes - 1 Lecture 3 - Random variable and cumulative distributive function
Link NOC:Stochastic Processes - 1 Lecture 4 - Discrete Uniform Distribution, Binomial Distribution, Geometric Distribution, Continuous Uniform Distribution, Exponential Distribution, Normal Distribution and Poisson Distribution
Link NOC:Stochastic Processes - 1 Lecture 5 - Joint Distribution of Random Variables
Link NOC:Stochastic Processes - 1 Lecture 6 - Independent Random Variables, Covariance and Correlation Coefficient and Conditional Distribution
Link NOC:Stochastic Processes - 1 Lecture 7 - Conditional Expectation and Covariance Matrix
Link NOC:Stochastic Processes - 1 Lecture 8 - Generating Functions, Law of Large Numbers and Central Limit Theorem
Link NOC:Stochastic Processes - 1 Lecture 9 - Problems in Random variables and Distributions
Link NOC:Stochastic Processes - 1 Lecture 10 - Problems in Random variables and Distributions (Continued...)
Link NOC:Stochastic Processes - 1 Lecture 11 - Problems in Random variables and Distributions (Continued...)
Link NOC:Stochastic Processes - 1 Lecture 12 - Problems in Random variables and Distributions (Continued...)
Link NOC:Stochastic Processes - 1 Lecture 13 - Problems in Sequences of Random Variables
Link NOC:Stochastic Processes - 1 Lecture 14 - Problems in Sequences of Random Variables (Continued...)
Link NOC:Stochastic Processes - 1 Lecture 15 - Problems in Sequences of Random Variables (Continued...)
Link NOC:Stochastic Processes - 1 Lecture 16 - Problems in Sequences of Random Variables (Continued...)
Link NOC:Stochastic Processes - 1 Lecture 17 - Definition of Stochastic Processes, Parameter and State Spaces
Link NOC:Stochastic Processes - 1 Lecture 18 - Classification of Stochastic Processes
Link NOC:Stochastic Processes - 1 Lecture 19 - Examples of Classification of Stochastic Processes
Link NOC:Stochastic Processes - 1 Lecture 20 - Examples of Classification of Stochastic Processes (Continued...)
Link NOC:Stochastic Processes - 1 Lecture 21 - Bernoulli Process
Link NOC:Stochastic Processes - 1 Lecture 22 - Poisson Process
Link NOC:Stochastic Processes - 1 Lecture 23 - Poisson Process (Continued...)
Link NOC:Stochastic Processes - 1 Lecture 24 - Simple Random Walk and Population Processes
Link NOC:Stochastic Processes - 1 Lecture 25 - Introduction to Discrete time Markov Chain
Link NOC:Stochastic Processes - 1 Lecture 26 - Introduction to Discrete time Markov Chain (Continued...)
Link NOC:Stochastic Processes - 1 Lecture 27 - Examples of Discrete time Markov Chain
Link NOC:Stochastic Processes - 1 Lecture 28 - Examples of Discrete time Markov Chain (Continued...)
Link NOC:Stochastic Processes - 1 Lecture 29 - Introduction to Chapman-Kolmogorov equations
Link NOC:Stochastic Processes - 1 Lecture 30 - State Transition Diagram and Examples
Link NOC:Stochastic Processes - 1 Lecture 31 - Examples
Link NOC:Stochastic Processes - 1 Lecture 32 - Introduction to Classification of States and Periodicity
Link NOC:Stochastic Processes - 1 Lecture 33 - Closed set of States and Irreducible Markov Chain
Link NOC:Stochastic Processes - 1 Lecture 34 - First Passage time and Mean Recurrence Time
Link NOC:Stochastic Processes - 1 Lecture 35 - Recurrent State and Transient State
Link NOC:Stochastic Processes - 1 Lecture 36 - Introduction and example of Classification of states
Link NOC:Stochastic Processes - 1 Lecture 37 - Example of Classification of states (Continued...)
Link NOC:Stochastic Processes - 1 Lecture 38 - Example of Classification of states (Continued...)
Link NOC:Stochastic Processes - 1 Lecture 39 - Example of Classification of states (Continued...)
Link NOC:Stochastic Processes - 1 Lecture 40 - Introduction and Limiting Distribution
Link NOC:Stochastic Processes - 1 Lecture 41 - Example of Limiting Distribution and Ergodicity
Link NOC:Stochastic Processes - 1 Lecture 42 - Stationary Distribution and Examples
Link NOC:Stochastic Processes - 1 Lecture 43 - Examples of Stationary Distributions
Link NOC:Stochastic Processes - 1 Lecture 44 - Time Reversible Markov Chain and Examples
Link NOC:Stochastic Processes - 1 Lecture 45 - Definition of Reducible Markov Chains and Types of Reducible Markov Chains
Link NOC:Stochastic Processes - 1 Lecture 46 - Stationary Distributions and Types of Reducible Markov chains
Link NOC:Stochastic Processes - 1 Lecture 47 - Type of Reducible Markov Chains (Continued...)
Link NOC:Stochastic Processes - 1 Lecture 48 - Gambler's Ruin Problem
Link NOC:Stochastic Processes - 1 Lecture 49 - Introduction to Continuous time Markov Chain
Link NOC:Stochastic Processes - 1 Lecture 50 - Waiting time Distribution
Link NOC:Stochastic Processes - 1 Lecture 51 - Chapman-Kolmogorov Equation
Link NOC:Stochastic Processes - 1 Lecture 52 - Infinitesimal Generator Matrix
Link NOC:Stochastic Processes - 1 Lecture 53 - Introduction and Example Of Continuous time Markov Chain
Link NOC:Stochastic Processes - 1 Lecture 54 - Limiting and Stationary Distributions
Link NOC:Stochastic Processes - 1 Lecture 55 - Time reversible CTMC and Birth Death Process
Link NOC:Stochastic Processes - 1 Lecture 56 - Steady State Distributions, Pure Birth Process and Pure Death Process
Link NOC:Stochastic Processes - 1 Lecture 57 - Introduction to Poisson Process
Link NOC:Stochastic Processes - 1 Lecture 58 - Definition of Poisson Process
Link NOC:Stochastic Processes - 1 Lecture 59 - Superposition and Deposition of Poisson Process
Link NOC:Stochastic Processes - 1 Lecture 60 - Compound Poisson Process and Examples
Link NOC:Stochastic Processes - 1 Lecture 61 - Introduction to Queueing Systems and Kendall Notations
Link NOC:Stochastic Processes - 1 Lecture 62 - M/M/1 Queueing Model
Link NOC:Stochastic Processes - 1 Lecture 63 - Little's Law, Distribution of Waiting Time and Response Time
Link NOC:Stochastic Processes - 1 Lecture 64 - Burke's Theorem and Simulation of M/M/1 queueing Model
Link NOC:Stochastic Processes - 1 Lecture 65 - M/M/c Queueing Model
Link NOC:Stochastic Processes - 1 Lecture 66 - M/M/1/N Queueing Model
Link NOC:Stochastic Processes - 1 Lecture 67 - M/M/c/K Model, M/M/c/c Loss System, M/M/? Self Service System
Link NOC:Stochastic Processes - 1 Lecture 68 - Transient Solution of Finite Birth Death Process and Finite Source Markovian Queueing Model
Link NOC:Stochastic Processes - 1 Lecture 69 - Queueing Networks Characteristics and Types of Queueing Networks
Link NOC:Stochastic Processes - 1 Lecture 70 - Tandem Queueing Networks
Link NOC:Stochastic Processes - 1 Lecture 71 - Stationary Distribution and Open Queueing Network
Link NOC:Stochastic Processes - 1 Lecture 72 - Jackson's Theorem, Closed Queueing Networks, Gordon and Newell Results
Link NOC:Stochastic Processes - 1 Lecture 73 - Wireless Handoff Performance Model and System Description
Link NOC:Stochastic Processes - 1 Lecture 74 - Description of 3G Cellular Networks and Queueing Model
Link NOC:Stochastic Processes - 1 Lecture 75 - Simulation of Queueing Systems
Link NOC:Stochastic Processes - 1 Lecture 76 - Definition and Basic Components of Petri Net and Reachability Analysis
Link NOC:Stochastic Processes - 1 Lecture 77 - Arc Extensions in Petri Net, Stochastic Petri Nets and examples
Link NOC:Stochastic Processes Lecture 1 - Introduction and motivation for studying stochastic processes
Link NOC:Stochastic Processes Lecture 2 - Probability space and conditional probability
Link NOC:Stochastic Processes Lecture 3 - Random variable and cumulative distributive function
Link NOC:Stochastic Processes Lecture 4 - Discrete Uniform Distribution, Binomial Distribution, Geometric Distribution, Continuous Uniform Distribution, Exponential Distribution, Normal Distribution and Poisson Distribution
Link NOC:Stochastic Processes Lecture 5 - Joint Distribution of Random Variables
Link NOC:Stochastic Processes Lecture 6 - Independent Random Variables, Covariance and Correlation Coefficient and Conditional Distribution
Link NOC:Stochastic Processes Lecture 7 - Conditional Expectation and Covariance Matrix
Link NOC:Stochastic Processes Lecture 8 - Generating Functions, Law of Large Numbers and Central Limit Theorem
Link NOC:Stochastic Processes Lecture 9 - Problems in Random variables and Distributions
Link NOC:Stochastic Processes Lecture 10 - Problems in Random variables and Distributions (Continued...)
Link NOC:Stochastic Processes Lecture 11 - Problems in Random variables and Distributions (Continued...)
Link NOC:Stochastic Processes Lecture 12 - Problems in Random variables and Distributions (Continued...)
Link NOC:Stochastic Processes Lecture 13 - Problems in Sequences of Random Variables
Link NOC:Stochastic Processes Lecture 14 - Problems in Sequences of Random Variables (Continued...)
Link NOC:Stochastic Processes Lecture 15 - Problems in Sequences of Random Variables (Continued...)
Link NOC:Stochastic Processes Lecture 16 - Problems in Sequences of Random Variables (Continued...)
Link NOC:Stochastic Processes Lecture 17 - Definition of Stochastic Processes, Parameter and State Spaces
Link NOC:Stochastic Processes Lecture 18 - Classification of Stochastic Processes
Link NOC:Stochastic Processes Lecture 19 - Examples of Discrete Time Markov Chain
Link NOC:Stochastic Processes Lecture 20 - Examples of Discrete Time Markov Chain (Continued...)
Link NOC:Stochastic Processes Lecture 21 - Bernoulli Process
Link NOC:Stochastic Processes Lecture 22 - Poisson Process
Link NOC:Stochastic Processes Lecture 23 - Poisson Process (Continued...)
Link NOC:Stochastic Processes Lecture 24 - Simple Random Walk and Population Processes
Link NOC:Stochastic Processes Lecture 25 - Introduction to Discrete time Markov Chain
Link NOC:Stochastic Processes Lecture 26 - Introduction to Discrete time Markov Chain (Continued...)
Link NOC:Stochastic Processes Lecture 27 - Examples of Discrete time Markov Chain
Link NOC:Stochastic Processes Lecture 28 - Examples of Discrete time Markov Chain (Continued...)
Link NOC:Stochastic Processes Lecture 29 - Introduction to Chapman-Kolmogorov equations
Link NOC:Stochastic Processes Lecture 30 - State Transition Diagram and Examples
Link NOC:Stochastic Processes Lecture 31 - Examples
Link NOC:Stochastic Processes Lecture 32 - Introduction to Classification of States and Periodicity
Link NOC:Stochastic Processes Lecture 33 - Closed set of States and Irreducible Markov Chain
Link NOC:Stochastic Processes Lecture 34 - First Passage time and Mean Recurrence Time
Link NOC:Stochastic Processes Lecture 35 - Recurrent State and Transient State
Link NOC:Stochastic Processes Lecture 36 - Introduction and example of Classification of states
Link NOC:Stochastic Processes Lecture 37 - Example of Classification of states (Continued...)
Link NOC:Stochastic Processes Lecture 38 - Example of Classification of states (Continued...)
Link NOC:Stochastic Processes Lecture 39 - Example of Classification of states (Continued...)
Link NOC:Stochastic Processes Lecture 40 - Introduction and Limiting Distribution
Link NOC:Stochastic Processes Lecture 41 - Example of Limiting Distribution and Ergodicity
Link NOC:Stochastic Processes Lecture 42 - Stationary Distribution and Examples
Link NOC:Stochastic Processes Lecture 43 - Examples of Stationary Distributions
Link NOC:Stochastic Processes Lecture 44 - Time Reversible Markov Chain and Examples
Link NOC:Stochastic Processes Lecture 45 - Definition of Reducible Markov Chains and Types of Reducible Markov Chains
Link NOC:Stochastic Processes Lecture 46 - Stationary Distributions and Types of Reducible Markov chains
Link NOC:Stochastic Processes Lecture 47 - Type of Reducible Markov Chains (Continued...)
Link NOC:Stochastic Processes Lecture 48 - Gambler's Ruin Problem
Link NOC:Stochastic Processes Lecture 49 - Introduction to Continuous time Markov Chain
Link NOC:Stochastic Processes Lecture 50 - Waiting time Distribution
Link NOC:Stochastic Processes Lecture 51 - Chapman-Kolmogorov Equation
Link NOC:Stochastic Processes Lecture 52 - Infinitesimal Generator Matrix
Link NOC:Stochastic Processes Lecture 53 - Introduction and Example Of Continuous time Markov Chain
Link NOC:Stochastic Processes Lecture 54 - Limiting and Stationary Distributions
Link NOC:Stochastic Processes Lecture 55 - Time reversible CTMC and Birth Death Process
Link NOC:Stochastic Processes Lecture 56 - Steady State Distributions, Pure Birth Process and Pure Death Process
Link NOC:Stochastic Processes Lecture 57 - Introduction to Poisson Process
Link NOC:Stochastic Processes Lecture 58 - Definition of Poisson Process
Link NOC:Stochastic Processes Lecture 59 - Superposition and Deposition of Poisson Process
Link NOC:Stochastic Processes Lecture 60 - Compound Poisson Process and Examples
Link NOC:Stochastic Processes Lecture 61 - Introduction to Queueing Systems and Kendall Notations
Link NOC:Stochastic Processes Lecture 62 - M/M/1 Queueing Model
Link NOC:Stochastic Processes Lecture 63 - Little's Law, Distribution of Waiting Time and Response Time
Link NOC:Stochastic Processes Lecture 64 - Burke's Theorem and Simulation of M/M/1 queueing Model
Link NOC:Stochastic Processes Lecture 65 - M/M/c Queueing Model
Link NOC:Stochastic Processes Lecture 66 - M/M/1/N Queueing Model
Link NOC:Stochastic Processes Lecture 67 - M/M/c/K Model, M/M/c/c Loss System, M/M/? Self Service System
Link NOC:Stochastic Processes Lecture 68 - Transient Solution of Finite Birth Death Process and Finite Source Markovian Queueing Model
Link NOC:Stochastic Processes Lecture 69 - Queueing Networks Characteristics and Types of Queueing Networks
Link NOC:Stochastic Processes Lecture 70 - Tandem Queueing Networks
Link NOC:Stochastic Processes Lecture 71 - Stationary Distribution and Open Queueing Network
Link NOC:Stochastic Processes Lecture 72 - Jackson's Theorem, Closed Queueing Networks, Gordon and Newell Results
Link NOC:Stochastic Processes Lecture 73 - Wireless Handoff Performance Model and System Description
Link NOC:Stochastic Processes Lecture 74 - Description of 3G Cellular Networks and Queueing Model
Link NOC:Stochastic Processes Lecture 75 - Simulation of Queueing Systems
Link NOC:Stochastic Processes Lecture 76 - Definition and Basic Components of Petri Net and Reachability Analysis
Link NOC:Stochastic Processes Lecture 77 - Arc Extensions in Petri Net, Stochastic Petri Nets and examples
Link NOC:Stochastic Processes Lecture 78 - Generalized Stochastic Petri Net
Link NOC:Stochastic Processes Lecture 79 - Generalized Stochastic Petri Net (Continued...)
Link NOC:Stochastic Processes Lecture 80 - Conditional Expectation and Examples
Link NOC:Stochastic Processes Lecture 81 - Filtration in Discrete time
Link NOC:Stochastic Processes Lecture 82 - Remarks of Conditional Expectation and Adaptabilty
Link NOC:Stochastic Processes Lecture 83 - Definition and Examples of Martingale
Link NOC:Stochastic Processes Lecture 84 - Examples of Martingale (Continued...)
Link NOC:Stochastic Processes Lecture 85 - Examples of Martingale (Continued...)
Link NOC:Stochastic Processes Lecture 86 - Doob's Martingale Process, Sub martingale and Super Martingale
Link NOC:Stochastic Processes Lecture 87 - Definition of Brownian Motion
Link NOC:Stochastic Processes Lecture 88 - Definition of Brownian Motion (Continued...)
Link NOC:Stochastic Processes Lecture 89 - Properties of Brownian Motion
Link NOC:Stochastic Processes Lecture 90 - Processes Derived from Brownian Motion
Link NOC:Stochastic Processes Lecture 91 - Processes Derived from Brownian Motion (Continued...)
Link NOC:Stochastic Processes Lecture 92 - Processes Derived from Brownian Motion (Continued...)
Link NOC:Stochastic Processes Lecture 93 - Stochastic Differential Equations
Link NOC:Stochastic Processes Lecture 94 - Stochastic Differential Equations (Continued...)
Link NOC:Stochastic Processes Lecture 95 - Stochastic Differential Equations (Continued...)
Link NOC:Stochastic Processes Lecture 96 - Ito Integrals
Link NOC:Stochastic Processes Lecture 97 - Ito Integrals (Continued...)
Link NOC:Stochastic Processes Lecture 98 - Ito Integrals (Continued...)
Link NOC:Stochastic Processes Lecture 99 - Renewal Function and Renewal Equation
Link NOC:Stochastic Processes Lecture 100 - Renewal Function and Renewal Equation (Continued...)
Link NOC:Stochastic Processes Lecture 101 - Renewal Function and Renewal Equation (Continued...)
Link NOC:Stochastic Processes Lecture 102 - Generalized Renewal Processes and Renewal Limit Theorems
Link NOC:Stochastic Processes Lecture 103 - Generalized Renewal Processes and Renewal Limit Theorems (Continued...)
Link NOC:Stochastic Processes Lecture 104 - Generalized Renewal Processes and Renewal Limit Theorems (Continued...)
Link NOC:Stochastic Processes Lecture 105 - Markov Renewal and Markov Regenerative Processes
Link NOC:Stochastic Processes Lecture 106 - Markov Renewal and Markov Regenerative Processes (Continued...)
Link NOC:Stochastic Processes Lecture 107 - Markov Renewal and Markov Regenerative Processes (Continued...)
Link NOC:Stochastic Processes Lecture 108 - Markov Renewal and Markov Regenerative Processes (Continued...)
Link NOC:Stochastic Processes Lecture 109 - Non Markovian Queues
Link NOC:Stochastic Processes Lecture 110 - Non Markovian Queues (Continued...)
Link NOC:Stochastic Processes Lecture 111 - Non Markovian Queues (Continued...)
Link NOC:Stochastic Processes Lecture 112 - Stationary Processes
Link NOC:Stochastic Processes Lecture 113 - Stationary Processes (Continued...)
Link NOC:Stochastic Processes Lecture 114 - Stationary Processes (Continued...)
Link NOC:Stochastic Processes Lecture 115 - Stationary Processes (Continued...) and Ergodicity
Link NOC:Stochastic Processes Lecture 116 - G1/M/1 queue
Link NOC:Stochastic Processes Lecture 117 - G1/M/1 queue (Continued...)
Link NOC:Stochastic Processes Lecture 118 - G1/M/1/N queue and examples
Link NOC:Stochastic Processes Lecture 119 - Galton-Watson Process
Link NOC:Stochastic Processes Lecture 120 - Examples and Theorems
Link NOC:Stochastic Processes Lecture 121 - Theorems and Examples (Continued...)
Link NOC:Stochastic Processes Lecture 122 - Markov Branching Process
Link NOC:Stochastic Processes Lecture 123 - Markov Branching Process Theorems and Properties
Link NOC:Stochastic Processes Lecture 124 - Markov Branching Process Theorems and Properties (Continued...)
Link NOC:Chaotic Dynamical Systems Lecture 1 - The beginning
Link NOC:Chaotic Dynamical Systems Lecture 2 - Elementary Concepts
Link NOC:Chaotic Dynamical Systems Lecture 3 - Elementary Concepts (Continued...)
Link NOC:Chaotic Dynamical Systems Lecture 4 - More on orbits
Link NOC:Chaotic Dynamical Systems Lecture 5 - Peiods of Periodic Points
Link NOC:Chaotic Dynamical Systems Lecture 6 - Scrambled Sets
Link NOC:Chaotic Dynamical Systems Lecture 7 - Sensitive Dependence on Initial Conditions
Link NOC:Chaotic Dynamical Systems Lecture 8 - A Population Dynamics Model
Link NOC:Chaotic Dynamical Systems Lecture 9 - Bifurcations
Link NOC:Chaotic Dynamical Systems Lecture 10 - Nonlinear Systems
Link NOC:Chaotic Dynamical Systems Lecture 11 - Horseshoe Attractor
Link NOC:Chaotic Dynamical Systems Lecture 12 - Dynamics of the Horseshoe Attractor
Link NOC:Chaotic Dynamical Systems Lecture 13 - Recurrence
Link NOC:Chaotic Dynamical Systems Lecture 14 - Recurrence (Continued...)
Link NOC:Chaotic Dynamical Systems Lecture 15 - Transitivity
Link NOC:Chaotic Dynamical Systems Lecture 16 - Devaney’s Chaos
Link NOC:Chaotic Dynamical Systems Lecture 17 - Transitivity = Chaos on Intervals
Link NOC:Chaotic Dynamical Systems Lecture 18 - Stronger forms of Transitivity
Link NOC:Chaotic Dynamical Systems Lecture 19 - Chaotic Properties of Mixing Systems
Link NOC:Chaotic Dynamical Systems Lecture 20 - Weakly Mixing and Chaos
Link NOC:Chaotic Dynamical Systems Lecture 21 - Strongly Transitive Systems
Link NOC:Chaotic Dynamical Systems Lecture 22 - Strongly Transitive Systems (Continued...)
Link NOC:Chaotic Dynamical Systems Lecture 23 - Introduction to Symbolic Dynamics
Link NOC:Chaotic Dynamical Systems Lecture 24 - Shift Spaces
Link NOC:Chaotic Dynamical Systems Lecture 25 - Subshifts of Finite Type
Link NOC:Chaotic Dynamical Systems Lecture 26 - Subshifts of Finite Type (Continued...), Chatoic Dynamical Systems
Link NOC:Chaotic Dynamical Systems Lecture 27 - Measuring Chaos - Topological Entropy
Link NOC:Chaotic Dynamical Systems Lecture 28 - Topological Entropy - Adler’s Version
Link NOC:Chaotic Dynamical Systems Lecture 29 - Bowen’s Definition of Topological Entropy
Link NOC:Chaotic Dynamical Systems Lecture 30 - Equivalance of the two definitions of Topological Entropy
Link NOC:Chaotic Dynamical Systems Lecture 31 - Linear Systems in Two Dimentions
Link NOC:Chaotic Dynamical Systems Lecture 32 - Asymptotic Properties of Orbits of Linear Transformation in IR2
Link NOC:Chaotic Dynamical Systems Lecture 33 - Hyperbolic Toral Automorphisms
Link NOC:Chaotic Dynamical Systems Lecture 34 - Chaos in Toral Automorphisms
Link NOC:Chaotic Dynamical Systems Lecture 35 - Chaotic Attractors of Henon Maps
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 1 - Random experiment, sample space, axioms of probability, probability space
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 2 - Random experiment, sample space, axioms of probability, probability space (Continued...)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 3 - Random experiment, sample space, axioms of probability, probability space (Continued...)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 4 - Conditional probability, independence of events.
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 5 - Multiplication rule, total probability rule, Bayes's theorem.
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 6 - Definition of Random Variable, Cumulative Distribution Function
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 7 - Definition of Random Variable, Cumulative Distribution Function (Continued...)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 8 - Definition of Random Variable, Cumulative Distribution Function (Continued...)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 9 - Type of Random Variables, Probability Mass Function, Probability Density Function
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 10 - Type of Random Variables, Probability Mass Function, Probability Density Function (Continued...)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 11 - Distribution of Function of Random Variables
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 12 - Mean and Variance
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 13 - Mean and Variance (Continued...)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 14 - Higher Order Moments and Moments Inequalities
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 15 - Higher Order Moments and Moments Inequalities (Continued...)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 16 - Generating Functions
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 17 - Generating Functions (Continued...)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 18 - Common Discrete Distributions
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 19 - Common Discrete Distributions (Continued...)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 20 - Common Continuous Distributions
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 21 - Common Continuous Distributions (Continued...)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 22 - Applications of Random Variable
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 23 - Applications of Random Variable (Continued...)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 24 - Random vector and joint distribution
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 25 - Joint probability mass function
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 26 - Joint probability density function
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 27 - Independent random variables
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 28 - Independent random variables (Continued...)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 29 - Functions of several random variables
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 30 - Functions of several random variables (Continued...)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 31 - Some important results
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 32 - Order statistics
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 33 - Conditional distributions
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 34 - Random sum
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 35 - Moments and Covariance
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 36 - Variance Covariance matrix
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 37 - Multivariate Normal distribution
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 38 - Probability generating function and Moment generating function
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 39 - Correlation coefficient
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 40 - Conditional Expectation
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 41 - Conditional Expectation (Continued...)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 42 - Modes of Convergence
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 43 - Mode of Convergence (Continued...)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 44 - Law of Large Numbers
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 45 - Central Limit Theorem
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 46 - Central Limit Theorem (Continued...)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 47 - Motivation for Stochastic Processes
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 48 - Definition of a Stochastic Process
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 49 - Classification of Stochastic Processes
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 50 - Examples of Stochastic Process
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 51 - Examples Of Stochastic Process (Continued...)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 52 - Bernoulli Process
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 53 - Poisson Process
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 54 - Poisson Process (Continued...)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 55 - Simple Random Walk
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 56 - Time Series and Related Definitions
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 57 - Strict Sense Stationary Process
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 58 - Wide Sense Stationary Process and Examples
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 59 - Examples of Stationary Processes (Continued...)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 60 - Discrete Time Markov Chain (DTMC)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 61 - DTMC (Continued...)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 62 - Examples of DTMC
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 63 - Examples of DTMC (Continued...)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 64 - Chapman-Kolmogorov equations and N-step transition matrix
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 65 - Examples based on N-step transition matrix
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 66 - Examples (Continued...)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 67 - Classification of states
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 68 - Classification of states (Continued...)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 69 - Calculation of N-Step - 9
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 70 - Calculation of N-Step - 10
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 71 - Limiting and Stationary distributions
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 72 - Limiting and Stationary distributions (Continued...)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 73 - Continuous time Markov chain (CTMC)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 74 - CTMC (Continued...)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 75 - State transition diagram and Chapman-Kolmogorov equation
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 76 - Infinitesimal generator and Kolmogorov differential equations
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 77 - Limiting distribution
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 78 - Limiting and Stationary distributions - 1
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 79 - Birth death process
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 80 - Birth death process (Continued...)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 81 - Poisson process - 1
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 82 - Poisson process (Continued...)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 83 - Poisson process (Continued...)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 84 - Non-homogeneous and compound Poisson process
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 85 - Introduction to Queueing Models and Kendall Notation
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 86 - M/M/1 Queueing Model
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 87 - M/M/1 Queueing Model (Continued...)
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 88 - M/M/1 Queueing Model and Burke's Theorem
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 89 - M/M/c Queueing Model
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 90 - M/M/c (Continued...) and M/M/1/N Model
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 91 - Other Markovian Queueing Models
Link NOC:Introduction to Probability Theory and Stochastic Processes Lecture 92 - Transient Solution of Finite Capacity Markovian Queues
Link NOC:Statistical Inference Lecture 1 - Statistical Inference - 1
Link NOC:Statistical Inference Lecture 2 - Statistical Inference - 2
Link NOC:Statistical Inference Lecture 3 - Statistical Inference - 3
Link NOC:Statistical Inference Lecture 4 - Statistical Inference - 4
Link NOC:Statistical Inference Lecture 5 - Statistical Inference - 5
Link NOC:Statistical Inference Lecture 6 - Statistical Inference - 6
Link NOC:Statistical Inference Lecture 7 - Statistical Inference - 7
Link NOC:Statistical Inference Lecture 8 - Statistical Inference - 8
Link NOC:Statistical Inference Lecture 9 - Statistical Inference - 9
Link NOC:Statistical Inference Lecture 10 - Statistical Inference - 10
Link NOC:Statistical Inference Lecture 11 - Statistical Inference - 11
Link NOC:Statistical Inference Lecture 12 - Statistical Inference - 12
Link NOC:Statistical Inference Lecture 13 - Statistical Inference - 13
Link NOC:Statistical Inference Lecture 14 - Statistical Inference - 14
Link NOC:Statistical Inference Lecture 15 - Statistical Inference - 15
Link NOC:Statistical Inference Lecture 16 - Stasistical Inference - 16
Link NOC:Statistical Inference Lecture 17 - Stasistical Inference - 17
Link NOC:Statistical Inference Lecture 18 - Statistical Inference - 18
Link NOC:Statistical Inference Lecture 19 - Stasistical Inference - 19
Link NOC:Statistical Inference Lecture 20 - Stasistical Inference - 20
Link NOC:Statistical Inference Lecture 21 - Stasistical Inference - 21
Link NOC:Integral Transforms and their Applications Lecture 1 - Introduction to Fourier Transforms - Part 1
Link NOC:Integral Transforms and their Applications Lecture 2 - Introduction to Fourier Transforms - Part 2
Link NOC:Integral Transforms and their Applications Lecture 3 - Introduction to Fourier Transforms - Part 3
Link NOC:Integral Transforms and their Applications Lecture 4 - Properties of Fourier transforms, Shannon Sampling Theorem, Gibb's Phenomena - Part 1
Link NOC:Integral Transforms and their Applications Lecture 5 - Properties of Fourier transforms, Shannon Sampling Theorem, Gibb's Phenomena - Part 2
Link NOC:Integral Transforms and their Applications Lecture 6 - Properties of Fourier transforms, Shannon Sampling Theorem, Gibb's Phenomena - Part 3
Link NOC:Integral Transforms and their Applications Lecture 7 - Applications of Fourier Transforms - Part 1
Link NOC:Integral Transforms and their Applications Lecture 8 - Applications of Fourier Transforms - Part 2
Link NOC:Integral Transforms and their Applications Lecture 9 - Applications of Fourier Transforms - Part 3
Link NOC:Integral Transforms and their Applications Lecture 10 - Introduction to Laplace Transforms - Part 1
Link NOC:Integral Transforms and their Applications Lecture 11 - Introduction to Laplace Transforms - Part 2
Link NOC:Integral Transforms and their Applications Lecture 12 - Introduction to Laplace Transforms - Part 3
Link NOC:Integral Transforms and their Applications Lecture 13 - Inverse Laplace Transform, Initial and Final Value Theorems - Part 1
Link NOC:Integral Transforms and their Applications Lecture 14 - Inverse Laplace Transform, Initial and Final Value Theorems - Part 2
Link NOC:Integral Transforms and their Applications Lecture 15 - Inverse Laplace Transform, Initial and Final Value Theorems - Part 3
Link NOC:Integral Transforms and their Applications Lecture 16 - Applications of Laplace Transforms - Part 1
Link NOC:Integral Transforms and their Applications Lecture 17 - Applications of Laplace Transforms - Part 2
Link NOC:Integral Transforms and their Applications Lecture 18 - Applications of Laplace Transforms - Part 3
Link NOC:Integral Transforms and their Applications Lecture 19 - Applications of Laplace Transforms (Continued) - Part 1
Link NOC:Integral Transforms and their Applications Lecture 20 - Applications of Laplace Transforms (Continued) - Part 2
Link NOC:Integral Transforms and their Applications Lecture 21 - Applications of Laplace Transforms (Continued) - Part 3
Link NOC:Integral Transforms and their Applications Lecture 22 - Applications of Fourier-Laplace Transforms - Part 1
Link NOC:Integral Transforms and their Applications Lecture 23 - Applications of Fourier-Laplace Transforms - Part 2
Link NOC:Integral Transforms and their Applications Lecture 24 - Applications of Fourier-Laplace Transforms - Part 3
Link NOC:Integral Transforms and their Applications Lecture 25 - Introduction to Hankel Transforms - Part 1
Link NOC:Integral Transforms and their Applications Lecture 26 - Introduction to Hankel Transforms - Part 2
Link NOC:Integral Transforms and their Applications Lecture 27 - Introduction to Hankel Transforms - Part 3
Link NOC:Integral Transforms and their Applications Lecture 28 - Introduction to Mellin Transforms - Part 1
Link NOC:Integral Transforms and their Applications Lecture 29 - Introduction to Mellin Transforms - Part 2
Link NOC:Integral Transforms and their Applications Lecture 30 - Introduction to Mellin Transforms - Part 3
Link NOC:Integral Transforms and their Applications Lecture 31 - Introduction to Hilbert Transforms - Part 1
Link NOC:Integral Transforms and their Applications Lecture 32 - Introduction to Hilbert Transforms - Part 2
Link NOC:Integral Transforms and their Applications Lecture 33 - Introduction to Hilbert Transforms - Part 3
Link NOC:Integral Transforms and their Applications Lecture 34 - Applications of Hilbert Transfroms, Introduction to Stieltjes Transform - Part 1
Link NOC:Integral Transforms and their Applications Lecture 35 - Applications of Hilbert Transfroms, Introduction to Stieltjes Transform - Part 2
Link NOC:Integral Transforms and their Applications Lecture 36 - Applications of Hilbert Transfroms, Introduction to Stieltjes Transform - Part 3
Link NOC:Integral Transforms and their Applications Lecture 37 - Applications of Stieltjes Transform, Generalized Stieltjes Transform - Part 1
Link NOC:Integral Transforms and their Applications Lecture 38 - Applications of Stieltjes Transform, Generalized Stieltjes Transform - Part 2
Link NOC:Integral Transforms and their Applications Lecture 39 - Applications of Stieltjes Transform, Generalized Stieltjes Transform - Part 3
Link NOC:Integral Transforms and their Applications Lecture 40 - Introduction to Legendre Transform - Part 1
Link NOC:Integral Transforms and their Applications Lecture 41 - Introduction to Legendre Transform - Part 2
Link NOC:Integral Transforms and their Applications Lecture 42 - Introduction to Legendre Transform - Part 3
Link NOC:Integral Transforms and their Applications Lecture 43 - Introduction to Z-transform - Part 1
Link NOC:Integral Transforms and their Applications Lecture 44 - Introduction to Z-transform - Part 2
Link NOC:Integral Transforms and their Applications Lecture 45 - Introduction to Z-transform - Part 3
Link NOC:Integral Transforms and their Applications Lecture 46 - Inverse Z-transfrom, Applciations of Z-Transform - Part 1
Link NOC:Integral Transforms and their Applications Lecture 47 - Inverse Z-transfrom, Applciations of Z-Transform - Part 2
Link NOC:Integral Transforms and their Applications Lecture 48 - Inverse Z-transfrom, Applciations of Z-Transform - Part 3
Link NOC:Integral Transforms and their Applications Lecture 49 - Introduction to Radon Transform - Part 1
Link NOC:Integral Transforms and their Applications Lecture 50 - Introduction to Radon Transform - Part 2
Link NOC:Integral Transforms and their Applications Lecture 51 - Introduction to Radon Transform - Part 3
Link NOC:Integral Transforms and their Applications Lecture 52 - Inverse Radon Transform, Applications to Radon Transform - Part 1
Link NOC:Integral Transforms and their Applications Lecture 53 - Inverse Radon Transform, Applications to Radon Transform - Part 2
Link NOC:Integral Transforms and their Applications Lecture 54 - Inverse Radon Transform, Applications to Radon Transform - Part 3
Link NOC:Integral Transforms and their Applications Lecture 55 - Introduction to Fractional Calculus - Part 1
Link NOC:Integral Transforms and their Applications Lecture 56 - Introduction to Fractional Calculus - Part 2
Link NOC:Integral Transforms and their Applications Lecture 57 - Introduction to Fractional Calculus - Part 3
Link NOC:Integral Transforms and their Applications Lecture 58 - Fractional ODEs, Abel's Integral Equations - Part 1
Link NOC:Integral Transforms and their Applications Lecture 59 - Fractional ODEs, Abel's Integral Equations - Part 2
Link NOC:Integral Transforms and their Applications Lecture 60 - Fractional ODEs, Abel's Integral Equations - Part 3
Link NOC:Integral Transforms and their Applications Lecture 61 - Fractional PDEs - Part 1
Link NOC:Integral Transforms and their Applications Lecture 62 - Fractional PDEs - Part 2
Link NOC:Integral Transforms and their Applications Lecture 63 - Fractional PDEs - Part 3
Link NOC:Integral Transforms and their Applications Lecture 64 - Fractional ODEs and PDEs (Continued) - Part 1
Link NOC:Integral Transforms and their Applications Lecture 65 - Fractional ODEs and PDEs (Continued) - Part 2
Link NOC:Integral Transforms and their Applications Lecture 66 - Fractional ODEs and PDEs (Continued) - Part 3
Link NOC:Integral Transforms and their Applications Lecture 67 - Introduction to Wavelet Transform - Part 1
Link NOC:Integral Transforms and their Applications Lecture 68 - Introduction to Wavelet Transform - Part 2
Link NOC:Integral Transforms and their Applications Lecture 69 - Introduction to Wavelet Transform - Part 3
Link NOC:Integral Transforms and their Applications Lecture 70 - Discrete Haar, Shanon and Debauchies Wavelet - Part 1
Link NOC:Integral Transforms and their Applications Lecture 71 - Discrete Haar, Shanon and Debauchies Wavelet - Part 2
Link NOC:Integral Transforms and their Applications Lecture 72 - Discrete Haar, Shanon and Debauchies Wavelet - Part 3
Link NOC:Introduction to Fuzzy Set Theory, Arithmetic and Logic Lecture 1 - Fuzzy Sets Arithmetic and Logic - 1
Link NOC:Introduction to Fuzzy Set Theory, Arithmetic and Logic Lecture 2 - Fuzzy Sets Arithmetic and Logic - 2
Link NOC:Introduction to Fuzzy Set Theory, Arithmetic and Logic Lecture 3 - Fuzzy Sets Arithmetic and Logic - 3
Link NOC:Introduction to Fuzzy Set Theory, Arithmetic and Logic Lecture 4 - Fuzzy Sets Arithmetic and Logic - 4
Link NOC:Introduction to Fuzzy Set Theory, Arithmetic and Logic Lecture 5 - Fuzzy Sets Arithmetic and Logic - 5
Link NOC:Introduction to Fuzzy Set Theory, Arithmetic and Logic Lecture 6 - Fuzzy Sets Arithmetic and Logic - 6
Link NOC:Introduction to Fuzzy Set Theory, Arithmetic and Logic Lecture 7 - Fuzzy Sets Arithmetic and Logic - 7
Link NOC:Introduction to Fuzzy Set Theory, Arithmetic and Logic Lecture 8 - Fuzzy Sets Arithmetic and Logic - 8
Link NOC:Introduction to Fuzzy Set Theory, Arithmetic and Logic Lecture 9 - Fuzzy Sets Arithmetic and Logic - 9
Link NOC:Introduction to Fuzzy Set Theory, Arithmetic and Logic Lecture 10 - Fuzzy Sets Arithmetic and Logic - 10
Link NOC:Introduction to Fuzzy Set Theory, Arithmetic and Logic Lecture 11 - Fuzzy Sets Arithmetic and Logic - 11
Link NOC:Introduction to Fuzzy Set Theory, Arithmetic and Logic Lecture 12 - Fuzzy Sets Arithmetic and Logic - 12
Link NOC:Introduction to Fuzzy Set Theory, Arithmetic and Logic Lecture 13 - Fuzzy Sets Arithmetic and Logic - 13
Link NOC:Introduction to Fuzzy Set Theory, Arithmetic and Logic Lecture 14 - Fuzzy Sets Arithmetic and Logic - 14
Link NOC:Introduction to Fuzzy Set Theory, Arithmetic and Logic Lecture 15 - Fuzzy Sets Arithmetic and Logic - 15
Link NOC:Introduction to Fuzzy Set Theory, Arithmetic and Logic Lecture 16 - Fuzzy Sets Arithmetic and Logic - 16
Link NOC:Introduction to Fuzzy Set Theory, Arithmetic and Logic Lecture 17 - Fuzzy Sets Arithmetic and Logic - 17
Link NOC:Introduction to Fuzzy Set Theory, Arithmetic and Logic Lecture 18 - Fuzzy Sets Arithmetic and Logic - 18
Link NOC:Introduction to Fuzzy Set Theory, Arithmetic and Logic Lecture 19 - Fuzzy Sets Arithmetic and Logic - 19
Link NOC:Introduction to Fuzzy Set Theory, Arithmetic and Logic Lecture 20 - Fuzzy Sets Arithmetic and Logic - 20
Link NOC:Introduction to Fuzzy Set Theory, Arithmetic and Logic Lecture 21 - Fuzzy Sets Arithmetic and Logic - 21
Link NOC:Introduction to Fuzzy Set Theory, Arithmetic and Logic Lecture 22 - Fuzzy Sets Arithmetic and Logic - 22
Link NOC:Introduction to Fuzzy Set Theory, Arithmetic and Logic Lecture 23 - Fuzzy Sets Arithmetic and Logic - 23
Link NOC:Introduction to Fuzzy Set Theory, Arithmetic and Logic Lecture 24 - Fuzzy Sets Arithmetic and Logic - 24
Link NOC:Introduction to Fuzzy Set Theory, Arithmetic and Logic Lecture 25 - Fuzzy Sets Arithmetic and Logic - 25
Link NOC:Introduction to Fuzzy Set Theory, Arithmetic and Logic Lecture 26 - Fuzzy Sets Arithmetic and Logic - 26
Link NOC:Introduction to Fuzzy Set Theory, Arithmetic and Logic Lecture 27 - Fuzzy Sets Arithmetic and Logic - 27
Link NOC:Introduction to Fuzzy Set Theory, Arithmetic and Logic Lecture 28 - Fuzzy Sets Arithmetic and Logic - 28
Link NOC:Introduction to Fuzzy Set Theory, Arithmetic and Logic Lecture 29 - Fuzzy Sets Arithmetic and Logic - 29
Link NOC:Introduction to Fuzzy Set Theory, Arithmetic and Logic Lecture 30 - Fuzzy Sets Arithmetic and Logic - 30
Link NOC:Introduction to Methods of Applied Mathematics Lecture 1 - Introduction to First Order Differential Equations
Link NOC:Introduction to Methods of Applied Mathematics Lecture 2 - Introduction to First Order Differential Equations (Continued...)
Link NOC:Introduction to Methods of Applied Mathematics Lecture 3 - Introduction to Second Order Linear Differential Equations
Link NOC:Introduction to Methods of Applied Mathematics Lecture 4 - Second Order Linear Differential Equations With Constant Coefficients
Link NOC:Introduction to Methods of Applied Mathematics Lecture 5 - Second Order Linear Differential Equations With Constant Coefficients (Continued...)
Link NOC:Introduction to Methods of Applied Mathematics Lecture 6 - Second Order Linear Differential Equations With Variable Coefficients
Link NOC:Introduction to Methods of Applied Mathematics Lecture 7 - Factorization of Second order Differential Operator and Euler Cauchy Equation
Link NOC:Introduction to Methods of Applied Mathematics Lecture 8 - Power Series Solution of General Differential Equation
Link NOC:Introduction to Methods of Applied Mathematics Lecture 9 - Green's function
Link NOC:Introduction to Methods of Applied Mathematics Lecture 10 - Method of Green's Function for Solving Initial Value and Boundary Value Problems
Link NOC:Introduction to Methods of Applied Mathematics Lecture 11 - Adjoint Linear Differential Operator
Link NOC:Introduction to Methods of Applied Mathematics Lecture 12 - Adjoint Linear Differential Operator (Continued...)
Link NOC:Introduction to Methods of Applied Mathematics Lecture 13 - Sturm-Liouvile Problems
Link NOC:Introduction to Methods of Applied Mathematics Lecture 14 - Laplace transformation
Link NOC:Introduction to Methods of Applied Mathematics Lecture 15 - Laplace transformation (Continued...)
Link NOC:Introduction to Methods of Applied Mathematics Lecture 16 - Laplace Transform Method for Solving Ordinary Differential Equations
Link NOC:Introduction to Methods of Applied Mathematics Lecture 17 - Laplace Transform Applied to Differential Equations and Convolution
Link NOC:Introduction to Methods of Applied Mathematics Lecture 18 - Fourier Series
Link NOC:Introduction to Methods of Applied Mathematics Lecture 19 - Fourier Series (Continued...)
Link NOC:Introduction to Methods of Applied Mathematics Lecture 20 - Gibbs Phenomenon and Parseval's Identity
Link NOC:Introduction to Methods of Applied Mathematics Lecture 21 - Fourier Integral and Fourier Transform
Link NOC:Introduction to Methods of Applied Mathematics Lecture 22 - Fourier Integral and Fourier Transform (Continued...)
Link NOC:Introduction to Methods of Applied Mathematics Lecture 23 - Fourier Transform Method for Solving Ordinary Differential Equations
Link NOC:Introduction to Methods of Applied Mathematics Lecture 24 - Frames, Riesz Bases and Orthonormal Bases
Link NOC:Introduction to Methods of Applied Mathematics Lecture 25 - Frames, Riesz Bases and Orthonormal Bases (Continued...)
Link NOC:Introduction to Methods of Applied Mathematics Lecture 26 - Fourier Series and Fourier Transform
Link NOC:Introduction to Methods of Applied Mathematics Lecture 27 - Time-Frequency Analysis and Gabor Transform
Link NOC:Introduction to Methods of Applied Mathematics Lecture 28 - Window Fourier Transform and Multiresolution Analysis
Link NOC:Introduction to Methods of Applied Mathematics Lecture 29 - Construction of Scaling Functions and Wavelets Using Multiresolution Analysis
Link NOC:Introduction to Methods of Applied Mathematics Lecture 30 - Daubechies Wavelet
Link NOC:Introduction to Methods of Applied Mathematics Lecture 31 - Daubechies Wavelet (Continued...)
Link NOC:Introduction to Methods of Applied Mathematics Lecture 32 - Wavelet Transform and Shannon Wavelet
Link Formal Languages and Automata Theory Lecture 1 - Introduction
Link Formal Languages and Automata Theory Lecture 2 - Alphabet, Strings, Languages
Link Formal Languages and Automata Theory Lecture 3 - Finite Representation
Link Formal Languages and Automata Theory Lecture 4 - Grammars (CFG)
Link Formal Languages and Automata Theory Lecture 5 - Derivation Trees
Link Formal Languages and Automata Theory Lecture 6 - Regular Grammars
Link Formal Languages and Automata Theory Lecture 7 - Finite Automata
Link Formal Languages and Automata Theory Lecture 8 - Nondeterministic Finite Automata
Link Formal Languages and Automata Theory Lecture 9 - NFA <=> DFA
Link Formal Languages and Automata Theory Lecture 10 - Myhill-Nerode Theorem
Link Formal Languages and Automata Theory Lecture 11 - Minimization
Link Formal Languages and Automata Theory Lecture 12 - RE => FA
Link Formal Languages and Automata Theory Lecture 13 - FA => RE
Link Formal Languages and Automata Theory Lecture 14 - FA <=> RG
Link Formal Languages and Automata Theory Lecture 15 - Variants of FA
Link Formal Languages and Automata Theory Lecture 16 - Closure Properties of RL
Link Formal Languages and Automata Theory Lecture 17 - Homomorphism
Link Formal Languages and Automata Theory Lecture 18 - Pumping Lemma
Link Formal Languages and Automata Theory Lecture 19 - Simplification of CFG
Link Formal Languages and Automata Theory Lecture 20 - Normal Forms of CFG
Link Formal Languages and Automata Theory Lecture 21 - Properties of CFLs
Link Formal Languages and Automata Theory Lecture 22 - Pushdown Automata
Link Formal Languages and Automata Theory Lecture 23 - PDA <=> CFG
Link Formal Languages and Automata Theory Lecture 24 - Turing Machines
Link Formal Languages and Automata Theory Lecture 25 - Turing Computable Functions
Link Formal Languages and Automata Theory Lecture 26 - Combining Turing Machines
Link Formal Languages and Automata Theory Lecture 27 - Multi Input
Link Formal Languages and Automata Theory Lecture 28 - Turing Decidable Languages
Link Formal Languages and Automata Theory Lecture 29 - Varients of Turing Machines
Link Formal Languages and Automata Theory Lecture 30 - Structured Grammars
Link Formal Languages and Automata Theory Lecture 31 - Decidability
Link Formal Languages and Automata Theory Lecture 32 - Undecidability 1
Link Formal Languages and Automata Theory Lecture 33 - Undecidability 2
Link Formal Languages and Automata Theory Lecture 34 - Undecidability 3
Link Formal Languages and Automata Theory Lecture 35 - Time Bounded Turing Machines
Link Formal Languages and Automata Theory Lecture 36 - P and NP
Link Formal Languages and Automata Theory Lecture 37 - NP-Completeness
Link Formal Languages and Automata Theory Lecture 38 - NP-Complete Problems 1
Link Formal Languages and Automata Theory Lecture 39 - NP-Complete Problems 2
Link Formal Languages and Automata Theory Lecture 40 - NP-Complete Problems 3
Link Formal Languages and Automata Theory Lecture 41 - Chomsky Hierarchy
Link Complex Analysis Lecture 1 - Introduction
Link Complex Analysis Lecture 2 - Introduction to Complex Numbers
Link Complex Analysis Lecture 3 - de Moivre’s Formula and Stereographic Projection
Link Complex Analysis Lecture 4 - Topology of the Complex Plane - Part-I
Link Complex Analysis Lecture 5 - Topology of the Complex Plane - Part-II
Link Complex Analysis Lecture 6 - Topology of the Complex Plane - Part-III
Link Complex Analysis Lecture 7 - Introduction to Complex Functions
Link Complex Analysis Lecture 8 - Limits and Continuity
Link Complex Analysis Lecture 9 - Differentiation
Link Complex Analysis Lecture 10 - Cauchy-Riemann Equations and Differentiability
Link Complex Analysis Lecture 11 - Analytic functions; the exponential function
Link Complex Analysis Lecture 12 - Sine, Cosine and Harmonic functions
Link Complex Analysis Lecture 13 - Branches of Multifunctions; Hyperbolic Functions
Link Complex Analysis Lecture 14 - Problem Solving Session I
Link Complex Analysis Lecture 15 - Integration and Contours
Link Complex Analysis Lecture 16 - Contour Integration
Link Complex Analysis Lecture 17 - Introduction to Cauchy’s Theorem
Link Complex Analysis Lecture 18 - Cauchy’s Theorem for a Rectangle
Link Complex Analysis Lecture 19 - Cauchy’s theorem - Part-II
Link Complex Analysis Lecture 20 - Cauchy’s Theorem - Part-III
Link Complex Analysis Lecture 21 - Cauchy’s Integral Formula and its Consequences
Link Complex Analysis Lecture 22 - The First and Second Derivatives of Analytic Functions
Link Complex Analysis Lecture 23 - Morera’s Theorem and Higher Order Derivatives of Analytic Functions
Link Complex Analysis Lecture 24 - Problem Solving Session II
Link Complex Analysis Lecture 25 - Introduction to Complex Power Series
Link Complex Analysis Lecture 26 - Analyticity of Power Series
Link Complex Analysis Lecture 27 - Taylor’s Theorem
Link Complex Analysis Lecture 28 - Zeroes of Analytic Functions
Link Complex Analysis Lecture 29 - Counting the Zeroes of Analytic Functions
Link Complex Analysis Lecture 30 - Open mapping theorem - Part-I
Link Complex Analysis Lecture 31 - Open mapping theorem - Part-II
Link Complex Analysis Lecture 32 - Properties of Mobius Transformations - Part-I
Link Complex Analysis Lecture 33 - Properties of Mobius Transformations - Part-II
Link Complex Analysis Lecture 34 - Problem Solving Session III
Link Complex Analysis Lecture 35 - Removable Singularities
Link Complex Analysis Lecture 36 - Poles Classification of Isolated Singularities
Link Complex Analysis Lecture 37 - Essential Singularity & Introduction to Laurent Series
Link Complex Analysis Lecture 38 - Laurent’s Theorem
Link Complex Analysis Lecture 39 - Residue Theorem and Applications
Link Complex Analysis Lecture 40 - Problem Solving Session IV
Link NOC:Mathematical Finance Lecture 1 - Introduction to Financial Markets and Bonds
Link NOC:Mathematical Finance Lecture 2 - Introduction to Stocks, Futures and Forwards and Swaps
Link NOC:Mathematical Finance Lecture 3 - Introduction to Options
Link NOC:Mathematical Finance Lecture 4 - Interest Rates and Present Value
Link NOC:Mathematical Finance Lecture 5 - Present and Future Values, Annuities, Amortization and Bond Yield
Link NOC:Mathematical Finance Lecture 6 - Price Yield Curve and Term Structure of Interest Rates
Link NOC:Mathematical Finance Lecture 7 - Markowitz Theory, Return and Risk and Two Asset Portfolio
Link NOC:Mathematical Finance Lecture 8 - Minimum Variance Portfolio and Feasible Set
Link NOC:Mathematical Finance Lecture 9 - Multi Asset Portfolio, Minimum Variance Portfolio, Efficient Frontier and Minimum Variance Line
Link NOC:Mathematical Finance Lecture 10 - Minimum Variance Line (Continued), Market Portfolio
Link NOC:Mathematical Finance Lecture 11 - Capital Market Line, Capital Asset Pricing Model
Link NOC:Mathematical Finance Lecture 12 - Performance Analysis
Link NOC:Mathematical Finance Lecture 13 - No-Arbitrage Principle and Pricing of Forward Contracts
Link NOC:Mathematical Finance Lecture 14 - Futures, Options and Put-Call-Parity
Link NOC:Mathematical Finance Lecture 15 - Bounds on Options
Link NOC:Mathematical Finance Lecture 16 - Derivative Pricing in a Single Period Binomial Model
Link NOC:Mathematical Finance Lecture 17 - Derivative Pricing in Multiperiod Binomial Model
Link NOC:Mathematical Finance Lecture 18 - Derivative Pricing in Binomial Model and Path Dependent Options
Link NOC:Mathematical Finance Lecture 19 - Discrete Probability Spaces
Link NOC:Mathematical Finance Lecture 20 - Filtrations and Conditional Expectations
Link NOC:Mathematical Finance Lecture 21 - Properties of Conditional Expectations
Link NOC:Mathematical Finance Lecture 22 - Examples of Conditional Expectations, Martingales
Link NOC:Mathematical Finance Lecture 23 - Risk-Neutral Pricing of European Derivatives in Binomial Model
Link NOC:Mathematical Finance Lecture 24 - Actual and Risk-Neutral Probabilities, Markov Process, American Options
Link NOC:Mathematical Finance Lecture 25 - General Probability Spaces, Expectations, Change of Measure
Link NOC:Mathematical Finance Lecture 26 - Filtrations, Independence, Conditional Expectations
Link NOC:Mathematical Finance Lecture 27 - Brownian Motion and its Properties
Link NOC:Mathematical Finance Lecture 28 - Itô Integral and its Properties
Link NOC:Mathematical Finance Lecture 29 - Itô Formula, Itô Processes
Link NOC:Mathematical Finance Lecture 30 - Multivariable Stochastic Calculus, Stochastic Differential Equations
Link NOC:Mathematical Finance Lecture 31 - Black-Scholes-Merton (BSM) Model, BSM Equation, BSM Formula
Link NOC:Mathematical Finance Lecture 32 - Greeks, Put-Call Parity, Change of Measure
Link NOC:Mathematical Finance Lecture 33 - Girsanov Theorem, Risk-Neutral Pricing of Derivatives, BSM Formula
Link NOC:Mathematical Finance Lecture 34 - MRT and Hedging, Multidimensional Girsanov and MRT
Link NOC:Mathematical Finance Lecture 35 - Multidimensional BSM Model, Fundamental Theorems of Asset Pricing
Link NOC:Mathematical Finance Lecture 36 - BSM Model with Dividend-Paying Stocks
Link Applied Multivariate Analysis Lecture 1 - Prologue
Link Applied Multivariate Analysis Lecture 2 - Basic concepts on multivariate distribution
Link Applied Multivariate Analysis Lecture 3 - Basic concepts on multivariate distribution
Link Applied Multivariate Analysis Lecture 4 - Multivariate normal distribution – I
Link Applied Multivariate Analysis Lecture 5 - Multivariate normal distribution – II
Link Applied Multivariate Analysis Lecture 6 - Multivariate normal distribution – III
Link Applied Multivariate Analysis Lecture 7 - Some problems on multivariate distributions – I
Link Applied Multivariate Analysis Lecture 8 - Some problems on multivariate distributions – II
Link Applied Multivariate Analysis Lecture 9 - Random sampling from multivariate normal distribution and Wishart distribution - I
Link Applied Multivariate Analysis Lecture 10 - Random sampling from multivariate normal distribution and Wishart distribution - II
Link Applied Multivariate Analysis Lecture 11 - Random sampling from multivariate normal distribution and Wishart distribution - III
Link Applied Multivariate Analysis Lecture 12 - Wishart distribution and it’s properties - I
Link Applied Multivariate Analysis Lecture 13 - Wishart distribution and it’s properties - II
Link Applied Multivariate Analysis Lecture 14 - Hotelling’s T2 distribution and it’s applications
Link Applied Multivariate Analysis Lecture 15 - Hotelling’s T2 distribution and various confidence intervals and regions
Link Applied Multivariate Analysis Lecture 16 - Hotelling’s T2 distribution and Profile analysis
Link Applied Multivariate Analysis Lecture 17 - Profile analysis - I
Link Applied Multivariate Analysis Lecture 18 - Profile analysis - II
Link Applied Multivariate Analysis Lecture 19 - MANOVA - I
Link Applied Multivariate Analysis Lecture 20 - MANOVA - II
Link Applied Multivariate Analysis Lecture 21 - MANOVA - III
Link Applied Multivariate Analysis Lecture 22 - MANOVA & Multiple Correlation Coefficient
Link Applied Multivariate Analysis Lecture 23 - Multiple Correlation Coefficient
Link Applied Multivariate Analysis Lecture 24 - Principal Component Analysis
Link Applied Multivariate Analysis Lecture 25 - Principal Component Analysis
Link Applied Multivariate Analysis Lecture 26 - Principal Component Analysis
Link Applied Multivariate Analysis Lecture 27 - Cluster Analysis
Link Applied Multivariate Analysis Lecture 28 - Cluster Analysis
Link Applied Multivariate Analysis Lecture 29 - Cluster Analysis
Link Applied Multivariate Analysis Lecture 30 - Cluster Analysis
Link Applied Multivariate Analysis Lecture 31 - Discriminant Analysis and Classification
Link Applied Multivariate Analysis Lecture 32 - Discriminant Analysis and Classification
Link Applied Multivariate Analysis Lecture 33 - Discriminant Analysis and Classification
Link Applied Multivariate Analysis Lecture 34 - Discriminant Analysis and Classification
Link Applied Multivariate Analysis Lecture 35 - Discriminant Analysis and Classification
Link Applied Multivariate Analysis Lecture 36 - Discriminant Analysis and Classification
Link Applied Multivariate Analysis Lecture 37 - Discriminant Analysis and Classification
Link Applied Multivariate Analysis Lecture 38 - Factor_Analysis
Link Applied Multivariate Analysis Lecture 39 - Factor_Analysis
Link Applied Multivariate Analysis Lecture 40 - Factor_Analysis
Link Applied Multivariate Analysis Lecture 41 - Cannonical Correlation Analysis
Link Applied Multivariate Analysis Lecture 42 - Cannonical Correlation Analysis
Link Applied Multivariate Analysis Lecture 43 - Cannonical Correlation Analysis
Link Applied Multivariate Analysis Lecture 44 - Cannonical Correlation Analysis
Link Calculus of Variations and Integral Equations Lecture 1 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 2 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 3 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 4 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 5 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 6 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 7 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 8 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 9 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 10 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 11 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 12 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 13 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 14 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 15 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 16 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 17 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 18 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 19 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 20 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 21 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 22 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 23 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 24 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 25 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 26 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 27 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 28 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 29 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 30 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 31 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 32 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 33 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 34 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 35 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 36 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 37 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 38 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 39 - Calculus of Variations and Integral Equations
Link Calculus of Variations and Integral Equations Lecture 40 - Calculus of Variations and Integral Equations
Link Linear programming and Extensions Lecture 1 - Introduction to Linear Programming Problems
Link Linear programming and Extensions Lecture 2 - Vector space, Linear independence and dependence, basis
Link Linear programming and Extensions Lecture 3 - Moving from one basic feasible solution to another, optimality criteria
Link Linear programming and Extensions Lecture 4 - Basic feasible solutions, existence & derivation
Link Linear programming and Extensions Lecture 5 - Convex sets, dimension of a polyhedron, Faces, Example of a polytope
Link Linear programming and Extensions Lecture 6 - Direction of a polyhedron, correspondence between bfs and extreme points
Link Linear programming and Extensions Lecture 7 - Representation theorem, LPP solution is a bfs, Assignment 1
Link Linear programming and Extensions Lecture 8 - Development of the Simplex Algorithm, Unboundedness, Simplex Tableau
Link Linear programming and Extensions Lecture 9 - Simplex Tableau & algorithm ,Cycling, Bland’s anti-cycling rules, Phase I & Phase II
Link Linear programming and Extensions Lecture 10 - Big-M method,Graphical solutions, adjacent extreme pts and adjacent bfs
Link Linear programming and Extensions Lecture 11 - Assignment 2, progress of Simplex algorithm on a polytope, bounded variable LPP
Link Linear programming and Extensions Lecture 12 - LPP Bounded variable, Revised Simplex algorithm, Duality theory, weak duality theorem
Link Linear programming and Extensions Lecture 13 - Weak duality theorem, economic interpretation of dual variables, Fundamental theorem of duality
Link Linear programming and Extensions Lecture 14 - Examples of writing the dual, complementary slackness theorem
Link Linear programming and Extensions Lecture 15 - Complementary slackness conditions, Dual Simplex algorithm, Assignment 3
Link Linear programming and Extensions Lecture 16 - Primal-dual algorithm
Link Linear programming and Extensions Lecture 17 - Problem in lecture 16, starting dual feasible solution, Shortest Path Problem
Link Linear programming and Extensions Lecture 18 - Shortest Path Problem, Primal-dual method, example
Link Linear programming and Extensions Lecture 19 - Shortest Path Problem-complexity, interpretation of dual variables, post-optimality analysis-changes in the cost vector
Link Linear programming and Extensions Lecture 20 - Assignment 4, postoptimality analysis, changes in b, adding a new constraint, changes in {aij} , Parametric analysis
Link Linear programming and Extensions Lecture 21 - Parametric LPP-Right hand side vector
Link Linear programming and Extensions Lecture 22 - Parametric cost vector LPP
Link Linear programming and Extensions Lecture 23 - Parametric cost vector LPP, Introduction to Min-cost flow problem
Link Linear programming and Extensions Lecture 24 - Mini-cost flow problem-Transportation problem
Link Linear programming and Extensions Lecture 25 - Transportation problem degeneracy, cycling
Link Linear programming and Extensions Lecture 26 - Sensitivity analysis
Link Linear programming and Extensions Lecture 27 - Sensitivity analysis
Link Linear programming and Extensions Lecture 28 - Bounded variable transportation problem, min-cost flow problem
Link Linear programming and Extensions Lecture 29 - Min-cost flow problem
Link Linear programming and Extensions Lecture 30 - Starting feasible solution, Lexicographic method for preventing cycling ,strongly feasible solution
Link Linear programming and Extensions Lecture 31 - Assignment 6, Shortest path problem, Shortest Path between any two nodes,Detection of negative cycles
Link Linear programming and Extensions Lecture 32 - Min-cost-flow Sensitivity analysis Shortest path problem sensitivity analysis
Link Linear programming and Extensions Lecture 33 - Min-cost flow changes in arc capacities , Max-flow problem, assignment 7
Link Linear programming and Extensions Lecture 34 - Problem 3 (assignment 7), Min-cut Max-flow theorem, Labelling algorithm
Link Linear programming and Extensions Lecture 35 - Max-flow - Critical capacity of an arc, starting solution for min-cost flow problem
Link Linear programming and Extensions Lecture 36 - Improved Max-flow algorithm
Link Linear programming and Extensions Lecture 37 - Critical Path Method (CPM)
Link Linear programming and Extensions Lecture 38 - Programme Evaluation and Review Technique (PERT)
Link Linear programming and Extensions Lecture 39 - Simplex Algorithm is not polynomial time- An example
Link Linear programming and Extensions Lecture 40 - Interior Point Methods
Link Convex Optimization Lecture 1 - Convex Optimization
Link Convex Optimization Lecture 2 - Convex Optimization
Link Convex Optimization Lecture 3 - Convex Optimization
Link Convex Optimization Lecture 4 - Convex Optimization
Link Convex Optimization Lecture 5 - Convex Optimization
Link Convex Optimization Lecture 6 - Convex Optimization
Link Convex Optimization Lecture 7 - Convex Optimization
Link Convex Optimization Lecture 8 - Convex Optimization
Link Convex Optimization Lecture 9 - Convex Optimization
Link Convex Optimization Lecture 10 - Convex Optimization
Link Convex Optimization Lecture 11 - Convex Optimization
Link Convex Optimization Lecture 12 - Convex Optimization
Link Convex Optimization Lecture 13 - Convex Optimization
Link Convex Optimization Lecture 14 - Convex Optimization
Link Convex Optimization Lecture 15 - Convex Optimization
Link Convex Optimization Lecture 16 - Convex Optimization
Link Convex Optimization Lecture 17 - Convex Optimization
Link Convex Optimization Lecture 18 - Convex Optimization
Link Convex Optimization Lecture 19 - Convex Optimization
Link Convex Optimization Lecture 20 - Convex Optimization
Link Convex Optimization Lecture 21 - Convex Optimization
Link Convex Optimization Lecture 22 - Convex Optimization
Link Convex Optimization Lecture 23 - Convex Optimization
Link Convex Optimization Lecture 24 - Convex Optimization
Link Convex Optimization Lecture 25 - Convex Optimization
Link Convex Optimization Lecture 26 - Convex Optimization
Link Convex Optimization Lecture 27 - Convex Optimization
Link Convex Optimization Lecture 28 - Convex Optimization
Link Convex Optimization Lecture 29 - Convex Optimization
Link Convex Optimization Lecture 30 - Convex Optimization
Link Convex Optimization Lecture 31 - Convex Optimization
Link Convex Optimization Lecture 32 - Convex Optimization
Link Convex Optimization Lecture 33 - Convex Optimization
Link Convex Optimization Lecture 34 - Convex Optimization
Link Convex Optimization Lecture 35 - Convex Optimization
Link Convex Optimization Lecture 36 - Convex Optimization
Link Convex Optimization Lecture 37 - Convex Optimization
Link Convex Optimization Lecture 38 - Convex Optimization
Link Convex Optimization Lecture 39 - Convex Optimization
Link Convex Optimization Lecture 40 - Convex Optimization
Link Convex Optimization Lecture 41 - Convex Optimization
Link Convex Optimization Lecture 42 - Convex Optimization
Link Foundations of Optimization Lecture 1 - Optimization
Link Foundations of Optimization Lecture 2 - Optimization
Link Foundations of Optimization Lecture 3 - Optimization
Link Foundations of Optimization Lecture 4 - Optimization
Link Foundations of Optimization Lecture 5 - Optimization
Link Foundations of Optimization Lecture 6 - Optimization
Link Foundations of Optimization Lecture 7 - Optimization
Link Foundations of Optimization Lecture 8 - Optimization
Link Foundations of Optimization Lecture 9 - Optimization
Link Foundations of Optimization Lecture 10 - Optimization
Link Foundations of Optimization Lecture 11 - Optimization
Link Foundations of Optimization Lecture 12 - Optimization
Link Foundations of Optimization Lecture 13 - Optimization
Link Foundations of Optimization Lecture 14 - Optimization
Link Foundations of Optimization Lecture 15 - Optimization
Link Foundations of Optimization Lecture 16 - Optimization
Link Foundations of Optimization Lecture 17 - Optimization
Link Foundations of Optimization Lecture 18 - Optimization
Link Foundations of Optimization Lecture 19 - Optimization
Link Foundations of Optimization Lecture 20 - Optimization
Link Foundations of Optimization Lecture 21 - Optimization
Link Foundations of Optimization Lecture 22 - Optimization
Link Foundations of Optimization Lecture 23 - Optimization
Link Foundations of Optimization Lecture 24 - Optimization
Link Foundations of Optimization Lecture 25 - Optimization
Link Foundations of Optimization Lecture 26 - Optimization
Link Foundations of Optimization Lecture 27 - Optimization
Link Foundations of Optimization Lecture 28 - Optimization
Link Foundations of Optimization Lecture 29 - Optimization
Link Foundations of Optimization Lecture 30 - Optimization
Link Foundations of Optimization Lecture 31 - Optimization
Link Foundations of Optimization Lecture 32 - Optimization
Link Foundations of Optimization Lecture 33 - Optimization
Link Foundations of Optimization Lecture 34 - Optimization
Link Foundations of Optimization Lecture 35 - Optimization
Link Foundations of Optimization Lecture 36 - Optimization
Link Foundations of Optimization Lecture 37 - Optimization
Link Foundations of Optimization Lecture 38 - Optimization
Link Probability Theory and Applications Lecture 1 - Basic principles of counting
Link Probability Theory and Applications Lecture 2 - Sample space, events, axioms of probability
Link Probability Theory and Applications Lecture 3 - Conditional probability, Independence of events
Link Probability Theory and Applications Lecture 4 - Random variables, cumulative density function, expected value
Link Probability Theory and Applications Lecture 5 - Discrete random variables and their distributions
Link Probability Theory and Applications Lecture 6 - Discrete random variables and their distributions
Link Probability Theory and Applications Lecture 7 - Discrete random variables and their distributions
Link Probability Theory and Applications Lecture 8 - Continuous random variables and their distributions
Link Probability Theory and Applications Lecture 9 - Continuous random variables and their distributions
Link Probability Theory and Applications Lecture 10 - Continuous random variables and their distributions
Link Probability Theory and Applications Lecture 11 - Function of random variables, Momement generating function
Link Probability Theory and Applications Lecture 12 - Jointly distributed random variables, Independent r. v. and their sums
Link Probability Theory and Applications Lecture 13 - Independent r. v. and their sums
Link Probability Theory and Applications Lecture 14 - Chi – square r. v., sums of independent normal r. v., Conditional distr
Link Probability Theory and Applications Lecture 15 - Conditional disti, Joint distr. of functions of r. v., Order statistics
Link Probability Theory and Applications Lecture 16 - Order statistics, Covariance and correlation
Link Probability Theory and Applications Lecture 17 - Covariance, Correlation, Cauchy- Schwarz inequalities, Conditional expectation
Link Probability Theory and Applications Lecture 18 - Conditional expectation, Best linear predictor
Link Probability Theory and Applications Lecture 19 - Inequalities and bounds
Link Probability Theory and Applications Lecture 20 - Convergence and limit theorems
Link Probability Theory and Applications Lecture 21 - Central limit theorem
Link Probability Theory and Applications Lecture 22 - Applications of central limit theorem
Link Probability Theory and Applications Lecture 23 - Strong law of large numbers, Joint mgf
Link Probability Theory and Applications Lecture 24 - Convolutions
Link Probability Theory and Applications Lecture 25 - Stochastic processes: Markov process
Link Probability Theory and Applications Lecture 26 - Transition and state probabilities
Link Probability Theory and Applications Lecture 27 - State prob., First passage and First return prob
Link Probability Theory and Applications Lecture 28 - First passage and First return prob. Classification of states
Link Probability Theory and Applications Lecture 29 - Random walk, periodic and null states
Link Probability Theory and Applications Lecture 30 - Reducible Markov chains
Link Probability Theory and Applications Lecture 31 - Time reversible Markov chains
Link Probability Theory and Applications Lecture 32 - Poisson Processes
Link Probability Theory and Applications Lecture 33 - Inter-arrival times, Properties of Poisson processes
Link Probability Theory and Applications Lecture 34 - Queuing Models: M/M/I, Birth and death process, Little’s formulae
Link Probability Theory and Applications Lecture 35 - Analysis of L, Lq ,W and Wq , M/M/S model
Link Probability Theory and Applications Lecture 36 - M/M/S , M/M/I/K models
Link Probability Theory and Applications Lecture 37 - M/M/I/K and M/M/S/K models
Link Probability Theory and Applications Lecture 38 - Application to reliability theory failure law
Link Probability Theory and Applications Lecture 39 - Exponential failure law, Weibull law
Link Probability Theory and Applications Lecture 40 - Reliability of systems
Link NOC:Basic Calculus for Engineers, Scientists and Economists Lecture 1 - Numbers
Link NOC:Basic Calculus for Engineers, Scientists and Economists Lecture 2 - Functions-1
Link NOC:Basic Calculus for Engineers, Scientists and Economists Lecture 3 - Sequence-1
Link NOC:Basic Calculus for Engineers, Scientists and Economists Lecture 4 - Sequence-2
Link NOC:Basic Calculus for Engineers, Scientists and Economists Lecture 5 - Limits and Continuity-1
Link NOC:Basic Calculus for Engineers, Scientists and Economists Lecture 6 - Limits and Continuity-2
Link NOC:Basic Calculus for Engineers, Scientists and Economists Lecture 7 - Limits And Continuity-3
Link NOC:Basic Calculus for Engineers, Scientists and Economists Lecture 8 - Derivative-1
Link NOC:Basic Calculus for Engineers, Scientists and Economists Lecture 9 - Derivative-2
Link NOC:Basic Calculus for Engineers, Scientists and Economists Lecture 10 - Maxima And Minima
Link NOC:Basic Calculus for Engineers, Scientists and Economists Lecture 11 - Mean-Value Theorem And Taylors Expansion-1
Link NOC:Basic Calculus for Engineers, Scientists and Economists Lecture 12 - Mean-Value Theorem And Taylors Expansion-2
Link NOC:Basic Calculus for Engineers, Scientists and Economists Lecture 13 - Integration-1
Link NOC:Basic Calculus for Engineers, Scientists and Economists Lecture 14 - Integration-2
Link NOC:Basic Calculus for Engineers, Scientists and Economists Lecture 15 - Integration By Parts
Link NOC:Basic Calculus for Engineers, Scientists and Economists Lecture 16 - Definite Integral
Link NOC:Basic Calculus for Engineers, Scientists and Economists Lecture 17 - Riemann Integration-1
Link NOC:Basic Calculus for Engineers, Scientists and Economists Lecture 18 - Riemann Integration-2
Link NOC:Basic Calculus for Engineers, Scientists and Economists Lecture 19 - Functions Of Two Or More Variables
Link NOC:Basic Calculus for Engineers, Scientists and Economists Lecture 20 - Limits And Continuity Of Functions Of Two Variable
Link NOC:Basic Calculus for Engineers, Scientists and Economists Lecture 21 - Differentiation Of Functions Of Two Variables-1
Link NOC:Basic Calculus for Engineers, Scientists and Economists Lecture 22 - Differentiation Of Functions Of Two Variables-2
Link NOC:Basic Calculus for Engineers, Scientists and Economists Lecture 23 - Unconstrained Minimization Of Funtions Of Two Variables
Link NOC:Basic Calculus for Engineers, Scientists and Economists Lecture 24 - Constrained Minimization And Lagrange Multiplier Rules
Link NOC:Basic Calculus for Engineers, Scientists and Economists Lecture 25 - Infinite Series-1
Link NOC:Basic Calculus for Engineers, Scientists and Economists Lecture 26 - Infinite Series-2
Link NOC:Basic Calculus for Engineers, Scientists and Economists Lecture 27 - Infinite Series-3
Link NOC:Basic Calculus for Engineers, Scientists and Economists Lecture 28 - Multiple Integrals-1
Link NOC:Basic Calculus for Engineers, Scientists and Economists Lecture 29 - Multiple Integrals-2
Link NOC:Basic Calculus for Engineers, Scientists and Economists Lecture 30 - Multiple Integrals-3
Link NOC:Probability and Stochastics for finance Lecture 1 - Basic Probability
Link NOC:Probability and Stochastics for finance Lecture 2 - Interesting Problems In Probability
Link NOC:Probability and Stochastics for finance Lecture 3 - Random variables, distribution function and independence
Link NOC:Probability and Stochastics for finance Lecture 4 - Chebyshev inequality, Borel-Cantelli Lemmas and related issues
Link NOC:Probability and Stochastics for finance Lecture 5 - Law of Large Number and Central Limit Theorem
Link NOC:Probability and Stochastics for finance Lecture 6 - Conditional Expectation - I
Link NOC:Probability and Stochastics for finance Lecture 7 - Conditional Expectation - II
Link NOC:Probability and Stochastics for finance Lecture 8 - Martingales
Link NOC:Probability and Stochastics for finance Lecture 9 - Brownian Motion - I
Link NOC:Probability and Stochastics for finance Lecture 10 - Brownian Motion - II
Link NOC:Probability and Stochastics for finance Lecture 11 - Brownian Motion - III
Link NOC:Probability and Stochastics for finance Lecture 12 - Ito Integral - I
Link NOC:Probability and Stochastics for finance Lecture 13 - Ito Integral - II
Link NOC:Probability and Stochastics for finance Lecture 14 - Ito Calculus - I
Link NOC:Probability and Stochastics for finance Lecture 15 - Ito Calculus - II
Link NOC:Probability and Stochastics for finance Lecture 16 - Ito Integral In Higher Dimension
Link NOC:Probability and Stochastics for finance Lecture 17 - Application to Ito Integral - I
Link NOC:Probability and Stochastics for finance Lecture 18 - Application to Ito Integral - II
Link NOC:Probability and Stochastics for finance Lecture 19 - Black Scholes Formula - I
Link NOC:Probability and Stochastics for finance Lecture 20 - Black Scholes Formula - II
Link NOC:Differential Calculus in Several Variables Lecture 1 - Introduction to Several Variables and Notion Of distance in Rn
Link NOC:Differential Calculus in Several Variables Lecture 2 - Countinuity And Compactness
Link NOC:Differential Calculus in Several Variables Lecture 3 - Countinuity And Connectdness
Link NOC:Differential Calculus in Several Variables Lecture 4 - Derivatives: Possible Definition
Link NOC:Differential Calculus in Several Variables Lecture 5 - Matrix Of Linear Transformation
Link NOC:Differential Calculus in Several Variables Lecture 6 - Examples for Differentiable function
Link NOC:Differential Calculus in Several Variables Lecture 7 - Sufficient condition of differentiability
Link NOC:Differential Calculus in Several Variables Lecture 8 - Chain Rule
Link NOC:Differential Calculus in Several Variables Lecture 9 - Mean Value Theorem
Link NOC:Differential Calculus in Several Variables Lecture 10 - Higher Order Derivatives
Link NOC:Differential Calculus in Several Variables Lecture 11 - Taylor's Formula
Link NOC:Differential Calculus in Several Variables Lecture 12 - Maximum And Minimum
Link NOC:Differential Calculus in Several Variables Lecture 13 - Second derivative test for maximum, minimum and saddle point
Link NOC:Differential Calculus in Several Variables Lecture 14 - We formalise the second derivative test discussed in Lecture 2 and do examples
Link NOC:Differential Calculus in Several Variables Lecture 15 - Specialisation to functions of two variables
Link NOC:Differential Calculus in Several Variables Lecture 16 - Implicit Function Theorem
Link NOC:Differential Calculus in Several Variables Lecture 17 - Implicit Function Theorem -a
Link NOC:Differential Calculus in Several Variables Lecture 18 - Application of IFT: Lagrange's Multipliers Method
Link NOC:Differential Calculus in Several Variables Lecture 19 - Application of IFT: Lagrange's Multipliers Method - b
Link NOC:Differential Calculus in Several Variables Lecture 20 - Application of IFT: Lagrange's Multipliers Method - c
Link NOC:Differential Calculus in Several Variables Lecture 21 - Application of IFT: Inverse Function Theorem - c
Link NOC:Curves and Surfaces Lecture 1 - Level curves and locus, definition of parametric curves, tangent, arc length, arc length parametrisation
Link NOC:Curves and Surfaces Lecture 2 - How much a curve is ‘curved’, signed unit normal and signed curvature, rigid motions, constant curvature
Link NOC:Curves and Surfaces Lecture 3 - Curves in R^3, principal normal and binormal, torsion
Link NOC:Curves and Surfaces Lecture 4 - Frenet-Serret formula
Link NOC:Curves and Surfaces Lecture 5 - Simple closed curve and isoperimetric inequality
Link NOC:Curves and Surfaces Lecture 6 - Surfaces and parametric surfaces, examples, regular surface and non-example of regular surface, transition maps.
Link NOC:Curves and Surfaces Lecture 7 - Transition maps of smooth surfaces, smooth function between surfaces, diffeomorphism
Link NOC:Curves and Surfaces Lecture 8 - Reparameterization
Link NOC:Curves and Surfaces Lecture 9 - Tangent, Normal
Link NOC:Curves and Surfaces Lecture 10 - Orientable surfaces
Link NOC:Curves and Surfaces Lecture 11 - Examples of Surfaces
Link NOC:Curves and Surfaces Lecture 12 - First Fundamental Form
Link NOC:Curves and Surfaces Lecture 13 - Conformal Mapping
Link NOC:Curves and Surfaces Lecture 14 - Curvature of Surfaces
Link NOC:Curves and Surfaces Lecture 15 - Euler's Theorem
Link NOC:Curves and Surfaces Lecture 16 - Regular Surfaces locally as Quadratic Surfaces
Link NOC:Curves and Surfaces Lecture 17 - Geodesics
Link NOC:Curves and Surfaces Lecture 18 - Existence of Geodesics, Geodesics on Surfaces of revolution
Link NOC:Curves and Surfaces Lecture 19 - Geodesics on surfaces of revolution; Clairaut's Theorem
Link NOC:Curves and Surfaces Lecture 20 - Pseudosphere
Link NOC:Curves and Surfaces Lecture 21 - Classification of Quadratic Surface
Link NOC:Curves and Surfaces Lecture 22 - Surface Area and Equiareal Map
Link NOC:Linear Regression Analysis and Forecasting Lecture 1 - Basic Fundamental Concepts Of Modelling
Link NOC:Linear Regression Analysis and Forecasting Lecture 2 - Regression Model - A Statistical Tool
Link NOC:Linear Regression Analysis and Forecasting Lecture 3 - Simple Linear Regression Analysis
Link NOC:Linear Regression Analysis and Forecasting Lecture 4 - Estimation Of Parameters In Simple Linear Regression Model
Link NOC:Linear Regression Analysis and Forecasting Lecture 5 - Estimation Of Parameters In Simple Linear Regression Model (Continued...) : Some Nice Properties
Link NOC:Linear Regression Analysis and Forecasting Lecture 6 - Estimation Of Parameters In Simple Linear Regression Model (Continued...)
Link NOC:Linear Regression Analysis and Forecasting Lecture 7 - Maximum Likelihood Estimation of Parameters in Simple Linear Regression Model
Link NOC:Linear Regression Analysis and Forecasting Lecture 8 - Testing of Hypotheis and Confidence Interval Estimation in Simple Linear Regression Model
Link NOC:Linear Regression Analysis and Forecasting Lecture 9 - Testing of Hypotheis and Confidence Interval Estimation in Simple Linear Regression Model (Continued...)
Link NOC:Linear Regression Analysis and Forecasting Lecture 10 - Software Implementation in Simple Linear Regression Model using MINITAB
Link NOC:Linear Regression Analysis and Forecasting Lecture 11 - Multiple Linear Regression Model
Link NOC:Linear Regression Analysis and Forecasting Lecture 12 - Estimation of Model Parameters in Multiple Linear Regression Model
Link NOC:Linear Regression Analysis and Forecasting Lecture 13 - Estimation of Model Parameters in Multiple Linear Regression Model (Continued...)
Link NOC:Linear Regression Analysis and Forecasting Lecture 14 - Standardized Regression Coefficients and Testing of Hypothesis
Link NOC:Linear Regression Analysis and Forecasting Lecture 15 - Testing of Hypothesis (Continued...) and Goodness of Fit of the Model
Link NOC:Linear Regression Analysis and Forecasting Lecture 16 - Diagnostics in Multiple Linear Regression Model
Link NOC:Linear Regression Analysis and Forecasting Lecture 17 - Diagnostics in Multiple Linear Regression Model (Continued...)
Link NOC:Linear Regression Analysis and Forecasting Lecture 18 - Diagnostics in Multiple Linear Regression Model (Continued...)
Link NOC:Linear Regression Analysis and Forecasting Lecture 19 - Software Implementation of Multiple Linear Regression Model using MINITAB
Link NOC:Linear Regression Analysis and Forecasting Lecture 20 - Software Implementation of Multiple Linear Regression Model using MINITAB (Continued...)
Link NOC:Linear Regression Analysis and Forecasting Lecture 21 - Forecasting in Multiple Linear Regression Model
Link NOC:Linear Regression Analysis and Forecasting Lecture 22 - Within Sample Forecasting
Link NOC:Linear Regression Analysis and Forecasting Lecture 23 - Outside Sample Forecasting
Link NOC:Linear Regression Analysis and Forecasting Lecture 24 - Software Implementation of Forecasting using MINITAB
Link NOC:Introduction to R Software Lecture 1 - How to Learn and Follow the Course
Link NOC:Introduction to R Software Lecture 2 - Why R and Installation Procedure
Link NOC:Introduction to R Software Lecture 3 - Introduction _Help_ Demo examples_ packages_ libraries
Link NOC:Introduction to R Software Lecture 4 - Introduction _Command line_ Data editor _ Rstudio
Link NOC:Introduction to R Software Lecture 5 - Basics in Calculations
Link NOC:Introduction to R Software Lecture 6 - Basics of Calculations _ Calculator _Built in Functions Assignments
Link NOC:Introduction to R Software Lecture 7 - Basics of Calculations _Functions _Matrices
Link NOC:Introduction to R Software Lecture 8 - Basics Calculations: Matrix Operations
Link NOC:Introduction to R Software Lecture 9 - Basics Calculations: Matrix operations
Link NOC:Introduction to R Software Lecture 10 - Basics Calculations: Missing data and logical operators
Link NOC:Introduction to R Software Lecture 11 - Basics Calculations: Logical operators
Link NOC:Introduction to R Software Lecture 12 - Basics Calculations: Truth table and conditional executions
Link NOC:Introduction to R Software Lecture 13 - Basics Calculations: Conditional executions and loops
Link NOC:Introduction to R Software Lecture 14 - Basics Calculations: Loops
Link NOC:Introduction to R Software Lecture 15 - Data management - Sequences
Link NOC:Introduction to R Software Lecture 16 - Data management - sequences
Link NOC:Introduction to R Software Lecture 17 - Data management - Repeats
Link NOC:Introduction to R Software Lecture 18 - Data management - Sorting and Ordering
Link NOC:Introduction to R Software Lecture 19 - Data management - Lists
Link NOC:Introduction to R Software Lecture 20 - Data management - Lists (Continued...)
Link NOC:Introduction to R Software Lecture 21 - Data management - Vector indexing
Link NOC:Introduction to R Software Lecture 22 - Data management - Vector Indexing (Continued...)
Link NOC:Introduction to R Software Lecture 23 - Data management - Factors
Link NOC:Introduction to R Software Lecture 24 - Data management - factors (Continued...)
Link NOC:Introduction to R Software Lecture 25 - Strings - Display and Formatting, Print and Format Functions
Link NOC:Introduction to R Software Lecture 26 - Strings - Display and Formatting, Print and Format with Concatenate
Link NOC:Introduction to R Software Lecture 27 - Strings - Display and Formatting, Paste Function
Link NOC:Introduction to R Software Lecture 28 - Strings - Display and Formatting, Splitting
Link NOC:Introduction to R Software Lecture 29 - Strings - Display and Formatting, Replacement_ Manipulations _Alphabets
Link NOC:Introduction to R Software Lecture 30 - Strings - Display and Formatting, Replacement and Evaluation of Strings
Link NOC:Introduction to R Software Lecture 31 - Data frames
Link NOC:Introduction to R Software Lecture 32 - Data frames (Continued...)
Link NOC:Introduction to R Software Lecture 33 - Data frames (Continued...)
Link NOC:Introduction to R Software Lecture 34 - Data Handling - Importing CSV and Tabular Data Files
Link NOC:Introduction to R Software Lecture 35 - Data Handling - Importing Data Files from Other Software
Link NOC:Introduction to R Software Lecture 36 - Statistical Functions - Frequency and Partition values
Link NOC:Introduction to R Software Lecture 37 - Statistical Functions - Graphics and Plots
Link NOC:Introduction to R Software Lecture 38 - Statistical Functions - Central Tendency and Variation
Link NOC:Introduction to R Software Lecture 39 - Statistical Functions - Boxplots, Skewness and Kurtosis
Link NOC:Introduction to R Software Lecture 40 - Statistical Functions - Bivariate three dimensional plot
Link NOC:Introduction to R Software Lecture 41 - Statistical Functions - Correlation and Examples of Programming
Link NOC:Introduction to R Software Lecture 42 - Examples of Programming
Link NOC:Introduction to R Software Lecture 43 - Examples of More Programming
Link NOC:Descriptive Statistics with R Software Lecture 1 - Introduction to R Software
Link NOC:Descriptive Statistics with R Software Lecture 2 - Basics and R as a Calculator
Link NOC:Descriptive Statistics with R Software Lecture 3 - Calculations with Data Vectors
Link NOC:Descriptive Statistics with R Software Lecture 4 - Built-in Commands and Missing Data Handling
Link NOC:Descriptive Statistics with R Software Lecture 5 - Operations with Matrices
Link NOC:Descriptive Statistics with R Software Lecture 6 - Objectives, Steps and Basic Definitions
Link NOC:Descriptive Statistics with R Software Lecture 7 - Variables and Types of Data
Link NOC:Descriptive Statistics with R Software Lecture 8 - Absolute Frequency, Relative Frequency and Frequency Distribution
Link NOC:Descriptive Statistics with R Software Lecture 9 - Frequency Distribution and Cumulative Distribution Function
Link NOC:Descriptive Statistics with R Software Lecture 10 - Bar Diagrams
Link NOC:Descriptive Statistics with R Software Lecture 11 - Subdivided Bar Plots and Pie Diagrams
Link NOC:Descriptive Statistics with R Software Lecture 12 - 3D Pie Diagram and Histogram
Link NOC:Descriptive Statistics with R Software Lecture 13 - Kernel Density and Stem - Leaf Plots
Link NOC:Descriptive Statistics with R Software Lecture 14 - Arithmetic Mean
Link NOC:Descriptive Statistics with R Software Lecture 15 - Median
Link NOC:Descriptive Statistics with R Software Lecture 16 - Quantiles
Link NOC:Descriptive Statistics with R Software Lecture 17 - Mode, Geometric Mean and Harmonic Mean
Link NOC:Descriptive Statistics with R Software Lecture 18 - Range, Interquartile Range and Quartile Deviation
Link NOC:Descriptive Statistics with R Software Lecture 19 - Absolute Deviation and Absolute Mean Deviation
Link NOC:Descriptive Statistics with R Software Lecture 20 - Mean Squared Error, Variance and Standard Deviation
Link NOC:Descriptive Statistics with R Software Lecture 21 - Coefficient of Variation and Boxplots
Link NOC:Descriptive Statistics with R Software Lecture 22 - Raw and Central Moments
Link NOC:Descriptive Statistics with R Software Lecture 23 - Sheppard's Correction, Absolute Moments and Computation of Moments
Link NOC:Descriptive Statistics with R Software Lecture 24 - Skewness and Kurtosis
Link NOC:Descriptive Statistics with R Software Lecture 25 - Univariate and Bivariate Scatter Plots
Link NOC:Descriptive Statistics with R Software Lecture 26 - Smooth Scatter Plots
Link NOC:Descriptive Statistics with R Software Lecture 27 - Quantile- Quantile and Three Dimensional Plots
Link NOC:Descriptive Statistics with R Software Lecture 28 - Correlation Coefficient
Link NOC:Descriptive Statistics with R Software Lecture 29 - Correlation Coefficient Using R Software
Link NOC:Descriptive Statistics with R Software Lecture 30 - Rank Correlation Coefficient
Link NOC:Descriptive Statistics with R Software Lecture 31 - Measures of Association for Discrete and Counting Variables - Part 1
Link NOC:Descriptive Statistics with R Software Lecture 32 - Measures of Association for Discrete and Counting Variables - Part 2
Link NOC:Descriptive Statistics with R Software Lecture 33 - Least Squares Method - One Variable
Link NOC:Descriptive Statistics with R Software Lecture 34 - Least Squares Method - R Commands and More than One Variables
Link NOC:Calculus of Several Real Variables Lecture 1 - Vectors in plane and space
Link NOC:Calculus of Several Real Variables Lecture 2 - Inner product and distance
Link NOC:Calculus of Several Real Variables Lecture 3 - Application to real world problems
Link NOC:Calculus of Several Real Variables Lecture 4 - Matrices and determinants
Link NOC:Calculus of Several Real Variables Lecture 5 - Cross product of two vectors
Link NOC:Calculus of Several Real Variables Lecture 6 - Higher dimensional Euclidean space
Link NOC:Calculus of Several Real Variables Lecture 7 - Functions of more than one real-variable
Link NOC:Calculus of Several Real Variables Lecture 8 - Partial derivatives and Continuity
Link NOC:Calculus of Several Real Variables Lecture 9 - Vector-valued maps and Jacobian matrix
Link NOC:Calculus of Several Real Variables Lecture 10 - Chain rule for partial derivatives
Link NOC:Calculus of Several Real Variables Lecture 11 - The Gradient Vector and Directional Derivative
Link NOC:Calculus of Several Real Variables Lecture 12 - The Implicit Function Theorem
Link NOC:Calculus of Several Real Variables Lecture 13 - Higher Order Partial Derivatives
Link NOC:Calculus of Several Real Variables Lecture 14 - Taylor's Theorem in Higher Dimension
Link NOC:Calculus of Several Real Variables Lecture 15 - Maxima and Minima for Several Variables
Link NOC:Calculus of Several Real Variables Lecture 16 - Second Derivative Test for Maximum and Minimum
Link NOC:Calculus of Several Real Variables Lecture 17 - Constrained Optimization and The Lagrange Multiplier Rule
Link NOC:Calculus of Several Real Variables Lecture 18 - Vector Valued Function and Classical Mechanics
Link NOC:Calculus of Several Real Variables Lecture 19 - Arc Length
Link NOC:Calculus of Several Real Variables Lecture 20 - Vector Fields
Link NOC:Calculus of Several Real Variables Lecture 21 - Multiple Integral - I
Link NOC:Calculus of Several Real Variables Lecture 22 - Multiple Integral - II
Link NOC:Calculus of Several Real Variables Lecture 23 - Multiple Integral - III
Link NOC:Calculus of Several Real Variables Lecture 24 - Multiple Integral - IV
Link NOC:Calculus of Several Real Variables Lecture 25 - Cylindrical and Spherical Coordinates
Link NOC:Calculus of Several Real Variables Lecture 26 - Multiple Integrals and Mechanics
Link NOC:Calculus of Several Real Variables Lecture 27 - Line Integral - I
Link NOC:Calculus of Several Real Variables Lecture 28 - Line Integral - II
Link NOC:Calculus of Several Real Variables Lecture 29 - Parametrized Surfaces
Link NOC:Calculus of Several Real Variables Lecture 30 - Area of a surface Integral
Link NOC:Calculus of Several Real Variables Lecture 31 - Area of parametrized surface
Link NOC:Calculus of Several Real Variables Lecture 32 - Surface Integrals
Link NOC:Calculus of Several Real Variables Lecture 33 - Green's Theorem
Link NOC:Calculus of Several Real Variables Lecture 34 - Stoke's Theorem
Link NOC:Calculus of Several Real Variables Lecture 35 - Examples of Stoke's Theorem
Link NOC:Calculus of Several Real Variables Lecture 36 - Gauss Divergence Theorem
Link NOC:Calculus of Several Real Variables Lecture 37 - Facts about vector fields
Link Advanced Engineering Mathematics Lecture 1 - Review Groups, Fields and Matrices
Link Advanced Engineering Mathematics Lecture 2 - Vector Spaces, Subspaces, Linearly Dependent/Independent of Vectors
Link Advanced Engineering Mathematics Lecture 3 - Basis, Dimension, Rank and Matrix Inverse
Link Advanced Engineering Mathematics Lecture 4 - Linear Transformation, Isomorphism and Matrix Representation
Link Advanced Engineering Mathematics Lecture 5 - System of Linear Equations, Eigenvalues and Eigenvectors
Link Advanced Engineering Mathematics Lecture 6 - Method to Find Eigenvalues and Eigenvectors, Diagonalization of Matrices
Link Advanced Engineering Mathematics Lecture 7 - Jordan Canonical Form, Cayley Hamilton Theorem
Link Advanced Engineering Mathematics Lecture 8 - Inner Product Spaces, Cauchy-Schwarz Inequality
Link Advanced Engineering Mathematics Lecture 9 - Orthogonality, Gram-Schmidt Orthogonalization Process
Link Advanced Engineering Mathematics Lecture 10 - Spectrum of special matrices,positive/negative definite matrices
Link Advanced Engineering Mathematics Lecture 11 - Concept of Domain, Limit, Continuity and Differentiability
Link Advanced Engineering Mathematics Lecture 12 - Analytic Functions, C-R Equations
Link Advanced Engineering Mathematics Lecture 13 - Harmonic Functions
Link Advanced Engineering Mathematics Lecture 14 - Line Integral in the Complex
Link Advanced Engineering Mathematics Lecture 15 - Cauchy Integral Theorem
Link Advanced Engineering Mathematics Lecture 16 - Cauchy Integral Theorem (Continued.)
Link Advanced Engineering Mathematics Lecture 17 - Cauchy Integral Formula
Link Advanced Engineering Mathematics Lecture 18 - Power and Taylor's Series of Complex Numbers
Link Advanced Engineering Mathematics Lecture 19 - Power and Taylor's Series of Complex Numbers (Continued.)
Link Advanced Engineering Mathematics Lecture 20 - Taylor's, Laurent Series of f(z) and Singularities
Link Advanced Engineering Mathematics Lecture 21 - Classification of Singularities, Residue and Residue Theorem
Link Advanced Engineering Mathematics Lecture 22 - Laplace Transform and its Existence
Link Advanced Engineering Mathematics Lecture 23 - Properties of Laplace Transform
Link Advanced Engineering Mathematics Lecture 24 - Evaluation of Laplace and Inverse Laplace Transform
Link Advanced Engineering Mathematics Lecture 25 - Applications of Laplace Transform to Integral Equations and ODEs
Link Advanced Engineering Mathematics Lecture 26 - Applications of Laplace Transform to PDEs
Link Advanced Engineering Mathematics Lecture 27 - Fourier Series
Link Advanced Engineering Mathematics Lecture 28 - Fourier Series (Continued.)
Link Advanced Engineering Mathematics Lecture 29 - Fourier Integral Representation of a Function
Link Advanced Engineering Mathematics Lecture 30 - Introduction to Fourier Transform
Link Advanced Engineering Mathematics Lecture 31 - Applications of Fourier Transform to PDEs
Link Advanced Engineering Mathematics Lecture 32 - Laws of Probability - I
Link Advanced Engineering Mathematics Lecture 33 - Laws of Probability - II
Link Advanced Engineering Mathematics Lecture 34 - Problems in Probability
Link Advanced Engineering Mathematics Lecture 35 - Random Variables
Link Advanced Engineering Mathematics Lecture 36 - Special Discrete Distributions
Link Advanced Engineering Mathematics Lecture 37 - Special Continuous Distributions
Link Advanced Engineering Mathematics Lecture 38 - Joint Distributions and Sampling Distributions
Link Advanced Engineering Mathematics Lecture 39 - Point Estimation
Link Advanced Engineering Mathematics Lecture 40 - Interval Estimation
Link Advanced Engineering Mathematics Lecture 41 - Basic Concepts of Testing of Hypothesis
Link Advanced Engineering Mathematics Lecture 42 - Tests for Normal Populations
Link Functional Analysis Lecture 1 - Metric Spaces with Examples
Link Functional Analysis Lecture 2 - Holder Inequality and Minkowski Inequality
Link Functional Analysis Lecture 3 - Various Concepts in a Metric Space
Link Functional Analysis Lecture 4 - Separable Metrics Spaces with Examples
Link Functional Analysis Lecture 5 - Convergence, Cauchy Sequence, Completeness
Link Functional Analysis Lecture 6 - Examples of Complete and Incomplete Metric Spaces
Link Functional Analysis Lecture 7 - Completion of Metric Spaces + Tutorial
Link Functional Analysis Lecture 8 - Vector Spaces with Examples
Link Functional Analysis Lecture 9 - Normed Spaces with Examples
Link Functional Analysis Lecture 10 - Banach Spaces and Schauder Basic
Link Functional Analysis Lecture 11 - Finite Dimensional Normed Spaces and Subspaces
Link Functional Analysis Lecture 12 - Compactness of Metric/Normed Spaces
Link Functional Analysis Lecture 13 - Linear Operators-definition and Examples
Link Functional Analysis Lecture 14 - Bounded Linear Operators in a Normed Space
Link Functional Analysis Lecture 15 - Bounded Linear Functionals in a Normed Space
Link Functional Analysis Lecture 16 - Concept of Algebraic Dual and Reflexive Space
Link Functional Analysis Lecture 17 - Dual Basis & Algebraic Reflexive Space
Link Functional Analysis Lecture 18 - Dual Spaces with Examples
Link Functional Analysis Lecture 19 - Tutorial - I
Link Functional Analysis Lecture 20 - Tutorial - II
Link Functional Analysis Lecture 21 - Inner Product & Hilbert Space
Link Functional Analysis Lecture 22 - Further Properties of Inner Product Spaces
Link Functional Analysis Lecture 23 - Projection Theorem, Orthonormal Sets and Sequences
Link Functional Analysis Lecture 24 - Representation of Functionals on a Hilbert Spaces
Link Functional Analysis Lecture 25 - Hilbert Adjoint Operator
Link Functional Analysis Lecture 26 - Self Adjoint, Unitary & Normal Operators
Link Functional Analysis Lecture 27 - Tutorial - III
Link Functional Analysis Lecture 28 - Annihilator in an IPS
Link Functional Analysis Lecture 29 - Total Orthonormal Sets And Sequences
Link Functional Analysis Lecture 30 - Partially Ordered Set and Zorns Lemma
Link Functional Analysis Lecture 31 - Hahn Banach Theorem for Real Vector Spaces
Link Functional Analysis Lecture 32 - Hahn Banach Theorem for Complex V.S. & Normed Spaces
Link Functional Analysis Lecture 33 - Baires Category & Uniform Boundedness Theorems
Link Functional Analysis Lecture 34 - Open Mapping Theorem
Link Functional Analysis Lecture 35 - Closed Graph Theorem
Link Functional Analysis Lecture 36 - Adjoint Operator
Link Functional Analysis Lecture 37 - Strong and Weak Convergence
Link Functional Analysis Lecture 38 - Convergence of Sequence of Operators and Functionals
Link Functional Analysis Lecture 39 - LP - Space
Link Functional Analysis Lecture 40 - LP - Space (Continued.)
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 1 - Motivation with few Examples
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 2 - Single - Step Methods for IVPs
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 3 - Analysis of Single Step Methods
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 4 - Runge - Kutta Methods for IVPs
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 5 - Higher Order Methods/Equations
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 6 - Error - Stability - Convergence of Single Step Methods
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 7 - Tutorial - I
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 8 - Tutorial - II
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 9 - Multi-Step Methods (Explicit)
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 10 - Multi-Step Methods (Implicit)
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 11 - Convergence and Stability of multi step methods
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 12 - General methods for absolute stability
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 13 - Stability Analysis of Multi Step Methods
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 14 - Predictor - Corrector Methods
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 15 - Some Comments on Multi - Step Methods
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 16 - Finite Difference Methods - Linear BVPs
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 17 - Linear/Non - Linear Second Order BVPs
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 18 - BVPS - Derivative Boundary Conditions
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 19 - Higher Order BVPs
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 20 - Shooting Method BVPs
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 21 - Tutorial - III
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 22 - Introduction to First Order PDE
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 23 - Introduction to Second Order PDE
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 24 - Finite Difference Approximations to Parabolic PDEs
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 25 - Implicit Methods for Parabolic PDEs
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 26 - Consistency, Stability and Convergence
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 27 - Other Numerical Methods for Parabolic PDEs
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 28 - Tutorial - IV
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 29 - Matrix Stability Analysis of Finite Difference Scheme
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 30 - Fourier Series Stability Analysis of Finite Difference Scheme
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 31 - Finite Difference Approximations to Elliptic PDEs - I
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 32 - Finite Difference Approximations to Elliptic PDEs - II
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 33 - Finite Difference Approximations to Elliptic PDEs - III
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 34 - Finite Difference Approximations to Elliptic PDEs - IV
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 35 - Finite Difference Approximations to Hyperbolic PDEs - I
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 36 - Finite Difference Approximations to Hyperbolic PDEs - II
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 37 - Method of characteristics for Hyperbolic PDEs - I
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 38 - Method of characterisitcs for Hyperbolic PDEs - II
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 39 - Finite Difference Approximations to 1st order Hyperbolic PDEs
Link Numerical methods of Ordinary and Partial Differential Equations Lecture 40 - Summary, Appendices, Remarks
Link Optimization Lecture 1 - Optimization - Introduction
Link Optimization Lecture 2 - Formulation of LPP
Link Optimization Lecture 3 - Geometry of LPP and Graphical Solution of LPP
Link Optimization Lecture 4 - Solution of LPP : Simplex Method
Link Optimization Lecture 5 - Big - M Method
Link Optimization Lecture 6 - Two - Phase Method
Link Optimization Lecture 7 - Special Cases in Simple Applications
Link Optimization Lecture 8 - Introduction to Duality Theory
Link Optimization Lecture 9 - Dual Simplex Method
Link Optimization Lecture 10 - Post Optimaility Analysis
Link Optimization Lecture 11 - Integer Programming - I
Link Optimization Lecture 12 - Integer Programming - II
Link Optimization Lecture 13 - Introduction to Transportation Problems
Link Optimization Lecture 14 - Solving Various types of Transportation Problems
Link Optimization Lecture 15 - Assignment Problems
Link Optimization Lecture 16 - Project Management
Link Optimization Lecture 17 - Critical Path Analysis
Link Optimization Lecture 18 - PERT
Link Optimization Lecture 19 - Shortest Path Algorithm
Link Optimization Lecture 20 - Travelling Salesman Problem
Link Optimization Lecture 21 - Classical optimization techniques : Single variable optimization
Link Optimization Lecture 22 - Unconstarined multivariable optimization
Link Optimization Lecture 23 - Nonlinear programming with equality constraint
Link Optimization Lecture 24 - Nonlinear programming KKT conditions
Link Optimization Lecture 25 - Numerical optimization : Region elimination techniques
Link Optimization Lecture 26 - Numerical optimization : Region elimination techniques (Continued.)
Link Optimization Lecture 27 - Fibonacci Method
Link Optimization Lecture 28 - Golden Section Methods
Link Optimization Lecture 29 - Interpolation Methods
Link Optimization Lecture 30 - Unconstarined optimization techniques : Direct search method
Link Optimization Lecture 31 - Unconstarined optimization techniques : Indirect search method
Link Optimization Lecture 32 - Nonlinear programming : constrained optimization techniques
Link Optimization Lecture 33 - Interior and Exterior penulty Function Method
Link Optimization Lecture 34 - Separable Programming Problem
Link Optimization Lecture 35 - Introduction to Geometric Programming
Link Optimization Lecture 36 - Constrained Geometric Programming Problem
Link Optimization Lecture 37 - Dynamic Programming Problem
Link Optimization Lecture 38 - Dynamic Programming Problem (Continued.)
Link Optimization Lecture 39 - Multi Objective Decision Making
Link Optimization Lecture 40 - Multi attribute decision making
Link Probability and Statistics Lecture 1 - Algebra of Sets - I
Link Probability and Statistics Lecture 2 - Algebra of Sets - II
Link Probability and Statistics Lecture 3 - Introduction to Probability
Link Probability and Statistics Lecture 4 - Laws of Probability - I
Link Probability and Statistics Lecture 5 - Laws of Probability - II
Link Probability and Statistics Lecture 6 - Problems in Probability
Link Probability and Statistics Lecture 7 - Random Variables
Link Probability and Statistics Lecture 8 - Probability Distributions
Link Probability and Statistics Lecture 9 - Characteristics of Distribution
Link Probability and Statistics Lecture 10 - Special Distributions - I
Link Probability and Statistics Lecture 11 - Special Distributions - II
Link Probability and Statistics Lecture 12 - Special Distributions - III
Link Probability and Statistics Lecture 13 - Special Distributions - IV
Link Probability and Statistics Lecture 14 - Special Distributions - V
Link Probability and Statistics Lecture 15 - Special Distributions - VI
Link Probability and Statistics Lecture 16 - Special Distributions - VII
Link Probability and Statistics Lecture 17 - Functions of a Random Variable
Link Probability and Statistics Lecture 18 - Joint Distributions - I
Link Probability and Statistics Lecture 19 - Joint Distributions - II
Link Probability and Statistics Lecture 20 - Joint Distributions - III
Link Probability and Statistics Lecture 21 - Joint Distributions - IV
Link Probability and Statistics Lecture 22 - Transformations of Random Vectors
Link Probability and Statistics Lecture 23 - Sampling Distributions - I
Link Probability and Statistics Lecture 24 - Sampling Distributions - II
Link Probability and Statistics Lecture 25 - Descriptive Statistics - I
Link Probability and Statistics Lecture 26 - Descriptive Statistics - II
Link Probability and Statistics Lecture 27 - Estimation - I
Link Probability and Statistics Lecture 28 - Estimation - II
Link Probability and Statistics Lecture 29 - Estimation - III
Link Probability and Statistics Lecture 30 - Estimation - IV
Link Probability and Statistics Lecture 31 - Estimation - V
Link Probability and Statistics Lecture 32 - Estimation - VI
Link Probability and Statistics Lecture 33 - Testing of Hypothesis - I
Link Probability and Statistics Lecture 34 - Testing of Hypothesis - II
Link Probability and Statistics Lecture 35 - Testing of Hypothesis - III
Link Probability and Statistics Lecture 36 - Testing of Hypothesis - IV
Link Probability and Statistics Lecture 37 - Testing of Hypothesis - V
Link Probability and Statistics Lecture 38 - Testing of Hypothesis - VI
Link Probability and Statistics Lecture 39 - Testing of Hypothesis - VII
Link Probability and Statistics Lecture 40 - Testing of Hypothesis - VIII
Link Regression Analysis Lecture 1 - Simple Linear Regression
Link Regression Analysis Lecture 2 - Simple Linear Regression (Continued...1)
Link Regression Analysis Lecture 3 - Simple Linear Regression (Continued...2)
Link Regression Analysis Lecture 4 - Simple Linear Regression (Continued...3)
Link Regression Analysis Lecture 5 - Simple Linear Regression (Continued...4)
Link Regression Analysis Lecture 6 - Multiple Linear Regression
Link Regression Analysis Lecture 7 - Multiple Linear Regression (Continued...1)
Link Regression Analysis Lecture 8 - Multiple Linear Regression (Continued...2)
Link Regression Analysis Lecture 9 - Multiple Linear Regression (Continued...3)
Link Regression Analysis Lecture 10 - Selecting the BEST Regression model
Link Regression Analysis Lecture 11 - Selecting the BEST Regression model (Continued...1)
Link Regression Analysis Lecture 12 - Selecting the BEST Regression model (Continued...2)
Link Regression Analysis Lecture 13 - Selecting the BEST Regression model (Continued...3)
Link Regression Analysis Lecture 14 - Multicollinearity
Link Regression Analysis Lecture 15 - Multicollinearity (Continued...1)
Link Regression Analysis Lecture 16 - Multicollinearity (Continued...2)
Link Regression Analysis Lecture 17 - Model Adequacy Checking
Link Regression Analysis Lecture 18 - Model Adequacy Checking (Continued...1)
Link Regression Analysis Lecture 19 - Model Adequacy Checking (Continued...2)
Link Regression Analysis Lecture 20 - Test for Influential Observations
Link Regression Analysis Lecture 21 - Transformations and Weighting to correct model inadequacies
Link Regression Analysis Lecture 22 - Transformations and Weighting to correct model inadequacies (Continued...1)
Link Regression Analysis Lecture 23 - Transformations and Weighting to correct model inadequacies (Continued...2)
Link Regression Analysis Lecture 24 - Dummy Variables
Link Regression Analysis Lecture 25 - Dummy Variables (Continued...1)
Link Regression Analysis Lecture 26 - Dummy Variables (Continued...2)
Link Regression Analysis Lecture 27 - Polynomial Regression Models
Link Regression Analysis Lecture 28 - Polynomial Regression Models (Continued...1)
Link Regression Analysis Lecture 29 - Polynomial Regression Models (Continued...2)
Link Regression Analysis Lecture 30 - Generalized Linear Models
Link Regression Analysis Lecture 31 - Generalized Linear Models (Continued.)
Link Regression Analysis Lecture 32 - Non-Linear Estimation
Link Regression Analysis Lecture 33 - Regression Models with Autocorrelated Errors
Link Regression Analysis Lecture 34 - Regression Models with Autocorrelated Errors (Continued.)
Link Regression Analysis Lecture 35 - Measurement Errors & Calibration Problem
Link Regression Analysis Lecture 36 - Tutorial - I
Link Regression Analysis Lecture 37 - Tutorial - II
Link Regression Analysis Lecture 38 - Tutorial - III
Link Regression Analysis Lecture 39 - Tutorial - IV
Link Regression Analysis Lecture 40 - Tutorial - V
Link Statistical Inference Lecture 1 - Introduction and Motivation
Link Statistical Inference Lecture 2 - Basic Concepts of Point Estimations - I
Link Statistical Inference Lecture 3 - Basic Concepts of Point Estimations - II
Link Statistical Inference Lecture 4 - Finding Estimators - I
Link Statistical Inference Lecture 5 - Finding Estimators - II
Link Statistical Inference Lecture 6 - Finding Estimators - III
Link Statistical Inference Lecture 7 - Properties of MLEs
Link Statistical Inference Lecture 8 - Lower Bounds for Variance - I
Link Statistical Inference Lecture 9 - Lower Bounds for Variance - II
Link Statistical Inference Lecture 10 - Lower Bounds for Variance - III
Link Statistical Inference Lecture 11 - Lower Bounds for Variance - IV
Link Statistical Inference Lecture 12 - Sufficiency
Link Statistical Inference Lecture 13 - Sufficiency and Information
Link Statistical Inference Lecture 14 - Minimal Sufficiency, Completeness
Link Statistical Inference Lecture 15 - UMVU Estimation, Ancillarity
Link Statistical Inference Lecture 16 - Invariance - I
Link Statistical Inference Lecture 17 - Invariance - II
Link Statistical Inference Lecture 18 - Bayes and Minimax Estimation - I
Link Statistical Inference Lecture 19 - Bayes and Minimax Estimation - II
Link Statistical Inference Lecture 20 - Bayes and Minimax Estimation - III
Link Statistical Inference Lecture 21 - Testing of Hypotheses : Basic Concepts
Link Statistical Inference Lecture 22 - Neyman Pearson Fundamental Lemma
Link Statistical Inference Lecture 23 - Applications of NP lemma
Link Statistical Inference Lecture 24 - UMP Tests
Link Statistical Inference Lecture 25 - UMP Tests (Continued.)
Link Statistical Inference Lecture 26 - UMP Unbiased Tests
Link Statistical Inference Lecture 27 - UMP Unbiased Tests (Continued.)
Link Statistical Inference Lecture 28 - UMP Unbiased Tests : Applications
Link Statistical Inference Lecture 29 - Unbiased Tests for Normal Populations
Link Statistical Inference Lecture 30 - Unbiased Tests for Normal Populations (Continued.)
Link Statistical Inference Lecture 31 - Likelihood Ratio Tests - I
Link Statistical Inference Lecture 32 - Likelihood Ratio Tests - II
Link Statistical Inference Lecture 33 - Likelihood Ratio Tests - III
Link Statistical Inference Lecture 34 - Likelihood Ratio Tests - IV
Link Statistical Inference Lecture 35 - Invariant Tests
Link Statistical Inference Lecture 36 - Test for Goodness of Fit
Link Statistical Inference Lecture 37 - Sequential Procedure
Link Statistical Inference Lecture 38 - Sequential Procedure (Continued.)
Link Statistical Inference Lecture 39 - Confidence Intervals
Link Statistical Inference Lecture 40 - Confidence Intervals (Continued.)
Link A Basic Course in Real Analysis Lecture 1 - Rational Numbers and Rational Cuts
Link A Basic Course in Real Analysis Lecture 2 - Irrational numbers, Dedekind's Theorem
Link A Basic Course in Real Analysis Lecture 3 - Continuum and Exercises
Link A Basic Course in Real Analysis Lecture 4 - Continuum and Exercises (Continued.)
Link A Basic Course in Real Analysis Lecture 5 - Cantor's Theory of Irrational Numbers
Link A Basic Course in Real Analysis Lecture 6 - Cantor's Theory of Irrational Numbers (Continued.)
Link A Basic Course in Real Analysis Lecture 7 - Equivalence of Dedekind and Cantor's Theory
Link A Basic Course in Real Analysis Lecture 8 - Finite, Infinite, Countable and Uncountable Sets of Real Numbers
Link A Basic Course in Real Analysis Lecture 9 - Types of Sets with Examples, Metric Space
Link A Basic Course in Real Analysis Lecture 10 - Various properties of open set, closure of a set
Link A Basic Course in Real Analysis Lecture 11 - Ordered set, Least upper bound, greatest lower bound of a set
Link A Basic Course in Real Analysis Lecture 12 - Compact Sets and its properties
Link A Basic Course in Real Analysis Lecture 13 - Weiersstrass Theorem, Heine Borel Theorem, Connected set
Link A Basic Course in Real Analysis Lecture 14 - Tutorial - II
Link A Basic Course in Real Analysis Lecture 15 - Concept of limit of a sequence
Link A Basic Course in Real Analysis Lecture 16 - Some Important limits, Ratio tests for sequences of Real Numbers
Link A Basic Course in Real Analysis Lecture 17 - Cauchy theorems on limit of sequences with examples
Link A Basic Course in Real Analysis Lecture 18 - Fundamental theorems on limits, Bolzano-Weiersstrass Theorem
Link A Basic Course in Real Analysis Lecture 19 - Theorems on Convergent and divergent sequences
Link A Basic Course in Real Analysis Lecture 20 - Cauchy sequence and its properties
Link A Basic Course in Real Analysis Lecture 21 - Infinite series of real numbers
Link A Basic Course in Real Analysis Lecture 22 - Comparison tests for series, Absolutely convergent and Conditional convergent series
Link A Basic Course in Real Analysis Lecture 23 - Tests for absolutely convergent series
Link A Basic Course in Real Analysis Lecture 24 - Raabe's test, limit of functions, Cluster point
Link A Basic Course in Real Analysis Lecture 25 - Some results on limit of functions
Link A Basic Course in Real Analysis Lecture 26 - Limit Theorems for functions
Link A Basic Course in Real Analysis Lecture 27 - Extension of limit concept (one sided limits)
Link A Basic Course in Real Analysis Lecture 28 - Continuity of Functions
Link A Basic Course in Real Analysis Lecture 29 - Properties of Continuous Functions
Link A Basic Course in Real Analysis Lecture 30 - Boundedness Theorem, Max-Min Theorem and Bolzano's theorem
Link A Basic Course in Real Analysis Lecture 31 - Uniform Continuity and Absolute Continuity
Link A Basic Course in Real Analysis Lecture 32 - Types of Discontinuities, Continuity and Compactness
Link A Basic Course in Real Analysis Lecture 33 - Continuity and Compactness (Continued.), Connectedness
Link A Basic Course in Real Analysis Lecture 34 - Differentiability of real valued function, Mean Value Theorem
Link A Basic Course in Real Analysis Lecture 35 - Mean Value Theorem (Continued.)
Link A Basic Course in Real Analysis Lecture 36 - Application of MVT , Darboux Theorem, L Hospital Rule
Link A Basic Course in Real Analysis Lecture 37 - L'Hospital Rule and Taylor's Theorem
Link A Basic Course in Real Analysis Lecture 38 - Tutorial - III
Link A Basic Course in Real Analysis Lecture 39 - Riemann/Riemann Stieltjes Integral
Link A Basic Course in Real Analysis Lecture 40 - Existence of Reimann Stieltjes Integral
Link A Basic Course in Real Analysis Lecture 41 - Properties of Reimann Stieltjes Integral
Link A Basic Course in Real Analysis Lecture 42 - Properties of Reimann Stieltjes Integral (Continued.)
Link A Basic Course in Real Analysis Lecture 43 - Definite and Indefinite Integral
Link A Basic Course in Real Analysis Lecture 44 - Fundamental Theorems of Integral Calculus
Link A Basic Course in Real Analysis Lecture 45 - Improper Integrals
Link A Basic Course in Real Analysis Lecture 46 - Convergence Test for Improper Integrals
Link Statistical Methods for Scientists and Engineers Lecture 1 - Foundations of Probability
Link Statistical Methods for Scientists and Engineers Lecture 2 - Laws of Probability
Link Statistical Methods for Scientists and Engineers Lecture 3 - Random Variables
Link Statistical Methods for Scientists and Engineers Lecture 4 - Moments and Special Distributions
Link Statistical Methods for Scientists and Engineers Lecture 5 - Moments and Special Distributions (Continued...)
Link Statistical Methods for Scientists and Engineers Lecture 6 - Special Distributions (Continued...)
Link Statistical Methods for Scientists and Engineers Lecture 7 - Special Distributions (Continued...)
Link Statistical Methods for Scientists and Engineers Lecture 8 - Sampling Distributions
Link Statistical Methods for Scientists and Engineers Lecture 9 - Parametric Methods - I
Link Statistical Methods for Scientists and Engineers Lecture 10 - Parametric Methods - II
Link Statistical Methods for Scientists and Engineers Lecture 11 - Parametric Methods - III
Link Statistical Methods for Scientists and Engineers Lecture 12 - Parametric Methods - IV
Link Statistical Methods for Scientists and Engineers Lecture 13 - Parametric Methods - V
Link Statistical Methods for Scientists and Engineers Lecture 14 - Parametric Methods - VI
Link Statistical Methods for Scientists and Engineers Lecture 15 - Parametric Methods - VII
Link Statistical Methods for Scientists and Engineers Lecture 16 - Multivariate Analysis - I
Link Statistical Methods for Scientists and Engineers Lecture 17 - Multivariate Analysis - II
Link Statistical Methods for Scientists and Engineers Lecture 18 - Multivariate Analysis - III
Link Statistical Methods for Scientists and Engineers Lecture 19 - Multivariate Analysis - IV
Link Statistical Methods for Scientists and Engineers Lecture 20 - Multivariate Analysis - V
Link Statistical Methods for Scientists and Engineers Lecture 21 - Multivariate Analysis - VI
Link Statistical Methods for Scientists and Engineers Lecture 22 - Multivariate Analysis - VII
Link Statistical Methods for Scientists and Engineers Lecture 23 - Multivariate Analysis - VIII
Link Statistical Methods for Scientists and Engineers Lecture 24 - Multivariate Analysis - IX
Link Statistical Methods for Scientists and Engineers Lecture 25 - Multivariate Analysis - X
Link Statistical Methods for Scientists and Engineers Lecture 26 - Multivariate Analysis - XI
Link Statistical Methods for Scientists and Engineers Lecture 27 - Multivariate Analysis - XII
Link Statistical Methods for Scientists and Engineers Lecture 28 - Non parametric Methods - I
Link Statistical Methods for Scientists and Engineers Lecture 29 - Non parametric Methods - II
Link Statistical Methods for Scientists and Engineers Lecture 30 - Non parametric Methods - III
Link Statistical Methods for Scientists and Engineers Lecture 31 - Non parametric Methods - IV
Link Statistical Methods for Scientists and Engineers Lecture 32 - Nonparametric Methods - V
Link Statistical Methods for Scientists and Engineers Lecture 33 - Nonparametric Methods - VI
Link Statistical Methods for Scientists and Engineers Lecture 34 - Nonparametric Methods - VII
Link Statistical Methods for Scientists and Engineers Lecture 35 - Nonparametric Methods - VIII
Link Statistical Methods for Scientists and Engineers Lecture 36 - Nonparametric Methods - IX
Link Statistical Methods for Scientists and Engineers Lecture 37 - Nonparametric Methods - X
Link Statistical Methods for Scientists and Engineers Lecture 38 - Nonparametric Methods - XI
Link Statistical Methods for Scientists and Engineers Lecture 39 - Nonparametric Methods - XII
Link Statistical Methods for Scientists and Engineers Lecture 40 - Nonparametric Methods - XIII
Link NOC:Probability and Statistics Lecture 1 - Sets, Classes, Collection
Link NOC:Probability and Statistics Lecture 2 - Sequence of Sets
Link NOC:Probability and Statistics Lecture 3 - Ring, Field (Algebra)
Link NOC:Probability and Statistics Lecture 4 - Sigma-Ring, Sigma-Field, Monotone Class
Link NOC:Probability and Statistics Lecture 5 - Random Experiment, Events
Link NOC:Probability and Statistics Lecture 6 - Definitions of Probability
Link NOC:Probability and Statistics Lecture 7 - Properties of Probability Function - I
Link NOC:Probability and Statistics Lecture 8 - Properties of Probability Function - II
Link NOC:Probability and Statistics Lecture 9 - Conditional Probability
Link NOC:Probability and Statistics Lecture 10 - Independence of Events
Link NOC:Probability and Statistics Lecture 11 - Problems in Probability - I
Link NOC:Probability and Statistics Lecture 12 - Problems in Probability - II
Link NOC:Probability and Statistics Lecture 13 - Random Variables
Link NOC:Probability and Statistics Lecture 14 - Probability Distribution of a Random Variable - I
Link NOC:Probability and Statistics Lecture 15 - Probability Distribution of a Random Variable - II
Link NOC:Probability and Statistics Lecture 16 - Moments
Link NOC:Probability and Statistics Lecture 17 - Characteristics of Distributions - I
Link NOC:Probability and Statistics Lecture 18 - Characteristics of Distributions - II
Link NOC:Probability and Statistics Lecture 19 - Special Discrete Distributions - I
Link NOC:Probability and Statistics Lecture 20 - Special Discrete Distributions - II
Link NOC:Probability and Statistics Lecture 21 - Special Discrete Distributions - III
Link NOC:Probability and Statistics Lecture 22 - Poisson Process - I
Link NOC:Probability and Statistics Lecture 23 - Poisson Process - II
Link NOC:Probability and Statistics Lecture 24 - Special Continuous Distributions - I
Link NOC:Probability and Statistics Lecture 25 - Special Continuous Distributions - II
Link NOC:Probability and Statistics Lecture 26 - Special Continuous Distributions - III
Link NOC:Probability and Statistics Lecture 27 - Special Continuous Distributions - IV
Link NOC:Probability and Statistics Lecture 28 - Special Continuous Distributions - V
Link NOC:Probability and Statistics Lecture 29 - Normal Distribution
Link NOC:Probability and Statistics Lecture 30 - Problems on Normal Distribution
Link NOC:Probability and Statistics Lecture 31 - Problems on Special Distributions - I
Link NOC:Probability and Statistics Lecture 32 - Problems on Special Distributions - II
Link NOC:Probability and Statistics Lecture 33 - Function of a random variable - I
Link NOC:Probability and Statistics Lecture 34 - Function of a random variable - II
Link NOC:Probability and Statistics Lecture 35 - Joint Distributions - I
Link NOC:Probability and Statistics Lecture 36 - Joint Distributions - II
Link NOC:Probability and Statistics Lecture 37 - Independence, Product Moments
Link NOC:Probability and Statistics Lecture 38 - Linearity Property of Correlation and Examples
Link NOC:Probability and Statistics Lecture 39 - Bivariate Normal Distribution - I
Link NOC:Probability and Statistics Lecture 40 - Bivariate Normal Distribution - II
Link NOC:Probability and Statistics Lecture 41 - Additive Properties of Distributions - I
Link NOC:Probability and Statistics Lecture 42 - Additive Properties of Distributions - II
Link NOC:Probability and Statistics Lecture 43 - Transformation of Random Variables
Link NOC:Probability and Statistics Lecture 44 - Distribution of Order Statistics
Link NOC:Probability and Statistics Lecture 45 - Basic Concepts
Link NOC:Probability and Statistics Lecture 46 - Chi-Square Distribution
Link NOC:Probability and Statistics Lecture 47 - Chi-Square Distribution (Continued...), t-Distribution
Link NOC:Probability and Statistics Lecture 48 - F-Distribution
Link NOC:Probability and Statistics Lecture 49 - Descriptive Statistics - I
Link NOC:Probability and Statistics Lecture 50 - Descriptive Statistics - II
Link NOC:Probability and Statistics Lecture 51 - Descriptive Statistics - III
Link NOC:Probability and Statistics Lecture 52 - Descriptive Statistics - IV
Link NOC:Probability and Statistics Lecture 53 - Introduction to Estimation
Link NOC:Probability and Statistics Lecture 54 - Unbiased and Consistent Estimators
Link NOC:Probability and Statistics Lecture 55 - LSE, MME
Link NOC:Probability and Statistics Lecture 56 - Examples on MME, MLE
Link NOC:Probability and Statistics Lecture 57 - Examples on MLE - I
Link NOC:Probability and Statistics Lecture 58 - Examples on MLE - II, MSE
Link NOC:Probability and Statistics Lecture 59 - UMVUE, Sufficiency, Completeness
Link NOC:Probability and Statistics Lecture 60 - Rao - Blackwell Theorem and Its Applications
Link NOC:Probability and Statistics Lecture 61 - Confidence Intervals - I
Link NOC:Probability and Statistics Lecture 62 - Confidence Intervals - II
Link NOC:Probability and Statistics Lecture 63 - Confidence Intervals - III
Link NOC:Probability and Statistics Lecture 64 - Confidence Intervals - IV
Link NOC:Probability and Statistics Lecture 65 - Basic Definitions
Link NOC:Probability and Statistics Lecture 66 - Two Types of Errors
Link NOC:Probability and Statistics Lecture 67 - Neyman-Pearson Fundamental Lemma
Link NOC:Probability and Statistics Lecture 68 - Applications of N-P Lemma - I
Link NOC:Probability and Statistics Lecture 69 - Applications of N-P Lemma - II
Link NOC:Probability and Statistics Lecture 70 - Testing for Normal Mean
Link NOC:Probability and Statistics Lecture 71 - Testing for Normal Variance
Link NOC:Probability and Statistics Lecture 72 - Large Sample Test for Variance and Two Sample Problem
Link NOC:Probability and Statistics Lecture 73 - Paired t-Test
Link NOC:Probability and Statistics Lecture 74 - Examples
Link NOC:Probability and Statistics Lecture 75 - Testing Equality of Proportions
Link NOC:Probability and Statistics Lecture 76 - Chi-Square Test for Goodness Fit - I
Link NOC:Probability and Statistics Lecture 77 - Chi-Square Test for Goodness Fit - II
Link NOC:Probability and Statistics Lecture 78 - Testing for Independence in rxc Contingency Table - I
Link NOC:Probability and Statistics Lecture 79 - Testing for Independence in rxc Contingency Table - II
Link NOC:Applied Multivariate Statistical Modeling Lecture 1 - Introduction to multivariate statistical modeling - Part-I
Link NOC:Applied Multivariate Statistical Modeling Lecture 2 - Introduction to multivariate statistical modeling - Part-II
Link NOC:Applied Multivariate Statistical Modeling Lecture 3 - Univariate descriptive statistics
Link NOC:Applied Multivariate Statistical Modeling Lecture 4 - Sampling Distribution
Link NOC:Applied Multivariate Statistical Modeling Lecture 5 - Estimation - Part-I
Link NOC:Applied Multivariate Statistical Modeling Lecture 6 - Estimation - Part-II
Link NOC:Applied Multivariate Statistical Modeling Lecture 7 - Hypothesis Testing
Link NOC:Applied Multivariate Statistical Modeling Lecture 8 - Introduction to multivariate statistical modeling - Part-I
Link NOC:Applied Multivariate Statistical Modeling Lecture 9 - Introduction to multivariate statistical modeling - Part-II
Link NOC:Applied Multivariate Statistical Modeling Lecture 10 - Multivariate Normal Distribution
Link NOC:Applied Multivariate Statistical Modeling Lecture 11 - Multivariate Normal Distribution (Continued...)
Link NOC:Applied Multivariate Statistical Modeling Lecture 12 - ANOVA - Part-I
Link NOC:Applied Multivariate Statistical Modeling Lecture 13 - ANOVA - Part-II
Link NOC:Applied Multivariate Statistical Modeling Lecture 14 - Multivariate Analysis of Variance (MANOVA)
Link NOC:Applied Multivariate Statistical Modeling Lecture 15 - Multivariate Analysis of Variance (MANOVA) (Continued...)
Link NOC:Applied Multivariate Statistical Modeling Lecture 16 - Multiple Regression - Introduction
Link NOC:Applied Multivariate Statistical Modeling Lecture 17 - MLR Sampling Distribution of Regression Coefficients
Link NOC:Applied Multivariate Statistical Modeling Lecture 18 - MLR-Model Adequacy Tests
Link NOC:Applied Multivariate Statistical Modeling Lecture 19 - MLR - Test of Assumptions
Link NOC:Applied Multivariate Statistical Modeling Lecture 20 - MLR - Model Diagnostics
Link NOC:Applied Multivariate Statistical Modeling Lecture 21 - Principal Component Analysis (PCA)
Link NOC:Applied Multivariate Statistical Modeling Lecture 22 - Principal Component Analysis (PCA) : Model Adequacy and Interpretation
Link NOC:Applied Multivariate Statistical Modeling Lecture 23 - Factor Analysis
Link NOC:Applied Multivariate Statistical Modeling Lecture 24 - Factor Analysis - Estimation and Model Adequacy Testing
Link NOC:Applied Multivariate Statistical Modeling Lecture 25 - Factor Analysis - Model Adequacy, Rotation, Factor Scores and Case Study
Link NOC:Applied Multivariate Statistical Modeling Lecture 26 - Introduction to Structural Equation Modeling
Link NOC:Applied Multivariate Statistical Modeling Lecture 27 - SEM - Measurement Model
Link NOC:Applied Multivariate Statistical Modeling Lecture 28 - SEM - Structural Model
Link NOC:Partial Differential Equations (PDE) for Engineers - Solution by Separation of Variables Lecture 1 - Introduction to PDE
Link NOC:Partial Differential Equations (PDE) for Engineers - Solution by Separation of Variables Lecture 2 - Classification of PDE
Link NOC:Partial Differential Equations (PDE) for Engineers - Solution by Separation of Variables Lecture 3 - Principle of Linear Superposition
Link NOC:Partial Differential Equations (PDE) for Engineers - Solution by Separation of Variables Lecture 4 - Standard Eigen Value Problem and Special ODEs
Link NOC:Partial Differential Equations (PDE) for Engineers - Solution by Separation of Variables Lecture 5 - Adjoint Operator
Link NOC:Partial Differential Equations (PDE) for Engineers - Solution by Separation of Variables Lecture 6 - Generalized Sturm - Louiville Problem
Link NOC:Partial Differential Equations (PDE) for Engineers - Solution by Separation of Variables Lecture 7 - Properties of Adjoint Operator
Link NOC:Partial Differential Equations (PDE) for Engineers - Solution by Separation of Variables Lecture 8 - Separation of Variables: Rectangular Coordinate Systems
Link NOC:Partial Differential Equations (PDE) for Engineers - Solution by Separation of Variables Lecture 9 - Solution of 3 Dimensional Parabolic Problem
Link NOC:Partial Differential Equations (PDE) for Engineers - Solution by Separation of Variables Lecture 10 - Solution of 4 Dimensional Parabolic problem
Link NOC:Partial Differential Equations (PDE) for Engineers - Solution by Separation of Variables Lecture 11 - Solution of 4 Dimensional Parabolic Problem (Continued...)
Link NOC:Partial Differential Equations (PDE) for Engineers - Solution by Separation of Variables Lecture 12 - Solution of Elliptical PDE
Link NOC:Partial Differential Equations (PDE) for Engineers - Solution by Separation of Variables Lecture 13 - Solution of Hyperbolic PDE
Link NOC:Partial Differential Equations (PDE) for Engineers - Solution by Separation of Variables Lecture 14 - Orthogonality of Bessel Function and 2 Dimensional Cylindrical Coordinate System
Link NOC:Partial Differential Equations (PDE) for Engineers - Solution by Separation of Variables Lecture 15 - Cylindrical Co-ordinate System - 3 Dimensional Problem
Link NOC:Partial Differential Equations (PDE) for Engineers - Solution by Separation of Variables Lecture 16 - Spherical Polar Coordinate System
Link NOC:Partial Differential Equations (PDE) for Engineers - Solution by Separation of Variables Lecture 17 - Spherical Polar Coordinate System (Continued...)
Link NOC:Partial Differential Equations (PDE) for Engineers - Solution by Separation of Variables Lecture 18 - Example of Generalized 3 Dimensional Problem
Link NOC:Partial Differential Equations (PDE) for Engineers - Solution by Separation of Variables Lecture 19 - Example of Application Oriented Problems
Link NOC:Partial Differential Equations (PDE) for Engineers - Solution by Separation of Variables Lecture 20 - Examples of Application Oriented Problems (Continued...)
Link NOC:Introductory Course in Real Analysis Lecture 1 - Countable and Uncountable sets
Link NOC:Introductory Course in Real Analysis Lecture 2 - Properties of Countable and Uncountable sets
Link NOC:Introductory Course in Real Analysis Lecture 3 - Examples of Countable and Uncountable sets
Link NOC:Introductory Course in Real Analysis Lecture 4 - Concepts of Metric Space
Link NOC:Introductory Course in Real Analysis Lecture 5 - Open ball, Closed ball, Limit point of a set
Link NOC:Introductory Course in Real Analysis Lecture 6 - Tutorial-I
Link NOC:Introductory Course in Real Analysis Lecture 7 - Some theorems on Open and Closed sets
Link NOC:Introductory Course in Real Analysis Lecture 8 - Ordered set, Least upper bound, Greatest lower bound of a set
Link NOC:Introductory Course in Real Analysis Lecture 9 - Ordered set, Least upper bound, Greatest lower bound of a set (Continued...)
Link NOC:Introductory Course in Real Analysis Lecture 10 - Compact Set
Link NOC:Introductory Course in Real Analysis Lecture 11 - Properties of Compact sets
Link NOC:Introductory Course in Real Analysis Lecture 12 - Tutorial-II
Link NOC:Introductory Course in Real Analysis Lecture 13 - Heine Borel Theorem
Link NOC:Introductory Course in Real Analysis Lecture 14 - Weierstrass Theorem
Link NOC:Introductory Course in Real Analysis Lecture 15 - Cantor set and its properties
Link NOC:Introductory Course in Real Analysis Lecture 16 - Derived set and Dense set
Link NOC:Introductory Course in Real Analysis Lecture 17 - Limit of a sequence and monotone sequence
Link NOC:Introductory Course in Real Analysis Lecture 18 - Tutorial-III
Link NOC:Introductory Course in Real Analysis Lecture 19 - Some Important limits of sequences
Link NOC:Introductory Course in Real Analysis Lecture 20 - Ratio Test Cauchy’s theorems on limits of sequences of real numbers
Link NOC:Introductory Course in Real Analysis Lecture 21 - Fundamental theorems on limits
Link NOC:Introductory Course in Real Analysis Lecture 22 - Some results on limits and Bolzano-Weierstrass Theorem
Link NOC:Introductory Course in Real Analysis Lecture 23 - Criteria for convergent sequence
Link NOC:Introductory Course in Real Analysis Lecture 24 - Tutorial-IV
Link NOC:Introductory Course in Real Analysis Lecture 25 - Criteria for Divergent Sequence
Link NOC:Introductory Course in Real Analysis Lecture 26 - Cauchy Sequence
Link NOC:Introductory Course in Real Analysis Lecture 27 - Cauchy Convergence Criteria for Sequences
Link NOC:Introductory Course in Real Analysis Lecture 28 - Infinite Series of Real Numbers
Link NOC:Introductory Course in Real Analysis Lecture 29 - Convergence Criteria for Series of Positive Real Numbers
Link NOC:Introductory Course in Real Analysis Lecture 30 - Tutorial-V
Link NOC:Introductory Course in Real Analysis Lecture 31 - Comparison Test for Series
Link NOC:Introductory Course in Real Analysis Lecture 32 - Absolutely and Conditionally Convergent Series
Link NOC:Introductory Course in Real Analysis Lecture 33 - Rearrangement Theorem and Test for Convergence of Series
Link NOC:Introductory Course in Real Analysis Lecture 34 - Ratio and Integral Test for Convergence of Series
Link NOC:Introductory Course in Real Analysis Lecture 35 - Raabe's Test for Convergence of Series
Link NOC:Introductory Course in Real Analysis Lecture 36 - Tutorial-VI
Link NOC:Introductory Course in Real Analysis Lecture 37 - Limit of Functions and Cluster Point
Link NOC:Introductory Course in Real Analysis Lecture 38 - Limit of Functions (Continued...)
Link NOC:Introductory Course in Real Analysis Lecture 39 - Divergence Criteria for Limit
Link NOC:Introductory Course in Real Analysis Lecture 40 - Various Properties of Limit of Functions
Link NOC:Introductory Course in Real Analysis Lecture 41 - Left and Right Hand Limits for Functions
Link NOC:Introductory Course in Real Analysis Lecture 42 - Tutorial-VII
Link NOC:Introductory Course in Real Analysis Lecture 43 - Limit of Functions at Infinity
Link NOC:Introductory Course in Real Analysis Lecture 44 - Continuous Functions (Cauchy's Definition)
Link NOC:Introductory Course in Real Analysis Lecture 45 - Continuous Functions (Heine's Definition)
Link NOC:Introductory Course in Real Analysis Lecture 46 - Properties of Continuous Functions
Link NOC:Introductory Course in Real Analysis Lecture 47 - Properties of Continuous Functions (Continued...)
Link NOC:Introductory Course in Real Analysis Lecture 48 - Tutorial-VIII
Link NOC:Introductory Course in Real Analysis Lecture 49 - Boundness Theorem and Max-Min Theorem
Link NOC:Introductory Course in Real Analysis Lecture 50 - Location of Root and Bolzano's Theorem
Link NOC:Introductory Course in Real Analysis Lecture 51 - Uniform Continuity and Related Theorems
Link NOC:Introductory Course in Real Analysis Lecture 52 - Absolute Continuity and Related Theorems
Link NOC:Introductory Course in Real Analysis Lecture 53 - Types of Discontinuities
Link NOC:Introductory Course in Real Analysis Lecture 54 - Tutorial-IX
Link NOC:Introductory Course in Real Analysis Lecture 55 - Types of Discontinuities (Continued...)
Link NOC:Introductory Course in Real Analysis Lecture 56 - Relation between Continuity and Compact Sets
Link NOC:Introductory Course in Real Analysis Lecture 57 - Differentiability of Real Valued Functions
Link NOC:Introductory Course in Real Analysis Lecture 58 - Local Max. - Min. Cauchy's and Lagrange's Mean Value Theorem
Link NOC:Introductory Course in Real Analysis Lecture 59 - Rolle's Mean Value Theorems and Its Applications
Link NOC:Introductory Course in Real Analysis Lecture 60 - Tutorial-X
Link NOC:Introductory Course in Real Analysis Lecture 61
Link NOC:Introductory Course in Real Analysis Lecture 62
Link NOC:Introductory Course in Real Analysis Lecture 63
Link NOC:Introductory Course in Real Analysis Lecture 64
Link NOC:Introductory Course in Real Analysis Lecture 65
Link NOC:Introductory Course in Real Analysis Lecture 66
Link NOC:Introductory Course in Real Analysis Lecture 67
Link NOC:Introductory Course in Real Analysis Lecture 68
Link NOC:Introductory Course in Real Analysis Lecture 69
Link NOC:Introductory Course in Real Analysis Lecture 70
Link NOC:Introductory Course in Real Analysis Lecture 71
Link NOC:Introductory Course in Real Analysis Lecture 72
Link NOC:Introductory Course in Real Analysis Lecture 73
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 1 - Preliminary concepts: Fluid kinematics, stress, strain
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 2 - Cauchy’s equation of motion and Navier-Stokes equations
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 3 - Reduced forms of Navier-Stokes equations and Boundary conditions
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 4 - Exact solutions of Navier-Stokes equations in particular cases
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 5 - Dimensional Analysis – Non-dimensionalization of Navier-Stokes’s equations
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 6 - Stream function formulation of Navier-Stokes equations
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 7 - Stokes flow past a cylinder
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 8 - Stokes flow past a sphere
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 9 - Elementary Lubrication Theory
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 10 - Hydrodynamics of Squeeze flow
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 11 - Solution of arbitrary Stokes flows
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 12 - Mechanics of Swimming Microorganisms
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 13 - Viscous flow past a spherical drop
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 14 - Migration of a viscous drop under Marangoni effects
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 15 - Singularities of Stokes flows
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 16 - Introduction to porous media
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 17 - Flow through porous media – elementary geometries
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 18 - Flow through composite porous channels
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 19 - Modeling transport of particles inside capillaries
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 20 - Modeling transport of microparticles – some applications
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 21 - Introduction to Elctrokietics
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 22 - Basics on Electrostatics
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 23 - Transport Equations for Electrokinetics, Part-I
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 24 - Transport Equations for Electrokinetics, Part-II
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 25 - Electric Double Layer
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 26 - Electroosmotic flow (EOF) of ionized fluid
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 27 - EOF in micro-channel
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 28 - Non-linear EOF, Overlapping Debye Layer
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 29 - Two-dimensional EOF
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 30 - EOF near heterogeneous surface potential
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 31 - Electroosmosis in hydrophobic surface
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 32 - Numerical Methods for Boundary Value Problems (BVP)
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 33 - Numerical Methods for nonlinear BVP
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 34 - Numerical Methods for coupled set of BVP
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 35 - Numerical Methods for PDEs
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 36 - Numerical Methods for transport equations, Part-I
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 37 - Numerical Methods for transport equations, Part-II
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 38 - Electrophoresis of charged colloids, Part-I
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 39 - Electrophoresis of charged colloids, Part-II
Link NOC:Modeling Transport Phenomena of Microparticles Lecture 40 - Gel Electrophoresis
Link NOC:Constrained and Unconstrained Optimization Lecture 1 - Introduction to Optimization
Link NOC:Constrained and Unconstrained Optimization Lecture 2 - Assumptions and Mathematical Modeling of LPP
Link NOC:Constrained and Unconstrained Optimization Lecture 3 - Geometrey of LPP
Link NOC:Constrained and Unconstrained Optimization Lecture 4 - Graphical Solution of LPP - I
Link NOC:Constrained and Unconstrained Optimization Lecture 5 - Graphical Solution of LPP - II
Link NOC:Constrained and Unconstrained Optimization Lecture 6 - Solution of LPP: Simplex Method
Link NOC:Constrained and Unconstrained Optimization Lecture 7 - Simplex Method
Link NOC:Constrained and Unconstrained Optimization Lecture 8 - Introduction to BIG-M Method
Link NOC:Constrained and Unconstrained Optimization Lecture 9 - Algorithm of BIG-M Method
Link NOC:Constrained and Unconstrained Optimization Lecture 10 - Problems on BIG-M Method
Link NOC:Constrained and Unconstrained Optimization Lecture 11 - Two Phase Method: Introduction
Link NOC:Constrained and Unconstrained Optimization Lecture 12 - Two Phase Method: Problem Solution
Link NOC:Constrained and Unconstrained Optimization Lecture 13 - Special Cases of LPP
Link NOC:Constrained and Unconstrained Optimization Lecture 14 - Degeneracy in LPP
Link NOC:Constrained and Unconstrained Optimization Lecture 15 - Sensitivity Analysis - I
Link NOC:Constrained and Unconstrained Optimization Lecture 16 - Sensitivity Analysis - II
Link NOC:Constrained and Unconstrained Optimization Lecture 17 - Problems on Sensitivity Analysis
Link NOC:Constrained and Unconstrained Optimization Lecture 18 - Introduction to Duality Theory - I
Link NOC:Constrained and Unconstrained Optimization Lecture 19 - Introduction to Duality Theory - II
Link NOC:Constrained and Unconstrained Optimization Lecture 20 - Dual Simplex Method
Link NOC:Constrained and Unconstrained Optimization Lecture 21 - Examples on Dual Simplex Method
Link NOC:Constrained and Unconstrained Optimization Lecture 22 - Interger Linear Programming
Link NOC:Constrained and Unconstrained Optimization Lecture 23 - Interger Linear Programming
Link NOC:Constrained and Unconstrained Optimization Lecture 24 - IPP: Branch and BBound Method
Link NOC:Constrained and Unconstrained Optimization Lecture 25 - Mixed Integer Programming Problem
Link NOC:Constrained and Unconstrained Optimization Lecture 26
Link NOC:Constrained and Unconstrained Optimization Lecture 27
Link NOC:Constrained and Unconstrained Optimization Lecture 28
Link NOC:Constrained and Unconstrained Optimization Lecture 29
Link NOC:Constrained and Unconstrained Optimization Lecture 30
Link NOC:Constrained and Unconstrained Optimization Lecture 31 - Introduction to Nonlinear programming
Link NOC:Constrained and Unconstrained Optimization Lecture 32 - Graphical Solution of NLP
Link NOC:Constrained and Unconstrained Optimization Lecture 33 - Types of NLP
Link NOC:Constrained and Unconstrained Optimization Lecture 34 - One dimentional unconstrained optimization
Link NOC:Constrained and Unconstrained Optimization Lecture 35 - Unconstrained Optimization
Link NOC:Constrained and Unconstrained Optimization Lecture 36 - Region Elimination Technique - 1
Link NOC:Constrained and Unconstrained Optimization Lecture 37 - Region Elimination Technique - 2
Link NOC:Constrained and Unconstrained Optimization Lecture 38 - Region Elimination Technique - 3
Link NOC:Constrained and Unconstrained Optimization Lecture 39 - Unconstrained Optimization
Link NOC:Constrained and Unconstrained Optimization Lecture 40 - Unconstrained Optimization
Link NOC:Constrained and Unconstrained Optimization Lecture 41 - Multivariate Unconstrained Optimization - 1
Link NOC:Constrained and Unconstrained Optimization Lecture 42 - Multivariate Unconstrained Optimization - 2
Link NOC:Constrained and Unconstrained Optimization Lecture 43 - Unconstrained Optimization
Link NOC:Constrained and Unconstrained Optimization Lecture 44 - NLP with Equality Constrained - 1
Link NOC:Constrained and Unconstrained Optimization Lecture 45 - NLP with Equality Constrained - 2
Link NOC:Constrained and Unconstrained Optimization Lecture 46 - Constrained NLP - 1
Link NOC:Constrained and Unconstrained Optimization Lecture 47 - Constrained NLP - 2
Link NOC:Constrained and Unconstrained Optimization Lecture 48 - Constrained Optimization
Link NOC:Constrained and Unconstrained Optimization Lecture 49 - Constrained Optimization
Link NOC:Constrained and Unconstrained Optimization Lecture 50 - KKT
Link NOC:Constrained and Unconstrained Optimization Lecture 51 - Constrained Optimization
Link NOC:Constrained and Unconstrained Optimization Lecture 52 - Constrained Optimization
Link NOC:Constrained and Unconstrained Optimization Lecture 53 - Feasible Direction
Link NOC:Constrained and Unconstrained Optimization Lecture 54 - Penalty and barrier method
Link NOC:Constrained and Unconstrained Optimization Lecture 55 - Penalty method
Link NOC:Constrained and Unconstrained Optimization Lecture 56 - Penalty and barrier method
Link NOC:Constrained and Unconstrained Optimization Lecture 57 - Penalty and barrier method
Link NOC:Constrained and Unconstrained Optimization Lecture 58 - Dynamic programming
Link NOC:Constrained and Unconstrained Optimization Lecture 59 - Multi-Objective decision making
Link NOC:Constrained and Unconstrained Optimization Lecture 60 - Multi-Attribute decision making
Link NOC:Matrix Solver Lecture 1 - Introduction to Matrix Algebra - I
Link NOC:Matrix Solver Lecture 2 - Introduction to Matrix Algebra - II
Link NOC:Matrix Solver Lecture 3 - System of Linear Equations
Link NOC:Matrix Solver Lecture 4 - Determinant of a Matrix
Link NOC:Matrix Solver Lecture 5 - Determinant of a Matrix (Continued...)
Link NOC:Matrix Solver Lecture 6 - Gauss Elimination
Link NOC:Matrix Solver Lecture 7 - Gauss Elimination (Continued...)
Link NOC:Matrix Solver Lecture 8 - LU Decomposition
Link NOC:Matrix Solver Lecture 9 - Gauss-Jordon Method
Link NOC:Matrix Solver Lecture 10 - Representation of Physical Systems as Matrix Equations
Link NOC:Matrix Solver Lecture 11 - Tridiagonal Matrix Algorithm
Link NOC:Matrix Solver Lecture 12 - Equations with Singular Matrices
Link NOC:Matrix Solver Lecture 13 - Introduction to Vector Space
Link NOC:Matrix Solver Lecture 14 - Vector Subspace
Link NOC:Matrix Solver Lecture 15 - Column Space and Nullspace of a Matrix
Link NOC:Matrix Solver Lecture 16 - Finding Null Space of a Matrix
Link NOC:Matrix Solver Lecture 17 - Solving Ax=b when A is Singular
Link NOC:Matrix Solver Lecture 18 - Linear Independence and Spanning of a Subspace
Link NOC:Matrix Solver Lecture 19 - Basis and Dimension of a Vector Space
Link NOC:Matrix Solver Lecture 20 - Four Fundamental Subspaces of a Matrix
Link NOC:Matrix Solver Lecture 21 - Left and right inverse of a matrix
Link NOC:Matrix Solver Lecture 22 - Orthogonality between the subspaces
Link NOC:Matrix Solver Lecture 23 - Best estimate
Link NOC:Matrix Solver Lecture 24 - Projection operation and linear transformation
Link NOC:Matrix Solver Lecture 25 - Creating orthogonal basis vectors
Link NOC:Matrix Solver Lecture 26 - Gram-Schmidt and modified Gram-Schmidt algorithms
Link NOC:Matrix Solver Lecture 27 - Comparing GS and modified GS
Link NOC:Matrix Solver Lecture 28 - Introduction to eigenvalues and eigenvectors
Link NOC:Matrix Solver Lecture 29 - Eigenvlues and eigenvectors for real symmetric matrix
Link NOC:Matrix Solver Lecture 30 - Positive definiteness of a matrix
Link NOC:Matrix Solver Lecture 31 - Positive definiteness of a matrix (Continued...)
Link NOC:Matrix Solver Lecture 32 - Basic Iterative Methods: Jacobi and Gauss-Siedel
Link NOC:Matrix Solver Lecture 33 - Basic Iterative Methods: Matrix Representation
Link NOC:Matrix Solver Lecture 34 - Convergence Rate and Convergence Factor for Iterative Methods
Link NOC:Matrix Solver Lecture 35 - Numerical Experiments on Convergence
Link NOC:Matrix Solver Lecture 36 - Steepest Descent Method: Finding Minima of a Functional
Link NOC:Matrix Solver Lecture 37 - Steepest Descent Method: Gradient Search
Link NOC:Matrix Solver Lecture 38 - Steepest Descent Method: Algorithm and Convergence
Link NOC:Matrix Solver Lecture 39 - Introduction to General Projection Methods
Link NOC:Matrix Solver Lecture 40 - Residue Norm and Minimum Residual Algorithm
Link NOC:Matrix Solver Lecture 41 - Developing computer programs for basic iterative methods
Link NOC:Matrix Solver Lecture 42 - Developing computer programs for projection based methods
Link NOC:Matrix Solver Lecture 43 - Introduction to Krylov subspace methods
Link NOC:Matrix Solver Lecture 44 - Krylov subspace methods for linear systems
Link NOC:Matrix Solver Lecture 45 - Iterative methods for solving linear systems using Krylov subspace methods
Link NOC:Matrix Solver Lecture 46 - Conjugate gradient methods
Link NOC:Matrix Solver Lecture 47 - Conjugate gradient methods (Continued...)
Link NOC:Matrix Solver Lecture 48 - Conjugate gradient methods (Continued...) and Introduction to GMRES
Link NOC:Matrix Solver Lecture 49 - GMRES (Continued...)
Link NOC:Matrix Solver Lecture 50 - Lanczos Biorthogonalization and BCG Algorithm
Link NOC:Matrix Solver Lecture 51 - Numerical issues in BICG and polynomial based formulation
Link NOC:Matrix Solver Lecture 52 - Conjugate gradient squared and Biconjugate gradient stabilized
Link NOC:Matrix Solver Lecture 53 - Line relaxation method
Link NOC:Matrix Solver Lecture 54 - Block relaxation method
Link NOC:Matrix Solver Lecture 55 - Domain Decomposition and Parallel Computing
Link NOC:Matrix Solver Lecture 56 - Preconditioners
Link NOC:Matrix Solver Lecture 57 - Preconditioned conjugate gradient
Link NOC:Matrix Solver Lecture 58 - Preconditioned GMRES
Link NOC:Matrix Solver Lecture 59 - Multigrid methods - I
Link NOC:Matrix Solver Lecture 60 - Multigrid methods - II
Link NOC:Introduction to Abstract and Linear Algebra Lecture 1 - Set Theory
Link NOC:Introduction to Abstract and Linear Algebra Lecture 2 - Set Operations
Link NOC:Introduction to Abstract and Linear Algebra Lecture 3 - Set Operations (Continued...)
Link NOC:Introduction to Abstract and Linear Algebra Lecture 4 - Set of sets
Link NOC:Introduction to Abstract and Linear Algebra Lecture 5 - Binary relation
Link NOC:Introduction to Abstract and Linear Algebra Lecture 6 - Equivalence relation
Link NOC:Introduction to Abstract and Linear Algebra Lecture 7 - Mapping
Link NOC:Introduction to Abstract and Linear Algebra Lecture 8 - Permutation
Link NOC:Introduction to Abstract and Linear Algebra Lecture 9 - Binary Composition
Link NOC:Introduction to Abstract and Linear Algebra Lecture 10 - Groupoid
Link NOC:Introduction to Abstract and Linear Algebra Lecture 11 - Group
Link NOC:Introduction to Abstract and Linear Algebra Lecture 12 - Order of an element
Link NOC:Introduction to Abstract and Linear Algebra Lecture 13 - Subgroup
Link NOC:Introduction to Abstract and Linear Algebra Lecture 14 - Cyclic Group
Link NOC:Introduction to Abstract and Linear Algebra Lecture 15 - Subgroup Operations
Link NOC:Introduction to Abstract and Linear Algebra Lecture 16 - Left Cosets
Link NOC:Introduction to Abstract and Linear Algebra Lecture 17 - Right Cosets
Link NOC:Introduction to Abstract and Linear Algebra Lecture 18 - Normal Subgroup
Link NOC:Introduction to Abstract and Linear Algebra Lecture 19 - Rings
Link NOC:Introduction to Abstract and Linear Algebra Lecture 20 - Field
Link NOC:Introduction to Abstract and Linear Algebra Lecture 21 - Vector Spaces
Link NOC:Introduction to Abstract and Linear Algebra Lecture 22 - Sub-Spaces
Link NOC:Introduction to Abstract and Linear Algebra Lecture 23 - Linear Span
Link NOC:Introduction to Abstract and Linear Algebra Lecture 24 - Basis of a Vector Space
Link NOC:Introduction to Abstract and Linear Algebra Lecture 25 - Dimension of a Vector space
Link NOC:Introduction to Abstract and Linear Algebra Lecture 26 - Complement of subspace
Link NOC:Introduction to Abstract and Linear Algebra Lecture 27 - Linear Transformation
Link NOC:Introduction to Abstract and Linear Algebra Lecture 28 - Linear Transformation (Continued...)
Link NOC:Introduction to Abstract and Linear Algebra Lecture 29 - More on linear mapping
Link NOC:Introduction to Abstract and Linear Algebra Lecture 30 - Linear Space
Link NOC:Introduction to Abstract and Linear Algebra Lecture 31 - Rank of a matrix
Link NOC:Introduction to Abstract and Linear Algebra Lecture 32 - Rank of a matrix (Continued...)
Link NOC:Introduction to Abstract and Linear Algebra Lecture 33 - System of linear equations
Link NOC:Introduction to Abstract and Linear Algebra Lecture 34 - Row rank and Column rank
Link NOC:Introduction to Abstract and Linear Algebra Lecture 35 - Eigen value of a matrix
Link NOC:Introduction to Abstract and Linear Algebra Lecture 36 - Eigen Vector
Link NOC:Introduction to Abstract and Linear Algebra Lecture 37 - Geometric multiplicity
Link NOC:Introduction to Abstract and Linear Algebra Lecture 38 - More on eigen value
Link NOC:Introduction to Abstract and Linear Algebra Lecture 39 - Similar matrices
Link NOC:Introduction to Abstract and Linear Algebra Lecture 40 - Diagonalisable
Link NOC:Engineering Mathematics-I Lecture 1 - Rolle’s Theorem
Link NOC:Engineering Mathematics-I Lecture 2 - Mean Value Theorems
Link NOC:Engineering Mathematics-I Lecture 3 - Indeterminate Forms - Part 1
Link NOC:Engineering Mathematics-I Lecture 4 - Indeterminate Forms - Part 2
Link NOC:Engineering Mathematics-I Lecture 5 - Taylor Polynomial and Taylor Series
Link NOC:Engineering Mathematics-I Lecture 6 - Limit of Functions of Two Variables
Link NOC:Engineering Mathematics-I Lecture 7 - Evaluation of Limit of Functions of Two Variables
Link NOC:Engineering Mathematics-I Lecture 8 - Continuity of Functions of Two Variables
Link NOC:Engineering Mathematics-I Lecture 9 - Partial Derivatives of Functions of Two Variables
Link NOC:Engineering Mathematics-I Lecture 10 - Partial Derivatives of Higher Order
Link NOC:Engineering Mathematics-I Lecture 11 - Derivative and Differentiability
Link NOC:Engineering Mathematics-I Lecture 12 - Differentiability of Functions of Two Variables
Link NOC:Engineering Mathematics-I Lecture 13 - Differentiability of Functions of Two Variables (Continued...)
Link NOC:Engineering Mathematics-I Lecture 14 - Differentiability of Functions of Two Variables (Continued...)
Link NOC:Engineering Mathematics-I Lecture 15 - Composite and Homogeneous Functions
Link NOC:Engineering Mathematics-I Lecture 16 - Taylor’s Theorem for Functions of Two Variables
Link NOC:Engineering Mathematics-I Lecture 17 - Maxima and Minima of Functions of Two Variables
Link NOC:Engineering Mathematics-I Lecture 18 - Maxima and Minima of Functions of Two Variables (Continued...)
Link NOC:Engineering Mathematics-I Lecture 19 - Maxima and Minima of Functions of Two Variables (Continued...)
Link NOC:Engineering Mathematics-I Lecture 20 - Constrained Maxima and Minima
Link NOC:Engineering Mathematics-I Lecture 21 - Improper Integrals
Link NOC:Engineering Mathematics-I Lecture 22 - Improper Integrals (Continued...)
Link NOC:Engineering Mathematics-I Lecture 23 - Improper Integrals (Continued...)
Link NOC:Engineering Mathematics-I Lecture 24 - Improper Integrals (Continued...)
Link NOC:Engineering Mathematics-I Lecture 25 - Beta and Gamma Function
Link NOC:Engineering Mathematics-I Lecture 26 - Beta and Gamma Function (Continued...)
Link NOC:Engineering Mathematics-I Lecture 27 - Differentiation Under Integral Sign
Link NOC:Engineering Mathematics-I Lecture 28 - Double Integrals
Link NOC:Engineering Mathematics-I Lecture 29 - Double Integrals (Continued...)
Link NOC:Engineering Mathematics-I Lecture 30 - Double Integrals (Continued...)
Link NOC:Engineering Mathematics-I Lecture 31 - Integral Calculus Double Integrals in Polar Form
Link NOC:Engineering Mathematics-I Lecture 32 - Integral Calculus Double Integrals: Change of Variables
Link NOC:Engineering Mathematics-I Lecture 33 - Integral Calculus Double Integrals: Surface Area
Link NOC:Engineering Mathematics-I Lecture 34 - Integral Calculus Triple Integrals
Link NOC:Engineering Mathematics-I Lecture 35 - Integral Calculus Triple Integrals (Continued...)
Link NOC:Engineering Mathematics-I Lecture 36 - System of Linear Equations
Link NOC:Engineering Mathematics-I Lecture 37 - System of Linear Equations Gauss Elimination
Link NOC:Engineering Mathematics-I Lecture 38 - System of Linear Equations Gauss Elimination (Continued...)
Link NOC:Engineering Mathematics-I Lecture 39 - Linear Algebra - Vector Spaces
Link NOC:Engineering Mathematics-I Lecture 40 - Linear Independence of Vectors
Link NOC:Engineering Mathematics-I Lecture 41 - Vector Spaces Spanning Set
Link NOC:Engineering Mathematics-I Lecture 42 - Vector Spaces Basis and Dimension
Link NOC:Engineering Mathematics-I Lecture 43 - Rank of a Matrix
Link NOC:Engineering Mathematics-I Lecture 44 - Linear Transformations
Link NOC:Engineering Mathematics-I Lecture 45 - Linear Transformations (Continued....)
Link NOC:Engineering Mathematics-I Lecture 46 - Eigenvalues and Eigenvectors
Link NOC:Engineering Mathematics-I Lecture 47 - Eigenvalues and Eigenvectors (Continued...)
Link NOC:Engineering Mathematics-I Lecture 48 - Eigenvalues and Eigenvectors (Continued...)
Link NOC:Engineering Mathematics-I Lecture 49 - Eigenvalues and Eigenvectors (Continued...)
Link NOC:Engineering Mathematics-I Lecture 50 - Eigenvalues and Eigenvectors: Diagonalization
Link NOC:Engineering Mathematics-I Lecture 51 - Differential Equations - Introduction
Link NOC:Engineering Mathematics-I Lecture 52 - First Order Differential Equations
Link NOC:Engineering Mathematics-I Lecture 53 - Exact Differential Equations
Link NOC:Engineering Mathematics-I Lecture 54 - Exact Differential Equations (Continued...)
Link NOC:Engineering Mathematics-I Lecture 55 - First Order Linear Differential Equations
Link NOC:Engineering Mathematics-I Lecture 56 - Higher Order Linear Differential Equations
Link NOC:Engineering Mathematics-I Lecture 57 - Solution of Higher Order Homogeneous Linear Equations
Link NOC:Engineering Mathematics-I Lecture 58 - Solution of Higher Order Non-Homogeneous Linear Equations
Link NOC:Engineering Mathematics-I Lecture 59 - Solution of Higher Order Non-Homogeneous Linear Equations (Continued...)
Link NOC:Engineering Mathematics-I Lecture 60 - Cauchy-Euler Equations
Link NOC:Integral and Vector Calculus Lecture 1 - Partition, Riemann intergrability and One example
Link NOC:Integral and Vector Calculus Lecture 2 - Partition, Riemann intergrability and One example (Continued...)
Link NOC:Integral and Vector Calculus Lecture 3 - Condition of integrability
Link NOC:Integral and Vector Calculus Lecture 4 - Theorems on Riemann integrations
Link NOC:Integral and Vector Calculus Lecture 5 - Examples
Link NOC:Integral and Vector Calculus Lecture 6 - Examples (Continued...)
Link NOC:Integral and Vector Calculus Lecture 7 - Reduction formula
Link NOC:Integral and Vector Calculus Lecture 8 - Reduction formula (Continued...)
Link NOC:Integral and Vector Calculus Lecture 9 - Improper Integral
Link NOC:Integral and Vector Calculus Lecture 10 - Improper Integral (Continued...)
Link NOC:Integral and Vector Calculus Lecture 11 - Improper Integral (Continued...)
Link NOC:Integral and Vector Calculus Lecture 12 - Improper Integral (Continued...)
Link NOC:Integral and Vector Calculus Lecture 13 - Introduction to Beta and Gamma Function
Link NOC:Integral and Vector Calculus Lecture 14 - Beta and Gamma Function
Link NOC:Integral and Vector Calculus Lecture 15 - Differentiation under Integral Sign
Link NOC:Integral and Vector Calculus Lecture 16 - Differentiation under Integral Sign (Continued...)
Link NOC:Integral and Vector Calculus Lecture 17 - Double Integral
Link NOC:Integral and Vector Calculus Lecture 18 - Double Integral over a Region E
Link NOC:Integral and Vector Calculus Lecture 19 - Examples of Integral over a Region E
Link NOC:Integral and Vector Calculus Lecture 20 - Change of variables in a Double Integral
Link NOC:Integral and Vector Calculus Lecture 21 - Change of order of Integration
Link NOC:Integral and Vector Calculus Lecture 22 - Triple Integral
Link NOC:Integral and Vector Calculus Lecture 23 - Triple Integral (Continued...)
Link NOC:Integral and Vector Calculus Lecture 24 - Area of Plane Region
Link NOC:Integral and Vector Calculus Lecture 25 - Area of Plane Region (Continued...)
Link NOC:Integral and Vector Calculus Lecture 26 - Rectification
Link NOC:Integral and Vector Calculus Lecture 27 - Rectification (Continued...)
Link NOC:Integral and Vector Calculus Lecture 28 - Surface Integral
Link NOC:Integral and Vector Calculus Lecture 29 - Surface Integral (Continued...)
Link NOC:Integral and Vector Calculus Lecture 30 - Surface Integral (Continued...)
Link NOC:Integral and Vector Calculus Lecture 31 - Volume Integral, Gauss Divergence Theorem
Link NOC:Integral and Vector Calculus Lecture 32 - Vector Calculus
Link NOC:Integral and Vector Calculus Lecture 33 - Limit, Continuity, Differentiability
Link NOC:Integral and Vector Calculus Lecture 34 - Successive Differentiation
Link NOC:Integral and Vector Calculus Lecture 35 - Integration of Vector Function
Link NOC:Integral and Vector Calculus Lecture 36 - Gradient of a Function
Link NOC:Integral and Vector Calculus Lecture 37 - Divergence and Curl
Link NOC:Integral and Vector Calculus Lecture 38 - Divergence and Curl Examples
Link NOC:Integral and Vector Calculus Lecture 39 - Divergence and Curl important Identities
Link NOC:Integral and Vector Calculus Lecture 40 - Level Surface Relevant Theorems
Link NOC:Integral and Vector Calculus Lecture 41 - Directional Derivative (Concept and Few Results)
Link NOC:Integral and Vector Calculus Lecture 42 - Directional Derivative (Concept and Few Results) (Continued...)
Link NOC:Integral and Vector Calculus Lecture 43 - Directional Derivatives, Level Surfaces
Link NOC:Integral and Vector Calculus Lecture 44 - Application to Mechanics
Link NOC:Integral and Vector Calculus Lecture 45 - Equation of Tangent, Unit Tangent Vector
Link NOC:Integral and Vector Calculus Lecture 46 - Unit Normal, Unit binormal, Equation of Normal Plane
Link NOC:Integral and Vector Calculus Lecture 47 - Introduction and Derivation of Serret-Frenet Formula, few results
Link NOC:Integral and Vector Calculus Lecture 48 - Example on binormal, normal tangent, Serret-Frenet Formula
Link NOC:Integral and Vector Calculus Lecture 49 - Osculating Plane, Rectifying plane, Normal plane
Link NOC:Integral and Vector Calculus Lecture 50 - Application to Mechanics, Velocity, speed, acceleration
Link NOC:Integral and Vector Calculus Lecture 51 - Angular Momentum, Newton's Law
Link NOC:Integral and Vector Calculus Lecture 52 - Example on derivation of equation of motion of particle
Link NOC:Integral and Vector Calculus Lecture 53 - Line Integral
Link NOC:Integral and Vector Calculus Lecture 54 - Surface integral
Link NOC:Integral and Vector Calculus Lecture 55 - Surface integral (Continued...)
Link NOC:Integral and Vector Calculus Lecture 56 - Green's Theorem and Example
Link NOC:Integral and Vector Calculus Lecture 57 - Volume integral, Gauss theorem
Link NOC:Integral and Vector Calculus Lecture 58 - Gauss divergence theorem
Link NOC:Integral and Vector Calculus Lecture 59 - Stoke's Theorem
Link NOC:Integral and Vector Calculus Lecture 60 - Overview of Course
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 1 - Introduction to Integral Transform and Laplace Transform
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 2 - Existence of Laplace Transform
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 3 - Shifting Properties of Laplace Transform
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 4 - Laplace Transform of Derivatives and Integration of a Function - I
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 5 - Laplace Transform of Derivatives and Integration of a Function - II
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 6 - Explanation of properties of Laplace Transform using Examples
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 7 - Laplace Transform of Periodic Function
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 8 - Laplace Transform of some special Functions
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 9 - Error Function, Dirac Delta Function and their Laplace Transform
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 10 - Bessel Function and its Laplace Transform
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 11 - Introduction to Inverse Laplace Transform
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 12 - Properties of Inverse Laplace Transform
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 13 - Convolution and its Applications
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 14 - Evaluation of Integrals using Laplace Transform
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 15 - Solution of Ordinary Differential Equations with constant coefficients using Laplace Transform
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 16 - Solution of Ordinary Differential Equations with variable coefficients using Laplace Transform
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 17 - Solution of Simultaneous Ordinary Differential Equations using Laplace Transform
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 18 - Introduction to Integral Equation and its Solution Process
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 19 - Introduction to Fourier Series
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 20 - Fourier Series for Even and Odd Functions
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 21 - Fourier Series of Functions having arbitrary period - I
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 22 - Fourier Series of Functions having arbitrary period - II
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 23 - Half Range Fourier Series
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 24 - Parseval's Theorem and its Applications
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 25 - Complex form of Fourier Series
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 26 - Fourier Integral Representation
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 27 - Introduction to Fourier Transform
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 28 - Derivation of Fourier Cosine Transform and Fourier Sine Transform of Functions
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 29 - Evaluation of Fourier Transform of various functions
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 30 - Linearity Property and Shifting Properties of Fourier Transform
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 31 - Change of Scale and Modulation Properties of Fourier Transform
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 32 - Fourier Transform of Derivative and Integral of a Function
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 33 - Applications of Properties of Fourier Transform - I
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 34 - Applications of Properties of Fourier Transform - II
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 35 - Fourier Transform of Convolution of two functions
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 36 - Parseval's Identity and its Application
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 37 - Evaluation of Definite Integrals using Properties of Fourier Transform
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 38 - Fourier Transform of Dirac Delta Function
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 39 - Representation of a function as Fourier Integral
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 40 - Applications of Fourier Transform to Ordinary Differential Equations - I
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 41 - Applications of Fourier Transform to Ordinary Differential Equations - II
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 42 - Solution of Integral Equations using Fourier Transform
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 43 - Introduction to Partial Differential Equations
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 44 - Solution of Partial Differential Equations using Laplace Transform
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 45 - Solution of Heat Equation and Wave Equation using Laplace Transform
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 46 - Criteria for choosing Fourier Transform, Fourier Sine Transform, Fourier Cosine Transform in solving Partial Differential Equations
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 47 - Solution of Partial Differential Equations using Fourier Cosine Transform and Fourier Sine Transform
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 48 - Solution of Partial Differential Equations using Fourier Transform - I
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 49 - Solution of Partial Differential Equations using Fourier Transform - II
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 50 - Solving problems on Partial Differential Equations using Transform Techniques
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 51 - Introduction to Finite Fourier Transform
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 52 - Solution of Boundary Value Problems using Finite Fourier Transform - I
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 53 - Solution of Boundary Value Problems using Finite Fourier Transform - II
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 54 - Introduction to Mellin Transform
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 55 - Properties of Mellin Transform
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 56 - Examples of Mellin Transform - I
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 57 - Examples of Mellin Transform - II
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 58 - Introduction to Z-Transform
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 59 - Properties of Z-Transform
Link NOC:Transform Calculus and its applications in Differential Equations Lecture 60 - Evaluation of Z-Transform of some functions
Link NOC:Statistical Inference (2019) Lecture 1 - Introduction and Motivation - I
Link NOC:Statistical Inference (2019) Lecture 2 - Introduction and Motivation - II
Link NOC:Statistical Inference (2019) Lecture 3 - Basic Concepts of Point Estimations - I
Link NOC:Statistical Inference (2019) Lecture 4 - Basic Concepts of Point Estimations - II
Link NOC:Statistical Inference (2019) Lecture 5 - Basic Concepts of Point Estimations - III
Link NOC:Statistical Inference (2019) Lecture 6 - Basic Concepts of Point Estimations - IV
Link NOC:Statistical Inference (2019) Lecture 7 - Finding Estimators - I
Link NOC:Statistical Inference (2019) Lecture 8 - Finding Estimators - II
Link NOC:Statistical Inference (2019) Lecture 9 - Finding Estimators - III
Link NOC:Statistical Inference (2019) Lecture 10 - Finding Estimators - IV
Link NOC:Statistical Inference (2019) Lecture 11 - Finding Estimators - V
Link NOC:Statistical Inference (2019) Lecture 12 - Finding Estimators - VI
Link NOC:Statistical Inference (2019) Lecture 13 - Properties of MLEs - I
Link NOC:Statistical Inference (2019) Lecture 14 - Properties of MLEs - II
Link NOC:Statistical Inference (2019) Lecture 15 - Lower Bounds for Variance - I
Link NOC:Statistical Inference (2019) Lecture 16 - Lower Bounds for Variance - II
Link NOC:Statistical Inference (2019) Lecture 17 - Lower Bounds for Variance - III
Link NOC:Statistical Inference (2019) Lecture 18 - Lower Bounds for Variance - IV
Link NOC:Statistical Inference (2019) Lecture 19 - Lower Bounds for Variance - V
Link NOC:Statistical Inference (2019) Lecture 20 - Lower Bounds for Variance - VI
Link NOC:Statistical Inference (2019) Lecture 21 - Lower Bounds for Variance - VII
Link NOC:Statistical Inference (2019) Lecture 22 - Lower Bounds for Variance - VIII
Link NOC:Statistical Inference (2019) Lecture 23 - Sufficiency - I
Link NOC:Statistical Inference (2019) Lecture 24 - Sufficiency - II
Link NOC:Statistical Inference (2019) Lecture 25 - Sufficiency and Information - I
Link NOC:Statistical Inference (2019) Lecture 26 - Sufficiency and Information - II
Link NOC:Statistical Inference (2019) Lecture 27 - Minimal Sufficiency, Completeness - I
Link NOC:Statistical Inference (2019) Lecture 28 - Minimal Sufficiency, Completeness - II
Link NOC:Statistical Inference (2019) Lecture 29 - UMVU Estimation, Ancillarity - I
Link NOC:Statistical Inference (2019) Lecture 30 - UMVU Estimation, Ancillarity - II
Link NOC:Statistical Inference (2019) Lecture 31 - Testing of Hypotheses : Basic Concepts - I
Link NOC:Statistical Inference (2019) Lecture 32 - Testing of Hypotheses : Basic Concepts - II
Link NOC:Statistical Inference (2019) Lecture 33 - Neyman Pearson Fundamental Lemma - I
Link NOC:Statistical Inference (2019) Lecture 34 - Neyman Pearson Fundamental Lemma - II
Link NOC:Statistical Inference (2019) Lecture 35 - Application of NP-Lemma - I
Link NOC:Statistical Inference (2019) Lecture 36 - Application of NP-Lemma - II
Link NOC:Statistical Inference (2019) Lecture 37 - UMP Tests - I
Link NOC:Statistical Inference (2019) Lecture 38 - UMP Tests - II
Link NOC:Statistical Inference (2019) Lecture 39 - UMP Tests - III
Link NOC:Statistical Inference (2019) Lecture 40 - UMP Tests - IV
Link NOC:Statistical Inference (2019) Lecture 41 - UMP Unbiased Tests - I
Link NOC:Statistical Inference (2019) Lecture 42 - UMP Unbiased Tests - II
Link NOC:Statistical Inference (2019) Lecture 43 - UMP Unbiased Tests - III
Link NOC:Statistical Inference (2019) Lecture 44 - UMP Unbiased Tests - IV
Link NOC:Statistical Inference (2019) Lecture 45 - Applications of UMP Unbiased Tests - I
Link NOC:Statistical Inference (2019) Lecture 46 - Applications of UMP Unbiased Tests - II
Link NOC:Statistical Inference (2019) Lecture 47 - Unbiased Test for Normal Populations - I
Link NOC:Statistical Inference (2019) Lecture 48 - Unbiased Test for Normal Populations - II
Link NOC:Statistical Inference (2019) Lecture 49 - Unbiased Test for Normal Populations - III
Link NOC:Statistical Inference (2019) Lecture 50 - Unbiased Test for Normal Populations - IV
Link NOC:Statistical Inference (2019) Lecture 51 - Likelihood Ratio Tests - I
Link NOC:Statistical Inference (2019) Lecture 52 - Likelihood Ratio Tests - II
Link NOC:Statistical Inference (2019) Lecture 53 - Likelihood Ratio Tests - III
Link NOC:Statistical Inference (2019) Lecture 54 - Likelihood Ratio Tests - IV
Link NOC:Statistical Inference (2019) Lecture 55 - Likelihood Ratio Tests - V
Link NOC:Statistical Inference (2019) Lecture 56 - Likelihood Ratio Tests - VI
Link NOC:Statistical Inference (2019) Lecture 57 - Likelihood Ratio Tests - VII
Link NOC:Statistical Inference (2019) Lecture 58 - Likelihood Ratio Tests - VIII
Link NOC:Statistical Inference (2019) Lecture 59 - Test for Goodness of Fit - I
Link NOC:Statistical Inference (2019) Lecture 60 - Test for Goodness of Fit - II
Link NOC:Statistical Inference (2019) Lecture 61 - Interval Estimation - I
Link NOC:Statistical Inference (2019) Lecture 62 - Interval Estimation - II
Link NOC:Statistical Inference (2019) Lecture 63 - Interval Estimation - III
Link NOC:Statistical Inference (2019) Lecture 64 - Interval Estimation - IV
Link NOC:Mathematical Methods for Boundary Value Problems Lecture 1 - Strum-Liouville Problems, Linear BVP
Link NOC:Mathematical Methods for Boundary Value Problems Lecture 2 - Strum-Liouville Problems, Linear BVP (Continued...)
Link NOC:Mathematical Methods for Boundary Value Problems Lecture 3 - Solution of BVPs by Eigen function expansion
Link NOC:Mathematical Methods for Boundary Value Problems Lecture 4 - Solution of BVPs by Eigen function expansion (Continued...)
Link NOC:Mathematical Methods for Boundary Value Problems Lecture 5 - Solutions of linear parabolic, hyperbolic and elliptic PDEs with finite domain by Eigen function expansions
Link NOC:Mathematical Methods for Boundary Value Problems Lecture 6 - Solutions of linear parabolic, hyperbolic and elliptic PDEs with finite domain by Eigen function expansions (Continued...)
Link NOC:Mathematical Methods for Boundary Value Problems Lecture 7 - Green's Function for BVP and Dirichlet Problem
Link NOC:Mathematical Methods for Boundary Value Problems Lecture 8 - Green's Function for BVP and Dirichlet Problem (Continued...)
Link NOC:Mathematical Methods for Boundary Value Problems Lecture 9 - Numerical Techniques for IVP; Shooting Method for BVP
Link NOC:Mathematical Methods for Boundary Value Problems Lecture 10 - Numerical Techniques for IVP; Shooting Method for BVP (Continued...)
Link NOC:Mathematical Methods for Boundary Value Problems Lecture 11 - Finite difference methods for linear BVP; Thomas Algorithm
Link NOC:Mathematical Methods for Boundary Value Problems Lecture 12 - Finite difference methods for linear BVP; Thomas Algorithm (Continued...)
Link NOC:Mathematical Methods for Boundary Value Problems Lecture 13 - Finite difference method for Higher-order BVP; Block tri-diagonal System
Link NOC:Mathematical Methods for Boundary Value Problems Lecture 14 - Finite difference method for Higher-order BVP; Block tri-diagonal System (Continued...)
Link NOC:Mathematical Methods for Boundary Value Problems Lecture 15 - Iterative methods for nonlinear BVP; Control volume formulation
Link NOC:Mathematical Methods for Boundary Value Problems Lecture 16 - Iterative methods for nonlinear BVP; Control volume formulation (Continued...)
Link NOC:Mathematical Methods for Boundary Value Problems Lecture 17 - Implicit scheme; Truncation error; Crank-Nicolson scheme
Link NOC:Mathematical Methods for Boundary Value Problems Lecture 18 - Implicit scheme; Truncation error; Crank-Nicolson scheme (Continued...)
Link NOC:Mathematical Methods for Boundary Value Problems Lecture 19 - Stability analysis of numerical schemes
Link NOC:Mathematical Methods for Boundary Value Problems Lecture 20 - Alternating-Direction-Implicit Scheme; Successive-Over-Relaxation technique for Poisson equations
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 1 - The Idea of a Riemann Surface
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 2 - Simple Examples of Riemann Surfaces
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 3 - Maximal Atlases and Holomorphic Maps of Riemann Surfaces
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 4 - A Riemann Surface Structure on a Cylinder
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 5 - A Riemann Surface Structure on a Torus
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 6 - Riemann Surface Structures on Cylinders and Tori via Covering Spaces
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 7 - Moebius Transformations Make up Fundamental Groups of Riemann Surfaces
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 8 - Homotopy and the First Fundamental Group
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 9 - A First Classification of Riemann Surfaces
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 10 - The Importance of the Path-lifting Property
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 11 - Fundamental groups as Fibres of the Universal covering Space
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 12 - The Monodromy Action
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 13 - The Universal covering as a Hausdorff Topological Space
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 14 - The Construction of the Universal Covering Map
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 15 - Completion of the Construction of the Universal Covering: Universality of the Universal Covering
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 16 - Completion of the Construction of the Universal Covering: The Fundamental Group of the base as the Deck Transformation Group
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 17 - The Riemann Surface Structure on the Topological Covering of a Riemann Surface
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 18 - Riemann Surfaces with Universal Covering the Plane or the Sphere
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 19 - Classifying Complex Cylinders: Riemann Surfaces with Universal Covering the Complex Plane
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 20 - Characterizing Moebius Transformations with a Single Fixed Point
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 21 - Characterizing Moebius Transformations with Two Fixed Points
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 22 - Torsion-freeness of the Fundamental Group of a Riemann Surface
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 23 - Characterizing Riemann Surface Structures on Quotients of the Upper Half-Plane with Abelian Fundamental Groups
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 24 - Classifying Annuli up to Holomorphic Isomorphism
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 25 - Orbits of the Integral Unimodular Group in the Upper Half-Plane
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 26 - Galois Coverings are precisely Quotients by Properly Discontinuous Free Actions
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 27 - Local Actions at the Region of Discontinuity of a Kleinian Subgroup of Moebius Transformations
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 28 - Quotients by Kleinian Subgroups give rise to Riemann Surfaces
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 29 - The Unimodular Group is Kleinian
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 30 - The Necessity of Elliptic Functions for the Classification of Complex Tori
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 31 - The Uniqueness Property of the Weierstrass Phe-function associated to a Lattice in the Plane
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 32 - The First Order Degree Two Cubic Ordinary Differential Equation satisfied by the Weierstrass Phe-function
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 33 - The Values of the Weierstrass Phe-function at the Zeros of its Derivative are nonvanishing Analytic Functions on the Upper Half-Plane
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 34 - The Construction of a Modular Form of Weight Two on the Upper Half-Plane
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 35 - The Fundamental Functional Equations satisfied by the Modular Form of Weight Two on the Upper Half-Plane
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 36 - The Weight Two Modular Form assumes Real Values on the Imaginary Axis in the Upper Half-plane
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 37 - The Weight Two Modular Form Vanishes at Infinity
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 38 - The Weight Two Modular Form Decays Exponentially in a Neighbourhood of Infinity
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 39 - A Suitable Restriction of the Weight Two Modular Form is a Holomorphic Conformal Isomorphism onto the Upper Half-Plane
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 40 - The J-Invariant of a Complex Torus (or) of an Algebraic Elliptic Curve
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 41 - A Fundamental Region in the Upper Half-Plane for the Elliptic Modular J-Invariant
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 42 - The Fundamental Region in the Upper Half-Plane for the Unimodular Group
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 43 - A Region in the Upper Half-Plane Meeting Each Unimodular Orbit Exactly Once
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 44 - Moduli of Elliptic Curves
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 45 - Punctured Complex Tori are Elliptic Algebraic Affine Plane Cubic Curves in Complex 2-Space
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 46 - The Natural Riemann Surface Structure on an Algebraic Affine Nonsingular Plane Curve
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 47 - Complex Projective 2-Space as a Compact Complex Manifold of Dimension Two
Link An Introduction to Riemann Surfaces and Algebraic Curves: Complex 1-Tori and Elliptic Curves Lecture 48 - Complex Tori are the same as Elliptic Algebraic Projective Curves
Link Linear Algebra Lecture 1 - Introduction to the Course Contents
Link Linear Algebra Lecture 2 - Linear Equations
Link Linear Algebra Lecture 3a - Equivalent Systems of Linear Equations I : Inverses of Elementary Row-operations, Row-equivalent matrices
Link Linear Algebra Lecture 3b - Equivalent Systems of Linear Equations II : Homogeneous Equations, Examples
Link Linear Algebra Lecture 4 - Row-reduced Echelon Matrices
Link Linear Algebra Lecture 5 - Row-reduced Echelon Matrices and Non-homogeneous Equations
Link Linear Algebra Lecture 6 - Elementary Matrices, Homogeneous Equations and Non-homogeneous Equations
Link Linear Algebra Lecture 7 - Invertible matrices, Homogeneous Equations Non-homogeneous Equations
Link Linear Algebra Lecture 8 - Vector spaces
Link Linear Algebra Lecture 9 - Elementary Properties in Vector Spaces. Subspaces
Link Linear Algebra Lecture 10 - Subspaces (Continued...), Spanning Sets, Linear Independence, Dependence
Link Linear Algebra Lecture 11 - Basis for a vector space
Link Linear Algebra Lecture 12 - Dimension of a vector space
Link Linear Algebra Lecture 13 - Dimensions of Sums of Subspaces
Link Linear Algebra Lecture 14 - Linear Transformations
Link Linear Algebra Lecture 15 - The Null Space and the Range Space of a Linear Transformation
Link Linear Algebra Lecture 16 - The Rank-Nullity-Dimension Theorem. Isomorphisms Between Vector Spaces
Link Linear Algebra Lecture 17 - Isomorphic Vector Spaces, Equality of the Row-rank and the Column-rank - I
Link Linear Algebra Lecture 18 - Equality of the Row-rank and the Column-rank - II
Link Linear Algebra Lecture 19 - The Matrix of a Linear Transformation
Link Linear Algebra Lecture 20 - Matrix for the Composition and the Inverse. Similarity Transformation
Link Linear Algebra Lecture 21 - Linear Functionals. The Dual Space. Dual Basis - I
Link Linear Algebra Lecture 22 - Dual Basis II. Subspace Annihilators - I
Link Linear Algebra Lecture 23 - Subspace Annihilators - II
Link Linear Algebra Lecture 24 - The Double Dual. The Double Annihilator
Link Linear Algebra Lecture 25 - The Transpose of a Linear Transformation. Matrices of a Linear Transformation and its Transpose
Link Linear Algebra Lecture 26 - Eigenvalues and Eigenvectors of Linear Operators
Link Linear Algebra Lecture 27 - Diagonalization of Linear Operators. A Characterization
Link Linear Algebra Lecture 28 - The Minimal Polynomial
Link Linear Algebra Lecture 29 - The Cayley-Hamilton Theorem
Link Linear Algebra Lecture 30 - Invariant Subspaces
Link Linear Algebra Lecture 31 - Triangulability, Diagonalization in Terms of the Minimal Polynomial
Link Linear Algebra Lecture 32 - Independent Subspaces and Projection Operators
Link Linear Algebra Lecture 33 - Direct Sum Decompositions and Projection Operators - I
Link Linear Algebra Lecture 34 - Direct Sum Decompositions and Projection Operators - II
Link Linear Algebra Lecture 35 - The Primary Decomposition Theorem and Jordan Decomposition
Link Linear Algebra Lecture 36 - Cyclic Subspaces and Annihilators
Link Linear Algebra Lecture 37 - The Cyclic Decomposition Theorem - I
Link Linear Algebra Lecture 38 - The Cyclic Decomposition Theorem - II. The Rational Form
Link Linear Algebra Lecture 39 - Inner Product Spaces
Link Linear Algebra Lecture 40 - Norms on Vector spaces. The Gram-Schmidt Procedure I
Link Linear Algebra Lecture 41 - The Gram-Schmidt Procedure II. The QR Decomposition
Link Linear Algebra Lecture 42 - Bessel's Inequality, Parseval's Indentity, Best Approximation
Link Linear Algebra Lecture 43 - Best Approximation: Least Squares Solutions
Link Linear Algebra Lecture 44 - Orthogonal Complementary Subspaces, Orthogonal Projections
Link Linear Algebra Lecture 45 - Projection Theorem. Linear Functionals
Link Linear Algebra Lecture 46 - The Adjoint Operator
Link Linear Algebra Lecture 47 - Properties of the Adjoint Operation. Inner Product Space Isomorphism
Link Linear Algebra Lecture 48 - Unitary Operators
Link Linear Algebra Lecture 49 - Unitary operators - II. Self-Adjoint Operators - I.
Link Linear Algebra Lecture 50 - Self-Adjoint Operators - II - Spectral Theorem
Link Linear Algebra Lecture 51 - Normal Operators - Spectral Theorem
Link Mathematical Logic Lecture 1 - Sets and Strings
Link Mathematical Logic Lecture 2 - Syntax of Propositional Logic
Link Mathematical Logic Lecture 3 - Unique Parsing
Link Mathematical Logic Lecture 4 - Semantics of PL
Link Mathematical Logic Lecture 5 - Consequences and Equivalences
Link Mathematical Logic Lecture 6 - Five results about PL
Link Mathematical Logic Lecture 7 - Calculations and Informal Proofs
Link Mathematical Logic Lecture 8 - More Informal Proofs
Link Mathematical Logic Lecture 9 - Normal forms
Link Mathematical Logic Lecture 10 - SAT and 3SAT
Link Mathematical Logic Lecture 11 - Horn-SAT and Resolution
Link Mathematical Logic Lecture 12 - Resolution
Link Mathematical Logic Lecture 13 - Adequacy of Resolution
Link Mathematical Logic Lecture 14 - Adequacy and Resolution Strategies
Link Mathematical Logic Lecture 15 - Propositional Calculus (PC)
Link Mathematical Logic Lecture 16 - Some Results about PC
Link Mathematical Logic Lecture 17 - Arguing with Proofs
Link Mathematical Logic Lecture 18 - Adequacy of PC
Link Mathematical Logic Lecture 19 - Compactness & Analytic Tableau
Link Mathematical Logic Lecture 20 - Examples of Tableau Proofs
Link Mathematical Logic Lecture 21 - Adequacy of Tableaux
Link Mathematical Logic Lecture 22 - Syntax of First order Logic (FL)
Link Mathematical Logic Lecture 23 - Symbolization & Scope of Quantifiers
Link Mathematical Logic Lecture 24 - Hurdles in giving Meaning
Link Mathematical Logic Lecture 25 - Semantics of FL
Link Mathematical Logic Lecture 26 - Relevance Lemma
Link Mathematical Logic Lecture 27 - Validity, Satisfiability & Equivalence
Link Mathematical Logic Lecture 28 - Six Results about FL
Link Mathematical Logic Lecture 29 - Laws, Calculation & Informal Proof
Link Mathematical Logic Lecture 30 - Quantifier Laws and Consequences
Link Mathematical Logic Lecture 31 - More Proofs and Prenex Form
Link Mathematical Logic Lecture 32 - Prenex Form Conversion
Link Mathematical Logic Lecture 33 - Skolem Form
Link Mathematical Logic Lecture 34 - Syntatic Interpretation
Link Mathematical Logic Lecture 35 - Herbrand's Theorem
Link Mathematical Logic Lecture 36 - Most General Unifiers
Link Mathematical Logic Lecture 37 - Resolution Rules
Link Mathematical Logic Lecture 38 - Resolution Examples
Link Mathematical Logic Lecture 39 - Ariomatic System FC
Link Mathematical Logic Lecture 40 - FC and Semidecidability of FL
Link Mathematical Logic Lecture 41 - Analytic Tableau for FL
Link Mathematical Logic Lecture 42 - Godels Incompleteness Theorems
Link Real Analysis Lecture 1 - Introduction
Link Real Analysis Lecture 2 - Functions and Relations
Link Real Analysis Lecture 3 - Finite and Infinite Sets
Link Real Analysis Lecture 4 - Countable Sets
Link Real Analysis Lecture 5 - Uncountable Sets, Cardinal Number
Link Real Analysis Lecture 6 - Real Number System
Link Real Analysis Lecture 7 - LUB Axiom
Link Real Analysis Lecture 8 - Sequences of Real Numbers
Link Real Analysis Lecture 9 - Sequences of Real Numbers - (Continued.)
Link Real Analysis Lecture 10 - Sequences of Real Numbers - (Continued.)
Link Real Analysis Lecture 11 - Infinite Series of Real Numbers
Link Real Analysis Lecture 12 - Series of nonnegative Real Numbers
Link Real Analysis Lecture 13 - Conditional Convergence
Link Real Analysis Lecture 14 - Metric Spaces: Definition and Examples
Link Real Analysis Lecture 15 - Metric Spaces: Examples and Elementary Concepts
Link Real Analysis Lecture 16 - Balls and Spheres
Link Real Analysis Lecture 17 - Open Sets
Link Real Analysis Lecture 18 - Closure Points, Limit Points and isolated Points
Link Real Analysis Lecture 19 - Closed sets
Link Real Analysis Lecture 20 - Sequences in Metric Spaces
Link Real Analysis Lecture 21 - Completeness
Link Real Analysis Lecture 22 - Baire Category Theorem
Link Real Analysis Lecture 23 - Limit and Continuity of a Function defined on a Metric space
Link Real Analysis Lecture 24 - Continuous Functions on a Metric Space
Link Real Analysis Lecture 25 - Uniform Continuity
Link Real Analysis Lecture 26 - Connectedness
Link Real Analysis Lecture 27 - Connected Sets
Link Real Analysis Lecture 28 - Compactness
Link Real Analysis Lecture 29 - Compactness (Continued.)
Link Real Analysis Lecture 30 - Characterizations of Compact Sets
Link Real Analysis Lecture 31 - Continuous Functions on Compact Sets
Link Real Analysis Lecture 32 - Types of Discontinuity
Link Real Analysis Lecture 33 - Differentiation
Link Real Analysis Lecture 34 - Mean Value Theorems
Link Real Analysis Lecture 35 - Mean Value Theorems (Continued.)
Link Real Analysis Lecture 36 - Taylor's Theorem
Link Real Analysis Lecture 37 - Differentiation of Vector Valued Functions
Link Real Analysis Lecture 38 - Integration
Link Real Analysis Lecture 39 - Integrability
Link Real Analysis Lecture 40 - Integrable Functions
Link Real Analysis Lecture 41 - Integrable Functions (Continued.)
Link Real Analysis Lecture 42 - Integration as a Limit of Sum
Link Real Analysis Lecture 43 - Integration and Differentiation
Link Real Analysis Lecture 44 - Integration of Vector Valued Functions
Link Real Analysis Lecture 45 - More Theorems on Integrals
Link Real Analysis Lecture 46 - Sequences and Series of Functions
Link Real Analysis Lecture 47 - Uniform Convergence
Link Real Analysis Lecture 48 - Uniform Convergence and Integration
Link Real Analysis Lecture 49 - Uniform Convergence and Differentiation
Link Real Analysis Lecture 50 - Construction of Everywhere Continuous Nowhere Differentiable Function
Link Real Analysis Lecture 51 - Approximation of a Continuous Function by Polynomials: Weierstrass Theorem
Link Real Analysis Lecture 52 - Equicontinuous family of Functions: Arzela - Ascoli Theorem
Link Dynamic Data Assimilation: An Introduction Lecture 1 - An Overview
Link Dynamic Data Assimilation: An Introduction Lecture 2 - Data Mining, Data assimilation and prediction
Link Dynamic Data Assimilation: An Introduction Lecture 3 - A classification of forecast errors
Link Dynamic Data Assimilation: An Introduction Lecture 4 - Finite Dimensional Vector Space
Link Dynamic Data Assimilation: An Introduction Lecture 5 - Matrices
Link Dynamic Data Assimilation: An Introduction Lecture 6 - Matrices (Continued...)
Link Dynamic Data Assimilation: An Introduction Lecture 7 - Multi-variate Calculus
Link Dynamic Data Assimilation: An Introduction Lecture 8 - Optimization in Finite Dimensional Vector spaces
Link Dynamic Data Assimilation: An Introduction Lecture 9 - Deterministic, Static, linear Inverse (well-posed) Problems
Link Dynamic Data Assimilation: An Introduction Lecture 10 - Deterministic, Static, Linear Inverse (Ill-posed) Problems
Link Dynamic Data Assimilation: An Introduction Lecture 11 - A Geometric View – Projections
Link Dynamic Data Assimilation: An Introduction Lecture 12 - Deterministic, Static, nonlinear Inverse Problems
Link Dynamic Data Assimilation: An Introduction Lecture 13 - On-line Least Squares
Link Dynamic Data Assimilation: An Introduction Lecture 14 - Examples of static inverse problems
Link Dynamic Data Assimilation: An Introduction Lecture 15 - Interlude and a Way Forward
Link Dynamic Data Assimilation: An Introduction Lecture 16 - Matrix Decomposition Algorithms
Link Dynamic Data Assimilation: An Introduction Lecture 17 - Matrix Decomposition Algorithms (Continued...)
Link Dynamic Data Assimilation: An Introduction Lecture 18 - Minimization algorithms
Link Dynamic Data Assimilation: An Introduction Lecture 19 - Minimization algorithms (Continued...)
Link Dynamic Data Assimilation: An Introduction Lecture 20 - Inverse problems in deterministic
Link Dynamic Data Assimilation: An Introduction Lecture 21 - Inverse problems in deterministic (Continued...)
Link Dynamic Data Assimilation: An Introduction Lecture 22 - Forward sensitivity method
Link Dynamic Data Assimilation: An Introduction Lecture 23 - Relation between FSM and 4DVAR
Link Dynamic Data Assimilation: An Introduction Lecture 24 - Statistical Estimation
Link Dynamic Data Assimilation: An Introduction Lecture 25 - Statistical Least Squares
Link Dynamic Data Assimilation: An Introduction Lecture 26 - Maximum Likelihood Method
Link Dynamic Data Assimilation: An Introduction Lecture 27 - Bayesian Estimation
Link Dynamic Data Assimilation: An Introduction Lecture 28 - From Gauss to Kalman-Linear Minimum Variance Estimation
Link Dynamic Data Assimilation: An Introduction Lecture 29 - Initialization Classical Method
Link Dynamic Data Assimilation: An Introduction Lecture 30 - Optimal interpolations
Link Dynamic Data Assimilation: An Introduction Lecture 31 - A Bayesian Formation-3D-VAR methods
Link Dynamic Data Assimilation: An Introduction Lecture 32 - Linear Stochastic Dynamics - Kalman Filter
Link Dynamic Data Assimilation: An Introduction Lecture 33 - Linear Stochastic Dynamics - Kalman Filter (Continued...)
Link Dynamic Data Assimilation: An Introduction Lecture 34 - Linear Stochastic Dynamics - Kalman Filter (Continued...)
Link Dynamic Data Assimilation: An Introduction Lecture 35 - Covariance Square Root Filter
Link Dynamic Data Assimilation: An Introduction Lecture 36 - Nonlinear Filtering
Link Dynamic Data Assimilation: An Introduction Lecture 37 - Ensemble Reduced Rank Filter
Link Dynamic Data Assimilation: An Introduction Lecture 38 - Basic nudging methods
Link Dynamic Data Assimilation: An Introduction Lecture 39 - Deterministic predictability
Link Dynamic Data Assimilation: An Introduction Lecture 40 - Predictability A stochastic view and Summary
Link NOC:An Invitation to Mathematics Lecture 1 - Introduction
Link NOC:An Invitation to Mathematics Lecture 2 - Long division
Link NOC:An Invitation to Mathematics Lecture 3 - Applications of Long division
Link NOC:An Invitation to Mathematics Lecture 4 - Lagrange interpolation
Link NOC:An Invitation to Mathematics Lecture 5 - The 0-1 idea in other contexts - dot and cross product
Link NOC:An Invitation to Mathematics Lecture 6 - Taylors formula
Link NOC:An Invitation to Mathematics Lecture 7 - The Chebyshev polynomials
Link NOC:An Invitation to Mathematics Lecture 8 - Counting number of monomials - several variables
Link NOC:An Invitation to Mathematics Lecture 9 - Permutations, combinations and the binomial theorem
Link NOC:An Invitation to Mathematics Lecture 10 - Combinations with repetition, and counting monomials
Link NOC:An Invitation to Mathematics Lecture 11 - Combinations with restrictions, recurrence relations
Link NOC:An Invitation to Mathematics Lecture 12 - Fibonacci numbers; an identity and a bijective proof
Link NOC:An Invitation to Mathematics Lecture 13 - Permutations and cycle type
Link NOC:An Invitation to Mathematics Lecture 14 - The sign of a permutation, composition of permutations
Link NOC:An Invitation to Mathematics Lecture 15 - Rules for drawing tangle diagrams
Link NOC:An Invitation to Mathematics Lecture 16 - Signs and cycle decompositions
Link NOC:An Invitation to Mathematics Lecture 17 - Sorting lists of numbers, and crossings in tangle diagrams
Link NOC:An Invitation to Mathematics Lecture 18 - Real and integer valued polynomials
Link NOC:An Invitation to Mathematics Lecture 19 - Integer valued polynomials revisited
Link NOC:An Invitation to Mathematics Lecture 20 - Functions on the real line, continuity
Link NOC:An Invitation to Mathematics Lecture 21 - The intermediate value property
Link NOC:An Invitation to Mathematics Lecture 22 - Visualizing functions
Link NOC:An Invitation to Mathematics Lecture 23 - Functions on the plane, Rigid motions
Link NOC:An Invitation to Mathematics Lecture 24 - More examples of functions on the plane, dilations
Link NOC:An Invitation to Mathematics Lecture 25 - Composition of functions
Link NOC:An Invitation to Mathematics Lecture 26 - Affine and Linear transformations
Link NOC:An Invitation to Mathematics Lecture 27 - Length and Area dilation, the derivative
Link NOC:An Invitation to Mathematics Lecture 28 - Examples-I
Link NOC:An Invitation to Mathematics Lecture 29 - Examples-II
Link NOC:An Invitation to Mathematics Lecture 30 - Linear equations, Lagrange interpolation revisited
Link NOC:An Invitation to Mathematics Lecture 31 - Completed Matrices in combinatorics
Link NOC:An Invitation to Mathematics Lecture 32 - Polynomials acting on matrices
Link NOC:An Invitation to Mathematics Lecture 33 - Divisibility, prime numbers
Link NOC:An Invitation to Mathematics Lecture 34 - Congruences, Modular arithmetic
Link NOC:An Invitation to Mathematics Lecture 35 - The Chinese remainder theorem
Link NOC:An Invitation to Mathematics Lecture 36 - The Euclidean algorithm, the 0-1 idea and the Chinese remainder theorem
Link Advanced Complex Analysis Lecture 1 - Fundamental Theorems Connected with Zeros of Analytic Functions
Link Advanced Complex Analysis Lecture 2 - The Argument (Counting) Principle, Rouche's Theorem and The Fundamental Theorem of Algebra
Link Advanced Complex Analysis Lecture 3 - Morera's Theorem and Normal Limits of Analytic Functions
Link Advanced Complex Analysis Lecture 4 - Hurwitz's Theorem and Normal Limits of Univalent Functions
Link Advanced Complex Analysis Lecture 5 - Local Constancy of Multiplicities of Assumed Values
Link Advanced Complex Analysis Lecture 6 - The Open Mapping Theorem
Link Advanced Complex Analysis Lecture 7 - Introduction to the Inverse Function Theorem
Link Advanced Complex Analysis Lecture 8 - Completion of the Proof of the Inverse Function Theorem: The Integral Inversion Formula for the Inverse Function
Link Advanced Complex Analysis Lecture 9 - Univalent Analytic Functions have never-zero Derivatives and are Analytic Isomorphisms
Link Advanced Complex Analysis Lecture 10 - Introduction to the Implicit Function Theorem
Link Advanced Complex Analysis Lecture 11 - Proof of the Implicit Function Theorem: Topological Preliminaries
Link Advanced Complex Analysis Lecture 12 - Proof of the Implicit Function Theorem: The Integral Formula for & Analyticity of the Explicit Function
Link Advanced Complex Analysis Lecture 13 - Doing Complex Analysis on a Real Surface: The Idea of a Riemann Surface
Link Advanced Complex Analysis Lecture 14 - F(z,w)=0 is naturally a Riemann Surface
Link Advanced Complex Analysis Lecture 15 - Constructing the Riemann Surface for the Complex Logarithm
Link Advanced Complex Analysis Lecture 16 - Constructing the Riemann Surface for the m-th root function
Link Advanced Complex Analysis Lecture 17 - The Riemann Surface for the functional inverse of an analytic mapping at a critical point
Link Advanced Complex Analysis Lecture 18 - The Algebraic nature of the functional inverses of an analytic mapping at a critical point
Link Advanced Complex Analysis Lecture 19 - The Idea of a Direct Analytic Continuation or an Analytic Extension
Link Advanced Complex Analysis Lecture 20 - General or Indirect Analytic Continuation and the Lipschitz Nature of the Radius of Convergence
Link Advanced Complex Analysis Lecture 21 - Analytic Continuation Along Paths via Power Series Part A
Link Advanced Complex Analysis Lecture 22 - Analytic Continuation Along Paths via Power Series Part B
Link Advanced Complex Analysis Lecture 23 - Continuity of Coefficients occurring in Families of Power Series defining Analytic Continuations along Paths
Link Advanced Complex Analysis Lecture 24 - Analytic Continuability along Paths: Dependence on the Initial Function and on the Path - First Version of the Monodromy Theorem
Link Advanced Complex Analysis Lecture 25 - Maximal Domains of Direct and Indirect Analytic Continuation: Second Version of the Monodromy Theorem
Link Advanced Complex Analysis Lecture 26 - Deducing the Second (Simply Connected) Version of the Monodromy Theorem from the First (Homotopy) Version
Link Advanced Complex Analysis Lecture 27 - Existence and Uniqueness of Analytic Continuations on Nearby Paths
Link Advanced Complex Analysis Lecture 28 - Proof of the First (Homotopy) Version of the Monodromy Theorem
Link Advanced Complex Analysis Lecture 29 - Proof of the Algebraic Nature of Analytic Branches of the Functional Inverse of an Analytic Function at a Critical Point
Link Advanced Complex Analysis Lecture 30 - The Mean-Value Property, Harmonic Functions and the Maximum Principle
Link Advanced Complex Analysis Lecture 31 - Proofs of Maximum Principles and Introduction to Schwarz Lemma
Link Advanced Complex Analysis Lecture 32 - Proof of Schwarz Lemma and Uniqueness of Riemann Mappings
Link Advanced Complex Analysis Lecture 33 - Reducing Existence of Riemann Mappings to Hyperbolic Geometry of Sub-domains of the Unit Disc
Link Advanced Complex Analysis Lecture 34 - Differential or Infinitesimal Schwarzs Lemma, Picks Lemma, Hyperbolic Arclengths, Metric and Geodesics on the Unit Disc
Link Advanced Complex Analysis Lecture 35 - Differential or Infinitesimal Schwarzs Lemma, Picks Lemma, Hyperbolic Arclengths, Metric and Geodesics on the Unit Disc
Link Advanced Complex Analysis Lecture 36 - Hyperbolic Geodesics for the Hyperbolic Metric on the Unit Disc
Link Advanced Complex Analysis Lecture 37 - Schwarz-Pick Lemma for the Hyperbolic Metric on the Unit Disc
Link Advanced Complex Analysis Lecture 38 - Arzela-Ascoli Theorem: Under Uniform Boundedness, Equicontinuity and Uniform Sequential Compactness are Equivalent
Link Advanced Complex Analysis Lecture 39 - Completion of the Proof of the Arzela-Ascoli Theorem and Introduction to Montels Theorem
Link Advanced Complex Analysis Lecture 40 - The Proof of Montels Theorem
Link Advanced Complex Analysis Lecture 41 - The Candidate for a Riemann Mapping
Link Advanced Complex Analysis Lecture 42 - Completion of Proof of The Riemann Mapping Theorem
Link Advanced Complex Analysis Lecture 43 - Completion of Proof of The Riemann Mapping Theorem
Link NOC:Discrete Mathematics Lecture 1 - Course Introduction
Link NOC:Discrete Mathematics Lecture 2 - Sets, Relations and Functions
Link NOC:Discrete Mathematics Lecture 3 - Propositional Logic and Predicate Logic
Link NOC:Discrete Mathematics Lecture 4 - Propositional Logic and Predicate Logic (Part 2)
Link NOC:Discrete Mathematics Lecture 5 - Elementary Number Theory
Link NOC:Discrete Mathematics Lecture 6 - Formal Proofs
Link NOC:Discrete Mathematics Lecture 7 - Direct Proofs
Link NOC:Discrete Mathematics Lecture 8 - Case Study
Link NOC:Discrete Mathematics Lecture 9 - Case Study (Part 2)
Link NOC:Discrete Mathematics Lecture 10 - Sets, Relations, Function and Logic
Link NOC:Discrete Mathematics Lecture 11 - Proof by Contradiction (Part 1)
Link NOC:Discrete Mathematics Lecture 12 - Proof by Contradiction (Part 2)
Link NOC:Discrete Mathematics Lecture 13 - Proof by Contraposition
Link NOC:Discrete Mathematics Lecture 14 - Proof by Counter Example
Link NOC:Discrete Mathematics Lecture 15 - Mathematical Induction (Part 1)
Link NOC:Discrete Mathematics Lecture 16 - Mathematical Induction (Part 2)
Link NOC:Discrete Mathematics Lecture 17 - Mathematical Induction (Part 3)
Link NOC:Discrete Mathematics Lecture 18 - Mathematical Induction (Part 4)
Link NOC:Discrete Mathematics Lecture 19 - Mathematical Induction (Part 5)
Link NOC:Discrete Mathematics Lecture 20 - Mathematical Induction (Part 6)
Link NOC:Discrete Mathematics Lecture 21 - Mathematical Induction (Part 7)
Link NOC:Discrete Mathematics Lecture 22 - Mathematical Induction (Part 8)
Link NOC:Discrete Mathematics Lecture 23 - Introduction to Graph Theory
Link NOC:Discrete Mathematics Lecture 24 - Handshake Problem
Link NOC:Discrete Mathematics Lecture 25 - Tournament Problem
Link NOC:Discrete Mathematics Lecture 26 - Tournament Problem (Part 2)
Link NOC:Discrete Mathematics Lecture 27 - Ramsey Problem
Link NOC:Discrete Mathematics Lecture 28 - Ramsey Problem (Part 2)
Link NOC:Discrete Mathematics Lecture 29 - Properties of Graphs
Link NOC:Discrete Mathematics Lecture 30 - Problem 1
Link NOC:Discrete Mathematics Lecture 31 - Problem 2
Link NOC:Discrete Mathematics Lecture 32 - Problem 3 & 4
Link NOC:Discrete Mathematics Lecture 33 - Counting for Selection
Link NOC:Discrete Mathematics Lecture 34 - Counting for Distribution
Link NOC:Discrete Mathematics Lecture 35 - Counting for Distribution (Part 2)
Link NOC:Discrete Mathematics Lecture 36 - Some Counting Problems
Link NOC:Discrete Mathematics Lecture 37 - Counting using Recurrence Relations
Link NOC:Discrete Mathematics Lecture 38 - Counting using Recurrence Relations (Part 2)
Link NOC:Discrete Mathematics Lecture 39 - Solving Recurrence Relations (Part 1)
Link NOC:Discrete Mathematics Lecture 40 - Solving Recurrence Relations (Part 2)
Link NOC:Discrete Mathematics Lecture 41 - Asymptotic Relations (Part 1)
Link NOC:Discrete Mathematics Lecture 42 - Asymptotic Relations (Part 2)
Link NOC:Discrete Mathematics Lecture 43 - Asymptotic Relations (Part 3)
Link NOC:Discrete Mathematics Lecture 44 - Asymptotic Relations (Part 4)
Link NOC:Discrete Mathematics Lecture 45 - Generating Functions (Part 1)
Link NOC:Discrete Mathematics Lecture 46 - Generating Functions (Part 2)
Link NOC:Discrete Mathematics Lecture 47 - Generating Functions (Part 3)
Link NOC:Discrete Mathematics Lecture 48 - Generating Functions (Part 4)
Link NOC:Discrete Mathematics Lecture 49 - Proof Techniques
Link NOC:Discrete Mathematics Lecture 50 - Modeling: Graph Theory and Linear Programming
Link NOC:Discrete Mathematics Lecture 51 - Combinatorics
Link Advanced Complex Analysis - Part 2 Lecture 1 - Properties of the Image of an Analytic Function - Introduction to the Picard Theorems
Link Advanced Complex Analysis - Part 2 Lecture 2 - Recalling Singularities of Analytic Functions - Non-isolated and Isolated Removable, Pole and Essential Singularities
Link Advanced Complex Analysis - Part 2 Lecture 3 - Recalling Riemann's Theorem on Removable Singularities
Link Advanced Complex Analysis - Part 2 Lecture 4 - Casorati-Weierstrass Theorem; Dealing with the Point at Infinity -- Riemann Sphere and Riemann Stereographic Projection
Link Advanced Complex Analysis - Part 2 Lecture 5 - Neighborhood of Infinity, Limit at Infinity and Infinity as an Isolated Singularity
Link Advanced Complex Analysis - Part 2 Lecture 6 - Studying Infinity - Formulating Epsilon-Delta Definitions for Infinite Limits and Limits at Infinity
Link Advanced Complex Analysis - Part 2 Lecture 7 - When is a function analytic at infinity ?
Link Advanced Complex Analysis - Part 2 Lecture 8 - Laurent Expansion at Infinity and Riemann\'s Removable Singularities Theorem for the Point at Infinity
Link Advanced Complex Analysis - Part 2 Lecture 9 - The Generalized Liouville Theorem - Little Brother of Little Picard and Analogue of Casorati-Weierstrass; Failure of Cauchy\'s Theorem at Infinity
Link Advanced Complex Analysis - Part 2 Lecture 10 - Morera\'s Theorem at Infinity, Infinity as a Pole and Behaviour at Infinity of Rational and Meromorphic Functions
Link Advanced Complex Analysis - Part 2 Lecture 11 - Residue at Infinity and Introduction to the Residue Theorem for the Extended Complex Plane - Residue Theorem for the Point at Infinity
Link Advanced Complex Analysis - Part 2 Lecture 12 - Proofs of Two Avatars of the Residue Theorem for the Extended Complex Plane and Applications of the Residue at Infinity
Link Advanced Complex Analysis - Part 2 Lecture 13 - Infinity as an Essential Singularity and Transcendental Entire Functions
Link Advanced Complex Analysis - Part 2 Lecture 14 - Meromorphic Functions on the Extended Complex Plane are Precisely Quotients of Polynomials
Link Advanced Complex Analysis - Part 2 Lecture 15 - The Ubiquity of Meromorphic Functions - The Nerves of the Geometric Network Bridging Algebra, Analysis and Topology
Link Advanced Complex Analysis - Part 2 Lecture 16 - Continuity of Meromorphic Functions at Poles and Topologies of Spaces of Functions
Link Advanced Complex Analysis - Part 2 Lecture 17 - Why Normal Convergence, but Not Globally Uniform Convergence, is the Inevitable in Complex Analysis
Link Advanced Complex Analysis - Part 2 Lecture 18 - Measuring Distances to Infinity, the Function Infinity and Normal Convergence of Holomorphic Functions in the Spherical Metric
Link Advanced Complex Analysis - Part 2 Lecture 19 - The Invariance Under Inversion of the Spherical Metric on the Extended Complex Plane
Link Advanced Complex Analysis - Part 2 Lecture 20 - Introduction to Hurwitz\'s Theorem for Normal Convergence of Holomorphic Functions in the Spherical Metric
Link Advanced Complex Analysis - Part 2 Lecture 21 - Completion of Proof of Hurwitz\'s Theorem for Normal Limits of Analytic Functions in the Spherical Metric
Link Advanced Complex Analysis - Part 2 Lecture 22 - Hurwitz\'s Theorem for Normal Limits of Meromorphic Functions in the Spherical Metric
Link Advanced Complex Analysis - Part 2 Lecture 23 - What could the Derivative of a Meromorphic Function Relative to the Spherical Metric Possibly Be ?
Link Advanced Complex Analysis - Part 2 Lecture 24 - Defining the Spherical Derivative of a Meromorphic Function
Link Advanced Complex Analysis - Part 2 Lecture 25 - Well-definedness of the Spherical Derivative of a Meromorphic Function at a Pole and Inversion-invariance of the Spherical Derivative
Link Advanced Complex Analysis - Part 2 Lecture 26 - Topological Preliminaries - Translating Compactness into Boundedness
Link Advanced Complex Analysis - Part 2 Lecture 27 - Introduction to the Arzela-Ascoli Theorem - Passing from abstract Compactness to verifiable Equicontinuity
Link Advanced Complex Analysis - Part 2 Lecture 28 - Proof of the Arzela-Ascoli Theorem for Functions - Abstract Compactness Implies Equicontinuity
Link Advanced Complex Analysis - Part 2 Lecture 29 - Proof of the Arzela-Ascoli Theorem for Functions - Equicontinuity Implies Compactness
Link Advanced Complex Analysis - Part 2 Lecture 30 - Introduction to the Montel Theorem - the Holomorphic Avatar of the Arzela-Ascoli Theorem & Why you get Equicontinuity for Free
Link Advanced Complex Analysis - Part 2 Lecture 31 - Completion of Proof of the Montel Theorem - the Holomorphic Avatar of the Arzela-Ascoli Theorem
Link Advanced Complex Analysis - Part 2 Lecture 32 - Introduction to Marty\'s Theorem - the Meromorphic Avatar of the Montel & Arzela-Ascoli Theorems
Link Advanced Complex Analysis - Part 2 Lecture 33 - Proof of one direction of Marty\'s Theorem - the Meromorphic Avatar of the Montel & Arzela-Ascoli Theorems - Normal Uniform Boundedness of Spherical Derivatives Implies Normal Sequential Compactness
Link Advanced Complex Analysis - Part 2 Lecture 34 - Proof of the other direction of Marty\'s Theorem - the Meromorphic Avatar of the Montel & Arzela-Ascoli Theorems - Normal Sequential Compactness Implies Normal Uniform Boundedness of Spherical Derivatives
Link Advanced Complex Analysis - Part 2 Lecture 35 - Normal Convergence at Infinity and Hurwitz\'s Theorems for Normal Limits of Analytic and Meromorphic Functions at Infinity
Link Advanced Complex Analysis - Part 2 Lecture 36 - Normal Sequential Compactness, Normal Uniform Boundedness and Montel\'s & Marty\'s Theorems at Infinity
Link Advanced Complex Analysis - Part 2 Lecture 37 - Local Analysis of Normality and the Zooming Process - Motivation for Zalcman\'s Lemma
Link Advanced Complex Analysis - Part 2 Lecture 38 - Characterizing Normality at a Point by the Zooming Process and the Motivation for Zalcman\'s Lemma
Link Advanced Complex Analysis - Part 2 Lecture 39 - Local Analysis of Normality and the Zooming Process - Motivation for Zalcman\'s Lemma
Link Advanced Complex Analysis - Part 2 Lecture 40 - Montel\'s Deep Theorem - The Fundamental Criterion for Normality or Fundamental Normality Test based on Omission of Values
Link Advanced Complex Analysis - Part 2 Lecture 41 - Proofs of the Great and Little Picard Theorems
Link Advanced Complex Analysis - Part 2 Lecture 42 - Royden\'s Theorem on Normality Based On Growth Of Derivatives
Link Advanced Complex Analysis - Part 2 Lecture 43 - Schottky\'s Theorem - Uniform Boundedness from a Point to a Neighbourhood & Problem Solving Session
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 1 - What is Algebraic Geometry?
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 2 - The Zariski Topology and Affine Space
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 3 - Going back and forth between subsets and ideals
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 4 - Irreducibility in the Zariski Topology
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 5 - Irreducible Closed Subsets Correspond to Ideals Whose Radicals are Prime
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 6 - Understanding the Zariski Topology on the Affine Line; The Noetherian property in Topology and in Algebra
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 7 - Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 8 - Topological Dimension, Krull Dimension and Heights of Prime Ideals
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 9 - The Ring of Polynomial Functions on an Affine Variety
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 10 - Geometric Hypersurfaces are Precisely Algebraic Hypersurfaces
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 11 - Why Should We Study Affine Coordinate Rings of Functions on Affine Varieties ?
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 12 - Capturing an Affine Variety Topologically From the Maximal Spectrum of its Ring of Functions
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 13 - Analyzing Open Sets and Basic Open Sets for the Zariski Topology
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 14 - The Ring of Functions on a Basic Open Set in the Zariski Topology
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 15 - Quasi-Compactness in the Zariski Topology; Regularity of a Function at a point of an Affine Variety
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 16 - What is a Global Regular Function on a Quasi-Affine Variety?
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 17 - Characterizing Affine Varieties; Defining Morphisms between Affine or Quasi-Affine Varieties
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 18 - Translating Morphisms into Affines as k-Algebra maps and the Grand Hilbert Nullstellensatz
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 19 - Morphisms into an Affine Correspond to k-Algebra Homomorphisms from its Coordinate Ring of Functions
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 20 - The Coordinate Ring of an Affine Variety Determines the Affine Variety and is Intrinsic to it
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 21 - Automorphisms of Affine Spaces and of Polynomial Rings - The Jacobian Conjecture; The Punctured Plane is Not Affine
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 22 - The Various Avatars of Projective n-space
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 23 - Gluing (n+1) copies of Affine n-Space to Produce Projective n-space in Topology, Manifold Theory and Algebraic Geometry; The Key to the Definition of a Homogeneous Ideal
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 24 - Translating Projective Geometry into Graded Rings and Homogeneous Ideals
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 25 - Expanding the Category of Varieties to Include Projective and Quasi-Projective Varieties
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 26 - Translating Homogeneous Localisation into Geometry and Back
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 27 - Adding a Variable is Undone by Homogenous Localization - What is the Geometric Significance of this Algebraic Fact ?
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 28 - Doing Calculus Without Limits in Geometry ?
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 29 - The Birth of Local Rings in Geometry and in Algebra
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 30 - The Formula for the Local Ring at a Point of a Projective Variety Or Playing with Localisations, Quotients, Homogenisation and Dehomogenisation !
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 31 - The Field of Rational Functions or Function Field of a Variety - The Local Ring at the Generic Point
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 32 - Fields of Rational Functions or Function Fields of Affine and Projective Varieties and their Relationships with Dimensions
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 33 - Global Regular Functions on Projective Varieties are Simply the Constants
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 34 - The d-Uple Embedding and the Non-Intrinsic Nature of the Homogeneous Coordinate Ring of a Projective Variety
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 35 - The Importance of Local Rings - A Morphism is an Isomorphism if it is a Homeomorphism and Induces Isomorphisms at the Level of Local Rings
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 36 - The Importance of Local Rings - A Rational Function in Every Local Ring is Globally Regular
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 37 - Geometric Meaning of Isomorphism of Local Rings - Local Rings are Almost Global
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 38 - Local Ring Isomorphism,Equals Function Field Isomorphism, Equals Birationality
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 39 - Why Local Rings Provide Calculus Without Limits for Algebraic Geometry Pun Intended!
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 40 - How Local Rings Detect Smoothness or Nonsingularity in Algebraic Geometry
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 41 - Any Variety is a Smooth Manifold with or without Non-Smooth Boundary
Link Basic Algebraic Geometry : Varieties, Morphisms, Local Rings, Function Fields and Nonsingularity Lecture 42 - Any Variety is a Smooth Hypersurface On an Open Dense Subset
Link NOC:Introduction to Commutative Algebra Lecture 1 - Review of Ring Theory
Link NOC:Introduction to Commutative Algebra Lecture 2 - Review of Ring Theory (Continued...)
Link NOC:Introduction to Commutative Algebra Lecture 3 - Ideals in commutative rings
Link NOC:Introduction to Commutative Algebra Lecture 4 - Operations on ideals
Link NOC:Introduction to Commutative Algebra Lecture 5 - Properties of prime ideals
Link NOC:Introduction to Commutative Algebra Lecture 6 - Colon and Radical of ideals
Link NOC:Introduction to Commutative Algebra Lecture 7 - Radicals, extension and contraction of ideals
Link NOC:Introduction to Commutative Algebra Lecture 8 - Modules and homomorphisms
Link NOC:Introduction to Commutative Algebra Lecture 9 - Isomorphism theorems and Operations on modules
Link NOC:Introduction to Commutative Algebra Lecture 10 - Operations on modules (Continued...)
Link NOC:Introduction to Commutative Algebra Lecture 11 - Module homomorphism and determinant trick
Link NOC:Introduction to Commutative Algebra Lecture 12 - Nakayama’s lemma and exact sequences
Link NOC:Introduction to Commutative Algebra Lecture 13 - Exact sequences (Continued...)
Link NOC:Introduction to Commutative Algebra Lecture 14 - Homomorphisms and Tensor products
Link NOC:Introduction to Commutative Algebra Lecture 15 - Properties of tensor products
Link NOC:Introduction to Commutative Algebra Lecture 16 - Properties of tensor products (Continued...)
Link NOC:Introduction to Commutative Algebra Lecture 17 - Tensor product of Algebras
Link NOC:Introduction to Commutative Algebra Lecture 18 - Localization
Link NOC:Introduction to Commutative Algebra Lecture 19 - Localization (Continued...)
Link NOC:Introduction to Commutative Algebra Lecture 20 - Local properties
Link NOC:Introduction to Commutative Algebra Lecture 21 - Further properties of localization
Link NOC:Introduction to Commutative Algebra Lecture 22 - Intergral dependence
Link NOC:Introduction to Commutative Algebra Lecture 23 - Integral extensions
Link NOC:Introduction to Commutative Algebra Lecture 24 - Lying over and Going-up theorems
Link NOC:Introduction to Commutative Algebra Lecture 25 - Going-down theorem
Link NOC:Introduction to Commutative Algebra Lecture 26 - Going-down theorem (Continued...)
Link NOC:Introduction to Commutative Algebra Lecture 27 - Chain conditions
Link NOC:Introduction to Commutative Algebra Lecture 28 - Noetherian and Artinian modules
Link NOC:Introduction to Commutative Algebra Lecture 29 - Properties of Noetherian and Artinian modules, Composition Series
Link NOC:Introduction to Commutative Algebra Lecture 30 - Further properties of Noetherian and Artinian modules and rings
Link NOC:Introduction to Commutative Algebra Lecture 31 - Hilbert basis theorem and Primary decomposition
Link NOC:Introduction to Commutative Algebra Lecture 32 - Primary decomposition (Continued...)
Link NOC:Introduction to Commutative Algebra Lecture 33 - Uniqueness of primary decomposition
Link NOC:Introduction to Commutative Algebra Lecture 34 - 2nd Uniqueness theorem, Artinian rings
Link NOC:Introduction to Commutative Algebra Lecture 35 - Properties of Artinian rings
Link NOC:Introduction to Commutative Algebra Lecture 36 - Structure Theorem of Artinian rings
Link NOC:Introduction to Commutative Algebra Lecture 37 - Noether Normalization
Link NOC:Introduction to Commutative Algebra Lecture 38 - Hilberts Nullstellensatz
Link NOC:Differential Equations Lecture 1 - Introduction to Ordinary Differential Equations (ODE)
Link NOC:Differential Equations Lecture 2 - Methods for First Order ODE's - Homogeneous Equations
Link NOC:Differential Equations Lecture 3 - Methods for First order ODE's - Exact Equations
Link NOC:Differential Equations Lecture 4 - Methods for First Order ODE's - Exact Equations (Continued...)
Link NOC:Differential Equations Lecture 5 - Methods for First order ODE's - Reducible to Exact Equations
Link NOC:Differential Equations Lecture 6 - Methods for First order ODE's - Reducible to Exact Equations (Continued...)
Link NOC:Differential Equations Lecture 7 - Non-Exact Equations - Finding Integrating Factors
Link NOC:Differential Equations Lecture 8 - Linear First Order ODE and Bernoulli's Equation
Link NOC:Differential Equations Lecture 9 - Introduction to Second order ODE's
Link NOC:Differential Equations Lecture 10 - Properties of solutions of second order homogeneous ODE's
Link NOC:Differential Equations Lecture 11 - Abel's formula to find the other solution
Link NOC:Differential Equations Lecture 12 - Abel's formula - Demonstration
Link NOC:Differential Equations Lecture 13 - Second Order ODE's with constant coefficients
Link NOC:Differential Equations Lecture 14 - Euler - Cauchy equation
Link NOC:Differential Equations Lecture 15 - Non homogeneous ODEs Variation of Parameters
Link NOC:Differential Equations Lecture 16 - Method of undetermined coefficients
Link NOC:Differential Equations Lecture 17 - Demonstration of Method of undetermined coefficients
Link NOC:Differential Equations Lecture 18 - Power Series and its properties
Link NOC:Differential Equations Lecture 19 - Power Series Solutions to Second Order ODE's
Link NOC:Differential Equations Lecture 20 - Power Series Solutions (Continued...)
Link NOC:Differential Equations Lecture 21 - Legendre Differential Equation
Link NOC:Differential Equations Lecture 22 - Legendre Polynomials
Link NOC:Differential Equations Lecture 23 - Properties of Legendre Polynomials
Link NOC:Differential Equations Lecture 24 - Power series solutions around a regular singular point
Link NOC:Differential Equations Lecture 25 - Frobenius method of solutions
Link NOC:Differential Equations Lecture 26 - Frobenius method of solutions (Continued...)
Link NOC:Differential Equations Lecture 27 - Examples on Frobenius method
Link NOC:Differential Equations Lecture 28 - Bessel differential equation
Link NOC:Differential Equations Lecture 29 - Frobenius solutions for Bessel Equation
Link NOC:Differential Equations Lecture 30 - Properties of Bessel functions
Link NOC:Differential Equations Lecture 31 - Properties of Bessel functions (Continued...)
Link NOC:Differential Equations Lecture 32 - Introduction to Sturm-Liouville theory
Link NOC:Differential Equations Lecture 33 - Sturm-Liouville Problems
Link NOC:Differential Equations Lecture 34 - Regular Sturm-Liouville problem
Link NOC:Differential Equations Lecture 35 - Periodic and singular Sturm-Liouville Problems
Link NOC:Differential Equations Lecture 36 - Generalized Fourier series
Link NOC:Differential Equations Lecture 37 - Examples of Sturm-Liouville systems
Link NOC:Differential Equations Lecture 38 - Examples of Sturm-Liouville systems (Continued...)
Link NOC:Differential Equations Lecture 39 - Examples of regular Sturm-Liouville systems
Link NOC:Differential Equations Lecture 40 - Second order linear PDEs
Link NOC:Differential Equations Lecture 41 - Classification of second order linear PDEs
Link NOC:Differential Equations Lecture 42 - Reduction to canonical form for equations with constant coefficients
Link NOC:Differential Equations Lecture 43 - Reduction to canonical form for equations with variable coefficients
Link NOC:Differential Equations Lecture 44 - Reduction to Normal form-More examples
Link NOC:Differential Equations Lecture 45 - D'Alembert solution for wave equation
Link NOC:Differential Equations Lecture 46 - Uniqueness of solutions for wave equation
Link NOC:Differential Equations Lecture 47 - Vibration of a semi-infinite string
Link NOC:Differential Equations Lecture 48 - Vibration of a finite string
Link NOC:Differential Equations Lecture 49 - Finite length string vibrations
Link NOC:Differential Equations Lecture 50 - Finite length string vibrations (Continued...)
Link NOC:Differential Equations Lecture 51 - Non-homogeneous wave equation
Link NOC:Differential Equations Lecture 52 - Vibration of a circular drum
Link NOC:Differential Equations Lecture 53 - Solutions of heat equation-Properties
Link NOC:Differential Equations Lecture 54 - Temperature in an infinite rod
Link NOC:Differential Equations Lecture 55 - Temperature in a semi-infinite rod
Link NOC:Differential Equations Lecture 56 - Non-homogeneous heat equation
Link NOC:Differential Equations Lecture 57 - Temperature in a finite rod
Link NOC:Differential Equations Lecture 58 - Temperature in a finite rod with insulated ends
Link NOC:Differential Equations Lecture 59 - Laplace equation over a rectangle
Link NOC:Differential Equations Lecture 60 - Laplace equation over a rectangle with flux boundary conditions
Link NOC:Differential Equations Lecture 61 - Laplace equation over circular domains
Link NOC:Differential Equations Lecture 62 - Laplace equation over circular Sectors
Link NOC:Differential Equations Lecture 63 - Uniqueness of the boundary value problems for Laplace equation
Link NOC:Differential Equations Lecture 64 - Conclusions
Link NOC:Numerical Analysis Lecture 1 - Lesson 1 - Introduction, Motivation
Link NOC:Numerical Analysis Lecture 2 - Lesson 2 - Part 1 - Mathematical Preliminaries, Polynomial Interpolation - 1
Link NOC:Numerical Analysis Lecture 3 - Lesson 2 - Part 2 - Mathematical Preliminaries, Polynomial Interpolation - 1
Link NOC:Numerical Analysis Lecture 4 - Lesson 3 - Part 1 - Polynomial Interpolation - 2
Link NOC:Numerical Analysis Lecture 5 - Lesson 3 - Part 2 - Polynomial Interpolation - 2
Link NOC:Numerical Analysis Lecture 6 - Lesson 4 - Polynomial Interpolation - 3
Link NOC:Numerical Analysis Lecture 7 - Lagrange Interpolation Polynomial, Error In Interpolation - 1
Link NOC:Numerical Analysis Lecture 8 - Lagrange Interpolation Polynomial, Error In Interpolation - 1
Link NOC:Numerical Analysis Lecture 9 - Error In Interpolation - 2
Link NOC:Numerical Analysis Lecture 10 - Error In Interpolation - 2
Link NOC:Numerical Analysis Lecture 11 - Divide Difference Interpolation Polynomial
Link NOC:Numerical Analysis Lecture 12 - Properties Of Divided Difference, Introduction To Inverse Interpolation
Link NOC:Numerical Analysis Lecture 13 - Properties Of Divided Difference, Introduction To Inverse Interpolation
Link NOC:Numerical Analysis Lecture 14 - Inverse Interpolation, Remarks on Polynomial Interpolation
Link NOC:Numerical Analysis Lecture 15 - Numerical Differentiation - 1 Taylor Series Method
Link NOC:Numerical Analysis Lecture 16 - Numerical Differentiation - 2 Method Of Undetermined Coefficients
Link NOC:Numerical Analysis Lecture 17 - Numerical Differentiation - 2 Polynomial Interpolation Method
Link NOC:Numerical Analysis Lecture 18 - Numerical Differentiation - 3 Operator Method Numerical Integration - 1
Link NOC:Numerical Analysis Lecture 19 - Numerical Integration - 2 Error in Trapezoidal Rule Simpson's Rule
Link NOC:Numerical Analysis Lecture 20 - Numerical Integration - 3 Error in Simpson's Rule Composite in Trapezoidal Rule, Error
Link NOC:Numerical Analysis Lecture 21 - Numerical Integration - 4 Composite Simpsons Rule , Error Method of Undetermined Coefficients
Link NOC:Numerical Analysis Lecture 22 - Numerical Integration - 5 Gaussian Quadrature (Two-Point Method)
Link NOC:Numerical Analysis Lecture 23 - Numerical Integrature - 5 Gaussian Quadrature (Three-Point Method) Adaptive Quadrature
Link NOC:Numerical Analysis Lecture 24 - Numerical Solution of Ordinary Differential Equation (ODE) - 1
Link NOC:Numerical Analysis Lecture 25 - Numerical Solution Of ODE-2 Stability , Single-Step Methods - 1 Taylor Series Method
Link NOC:Numerical Analysis Lecture 26 - Numerical Solution Of ODE-3 Examples of Taylor Series Method Euler's Method
Link NOC:Numerical Analysis Lecture 27 - Numerical Solution Of ODE-4 Runge-Kutta Methods
Link NOC:Numerical Analysis Lecture 28 - Numerical Solution Of ODE-5 Example For RK-Method Of Order 2 Modified Euler's Method
Link NOC:Numerical Analysis Lecture 29 - Numerical Solution Of Ordinary Differential Equations - 6 Predictor-Corrector Methods (Adam-Moulton)
Link NOC:Numerical Analysis Lecture 30 - Numerical Solution Of Ordinary Differential Equations - 7
Link NOC:Numerical Analysis Lecture 31 - Numerical Solution Of Ordinary Differential Equations - 8
Link NOC:Numerical Analysis Lecture 32 - Numerical Solution of Ordinary Differential Equations - 9
Link NOC:Numerical Analysis Lecture 33 - Numerical Solution of Ordinary Differential Equations - 10
Link NOC:Numerical Analysis Lecture 34 - Numerical Solution of Ordinary Differential Equations - 11
Link NOC:Numerical Analysis Lecture 35 - Root Finding Methods - 1 The Bisection Method - 1
Link NOC:Numerical Analysis Lecture 36 - Root Finding Methods - 2 The Bisection Method - 2
Link NOC:Numerical Analysis Lecture 37 - Root Finding Methods - 3 Newton-Raphson Method - 1
Link NOC:Numerical Analysis Lecture 38 - Root Finding Methods - 4 Newton-Raphson Method - 2
Link NOC:Numerical Analysis Lecture 39 - Root Finding Methods - 5 Secant Method, Method Of false Position
Link NOC:Numerical Analysis Lecture 40 - Root Finding Methods - 6 Fixed Point Methods - 1
Link NOC:Numerical Analysis Lecture 41 - Root Finding Methods - 7 Fixed Point Methods - 2
Link NOC:Numerical Analysis Lecture 42 - Root Finding Methods - 8 Fixed Point Iteration Methods - 3
Link NOC:Numerical Analysis Lecture 43 - Root Finding Methods - 9 Practice Problems
Link NOC:Numerical Analysis Lecture 44 - Solution Of Linear Systems Of Equations - 1
Link NOC:Numerical Analysis Lecture 45 - Solution Of Linear Systems Of Equations - 2
Link NOC:Numerical Analysis Lecture 46 - Solution Of Linear Systems Of Equations - 3
Link NOC:Numerical Analysis Lecture 47 - Solution Of Linear Systems Of Equations - 4
Link NOC:Numerical Analysis Lecture 48 - Solution Of Linear Systems Of Equations - 5
Link NOC:Numerical Analysis Lecture 49 - Solution Of Linear Systems Of Equations - 6
Link NOC:Numerical Analysis Lecture 50 - Solution Of Linear Systems Of Equations - 7
Link NOC:Numerical Analysis Lecture 51 - Solution Of Linear Systems Of Equations - 8 Iterative Method - 1
Link NOC:Numerical Analysis Lecture 52 - Solution Of Linear Systems Of Equations - 8 Iterative Method - 2
Link NOC:Numerical Analysis Lecture 53 - Matrix Eigenvalue Problems - 2 Power Method - 2
Link NOC:Numerical Analysis Lecture 54 - Practice Problems
Link NOC:Graph Theory Lecture 1 - Basic Concepts
Link NOC:Graph Theory Lecture 2 - Basic Concepts - 1
Link NOC:Graph Theory Lecture 3 - Eulerian and Hamiltonian Graph
Link NOC:Graph Theory Lecture 4 - Eulerian and Hamiltonian Graph - 1
Link NOC:Graph Theory Lecture 5 - Bipartite Graph
Link NOC:Graph Theory Lecture 6 - Bipartite Graph
Link NOC:Graph Theory Lecture 7 - Diameter of a graph; Isomorphic graphs
Link NOC:Graph Theory Lecture 8 - Diameter of a graph; Isomorphic graphs
Link NOC:Graph Theory Lecture 9 - Minimum Spanning Tree
Link NOC:Graph Theory Lecture 10 - Minimum Spanning Trees (Continued...)
Link NOC:Graph Theory Lecture 11 - Minimum Spanning Trees (Continued...)
Link NOC:Graph Theory Lecture 12 - Minimum Spanning Trees (Continued...)
Link NOC:Graph Theory Lecture 13 - Maximum Matching in Bipartite Graph
Link NOC:Graph Theory Lecture 14 - Maximum Matching in Bipartite Graph - 1
Link NOC:Graph Theory Lecture 15 - Hall's Theorem and Konig's Theorem
Link NOC:Graph Theory Lecture 16 - Hall's Theorem and Konig's Theorem - 1
Link NOC:Graph Theory Lecture 17 - Independent Set and Edge Cover
Link NOC:Graph Theory Lecture 18 - Independent Set and Edge Cover - 1
Link NOC:Graph Theory Lecture 19 - Matching in General Graphs
Link NOC:Graph Theory Lecture 20 - Proof of Halls Theorem
Link NOC:Graph Theory Lecture 21 - Stable Matching
Link NOC:Graph Theory Lecture 22 - Gale-Shapley Algorithm
Link NOC:Graph Theory Lecture 23 - Graph Connectivity
Link NOC:Graph Theory Lecture 24 - Graph Connectivity - 1
Link NOC:Graph Theory Lecture 25 - 2-Connected Graphs
Link NOC:Graph Theory Lecture 26 - 2-Connected Graphs - 1
Link NOC:Graph Theory Lecture 27 - Subdivision of an edge; 2-edge-connected graphs
Link NOC:Graph Theory Lecture 28 - Problems Related to Graphs Connectivity
Link NOC:Graph Theory Lecture 29 - Flow Network
Link NOC:Graph Theory Lecture 30 - Residual Network and Augmenting Path
Link NOC:Graph Theory Lecture 31 - Augmenting Path Algorithm
Link NOC:Graph Theory Lecture 32 - Max-Flow and Min-Cut
Link NOC:Graph Theory Lecture 33 - Max-Flow and Min-Cut Theorem
Link NOC:Graph Theory Lecture 34 - Vertex Colouring
Link NOC:Graph Theory Lecture 35 - Chromatic Number and Max. Degree
Link NOC:Graph Theory Lecture 36 - Edge Colouring
Link NOC:Graph Theory Lecture 37 - Planar Graphs and Euler's Formula
Link NOC:Graph Theory Lecture 38 - Characterization Of Planar Graphs
Link NOC:Graph Theory Lecture 39 - Colouring of Planar Graphs
Link NOC:Transform Techniques for Engineers Lecture 1 - Introduction to Fourier series
Link NOC:Transform Techniques for Engineers Lecture 2 - Fourier series - Examples 
Link NOC:Transform Techniques for Engineers Lecture 3 - Complex Fourier series 
Link NOC:Transform Techniques for Engineers Lecture 4 - Conditions for the Convergence of Fourier Series 
Link NOC:Transform Techniques for Engineers Lecture 5 - Conditions for the Convergence of Fourier Series (Continued...)
Link NOC:Transform Techniques for Engineers Lecture 6 - Use of Delta function in the Fourier series convergence
Link NOC:Transform Techniques for Engineers Lecture 7 - More Examples on Fourier Series of a Periodic Signal
Link NOC:Transform Techniques for Engineers Lecture 8 - Gibb's Phenomenon in the Computation of Fourier Series
Link NOC:Transform Techniques for Engineers Lecture 9 - Properties of Fourier Transform of a Periodic Signal
Link NOC:Transform Techniques for Engineers Lecture 10 - Properties of Fourier transform (Continued...)
Link NOC:Transform Techniques for Engineers Lecture 11 - Parseval's Identity and Recap of Fourier series
Link NOC:Transform Techniques for Engineers Lecture 12 - Fourier integral theorem-an informal proof
Link NOC:Transform Techniques for Engineers Lecture 13 - Definition of Fourier transforms
Link NOC:Transform Techniques for Engineers Lecture 14 - Fourier transform of a Heavyside function
Link NOC:Transform Techniques for Engineers Lecture 15 - Use of Fourier transforms to evaluate some integrals
Link NOC:Transform Techniques for Engineers Lecture 16 - Evaluation of an integral- Recall of complex function theory
Link NOC:Transform Techniques for Engineers Lecture 17 - Properties of Fourier transforms of non-periodic signals
Link NOC:Transform Techniques for Engineers Lecture 18 - More properties of Fourier transforms
Link NOC:Transform Techniques for Engineers Lecture 19 - Fourier integral theorem - proof
Link NOC:Transform Techniques for Engineers Lecture 20 - Application of Fourier transform to ODE's
Link NOC:Transform Techniques for Engineers Lecture 21 - Application of Fourier transforms to differential and integral equations
Link NOC:Transform Techniques for Engineers Lecture 22 - Evaluation of integrals by Fourier transforms
Link NOC:Transform Techniques for Engineers Lecture 23 - D'Alembert's solution by Fourier transform
Link NOC:Transform Techniques for Engineers Lecture 24 - Solution of Heat equation by Fourier transform
Link NOC:Transform Techniques for Engineers Lecture 25 - Solution of Heat and Laplace equations by Fourier transform
Link NOC:Transform Techniques for Engineers Lecture 26 - Introduction to Laplace transform
Link NOC:Transform Techniques for Engineers Lecture 27 - Laplace transform of elementary functions
Link NOC:Transform Techniques for Engineers Lecture 28 - Properties of Laplace transforms
Link NOC:Transform Techniques for Engineers Lecture 29 - Properties of Laplace transforms (Continued...)
Link NOC:Transform Techniques for Engineers Lecture 30 - Methods of finding inverse Laplace transform
Link NOC:Transform Techniques for Engineers Lecture 31 - Heavyside expansion theorem
Link NOC:Transform Techniques for Engineers Lecture 32 - Review of complex function theory
Link NOC:Transform Techniques for Engineers Lecture 33 - Inverse Laplace transform by contour integration
Link NOC:Transform Techniques for Engineers Lecture 34 - Application of Laplace transforms - ODEs'
Link NOC:Transform Techniques for Engineers Lecture 35 - Solutions of initial or boundary value problems for ODEs'
Link NOC:Transform Techniques for Engineers Lecture 36 - Solving first order PDE's by Laplace transform
Link NOC:Transform Techniques for Engineers Lecture 37 - Solution of wave equation by Laplace transform
Link NOC:Transform Techniques for Engineers Lecture 38 - Solving hyperbolic equations by Laplace transform
Link NOC:Transform Techniques for Engineers Lecture 39 - Solving heat equation by Laplace transform
Link NOC:Transform Techniques for Engineers Lecture 40 - Initial boundary value problems for heat equations
Link NOC:Transform Techniques for Engineers Lecture 41 - Solution of Integral Equations by Laplace Transform
Link NOC:Transform Techniques for Engineers Lecture 42 - Evaluation of Integrals by Laplace Transform
Link NOC:Transform Techniques for Engineers Lecture 43 - Introduction to Z-Transforms
Link NOC:Transform Techniques for Engineers Lecture 44 - Properties of Z-Transforms
Link NOC:Transform Techniques for Engineers Lecture 45 - Inverse Z-transforms
Link NOC:Transform Techniques for Engineers Lecture 46 - Solution of difference equations by Z-transforms
Link NOC:Transform Techniques for Engineers Lecture 47 - Evaluation of infinite sums by Z-transforms
Link NOC:Transform Techniques for Engineers Lecture 48 - conclusions
Link NOC:Introduction to Probability and Statistics Lecture 1 - Introduction to probability and Statistics
Link NOC:Introduction to Probability and Statistics Lecture 2 - Types of data
Link NOC:Introduction to Probability and Statistics Lecture 3 - Categorical data
Link NOC:Introduction to Probability and Statistics Lecture 4 - Describing Categorical data
Link NOC:Introduction to Probability and Statistics Lecture 5 - Describing Categorical data (Continued...)
Link NOC:Introduction to Probability and Statistics Lecture 6 - Describing numerical data
Link NOC:Introduction to Probability and Statistics Lecture 7 - Describing numerical data (Continued...)
Link NOC:Introduction to Probability and Statistics Lecture 8 - Exercises, Association between categorical variables
Link NOC:Introduction to Probability and Statistics Lecture 9 - Association between categorical variables (Continued...)
Link NOC:Introduction to Probability and Statistics Lecture 10 - Association between numerical variables
Link NOC:Introduction to Probability and Statistics Lecture 11 - Association between numerical variables (Continued...)
Link NOC:Introduction to Probability and Statistics Lecture 12 - Probability
Link NOC:Introduction to Probability and Statistics Lecture 13 - Rules of Probability
Link NOC:Introduction to Probability and Statistics Lecture 14 - Rules of Probability (Continued...)
Link NOC:Introduction to Probability and Statistics Lecture 15 - Conditional Probability
Link NOC:Introduction to Probability and Statistics Lecture 16 - Random variables
Link NOC:Introduction to Probability and Statistics Lecture 17 - Random variables - concepts and exercises
Link NOC:Introduction to Probability and Statistics Lecture 18 - Association between Random variables
Link NOC:Introduction to Probability and Statistics Lecture 19 - Binomial Distribution
Link NOC:Introduction to Probability and Statistics Lecture 20 - Normal distribution
Link NOC:Introduction to Probability and Statistics Lecture 21 - Additional Examples
Link NOC:Introduction to Abstract Group Theory Lecture 1 - Motivational examples of groups
Link NOC:Introduction to Abstract Group Theory Lecture 2 - Definition of a group and examples
Link NOC:Introduction to Abstract Group Theory Lecture 3 - More examples of groups
Link NOC:Introduction to Abstract Group Theory Lecture 4 - Basic properties of groups and multiplication tables
Link NOC:Introduction to Abstract Group Theory Lecture 5 - Problems - 1
Link NOC:Introduction to Abstract Group Theory Lecture 6 - Problems - 2
Link NOC:Introduction to Abstract Group Theory Lecture 7 - Problems - 3
Link NOC:Introduction to Abstract Group Theory Lecture 8 - Subgroups
Link NOC:Introduction to Abstract Group Theory Lecture 9 - Types of groups
Link NOC:Introduction to Abstract Group Theory Lecture 10 - Group homomorphisms and examples
Link NOC:Introduction to Abstract Group Theory Lecture 11 - Properties of homomorphisms
Link NOC:Introduction to Abstract Group Theory Lecture 12 - Group isomorphisms
Link NOC:Introduction to Abstract Group Theory Lecture 13 - Normal subgroups
Link NOC:Introduction to Abstract Group Theory Lecture 14 - Equivalence relations
Link NOC:Introduction to Abstract Group Theory Lecture 15 - Problems - 4
Link NOC:Introduction to Abstract Group Theory Lecture 16 - Cosets and Lagrange's theorem
Link NOC:Introduction to Abstract Group Theory Lecture 17 - S_3 revisited
Link NOC:Introduction to Abstract Group Theory Lecture 18 - Problems - 5
Link NOC:Introduction to Abstract Group Theory Lecture 19 - Quotient groups
Link NOC:Introduction to Abstract Group Theory Lecture 20 - Examples of quotient groups
Link NOC:Introduction to Abstract Group Theory Lecture 21 - First isomorphism theorem
Link NOC:Introduction to Abstract Group Theory Lecture 22 - Examples and Second isomorphism theorem
Link NOC:Introduction to Abstract Group Theory Lecture 23 - Third isomorphism theorem
Link NOC:Introduction to Abstract Group Theory Lecture 24 - Cauchy's theorem
Link NOC:Introduction to Abstract Group Theory Lecture 25 - Problems - 6
Link NOC:Introduction to Abstract Group Theory Lecture 26 - Symmetric groups - I
Link NOC:Introduction to Abstract Group Theory Lecture 27 - Symmetric Groups - II
Link NOC:Introduction to Abstract Group Theory Lecture 28 - Symmetric groups - III
Link NOC:Introduction to Abstract Group Theory Lecture 29 - Symmetric groups - IV
Link NOC:Introduction to Abstract Group Theory Lecture 30 - Odd and even permutations - I
Link NOC:Introduction to Abstract Group Theory Lecture 31 - Odd and even permutations - II
Link NOC:Introduction to Abstract Group Theory Lecture 32 - Alternating groups
Link NOC:Introduction to Abstract Group Theory Lecture 33 - Group actions
Link NOC:Introduction to Abstract Group Theory Lecture 34 - Examples of group actions
Link NOC:Introduction to Abstract Group Theory Lecture 35 - Orbits and stabilizers
Link NOC:Introduction to Abstract Group Theory Lecture 36 - Counting formula
Link NOC:Introduction to Abstract Group Theory Lecture 37 - Cayley's theorem
Link NOC:Introduction to Abstract Group Theory Lecture 38 - Problems - 7
Link NOC:Introduction to Abstract Group Theory Lecture 39 - Problems - 8 and Class equation
Link NOC:Introduction to Abstract Group Theory Lecture 40 - Group actions on subsets
Link NOC:Introduction to Abstract Group Theory Lecture 41 - Sylow Theorem - I
Link NOC:Introduction to Abstract Group Theory Lecture 42 - Sylow Theorem - II
Link NOC:Introduction to Abstract Group Theory Lecture 43 - Sylow Theorem - III
Link NOC:Introduction to Abstract Group Theory Lecture 44 - Problems - 9
Link NOC:Introduction to Abstract Group Theory Lecture 45 - Problems - 10
Link NOC:Groups: Motion, Symmetry and Puzzles Lecture 1 - Permutation, symmetry and groups
Link NOC:Groups: Motion, Symmetry and Puzzles Lecture 2 - Groups acting on a set/an object
Link NOC:Groups: Motion, Symmetry and Puzzles Lecture 3 - More on group actions
Link NOC:Groups: Motion, Symmetry and Puzzles Lecture 4 - Groups and parity
Link NOC:Groups: Motion, Symmetry and Puzzles Lecture 5 - Parity and puzzles
Link NOC:Groups: Motion, Symmetry and Puzzles Lecture 6 - Generators and relations
Link NOC:Groups: Motion, Symmetry and Puzzles Lecture 7 - Cosets, quotients and homomorphisms
Link NOC:Groups: Motion, Symmetry and Puzzles Lecture 8 - Cayley graphs of groups
Link NOC:Groups: Motion, Symmetry and Puzzles Lecture 9 - Platonic solids
Link NOC:Groups: Motion, Symmetry and Puzzles Lecture 10 - Symmetries of plane and wallpapers
Link NOC:Groups: Motion, Symmetry and Puzzles Lecture 11 - Introduction to GAP
Link NOC:Groups: Motion, Symmetry and Puzzles Lecture 12 - GAP through Rubik's cube
Link NOC:Groups: Motion, Symmetry and Puzzles Lecture 13 - Representing abstract groups
Link NOC:Groups: Motion, Symmetry and Puzzles Lecture 14 - A quick introduction to group representations
Link NOC:Groups: Motion, Symmetry and Puzzles Lecture 15 - Rotations and quaternions
Link NOC:Groups: Motion, Symmetry and Puzzles Lecture 16 - Rotational symmetries of platonic solids
Link NOC:Groups: Motion, Symmetry and Puzzles Lecture 17 - Finite subgroups of SO(3)
Link NOC:Introduction to Rings and Fields Lecture 1 - Introduction, main definitions
Link NOC:Introduction to Rings and Fields Lecture 2 - Examples of rings
Link NOC:Introduction to Rings and Fields Lecture 3 - More examples
Link NOC:Introduction to Rings and Fields Lecture 4 - Polynomial Rings - 1
Link NOC:Introduction to Rings and Fields Lecture 5 - Polynomial Rings - 2
Link NOC:Introduction to Rings and Fields Lecture 6 - Homomorphisms
Link NOC:Introduction to Rings and Fields Lecture 7 - Kernels, ideals
Link NOC:Introduction to Rings and Fields Lecture 8 - Problems - 1
Link NOC:Introduction to Rings and Fields Lecture 9 - Problems - 2
Link NOC:Introduction to Rings and Fields Lecture 10 - Problems - 3
Link NOC:Introduction to Rings and Fields Lecture 11 - Quotient Rings
Link NOC:Introduction to Rings and Fields Lecture 12 - First isomorphism and correspondence theorems
Link NOC:Introduction to Rings and Fields Lecture 13 - Examples of correspondence theorem
Link NOC:Introduction to Rings and Fields Lecture 14 - Prime ideals
Link NOC:Introduction to Rings and Fields Lecture 15 - Maximal ideals, integral domains
Link NOC:Introduction to Rings and Fields Lecture 16 - Existence of maximal ideals
Link NOC:Introduction to Rings and Fields Lecture 17 - Problems - 4
Link NOC:Introduction to Rings and Fields Lecture 18 - Problems - 5
Link NOC:Introduction to Rings and Fields Lecture 19 - Problems - 6
Link NOC:Introduction to Rings and Fields Lecture 20 - Field of fractions, Noetherian rings - 1
Link NOC:Introduction to Rings and Fields Lecture 21 - Noetherian rings - 2
Link NOC:Introduction to Rings and Fields Lecture 22 - Hilbert Basis Theorem
Link NOC:Introduction to Rings and Fields Lecture 23 - Irreducible, prime elements
Link NOC:Introduction to Rings and Fields Lecture 24 - Irreducible, prime elements, GCD
Link NOC:Introduction to Rings and Fields Lecture 25 - Principal Ideal Domains
Link NOC:Introduction to Rings and Fields Lecture 26 - Unique Factorization Domains - 1
Link NOC:Introduction to Rings and Fields Lecture 27 - Unique Factorization Domains - 2
Link NOC:Introduction to Rings and Fields Lecture 28 - Gauss Lemma
Link NOC:Introduction to Rings and Fields Lecture 29 - Z[X] is a UFD
Link NOC:Introduction to Rings and Fields Lecture 30 - Eisenstein criterion and Problems - 7
Link NOC:Introduction to Rings and Fields Lecture 31 - Problems - 8
Link NOC:Introduction to Rings and Fields Lecture 32 - Problems - 9
Link NOC:Introduction to Rings and Fields Lecture 33 - Field extensions - 1
Link NOC:Introduction to Rings and Fields Lecture 34 - Field extensions - 2
Link NOC:Introduction to Rings and Fields Lecture 35 - Degree of a field extension - 1
Link NOC:Introduction to Rings and Fields Lecture 36 - Degree of a field extension - 2
Link NOC:Introduction to Rings and Fields Lecture 37 - Algebraic elements form a field
Link NOC:Introduction to Rings and Fields Lecture 38 - Field homomorphisms
Link NOC:Introduction to Rings and Fields Lecture 39 - Splitting fields
Link NOC:Introduction to Rings and Fields Lecture 40 - Finite fields - 1
Link NOC:Introduction to Rings and Fields Lecture 41 - Finite fields - 2
Link NOC:Introduction to Rings and Fields Lecture 42 - Finite fields - 3
Link NOC:Introduction to Rings and Fields Lecture 43 - Problems - 10
Link NOC:Introduction to Rings and Fields Lecture 44 - Problems - 11
Link Discrete Mathematics Lecture 1 - Introduction to the theory of sets
Link Discrete Mathematics Lecture 2 - Set operation and laws of set operation
Link Discrete Mathematics Lecture 3 - The principle of inclusion and exclusion
Link Discrete Mathematics Lecture 4 - Application of the principle of inclusion and exclusion
Link Discrete Mathematics Lecture 5 - Fundamentals of logic
Link Discrete Mathematics Lecture 6 - Logical Inferences
Link Discrete Mathematics Lecture 7 - Methods of proof of an implication
Link Discrete Mathematics Lecture 8 - First order logic (1)
Link Discrete Mathematics Lecture 9 - First order logic (2)
Link Discrete Mathematics Lecture 10 - Rules of influence for quantified propositions
Link Discrete Mathematics Lecture 11 - Mathematical Induction (1)
Link Discrete Mathematics Lecture 12 - Mathematical Induction (2)
Link Discrete Mathematics Lecture 13 - Sample space, events
Link Discrete Mathematics Lecture 14 - Probability, conditional probability
Link Discrete Mathematics Lecture 15 - Independent events, Bayes theorem
Link Discrete Mathematics Lecture 16 - Information and mutual information
Link Discrete Mathematics Lecture 17 - Basic definition
Link Discrete Mathematics Lecture 18 - Isomorphism and sub graphs
Link Discrete Mathematics Lecture 19 - Walks, paths and circuits operations on graphs
Link Discrete Mathematics Lecture 20 - Euler graphs, Hamiltonian circuits
Link Discrete Mathematics Lecture 21 - Shortest path problem
Link Discrete Mathematics Lecture 22 - Planar graphs
Link Discrete Mathematics Lecture 23 - Basic definition
Link Discrete Mathematics Lecture 24 - Properties of relations
Link Discrete Mathematics Lecture 25 - Graph of relations
Link Discrete Mathematics Lecture 26 - Matrix of relation
Link Discrete Mathematics Lecture 27 - Closure of relaton (1)
Link Discrete Mathematics Lecture 28 - Closure of relaton (2)
Link Discrete Mathematics Lecture 29 - Warshall's algorithm
Link Discrete Mathematics Lecture 30 - Partially ordered relation
Link Discrete Mathematics Lecture 31 - Partially ordered sets
Link Discrete Mathematics Lecture 32 - Lattices
Link Discrete Mathematics Lecture 33 - Boolean algebra
Link Discrete Mathematics Lecture 34 - Boolean function (1)
Link Discrete Mathematics Lecture 35 - Boolean function (2)
Link Discrete Mathematics Lecture 36 - Discrete numeric function
Link Discrete Mathematics Lecture 37 - Generating function
Link Discrete Mathematics Lecture 38 - Introduction to recurrence relations
Link Discrete Mathematics Lecture 39 - Second order recurrence relation with constant coefficients (1)
Link Discrete Mathematics Lecture 40 - Second order recurrence relation with constant coefficients (2)
Link Discrete Mathematics Lecture 41 - Application of recurrence relation
Link NOC:Mathematical Methods and its Applications Lecture 1 - Introduction to linear differential equations
Link NOC:Mathematical Methods and its Applications Lecture 2 - Linear dependence, independence and Wronskian of functions
Link NOC:Mathematical Methods and its Applications Lecture 3 - Solution of second-order homogenous linear differential equations with constant coefficients - I
Link NOC:Mathematical Methods and its Applications Lecture 4 - Solution of second-order homogenous linear differential equations with constant coefficients - II
Link NOC:Mathematical Methods and its Applications Lecture 5 - Method of undetermined coefficients
Link NOC:Mathematical Methods and its Applications Lecture 6 - Methods for finding Particular Integral for second-order linear differential equations with constant coefficients - I
Link NOC:Mathematical Methods and its Applications Lecture 7 - Methods for finding Particular Integral for second-order linear differential equations with constant coefficients - II
Link NOC:Mathematical Methods and its Applications Lecture 8 - Methods for finding Particular Integral for second-order linear differential equations with constant coefficients - III
Link NOC:Mathematical Methods and its Applications Lecture 9 - Euler-Cauchy equations
Link NOC:Mathematical Methods and its Applications Lecture 10 - Method of reduction for second-order linear differential equations
Link NOC:Mathematical Methods and its Applications Lecture 11 - Method of variation of parameters
Link NOC:Mathematical Methods and its Applications Lecture 12 - Solution of second order differential equations by changing dependent variable
Link NOC:Mathematical Methods and its Applications Lecture 13 - Solution of second order differential equations by changing independent variable
Link NOC:Mathematical Methods and its Applications Lecture 14 - Solution of higher-order homogenous linear differential equations with constant coefficients
Link NOC:Mathematical Methods and its Applications Lecture 15 - Methods for finding Particular Integral for higher-order linear differential equations
Link NOC:Mathematical Methods and its Applications Lecture 16 - Formulation of Partial differential equations
Link NOC:Mathematical Methods and its Applications Lecture 17 - Solution of Lagrange’s equation - I
Link NOC:Mathematical Methods and its Applications Lecture 18 - Solution of Lagrange’s equation - II
Link NOC:Mathematical Methods and its Applications Lecture 19 - Solution of first order nonlinear equations - I
Link NOC:Mathematical Methods and its Applications Lecture 20 - Solution of first order nonlinear equations - II
Link NOC:Mathematical Methods and its Applications Lecture 21 - Solution of first order nonlinear equations - III
Link NOC:Mathematical Methods and its Applications Lecture 22 - Solution of first order nonlinear equations - IV
Link NOC:Mathematical Methods and its Applications Lecture 23 - Introduction to Laplace transforms
Link NOC:Mathematical Methods and its Applications Lecture 24 - Laplace transforms of some standard functions
Link NOC:Mathematical Methods and its Applications Lecture 25 - Existence theorem for Laplace transforms
Link NOC:Mathematical Methods and its Applications Lecture 26 - Properties of Laplace transforms - I
Link NOC:Mathematical Methods and its Applications Lecture 27 - Properties of Laplace transforms - II
Link NOC:Mathematical Methods and its Applications Lecture 28 - Properties of Laplace transforms - III
Link NOC:Mathematical Methods and its Applications Lecture 29 - Properties of Laplace transforms - IV
Link NOC:Mathematical Methods and its Applications Lecture 30 - Convolution theorem for Laplace transforms - I
Link NOC:Mathematical Methods and its Applications Lecture 31 - Convolution theorem for Laplace transforms - II
Link NOC:Mathematical Methods and its Applications Lecture 32 - Initial and final value theorems for Laplace transforms
Link NOC:Mathematical Methods and its Applications Lecture 33 - Laplace transforms of periodic functions
Link NOC:Mathematical Methods and its Applications Lecture 34 - Laplace transforms of Heaviside unit step function
Link NOC:Mathematical Methods and its Applications Lecture 35 - Laplace transforms of Dirac delta function
Link NOC:Mathematical Methods and its Applications Lecture 36 - Applications of Laplace transforms - I
Link NOC:Mathematical Methods and its Applications Lecture 37 - Applications of Laplace transforms - II
Link NOC:Mathematical Methods and its Applications Lecture 38 - Applications of Laplace transforms - III
Link NOC:Mathematical Methods and its Applications Lecture 39 - Z–transform and inverse Z-transform of elementary functions
Link NOC:Mathematical Methods and its Applications Lecture 40 - Properties of Z-transforms - I
Link NOC:Mathematical Methods and its Applications Lecture 41 - Properties of Z-transforms - II
Link NOC:Mathematical Methods and its Applications Lecture 42 - Initial and final value theorem for Z-transforms
Link NOC:Mathematical Methods and its Applications Lecture 43 - Convolution theorem for Z-transforms
Link NOC:Mathematical Methods and its Applications Lecture 44 - Applications of Z-transforms - I
Link NOC:Mathematical Methods and its Applications Lecture 45 - Applications of Z-transforms - II
Link NOC:Mathematical Methods and its Applications Lecture 46 - Applications of Z-transforms - III
Link NOC:Mathematical Methods and its Applications Lecture 47 - Fourier series and its convergence - I
Link NOC:Mathematical Methods and its Applications Lecture 48 - Fourier series and its convergence - II
Link NOC:Mathematical Methods and its Applications Lecture 49 - Fourier series of even and odd functions
Link NOC:Mathematical Methods and its Applications Lecture 50 - Fourier half-range series
Link NOC:Mathematical Methods and its Applications Lecture 51 - Parsevel’s Identity
Link NOC:Mathematical Methods and its Applications Lecture 52 - Complex form of Fourier series
Link NOC:Mathematical Methods and its Applications Lecture 53 - Fourier integrals
Link NOC:Mathematical Methods and its Applications Lecture 54 - Fourier sine and cosine integrals
Link NOC:Mathematical Methods and its Applications Lecture 55 - Fourier transforms
Link NOC:Mathematical Methods and its Applications Lecture 56 - Fourier sine and cosine transforms
Link NOC:Mathematical Methods and its Applications Lecture 57 - Convolution theorem for Fourier transforms
Link NOC:Mathematical Methods and its Applications Lecture 58 - Applications of Fourier transforms to BVP - I
Link NOC:Mathematical Methods and its Applications Lecture 59 - Applications of Fourier transforms to BVP - II
Link NOC:Mathematical Methods and its Applications Lecture 60 - Applications of Fourier transforms to BVP - III
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 1 - Definition and classification of linear integral equations
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 2 - Conversion of IVP into integral equations
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 3 - Conversion of BVP into an integral equations
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 4 - Conversion of integral equations into differential equations
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 5 - Integro-differential equations
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 6 - Fredholm integral equation with separable kernel: Theory
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 7 - Fredholm integral equation with separable kernel: Examples
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 8 - Solution of integral equations by successive substitutions
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 9 - Solution of integral equations by successive approximations
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 10 - Solution of integral equations by successive approximations: Resolvent kernel
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 11 - Fredholm integral equations with symmetric kernels: Properties of eigenvalues and eigenfunctions
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 12 - Fredholm integral equations with symmetric kernels: Hilbert Schmidt theory
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 13 - Fredholm integral equations with symmetric kernels: Examples
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 14 - Construction of Green function - I
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 15 - Construction of Green function - II
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 16 - Green function for self adjoint linear differential equations
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 17 - Green function for non-homogeneous boundary value problem
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 18 - Fredholm alternative theorem - I
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 19 - Fredholm alternative theorem - II
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 20 - Fredholm method of solutions
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 21 - Classical Fredholm theory: Fredholm first theorem - I
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 22 - Classical Fredholm theory: Fredholm first theorem - II
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 23 - Classical Fredholm theory: Fredholm second theorem and third theorem
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 24 - Method of successive approximations
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 25 - Neumann series and resolvent kernels - I
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 26 - Neumann series and resolvent kernels - II
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 27 - Equations with convolution type kernels - I
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 28 - Equations with convolution type kernels - II
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 29 - Singular integral equations - I
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 30 - Singular integral equations - II
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 31 - Cauchy type integral equations - I
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 32 - Cauchy type integral equations - II
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 33 - Cauchy type integral equations - III
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 34 - Cauchy type integral equations - IV
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 35 - Cauchy type integral equations - V
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 36 - Solution of integral equations using Fourier transform
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 37 - Solution of integral equations using Hilbert transform - I
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 38 - Solution of integral equations using Hilbert transform - II
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 39 - Calculus of variations: Introduction
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 40 - Calculus of variations: Basic concepts - I
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 41 - Calculus of variations: Basic concepts - II
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 42 - Calculus of variations: Basic concepts and Euler equation
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 43 - Euler equation: Some particular cases
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 44 - Euler equation : A particular case and Geodesics
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 45 - Brachistochrone problem and Euler equation - I
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 46 - Euler's equation - II
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 47 - Functions of several independent variables
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 48 - Variational problems in parametric form
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 49 - Variational problems of general type
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 50 - Variational derivative and invariance of Euler's equation
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 51 - Invariance of Euler's equation and isoperimetric problem - I
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 52 - Isoperimetric problem - II
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 53 - Variational problem involving a conditional extremum - I
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 54 - Variational problem involving a conditional extremum - II
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 55 - Variational problems with moving boundaries - I
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 56 - Variational problems with moving boundaries - II
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 57 - Variational problems with moving boundaries - III
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 58 - Variational problems with moving boundaries; One sided variation
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 59 - Variational problem with a movable boundary for a functional dependent on two functions
Link NOC:Integral Equations, Calculus of Variations and its Applications Lecture 60 - Hamilton's principle: Variational principle of least action
Link NOC:Nonlinear Programming Lecture 1 - Convex Sets and Functions
Link NOC:Nonlinear Programming Lecture 2 - Properties of Convex Functions - I
Link NOC:Nonlinear Programming Lecture 3 - Properties of Convex Functions - II
Link NOC:Nonlinear Programming Lecture 4 - Properties of Convex Functions- III
Link NOC:Nonlinear Programming Lecture 5 - Convex Programming Problems
Link NOC:Nonlinear Programming Lecture 6 - KKT optimality conditions
Link NOC:Nonlinear Programming Lecture 7 - Quadratic Programming Problems - I
Link NOC:Nonlinear Programming Lecture 8 - Quadratic Programming Problems - II
Link NOC:Nonlinear Programming Lecture 9 - Separable Programming - I
Link NOC:Nonlinear Programming Lecture 10 - Separable Programming - II
Link NOC:Nonlinear Programming Lecture 11 - Geometric Programming - I
Link NOC:Nonlinear Programming Lecture 12 - Geometric Programming - II
Link NOC:Nonlinear Programming Lecture 13 - Geometric Programming - III
Link NOC:Nonlinear Programming Lecture 14 - Dynamic Programming - I
Link NOC:Nonlinear Programming Lecture 15 - Dynamic Programming - II
Link NOC:Nonlinear Programming Lecture 16 - Dynamic programming approach to find shortest path in any network
Link NOC:Nonlinear Programming Lecture 17 - Dynamic Programming - IV
Link NOC:Nonlinear Programming Lecture 18 - Search Techniques - I
Link NOC:Nonlinear Programming Lecture 19 - Search Techniques - II
Link NOC:Nonlinear Programming Lecture 20 - Search Techniques - III
Link NOC:Numerical Methods Lecture 1 - Introduction to error analysis and linear systems
Link NOC:Numerical Methods Lecture 2 - Gaussian elimination with Partial pivoting
Link NOC:Numerical Methods Lecture 3 - LU decomposition
Link NOC:Numerical Methods Lecture 4 - Jacobi and Gauss Seidel methods
Link NOC:Numerical Methods Lecture 5 - Iterative methods-II
Link NOC:Numerical Methods Lecture 6 - Introduction to Non-linear equations and Bisection method
Link NOC:Numerical Methods Lecture 7 - Regula Falsi and Secant methods
Link NOC:Numerical Methods Lecture 8 - Newton-Raphson method
Link NOC:Numerical Methods Lecture 9 - Fixed point iteration method
Link NOC:Numerical Methods Lecture 10 - System of Nonlinear equations
Link NOC:Numerical Methods Lecture 11 - Introduction to Eigenvalues and Eigenvectors
Link NOC:Numerical Methods Lecture 12 - Similarity Transformations and Gershgorin Theorem
Link NOC:Numerical Methods Lecture 13 - Jacobi's Method for Computing Eigenvalues
Link NOC:Numerical Methods Lecture 14 - Power Method
Link NOC:Numerical Methods Lecture 15 - Inverse Power Method
Link NOC:Numerical Methods Lecture 16 - Interpolation - Part I (Introduction to Interpolation)
Link NOC:Numerical Methods Lecture 17 - Interpolation - Part II ( Some basic operators and their properties)
Link NOC:Numerical Methods Lecture 18 - Interpolation - Part III (Newton’s Forward/ Backward difference and derivation of general error)
Link NOC:Numerical Methods Lecture 19 - Interpolation - Part IV (Error in approximating a function by a polynomial using Newton’s Forward and Backward difference formula)
Link NOC:Numerical Methods Lecture 20 - Interpolation - Part V (Solving problems using Newton's Forward and Backward difference formula)
Link NOC:Numerical Methods Lecture 21 - Interpolation - Part VI (Central difference formula)
Link NOC:Numerical Methods Lecture 22 - Interpolation - Part VII (Lagrange interpolation formula with examples)
Link NOC:Numerical Methods Lecture 23 - Interpolation - Part VIII (Divided difference interpolation with examples)
Link NOC:Numerical Methods Lecture 24 - Interpolation - Part IX (Hermite's interpolation with examples)
Link NOC:Numerical Methods Lecture 25 - Numerical differentiation - Part I (Introduction to numerical differentiation by interpolation formula)
Link NOC:Numerical Methods Lecture 26 - Numerical differentiation - Part II (Numerical differentiation based on Lagrange’s interpolation with examples)
Link NOC:Numerical Methods Lecture 27 - Numerical differentiation - Part III (Numerical differentiation based on Divided difference formula with examples)
Link NOC:Numerical Methods Lecture 28 - Numerical differentiation - Part IV (Maxima and minima of a tabulated function and differentiation errors)
Link NOC:Numerical Methods Lecture 29 - Numerical differentiation - Part V (Differentiation based on finite difference operators)
Link NOC:Numerical Methods Lecture 30 - Numerical differentiation - Part VI (Method of undetermined coefficients and Derivatives with unequal intervals)
Link NOC:Numerical Methods Lecture 31 - Numerical Integration - Part I (Methodology of Numerical Integration and Rectangular rule )
Link NOC:Numerical Methods Lecture 32 - Numerical Integration - Part II (Quadrature formula and Trapezoidal rule with associated errors)merical Integration Part-I (Methodology of Numerical Integration and Rectangular rule )
Link NOC:Numerical Methods Lecture 33 - Numerical Integration - Part III (Simpsons 1/3rd rule with associated errors)
Link NOC:Numerical Methods Lecture 34 - Numerical Integration - Part IV (Composite Simpsons 1/3rd rule and Simpsons 3/8th rule with examples)
Link NOC:Numerical Methods Lecture 35 - Numerical Integration - Part V (Gauss Legendre 2-point and 3-point formula with examples)
Link NOC:Numerical Methods Lecture 36 - Introduction to Ordinary Differential equations
Link NOC:Numerical Methods Lecture 37 - Numerical methods for ODE-1
Link NOC:Numerical Methods Lecture 38 - Numerical Methods - II
Link NOC:Numerical Methods Lecture 39 - R-K Methods for solving ODEs
Link NOC:Numerical Methods Lecture 40 - Multi-step Method for solving ODEs
Link NOC:Numerical Linear Algebra Lecture 1 - Matrix Operations and Types of Matrices
Link NOC:Numerical Linear Algebra Lecture 2 - Determinant of a Matrix
Link NOC:Numerical Linear Algebra Lecture 3 - Rank of a Matrix
Link NOC:Numerical Linear Algebra Lecture 4 - Vector Space - I
Link NOC:Numerical Linear Algebra Lecture 5 - Vector Space - II
Link NOC:Numerical Linear Algebra Lecture 6 - Linear dependence and independence
Link NOC:Numerical Linear Algebra Lecture 7 - Bases and Dimension - I
Link NOC:Numerical Linear Algebra Lecture 8 - Bases and Dimension - II
Link NOC:Numerical Linear Algebra Lecture 9 - Linear Transformation - I
Link NOC:Numerical Linear Algebra Lecture 10 - Linear Transformation - II
Link NOC:Numerical Linear Algebra Lecture 11 - Orthogonal Subspaces
Link NOC:Numerical Linear Algebra Lecture 12 - Row Space, Column Space and Null Space
Link NOC:Numerical Linear Algebra Lecture 13 - Eigen Values and Eigen Vectors - I
Link NOC:Numerical Linear Algebra Lecture 14 - Eigen Values and Eigen Vectors - II
Link NOC:Numerical Linear Algebra Lecture 15 - Diagonalizable Matrices
Link NOC:Numerical Linear Algebra Lecture 16 - Orthogonal Sets
Link NOC:Numerical Linear Algebra Lecture 17 - Gram Schmidt ortthogonalization and orthogonal bases
Link NOC:Numerical Linear Algebra Lecture 18 - Introduction to Matlab
Link NOC:Numerical Linear Algebra Lecture 19 - Sign Integer Representation
Link NOC:Numerical Linear Algebra Lecture 20 - Computer Representation of Numbers
Link NOC:Numerical Linear Algebra Lecture 21 - Floating Point Representation
Link NOC:Numerical Linear Algebra Lecture 22 - Round-off Error
Link NOC:Numerical Linear Algebra Lecture 23 - Error Propagation in Computer Arithmetic
Link NOC:Numerical Linear Algebra Lecture 24 - Addition and Multiplication of Floating Point Numbers
Link NOC:Numerical Linear Algebra Lecture 25 - Conditioning and Condition Numbers - I
Link NOC:Numerical Linear Algebra Lecture 26 - Conditioning and Condition Numbers - II
Link NOC:Numerical Linear Algebra Lecture 27 - Stability of Numerical Algorithms - I
Link NOC:Numerical Linear Algebra Lecture 28 - Stability of Numerical Algorithms - II
Link NOC:Numerical Linear Algebra Lecture 29 - Vector Norms - I
Link NOC:Numerical Linear Algebra Lecture 30 - Vector Norms - II
Link NOC:Numerical Linear Algebra Lecture 31 - Matrix Norms - I
Link NOC:Numerical Linear Algebra Lecture 32 - Matrix Norms - II
Link NOC:Numerical Linear Algebra Lecture 33 - Convergent Matrices - I
Link NOC:Numerical Linear Algebra Lecture 34 - Convergent Matrices - II
Link NOC:Numerical Linear Algebra Lecture 35 - Stability of non linear system
Link NOC:Numerical Linear Algebra Lecture 36 - Condition number of a matrix: Elementary Properties
Link NOC:Numerical Linear Algebra Lecture 37 - Sensitivity Analysis - I
Link NOC:Numerical Linear Algebra Lecture 38 - Sensitivity Analysis - II
Link NOC:Numerical Linear Algebra Lecture 39 - Residual Theorem
Link NOC:Numerical Linear Algebra Lecture 40 - Nearness to Singularity
Link NOC:Numerical Linear Algebra Lecture 41 - Estimation of the Condition Number
Link NOC:Numerical Linear Algebra Lecture 42 - Singular value decomposition of a matrix - I
Link NOC:Numerical Linear Algebra Lecture 43 - Singular value decomposition of a matrix - II
Link NOC:Numerical Linear Algebra Lecture 44 - Orthonormal Projections
Link NOC:Numerical Linear Algebra Lecture 45 - Algebraic and geometric properties of SVD
Link NOC:Numerical Linear Algebra Lecture 46 - SVD and their applications
Link NOC:Numerical Linear Algebra Lecture 47 - Perturbation theorem for singular values
Link NOC:Numerical Linear Algebra Lecture 48 - Outer product expansion of a matrix
Link NOC:Numerical Linear Algebra Lecture 49 - Least square solutions - I
Link NOC:Numerical Linear Algebra Lecture 50 - Least square solutions - II
Link NOC:Numerical Linear Algebra Lecture 51 - Householder matrices
Link NOC:Numerical Linear Algebra Lecture 52 - Householder matrices and their applications
Link NOC:Numerical Linear Algebra Lecture 53 - Householder QR factorization - I
Link NOC:Numerical Linear Algebra Lecture 54 - Householder QR factorization - II
Link NOC:Numerical Linear Algebra Lecture 55 - Basic theorems on eigenvalues and QR method
Link NOC:Numerical Linear Algebra Lecture 56 - Power Method
Link NOC:Numerical Linear Algebra Lecture 57 - Rate of Convergence of Power Method
Link NOC:Numerical Linear Algebra Lecture 58 - Applications of Power Method with Shift
Link NOC:Numerical Linear Algebra Lecture 59 - Jacobi Method - I
Link NOC:Numerical Linear Algebra Lecture 60 - Jacobi Method - II
Link NOC:Numerical Methods - Finite Difference Approach Lecture 1 - Introduction to Numerical solutions
Link NOC:Numerical Methods - Finite Difference Approach Lecture 2 - Numerical Solution of ODE
Link NOC:Numerical Methods - Finite Difference Approach Lecture 3 - Numerical solution of PDE
Link NOC:Numerical Methods - Finite Difference Approach Lecture 4 - Finite difference approximation
Link NOC:Numerical Methods - Finite Difference Approach Lecture 5 - Polynomial fitting and one-sided approximation
Link NOC:Numerical Methods - Finite Difference Approach Lecture 6 - Solution of parabolic equation
Link NOC:Numerical Methods - Finite Difference Approach Lecture 7 - Implicit and C-N scheme for solving 1D parabolic equation
Link NOC:Numerical Methods - Finite Difference Approach Lecture 8 - Stability analysis of Explicit scheme for solving parabolic equation
Link NOC:Numerical Methods - Finite Difference Approach Lecture 9 - Stability of Crank-Nicoloson's scheme
Link NOC:Numerical Methods - Finite Difference Approach Lecture 10 - Approximation of derivative boundary conditions
Link NOC:Numerical Methods - Finite Difference Approach Lecture 11 - Solution of two-dimensional parabolic equation
Link NOC:Numerical Methods - Finite Difference Approach Lecture 12 - Solution of 2D parabolic equation using ADI scheme
Link NOC:Numerical Methods - Finite Difference Approach Lecture 13 - Solution of Elliptic Equation
Link NOC:Numerical Methods - Finite Difference Approach Lecture 14 - Solution of Elliptic equation using SOR method
Link NOC:Numerical Methods - Finite Difference Approach Lecture 15 - Solution of Elliptic equation using ADI scheme
Link NOC:Numerical Methods - Finite Difference Approach Lecture 16 - Solution of Hyperbolic equation
Link NOC:Numerical Methods - Finite Difference Approach Lecture 17 - Stability analysis for Hyperbolic equations
Link NOC:Numerical Methods - Finite Difference Approach Lecture 18 - Characteristics of PDE
Link NOC:Numerical Methods - Finite Difference Approach Lecture 19 - Lax-Wendroff's method
Link NOC:Numerical Methods - Finite Difference Approach Lecture 20 - Wendroff's method
Link NOC:Multivariable Calculus Lecture 1 - Functions of several variables
Link NOC:Multivariable Calculus Lecture 2 - Limits for multivariable functions - I
Link NOC:Multivariable Calculus Lecture 3 - Limits for multivariable functions - II
Link NOC:Multivariable Calculus Lecture 4 - Continuity of multivariable functions
Link NOC:Multivariable Calculus Lecture 5 - Partial Derivatives - I
Link NOC:Multivariable Calculus Lecture 6 - Partial Derivatives - II
Link NOC:Multivariable Calculus Lecture 7 - Differentiability - I
Link NOC:Multivariable Calculus Lecture 8 - Differentiability - II
Link NOC:Multivariable Calculus Lecture 9 - Chain rule - I
Link NOC:Multivariable Calculus Lecture 10 - Chain rule - II
Link NOC:Multivariable Calculus Lecture 11 - Change of variables
Link NOC:Multivariable Calculus Lecture 12 - Euler’s theorem for homogeneous functions
Link NOC:Multivariable Calculus Lecture 13 - Tangent planes and Normal lines
Link NOC:Multivariable Calculus Lecture 14 - Extreme values - I
Link NOC:Multivariable Calculus Lecture 15 - Extreme values - II
Link NOC:Multivariable Calculus Lecture 16 - Lagrange multipliers
Link NOC:Multivariable Calculus Lecture 17 - Taylor’s theorem
Link NOC:Multivariable Calculus Lecture 18 - Error approximation
Link NOC:Multivariable Calculus Lecture 19 - Polar-curves
Link NOC:Multivariable Calculus Lecture 20 - Multiple Integrals
Link NOC:Multivariable Calculus Lecture 21 - Change Of Order Of Integration
Link NOC:Multivariable Calculus Lecture 22 - Change of Variables in Multiple Integral
Link NOC:Multivariable Calculus Lecture 23 - Introduction to Gamma Function
Link NOC:Multivariable Calculus Lecture 24 - Introduction to Beta Function
Link NOC:Multivariable Calculus Lecture 25 - Properties of Beta and Gamma Functions - I
Link NOC:Multivariable Calculus Lecture 26 - Properties of Beta and Gamma Functions - II
Link NOC:Multivariable Calculus Lecture 27 - Dirichlet's Integral
Link NOC:Multivariable Calculus Lecture 28 - Applications of Multiple Integrals
Link NOC:Multivariable Calculus Lecture 29 - Vector Differentiation
Link NOC:Multivariable Calculus Lecture 30 - Gradient of a Scalar Field and Directional Derivative
Link NOC:Multivariable Calculus Lecture 31 - Normal Vector and Potential field
Link NOC:Multivariable Calculus Lecture 32 - Gradient (Identities), Divergence and Curl (Identities)
Link NOC:Multivariable Calculus Lecture 33 - Some Identities on Divergence and Curl
Link NOC:Multivariable Calculus Lecture 34 - Line Integral (I)
Link NOC:Multivariable Calculus Lecture 35 - Applications of Line Integrals
Link NOC:Multivariable Calculus Lecture 36 - Green's Theorem
Link NOC:Multivariable Calculus Lecture 37 - Surface Area
Link NOC:Multivariable Calculus Lecture 38 - Surface Integral
Link NOC:Multivariable Calculus Lecture 39 - Divergence Theorem of Gauss
Link NOC:Multivariable Calculus Lecture 40 - Stoke's Theorem
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 1 - Introduction to differential equations - I
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 2 - Introduction to differential equations - II
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 3 - Existence and uniqueness of solutions of differential equations - I
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 4 - Existence and uniqueness of solutions of differential equations - II
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 5 - Existence and uniqueness of solutions of differential equations - III
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 6 - Existence and uniqueness of solutions of a system of differential equations
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 7 - Linear System
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 8 - Properties of Homogeneous Systems
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 9 - Solution of Homogeneous Linear System with Constant Coefficients - I
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 10 - Solution of Homogeneous Linear System with Constant Coefficients - II
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 11 - Solution of Homogeneous Linear System with Constant Coefficients - III
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 12 - Solution of Non-Homogeneous Linear System with Constant Coefficients
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 13 - Power Series
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 14 - Uniform Convergence of Power Series
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 15 - Power Series Solution of Second Order Homogeneous Equations
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 16 - Regular singular points - I
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 17 - Regular singular points - II
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 18 - Regular singular points - III
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 19 - Regular singular points - IV
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 20 - Regular singular points - V
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 21 - Critical points
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 22 - Stability of Linear Systems - I
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 23 - Stability of Linear Systems - II
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 24 - Stability of Linear Systems - III
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 25 - Critical Points and Paths of Non-linear Systems
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 26 - Boundary value problems for second order differential equations
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 27 - Self - adjoint Forms
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 28 - Sturm - Liouville problem and its properties
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 29 - Sturm - Liouville problem and its applications
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 30 - Green’s function and its applications - I
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 31 - Green’s function and its applications - II
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 32 - Origins and Classification of First Order PDE
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 33 - Initial Value Problem for Quasi-linear First Order Equations
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 34 - Existence and Uniqueness of Solutions
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 35 - Surfaces orthogonal to a given system of surfaces
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 36 - Nonlinear PDE of first order
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 37 - Cauchy method of characteristics - I
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 38 - Cauchy method of characteristics - II
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 39 - Compatible systems of first order equations
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 40 - Charpit’s method - I
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 41 - Charpit’s method - II
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 42 - Second Order PDE with Variable Coefficients
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 43 - Classification and Canonical Form of Second Order PDE - I
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 44 - Classification and Canonical Form of Second Order PDE - II
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 45 - Classification and Characteristic Curves of Second Order PDEs
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 46 - Review of Integral Transforms - I
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 47 - Review of Integral Transforms - II
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 48 - Review of Integral Transforms - III
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 49 - Laplace Equation - I
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 50 - Laplace Equation - II
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 51 - Laplace Equation - III
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 52 - Laplace and Poisson Equations
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 53 - One dimensional wave equation and its solution - I
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 54 - One dimensional wave equation and its solution - II
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 55 - One dimensional wave equation and its solution - III
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 56 - Two dimensional wave equation and its solution - I
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 57 - Solution of non-homogeneous wave equation
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 58 - Solution of homogeneous diffusion equation - I
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 59 - Solution of homogeneous diffusion equation - II
Link NOC:Ordinary and Partial Differential Equations and Applications Lecture 60 - Duhamel’s principle
Link NOC:Matrix Analysis with Applications Lecture 1 - Elementary row operations
Link NOC:Matrix Analysis with Applications Lecture 2 - Echelon form of a matrix
Link NOC:Matrix Analysis with Applications Lecture 3 - Rank of a matrix
Link NOC:Matrix Analysis with Applications Lecture 4 - System of Linear Equations - I
Link NOC:Matrix Analysis with Applications Lecture 5 - System of Linear Equations - II
Link NOC:Matrix Analysis with Applications Lecture 6 - Introduction to Vector Spaces
Link NOC:Matrix Analysis with Applications Lecture 7 - Subspaces
Link NOC:Matrix Analysis with Applications Lecture 8 - Basis and Dimension
Link NOC:Matrix Analysis with Applications Lecture 9 - Linear Transformations
Link NOC:Matrix Analysis with Applications Lecture 10 - Rank and Nullity
Link NOC:Matrix Analysis with Applications Lecture 11 - Inverse of a Linear Transformation
Link NOC:Matrix Analysis with Applications Lecture 12 - Matrix Associated with a LT
Link NOC:Matrix Analysis with Applications Lecture 13 - Eigenvalues and Eigenvectors
Link NOC:Matrix Analysis with Applications Lecture 14 - Cayley-Hamilton Theorem and Minimal Polynomial
Link NOC:Matrix Analysis with Applications Lecture 15 - Diagonalization
Link NOC:Matrix Analysis with Applications Lecture 16 - Special Matrices
Link NOC:Matrix Analysis with Applications Lecture 17 - More on Special Matrices and Gerschgorin Theorem
Link NOC:Matrix Analysis with Applications Lecture 18 - Inner Product Spaces
Link NOC:Matrix Analysis with Applications Lecture 19 - Vector and Matrix Norms
Link NOC:Matrix Analysis with Applications Lecture 20 - Gram Schmidt Process
Link NOC:Matrix Analysis with Applications Lecture 21 - Normal Matrices
Link NOC:Matrix Analysis with Applications Lecture 22 - Positive Definite Matrices
Link NOC:Matrix Analysis with Applications Lecture 23 - Positive Definite and Quadratic Forms
Link NOC:Matrix Analysis with Applications Lecture 24 - Gram Matrix and Minimization of Quadratic Forms
Link NOC:Matrix Analysis with Applications Lecture 25 - Generalized Eigenvectors and Jordan Canonical Form
Link NOC:Matrix Analysis with Applications Lecture 26 - Evaluation of Matrix Functions
Link NOC:Matrix Analysis with Applications Lecture 27 - Least Square Approximation
Link NOC:Matrix Analysis with Applications Lecture 28 - Singular Value Decomposition
Link NOC:Matrix Analysis with Applications Lecture 29 - Pseudo-Inverse and SVD
Link NOC:Matrix Analysis with Applications Lecture 30 - Introduction to Ill-Conditioned Systems
Link NOC:Matrix Analysis with Applications Lecture 31 - Regularization of Ill-Conditioned Systems
Link NOC:Matrix Analysis with Applications Lecture 32 - Linear Systems: Iterative Methods - I
Link NOC:Matrix Analysis with Applications Lecture 33 - Linear Systems: Iterative Methods - II
Link NOC:Matrix Analysis with Applications Lecture 34 - Non-Stationary Iterative Methods: Steepest Descent - I
Link NOC:Matrix Analysis with Applications Lecture 35 - Non-Stationary Iterative Methods: Steepest Descent - II
Link NOC:Matrix Analysis with Applications Lecture 36 - Krylov Subspace Iterative Methods (Conjugate Gradient Method)
Link NOC:Matrix Analysis with Applications Lecture 37 - Krylov Subspace Iterative Methods (CG and Pre-Conditioning)
Link NOC:Matrix Analysis with Applications Lecture 38 - Introduction to Positive Matrices
Link NOC:Matrix Analysis with Applications Lecture 39 - Positive Matrices, Positive Eigenpair, Perron Root and vector, Example
Link NOC:Matrix Analysis with Applications Lecture 40 - Polar Decomposition
Link NOC:Mathematical Modelling: Analysis and Applications Lecture 1 - Introduction to Mathematical Modeling
Link NOC:Mathematical Modelling: Analysis and Applications Lecture 2 - Discrete Time Linear Models in Population Dynamics - I
Link NOC:Mathematical Modelling: Analysis and Applications Lecture 3 - Discrete Time Linear Models in Population Dynamics - II
Link NOC:Mathematical Modelling: Analysis and Applications Lecture 4 - Discrete Time Linear Age Structured Models
Link NOC:Mathematical Modelling: Analysis and Applications Lecture 5 - Numerical Methods to Compute Eigen Values
Link NOC:Mathematical Modelling: Analysis and Applications Lecture 6 - Discrete Time Non-Linear Models in Population Dynamics - I
Link NOC:Mathematical Modelling: Analysis and Applications Lecture 7 - Analysis on Logistic Difference Equation
Link NOC:Mathematical Modelling: Analysis and Applications Lecture 8 - Classifications of Bifurcation
Link NOC:Mathematical Modelling: Analysis and Applications Lecture 9 - Discrete Time Non - Linear Models in Population Dynamics - II
Link NOC:Mathematical Modelling: Analysis and Applications Lecture 10 - Discrete Time Prey - Predator Model
Link NOC:Mathematical Modelling: Analysis and Applications Lecture 11 - Introduction to Continuous Time Models
Link NOC:Mathematical Modelling: Analysis and Applications Lecture 12 - Solution of First Order First Degree Differential Equations
Link NOC:Mathematical Modelling: Analysis and Applications Lecture 13 - Continuous Time Models in Population Dynamics - I
Link NOC:Mathematical Modelling: Analysis and Applications Lecture 14 - Continuous Time Models in Population Dynamics - II
Link NOC:Mathematical Modelling: Analysis and Applications Lecture 15 - Stability and Linearization of System of Ordinary Differential Equations
Link NOC:Mathematical Modelling: Analysis and Applications Lecture 16 - Continuous Time Single Species Models
Link NOC:Mathematical Modelling: Analysis and Applications Lecture 17 - Qualitative Solution of Differential Equations - Phase Diagrams - I
Link NOC:Mathematical Modelling: Analysis and Applications Lecture 18 - Qualitative Solution of Differential Equations - Phase Diagrams - II
Link NOC:Mathematical Modelling: Analysis and Applications Lecture 19 - Continuous Time Lotka - Volterra Competition Model
Link NOC:Mathematical Modelling: Analysis and Applications Lecture 20 - Continuous Time Prey - Predator Model
Link NOC:Dynamical System and Control Lecture 1 - Formulation of Dynamical Systems - I
Link NOC:Dynamical System and Control Lecture 2 - Formulation of Dynamical Systems - II
Link NOC:Dynamical System and Control Lecture 3 - Existence and Uniqueness Theorem - I
Link NOC:Dynamical System and Control Lecture 4 - Existence and Uniqueness Theorem - II
Link NOC:Dynamical System and Control Lecture 5 - Linear Systems - I
Link NOC:Dynamical System and Control Lecture 6 - Linear Systems - II
Link NOC:Dynamical System and Control Lecture 7 - Solutions of Linear Systems - I
Link NOC:Dynamical System and Control Lecture 8 - Solutions of Linear Systems - II
Link NOC:Dynamical System and Control Lecture 9 - Solutions of Linear Systems - III
Link NOC:Dynamical System and Control Lecture 10 - Fundamental Matrix - I
Link NOC:Dynamical System and Control Lecture 11 - Fundamental Matrix - II
Link NOC:Dynamical System and Control Lecture 12 - Fundamental Matrix for Non-Autonomous systems
Link NOC:Dynamical System and Control Lecture 13 - Solutions of Non-Homogeneous Systems
Link NOC:Dynamical System and Control Lecture 14 - Stability of Systems: Equilibrium Points
Link NOC:Dynamical System and Control Lecture 15 - Stability of Linear Autonomous Systems - I
Link NOC:Dynamical System and Control Lecture 16 - Stability of Linear Autonomous Systems - II
Link NOC:Dynamical System and Control Lecture 17 - Stability of Linear Autonomous Systems - III
Link NOC:Dynamical System and Control Lecture 18 - Stability of Weakly Non-Linear Systems - I
Link NOC:Dynamical System and Control Lecture 19 - Stability of Weakly Non-Linear Systems - II
Link NOC:Dynamical System and Control Lecture 20 - Stability of Non-Linear Systems using Linearization
Link NOC:Dynamical System and Control Lecture 21 - Properties of Phase Portrait
Link NOC:Dynamical System and Control Lecture 22 - Properties of Orbits
Link NOC:Dynamical System and Control Lecture 23 - Phase Portrait: Types of Critical Points
Link NOC:Dynamical System and Control Lecture 24 - Phase Portrait of Linear Differential Equations - I
Link NOC:Dynamical System and Control Lecture 25 - Phase Portrait of Linear Differential Equations - II
Link NOC:Dynamical System and Control Lecture 26 - Phase Portrait of Linear Differential Equations - III
Link NOC:Dynamical System and Control Lecture 27 - Poincare Bendixson Theorem
Link NOC:Dynamical System and Control Lecture 28 - Limit Cycle
Link NOC:Dynamical System and Control Lecture 29 - Lyapunov Stability - I
Link NOC:Dynamical System and Control Lecture 30 - Lyapunov Stability - II
Link NOC:Dynamical System and Control Lecture 31 - Introduction to Control Systems - I
Link NOC:Dynamical System and Control Lecture 32 - Introduction to Control Systems - II
Link NOC:Dynamical System and Control Lecture 33 - Controllability of Autonomous Systems
Link NOC:Dynamical System and Control Lecture 34 - Controllability of Non-autonomous Systems
Link NOC:Dynamical System and Control Lecture 35 - Observability - I
Link NOC:Dynamical System and Control Lecture 36 - Observability - II
Link NOC:Dynamical System and Control Lecture 37 - Results on Controllability and Observability
Link NOC:Dynamical System and Control Lecture 38 - Companion Form
Link NOC:Dynamical System and Control Lecture 39 - Feedback Control - I
Link NOC:Dynamical System and Control Lecture 40 - Feedback Control - II
Link NOC:Dynamical System and Control Lecture 41 - Feedback Control - III
Link NOC:Dynamical System and Control Lecture 42 - Feedback Control - IV
Link NOC:Dynamical System and Control Lecture 43 - State Observer
Link NOC:Dynamical System and Control Lecture 44 - Stabilizability
Link NOC:Dynamical System and Control Lecture 45 - Introduction to Discrete Systems - I
Link NOC:Dynamical System and Control Lecture 46 - Introduction to Discrete Systems - II
Link NOC:Dynamical System and Control Lecture 47 - Lyapunov Stability Theory - I
Link NOC:Dynamical System and Control Lecture 48 - Lyapunov Stability Theory - II
Link NOC:Dynamical System and Control Lecture 49 - Lyapunov Stability Theory - III
Link NOC:Dynamical System and Control Lecture 50 - Optimal Control - I
Link NOC:Dynamical System and Control Lecture 51 - Optimal Control - II
Link NOC:Dynamical System and Control Lecture 52 - Optimal Control - III
Link NOC:Dynamical System and Control Lecture 53 - Optimal Control - IV
Link NOC:Dynamical System and Control Lecture 54 - Optimal Control for Discrete Systems - I
Link NOC:Dynamical System and Control Lecture 55 - Optimal Control for Discrete Systems - II
Link NOC:Dynamical System and Control Lecture 56 - Controllability of Discrete Systems
Link NOC:Dynamical System and Control Lecture 57 - Observability of Discrete Systems
Link NOC:Dynamical System and Control Lecture 58 - Stability for Discrete Systems
Link NOC:Dynamical System and Control Lecture 59 - Relation between Continuous and Discrete Systems - I
Link NOC:Dynamical System and Control Lecture 60 - Relation between Continuous and Discrete Systems - II
Link NOC:Advanced Engineering Mathematics Lecture 1 - Analytic Function
Link NOC:Advanced Engineering Mathematics Lecture 2 - Cauchy-Riemann Equations
Link NOC:Advanced Engineering Mathematics Lecture 3 - Harmonic Functions, Harmonic Conjugates and Milne's Method
Link NOC:Advanced Engineering Mathematics Lecture 4 - Applications to the Problems of Potential Flow - I
Link NOC:Advanced Engineering Mathematics Lecture 5 - Applications to the Problems of Potential Flow - II
Link NOC:Advanced Engineering Mathematics Lecture 6 - Complex Integration
Link NOC:Advanced Engineering Mathematics Lecture 7 - Cauchy's Theorem - I
Link NOC:Advanced Engineering Mathematics Lecture 8 - Cauchy's Theorem - II
Link NOC:Advanced Engineering Mathematics Lecture 9 - Cauchy's Integral Formula for the Derivatives of Analytic Function
Link NOC:Advanced Engineering Mathematics Lecture 10 - Morera's Theorem, Liouville's Theorem and Fundamental Theorem of Algebra
Link NOC:Advanced Engineering Mathematics Lecture 11 - Winding Number and Maximum Modulus Principle
Link NOC:Advanced Engineering Mathematics Lecture 12 - Sequences and Series
Link NOC:Advanced Engineering Mathematics Lecture 13 - Uniform Convergence of Series
Link NOC:Advanced Engineering Mathematics Lecture 14 - Power Series
Link NOC:Advanced Engineering Mathematics Lecture 15 - Taylor Series
Link NOC:Advanced Engineering Mathematics Lecture 16 - Laurent Series
Link NOC:Advanced Engineering Mathematics Lecture 17 - Zeros and Singularities of an Analytic Function
Link NOC:Advanced Engineering Mathematics Lecture 18 - Residue at a Singularity
Link NOC:Advanced Engineering Mathematics Lecture 19 - Residue Theorem
Link NOC:Advanced Engineering Mathematics Lecture 20 - Meromorphic Functions
Link NOC:Advanced Engineering Mathematics Lecture 21 - Evaluation of real integrals using residues - I
Link NOC:Advanced Engineering Mathematics Lecture 22 - Evaluation of real integrals using residues - II
Link NOC:Advanced Engineering Mathematics Lecture 23 - Evaluation of real integrals using residues - III
Link NOC:Advanced Engineering Mathematics Lecture 24 - Evaluation of real integrals using residues - IV
Link NOC:Advanced Engineering Mathematics Lecture 25 - Evaluation of real integrals using residues - V
Link NOC:Advanced Engineering Mathematics Lecture 26 - Bilinear Transformations
Link NOC:Advanced Engineering Mathematics Lecture 27 - Cross Ratio
Link NOC:Advanced Engineering Mathematics Lecture 28 - Conformal Mapping - I
Link NOC:Advanced Engineering Mathematics Lecture 29 - Conformal Mapping - II
Link NOC:Advanced Engineering Mathematics Lecture 30 - Conformal mapping from half plane to disk and half plane to half plane - I
Link NOC:Advanced Engineering Mathematics Lecture 31 - Conformal mapping from disk to disk and angular region to disk
Link NOC:Advanced Engineering Mathematics Lecture 32 - Application of Conformal Mapping to Potential Theory
Link NOC:Advanced Engineering Mathematics Lecture 33 - Review of Z-transforms - I
Link NOC:Advanced Engineering Mathematics Lecture 34 - Review of Z-transforms - II
Link NOC:Advanced Engineering Mathematics Lecture 35 - Review of Z-transforms - III
Link NOC:Advanced Engineering Mathematics Lecture 36 - Review of Bilateral Z-transforms
Link NOC:Advanced Engineering Mathematics Lecture 37 - Finite Fourier Transforms
Link NOC:Advanced Engineering Mathematics Lecture 38 - Fourier Integral and Fourier Transforms
Link NOC:Advanced Engineering Mathematics Lecture 39 - Fourier Series
Link NOC:Advanced Engineering Mathematics Lecture 40 - Discrete Fourier Transforms - I
Link NOC:Advanced Engineering Mathematics Lecture 41 - Discrete Fourier Transforms - II
Link NOC:Advanced Engineering Mathematics Lecture 42 - Basic Concepts of Probability
Link NOC:Advanced Engineering Mathematics Lecture 43 - Conditional Probability
Link NOC:Advanced Engineering Mathematics Lecture 44 - Bayes Theorem and Probability Networks
Link NOC:Advanced Engineering Mathematics Lecture 45 - Discrete Probability Distribution
Link NOC:Advanced Engineering Mathematics Lecture 46 - Binomial Distribution
Link NOC:Advanced Engineering Mathematics Lecture 47 - Negative Binomial Distribution and Poisson Distribution
Link NOC:Advanced Engineering Mathematics Lecture 48 - Continuous Probability Distribution
Link NOC:Advanced Engineering Mathematics Lecture 49 - Poisson Process
Link NOC:Advanced Engineering Mathematics Lecture 50 - Exponential Distribution
Link NOC:Advanced Engineering Mathematics Lecture 51 - Normal Distribution
Link NOC:Advanced Engineering Mathematics Lecture 52 - Joint Probability Distribution - I
Link NOC:Advanced Engineering Mathematics Lecture 53 - Joint Probability Distribution - II
Link NOC:Advanced Engineering Mathematics Lecture 54 - Joint Probability Distribution - III
Link NOC:Advanced Engineering Mathematics Lecture 55 - Correlation and Regression - I
Link NOC:Advanced Engineering Mathematics Lecture 56 - Correlation and Regression - II
Link NOC:Advanced Engineering Mathematics Lecture 57 - Testing of Hypotheses - I
Link NOC:Advanced Engineering Mathematics Lecture 58 - Testing of Hypotheses - II
Link NOC:Advanced Engineering Mathematics Lecture 59 - Testing of Hypotheses - III
Link NOC:Advanced Engineering Mathematics Lecture 60 - Application to Queuing Theory and Reliability Theory
Link NOC:Higher Engineering Mathematics Lecture 1 - Symbolic Representation of Statements - I
Link NOC:Higher Engineering Mathematics Lecture 2 - Symbolic Representation of Statements - II
Link NOC:Higher Engineering Mathematics Lecture 3 - Tautologies and Contradictions
Link NOC:Higher Engineering Mathematics Lecture 4 - Predicates and Quantifires - I
Link NOC:Higher Engineering Mathematics Lecture 5 - Predicates and Quantifiers - II
Link NOC:Higher Engineering Mathematics Lecture 6 - Validity of Arguments
Link NOC:Higher Engineering Mathematics Lecture 7 - Language and Grammers - I
Link NOC:Higher Engineering Mathematics Lecture 8 - Language and Grammers - II
Link NOC:Higher Engineering Mathematics Lecture 9 - Language and Grammers - III
Link NOC:Higher Engineering Mathematics Lecture 10 - Finite- State Machines
Link NOC:Higher Engineering Mathematics Lecture 11 - Partially Ordered Sets - I
Link NOC:Higher Engineering Mathematics Lecture 12 - Partially Ordered Sets - II
Link NOC:Higher Engineering Mathematics Lecture 13 - Partially Ordered Sets - III
Link NOC:Higher Engineering Mathematics Lecture 14 - Lattices - I
Link NOC:Higher Engineering Mathematics Lecture 15 - Lattices - II
Link NOC:Higher Engineering Mathematics Lecture 16 - Lattices - III
Link NOC:Higher Engineering Mathematics Lecture 17 - Lattices - IV
Link NOC:Higher Engineering Mathematics Lecture 18 - Lattices - V
Link NOC:Higher Engineering Mathematics Lecture 19 - Boolean Algebra - I
Link NOC:Higher Engineering Mathematics Lecture 20 - Boolean Algebra - II
Link NOC:Higher Engineering Mathematics Lecture 21 - Boolean Algebra - III
Link NOC:Higher Engineering Mathematics Lecture 22 - Boolean Algebra - IV
Link NOC:Higher Engineering Mathematics Lecture 23 - Logic Gates
Link NOC:Higher Engineering Mathematics Lecture 24 - Karnaugh Map - I
Link NOC:Higher Engineering Mathematics Lecture 25 - Karnaugh Map - II
Link NOC:Higher Engineering Mathematics Lecture 26 - Various type of Graphs - I
Link NOC:Higher Engineering Mathematics Lecture 27 - Various types of Graphs - II
Link NOC:Higher Engineering Mathematics Lecture 28 - Paths and Connectivity
Link NOC:Higher Engineering Mathematics Lecture 29 - Subgraphs and Traversable Multigraphs
Link NOC:Higher Engineering Mathematics Lecture 30 - Undirected and Directed Graphs
Link NOC:Higher Engineering Mathematics Lecture 31 - Eulerian and Hamiltonian Graphs
Link NOC:Higher Engineering Mathematics Lecture 32 - Planar Graphs
Link NOC:Higher Engineering Mathematics Lecture 33 - Representation of Graphs
Link NOC:Higher Engineering Mathematics Lecture 34 - Isomorphic and Homeomorphic Graphs
Link NOC:Higher Engineering Mathematics Lecture 35 - Kuratowski's Theorem
Link NOC:Higher Engineering Mathematics Lecture 36 - Dual of a Graph
Link NOC:Higher Engineering Mathematics Lecture 37 - Coloring of Graphs - I
Link NOC:Higher Engineering Mathematics Lecture 38 - Coloring of Graphs - II
Link NOC:Higher Engineering Mathematics Lecture 39 - Tree - I
Link NOC:Higher Engineering Mathematics Lecture 40 - Tree - II
Link NOC:Higher Engineering Mathematics Lecture 41 - Graphical Method - I
Link NOC:Higher Engineering Mathematics Lecture 42 - Graphical Method - II
Link NOC:Higher Engineering Mathematics Lecture 43 - General Linear Programming Problem
Link NOC:Higher Engineering Mathematics Lecture 44 - Simplex Method - I
Link NOC:Higher Engineering Mathematics Lecture 45 - Simplex Method - II
Link NOC:Higher Engineering Mathematics Lecture 46 - Big - M Method - I
Link NOC:Higher Engineering Mathematics Lecture 47 - Big - M Method - II (Special Cases)
Link NOC:Higher Engineering Mathematics Lecture 48 - Two Phase Method - I
Link NOC:Higher Engineering Mathematics Lecture 49 - Two Phase method - II
Link NOC:Higher Engineering Mathematics Lecture 50 - Duality - I
Link NOC:Higher Engineering Mathematics Lecture 51 - Duality - II
Link NOC:Higher Engineering Mathematics Lecture 52 - Dual Simplex Method
Link NOC:Higher Engineering Mathematics Lecture 53 - Transportation Problem - I
Link NOC:Higher Engineering Mathematics Lecture 54 - Transportation Problem - II
Link NOC:Higher Engineering Mathematics Lecture 55 - Assignment Problem - I
Link NOC:Higher Engineering Mathematics Lecture 56 - Assignment Problem - II
Link NOC:Operations Research Lecture 1 - Introduction to OR Models
Link NOC:Operations Research Lecture 2 - More OR Models
Link NOC:Operations Research Lecture 3 - Graphical Method for LPP
Link NOC:Operations Research Lecture 4 - Convex sets
Link NOC:Operations Research Lecture 5 - Simplex Method
Link NOC:Operations Research Lecture 6 - Big M Method
Link NOC:Operations Research Lecture 7 - Two Phase
Link NOC:Operations Research Lecture 8 - Multiple solutions of LPP
Link NOC:Operations Research Lecture 9 - Unbounded solution of LPP
Link NOC:Operations Research Lecture 10 - Infeasible solution of LPP
Link NOC:Operations Research Lecture 11 - Revised Simplex Method
Link NOC:Operations Research Lecture 12 - Case studies and Exercises - I
Link NOC:Operations Research Lecture 13 - Case studies and Exercises - II
Link NOC:Operations Research Lecture 14 - Case studies and Exercises - III
Link NOC:Operations Research Lecture 15 - Primal Dual Construction
Link NOC:Operations Research Lecture 16 - Weak Duality Theorem
Link NOC:Operations Research Lecture 17 - More Duality Theorems
Link NOC:Operations Research Lecture 18 - Primal-Dual relationship of solutions
Link NOC:Operations Research Lecture 19 - Dual Simplex Method
Link NOC:Operations Research Lecture 20 - Sensitivity Analysis - I
Link NOC:Operations Research Lecture 21 - Sensitivity Analysis - II
Link NOC:Operations Research Lecture 22 - Case studies and Exercises - I
Link NOC:Operations Research Lecture 23 - Case studies and Exercises - II
Link NOC:Operations Research Lecture 24 - Integer Programming
Link NOC:Operations Research Lecture 25 - Goal Programming
Link NOC:Operations Research Lecture 26 - Multi-Objective Programming
Link NOC:Operations Research Lecture 27 - Dynamic Programming
Link NOC:Operations Research Lecture 28 - Transportation Problem
Link NOC:Operations Research Lecture 29 - Assignment Problem
Link NOC:Operations Research Lecture 30 - Case studies and Exercises
Link NOC:Operations Research Lecture 31 - Processing n Jobs on Two Machines
Link NOC:Operations Research Lecture 32 - Processing n Jobs through Three Machines
Link NOC:Operations Research Lecture 33 - Processing two jobs through m machines
Link NOC:Operations Research Lecture 34 - Processing n jobs through m machines
Link NOC:Operations Research Lecture 35 - Case studies and Exercises
Link NOC:Operations Research Lecture 36 - Two Person Zero-Sum Game
Link NOC:Operations Research Lecture 37 - Theorems of Game Theory
Link NOC:Operations Research Lecture 38 - Solution of Mixed Strategy Games
Link NOC:Operations Research Lecture 39 - Linear Programming method for solving games
Link NOC:Operations Research Lecture 40 - Case studies and Exercises
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 1 - Prologue - Part 1
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 2 - Prologue - Part 2
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 3 - Prologue - Part 3
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 4 - Linear Systems - Part 1
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 5 - Linear Systems - Part 2
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 6 - Linear Systems - Part 3
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 7 - Linear Systems - Part 4
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 8 - Vector Spaces - Part 1
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 9 - Vector Spaces - Part 2
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 10 - Linear Independence and Subspaces - Part 1
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 11 - Linear Independence and Subspaces - Part 2
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 12 - Linear Independence and Subspaces - Part 3
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 13 - Linear Independence and Subspaces - Part 4
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 14 - Basis - Part 1
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 15 - Basis - Part 2
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 16 - Basis - Part 3
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 17 - Linear Transformations - Part 1
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 18 - Linear Transformations - Part 2
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 19 - Linear Transformations - Part 3
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 20 - Linear Transformations - Part 4
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 21 - Linear Transformations - Part 5
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 22 - Inner Product and Orthogonality - Part 1
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 23 - Inner Product and Orthogonality - Part 2
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 24 - Inner Product and Orthogonality - Part 3
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 25 - Inner Product and Orthogonality - Part 4
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 26 - Inner Product and Orthogonality - Part 5
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 27 - Inner Product and Orthogonality - Part 6
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 28 - Diagonalization - Part 1
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 29 - Diagonalization - Part 2
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 30 - Diagonalization - Part 3
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 31 - Diagonalization - Part 4
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 32 - Hermitian and Symmetric matrices - Part 1
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 33 - Hermitian and Symmetric matrices - Part 2
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 34 - Hermitian and Symmetric matrices - Part 3
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 35 - Hermitian and Symmetric matrices - Part 4
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 36 - Singular Value Decomposition (SVD) - Part 1
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 37 - Singular Value Decomposition (SVD) - Part 2
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 38 - Back To Linear Systems - Part 1
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 39 - Back To Linear Systems - Part 2
Link Advanced Matrix Theory and Linear Algebra for Engineers Lecture 40 - Epilogue
Link Ordinary Differential Equations and Applications Lecture 1 - General Introduction
Link Ordinary Differential Equations and Applications Lecture 2 - Examples
Link Ordinary Differential Equations and Applications Lecture 3 - Examples (Continued - I)
Link Ordinary Differential Equations and Applications Lecture 4 - Examples (Continued - II)
Link Ordinary Differential Equations and Applications Lecture 5 - Linear Algebra
Link Ordinary Differential Equations and Applications Lecture 6 - Linear Algebra (Continued - I)
Link Ordinary Differential Equations and Applications Lecture 7 - Linear Algebra (Continued - II)
Link Ordinary Differential Equations and Applications Lecture 8 - Analysis
Link Ordinary Differential Equations and Applications Lecture 9 - Analysis (Continued...)
Link Ordinary Differential Equations and Applications Lecture 10 - First Order Linear Equations
Link Ordinary Differential Equations and Applications Lecture 11 - Exact Equations
Link Ordinary Differential Equations and Applications Lecture 12 - Second Order Linear Equations
Link Ordinary Differential Equations and Applications Lecture 13 - Second Order Linear Equations (Continued - I)
Link Ordinary Differential Equations and Applications Lecture 14 - Second Order Linear Equations (Continued - II)
Link Ordinary Differential Equations and Applications Lecture 15 - Well-posedness and Examples of IVP
Link Ordinary Differential Equations and Applications Lecture 16 - Gronwall's Lemma
Link Ordinary Differential Equations and Applications Lecture 17 - Basic Lemma and Uniqueness Theorem
Link Ordinary Differential Equations and Applications Lecture 18 - Picard's Existence and Uniqueness Theorem
Link Ordinary Differential Equations and Applications Lecture 19 - Picard's Existence and Uniqueness (Continued...)
Link Ordinary Differential Equations and Applications Lecture 20 - Cauchy Peano Existence Theorem
Link Ordinary Differential Equations and Applications Lecture 21 - Existence using Fixed Point Theorem
Link Ordinary Differential Equations and Applications Lecture 22 - Continuation of Solutions
Link Ordinary Differential Equations and Applications Lecture 23 - Series Solution
Link Ordinary Differential Equations and Applications Lecture 24 - General System and Diagonalizability
Link Ordinary Differential Equations and Applications Lecture 25 - 2 by 2 systems and Phase Plane Analysis
Link Ordinary Differential Equations and Applications Lecture 26 - 2 by 2 systems and Phase Plane Analysis (Continued...)
Link Ordinary Differential Equations and Applications Lecture 27 - General Systems
Link Ordinary Differential Equations and Applications Lecture 28 - General Systems (Continued...) and Non-homogeneous Systems
Link Ordinary Differential Equations and Applications Lecture 29 - Basic Definitions and Examples
Link Ordinary Differential Equations and Applications Lecture 30 - Stability Equilibrium Points
Link Ordinary Differential Equations and Applications Lecture 31 - Stability Equilibrium Points (Continued - I)
Link Ordinary Differential Equations and Applications Lecture 32 - Stability Equilibrium Points (Continued - II)
Link Ordinary Differential Equations and Applications Lecture 33 - Second Order Linear Equations (Continued - III)
Link Ordinary Differential Equations and Applications Lecture 34 - Lyapunov Function
Link Ordinary Differential Equations and Applications Lecture 35 - Lyapunov Function (Continued...)
Link Ordinary Differential Equations and Applications Lecture 36 - Periodic Orbits and Poincare Bendixon Theory
Link Ordinary Differential Equations and Applications Lecture 37 - Periodic Orbits and Poincare Bendixon Theory (Continued...)
Link Ordinary Differential Equations and Applications Lecture 38 - Linear Second Order Equations
Link Ordinary Differential Equations and Applications Lecture 39 - General Second Order Equations
Link Ordinary Differential Equations and Applications Lecture 40 - General Second Order Equations (Continued...)
Link NOC:Linear Algebra Lecture 1 - Introduction to Algebraic Structures - Rings and Fields
Link NOC:Linear Algebra Lecture 2 - Definition of Vector Spaces
Link NOC:Linear Algebra Lecture 3 - Examples of Vector Spaces
Link NOC:Linear Algebra Lecture 4 - Definition of subspaces
Link NOC:Linear Algebra Lecture 5 - Examples of subspaces
Link NOC:Linear Algebra Lecture 6 - Examples of subspaces (Continued...)
Link NOC:Linear Algebra Lecture 7 - Sum of subspaces
Link NOC:Linear Algebra Lecture 8 - System of linear equations
Link NOC:Linear Algebra Lecture 9 - Gauss elimination
Link NOC:Linear Algebra Lecture 10 - Generating system, linear independence and bases
Link NOC:Linear Algebra Lecture 11 - Examples of a basis of a vector space
Link NOC:Linear Algebra Lecture 12 - Review of univariate polynomials
Link NOC:Linear Algebra Lecture 13 - Examples of univariate polynomials and rational functions
Link NOC:Linear Algebra Lecture 14 - More examples of a basis of vector spaces
Link NOC:Linear Algebra Lecture 15 - Vector spaces with finite generating system
Link NOC:Linear Algebra Lecture 16 - Steinitzs exchange theorem and examples
Link NOC:Linear Algebra Lecture 17 - Examples of finite dimensional vector spaces
Link NOC:Linear Algebra Lecture 18 - Dimension formula and its examples
Link NOC:Linear Algebra Lecture 19 - Existence of a basis
Link NOC:Linear Algebra Lecture 20 - Existence of a basis (Continued...)
Link NOC:Linear Algebra Lecture 21 - Existence of a basis (Continued...)
Link NOC:Linear Algebra Lecture 22 - Introduction to Linear Maps
Link NOC:Linear Algebra Lecture 23 - Examples of Linear Maps
Link NOC:Linear Algebra Lecture 24 - Linear Maps and Bases
Link NOC:Linear Algebra Lecture 25 - Pigeonhole principle in Linear Algebra
Link NOC:Linear Algebra Lecture 26 - Interpolation and the rank theorem
Link NOC:Linear Algebra Lecture 27 - Examples
Link NOC:Linear Algebra Lecture 28 - Direct sums of vector spaces
Link NOC:Linear Algebra Lecture 29 - Projections
Link NOC:Linear Algebra Lecture 30 - Direct sum decomposition of a vector space
Link NOC:Linear Algebra Lecture 31 - Dimension equality and examples
Link NOC:Linear Algebra Lecture 32 - Dual spaces
Link NOC:Linear Algebra Lecture 33 - Dual spaces (Continued...)
Link NOC:Linear Algebra Lecture 34 - Quotient spaces
Link NOC:Linear Algebra Lecture 35 - Homomorphism theorem of vector spaces
Link NOC:Linear Algebra Lecture 36 - Isomorphism theorem of vector spaces
Link NOC:Linear Algebra Lecture 37 - Matrix of a linear map
Link NOC:Linear Algebra Lecture 38 - Matrix of a linear map (Continued...)
Link NOC:Linear Algebra Lecture 39 - Matrix of a linear map (Continued...)
Link NOC:Linear Algebra Lecture 40 - Change of bases
Link NOC:Linear Algebra Lecture 41 - Computational rules for matrices
Link NOC:Linear Algebra Lecture 42 - Rank of a matrix
Link NOC:Linear Algebra Lecture 43 - Computation of the rank of a matrix
Link NOC:Linear Algebra Lecture 44 - Elementary matrices
Link NOC:Linear Algebra Lecture 45 - Elementary operations on matrices
Link NOC:Linear Algebra Lecture 46 - LR decomposition
Link NOC:Linear Algebra Lecture 47 - Elementary Divisor Theorem
Link NOC:Linear Algebra Lecture 48 - Permutation groups
Link NOC:Linear Algebra Lecture 49 - Canonical cycle decomposition of permutations
Link NOC:Linear Algebra Lecture 50 - Signature of a permutation
Link NOC:Linear Algebra Lecture 51 - Introduction to multilinear maps
Link NOC:Linear Algebra Lecture 52 - Multilinear maps (Continued...)
Link NOC:Linear Algebra Lecture 53 - Introduction to determinants
Link NOC:Linear Algebra Lecture 54 - Determinants (Continued...)
Link NOC:Linear Algebra Lecture 55 - Computational rules for determinants
Link NOC:Linear Algebra Lecture 56 - Properties of determinants and adjoint of a matrix
Link NOC:Linear Algebra Lecture 57 - Adjoint-determinant theorem
Link NOC:Linear Algebra Lecture 58 - The determinant of a linear operator
Link NOC:Linear Algebra Lecture 59 - Determinants and Volumes
Link NOC:Linear Algebra Lecture 60 - Determinants and Volumes (Continued...)
Link Convective Heat and Mass Transfer Lecture 1 - Introduction
Link Convective Heat and Mass Transfer Lecture 2 - Flow Classifications
Link Convective Heat and Mass Transfer Lecture 3 - Laws of Convection
Link Convective Heat and Mass Transfer Lecture 4 - Scalar Transport Equations
Link Convective Heat and Mass Transfer Lecture 5 - Laminar Boundary Layers
Link Convective Heat and Mass Transfer Lecture 6 - Similarity Method
Link Convective Heat and Mass Transfer Lecture 7 - Similaity Solns Velocity BL
Link Convective Heat and Mass Transfer Lecture 8 - Similaity Solns Temperature BL - I
Link Convective Heat and Mass Transfer Lecture 9 - Similaity Solns Temperature BL - II
Link Convective Heat and Mass Transfer Lecture 10 - Integral BL Equations
Link Convective Heat and Mass Transfer Lecture 11 - Integral Solns Laminar Velocity BL
Link Convective Heat and Mass Transfer Lecture 12 - Integral Solns Laminar Temperature BL
Link Convective Heat and Mass Transfer Lecture 13 - Superposition Theory
Link Convective Heat and Mass Transfer Lecture 14 - Laminar Internal Flows
Link Convective Heat and Mass Transfer Lecture 15 - Fully-Developed Laminar Flows - 1
Link Convective Heat and Mass Transfer Lecture 16 - Fully-Developed Laminar Flows - 2
Link Convective Heat and Mass Transfer Lecture 17 - Fully-Developed Laminar Flows Heat Transfer - 1
Link Convective Heat and Mass Transfer Lecture 18 - Fully-Developed Laminar Flows Heat Transfer - 2
Link Convective Heat and Mass Transfer Lecture 19 - Laminar Internal Developing Flows Heat Transfer
Link Convective Heat and Mass Transfer Lecture 20 - Superposition Technique
Link Convective Heat and Mass Transfer Lecture 21 - Nature of Turbulent Flows
Link Convective Heat and Mass Transfer Lecture 22 - Sustaining Mechanism of Turbulence - 1
Link Convective Heat and Mass Transfer Lecture 23 - Sustaining Mechanism of Turbulence - 1
Link Convective Heat and Mass Transfer Lecture 24 - Sustaining Mechanism of Turbulence - 2
Link Convective Heat and Mass Transfer Lecture 25 - Near-Wall Turbulent Flows - 1
Link Convective Heat and Mass Transfer Lecture 26 - Near-Wall Turbulent Flows - 2
Link Convective Heat and Mass Transfer Lecture 27 - Turbulence Models - 1
Link Convective Heat and Mass Transfer Lecture 28 - Turbulence Models - 2
Link Convective Heat and Mass Transfer Lecture 29 - Turbulence Models - 3
Link Convective Heat and Mass Transfer Lecture 30 - Prediction of Turbulent Flows
Link Convective Heat and Mass Transfer Lecture 31 - Prediction of Turbulent Heat Transfer
Link Convective Heat and Mass Transfer Lecture 32 - Convective Mass Transfer
Link Convective Heat and Mass Transfer Lecture 33 - Stefan Flow Model
Link Convective Heat and Mass Transfer Lecture 34 - Couette Flow Model
Link Convective Heat and Mass Transfer Lecture 35 - Reynolds Flow Model
Link Convective Heat and Mass Transfer Lecture 36 - Boundary Layer Flow Model
Link Convective Heat and Mass Transfer Lecture 37 - Evaluation of g and Nw
Link Convective Heat and Mass Transfer Lecture 38 - Diffusion Mass Transfer Problems
Link Convective Heat and Mass Transfer Lecture 39 - Convective MT Couette Flow
Link Convective Heat and Mass Transfer Lecture 40 - Convective MT Reynolds Flow Model - 1
Link Convective Heat and Mass Transfer Lecture 41 - Convective MT Reynolds Flow Model - 2
Link Convective Heat and Mass Transfer Lecture 42 - Natural Convection
Link Convective Heat and Mass Transfer Lecture 43 - Diffusion Jet Flames
Link Cryogenic Engineering Lecture 1 - Introduction to Cryogenic Engineering
Link Cryogenic Engineering Lecture 2 - Properties of Cryogenic Fluids - I
Link Cryogenic Engineering Lecture 3 - Properties of Cryogenic Fluids - II
Link Cryogenic Engineering Lecture 4 - Properties of Cryogenic
Link Cryogenic Engineering Lecture 5 - Material Properties at Low Temperature - I
Link Cryogenic Engineering Lecture 6 - Material Properties at Low Temperature - II
Link Cryogenic Engineering Lecture 7 - Material Properties at Low Temperature - III
Link Cryogenic Engineering Lecture 8 - Gas Liquefaction and Refrigeration Systems - I
Link Cryogenic Engineering Lecture 9 - Gas Liquefaction and Refrigeration Systems - II
Link Cryogenic Engineering Lecture 10 - Gas Liquefaction and Refrigeration Systems - III
Link Cryogenic Engineering Lecture 11 - Gas Liquefaction and Refrigeration Systems - IV
Link Cryogenic Engineering Lecture 12 - Gas Liquefaction and Refrigeration Systems - V
Link Cryogenic Engineering Lecture 13 - Gas Liquefaction and Refrigeration Systems - VI
Link Cryogenic Engineering Lecture 14 - Gas Liquefaction and Refrigeration Systems - VII
Link Cryogenic Engineering Lecture 15 - Gas Liquefaction and Refrigeration Systems - VIII
Link Cryogenic Engineering Lecture 16 - Gas Liquefaction and Refrigeration Systems - IX
Link Cryogenic Engineering Lecture 17 - Gas Liquefaction and Refrigeration Systems - X
Link Cryogenic Engineering Lecture 18 - Gas Separation - I
Link Cryogenic Engineering Lecture 19 - Gas Separation - II
Link Cryogenic Engineering Lecture 20 - Gas Separation - III
Link Cryogenic Engineering Lecture 21 - Gas Separation - IV
Link Cryogenic Engineering Lecture 22 - Gas Separation - V
Link Cryogenic Engineering Lecture 23 - Gas Separation - VI
Link Cryogenic Engineering Lecture 24 - Gas Separation - VII
Link Cryogenic Engineering Lecture 25 - Gas Separation - VIII
Link Cryogenic Engineering Lecture 26 - Cryocoolers
Link Cryogenic Engineering Lecture 27 - Cryocoolers Ideal Stirling Cycle - I
Link Cryogenic Engineering Lecture 28 - Cryocoolers Ideal Stirling Cycle - II
Link Cryogenic Engineering Lecture 29 - Cryocoolers Ideal Stirling Cycle - III
Link Cryogenic Engineering Lecture 30 - Cryocoolers Ideal Stirling Cycle - IV
Link Cryogenic Engineering Lecture 31 - Cryocoolers Ideal Stirling Cycle - V
Link Cryogenic Engineering Lecture 32 - Cryocoolers
Link Cryogenic Engineering Lecture 33 - Cryogenic Insulation - I
Link Cryogenic Engineering Lecture 34 - Cryogenic Insulation - II
Link Cryogenic Engineering Lecture 35 - Cryogenic Insulation - III
Link Cryogenic Engineering Lecture 36 - Vacuum Technology - I
Link Cryogenic Engineering Lecture 37 - Vacuum Technology - II
Link Cryogenic Engineering Lecture 38 - Vaccum Technology - III
Link Cryogenic Engineering Lecture 39 - Instrumentation in Cryogenics - I
Link Cryogenic Engineering Lecture 40 - Instrumentation in Cryogenics - II
Link Cryogenic Engineering Lecture 41 - Instrumentation in Cryogenics - III
Link Cryogenic Engineering Lecture 42 - Safety in Cryogenics
Link Advanced Strength of Materials Lecture 1 - Stress and Strain Tensor
Link Advanced Strength of Materials Lecture 2 - Stress and Strain Tensor (Continued) and Cauchy Formula for Traction
Link Advanced Strength of Materials Lecture 3 - Examples on Calculation of Strains and Tractions, Principal Stresses and Directions
Link Advanced Strength of Materials Lecture 4 - Example on Calculation of Principal Stresses and Directions, Orthogonality of Principal Directions, Principal Stresses are all Real
Link Advanced Strength of Materials Lecture 5 - Maximum Shear Stress and Octahedral Shear Stress, Deviatoric and Hydrostatic Stresses
Link Advanced Strength of Materials Lecture 6 - Transformation of Stresses and Mohr Circle in 3-D
Link Advanced Strength of Materials Lecture 7 - Mohr Circle (Continued)
Link Advanced Strength of Materials Lecture 8 - Deformation, Rotation and Strain Tensors, Principal Strains,Deviatoric and Hydrostatic Strains
Link Advanced Strength of Materials Lecture 9 - Strain Transformations, Strains in Polar Coordinates, Equilibrium Equations in 2-D
Link Advanced Strength of Materials Lecture 10 - Equilibrium Equations in 2-D Polar Coordinates Plane Stress and Plane Strain Conditions
Link Advanced Strength of Materials Lecture 11 - Stress-Strain Relations for Isotropic, Orthotropic and Anisotropic Materials Stress-Strain-Temperature Relations
Link Advanced Strength of Materials Lecture 12 - Relation between Elastic Constants and Strain Energy Densities Recap of Lectures 1 to 11
Link Advanced Strength of Materials Lecture 13 - Stress Distribution in Thick Cylinder
Link Advanced Strength of Materials Lecture 14 - Stresses due to Shrink Fitting
Link Advanced Strength of Materials Lecture 15 - Stresses in Rotating Disc
Link Advanced Strength of Materials Lecture 16 - Examples on Shrink Fitting and Rotating Disc
Link Advanced Strength of Materials Lecture 17 - Torsion of Non-Circular Shaft
Link Advanced Strength of Materials Lecture 18 - Torsion of Non-Circular Shaft (Continued)
Link Advanced Strength of Materials Lecture 19 - Membrane Analogy for Torsion
Link Advanced Strength of Materials Lecture 20 - Torsion of Thin Box Sections
Link Advanced Strength of Materials Lecture 21 - Torsion of Box and Open Sections
Link Advanced Strength of Materials Lecture 22 - Bending of Curved Bars
Link Advanced Strength of Materials Lecture 23 - Bending of Curved Bars (Continued)
Link Advanced Strength of Materials Lecture 24 - Theories of Failure
Link Advanced Strength of Materials Lecture 25 - Theories of Failure (Continued)
Link Advanced Strength of Materials Lecture 26 - Theories of Failure (Continued) and Their Applications, Griffith Theory of Brittle Fracture
Link Advanced Strength of Materials Lecture 27 - Application of Griffith Theory, Irwin-Orowan Modification of Griffith Theory, Assessment of Effect of Dynamic Loading
Link Advanced Strength of Materials Lecture 28 - Theorems of Elasticity
Link Advanced Strength of Materials Lecture 29 - Theorems of Elasticity (Continued)
Link Advanced Strength of Materials Lecture 30 - Thermal Stress Distribution in Rectangular Sheet due to Symmetric and Asymmetric Temperature Fields
Link Advanced Strength of Materials Lecture 31 - Thermal Stress Distribution in Cylinders
Link Advanced Strength of Materials Lecture 32 - Unsymmetrical Bending
Link Advanced Strength of Materials Lecture 33 - Shear Centre
Link Advanced Strength of Materials Lecture 34 - Plate Bending
Link Advanced Strength of Materials Lecture 35 - Plate Bending (Continued)
Link Advanced Strength of Materials Lecture 36 - Examples on Plate Bending
Link Advanced Strength of Materials Lecture 37 - Approximate Solutions for Bending of Rectangular and Circular Plates
Link Advanced Strength of Materials Lecture 38 - Thin Shells of Revolution
Link Advanced Strength of Materials Lecture 39 - Beam on Elastic Foundation
Link Advanced Strength of Materials Lecture 40 - Application of Beam on Elastic Foundation Analysis to Pressure Vessels for Calculation of Discontinuity Stresses
Link Heat and Mass Transfer Lecture 1 - Introduction to Heat and Mass Transfer
Link Heat and Mass Transfer Lecture 2 - Introduction
Link Heat and Mass Transfer Lecture 3 - Introduction
Link Heat and Mass Transfer Lecture 4 - Heat Conduction - 1
Link Heat and Mass Transfer Lecture 5 - Heat Conduction - 2
Link Heat and Mass Transfer Lecture 6 - Heat Conduction - 3
Link Heat and Mass Transfer Lecture 7 - Heat Conduction - 4
Link Heat and Mass Transfer Lecture 8 - Heat Conduction - 5
Link Heat and Mass Transfer Lecture 9 - Heat Conduction - 6
Link Heat and Mass Transfer Lecture 10 - Thermal Radiation - 1
Link Heat and Mass Transfer Lecture 11 - Thermal Radiation - 2
Link Heat and Mass Transfer Lecture 12 - Thermal Radiation - 3
Link Heat and Mass Transfer Lecture 13 - Thermal Radiation - 4
Link Heat and Mass Transfer Lecture 14 - Thermal Radiation - 5
Link Heat and Mass Transfer Lecture 15 - Thermal Radiation - 6
Link Heat and Mass Transfer Lecture 16 - Review Of Fluid Mechanics - 1
Link Heat and Mass Transfer Lecture 17 - Review Of Fluid Mechanics - 2
Link Heat and Mass Transfer Lecture 18 - Forced Convection - 1
Link Heat and Mass Transfer Lecture 19 - Forced Convection - 2
Link Heat and Mass Transfer Lecture 20 - Forced Convection - 3
Link Heat and Mass Transfer Lecture 21 - Forced Convection - 4
Link Heat and Mass Transfer Lecture 22 - Natural Convection - 1
Link Heat and Mass Transfer Lecture 23 - Natural Convection - 2
Link Heat and Mass Transfer Lecture 24 - Natural Convection - 3
Link Heat and Mass Transfer Lecture 25 - Heat Exchangers - 1
Link Heat and Mass Transfer Lecture 26 - Heat Exchangers - 2
Link Heat and Mass Transfer Lecture 27 - Heat Exchangers - 3
Link Heat and Mass Transfer Lecture 28 - Heat Exchangers - 4
Link Heat and Mass Transfer Lecture 29 - Boiling and Condensation - 1
Link Heat and Mass Transfer Lecture 30 - Boiling and Condensation - 2
Link Heat and Mass Transfer Lecture 31 - Boiling and Condensation - 3
Link Heat and Mass Transfer Lecture 32 - Boiling and Condensation - 4
Link Heat and Mass Transfer Lecture 33 - Introduction to Mass Transfer - 1
Link Heat and Mass Transfer Lecture 34 - Introduction to Mass Transfer - 2
Link Heat and Mass Transfer Lecture 35 - Introduction to Mass Transfer - 3
Link Robotics Lecture 1 - Introduction to Robotics
Link Robotics Lecture 2 - Technologies in Robots
Link Robotics Lecture 3 - Industrial Robots
Link Robotics Lecture 4 - Industrial Manipulators and its Kinematics
Link Robotics Lecture 5 - Parallel Manipulators
Link Robotics Lecture 6 - Grippers manipulators
Link Robotics Lecture 7 - Electric Actuators
Link Robotics Lecture 8 - Actuators - Electric, Hydraulic, Pneumatic
Link Robotics Lecture 9 - Internal State Sensors
Link Robotics Lecture 10 - Internal State Sensors
Link Robotics Lecture 11 - External State Sensors
Link Robotics Lecture 12 - Trajectory planning
Link Robotics Lecture 13 - Trajectory planning
Link Robotics Lecture 14 - Trajectory planning
Link Robotics Lecture 15 - Trajectory planning
Link Robotics Lecture 16 - Trajectory planning
Link Robotics Lecture 17 - Trajectory planning
Link Robotics Lecture 18 - Trajectory planning
Link Robotics Lecture 19 - Trajectory planning
Link Robotics Lecture 20 - Forward Position Control
Link Robotics Lecture 21 - Inverse Problem
Link Robotics Lecture 22 - Velocity Analysis
Link Robotics Lecture 23 - Velocity Analysis
Link Robotics Lecture 24 - Dynamic Analysis
Link Robotics Lecture 25 - Image Processing
Link Robotics Lecture 26 - Image Processing
Link Robotics Lecture 27 - Image Processing
Link Robotics Lecture 28 - Image Processing
Link Robotics Lecture 29 - Image Processing
Link Robotics Lecture 30 - Image Processing
Link Robotics Lecture 31 - Robot Dynamics and Control
Link Robotics Lecture 32 - Robot Dynamics and Control
Link Robotics Lecture 33 - Robot Dynamics and Control
Link Robotics Lecture 34 - Robot Dynamics and Control
Link Robotics Lecture 35 - Robot Dynamics and Control
Link Robotics Lecture 36 - Robot Dynamics and Control
Link Robotics Lecture 37 - Futuristic Topics in Robotics
Link Robotics Lecture 38 - Robot Dynamic and Control-Case Studies
Link Robotics Lecture 39 - Robot Dynamic and Control-Case Studies
Link Robotics Lecture 40 - Futuristic Topics in Robotics
Link Tribology Lecture 1 - Introduction
Link Tribology Lecture 2 - Interdisciplinary Approach and Economic Benefits
Link Tribology Lecture 3 - Friction
Link Tribology Lecture 4 - Friction Estimation
Link Tribology Lecture 5 - Friction Instability
Link Tribology Lecture 6 - Wear
Link Tribology Lecture 7 - Adhesive Wear
Link Tribology Lecture 8 - Wear Mechanisms
Link Tribology Lecture 9 - Wear Mechanisms - 2
Link Tribology Lecture 10 - Wear Analysis
Link Tribology Lecture 11 - Lubrication and Lubricants
Link Tribology Lecture 12 - Boundary Lubrication
Link Tribology Lecture 13 - Lubrication Mechanisms
Link Tribology Lecture 14 - Hydrodynamic Lubrication
Link Tribology Lecture 15 - Lubricant Classifications
Link Tribology Lecture 16 - Solid and Semi Solid Lubricants
Link Tribology Lecture 17 - Liquid Lubricants
Link Tribology Lecture 18 - Lubricant Additives
Link Tribology Lecture 19 - Fluid Film Lubrication
Link Tribology Lecture 20 - Reynolds Equation
Link Tribology Lecture 21 - Solution of Reynolds Equation
Link Tribology Lecture 22 - Hybrid Solution Approach (to solve Reynolds Equation)
Link Tribology Lecture 23 - Finite Difference Method to Solve Reynolds Equation
Link Tribology Lecture 24 - Viscosity Variation
Link Tribology Lecture 25 - Estimating Elastic Deformation
Link Tribology Lecture 26 - Thermo Hydrodynamic Lubrication
Link Tribology Lecture 27 - Application of Tribology
Link Tribology Lecture 28 - Rolling Element Bearings
Link Tribology Lecture 29 - Rolling Element Bearings (Continued...)
Link Tribology Lecture 30 - Rolling Element Bearings (Continued...)
Link Tribology Lecture 31 - Selection of Rolling Element Bearings
Link Tribology Lecture 32 - Friction of Rolling Element Bearing
Link Tribology Lecture 33 - Bearing Clearance
Link Tribology Lecture 34 - Bearing Lubrication
Link Tribology Lecture 35 - Tribology of Gears
Link Tribology Lecture 36 - Friction and Lubrication of Gears
Link Tribology Lecture 37 - Friction and Lubrication of Gears (Continued...)
Link Tribology Lecture 38 - Surface Fatigue of Spur Gears
Link Tribology Lecture 39 - Journal Bearings
Link Tribology Lecture 40 - Hydrostatic Bearings
Link Tribology Lecture 41 - Hydrodynamic Journal Bearings
Link Tribology Lecture 42 - Design of Hydrodynamic Journal Bearings
Link Computer Aided Design and Manufacturing Lecture 1 - An Introduction to CAD
Link Computer Aided Design and Manufacturing Lecture 2 - Input Output Devices, Raster Graphics
Link Computer Aided Design and Manufacturing Lecture 3 - Raster Graphics - I
Link Computer Aided Design and Manufacturing Lecture 4 - Raster Graphics - II
Link Computer Aided Design and Manufacturing Lecture 5 - Polygon Filling
Link Computer Aided Design and Manufacturing Lecture 6 - Windowing and Clipping
Link Computer Aided Design and Manufacturing Lecture 7 - Clipping of Polygons
Link Computer Aided Design and Manufacturing Lecture 8 - 2D Transformations
Link Computer Aided Design and Manufacturing Lecture 9 - 3D Transformations and Projection
Link Computer Aided Design and Manufacturing Lecture 10 - Perspective Projections
Link Computer Aided Design and Manufacturing Lecture 11 - Projections and Hidden Surface Removal
Link Computer Aided Design and Manufacturing Lecture 12 - Hidden Surface Removal
Link Computer Aided Design and Manufacturing Lecture 13 - Hidden Surface Removal
Link Computer Aided Design and Manufacturing Lecture 14 - Hidden Surface Removal
Link Computer Aided Design and Manufacturing Lecture 15 - Finite Element Method : An Introduction
Link Computer Aided Design and Manufacturing Lecture 16 - Galerkin's Approach
Link Computer Aided Design and Manufacturing Lecture 17 - Galerkin's Method : 1D Finite Element Method
Link Computer Aided Design and Manufacturing Lecture 18 - 1D Finite Element Problems
Link Computer Aided Design and Manufacturing Lecture 19 - 1D Finite Element Problems
Link Computer Aided Design and Manufacturing Lecture 20 - FE Problems : Solving for Q
Link Computer Aided Design and Manufacturing Lecture 21 - 1D - FE Problems : Galerkin's Approach
Link Computer Aided Design and Manufacturing Lecture 22 - Penalty Approach and Multi Point Boundary
Link Computer Aided Design and Manufacturing Lecture 23 - Quadratic Shape Functions
Link Computer Aided Design and Manufacturing Lecture 24 - 2D - FE Problems
Link Computer Aided Design and Manufacturing Lecture 25 - 2D - FE Problems (Continued.)
Link Computer Aided Design and Manufacturing Lecture 26 - 3D - FE Problems
Link Computer Aided Design and Manufacturing Lecture 27 - 3D - Tetrahedral and 2D - Quadrilateral Element
Link Computer Aided Design and Manufacturing Lecture 28 - Mesh Preparation
Link Computer Aided Design and Manufacturing Lecture 29 - Modeling of Curves
Link Computer Aided Design and Manufacturing Lecture 30 - Modeling of Curves
Link Computer Aided Design and Manufacturing Lecture 31 - Modeling of Curves
Link Computer Aided Design and Manufacturing Lecture 32 - Modeling of B-Spline Curves
Link Computer Aided Design and Manufacturing Lecture 33 - Modeling of B-spline Curves
Link Computer Aided Design and Manufacturing Lecture 34 - Surface Modeling
Link Computer Aided Design and Manufacturing Lecture 35 - Surface Modeling
Link Computer Aided Design and Manufacturing Lecture 36 - Display of Curves and Surfaces
Link Computer Aided Design and Manufacturing Lecture 37 - Solid Modeling
Link Computer Aided Design and Manufacturing Lecture 38 - Solid Modeling
Link Computer Aided Design and Manufacturing Lecture 39 - Solid Modeling Using Octrees
Link Computer Aided Design and Manufacturing Lecture 40 - (Lecture Missing)
Link Computer Aided Design and Manufacturing Lecture 41 - Computer Aided Design
Link Computer Aided Design and Manufacturing Lecture 42 - Computer Aided Manufacturing
Link Computer Aided Design and Manufacturing Lecture 43 - What is CAD/CAM
Link Computer Aided Design and Manufacturing Lecture 44 - An Overview of Geometric Modeling
Link Computer Aided Design and Manufacturing Lecture 45 - Parametric Cubic Curve
Link Computer Aided Design and Manufacturing Lecture 46 - Parametric Bezier Curve
Link Computer Aided Design and Manufacturing Lecture 47 - B-Spline Curve
Link Computer Aided Design and Manufacturing Lecture 48 - Parametric Surfaces - Part-1
Link Computer Aided Design and Manufacturing Lecture 49 - Parametric Surfaces - Part-2
Link Computer Aided Design and Manufacturing Lecture 50 - Solid Modeling
Link Computer Aided Design and Manufacturing Lecture 51 - Geometric & Product Data Exchange
Link Computer Aided Design and Manufacturing Lecture 52 - Reverse Engineering
Link Project and Production Management Lecture 1 - Project and Production Management - An Overview
Link Project and Production Management Lecture 2 - Project Management: An Overview
Link Project and Production Management Lecture 3 - Project Identification and Screening
Link Project and Production Management Lecture 4 - Project Appraisal - Part I
Link Project and Production Management Lecture 5 - Project Appraisal - Part II
Link Project and Production Management Lecture 6 - Project Selection
Link Project and Production Management Lecture 7 - Project Representation
Link Project and Production Management Lecture 8 - Consistency and Redundancy in Project Networks
Link Project and Production Management Lecture 9 - Basic scheduling with A-O-A Networks
Link Project and Production Management Lecture 10 - Basic Scheduling with A-O-N Networks
Link Project and Production Management Lecture 11 - Project Scheduling with Probabilistic Activity
Link Project and Production Management Lecture 12 - Linear Time-Cost Tradeoffs in Projects
Link Project and Production Management Lecture 13 - Project Crashing with Multiple Objectives
Link Project and Production Management Lecture 14 - Resource Profiles and Leveling
Link Project and Production Management Lecture 15 - Limited Resource Allocation
Link Project and Production Management Lecture 16 - Project Monitoring and Control with PERT/Cost
Link Project and Production Management Lecture 17 - Team Building and Leadership in Projects
Link Project and Production Management Lecture 18 - Organizational and Behavioral Issues
Link Project and Production Management Lecture 19 - Computers in Project Management
Link Project and Production Management Lecture 20 - Project Completion and Review
Link Project and Production Management Lecture 21 - Life Cycle of a Production System
Link Project and Production Management Lecture 22 - Role of Models in Production Management
Link Project and Production Management Lecture 23 - Financial Evaluation of capital Decisions
Link Project and Production Management Lecture 24 - Decision Trees and Risk Evaluation
Link Project and Production Management Lecture 25 - Introducing New Products & Services
Link Project and Production Management Lecture 26 - Economic Evaluation of New Products & Services
Link Project and Production Management Lecture 27 - Product Mix Decisions
Link Project and Production Management Lecture 28 - Product & Process Design
Link Project and Production Management Lecture 29 - Issues in Location of Facilities
Link Project and Production Management Lecture 30 - Mathematical Models for Facility Location
Link Project and Production Management Lecture 31 - Layout planning
Link Project and Production Management Lecture 32 - Computerised Layout Planning
Link Project and Production Management Lecture 33 - Product Layouts and Assembly Line Balancing
Link Project and Production Management Lecture 34 - Forecasting
Link Project and Production Management Lecture 35 - The Analysis of Time Series
Link Project and Production Management Lecture 36 - Aggregate Production Planning: Basic Concepts
Link Project and Production Management Lecture 37 - Modelling Approaches
Link Project and Production Management Lecture 38 - Basic Inventory Principles
Link Project and Production Management Lecture 39 - Inventory Modelling
Link Project and Production Management Lecture 40 - Material Requirements Planning
Link Project and Production Management Lecture 41 - Scheduling of Job Shops
Link NOC:RAC Product Design Lecture 1 - Introduction to Design
Link NOC:RAC Product Design Lecture 2 - Design Considerations
Link NOC:RAC Product Design Lecture 3 - Basic Concepts Psychrometry and Air-Conditioning
Link NOC:RAC Product Design Lecture 4 - Refrigerants
Link NOC:RAC Product Design Lecture 5 - Refrigerant Properties and Applications
Link NOC:RAC Product Design Lecture 6 - Refrigeration Cycle and Components
Link NOC:RAC Product Design Lecture 7 - Compressor Selection
Link NOC:RAC Product Design Lecture 8 - Expansion Devices
Link NOC:RAC Product Design Lecture 9 - Condensers and Evaporators
Link NOC:RAC Product Design Lecture 10 - Types of Heat Exchangers and Air Conditioning Systems
Link NOC:RAC Product Design Lecture 11 - Selection of Air Conditioning Systems for Hostels
Link NOC:RAC Product Design Lecture 12 - Case Study on a Railway Air Conditioning System
Link NOC:RAC Product Design Lecture 13 - Vibration and noise issues in railway AC systems
Link NOC:RAC Product Design Lecture 14 - New product launch process
Link NOC:RAC Product Design Lecture 15 - Case study on a telecom cooling system and Emerging technologies
Link NOC:Thermodynamics Lecture 1 - Thermodynamic Concepts: Applications of thermodynamics
Link NOC:Thermodynamics Lecture 2 - Thermodynamic Concepts: System definition,Heat, Work and Mass Flow
Link NOC:Thermodynamics Lecture 3 - Thermodynamic Concepts: Questions and Answers
Link NOC:Thermodynamics Lecture 4 - Thermodynamic Concepts: Properties,State and Equilibrium
Link NOC:Thermodynamics Lecture 5 - Thermodynamic Concepts: Process, Cycles and Applications
Link NOC:Thermodynamics Lecture 6 - Thermodynamic Concepts: Steady state, Reversible and Irreversible processes
Link NOC:Thermodynamics Lecture 7 - Thermodynamic Concepts: Causes of irreversibility
Link NOC:Thermodynamics Lecture 8 - Thermodynamic Concepts: Thermal reservoirs
Link NOC:Thermodynamics Lecture 9 - Thermodynamic Concepts: Pressure and temperature
Link NOC:Thermodynamics Lecture 10 - Thermodynamic Concepts: Revision and Summary
Link NOC:Thermodynamics Lecture 11 - Laws Of Thermodynamics: Mass flow rate, Conservation of mass, Flow work
Link NOC:Thermodynamics Lecture 12 - Laws Of Thermodynamics: Zeroth Law
Link NOC:Thermodynamics Lecture 13 - Laws Of Thermodynamics: First Laws Of Thermodynamics, 1st law for Control Mass, Internal Energy, enthalpy
Link NOC:Thermodynamics Lecture 14 - Laws Of Thermodynamics: 1st law for Control Volume
Link NOC:Thermodynamics Lecture 15 - Laws Of Thermodynamics: Revision, Cycles, Second Law statements, Clausius inequality
Link NOC:Thermodynamics Lecture 16 - Laws Of Thermodynamics: Introduction to carnot Cycle
Link NOC:Thermodynamics Lecture 17 - Laws Of Thermodynamics: Entropy,Entropy change for a system
Link NOC:Thermodynamics Lecture 18 - Laws Of Thermodynamics: Thermodynamics relations,Bernoulli's equation
Link NOC:Thermodynamics Lecture 19 - Laws Of Thermodynamics: Devices, Cycles
Link NOC:Thermodynamics Lecture 20 - Properties of a Pure Substance: Thermodynamic behaviour of a pure substance
Link NOC:Thermodynamics Lecture 21 - Properties of a Pure Substance: Saturated states, Subcooled liquid, Superheated vapour
Link NOC:Thermodynamics Lecture 22 - Properties of a Pure Substance: Vapour pressure curve, Reference state
Link NOC:Thermodynamics Lecture 23 - Properties of a Pure Substance: Saturated states
Link NOC:Thermodynamics Lecture 24 - Properties of a Pure Substance: p-h diagram
Link NOC:Thermodynamics Lecture 25 - Properties of a Pure Substance: T-s diagram, h-s diagram
Link NOC:Thermodynamics Lecture 26 - Properties of a Pure Substance: Critical state, Compressibility factor
Link NOC:Thermodynamics Lecture 27 - Properties of a Pure Substance: Ideal gas behaviour, Equations of state, Specific heat
Link NOC:Thermodynamics Lecture 28 - Properties of a Pure Substance: Ideal gas processes
Link NOC:Thermodynamics Lecture 29 - Properties of a Pure Substance: Gibbs energy, Helmholtz function, Property relations
Link NOC:Thermodynamics Lecture 30 - Properties of a Pure Substance: Process analysis, Summary
Link NOC:Thermodynamics Lecture 31 - Laws of Thermodynamics: Carnot Cycle Realization
Link NOC:Thermodynamics Lecture 32 - Applications, Problem Solving: Devices, Schematic/Flow Diagrams
Link NOC:Thermodynamics Lecture 33 - Applications, Problem Solving: Positive Displacement Devices
Link NOC:Thermodynamics Lecture 34 - Applications, Problem Solving: Heat Exchangers
Link NOC:Thermodynamics Lecture 35 - Applications, Problem Solving: Compressors, Fans and Blowers, Pumps
Link NOC:Thermodynamics Lecture 36 - Applications, Problem Solving: Turbines
Link NOC:Thermodynamics Lecture 37 - Applications, Problem Solving: Nozzle, Diffuser, Expansion Valve, Pipe/duct flow
Link NOC:Thermodynamics Lecture 38 - Applications, Problem Solving: De-Superheater, Deaerator, Separation
Link NOC:Thermodynamics Lecture 39 - Applications, Problem Solving: Unsteady processes, Filling, Evacuation
Link NOC:Thermodynamics Lecture 40 - Applications, Problem Solving: Realization of Carnot cycle, Practical cycles, Air-standard cycles
Link NOC:Thermodynamics Lecture 41 - Applications, Problem Solving: Materials, Compressible flow
Link NOC:Thermodynamics Lecture 42 - Applications, Problem Solving: Otto cycle, Diesel cycle
Link NOC:Thermodynamics Lecture 43 - Applications, Problem Solving: Closed system
Link NOC:Thermodynamics Lecture 44 - Applications, Problem Solving: Open System
Link NOC:Thermodynamics Lecture 45 - Properties of Ideal Gas Mixtures: Introduction to mixtures properties
Link NOC:Thermodynamics Lecture 46 - Properties of Ideal Gas Mixtures: Equation of state, Conservation equations
Link NOC:Thermodynamics Lecture 47 - Gas-Vapour Mixtures: Psychrometry, Moist air Properties,
Link NOC:Thermodynamics Lecture 48 - Gas-Vapour Mixtures: Properties, Conservation of Mass and Energy
Link NOC:Thermodynamics Lecture 49 - Gas-Vapour Mixtures: Psychrometric chart, Applications
Link NOC:Thermodynamics Lecture 50 - Thermodynamics of Reacting sytems: Introduction to reacting systems and combustion
Link NOC:Thermodynamics Lecture 51 - Thermodynamics of Reacting sytems: Flames, Stoichiometry
Link NOC:Thermodynamics Lecture 52 - Thermodynamics of Reacting sytems: Analysis of Closed and Open Systems, Enthalpy of Formation
Link NOC:Thermodynamics Lecture 53 - Phase and Chemical Equilibrium: Introduction. Chemical equilibrium. Gibbs function
Link NOC:Thermodynamics Lecture 54 - Phase and Chemical Equilibrium: Equilibrium constant. Phase equilibrium
Link NOC:Solid Mechanics Lecture 1 - Mathematical Concepts: Working with Vectors and Tensors
Link NOC:Solid Mechanics Lecture 2 - Traction Vector
Link NOC:Solid Mechanics Lecture 3 - Stress Tensor and its Matrix Representation
Link NOC:Solid Mechanics Lecture 4 - Transformation of Stress Matrix
Link NOC:Solid Mechanics Lecture 5 - Stress Equilibrium Equations : Balance of Linear and Angular Momentum
Link NOC:Solid Mechanics Lecture 6 - Balance of Angular Momentum (Continued...)
Link NOC:Solid Mechanics Lecture 7 - Principal Planes and Principal stress components
Link NOC:Solid Mechanics Lecture 8 - Maximizing the Shear Component of Traction
Link NOC:Solid Mechanics Lecture 9 - Mohr's Circle
Link NOC:Solid Mechanics Lecture 10 - Mohr's Circle (Continued...), Stress Invariants, Decomposition of the Stress Tensor
Link NOC:Solid Mechanics Lecture 11 - Concept of Strain Tensor
Link NOC:Solid Mechanics Lecture 12 - Longitudinal and Shear Strains
Link NOC:Solid Mechanics Lecture 13 - Local Volumetric Strain and Local Infinitesimal Rotation
Link NOC:Solid Mechanics Lecture 14 - Similarity in Properties of Stress and Strain Tensors
Link NOC:Solid Mechanics Lecture 15 - Stress-Strain Relation
Link NOC:Solid Mechanics Lecture 16 - Stress-Strain Relation for Isotropic Materials
Link NOC:Solid Mechanics Lecture 17 - Linear Momentum Balance in Cylinderical Coordinate System
Link NOC:Solid Mechanics Lecture 18 - Linear Momentum Balance in Cylinderical Coordinate System (Continued...)
Link NOC:Solid Mechanics Lecture 19 - Strain Matrix Cylinderical Coordinate System
Link NOC:Solid Mechanics Lecture 20 - Extension-Torsion-Inflation in a Hollow Cylinder
Link NOC:Solid Mechanics Lecture 21 - Extension-Torsion-Inflation in a Hollow Cylinder (Continued...)
Link NOC:Solid Mechanics Lecture 22 - Solving Problems Involving Torsion of Shafts
Link NOC:Solid Mechanics Lecture 23 - Pure Bending of Rectangular Beams
Link NOC:Solid Mechanics Lecture 24 - Bending of Beams (Continued...)
Link NOC:Solid Mechanics Lecture 25 - Bending of Unsymmetrical Beams
Link NOC:Solid Mechanics Lecture 26 - Concept of Shear Center
Link NOC:Solid Mechanics Lecture 27 - Theoy of Beams
Link NOC:Solid Mechanics Lecture 28 - Theoy of Beams (Continued...) and Beam Buckling
Link NOC:Solid Mechanics Lecture 29 - Energy Methods
Link NOC:Solid Mechanics Lecture 30 - Energy Methods (Continued...)
Link NOC:Solid Mechanics Lecture 31 - Theories of Failure
Link NOC:Solid Mechanics Lecture 32 - Theories of Failure (Continued...)
Link Nonlinear Vibration Lecture 1 - Introduction of Nonlinear systems
Link Nonlinear Vibration Lecture 2 - Review of Linear vibrating systems
Link Nonlinear Vibration Lecture 3 - Phenomena associated with Nonlinear systems
Link Nonlinear Vibration Lecture 4 - Commonly observed Phenomena in Nonlinear systems
Link Nonlinear Vibration Lecture 5 - Force and Moment based Approach
Link Nonlinear Vibration Lecture 6 - Energy based approach Extended Hamilton’s principle and Lagrange Priciple
Link Nonlinear Vibration Lecture 7 - Derivation of Equation of motion of nonlinear discrete system (More examples)
Link Nonlinear Vibration Lecture 8 - Derivation of Equation of motion of nonlinear continuous system - 1
Link Nonlinear Vibration Lecture 9 - Derivation of Equation of motion of nonlinear continuous system - 2
Link Nonlinear Vibration Lecture 10 - Ordering of nonlinear Equation of motion
Link Nonlinear Vibration Lecture 11 - Qualitative Analysis Straight forward expansion
Link Nonlinear Vibration Lecture 12 - Numerical method Straight forward expansion
Link Nonlinear Vibration Lecture 13 - Lindstedt Poincare’ technique
Link Nonlinear Vibration Lecture 14 - Method of multiple scales
Link Nonlinear Vibration Lecture 15 - Method of Harmonic balance
Link Nonlinear Vibration Lecture 16 - Method of averaging
Link Nonlinear Vibration Lecture 17 - Generalized Method of averaging
Link Nonlinear Vibration Lecture 18 - Krylov-Bogoliubov-Mitropolski technique
Link Nonlinear Vibration Lecture 19 - Incremental harmonic balance method and Intrinsic multiple scale harmonic balance method
Link Nonlinear Vibration Lecture 20 - Modified Lindstedt Poincare’ technique
Link Nonlinear Vibration Lecture 21 - Stability and Bifurcation of Fixed-point response - 1
Link Nonlinear Vibration Lecture 22 - Stability and Bifurcation of Fixed-point response - 2
Link Nonlinear Vibration Lecture 23 - Stability and Bifurcation of Fixed-point response - 3
Link Nonlinear Vibration Lecture 24 - Stability and Bifurcation of Fixed-point response - 4
Link Nonlinear Vibration Lecture 25 - Stability Analysis of Periodic response
Link Nonlinear Vibration Lecture 26 - Bifurcation of Periodic response And Introduction to quasi-periodic and Chaotic response
Link Nonlinear Vibration Lecture 27 - Quasi-Periodic and Chaotic response
Link Nonlinear Vibration Lecture 28 - Numerical methods to obtain roots of characteristic equation and time response
Link Nonlinear Vibration Lecture 29 - Numerical methods to obtain time response
Link Nonlinear Vibration Lecture 30 - Numerical methods to obtain frequency response
Link Nonlinear Vibration Lecture 31 - Free Vibration of Single degree of freedom Nonlinear systems with Cubic and quadratic nonlinearities
Link Nonlinear Vibration Lecture 32 - Free Vibration of Single degree of freedom Nonlinear systems with Cubic and quadratic nonlinearities: effect of damping
Link Nonlinear Vibration Lecture 33 - Free Vibration of multi- degree of freedom Nonlinear systems with Cubic and quadratic nonlinearities
Link Nonlinear Vibration Lecture 34 - Forced nonlinear Vibration Single degree of freedom Nonlinear systems with Cubic nonlinearities:
Link Nonlinear Vibration Lecture 35 - Forced nonlinear Vibration Single and multi- degree of freedom Nonlinear systems
Link Nonlinear Vibration Lecture 36 - Nonlinear Forced-Vibration of Single and Multi Degree-of-Freedom System
Link Nonlinear Vibration Lecture 37 - Analysis of Multi- degree of freedom system
Link Nonlinear Vibration Lecture 38 - Nonlinear Vibration of Parametrically excited system: Axially loaded sandwich beam
Link Nonlinear Vibration Lecture 39 - Nonlinear Vibration of Parametrically excited system: Elastic and Magneto-elastic beam
Link Nonlinear Vibration Lecture 40 - Nonlinear Vibration of Parametrically excited system with internal resonance
Link Theory and Practice of Rotor Dynamics Lecture 1 - Introduction
Link Theory and Practice of Rotor Dynamics Lecture 2 - A Brief History of Rotor Dynamics
Link Theory and Practice of Rotor Dynamics Lecture 3 - The State of the Art of Rotor Dynamics
Link Theory and Practice of Rotor Dynamics Lecture 4 - Simple Rotor Models with Rigid Bearings
Link Theory and Practice of Rotor Dynamics Lecture 5 - Jeffcott Rotor Model
Link Theory and Practice of Rotor Dynamics Lecture 6 - Variant of Jeffcott Rotor Model
Link Theory and Practice of Rotor Dynamics Lecture 7 - Rigid Rotor Mounted on Simple Anistropic Springs as Bearings
Link Theory and Practice of Rotor Dynamics Lecture 8 - Rigid Rotor Mounted on Complex Anisotropic Bearings
Link Theory and Practice of Rotor Dynamics Lecture 9 - Flexible Shaft with a Rigid Disc Mounted on Anistropic Supports
Link Theory and Practice of Rotor Dynamics Lecture 10 - Gyroscopic Effects : Synchronous whirl of a Rotor Systems with a thin Disc
Link Theory and Practice of Rotor Dynamics Lecture 11 - Gyroscopic Effects : Synchronous and Asynchronous pure wobbling motions
Link Theory and Practice of Rotor Dynamics Lecture 12 - Gyroscopic Effects : Asynchronous whirl of a Rotor system with a thin Disc
Link Theory and Practice of Rotor Dynamics Lecture 13 - Gyroscopic Effects : Asynchronous whirl analysis with Dynamic Approach
Link Theory and Practice of Rotor Dynamics Lecture 14 - Torsional Vibrations: Simple Rotor Systems
Link Theory and Practice of Rotor Dynamics Lecture 15 - Three Disc Rotor System
Link Theory and Practice of Rotor Dynamics Lecture 16 - Transfer Matrix Approach - Part I
Link Theory and Practice of Rotor Dynamics Lecture 17 - Transfer Matrix Approach - Part II
Link Theory and Practice of Rotor Dynamics Lecture 18 - Transfer Matrix Approach - Part III
Link Theory and Practice of Rotor Dynamics Lecture 19 - Geared and Branched Systems
Link Theory and Practice of Rotor Dynamics Lecture 20 - Continuous System and Finite Element Method
Link Theory and Practice of Rotor Dynamics Lecture 21 - Finite Element Method
Link Theory and Practice of Rotor Dynamics Lecture 22 - Finite Element Analysis
Link Theory and Practice of Rotor Dynamics Lecture 23 - Finite Element Analysis - Part III
Link Theory and Practice of Rotor Dynamics Lecture 24 - Influence Coefficient Method
Link Theory and Practice of Rotor Dynamics Lecture 25 - Transfer Matrix Method - Part I
Link Theory and Practice of Rotor Dynamics Lecture 26 - Transfer Matrix Method - Part II
Link Theory and Practice of Rotor Dynamics Lecture 27 - Transfer Matrix Method - Part III
Link Theory and Practice of Rotor Dynamics Lecture 28 - Continuous System Approach
Link Theory and Practice of Rotor Dynamics Lecture 29 - Finite Element Method - Part I
Link Theory and Practice of Rotor Dynamics Lecture 30 - Finite Element Method - Part II
Link Theory and Practice of Rotor Dynamics Lecture 31 - Finite Element Method - Part III
Link Theory and Practice of Rotor Dynamics Lecture 32 - Instability in Rotor Systems: Bearings
Link Theory and Practice of Rotor Dynamics Lecture 33 - Fluid-Film Bearings
Link Theory and Practice of Rotor Dynamics Lecture 34 - Internal Damping & Asymmetrical Shaft
Link Theory and Practice of Rotor Dynamics Lecture 35 - Steam Whirl and Seals
Link Theory and Practice of Rotor Dynamics Lecture 36 - Subcritical Speed Whirl
Link Theory and Practice of Rotor Dynamics Lecture 37 - Introduction to Rigid Rotor Balancing
Link Theory and Practice of Rotor Dynamics Lecture 38 - Dynamic Balancing of Rotors: Rigid Rotor Balancing
Link Theory and Practice of Rotor Dynamics Lecture 39 - Dynamic Balancing of Rotors:Flexible Rotor Model Balancing
Link Theory and Practice of Rotor Dynamics Lecture 40 - Dynamic Balancing of Rotors:Influence Coefficient Method for Flexible Rotor
Link Theory and Practice of Rotor Dynamics Lecture 41 - Common Faults & Vibration signatures
Link Theory and Practice of Rotor Dynamics Lecture 42 - Condition Based Monitoring
Link Engineering Mechanics Lecture 1 - Fundamentals Of Engineering Mechanics
Link Engineering Mechanics Lecture 2 - Equations of Equilibrium
Link Engineering Mechanics Lecture 3 - Truss Analysis - Part 1
Link Engineering Mechanics Lecture 4 - Truss Analysis - Part 2
Link Engineering Mechanics Lecture 5 - Analysis of Frames Machines
Link Engineering Mechanics Lecture 6 - Internal Forces
Link Engineering Mechanics Lecture 7 - Internal Forces in Beams
Link Engineering Mechanics Lecture 8 - Cables
Link Engineering Mechanics Lecture 9 - Friction
Link Engineering Mechanics Lecture 10 - Application of Friction - Part 1
Link Engineering Mechanics Lecture 11 - Application of Friction - Part 2
Link Engineering Mechanics Lecture 12 - Application of Friction - Part 3
Link Engineering Mechanics Lecture 13 - Centroids Center of Mass
Link Engineering Mechanics Lecture 14 - Centroids Area of Moments
Link Engineering Mechanics Lecture 15 - Product of Inertia, Rotation of Axis and Principle Moments of Inertia
Link Engineering Mechanics Lecture 16 - Principle Mass Moments of Inertia
Link Engineering Mechanics Lecture 17 - Second Moment of Mass
Link Engineering Mechanics Lecture 18 - Virtual Work of Ideal System
Link Engineering Mechanics Lecture 19 - Principle of Virtual Work
Link Engineering Mechanics Lecture 20 - Systems with Friction
Link Engineering Mechanics Lecture 21 - Potential Energy
Link Engineering Mechanics Lecture 22 - Stability of Equilibrium
Link Engineering Mechanics Lecture 23 - Kinematics of a Particles
Link Engineering Mechanics Lecture 24 - Kinematics of a Particle Moving on a Curve
Link Engineering Mechanics Lecture 25 - Relative Motion
Link Engineering Mechanics Lecture 26 - Plane Kinematics of Rigid Bodies
Link Engineering Mechanics Lecture 27 - Kinematics of a Particle
Link Engineering Mechanics Lecture 28 - Work and Energy
Link Engineering Mechanics Lecture 29 - Impulse and Momentum
Link Engineering Mechanics Lecture 30 - Direct and Oblique Impulse
Link Engineering Mechanics Lecture 31 - Plane Kinetics of Rigid Bodies
Link Engineering Mechanics Lecture 32 - Kinetics of a Body
Link Engineering Mechanics Lecture 33 - Method of Momentum and Analysis of Robot Manipulator
Link Engineering Mechanics Lecture 34 - Kinematics in 3D
Link Engineering Mechanics Lecture 35 - Kinetics in 3D
Link Engineering Mechanics Lecture 36 - Free Vibration
Link Engineering Mechanics Lecture 37 - Forced Vibration Damped Undamped
Link Engineering Mechanics Lecture 38 - Vibration of Rigid Bodies - Part 1
Link Engineering Mechanics Lecture 39 - Vibration of Rigid Bodies - Part 2
Link Engineering Mechanics Lecture 40 - Some Problems of Vibration
Link Mechanical Vibrations Lecture 1 - Overview of the Course, Practical and Research Trends
Link Mechanical Vibrations Lecture 2 - Harmonic and Periodic Motions, Vibration Terminology
Link Mechanical Vibrations Lecture 3 - Vibration Model, Equation of Motion-Natural Frequency
Link Mechanical Vibrations Lecture 4 - Energy Method, Principle of Virtual Work
Link Mechanical Vibrations Lecture 5 - Viscously Damped Free Vibration Special Cases: Oscillatory
Link Mechanical Vibrations Lecture 6 - Logarithmic Decrement Experimental Determination of Damping Coefficient Hystersis Loop
Link Mechanical Vibrations Lecture 7 - Coulomb Damping other Damping Models
Link Mechanical Vibrations Lecture 8 - Forced Harmonic Vibration, Magnification Factor
Link Mechanical Vibrations Lecture 9 - Laplace Transform, Superposition Theorem
Link Mechanical Vibrations Lecture 10 - Rotor Unbalance and Whirling of Shaft, Transmissibility
Link Mechanical Vibrations Lecture 11 - Support Motion, Vibration Isolation
Link Mechanical Vibrations Lecture 12 - Sharpness of Resonance, Vibration Measuring Instruments
Link Mechanical Vibrations Lecture 13 - Generalized and Principle Coordinates, Derivation of Equation of Motion
Link Mechanical Vibrations Lecture 14 - Lagranges's Equation
Link Mechanical Vibrations Lecture 15 - Coordinate Coupling
Link Mechanical Vibrations Lecture 16 - Forced Harmonic Vibration
Link Mechanical Vibrations Lecture 17 - Tuned Absorber, Determination of Mass Ratio
Link Mechanical Vibrations Lecture 18 - Tuned and Damped Absorber, Untuned Viscous Damper
Link Mechanical Vibrations Lecture 19 - Derivation of Equations of Motion, Influence Coefficient Method
Link Mechanical Vibrations Lecture 20 - Properties of Vibrating Systems: Flexibility & Stiffness Matrices, Reciprocity Theorem
Link Mechanical Vibrations Lecture 21 - Modal Analysis: Undamped
Link Mechanical Vibrations Lecture 22 - Modal Analysis: Damped
Link Mechanical Vibrations Lecture 23 - Simple Systems With One Two or Three Discs Geared System
Link Mechanical Vibrations Lecture 24 - Multi-Degree of Freedom Systems-Transfer Matrix Method Branched Systems
Link Mechanical Vibrations Lecture 25 - Derivation of Equations of Motion Part 1 - Newton
Link Mechanical Vibrations Lecture 26 - Derivation of Equations of Motion Part 2 - Newton
Link Mechanical Vibrations Lecture 27 - Vibration of Strings
Link Mechanical Vibrations Lecture 28 - Longitudinal and Torsional Vibration of Rods
Link Mechanical Vibrations Lecture 29 - Transverse Vibration of Beams, Equations of Motion and Boundary Conditions
Link Mechanical Vibrations Lecture 30 - Transverse Vibration of Beams: Natural Frequencies and Mode Shapes
Link Mechanical Vibrations Lecture 31 - Rayleigh's Energy Method
Link Mechanical Vibrations Lecture 32 - Matrix Iteration Method
Link Mechanical Vibrations Lecture 33 - Durkerley, Rayleigh-Ritz and Galerkin Method
Link Mechanical Vibrations Lecture 34 - Finite Element Formulation for Rods, Gear Train and Branched System
Link Mechanical Vibrations Lecture 35 - Finite Element Formulation for Beams: Galerkin
Link Mechanical Vibrations Lecture 36 - Global Finite Element Assembly and Imposition of Boundary Conditions
Link Mechanical Vibrations Lecture 37 - Vibration Testing Equipments: Signal Measurements
Link Mechanical Vibrations Lecture 38 - Vibration Testing Equipments: Signal Analysis
Link Mechanical Vibrations Lecture 39 - Field Balancing of Rotors
Link Mechanical Vibrations Lecture 40 - Condition Monitoring
Link NOC:Advanced Machining Processes Lecture 1 - Introduction to advanced machining processes
Link NOC:Advanced Machining Processes Lecture 2 - Ultrasonic machining - Part I
Link NOC:Advanced Machining Processes Lecture 3 - Ultrasonic machining - Part II
Link NOC:Advanced Machining Processes Lecture 4 - Abrasive jet machining
Link NOC:Advanced Machining Processes Lecture 5 - Water jet cutting and Abrasive water jet machining
Link NOC:Advanced Machining Processes Lecture 6 - Magnetic abrasive finishing
Link NOC:Advanced Machining Processes Lecture 7 - Abrasive Flow Finishing
Link NOC:Advanced Machining Processes Lecture 8 - Magnetorheological Finishing
Link NOC:Advanced Machining Processes Lecture 9 - Magnetorheological Abrasive Flow Finishing - Part I
Link NOC:Advanced Machining Processes Lecture 10 - Magnetorheological Abrasive Flow Finishing - Part II
Link NOC:Advanced Machining Processes Lecture 11 - Magnetorheological Abrasive Flow Finishing - Part III
Link NOC:Advanced Machining Processes Lecture 12 - Electric discharge machining (EDM)
Link NOC:Advanced Machining Processes Lecture 13 - Electric Discharge Grinding, Electric Discharge Diamond Grinding and Wire Electric Discharge Machining
Link NOC:Advanced Machining Processes Lecture 14 - Electrochemical Machining (ECM)
Link NOC:Advanced Machining Processes Lecture 15 - Electrochemical Grinding, Electrostream Drilling, Shaped Tube Electrolytic Machining
Link NOC:Advanced Machining Processes Lecture 16 - Plasma Arc Machining (PAM)
Link NOC:Advanced Machining Processes Lecture 17 - Electron Beam Machining (EBM) Edit Lesson
Link NOC:Advanced Machining Processes Lecture 18 - Laser Beam Machining (LBM)
Link NOC:Advanced Machining Processes Lecture 19 - Chemical Machining (ChM)
Link NOC:Fundamentals of Nuclear Power Generation Lecture 1 - Introduction of nuclear energy
Link NOC:Fundamentals of Nuclear Power Generation Lecture 2 - Binding energy and mass defect
Link NOC:Fundamentals of Nuclear Power Generation Lecture 3 - Radioactivity and radioactive decay
Link NOC:Fundamentals of Nuclear Power Generation Lecture 4 - Different types of nuclear transmutation
Link NOC:Fundamentals of Nuclear Power Generation Lecture 5 - Artificial radioactivity and neutron-nucleus interactions
Link NOC:Fundamentals of Nuclear Power Generation Lecture 6 - Energy and momentum conservation
Link NOC:Fundamentals of Nuclear Power Generation Lecture 7 - Fission and role of neutron energy
Link NOC:Fundamentals of Nuclear Power Generation Lecture 8 - Theory of elastic scattering
Link NOC:Fundamentals of Nuclear Power Generation Lecture 9 - Neutron multiplication factor
Link NOC:Fundamentals of Nuclear Power Generation Lecture 10 - Neutron diffusion theory
Link NOC:Fundamentals of Nuclear Power Generation Lecture 11 - Solution of one-group diffusion equation
Link NOC:Fundamentals of Nuclear Power Generation Lecture 12 - Simple reactor theory
Link NOC:Fundamentals of Nuclear Power Generation Lecture 13 - Nuclear fuel and simple energy consideration
Link NOC:Fundamentals of Nuclear Power Generation Lecture 14 - Axial temperature distribution and heat transfer coefficient
Link NOC:Fundamentals of Nuclear Power Generation Lecture 15 - Prompt and delayed neutrons
Link NOC:Fundamentals of Nuclear Power Generation Lecture 16 - Delayed neutron kinetics
Link NOC:Fundamentals of Nuclear Power Generation Lecture 17 - Different control mechanisms and various effects
Link NOC:Fundamentals of Nuclear Power Generation Lecture 18 - Classical reactor designs
Link NOC:Fundamentals of Nuclear Power Generation Lecture 19 - Evolution of reactors from Gen-I to Gen-IV
Link NOC:Fundamentals of Nuclear Power Generation Lecture 20 - The concept of breeding
Link NOC:Fundamentals of Nuclear Power Generation Lecture 21 - Fuel cycles and FBR
Link NOC:Fundamentals of Nuclear Power Generation Lecture 22 - Gen-IV FBR designs
Link NOC:Fundamentals of Nuclear Power Generation Lecture 23 - Hydrogen fusion reactions
Link NOC:Fundamentals of Nuclear Power Generation Lecture 24 - Coulomb barrier and other critical factors
Link NOC:Fundamentals of Nuclear Power Generation Lecture 25 - Radiation dose and gross biological effects
Link NOC:Fundamentals of Nuclear Power Generation Lecture 26 - Stochastic and deterministic effects of human cells
Link NOC:Fundamentals of Nuclear Power Generation Lecture 27 - Lessons from TMI and Chernobyl
Link NOC:Fundamentals of Nuclear Power Generation Lecture 28 - Defence-in-depth Philosophy
Link NOC:Fundamentals of Nuclear Power Generation Lecture 29 - Waste classification and Disposal of Mill Tailings
Link NOC:Fundamentals of Nuclear Power Generation Lecture 30 - Disposal methodologies for HLW and IMW
Link NOC:Advances in Welding and Joining Technologies Lecture 1 - Fundamentals of Welding and Joining - Part I
Link NOC:Advances in Welding and Joining Technologies Lecture 2 - Fundamentals of Welding and Joining - Part II
Link NOC:Advances in Welding and Joining Technologies Lecture 3 - Fundamentals of Welding and Joining - Part III
Link NOC:Advances in Welding and Joining Technologies Lecture 4 - Fundamentals of Welding and Joining - Part IV
Link NOC:Advances in Welding and Joining Technologies Lecture 5 - Fundamentals of Welding and Joining - Part V
Link NOC:Advances in Welding and Joining Technologies Lecture 6 - Laser and Electron Beam Welding - Part I
Link NOC:Advances in Welding and Joining Technologies Lecture 7 - Laser and Electron Beam Welding - Part II
Link NOC:Advances in Welding and Joining Technologies Lecture 8 - Solid State Welding Processes - Part I
Link NOC:Advances in Welding and Joining Technologies Lecture 9 - Solid State Welding Processes - Part II
Link NOC:Advances in Welding and Joining Technologies Lecture 10 - Solid State Welding Processes - Part III
Link NOC:Advances in Welding and Joining Technologies Lecture 11 - Computational Welding Mechanics - Part I
Link NOC:Advances in Welding and Joining Technologies Lecture 12 - Computational Welding Mechanics - Part II
Link NOC:Advances in Welding and Joining Technologies Lecture 13 - Computational Welding Mechanics - Part III
Link NOC:Advances in Welding and Joining Technologies Lecture 14 - Micro and Nano Joining Processes - Part I
Link NOC:Advances in Welding and Joining Technologies Lecture 15 - Micro and Nano Joining Processes - Part II
Link NOC:Advances in Welding and Joining Technologies Lecture 16 - Micro and Nano Joining Processes - Part III
Link NOC:Advances in Welding and Joining Technologies Lecture 17 - Welding Metallurgy - Part I
Link NOC:Advances in Welding and Joining Technologies Lecture 18 - Welding Metallurgy - Part II
Link NOC:Advances in Welding and Joining Technologies Lecture 19 - Welding Metallurgy - Part III
Link NOC:Advances in Welding and Joining Technologies Lecture 20 - Welding Metallurgy - Part IV
Link NOC:Advances in Welding and Joining Technologies Lecture 21 - Welding and Joining of Non-Metals - Part I
Link NOC:Advances in Welding and Joining Technologies Lecture 22 - Welding and Joining of Non-Metals - Part II
Link NOC:Advances in Welding and Joining Technologies Lecture 23 - Metal Transfer in Welding and Metal Printing
Link NOC:Introduction to Machining and Machining Fluids Lecture 1 - Introduction
Link NOC:Introduction to Machining and Machining Fluids Lecture 2 - Introduction and Importance of Machining
Link NOC:Introduction to Machining and Machining Fluids Lecture 3 - Principles of Machining or Metal Cutting
Link NOC:Introduction to Machining and Machining Fluids Lecture 4 - Cutting Tools
Link NOC:Introduction to Machining and Machining Fluids Lecture 5 - Forces in Machining
Link NOC:Introduction to Machining and Machining Fluids Lecture 6 - Tribology in Machining
Link NOC:Introduction to Machining and Machining Fluids Lecture 7 - Lubrication surface roughness in Machining
Link NOC:Introduction to Machining and Machining Fluids Lecture 8 - Machinability and Thermal Aspects
Link NOC:Introduction to Machining and Machining Fluids Lecture 9 - Tool Wear and Tool life - Part 1
Link NOC:Introduction to Machining and Machining Fluids Lecture 10 - Tool Wear and Tool life - Part 2
Link NOC:Introduction to Machining and Machining Fluids Lecture 11 - Tool Wear and Tool life - Part 3
Link NOC:Introduction to Machining and Machining Fluids Lecture 12 - Tool Materials and Coatings
Link NOC:Introduction to Machining and Machining Fluids Lecture 13 - Machining Fluids / Cutting Fluids and its Additives - Part 1
Link NOC:Introduction to Machining and Machining Fluids Lecture 14 - Machining Fluids / Cutting Fluids and its Additives - Part 2
Link NOC:Introduction to Machining and Machining Fluids Lecture 15 - Machining Fluids / Cutting Fluids and its Emissions
Link NOC:Introduction to Machining and Machining Fluids Lecture 16 - Eco Friendly Cutting Fluids - Part 1
Link NOC:Introduction to Machining and Machining Fluids Lecture 17 - Eco Friendly Cutting Fluids - Part 2
Link NOC:Introduction to Machining and Machining Fluids Lecture 18 - Rheology and Thermal Characterization of Machining / Cutting Fluids
Link NOC:Introduction to Machining and Machining Fluids Lecture 19 - Bio-degradation Studies of Machining / Cutting Fluids
Link NOC:Introduction to Machining and Machining Fluids Lecture 20 - Cutting Fluid Application in Machining Region
Link NOC:Introduction to Machining and Machining Fluids Lecture 21 - Practical Machining Processes - 1
Link NOC:Introduction to Machining and Machining Fluids Lecture 22 - Practical Machining Processes - 2
Link NOC:Introduction to Machining and Machining Fluids Lecture 23 - Introduction to Abrasive Processes - Grinding
Link NOC:Introduction to Machining and Machining Fluids Lecture 24 - Cutting fluids in Grinding Process
Link NOC:Introduction to Machining and Machining Fluids Lecture 25 - Unbonded Conventional Abrasive Processes
Link NOC:Introduction to Machining and Machining Fluids Lecture 26 - Advances in Metal Cutting_Machining Processes
Link NOC:Introduction to Machining and Machining Fluids Lecture 27 - Advances in Metal Cutting_Machining Processes - 2
Link NOC:Mechanics of Machining Lecture 1 - Deformation of Metals
Link NOC:Mechanics of Machining Lecture 2 - Mechanism of Plastic Deformation
Link NOC:Mechanics of Machining Lecture 3 - Machining Processes: Single Edge Tool, Types of Chips
Link NOC:Mechanics of Machining Lecture 4 - Tool Geometry: Single Point Cutting Tool Specifications
Link NOC:Mechanics of Machining Lecture 5 - Tool Specifications, Conversion Of Tool Angles, Multi-Point Cutting Tools
Link NOC:Mechanics of Machining Lecture 6 - Mechanics of Orthogonal Cutting, Force Relationships
Link NOC:Mechanics of Machining Lecture 7 - Determination of Stress, Strain, and Strain Rate
Link NOC:Mechanics of Machining Lecture 8 - Measurement of Shear Angle
Link NOC:Mechanics of Machining Lecture 9 - Other Analysis for Force Relationships
Link NOC:Mechanics of Machining Lecture 10 - Mechanics of Oblique Cutting
Link NOC:Mechanics of Machining Lecture 11 - Measurement of Cutting Forces
Link NOC:Mechanics of Machining Lecture 12 - Thermal Aspects Of Machining: Temperatures in Orthogonal Cutting
Link NOC:Mechanics of Machining Lecture 13 - Tool Wear and Tool Life and Tool Life Equations
Link NOC:Mechanics of Machining Lecture 14 - Economics in Machining
Link NOC:Mechanics of Machining Lecture 15 - Practical Machining Operations: Turning And Shaping and Planning Operation
Link NOC:Mechanics of Machining Lecture 16 - Practical Machining Operations: Milling And Drilling
Link NOC:Mechanics of Machining Lecture 17 - Grinding of Metals and Mechanics of Grinding Process
Link NOC:Mechanics of Machining Lecture 18 - Abrasive Machining and Finishing Operations
Link NOC:Mechanics of Machining Lecture 19 - CNC Machines and CNC Programming
Link NOC:Mechanics of Machining Lecture 20 - Introduction to Advanced Machining Processes
Link NOC:Principle of Hydraulic Machines and System Design Lecture 1 - Introduction to hydraulic machines: Classifications and operational principles
Link NOC:Principle of Hydraulic Machines and System Design Lecture 2 - Euler equation for turbomachines: Net head developed by the pump/turbines
Link NOC:Principle of Hydraulic Machines and System Design Lecture 3 - Velocity triangles of pumps, effect of inlet swirl on velocity triangles
Link NOC:Principle of Hydraulic Machines and System Design Lecture 4 - Pump casing, efficiencies, problems
Link NOC:Principle of Hydraulic Machines and System Design Lecture 5 - H-Q Curve, System resistance Curve
Link NOC:Principle of Hydraulic Machines and System Design Lecture 6 - Stodola slip model, problems - I
Link NOC:Principle of Hydraulic Machines and System Design Lecture 7 - Stodola slip model, problems - II
Link NOC:Principle of Hydraulic Machines and System Design Lecture 8 - Stodola slip model, problems - III
Link NOC:Principle of Hydraulic Machines and System Design Lecture 9 - NPSH: Caviation, effect of swirl on the cavitation
Link NOC:Principle of Hydraulic Machines and System Design Lecture 10 - Radial flow pump testing
Link NOC:Principle of Hydraulic Machines and System Design Lecture 11 - Degrees of reaction: velocity triangle
Link NOC:Principle of Hydraulic Machines and System Design Lecture 12 - Radial equlibrium of axial flow machines - I
Link NOC:Principle of Hydraulic Machines and System Design Lecture 13 - Radial equlibrium of axial flow machines - II
Link NOC:Principle of Hydraulic Machines and System Design Lecture 14 - Pumps operation: series and parallel, problems - Part I
Link NOC:Principle of Hydraulic Machines and System Design Lecture 15 - Pumps operation: series and parallel, problems - Part II
Link NOC:Principle of Hydraulic Machines and System Design Lecture 16 - Affinity laws, specific speed - Part I
Link NOC:Principle of Hydraulic Machines and System Design Lecture 17 - Affinity laws, specific speed - Part II
Link NOC:Principle of Hydraulic Machines and System Design Lecture 18 - Pumping system design - 1
Link NOC:Principle of Hydraulic Machines and System Design Lecture 19 - Pumping system design - 2
Link NOC:Principle of Hydraulic Machines and System Design Lecture 20 - Pumping system design - 3
Link NOC:Principle of Hydraulic Machines and System Design Lecture 21 - Positive displacement pump, indicator diagram - I
Link NOC:Principle of Hydraulic Machines and System Design Lecture 22 - Positive displacement pump, indicator diagram - II
Link NOC:Principle of Hydraulic Machines and System Design Lecture 23 - Characteristic H-Q curve of positive displacement pump, problems
Link NOC:Principle of Hydraulic Machines and System Design Lecture 24 - Hydraulic Turbine: Classifications
Link NOC:Principle of Hydraulic Machines and System Design Lecture 25 - Impulse Turbine: Pelton wheel - I
Link NOC:Principle of Hydraulic Machines and System Design Lecture 26 - Impulse Turbine: Pelton wheel - II
Link NOC:Principle of Hydraulic Machines and System Design Lecture 27 - Reaction Turbine: Francis Turbine
Link NOC:Principle of Hydraulic Machines and System Design Lecture 28 - Reaction Turbine: Kaplan Turbine
Link NOC:Principle of Hydraulic Machines and System Design Lecture 29 - Degrees of Reaction and Efficiency of Hydraulic Turbine
Link NOC:Principle of Hydraulic Machines and System Design Lecture 30 - Hydraulic Turbine: Specific Speed
Link NOC:Principle of Hydraulic Machines and System Design Lecture 31 - Cavitation in Hydraulic Turbine: NPSH
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 1 - Introduction to Abrasive Machining and Finishing Processes
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 2 - Grinding Process
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 3 - Grinding Fluids and Its Additives
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 4 - Grinding Fluids and its Emissions
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 5 - Sustainable Grinding Process: Biodegradation of Grinding Fluids
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 6 - Sustainable Grinding Process: MQL in Grinding Process
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 7 - Honing Process
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 8 - Lapping Process
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 9 - Super Finishing and Sand Blasting
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 10 - Vibratory Bowl Finishing,Rotary Barrel Finishing or Tumbling
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 11 - Drag Finishing, Ice-bonded Abrasive Finishing, Pitch Polishing, Pad Polishing
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 12 - Introduction to Surface Texture in abrasive Process
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 13 - Representation of Surface Roughness
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 14 - Abrasive Jet Machining (AJM)
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 15 - Abrasive Water Jet Machining (AWJM)
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 16 - Ultrasonic Machining (USM)
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 17 - EDM, Wire-EDM, EDG, EDDG, AW-EDG
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 18 - Elastic Emission Machining
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 19 - PMEDM and ECD and ELID, ECH
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 20 - Abrasive Flow Finishing: Part 1
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 21 - Abrasive Flow Finishing: Part 2
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 22 - Magnetic Field Assisted Abrasive Finishing: MAF, MADe, MFP
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 23 - Magneto Rheological Finishing and BE-MRF
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 24 - Magnetic Field Assisted Abrasive Finishing:CNP,CMMRF,MRAFF,R-MRAFF
Link NOC:Introduction to Abrasive Machining and Finishing Processes Lecture 25 - Summary of the Course
Link NOC:Theory of Rectangular Plates - Part 1 Lecture 1 - Basic of Solid Mechanics
Link NOC:Theory of Rectangular Plates - Part 1 Lecture 2 - Enegry Principles
Link NOC:Theory of Rectangular Plates - Part 1 Lecture 3 - Classification of Plate Theories and Some Basics
Link NOC:Theory of Rectangular Plates - Part 1 Lecture 4 - Tutorial: Transformation of Tensors
Link NOC:Theory of Rectangular Plates - Part 1 Lecture 5 - Governing Equation for Plate - 1
Link NOC:Theory of Rectangular Plates - Part 1 Lecture 6 - Governing Equation for Plate - 2
Link NOC:Theory of Rectangular Plates - Part 1 Lecture 7 - Tutorial: Reduced Stiffness and Plate Stiffness
Link NOC:Theory of Rectangular Plates - Part 1 Lecture 8 - Navier Solution + Levy solution
Link NOC:Theory of Rectangular Plates - Part 1 Lecture 9 - Levy Solution
Link NOC:Theory of Rectangular Plates - Part 1 Lecture 10 - Tutorial: Load Matrices Calculation
Link NOC:Theory of Rectangular Plates - Part 1 Lecture 11 - EKM and buckling of plates
Link NOC:Theory of Rectangular Plates - Part 1 Lecture 12 - 3D Solutions
Link NOC:Theory of Rectangular Plates - Part 1 Lecture 13 - Matlab Coding + ABAQUS
Link NOC:Theory of Rectangular Plates - Part 1 Lecture 14 - Tutorial: Levy Solutions
Link NOC:Principles of Mechanical Measurement Lecture 1 - Introduction to measurement
Link NOC:Principles of Mechanical Measurement Lecture 2 - Generalized measurement system and static characteristics
Link NOC:Principles of Mechanical Measurement Lecture 3 - Uncertainties in measurement
Link NOC:Principles of Mechanical Measurement Lecture 4 - Statistical treatment of random errors
Link NOC:Principles of Mechanical Measurement Lecture 5 - System response to periodic inputs
Link NOC:Principles of Mechanical Measurement Lecture 6 - Zeroth and first order systems
Link NOC:Principles of Mechanical Measurement Lecture 7 - First and second order systems
Link NOC:Principles of Mechanical Measurement Lecture 8 - Basics of digitization and number systems
Link NOC:Principles of Mechanical Measurement Lecture 9 - Binary logic gates and binary codes
Link NOC:Principles of Mechanical Measurement Lecture 10 - Analog-to-digital conversion
Link NOC:Principles of Mechanical Measurement Lecture 11 - Digital-to-analog conversion
Link NOC:Principles of Mechanical Measurement Lecture 12 - Electromagnetic indicators
Link NOC:Principles of Mechanical Measurement Lecture 13 - Electronic amplifiers and filters
Link NOC:Principles of Mechanical Measurement Lecture 14 - Resistive devices
Link NOC:Principles of Mechanical Measurement Lecture 15 - Inductive, capacitive and optical devices
Link NOC:Principles of Mechanical Measurement Lecture 16 - Piezoelectric and nozzle-flapper transducers
Link NOC:Principles of Mechanical Measurement Lecture 17 - Resistive strain gages and associated circuitry
Link NOC:Principles of Mechanical Measurement Lecture 18 - Strain gage rosettes and gage orientation
Link NOC:Principles of Mechanical Measurement Lecture 19 - Elastic and strain gage load cells
Link NOC:Principles of Mechanical Measurement Lecture 20 - Various load cells and dynamometers
Link NOC:Principles of Mechanical Measurement Lecture 21 - Principles of manometry
Link NOC:Principles of Mechanical Measurement Lecture 22 - Piezometer and elastic pressure transducer
Link NOC:Principles of Mechanical Measurement Lecture 23 - Electric pressure transducer and high and low pressure measurement
Link NOC:Principles of Mechanical Measurement Lecture 24 - Bernoulli's equation in obstruction meters
Link NOC:Principles of Mechanical Measurement Lecture 25 - Obstruction meters and volume flowmeters
Link NOC:Principles of Mechanical Measurement Lecture 26 - Mass flowmeters and velocity probes
Link NOC:Principles of Mechanical Measurement Lecture 27 - Expansion-based devices
Link NOC:Principles of Mechanical Measurement Lecture 28 - RTD, Thermistor and Thermocouple
Link NOC:Principles of Mechanical Measurement Lecture 29 - Introduction to pyrometers
Link NOC:Principles of Mechanical Measurement Lecture 30 - Basic seismic transducer
Link NOC:Principles of Mechanical Measurement Lecture 31 - Vibro-, velo- and accelerometer
Link NOC:Principles of Mechanical Measurement Lecture 32 - Introduction to acoustic measurement
Link NOC:Principles of Mechanical Measurement Lecture 33 - Radioactivity and its biological effects
Link NOC:IC Engines and Gas Turbines Lecture 1 - External and Internal combustion engines, Engine components, SI and CI engines
Link NOC:IC Engines and Gas Turbines Lecture 2 - Four-stroke and Two-stroke engines, Comparison between SI and CI engines, and Four-stroke and Two-stroke engines
Link NOC:IC Engines and Gas Turbines Lecture 3 - Classification of IC engines
Link NOC:IC Engines and Gas Turbines Lecture 4 - Engine operating characteristics
Link NOC:IC Engines and Gas Turbines Lecture 5 - Otto, Diesel and Dual cycles
Link NOC:IC Engines and Gas Turbines Lecture 6 - Otto, Diesel and Dual cycles (Continued...)
Link NOC:IC Engines and Gas Turbines Lecture 7 - Otto, Diesel and Dual cycles (Continued...)
Link NOC:IC Engines and Gas Turbines Lecture 8 - Otto, Diesel and Dual cycles (Continued...)
Link NOC:IC Engines and Gas Turbines Lecture 9 - Comparison between the cycles, Actual cycles and their analysis
Link NOC:IC Engines and Gas Turbines Lecture 10 - Carburetor, Mixture requirements
Link NOC:IC Engines and Gas Turbines Lecture 11 - Carburetor, Mixture requirements (Continued...)
Link NOC:IC Engines and Gas Turbines Lecture 12 - Idling, cruising and power ranges
Link NOC:IC Engines and Gas Turbines Lecture 13 - Idling, cruising and power ranges (Continued...)
Link NOC:IC Engines and Gas Turbines Lecture 14 - Classification, types of nozzles, Ignition system, Battery and Magneto ignition systems
Link NOC:IC Engines and Gas Turbines Lecture 15 - Classification, types of nozzles, Ignition system, Battery and Magneto ignition systems (Continued...)
Link NOC:IC Engines and Gas Turbines Lecture 16 - Classification, types of nozzles, Ignition system, Battery and Magneto ignition systems (Continued...)
Link NOC:IC Engines and Gas Turbines Lecture 17 - Engine friction, Lubrication systems, forces on piston
Link NOC:IC Engines and Gas Turbines Lecture 18 - Lubricating oils, Thermochemistry and Fuels, Self-ignition
Link NOC:IC Engines and Gas Turbines Lecture 19 - Octane and Cetane Numbers, Alternative Fuels - Methanol, Ethanol, hydrogen, Natural Gas
Link NOC:IC Engines and Gas Turbines Lecture 20 - Octane and Cetane Numbers, Alternative Fuels - Methanol, Ethanol, hydrogen, Natural Gas (Continued...)
Link NOC:IC Engines and Gas Turbines Lecture 21 - Combustion in SI and CI Engines, Pressure Crank Angle Diagram
Link NOC:IC Engines and Gas Turbines Lecture 22 - Combustion in SI and CI Engines, Pressure Crank Angle Diagram (Continued...)
Link NOC:IC Engines and Gas Turbines Lecture 23 - Combustion in SI and CI Engines, Pressure Crank Angle Diagram (Continued...)
Link NOC:IC Engines and Gas Turbines Lecture 24 - SI engine injection system, Energy distribution, Engine temperatures, Heat transfer in combustion chambers
Link NOC:IC Engines and Gas Turbines Lecture 25 - SI engine injection system, Energy distribution, Engine temperatures, Heat transfer in combustion chambers (Continued...)
Link NOC:IC Engines and Gas Turbines Lecture 26 - CI engine injection systems, Air-cooled and liquid-cooled engines, Modern trends
Link NOC:IC Engines and Gas Turbines Lecture 27 - CI engine injection systems, Air-cooled and liquid-cooled engines, Modern trends (Continued...)
Link NOC:IC Engines and Gas Turbines Lecture 28 - CI engine injection systems, Air-cooled and liquid-cooled engines, Modern trends (Continued...)
Link NOC:IC Engines and Gas Turbines Lecture 29 - Problems on IC engine
Link NOC:IC Engines and Gas Turbines Lecture 30 - Turbomachines, Gas Turbine theory
Link NOC:IC Engines and Gas Turbines Lecture 31 - Open Cycle Gas Turbine Power Plant, Twin Shaft Arrangement
Link NOC:IC Engines and Gas Turbines Lecture 32 - Closed Cycle, Multi-Spool Arrangement, Steam Power Plant
Link NOC:IC Engines and Gas Turbines Lecture 33 - Basic Thermodynamics
Link NOC:IC Engines and Gas Turbines Lecture 34 - Brayton Cycle: Introducton and General Relationships
Link NOC:IC Engines and Gas Turbines Lecture 35 - Brayton Cycle: Efficiency, Work Ratio and Optimum Work Output Condition
Link NOC:IC Engines and Gas Turbines Lecture 36 - Brayton Cycle with Heat Exchanger/Reheater
Link NOC:IC Engines and Gas Turbines Lecture 37 - Brayton Cycle with Intercooler
Link NOC:IC Engines and Gas Turbines Lecture 38 - Real Brayton Cycle, Solved Example for Ideal Cycle
Link NOC:IC Engines and Gas Turbines Lecture 39 - Solved Examples for Real Brayton Cycle
Link NOC:IC Engines and Gas Turbines Lecture 40 - Introduction and Performance Parameters of Propulsion System
Link NOC:IC Engines and Gas Turbines Lecture 41 - Basics of Various Aircraft Engine
Link NOC:IC Engines and Gas Turbines Lecture 42 - Eular Turbomachinary Equation
Link NOC:IC Engines and Gas Turbines Lecture 43 - Introduction and Flow Analysis of Centrifugal Compressors
Link NOC:IC Engines and Gas Turbines Lecture 44 - Thermodynamics Analysis of Centrifugal Compressors
Link NOC:IC Engines and Gas Turbines Lecture 45 - Axial Compressor: Basics, Velocity triangles, T-S diagram and Work Intraction
Link NOC:IC Engines and Gas Turbines Lecture 46 - Axial Compressor: Different factors, Degree of Reaction and Free Vortex Condition
Link NOC:IC Engines and Gas Turbines Lecture 47 - Complete Analysis of Axial Flow Gas Turbine
Link NOC:IC Engines and Gas Turbines Lecture 48 - Solved Examples for Axial Compressors,Centrifugal Compressors and Turbine
Link NOC:IC Engines and Gas Turbines Lecture 49 - Radial Flow Turbine, Solved Example of Free vortex Condition
Link NOC:IC Engines and Gas Turbines Lecture 50 - Nozzles and Diffuers: Introduction, Intake efficiency,Nozzle efficiency
Link NOC:Fundamental of Welding Science and Technology Lecture 1 - Introduction of welding
Link NOC:Fundamental of Welding Science and Technology Lecture 2 - Classification of welding and joints
Link NOC:Fundamental of Welding Science and Technology Lecture 3 - Parts of weld joint
Link NOC:Fundamental of Welding Science and Technology Lecture 4 - Welding Symbol
Link NOC:Fundamental of Welding Science and Technology Lecture 5 - welding power source - 1
Link NOC:Fundamental of Welding Science and Technology Lecture 6 - Welding power source - 2
Link NOC:Fundamental of Welding Science and Technology Lecture 7 - Welding Power sources characteristics - 1
Link NOC:Fundamental of Welding Science and Technology Lecture 8 - Welding Power sources characteristics - 2
Link NOC:Fundamental of Welding Science and Technology Lecture 9 - Physics of welding - 1
Link NOC:Fundamental of Welding Science and Technology Lecture 10 - Physics of welding - 2
Link NOC:Fundamental of Welding Science and Technology Lecture 11 - Physics of welding - 4 (Arc Stability and Arc Blow)
Link NOC:Fundamental of Welding Science and Technology Lecture 12 - Physics of welding - 3
Link NOC:Fundamental of Welding Science and Technology Lecture 13 - Physics of welding - 5 (Metal Transfer-1)
Link NOC:Fundamental of Welding Science and Technology Lecture 14 - Physics of welding - 6 (Metal Transfer-2)
Link NOC:Fundamental of Welding Science and Technology Lecture 15 - Physics of welding - 7 (Metal Transfer-3)
Link NOC:Fundamental of Welding Science and Technology Lecture 16 - Physics of welding - 8 (Metal Transfer-4)
Link NOC:Fundamental of Welding Science and Technology Lecture 17 - Physics of welding - 9 (Metal Transfer-5)
Link NOC:Fundamental of Welding Science and Technology Lecture 18 - Physics of welding - 10 (Metalting Efficiency)
Link NOC:Fundamental of Welding Science and Technology Lecture 19 - Oxy-Fuel Gas Welding
Link NOC:Fundamental of Welding Science and Technology Lecture 20 - Shielded Metal Arc Welding
Link NOC:Fundamental of Welding Science and Technology Lecture 21 - Gas Tungsten Arc Welding
Link NOC:Fundamental of Welding Science and Technology Lecture 22 - Gas Metal Arc Welding
Link NOC:Fundamental of Welding Science and Technology Lecture 23 - Submerged Arc Welding
Link NOC:Fundamental of Welding Science and Technology Lecture 24 - Welding Defects and Inspection
Link NOC:Polymer Assisted Abrasive Finishing Processes Lecture 1 - Introduction to Polymer Assisted Abrasive Finishing Processes
Link NOC:Polymer Assisted Abrasive Finishing Processes Lecture 2 - Surface Integrity and Surface roughness representation - Part I
Link NOC:Polymer Assisted Abrasive Finishing Processes Lecture 3 - Surface Integrity and Surface roughness representation - Part II
Link NOC:Polymer Assisted Abrasive Finishing Processes Lecture 4 - Introduction to Grinding and Polymer assisted Grinding Wheels
Link NOC:Polymer Assisted Abrasive Finishing Processes Lecture 5 - Polymer medium for vibratory bowl finishing, Tumbling, Drag finishing
Link NOC:Polymer Assisted Abrasive Finishing Processes Lecture 6 - Polymer Pad and Chemo-mechanical Polishing
Link NOC:Polymer Assisted Abrasive Finishing Processes Lecture 7 - Elastic Emission Machining
Link NOC:Polymer Assisted Abrasive Finishing Processes Lecture 8 - Hydrodynamic Polishing, Elasto Abrasive Finishing
Link NOC:Polymer Assisted Abrasive Finishing Processes Lecture 9 - Abrasive Flow Machining and Finishing - Part I
Link NOC:Polymer Assisted Abrasive Finishing Processes Lecture 10 - Abrasive Flow Machining and Finishing - Part II
Link NOC:Polymer Assisted Abrasive Finishing Processes Lecture 11 - Advances in Abrasive Flow Finishing: DBGAFF, CFAAFM
Link NOC:Polymer Assisted Abrasive Finishing Processes Lecture 12 - Advances in Abrasive Flow Finishing: Spiral Polishing, R-AFF
Link NOC:Polymer Assisted Abrasive Finishing Processes Lecture 13 - AFF Processes: Magnetio AFF (MRAFF), UAA-AFF, EC-AFF
Link NOC:Polymer Assisted Abrasive Finishing Processes Lecture 14 - Finishing of Biomedical implants (Micro AFF: Micro holes, Micro slots, Bio Implants: Knee implants , Hip implants and Applications of one way, two way and orbital AFF)
Link NOC:Polymer Assisted Abrasive Finishing Processes Lecture 15 - Summary of the Course
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 1 - Materials and manufacturing Processes - 1
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 2 - Materials and manufacturing Processes - 2
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 3 - Physics based modeling approach at different scale
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 4 - Evaluation of properties and process modelling
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 5 - Thermofluid and electromagnetic analysis
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 6 - Solid-state deformation and residual stress - 1
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 7 - Solid-state deformation and residual stress - 2
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 8 - Meltiing, solidification and additive manufacturing
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 9 - Force and velocity diagram - 1
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 10 - Force and velocity diagram - 2
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 11 - Heat transfer analysis
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 12 - Principal and mechanism at different processes - 1
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 13 - Principal and mechanism at different processes - 2
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 14 - Mechanics of bulk metal forming
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 15 - Mechanics of sheet metal forming - 1
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 16 - Mechanics of sheet metal forming - 2
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 17 - Heat transfer and thermomechanical processing
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 18 - Fusion welding processes - 1
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 19 - Fusion welding processes - 2
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 20 - Physics of welding and metal transfer
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 21 - Heat source model in fusion welding
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 22 - Heat transfer and material flow
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 23 - Solidification in welding - 1
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 24 - Solidification in welding - 2
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 25 - Solid state welding - 1
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 26 - Solid state welding - 2
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 27 - Hybrid welding, residual stress and distortion
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 28 - Cooling and solidification at different casting processes
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 29 - Powder metallurgy
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 30 - Principle of surface and coating technologies
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 31 - Principle and development of additive manufacturing technologies - 1
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 32 - Principle and development of additive manufacturing technologies - 2
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 33 - Fundamentals of heat treatment
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 34 - Evaluation of microstructural properties and residual stress
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 35 - Down-scaling of conventional manufacturing processes and Micro-to-nano manufacturing
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 36 - Packaging, micro-finishing and micro-manufacturing processes
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 37 - Processing and shaping of non-metals and bio-materials
Link NOC:Mathematical Modeling of Manufacturing Processes Lecture 38 - Principle of glass and ceramics processing and their shaping
Link NOC:Two-Phase flow with phase change in Conventional and Miniature Channels Lecture 1 - Introduction and Notation
Link NOC:Two-Phase flow with phase change in Conventional and Miniature Channels Lecture 2 - Flow Regimes and Flow Regime Maps
Link NOC:Two-Phase flow with phase change in Conventional and Miniature Channels Lecture 3 - The Homogeneous Model
Link NOC:Two-Phase flow with phase change in Conventional and Miniature Channels Lecture 4 - The Separated Flow Model
Link NOC:Two-Phase flow with phase change in Conventional and Miniature Channels Lecture 5 - The Separated Flow Model (Continued...)
Link NOC:Two-Phase flow with phase change in Conventional and Miniature Channels Lecture 6 - The Drift Flux Model
Link NOC:Two-Phase flow with phase change in Conventional and Miniature Channels Lecture 7 - Estimation of pressure drop in two phase flow
Link NOC:Two-Phase flow with phase change in Conventional and Miniature Channels Lecture 8 - Two phase flow and pressure drop in miniature channels
Link NOC:Applied Thermodynamics for Engineers Lecture 1 - Overview of thermodynamic system and state
Link NOC:Applied Thermodynamics for Engineers Lecture 2 - First and second laws of thermodynamics
Link NOC:Applied Thermodynamics for Engineers Lecture 3 - Concept of entropy and entropy generation
Link NOC:Applied Thermodynamics for Engineers Lecture 4 - Concept of exergy and exergy destruction
Link NOC:Applied Thermodynamics for Engineers Lecture 5 - Thermodynamic potentials and Maxwell relations
Link NOC:Applied Thermodynamics for Engineers Lecture 6 - Generalized relations for entropy and specific heats
Link NOC:Applied Thermodynamics for Engineers Lecture 7 - Joule-Thomson coefficient and Clapeyron equation
Link NOC:Applied Thermodynamics for Engineers Lecture 8 - Liquid-vapor phase-change process
Link NOC:Applied Thermodynamics for Engineers Lecture 9 - Use of property tables
Link NOC:Applied Thermodynamics for Engineers Lecture 10 - Equations-of-state and Compressibility factor
Link NOC:Applied Thermodynamics for Engineers Lecture 11 - Ideal cycles for reciprocating engines
Link NOC:Applied Thermodynamics for Engineers Lecture 12 - Otto, Diesel and Dual combustion cycles
Link NOC:Applied Thermodynamics for Engineers Lecture 13 - Stirling and Ericsson cycles
Link NOC:Applied Thermodynamics for Engineers Lecture 14 - Fuel-air cycle
Link NOC:Applied Thermodynamics for Engineers Lecture 15 - Numerical exercise on Fuel-air cycles
Link NOC:Applied Thermodynamics for Engineers Lecture 16 - Losses in actual cycle and valve-timing diagram
Link NOC:Applied Thermodynamics for Engineers Lecture 17 - Ideal Brayton cycle
Link NOC:Applied Thermodynamics for Engineers Lecture 18 - Intercooling and reheating in Brayton cycle
Link NOC:Applied Thermodynamics for Engineers Lecture 19 - Regeneration in Brayton cycle
Link NOC:Applied Thermodynamics for Engineers Lecture 20 - Ideal Rankine cycle
Link NOC:Applied Thermodynamics for Engineers Lecture 21 - Improvements and modifications in Rankine cycle
Link NOC:Applied Thermodynamics for Engineers Lecture 22 - Regenerative Rankine cycle
Link NOC:Applied Thermodynamics for Engineers Lecture 23 - Binary vapor power cycle
Link NOC:Applied Thermodynamics for Engineers Lecture 24 - Combined gas-steam power plant
Link NOC:Applied Thermodynamics for Engineers Lecture 25 - Different arrangments in combined cycles
Link NOC:Applied Thermodynamics for Engineers Lecture 26 - Vapor compression refrigeration cycle
Link NOC:Applied Thermodynamics for Engineers Lecture 27 - SSS cycles and refrigerants
Link NOC:Applied Thermodynamics for Engineers Lecture 28 - Modifications in VCR systems
Link NOC:Applied Thermodynamics for Engineers Lecture 29 - Vapor absorption refrigeration cycle
Link NOC:Applied Thermodynamics for Engineers Lecture 30 - P-v-T behavior of gas mixtures
Link NOC:Applied Thermodynamics for Engineers Lecture 31 - Numerical examples
Link NOC:Applied Thermodynamics for Engineers Lecture 32 - Properties of moist air
Link NOC:Applied Thermodynamics for Engineers Lecture 33 - Psychrometric chart and various psychrometric processes
Link NOC:Applied Thermodynamics for Engineers Lecture 34 - Sensible heat factor and bypass factor
Link NOC:Applied Thermodynamics for Engineers Lecture 35 - Theoretical and actual combustion process
Link NOC:Applied Thermodynamics for Engineers Lecture 36 - Thermodynamic analyses of reacting systems
Link NOC:Fundamentals of Conduction and Radiation Lecture 1 - Relationship of Thermodynamics with Heat transfer
Link NOC:Fundamentals of Conduction and Radiation Lecture 2 - Modes of heat transfer
Link NOC:Fundamentals of Conduction and Radiation Lecture 3 - Fourier's law and thermal conductivity
Link NOC:Fundamentals of Conduction and Radiation Lecture 4 - Generalized heat diffusion equation
Link NOC:Fundamentals of Conduction and Radiation Lecture 5 - Heat diffusion equation in curvilinear coordinates
Link NOC:Fundamentals of Conduction and Radiation Lecture 6 - Concept of thermal resistance
Link NOC:Fundamentals of Conduction and Radiation Lecture 7 - Use of network of resistances in wall and cylinder
Link NOC:Fundamentals of Conduction and Radiation Lecture 8 - Critical thickness of insulation
Link NOC:Fundamentals of Conduction and Radiation Lecture 9 - Conduction with energy generation - I
Link NOC:Fundamentals of Conduction and Radiation Lecture 10 - Conduction with energy generation - II
Link NOC:Fundamentals of Conduction and Radiation Lecture 11 - General Heat Transfer Analysis
Link NOC:Fundamentals of Conduction and Radiation Lecture 12 - Fins with uniform cross-section area - I
Link NOC:Fundamentals of Conduction and Radiation Lecture 13 - Fins with uniform cross-section area - II
Link NOC:Fundamentals of Conduction and Radiation Lecture 14 - Fins with non-uniform cross-section area
Link NOC:Fundamentals of Conduction and Radiation Lecture 15 - Method of Separation of Variables
Link NOC:Fundamentals of Conduction and Radiation Lecture 16 - Graphical approach
Link NOC:Fundamentals of Conduction and Radiation Lecture 17 - Method of Superposition
Link NOC:Fundamentals of Conduction and Radiation Lecture 18 - Lumped capacitance approach - I
Link NOC:Fundamentals of Conduction and Radiation Lecture 19 - Lumped capacitance approach - II
Link NOC:Fundamentals of Conduction and Radiation Lecture 20 - Semi-infinite Solid
Link NOC:Fundamentals of Conduction and Radiation Lecture 21 - Steady Heat Conduction
Link NOC:Fundamentals of Conduction and Radiation Lecture 22 - Unsteady Heat Conduction
Link NOC:Fundamentals of Conduction and Radiation Lecture 23 - Problem solving using Energy Balance Method
Link NOC:Fundamentals of Conduction and Radiation Lecture 24 - Introduction to radiative heat fluxes
Link NOC:Fundamentals of Conduction and Radiation Lecture 25 - Spectral and directional definitions
Link NOC:Fundamentals of Conduction and Radiation Lecture 26 - Blackbody radiation
Link NOC:Fundamentals of Conduction and Radiation Lecture 27 - Emissivity
Link NOC:Fundamentals of Conduction and Radiation Lecture 28 - Irradiation of real surfaces
Link NOC:Fundamentals of Conduction and Radiation Lecture 29 - View factor
Link NOC:Fundamentals of Conduction and Radiation Lecture 30 - Blackbody radiation exchange
Link NOC:Fundamentals of Conduction and Radiation Lecture 31 - Radiation networks
Link NOC:Fundamentals of Conduction and Radiation Lecture 32 - Gas radiation
Link NOC:Fundamentals of Conduction and Radiation Lecture 33 - Radiative Transfer Equation
Link NOC:Steam Power Engineering Lecture 1 - Review of thermodynamics
Link NOC:Steam Power Engineering Lecture 2 - Rankine cycle
Link NOC:Steam Power Engineering Lecture 3 - Performance estimation of steam power cycles
Link NOC:Steam Power Engineering Lecture 4 - Carnot cycle examples
Link NOC:Steam Power Engineering Lecture 5 - Rankine cycle with superheat
Link NOC:Steam Power Engineering Lecture 6 - Rankine cycle with reheat theory and example
Link NOC:Steam Power Engineering Lecture 7 - Examples of Rankine cycle
Link NOC:Steam Power Engineering Lecture 8 - Examples of reheat Rankine cycle
Link NOC:Steam Power Engineering Lecture 9 - Rankine cycle with regeneration
Link NOC:Steam Power Engineering Lecture 10 - Feedwater heaters
Link NOC:Steam Power Engineering Lecture 11 - Cogeneration of power and process heat
Link NOC:Steam Power Engineering Lecture 12 - Examples of regeneration
Link NOC:Steam Power Engineering Lecture 13 - Examples of regenerative Rankine cycle
Link NOC:Steam Power Engineering Lecture 14 - Binary/multi-fluid cycles
Link NOC:Steam Power Engineering Lecture 15 - Low temperature power cycles
Link NOC:Steam Power Engineering Lecture 16 - Examples of binary cycles
Link NOC:Steam Power Engineering Lecture 17 - Types of boilers
Link NOC:Steam Power Engineering Lecture 18 - Boiler accessories
Link NOC:Steam Power Engineering Lecture 19 - Practice examples
Link NOC:Steam Power Engineering Lecture 20 - Stagnation conditions and Nozzle flow
Link NOC:Steam Power Engineering Lecture 21 - Nozzle flow
Link NOC:Steam Power Engineering Lecture 22 - Examples of Nozzle
Link NOC:Steam Power Engineering Lecture 23 - Impulse Turbine - 1
Link NOC:Steam Power Engineering Lecture 24 - Impulse Turbine - 2
Link NOC:Steam Power Engineering Lecture 25 - Examples on Impulse Turbine
Link NOC:Steam Power Engineering Lecture 26 - Reaction Turbine
Link NOC:Steam Power Engineering Lecture 27 - Reheat Factor
Link NOC:Steam Power Engineering Lecture 28 - Examples on Turbine - 1
Link NOC:Steam Power Engineering Lecture 29 - Examples on Turbine - 2
Link NOC:Steam Power Engineering Lecture 30 - Gas Mixture
Link NOC:Steam Power Engineering Lecture 31 - Psychrometry - 1
Link NOC:Steam Power Engineering Lecture 32 - Psychrometry - 2
Link NOC:Steam Power Engineering Lecture 33 - Condensers
Link NOC:Dynamic Behaviour of Materials Lecture 1 - Introduction to Dynamic Behaviour of Materials - I
Link NOC:Dynamic Behaviour of Materials Lecture 2 - Introduction to Dynamic Behaviour of Materials - II
Link NOC:Dynamic Behaviour of Materials Lecture 3 - Introduction to Waves
Link NOC:Dynamic Behaviour of Materials Lecture 4 - Quasi-static vs Dynamic Deformation
Link NOC:Dynamic Behaviour of Materials Lecture 5 - Elastic Wave and its Classification
Link NOC:Dynamic Behaviour of Materials Lecture 6 - Propagation of Elastic Waves in Continuum
Link NOC:Dynamic Behaviour of Materials Lecture 7 - Wave Reflection, Refraction and Interaction
Link NOC:Dynamic Behaviour of Materials Lecture 8 - General Solution of Elastic Wave Equation
Link NOC:Dynamic Behaviour of Materials Lecture 9 - Additional Considerations of Elastic Wave in Cylindrical Bar
Link NOC:Dynamic Behaviour of Materials Lecture 10 - Introduction to Plastic Waves
Link NOC:Dynamic Behaviour of Materials Lecture 11 - Plastic Waves of Uniaxial Stress
Link NOC:Dynamic Behaviour of Materials Lecture 12 - Plastic Waves of Combined Stress
Link NOC:Dynamic Behaviour of Materials Lecture 13 - Taylor's Experiment for Plastic Wave Propagation - 1
Link NOC:Dynamic Behaviour of Materials Lecture 14 - Taylor's Experiment for Plastic Wave Propagation - 2
Link NOC:Dynamic Behaviour of Materials Lecture 15 - Taylor's Experiment: Wilkins-Guinan Analysis
Link NOC:Dynamic Behaviour of Materials Lecture 16 - Introduction to Shock Waves - I
Link NOC:Dynamic Behaviour of Materials Lecture 17 - Introduction to Shock Waves - II
Link NOC:Dynamic Behaviour of Materials Lecture 18 - Shock Wave: Rankine Hugonoit Treatment
Link NOC:Dynamic Behaviour of Materials Lecture 19 - Rankine Hugonoit Treatment and Shock Wave under Impact
Link NOC:Dynamic Behaviour of Materials Lecture 20 - Shock Wave under Impact
Link NOC:Dynamic Behaviour of Materials Lecture 21 - Equations of States (Shock Waves) : Experimental Methods
Link NOC:Dynamic Behaviour of Materials Lecture 22 - Equations of States (Shock Waves) : Theoretical Calculations
Link NOC:Dynamic Behaviour of Materials Lecture 23 - Complex Problems of Shock Waves and Temperature Rise under Shock Wave
Link NOC:Dynamic Behaviour of Materials Lecture 24 - Shock Wave Attenuation, Interaction and Reflection - I
Link NOC:Dynamic Behaviour of Materials Lecture 25 - Shock Wave Attenuation, Interaction and Reflection - II
Link NOC:Dynamic Behaviour of Materials Lecture 26 - Shock Wave Interaction and Reflection
Link NOC:Dynamic Behaviour of Materials Lecture 27 - Fundamentals of Materials Science and Engineering
Link NOC:Dynamic Behaviour of Materials Lecture 28 - Shock Wave Induced Phase Transformations - 1
Link NOC:Dynamic Behaviour of Materials Lecture 29 - Shock Wave Induced Phase Transformations - 2
Link NOC:Dynamic Behaviour of Materials Lecture 30 - Shock Wave Induced Phase Transformations - 3
Link NOC:Dynamic Behaviour of Materials Lecture 31 - Shock Wave Induced Phase Transformations - 4
Link NOC:Dynamic Behaviour of Materials Lecture 32 - Experimental Techniques for Dynamic Deformation - 1
Link NOC:Dynamic Behaviour of Materials Lecture 33 - Experimental Techniques for Dynamic Deformation - 2
Link NOC:Dynamic Behaviour of Materials Lecture 34 - Plastic Deformation at High Strain Rates - 1
Link NOC:Dynamic Behaviour of Materials Lecture 35 - Plastic Deformation at High Strain Rates - 2
Link NOC:Dynamic Behaviour of Materials Lecture 36 - Plastic Deformation at High Strain Rates - 3
Link NOC:Dynamic Behaviour of Materials Lecture 37 - Plastic Deformation at High Strain Rates - 4
Link NOC:Dynamic Behaviour of Materials Lecture 38 - Plastic Deformation at High Strain Rates - 5
Link NOC:Dynamic Behaviour of Materials Lecture 39 - Plastic Deformation Under Shock Waves - 1
Link NOC:Dynamic Behaviour of Materials Lecture 40 - Plastic Deformation Under Shock Waves - 2
Link NOC:Dynamic Behaviour of Materials Lecture 41 - Plastic Deformation Under Shock Waves - 3
Link NOC:Dynamic Behaviour of Materials Lecture 42 - Shear Band - 1
Link NOC:Dynamic Behaviour of Materials Lecture 43 - Shear Band - 2
Link NOC:Dynamic Behaviour of Materials Lecture 44 - Dynamic Fracture - 1
Link NOC:Dynamic Behaviour of Materials Lecture 45 - Dynamic Fracture - 2
Link NOC:Plastic Working of Metallic Materials Lecture 1 - Introduction to Plastic Working of Metals
Link NOC:Plastic Working of Metallic Materials Lecture 2 - Uniaxial Tension Test Analysis
Link NOC:Plastic Working of Metallic Materials Lecture 3 - Temperature effects in metal forming
Link NOC:Plastic Working of Metallic Materials Lecture 4 - Friction and Lubrication
Link NOC:Plastic Working of Metallic Materials Lecture 5 - Friction and Lubrication (Continued...)
Link NOC:Plastic Working of Metallic Materials Lecture 6 - Deformation zone + worked examples
Link NOC:Plastic Working of Metallic Materials Lecture 7 - Stresses at point and Theory of Plasticity
Link NOC:Plastic Working of Metallic Materials Lecture 8 - Slab Analysis
Link NOC:Plastic Working of Metallic Materials Lecture 9 - Slip Line Field Theory - Part 1
Link NOC:Plastic Working of Metallic Materials Lecture 10 - Slip Line Field Theory - Part 2
Link NOC:Plastic Working of Metallic Materials Lecture 11 - Upper Bound Theorem
Link NOC:Plastic Working of Metallic Materials Lecture 12 - Plasticity equations
Link NOC:Plastic Working of Metallic Materials Lecture 13 - Forging
Link NOC:Plastic Working of Metallic Materials Lecture 14 - Analysis of Forging
Link NOC:Plastic Working of Metallic Materials Lecture 15 - Analysis of Forging (Continued...)
Link NOC:Plastic Working of Metallic Materials Lecture 16 - Forging Die Design consideration
Link NOC:Plastic Working of Metallic Materials Lecture 17 - Forging Load
Link NOC:Plastic Working of Metallic Materials Lecture 18 - Rolling of Metals
Link NOC:Plastic Working of Metallic Materials Lecture 19 - Analysis of Rolling
Link NOC:Plastic Working of Metallic Materials Lecture 20 - Analysis of Rolling (Continued...)
Link NOC:Plastic Working of Metallic Materials Lecture 21 - Strain rate in the deformation zone
Link NOC:Plastic Working of Metallic Materials Lecture 22 - Rolling mills
Link NOC:Plastic Working of Metallic Materials Lecture 23 - Prblem on rolling
Link NOC:Plastic Working of Metallic Materials Lecture 24 - Drawing of Rods, Wires and Tubes
Link NOC:Plastic Working of Metallic Materials Lecture 25 - Drawing of Rods, Wires and Tubes (Continued...)
Link NOC:Plastic Working of Metallic Materials Lecture 26 - Analysis of Wire Drawing
Link NOC:Plastic Working of Metallic Materials Lecture 27 - Wire Drawing: Tutorial Problems
Link NOC:Plastic Working of Metallic Materials Lecture 28 - Extrusion Process
Link NOC:Plastic Working of Metallic Materials Lecture 29 - Analysis of Extrusion
Link NOC:Plastic Working of Metallic Materials Lecture 30 - Introduction
Link NOC:Plastic Working of Metallic Materials Lecture 31 - Sheet deformation process
Link NOC:Plastic Working of Metallic Materials Lecture 32 - Deformation of sheet in plane stress
Link NOC:Plastic Working of Metallic Materials Lecture 33 - Analysis of stamping
Link NOC:Plastic Working of Metallic Materials Lecture 34 - Instability in sheet metal forming
Link NOC:Plastic Working of Metallic Materials Lecture 35 - Deep drawing
Link NOC:Plastic Working of Metallic Materials Lecture 36 - Hydroforming
Link NOC:Fundamentals of Artificial Intelligence Lecture 1 - Introduction to Artificial Intelligence
Link NOC:Fundamentals of Artificial Intelligence Lecture 2 - Problem Solving as State Space Search
Link NOC:Fundamentals of Artificial Intelligence Lecture 3 - Uninformed Search
Link NOC:Fundamentals of Artificial Intelligence Lecture 4 - Heuristic Search
Link NOC:Fundamentals of Artificial Intelligence Lecture 5 - Informed Search
Link NOC:Fundamentals of Artificial Intelligence Lecture 6 - Constraint Satisfaction Problems
Link NOC:Fundamentals of Artificial Intelligence Lecture 7 - Searching AND/OR Graphs
Link NOC:Fundamentals of Artificial Intelligence Lecture 8 - Game Playing
Link NOC:Fundamentals of Artificial Intelligence Lecture 9 - Minimax + Alpha-Beta
Link NOC:Fundamentals of Artificial Intelligence Lecture 10 - Introduction to Knowledge Representation
Link NOC:Fundamentals of Artificial Intelligence Lecture 11 - Propositional Logic
Link NOC:Fundamentals of Artificial Intelligence Lecture 12 - First Order Logic - I
Link NOC:Fundamentals of Artificial Intelligence Lecture 13 - First Order Logic - II
Link NOC:Fundamentals of Artificial Intelligence Lecture 14 - Inference in First Order Logic - I
Link NOC:Fundamentals of Artificial Intelligence Lecture 15 - Inference in First Order Logic - II
Link NOC:Fundamentals of Artificial Intelligence Lecture 16 - Answer Extraction
Link NOC:Fundamentals of Artificial Intelligence Lecture 17 - Procedural Control of Reasoning
Link NOC:Fundamentals of Artificial Intelligence Lecture 18 - Reasoning under Uncertainty
Link NOC:Fundamentals of Artificial Intelligence Lecture 19 - Bayesian Network
Link NOC:Fundamentals of Artificial Intelligence Lecture 20 - Decision Network
Link NOC:Fundamentals of Artificial Intelligence Lecture 21 - Introduction to Planning
Link NOC:Fundamentals of Artificial Intelligence Lecture 22 - Plan Space Planning
Link NOC:Fundamentals of Artificial Intelligence Lecture 23 - Planning Graph and GraphPlan
Link NOC:Fundamentals of Artificial Intelligence Lecture 24 - Practical Planning and Acting
Link NOC:Fundamentals of Artificial Intelligence Lecture 25 - Sequential Decision Problems
Link NOC:Fundamentals of Artificial Intelligence Lecture 26 - Making Complex Decisions
Link NOC:Fundamentals of Artificial Intelligence Lecture 27 - Introduction to Machine Learning
Link NOC:Fundamentals of Artificial Intelligence Lecture 28 - Learning Decision Trees
Link NOC:Fundamentals of Artificial Intelligence Lecture 29 - Linear Regression
Link NOC:Fundamentals of Artificial Intelligence Lecture 30 - Support Vector Machines
Link NOC:Fundamentals of Artificial Intelligence Lecture 31 - Unsupervised Learning
Link NOC:Fundamentals of Artificial Intelligence Lecture 32 - Reinforcement Learning
Link NOC:Fundamentals of Artificial Intelligence Lecture 33 - Learning in Neural Networks
Link NOC:Fundamentals of Artificial Intelligence Lecture 34 - Deep Learning: A Brief Overview
Link NOC:Aircraft Propulsion Lecture 1 - Overview of Basic Thermodynamics
Link NOC:Aircraft Propulsion Lecture 2 - Solved Examples for Flow process
Link NOC:Aircraft Propulsion Lecture 3 - Turbomachines: Introduction, Classification, Types
Link NOC:Aircraft Propulsion Lecture 4 - Components of Gas Turbine Power Plant, Gas Turbine Attachments
Link NOC:Aircraft Propulsion Lecture 5 - Introduction to Various Aircraft engines, Engine Performance parameters
Link NOC:Aircraft Propulsion Lecture 6 - Air Standard Ideal Brayton Cycle
Link NOC:Aircraft Propulsion Lecture 7 - Examples for Ideal Brayton Cycle
Link NOC:Aircraft Propulsion Lecture 8 - Non-Ideal Brayton Cycle
Link NOC:Aircraft Propulsion Lecture 9 - Examples for Non-Ideal Brayton Cycle
Link NOC:Aircraft Propulsion Lecture 10 - Brayton Cycle with Heat Exchanger / Re-heater
Link NOC:Aircraft Propulsion Lecture 11 - Brayton Cycle with Intercooler / All Attachments
Link NOC:Aircraft Propulsion Lecture 12 - Examples of Gas Turbine Attachment
Link NOC:Aircraft Propulsion Lecture 13 - Examples of Gas Turbine Attachment
Link NOC:Aircraft Propulsion Lecture 14 - Stagnation Conditions, Real Brayton Cycle with Stagnation Conditions
Link NOC:Aircraft Propulsion Lecture 15 - Polytropic Efficiency of Compressor and Turbine
Link NOC:Aircraft Propulsion Lecture 16 - Examples of Real Cycle
Link NOC:Aircraft Propulsion Lecture 17 - Nozzle Flow: Isentropic Relations, Area Velocity Relation, Choked Mass Flow Rate
Link NOC:Aircraft Propulsion Lecture 18 - Aircraft Engine Intake, Intake Efficiency
Link NOC:Aircraft Propulsion Lecture 19 - Propelling Nozzle, Nozzle Efficiency
Link NOC:Aircraft Propulsion Lecture 20 - Turbojet engine: Confriguration and Examples
Link NOC:Aircraft Propulsion Lecture 21 - Turbofan engine: Confriguration and Examples
Link NOC:Aircraft Propulsion Lecture 22 - Ramjet engine: Parameters and losses
Link NOC:Aircraft Propulsion Lecture 23 - Examples of Ramjet Engine
Link NOC:Aircraft Propulsion Lecture 24 - Thrust Augmentation and Engine performance parameters for Aircrafts
Link NOC:Aircraft Propulsion Lecture 25 - Introduction to Turbomachinary
Link NOC:Aircraft Propulsion Lecture 26 - Centrifugal Compressor: Velocity diagrams, Workdone
Link NOC:Aircraft Propulsion Lecture 27 - Centrifugal Compressor: Thermodynamic analysis, Stage efficiency and Degree of reaction
Link NOC:Aircraft Propulsion Lecture 28 - Examples of Centrifugal compressor
Link NOC:Aircraft Propulsion Lecture 29 - Axial Flow Compressor: Velocity diagrams, Workdone and Degree of Reaction
Link NOC:Aircraft Propulsion Lecture 30 - Axial Flow Compressor: Free vortex Condition
Link NOC:Aircraft Propulsion Lecture 31 - Examples of Axial Flow Compressor
Link NOC:Aircraft Propulsion Lecture 32 - Examples of Axial Flow Compressor
Link NOC:Aircraft Propulsion Lecture 33 - Examples of Axial Flow Compressor
Link NOC:Aircraft Propulsion Lecture 34 - Axial Turbine: Velocity diagrams, Workdone, and Degree of Reaction
Link NOC:Aircraft Propulsion Lecture 35 - Radial Turbine: Velocity diagrams, h-s diagram, Stage effieciency and degree of reaction
Link NOC:Aircraft Propulsion Lecture 36 - Examples of Axial Turbine
Link NOC:Aircraft Propulsion Lecture 37 - Practice examples of Axial Turbine and cetrifugal compressor
Link NOC:Aircraft Propulsion Lecture 38 - Cascade theory and Blade design
Link NOC:Aircraft Propulsion Lecture 39 - Cascade variables and Turbine Cascade
Link NOC:Aircraft Propulsion Lecture 40 - Velocity diagrams of Turbine Cascade, Compressor cascade
Link NOC:Aircraft Propulsion Lecture 41 - Turbine cooling methods
Link NOC:Aircraft Propulsion Lecture 42 - Practice examples of aircraft engine
Link Acoustics Lecture 1 - Intro, sound wave versus vibration, different types of waves, octave, music scales, sense of SPL
Link Acoustics Lecture 2 - Review: Linearity, complex numbers, and spring mass system
Link Acoustics Lecture 3 - Review: Poles and zeroes, phase and magnitude plots, transfer functions, Bode plots
Link Acoustics Lecture 4 - Review: Transfer functions, and Bode plots
Link Acoustics Lecture 5 - 1-D wave equation, and its solution
Link Acoustics Lecture 6 - Solution for 1-D wave equation
Link Acoustics Lecture 7 - Waveguides, transmission line equations, and standing waves
Link Acoustics Lecture 8 - Waveguides, transmission line equations, and standing waves
Link Acoustics Lecture 9 - Examples of 1-D waves in tubes, short tubes, Kundt's tube
Link Acoustics Lecture 10 - Thermodynamic processes during sound transmission
Link Acoustics Lecture 11 - Numerical examples
Link Acoustics Lecture 12 - Sound transmission through walls
Link Acoustics Lecture 13 - Sound transmission through walls
Link Acoustics Lecture 14 - Leakage in walls, STC Ratings, Octave bands
Link Acoustics Lecture 15 - Instantaneous power flow
Link Acoustics Lecture 16 - Radial propagation of sound, monopoles, and dipoles
Link Acoustics Lecture 17 - Radial propagation of sound, monopoles, and dipoles
Link Acoustics Lecture 18 - Radial propagation of sound, monopoles, and dipoles
Link Acoustics Lecture 19 - Numerical examples
Link Acoustics Lecture 20 - Numerical examples
Link Acoustics Lecture 21 - Directivity
Link Acoustics Lecture 22 - Directivity
Link Acoustics Lecture 23 - Directivity
Link Acoustics Lecture 24 - Directivity
Link Acoustics Lecture 25 - Generalized elements
Link Acoustics Lecture 26 - Examples of electromechanical systems
Link Acoustics Lecture 27 - Transformers, radiation impedance, and Helmholtz resonator
Link Acoustics Lecture 28 - Radiation impedance
Link Acoustics Lecture 29 - Radiation impedance
Link Acoustics Lecture 30 - Models of electro-mechanical-acoustic systems
Link Acoustics Lecture 31 - Solution for a loudspeaker model
Link Acoustics Lecture 32 - Microphones
Link Acoustics Lecture 33 - Vibro-meter, seismometer, accelerometer, shaker table
Link Acoustics Lecture 34 - Sound propagation in rooms, 1-D rooms, 2D rooms
Link Acoustics Lecture 35 - Sound in 3-D rooms
Link Acoustics Lecture 36 - Absorption coefficient, and irregular rooms
Link Acoustics Lecture 37 - Room constant, and Sabine's coefficient
Link Acoustics Lecture 38 - Design of a muffler
Link Acoustics Lecture 39 - Noise in machines, basics of noise management
Link Advanced Machining Processes Lecture 1 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 2 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 3 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 4 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 5 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 6 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 7 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 8 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 9 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 10 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 11 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 12 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 13 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 14 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 15 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 16 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 17 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 18 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 19 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 20 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 21 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 22 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 23 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 24 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 25 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 26 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 27 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 28 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 29 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 30 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 31 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 32 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 33 - Advanced Machining Processes
Link Advanced Machining Processes Lecture 34 - Advanced Machining Processes
Link Biomicroelectromechanical systems Lecture 1
Link Biomicroelectromechanical systems Lecture 2
Link Biomicroelectromechanical systems Lecture 3
Link Biomicroelectromechanical systems Lecture 4
Link Biomicroelectromechanical systems Lecture 5
Link Biomicroelectromechanical systems Lecture 6
Link Biomicroelectromechanical systems Lecture 7
Link Biomicroelectromechanical systems Lecture 8
Link Biomicroelectromechanical systems Lecture 9
Link Biomicroelectromechanical systems Lecture 10 (same as 9)
Link Biomicroelectromechanical systems Lecture 11
Link Biomicroelectromechanical systems Lecture 12 (Lecture Missing)
Link Biomicroelectromechanical systems Lecture 13
Link Biomicroelectromechanical systems Lecture 14
Link Biomicroelectromechanical systems Lecture 15
Link Biomicroelectromechanical systems Lecture 16
Link Biomicroelectromechanical systems Lecture 17
Link Biomicroelectromechanical systems Lecture 18
Link Biomicroelectromechanical systems Lecture 19
Link Biomicroelectromechanical systems Lecture 20
Link Biomicroelectromechanical systems Lecture 21
Link Biomicroelectromechanical systems Lecture 22
Link Biomicroelectromechanical systems Lecture 23
Link Biomicroelectromechanical systems Lecture 24
Link Biomicroelectromechanical systems Lecture 25
Link Biomicroelectromechanical systems Lecture 26
Link Biomicroelectromechanical systems Lecture 27
Link Biomicroelectromechanical systems Lecture 28
Link Biomicroelectromechanical systems Lecture 29
Link Biomicroelectromechanical systems Lecture 30
Link Biomicroelectromechanical systems Lecture 31
Link Biomicroelectromechanical systems Lecture 32
Link Biomicroelectromechanical systems Lecture 33
Link Biomicroelectromechanical systems Lecture 34
Link Biomicroelectromechanical systems Lecture 35
Link Biomicroelectromechanical systems Lecture 36
Link Biomicroelectromechanical systems Lecture 37
Link Biomicroelectromechanical systems Lecture 38
Link Biomicroelectromechanical systems Lecture 39
Link Biomicroelectromechanical systems Lecture 40
Link Computer Aided Engineering Design Lecture 1
Link Computer Aided Engineering Design Lecture 2
Link Computer Aided Engineering Design Lecture 3
Link Computer Aided Engineering Design Lecture 4
Link Computer Aided Engineering Design Lecture 5
Link Computer Aided Engineering Design Lecture 6
Link Computer Aided Engineering Design Lecture 7
Link Computer Aided Engineering Design Lecture 8
Link Computer Aided Engineering Design Lecture 9
Link Computer Aided Engineering Design Lecture 10
Link Computer Aided Engineering Design Lecture 11
Link Computer Aided Engineering Design Lecture 12
Link Computer Aided Engineering Design Lecture 13
Link Computer Aided Engineering Design Lecture 14
Link Computer Aided Engineering Design Lecture 15
Link Computer Aided Engineering Design Lecture 16
Link Computer Aided Engineering Design Lecture 17
Link Computer Aided Engineering Design Lecture 18
Link Computer Aided Engineering Design Lecture 19
Link Computer Aided Engineering Design Lecture 20
Link Computer Aided Engineering Design Lecture 21
Link Computer Aided Engineering Design Lecture 22
Link Computer Aided Engineering Design Lecture 23
Link Computer Aided Engineering Design Lecture 24
Link Computer Aided Engineering Design Lecture 25
Link Computer Aided Engineering Design Lecture 26
Link Computer Aided Engineering Design Lecture 27
Link Computer Aided Engineering Design Lecture 28
Link Computer Aided Engineering Design Lecture 29
Link Computer Aided Engineering Design Lecture 30
Link Computer Aided Engineering Design Lecture 31
Link Computer Aided Engineering Design Lecture 32
Link Computer Aided Engineering Design Lecture 33
Link Computer Aided Engineering Design Lecture 34
Link Computer Aided Engineering Design Lecture 35
Link Computer Aided Engineering Design Lecture 36
Link Computer Aided Engineering Design Lecture 37
Link Computer Aided Engineering Design Lecture 38
Link Computer Aided Engineering Design Lecture 39
Link Computer Aided Engineering Design Lecture 40
Link Mathematical Methods in Engineering and Science Lecture 1 - Introduction
Link Mathematical Methods in Engineering and Science Lecture 2 - Basic Ideas of Applied Linear Algebra
Link Mathematical Methods in Engineering and Science Lecture 3 - Systems of Linear Equations
Link Mathematical Methods in Engineering and Science Lecture 4 - Square Non-Singular Systems
Link Mathematical Methods in Engineering and Science Lecture 5 - Ill-Conditioned and Ill-Posed Systems
Link Mathematical Methods in Engineering and Science Lecture 6 - The Algebraic Eigenvalue Problem
Link Mathematical Methods in Engineering and Science Lecture 7 - Canonical Forms, Symmetric Matrices
Link Mathematical Methods in Engineering and Science Lecture 8 - Methods of Plane Rotations
Link Mathematical Methods in Engineering and Science Lecture 9 - Householder Method, Tridiagonal Matrices
Link Mathematical Methods in Engineering and Science Lecture 10 - QR Decomposition, General Matrices
Link Mathematical Methods in Engineering and Science Lecture 11 - Singular Value Decomposition
Link Mathematical Methods in Engineering and Science Lecture 12 - Vector Space: Concepts
Link Mathematical Methods in Engineering and Science Lecture 13 - Multivariate Calculus
Link Mathematical Methods in Engineering and Science Lecture 14 - Vector Calculus in Geometry
Link Mathematical Methods in Engineering and Science Lecture 15 - Vector Calculus in Physics
Link Mathematical Methods in Engineering and Science Lecture 16 - Solution of Equations
Link Mathematical Methods in Engineering and Science Lecture 17 - Introdcution to Optimization
Link Mathematical Methods in Engineering and Science Lecture 18 - Multivariate Optimization
Link Mathematical Methods in Engineering and Science Lecture 19 - Constrained Optimization: Optimality Criteria
Link Mathematical Methods in Engineering and Science Lecture 20 - Constrained Optimization: Further Issues
Link Mathematical Methods in Engineering and Science Lecture 21 - Interpolation
Link Mathematical Methods in Engineering and Science Lecture 22 - Numerical Integration
Link Mathematical Methods in Engineering and Science Lecture 23 - Numerical Solution of ODE's as IVP
Link Mathematical Methods in Engineering and Science Lecture 24 - Boundary Value Problems, Question of Stability in IVP Solution
Link Mathematical Methods in Engineering and Science Lecture 25 - Stiff Differential Equations, Existence and Uniqueness Theory
Link Mathematical Methods in Engineering and Science Lecture 26 - Theory of First Order ODE's
Link Mathematical Methods in Engineering and Science Lecture 27 - Linear Second Order ODE's
Link Mathematical Methods in Engineering and Science Lecture 28 - Methods of Linear ODE's
Link Mathematical Methods in Engineering and Science Lecture 29 - ODE Systems
Link Mathematical Methods in Engineering and Science Lecture 30 - Stability of Dynamic Systems
Link Mathematical Methods in Engineering and Science Lecture 31 - Series Solutions and Special Functions
Link Mathematical Methods in Engineering and Science Lecture 32 - Sturm-Liouville Theory
Link Mathematical Methods in Engineering and Science Lecture 33 - Approximation Theory and Fourier Series
Link Mathematical Methods in Engineering and Science Lecture 34 - Fourier Integral to Fourier Transform, Minimax Approximation
Link Mathematical Methods in Engineering and Science Lecture 35 - Separation of Variables in PDE's, Hyperbolic Equations
Link Mathematical Methods in Engineering and Science Lecture 36 - Parabolic and Elliptic Equations, Membrane Equation
Link Mathematical Methods in Engineering and Science Lecture 37 - Analytic Functions
Link Mathematical Methods in Engineering and Science Lecture 38 - Integration of Complex Functions
Link Mathematical Methods in Engineering and Science Lecture 39 - Singularities and Residues
Link Mathematical Methods in Engineering and Science Lecture 40 - Calculus of Variations
Link Dynamics of Machines Lecture 1 - Rigid Body Motion - Part 1
Link Dynamics of Machines Lecture 2 - Rigid Body Motion - Part 2
Link Dynamics of Machines Lecture 3 - Dynamic Force Analysis of Mechanisms
Link Dynamics of Machines Lecture 4 - Space Motion of Rigid Bodies
Link Dynamics of Machines Lecture 5 - Inertia Tensor Angular Momentum
Link Dynamics of Machines Lecture 6 - Euler's Equation of Motion
Link Dynamics of Machines Lecture 7 - Gyroscopic Action in Machines
Link Dynamics of Machines Lecture 8 - Unbalance in Machines
Link Dynamics of Machines Lecture 9 - Rotary Balancing
Link Dynamics of Machines Lecture 10 - Balancing Machines
Link Dynamics of Machines Lecture 11 - Field Balancing of Rotors
Link Dynamics of Machines Lecture 12 - Single-Cylinder Engine Balancing
Link Dynamics of Machines Lecture 13 - Balancing of Single Slider Machines
Link Dynamics of Machines Lecture 14 - In-Line Engine Balancing
Link Dynamics of Machines Lecture 15 - V and Radial Engine Balancing
Link Dynamics of Machines Lecture 16 - Turning Moment Diagram
Link Dynamics of Machines Lecture 17 - Flywheel Analysis
Link Dynamics of Machines Lecture 18 - Dynamics of Machines
Link Dynamics of Machines Lecture 19 - Dynamics of Machines
Link Dynamics of Machines Lecture 20 - Dynamics of Machines
Link Dynamics of Machines Lecture 21 - Dynamics of Machines
Link Dynamics of Machines Lecture 22 - Dynamics of Machines
Link Dynamics of Machines Lecture 23 - Dynamics of Machines
Link Dynamics of Machines Lecture 24 - Dynamics of Machines
Link Dynamics of Machines Lecture 25 - Dynamics of Machines
Link Dynamics of Machines Lecture 26 - Dynamics of Machines
Link Dynamics of Machines Lecture 27 - Dynamics of Machines
Link Dynamics of Machines Lecture 28 - Dynamics of Machines
Link Dynamics of Machines Lecture 29 - Rotating Vector Approach
Link Dynamics of Machines Lecture 30 - Equivalent viscous damping
Link Dynamics of Machines Lecture 31 - Dynamics of Machines
Link Dynamics of Machines Lecture 32 - Systems with two degree of freedom
Link Dynamics of Machines Lecture 33 - Tuned Vibration Absorber
Link Dynamics of Machines Lecture 34 - Design of Vibration Absorbers
Link Dynamics of Machines Lecture 35 - Flexibility Matrix Influence Coeff
Link Dynamics of Machines Lecture 36 - Forced Vibration of multiple
Link Dynamics of Machines Lecture 37 - Forced Vibration of Multiple degrees
Link Dynamics of Machines Lecture 38 - Vibration of Continuous Systems
Link Dynamics of Machines Lecture 39 - Vibration of Continuous Systems
Link Dynamics of Machines Lecture 40 - Vibration of Beams
Link Dynamics of Machines Lecture 41 - Rayleigh's method
Link Dynamics of Machines Lecture 42 - Rayleigh-Ritz Method
Link Dynamics of Machines Lecture 43 - Vibration Measurement
Link Dynamics of Machines Lecture 44 - Vibration Measurement Types of Pickups
Link Finite Element Method Module 1 - Lecture 1
Link Finite Element Method Module 1 - Lecture 2
Link Finite Element Method Module 1 - Lecture 3
Link Finite Element Method Module 2 - Lecture 1
Link Finite Element Method Module 2 - Lecture 2
Link Finite Element Method Module 2 - Lecture 3
Link Finite Element Method Module 2 - Lecture 4
Link Finite Element Method Module 3 - Lecture 1
Link Finite Element Method Module 3 - Lecture 2
Link Finite Element Method Module 3 - Lecture 3
Link Finite Element Method Module 4 - Lecture 1
Link Finite Element Method Module 4 - Lecture 2
Link Finite Element Method Module 4 - Lecture 3
Link Finite Element Method Module 5 - Lecture 1
Link Finite Element Method Module 5 - Lecture 2
Link Finite Element Method Module 5 - Lecture 3
Link Finite Element Method Module 6 - Lecture 1
Link Finite Element Method Module 6 - Lecture 2
Link Finite Element Method Module 6 - Lecture 3
Link Finite Element Method Module 7 - Lecture 1
Link Finite Element Method Module 7 - Lecture 2
Link Finite Element Method Module 7 - Lecture 3
Link Finite Element Method Module 7 - Lecture 4
Link Finite Element Method Module 8 - Lecture 1
Link Finite Element Method Module 8 - Lecture 2
Link Finite Element Method Module 8 - Lecture 3
Link Finite Element Method Module 9 - Lecture 1
Link Finite Element Method Module 9 - Lecture 2
Link Finite Element Method Module 9 - Lecture 3
Link Finite Element Method Module 10 - Lecture 1
Link Finite Element Method Module 10 - Lecture 2
Link Finite Element Method Module 11 - Lecture 1
Link Finite Element Method Module 11 - Lecture 2
Link Finite Element Method Module 12 - Lecture 1
Link Finite Element Method Module 13 - Lecture 1
Link Finite Element Method Module 13 - Lecture 2
Link Finite Element Method Module 14 - Lecture 1
Link Finite Element Method Module 14 - Lecture 2
Link Kinematics of Machines Module 1 - Lecture 1
Link Kinematics of Machines Module 1 - Lecture 2
Link Kinematics of Machines Module 1 - Lecture 3
Link Kinematics of Machines Module 2 - Lecture 1
Link Kinematics of Machines Module 2 - Lecture 2
Link Kinematics of Machines Module 2 - Lecture 3
Link Kinematics of Machines Module 3 - Lecture 1
Link Kinematics of Machines Module 3 - Lecture 2
Link Kinematics of Machines Module 3 - Lecture 3
Link Kinematics of Machines Module 3 - Lecture 4
Link Kinematics of Machines Module 4 - Lecture 1
Link Kinematics of Machines Module 4 - Lecture 2
Link Kinematics of Machines Module 5 - Lecture 1
Link Kinematics of Machines Module 5 - Lecture 2
Link Kinematics of Machines Module 5 - Lecture 3
Link Kinematics of Machines Module 6 - Lecture 1
Link Kinematics of Machines Module 6 - Lecture 2
Link Kinematics of Machines Module 6 - Lecture 3
Link Kinematics of Machines Module 7 - Lecture 1
Link Kinematics of Machines Module 7 - Lecture 2
Link Kinematics of Machines Module 7 - Lecture 3
Link Kinematics of Machines Module 8 - Lecture 1
Link Kinematics of Machines Module 8 - Lecture 2
Link Kinematics of Machines Module 9 - Lecture 1
Link Kinematics of Machines Module 9 - Lecture 2
Link Kinematics of Machines Module 9 - Lecture 3
Link Kinematics of Machines Module 9 - Lecture 4
Link Kinematics of Machines Module 10 - Lecture 1
Link Kinematics of Machines Module 10 - Lecture 2
Link Kinematics of Machines Module 10 - Lecture 3
Link Kinematics of Machines Module 11 - Lecture 1
Link Kinematics of Machines Module 11 - Lecture 2
Link Kinematics of Machines Module 11 - Lecture 3
Link Kinematics of Machines Module 12 - Lecture 1
Link Kinematics of Machines Module 12 - Lecture 2
Link Kinematics of Machines Module 12 - Lecture 3
Link Kinematics of Machines Module 13 - Lecture 1
Link Kinematics of Machines Module 13 - Lecture 2
Link Kinematics of Machines Module 13 - Lecture 3
Link Advanced manufacturing process for micro sytem fabrication Lecture 1
Link Advanced manufacturing process for micro sytem fabrication Lecture 2
Link Advanced manufacturing process for micro sytem fabrication Lecture 3
Link Advanced manufacturing process for micro sytem fabrication Lecture 4
Link Advanced manufacturing process for micro sytem fabrication Lecture 5
Link Advanced manufacturing process for micro sytem fabrication Lecture 6
Link Advanced manufacturing process for micro sytem fabrication Lecture 7
Link Advanced manufacturing process for micro sytem fabrication Lecture 8
Link Advanced manufacturing process for micro sytem fabrication Lecture 9
Link Advanced manufacturing process for micro sytem fabrication Lecture 10
Link Advanced manufacturing process for micro sytem fabrication Lecture 11
Link Advanced manufacturing process for micro sytem fabrication Lecture 12
Link Advanced manufacturing process for micro sytem fabrication Lecture 13
Link Advanced manufacturing process for micro sytem fabrication Lecture 14
Link Advanced manufacturing process for micro sytem fabrication Lecture 15
Link Advanced manufacturing process for micro sytem fabrication Lecture 16
Link Advanced manufacturing process for micro sytem fabrication Lecture 17
Link Advanced manufacturing process for micro sytem fabrication Lecture 18
Link Advanced manufacturing process for micro sytem fabrication Lecture 19
Link Advanced manufacturing process for micro sytem fabrication Lecture 20
Link Advanced manufacturing process for micro sytem fabrication Lecture 21
Link Advanced manufacturing process for micro sytem fabrication Lecture 22
Link Advanced manufacturing process for micro sytem fabrication Lecture 23
Link Advanced manufacturing process for micro sytem fabrication Lecture 24
Link Advanced manufacturing process for micro sytem fabrication Lecture 25
Link Advanced manufacturing process for micro sytem fabrication Lecture 26
Link Advanced manufacturing process for micro sytem fabrication Lecture 27
Link Advanced manufacturing process for micro sytem fabrication Lecture 28
Link Advanced manufacturing process for micro sytem fabrication Lab session 1 - Advanced manufacturing process for micro sytem fabrication
Link Advanced manufacturing process for micro sytem fabrication Lab session 2 - EDM Micro Machening
Link Advanced manufacturing process for micro sytem fabrication Lab session 3 - EDM Micro Drilling
Link Advanced manufacturing process for micro sytem fabrication Lab session 4 - Laser Machening Process
Link Advanced manufacturing process for micro sytem fabrication Lab session 5 - Vaccume Assisted Forming
Link Advanced manufacturing process for micro sytem fabrication Lab session 6 - Vaccume Forming
Link Advanced manufacturing process for micro sytem fabrication Lab session 7 - Photolithiography
Link Advanced manufacturing process for micro sytem fabrication Lab session 8 - Replication part 1
Link Advanced manufacturing process for micro sytem fabrication Lab session 9 - Replication part 2
Link Advanced manufacturing process for micro sytem fabrication Lab session 10 - PCB Making
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 1 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 2 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 3 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 4 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 5 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 6 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 7 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 8 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 9 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 10 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 11 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 12 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 13 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 14 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 15 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 16 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 17 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 18 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 19 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 20 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 21 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 22 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 23 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 24 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 25 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 26 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 27 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lecture 28 - Technical Arts 101
Link Engineering Drawing (Dr. Anupam Saxena) Lab Session 1
Link Engineering Drawing (Dr. Anupam Saxena) Lab Session 2
Link Engineering Drawing (Dr. Anupam Saxena) Lab Session 3
Link Engineering Drawing (Dr. Anupam Saxena) Lab Session 4
Link Engineering Drawing (Dr. Anupam Saxena) Lab Session 5
Link Engineering Drawing (Dr. Anupam Saxena) Lab Session 6
Link Engineering Drawing (Dr. Anupam Saxena) Lab Session 7
Link Engineering Drawing (Dr. Anupam Saxena) Lab Session 8
Link Engineering Drawing (Dr. Anupam Saxena) Lab Session 9
Link Engineering Drawing (Dr. Anupam Saxena) Lab Session 10
Link Engineering Drawing (Dr. Anupam Saxena) Lab Session 11
Link Engineering Drawing (Dr. Anupam Saxena) Lab Session 12
Link NOC:BioMEMS and Microsystems Lecture 1 - Lecture 1
Link NOC:BioMEMS and Microsystems Lecture 2 - Lecture 2
Link NOC:BioMEMS and Microsystems Lecture 3 - Lecture 3
Link NOC:BioMEMS and Microsystems Lecture 4 - Review Lecture 1,2,3
Link NOC:BioMEMS and Microsystems Lecture 5 - Lecture 4
Link NOC:BioMEMS and Microsystems Lecture 6 - Lecture 5
Link NOC:BioMEMS and Microsystems Lecture 7 - Lecture 6
Link NOC:BioMEMS and Microsystems Lecture 8 - Review Lecture 4,5,6
Link NOC:BioMEMS and Microsystems Lecture 9 - Lecture 7
Link NOC:BioMEMS and Microsystems Lecture 10 - Lecture 8
Link NOC:BioMEMS and Microsystems Lecture 11 - Lecture 9-10
Link NOC:BioMEMS and Microsystems Lecture 12 - Lecture-11
Link NOC:BioMEMS and Microsystems Lecture 13 - Lecture-12
Link NOC:BioMEMS and Microsystems Lecture 14 - Lecture-13
Link NOC:BioMEMS and Microsystems Lecture 15 - Lecture-14
Link NOC:BioMEMS and Microsystems Lecture 16 - Lecture-15
Link NOC:BioMEMS and Microsystems Lecture 17 - Lecture-16
Link NOC:BioMEMS and Microsystems Lecture 18 - Lecture-17
Link NOC:BioMEMS and Microsystems Lecture 19 - Lecture-18
Link NOC:BioMEMS and Microsystems Lecture 20 - Lecture-19
Link NOC:BioMEMS and Microsystems Lecture 21 - Review Lecture 7 to 10
Link NOC:BioMEMS and Microsystems Lecture 22 - Review Lecture 11 to 13
Link NOC:BioMEMS and Microsystems Lecture 23 - Review Lecture 14 to 16
Link NOC:BioMEMS and Microsystems Lecture 24 - Lecture-20
Link NOC:BioMEMS and Microsystems Lecture 25 - Lecture-21
Link NOC:BioMEMS and Microsystems Lecture 26 - Lecture-22
Link NOC:BioMEMS and Microsystems Lecture 27 - Lecture-23
Link NOC:BioMEMS and Microsystems Lecture 28 - Lecture-24
Link NOC:BioMEMS and Microsystems Lecture 29 - Lecture-25
Link NOC:BioMEMS and Microsystems Lecture 30 - Review Lecture 17,18,19
Link NOC:BioMEMS and Microsystems Lecture 31 - Review Lecture 20,21,22
Link NOC:BioMEMS and Microsystems Lecture 32 - Lecture-26
Link NOC:BioMEMS and Microsystems Lecture 33 - Lecture-27
Link NOC:BioMEMS and Microsystems Lecture 34 - Lecture-28
Link NOC:BioMEMS and Microsystems Lecture 35 - Lecture-29
Link NOC:BioMEMS and Microsystems Lecture 36 - Lecture-30
Link NOC:BioMEMS and Microsystems Lecture 37 - Lecture-31
Link NOC:BioMEMS and Microsystems Lecture 38 - Lecture-32
Link NOC:BioMEMS and Microsystems Lecture 39 - Lecture-33
Link NOC:BioMEMS and Microsystems Lecture 40 - Review lecture 23,24,25
Link NOC:BioMEMS and Microsystems Lecture 41 - Review lecture 26,27,28
Link NOC:BioMEMS and Microsystems Lecture 42 - Review lecture 29 to 33
Link NOC:Manufacturing Systems Technology Lecture 1
Link NOC:Manufacturing Systems Technology Lecture 2
Link NOC:Manufacturing Systems Technology Lecture 3
Link NOC:Manufacturing Systems Technology Lecture 4
Link NOC:Manufacturing Systems Technology Lecture 5
Link NOC:Manufacturing Systems Technology Lecture 6
Link NOC:Manufacturing Systems Technology Lecture 7
Link NOC:Manufacturing Systems Technology Lecture 8
Link NOC:Manufacturing Systems Technology Lecture 9
Link NOC:Manufacturing Systems Technology Lecture 10
Link NOC:Manufacturing Systems Technology Lecture 11
Link NOC:Manufacturing Systems Technology Lecture 12
Link NOC:Manufacturing Systems Technology Lecture 13
Link NOC:Manufacturing Systems Technology Lecture 14
Link NOC:Manufacturing Systems Technology Lecture 15
Link NOC:Manufacturing Systems Technology Lecture 16
Link NOC:Manufacturing Systems Technology Lecture 17
Link NOC:Manufacturing Systems Technology Lecture 18
Link NOC:Manufacturing Systems Technology Lecture 19
Link NOC:Manufacturing Systems Technology Lecture 20
Link NOC:Manufacturing Systems Technology Lecture 21
Link NOC:Manufacturing Systems Technology Lecture 22
Link NOC:Manufacturing Systems Technology Lecture 23
Link NOC:Manufacturing Systems Technology Lecture 24
Link NOC:Manufacturing Systems Technology Lecture 25
Link NOC:Manufacturing Systems Technology Lecture 26
Link NOC:Manufacturing Systems Technology Lecture 27
Link NOC:Manufacturing Systems Technology Lecture 28
Link NOC:Manufacturing Systems Technology Lecture 29
Link NOC:Manufacturing Systems Technology Lecture 30
Link NOC:Manufacturing Systems Technology Lecture 31
Link NOC:Manufacturing Systems Technology Lecture 32
Link NOC:Manufacturing Systems Technology Lecture 33
Link NOC:Manufacturing Systems Technology Lecture 34
Link NOC:Manufacturing Systems Technology Lecture 35
Link NOC:Manufacturing Systems Technology Lecture 36
Link NOC:Manufacturing Systems Technology Lecture 37
Link NOC:Manufacturing Systems Technology Lecture 38
Link NOC:Manufacturing Systems Technology Lecture 39
Link NOC:Manufacturing Systems Technology Lecture 40
Link NOC:Manufacturing Systems Technology Lecture 41
Link NOC:Manufacturing Systems Technology Lecture 42
Link NOC:Manufacturing Systems Technology Lecture 43
Link NOC:Manufacturing Systems Technology Lecture 44
Link NOC:Manufacturing Systems Technology Lecture 45
Link NOC:Manufacturing Systems Technology Lecture 46
Link NOC:Manufacturing Systems Technology Lecture 47
Link NOC:Manufacturing Systems Technology Lecture 48
Link NOC:Manufacturing Systems Technology - Part II Module 1 - Quality systems engineering
Link NOC:Manufacturing Systems Technology - Part II Module 2 - Quality systems engineering
Link NOC:Manufacturing Systems Technology - Part II Module 3 - Quality systems engineering
Link NOC:Manufacturing Systems Technology - Part II Module 4 - Quality systems engineering
Link NOC:Manufacturing Systems Technology - Part II Module 5 - Quality systems engineering
Link NOC:Manufacturing Systems Technology - Part II Module 6 - Quality systems engineering
Link NOC:Manufacturing Systems Technology - Part II Module 7 - Cost of quality and statistical quality control
Link NOC:Manufacturing Systems Technology - Part II Module 8 - Cost of quality and statistical quality control
Link NOC:Manufacturing Systems Technology - Part II Module 9 - Cost of quality and statistical quality control
Link NOC:Manufacturing Systems Technology - Part II Module 10 - Cost of quality and statistical quality control
Link NOC:Manufacturing Systems Technology - Part II Module 11 - Cost of quality and statistical quality control
Link NOC:Manufacturing Systems Technology - Part II Module 12 - Cost of quality and statistical quality control
Link NOC:Manufacturing Systems Technology - Part II Module 13 - Cost of quality and statistical quality control
Link NOC:Manufacturing Systems Technology - Part II Module 14 - Cost of quality and statistical quality control
Link NOC:Manufacturing Systems Technology - Part II Module 15 - Cost of quality and statistical quality control
Link NOC:Manufacturing Systems Technology - Part II Module 16 - Cost of quality and statistical quality control
Link NOC:Manufacturing Systems Technology - Part II Module 17 - Cost of quality and statistical quality control
Link NOC:Manufacturing Systems Technology - Part II Module 18 - Cost of quality and statistical quality control
Link NOC:Manufacturing Systems Technology - Part II Module 19 - Robotic systems planning and designing
Link NOC:Manufacturing Systems Technology - Part II Module 20 - Robotic systems planning and designing
Link NOC:Manufacturing Systems Technology - Part II Module 21 - Robotic systems planning and designing
Link NOC:Manufacturing Systems Technology - Part II Module 22 - Robotic systems planning and designing
Link NOC:Manufacturing Systems Technology - Part II Module 23 - Robotic systems planning and designing
Link NOC:Manufacturing Systems Technology - Part II Module 24 - Robotic systems planning and designing
Link NOC:Manufacturing Systems Technology - Part II Module 25 - Robotic systems planning and designing
Link NOC:Manufacturing Systems Technology - Part II Module 26 - Robotic systems planning and designing
Link NOC:Manufacturing Systems Technology - Part II Module 27 - Robotic systems planning and designing
Link NOC:Manufacturing Systems Technology - Part II Module 28 - Robotic systems planning and designing
Link NOC:Manufacturing Systems Technology - Part II Module 29 - Robotic systems planning and designing
Link NOC:Manufacturing Systems Technology - Part II Module 30 - Robotic systems planning and designing
Link NOC:Basics of Finite Element Analysis Lecture 1 - Introduction to Finite Element Analysis(FEA)
Link NOC:Basics of Finite Element Analysis Lecture 2 - Introduction of FEA, Nodes, Elements and Shape Functions
Link NOC:Basics of Finite Element Analysis Lecture 3 - Nodes, Elements and Shape Functions
Link NOC:Basics of Finite Element Analysis Lecture 4 - Polynomials as Shape Functions, Weighted Residuals, Elements and Assembly Level Equations
Link NOC:Basics of Finite Element Analysis Lecture 5 - Types of Errors in FEA, Overall FEA Process and Convergence
Link NOC:Basics of Finite Element Analysis Lecture 6 - Strengths of FE Method, Continuity conditions at Interfaces
Link NOC:Basics of Finite Element Analysis Lecture 7 - Key concepts and terminologies
Link NOC:Basics of Finite Element Analysis Lecture 8 - Weighted integral statements
Link NOC:Basics of Finite Element Analysis Lecture 9 - Integration by parts - Review
Link NOC:Basics of Finite Element Analysis Lecture 10 - Gradient and Divergence Theorems-Part - I
Link NOC:Basics of Finite Element Analysis Lecture 11 - Gradient and Divergence Theorems Part - II
Link NOC:Basics of Finite Element Analysis Lecture 12 - Functionals
Link NOC:Basics of Finite Element Analysis Lecture 13 - Variational Operator
Link NOC:Basics of Finite Element Analysis Lecture 14 - Weighted Integral and Weak Formulation
Link NOC:Basics of Finite Element Analysis Lecture 15 - Weak Formulation
Link NOC:Basics of Finite Element Analysis Lecture 16 - Weak Formulation and Weighted Integral : Principle of minimum potential energy
Link NOC:Basics of Finite Element Analysis Lecture 17 - Variational Methods : Rayleigh Ritz Method
Link NOC:Basics of Finite Element Analysis Lecture 18 - Rayleigh Ritz Method
Link NOC:Basics of Finite Element Analysis Lecture 19 - Method of Weighted Residuals
Link NOC:Basics of Finite Element Analysis Lecture 20 - Different types of Weighted Residual Methods - Part I
Link NOC:Basics of Finite Element Analysis Lecture 21 - Different types of Weighted Residual Methods - Part II
Link NOC:Basics of Finite Element Analysis Lecture 22 - FEA formulation for 2nd order BVP - Part I
Link NOC:Basics of Finite Element Analysis Lecture 23 - FEA formulation for 2nd order BVP - Part II
Link NOC:Basics of Finite Element Analysis Lecture 24 - Element Level Equations
Link NOC:Basics of Finite Element Analysis Lecture 25 - 2nd Order Boundary Value Problem
Link NOC:Basics of Finite Element Analysis Lecture 26 - Assembly of element equations
Link NOC:Basics of Finite Element Analysis Lecture 27 - Assembly of element equations and implementation of boundary conditions
Link NOC:Basics of Finite Element Analysis Lecture 28 - Assembly process and the connectivity matrix
Link NOC:Basics of Finite Element Analysis Lecture 29 - Radially Symmetric Problems
Link NOC:Basics of Finite Element Analysis Lecture 30 - One dimensional heat transfer
Link NOC:Basics of Finite Element Analysis Lecture 31 - 1D-Heat conduction with convective effects : examples
Link NOC:Basics of Finite Element Analysis Lecture 32 - Euler-Bernoulli beam
Link NOC:Basics of Finite Element Analysis Lecture 33 - Interpolation functions for Euler-Bernoulli beam
Link NOC:Basics of Finite Element Analysis Lecture 34 - Finite element equations for Euler-Bernoulli beam
Link NOC:Basics of Finite Element Analysis Lecture 35 - Assembly equations for Euler-Bernoulli beam
Link NOC:Basics of Finite Element Analysis Lecture 36 - Boundary conditions for Euler-Bernoulli beam
Link NOC:Basics of Finite Element Analysis Lecture 37 - Shear deformable beams
Link NOC:Basics of Finite Element Analysis Lecture 38 - Finite element formulation for shear deformable beams : Part - I
Link NOC:Basics of Finite Element Analysis Lecture 39 - Finite element formulation for shear deformable beams : Part - II
Link NOC:Basics of Finite Element Analysis Lecture 40 - Equal interpolation but reduced integration element
Link NOC:Basics of Finite Element Analysis Lecture 41 - Eigenvalue problems
Link NOC:Basics of Finite Element Analysis Lecture 42 - Eigenvalue problems : examples
Link NOC:Basics of Finite Element Analysis Lecture 43 - Introduction to time dependent problems
Link NOC:Basics of Finite Element Analysis Lecture 44 - Spatial approximation
Link NOC:Basics of Finite Element Analysis Lecture 45 - Temporal approximation for parabolic problems : Part - I
Link NOC:Basics of Finite Element Analysis Lecture 46 - Temporal approximation for parabolic problems : Part - II
Link NOC:Basics of Finite Element Analysis Lecture 47 - Temporal approximation for hyperbolic problems
Link NOC:Basics of Finite Element Analysis Lecture 48 - Explicit and implicit method, diagonalization of mass matrix, closure
Link NOC:Basics of Noise and Its Measurements Lecture 1 - Introduction
Link NOC:Basics of Noise and Its Measurements Lecture 2 - Vibration versus Waves
Link NOC:Basics of Noise and Its Measurements Lecture 3 - Nature of Sound
Link NOC:Basics of Noise and Its Measurements Lecture 4 - The Decibel Scale
Link NOC:Basics of Noise and Its Measurements Lecture 5 - Some Key Terms
Link NOC:Basics of Noise and Its Measurements Lecture 6 - Adding Decibels
Link NOC:Basics of Noise and Its Measurements Lecture 7 - Modeling Sound Propagation
Link NOC:Basics of Noise and Its Measurements Lecture 8 - The Momentum Equation
Link NOC:Basics of Noise and Its Measurements Lecture 9 - The Continuity Equation and The Gas Law
Link NOC:Basics of Noise and Its Measurements Lecture 10 - 1-D Wave Equation
Link NOC:Basics of Noise and Its Measurements Lecture 11 - General Solution for 1-D Wave Equation
Link NOC:Basics of Noise and Its Measurements Lecture 12 - Complex Time Signal and Transfer Functions
Link NOC:Basics of Noise and Its Measurements Lecture 13 - Transmission line equations
Link NOC:Basics of Noise and Its Measurements Lecture 14 - Planar Waves in Closed Tubes
Link NOC:Basics of Noise and Its Measurements Lecture 15 - Planar Waves in 1-D Open Tubes
Link NOC:Basics of Noise and Its Measurements Lecture 16 - A Semi-Infinite Tube and Overall Summary
Link NOC:Basics of Noise and Its Measurements Lecture 17 - 1-D Tubes with Imperfect Terminations
Link NOC:Basics of Noise and Its Measurements Lecture 18 - Measuring Impedance Through Kundt’s Apparatus
Link NOC:Basics of Noise and Its Measurements Lecture 19 - Classification of Microphones
Link NOC:Basics of Noise and Its Measurements Lecture 20 - Classification of Microphones - Continuation
Link NOC:Basics of Noise and Its Measurements Lecture 21 - Classification of Microphones by Application
Link NOC:Basics of Noise and Its Measurements Lecture 22 - Microphone Sensitivity
Link NOC:Basics of Noise and Its Measurements Lecture 23 - Microphone Sensitivity- Continuation
Link NOC:Basics of Noise and Its Measurements Lecture 24 - Selecting the Right Microphone
Link NOC:Basics of Noise and Its Measurements Lecture 25 - Fourier Series Expansion
Link NOC:Basics of Noise and Its Measurements Lecture 26 - Fourier Series Expansion - Continuation
Link NOC:Basics of Noise and Its Measurements Lecture 27 - Fourier Integral
Link NOC:Basics of Noise and Its Measurements Lecture 28 - Fourier Integral - Continuation
Link NOC:Basics of Noise and Its Measurements Lecture 29 - Fourier Transform
Link NOC:Basics of Noise and Its Measurements Lecture 30 - Fourier Transform - Continuation
Link NOC:Basics of Noise and Its Measurements Lecture 31 - Discrete Fourier Transform (DFT)
Link NOC:Basics of Noise and Its Measurements Lecture 32 - Discrete Fourier Transform (DFT) - Continuation
Link NOC:Basics of Noise and Its Measurements Lecture 33 - DFT - Calculating Frequencies and Padding
Link NOC:Basics of Noise and Its Measurements Lecture 34 - DFT - Influence of Duration and Sampling frequency on resolution
Link NOC:Basics of Noise and Its Measurements Lecture 35 - FFT and Inverse FFT
Link NOC:Basics of Noise and Its Measurements Lecture 36 - Considerations while deciding instrumentation
Link NOC:Basics of Noise and Its Measurements Lecture 37 - Considerations while selecting instruments for noise measurements
Link NOC:Basics of Noise and Its Measurements Lecture 38 - Measuring impedance through two microphone method
Link NOC:Basics of Noise and Its Measurements Lecture 39 - Designing an impedance measurement tube
Link NOC:Basics of Noise and Its Measurements Lecture 40 - Octave band analysis
Link NOC:Basics of Noise and Its Measurements Lecture 41 - Calculating results in octave bands
Link NOC:Basics of Noise and Its Measurements Lecture 42 - Weighting
Link NOC:Basics of Noise and Its Measurements Lecture 43 - Short time Fourier transforms (STFT)
Link NOC:Basics of Noise and Its Measurements Lecture 44 - Spectrograms
Link NOC:Basics of Noise and Its Measurements Lecture 45 - Reverberation time
Link NOC:Basics of Noise and Its Measurements Lecture 46 - Anechoic rooms
Link NOC:Basics of Noise and Its Measurements Lecture 47 - STC, NRC and sound attenuation
Link NOC:Basics of Noise and Its Measurements Lecture 48 - Reverberant rooms
Link NOC:Manufacturing Process Technology - Part I Lecture 1 - Introduction to Manufacturing Process Tecnology
Link NOC:Manufacturing Process Technology - Part I Lecture 2 - Structure of Matter (Bonding of Solids,Crystal Structures)
Link NOC:Manufacturing Process Technology - Part I Lecture 3 - Brief introduction of non-conventional machining processes
Link NOC:Manufacturing Process Technology - Part I Lecture 4 - Structure of matters (bonding of solids, crystal structures)
Link NOC:Manufacturing Process Technology - Part I Lecture 5 - Elastic and Plastic Deformation
Link NOC:Manufacturing Process Technology - Part I Lecture 6 - Crystal imperfaction and dislocation
Link NOC:Manufacturing Process Technology - Part I Lecture 7 - Plastic Deformation
Link NOC:Manufacturing Process Technology - Part I Lecture 8 - Material Properties, Stress Strain Diagram for differnt types of materials
Link NOC:Manufacturing Process Technology - Part I Lecture 9 - Friction and Wear, Solid solutions
Link NOC:Manufacturing Process Technology - Part I Lecture 10 - Equilibrium Phase Diagram
Link NOC:Manufacturing Process Technology - Part I Lecture 11 - Iron-carbon equilibrium phase diagram
Link NOC:Manufacturing Process Technology - Part I Lecture 12 - Control of material properties (Alloying and heat treatment), Mechanical properties and Recrystallization
Link NOC:Manufacturing Process Technology - Part I Lecture 13 - Introduction To Casting Process
Link NOC:Manufacturing Process Technology - Part I Lecture 14 - Pattern and Mold Design
Link NOC:Manufacturing Process Technology - Part I Lecture 15 - Mold Making Procedures
Link NOC:Manufacturing Process Technology - Part I Lecture 16 - Fundamentals of Melting and Furnaces & Pouring and Gating Design
Link NOC:Manufacturing Process Technology - Part I Lecture 17 - Vertical and Bottom Gating Systems Edit Lesson
Link NOC:Manufacturing Process Technology - Part I Lecture 18 - Numerical Estimation To Find Mold Filling Time and Mold Design
Link NOC:Manufacturing Process Technology - Part I Lecture 19 - Effects of friction and velocity distribution in time of filling
Link NOC:Manufacturing Process Technology - Part I Lecture 20 - Numerical design of gating systems using frictional and bending losses
Link NOC:Manufacturing Process Technology - Part I Lecture 21 - Principle of cooling and solidification in single and multiphase systems
Link NOC:Manufacturing Process Technology - Part I Lecture 22 - Estimation of rate of solidification
Link NOC:Manufacturing Process Technology - Part I Lecture 23 - Principles of cooling and solidification of casting
Link NOC:Manufacturing Process Technology - Part I Lecture 24 - Modeling of Solidification Rates of Thin Casting in a Metal Mold
Link NOC:Manufacturing Process Technology - Part I Lecture 25 - Solidification with Predominant Interface Resistance
Link NOC:Manufacturing Process Technology - Part I Lecture 26 - Solidification with Constant Casting Surface Temperature
Link NOC:Manufacturing Process Technology - Part I Lecture 27 - Solidification of Casting with Predominant Resistance in Mold and Solidified Metal
Link NOC:Manufacturing Process Technology - Part I Lecture 28 - Solidification Time for Permanent Mold Casting
Link NOC:Manufacturing Process Technology - Part I Lecture 29 - Solidification with Constant Casting Surface
Link NOC:Manufacturing Process Technology - Part I Lecture 30 - Riser Design and Placement - Part 1
Link NOC:Manufacturing Process Technology - Part I Lecture 31 - Riser Design and Placement - Part 2
Link NOC:Manufacturing Process Technology - Part I Lecture 32 - Riser Design and Placement - Part 3
Link NOC:Manufacturing Process Technology - Part I Lecture 33 - Introduction of Machining Processes
Link NOC:Manufacturing Process Technology - Part I Lecture 34 - Review of Basic Machining Processes and the Mechanics of Chip Formation
Link NOC:Manufacturing Process Technology - Part I Lecture 35 - Estimation of Cutting Ratio and Shear Angle
Link NOC:Manufacturing Process Technology - Part I Lecture 36 - Merchant's Force Analysis
Link NOC:Manufacturing Process Technology - Part I Lecture 37 - Merchant Theory (Cutting Forces Analysis)
Link NOC:Manufacturing Process Technology - Part I Lecture 38 - Merchant Theory (Force analysis) Part-2
Link NOC:Manufacturing Process Technology - Part I Lecture 39 - Lee Shaffer's Solution
Link NOC:Manufacturing Process Technology - Part I Lecture 40 - Specific Energy Model for Cutting
Link NOC:Manufacturing Process Technology - Part I Lecture 41 - Modeling of Heat Generation and Cutting Tool Temperature
Link NOC:Manufacturing Process Technology - Part I Lecture 42 - Temperature in Cutting and Builtup Edge Formation
Link NOC:Manufacturing Process Technology - Part I Lecture 43 - Metal Cutting Operation
Link NOC:Manufacturing Process Technology - Part I Lecture 44 - Tool life and Tool wear
Link NOC:Manufacturing Process Technology - Part I Lecture 45 - Economics of Machining
Link NOC:Manufacturing Process Technology - Part I Lecture 46 - Joining Process
Link NOC:Manufacturing Process Technology - Part I Lecture 47 - Principle of Solid State Welding
Link NOC:Manufacturing Process Technology - Part I Lecture 48 - Numerical Design of Welding Power Sources in Arc Welding
Link NOC:Nature and Property of Materials Lecture 1 - History and Evolution of Materials
Link NOC:Nature and Property of Materials Lecture 2 - Classification of Materials
Link NOC:Nature and Property of Materials Lecture 3 - Advanced and Exotic Materials
Link NOC:Nature and Property of Materials Lecture 4 - Mechanical Properties of Materials - I
Link NOC:Nature and Property of Materials Lecture 5 - Mechanical Properties of Materials - II
Link NOC:Nature and Property of Materials Lecture 6 - Mechanical Properties of Materials - III
Link NOC:Nature and Property of Materials Lecture 7 - Bonding between atoms
Link NOC:Nature and Property of Materials Lecture 8 - The Role of Crystal Structure - I
Link NOC:Nature and Property of Materials Lecture 9 - The Role of Crystal Structure - II
Link NOC:Nature and Property of Materials Lecture 10 - The Role of Crystal Structure - III
Link NOC:Nature and Property of Materials Lecture 11 - Metals - I (Ferrous alloys)
Link NOC:Nature and Property of Materials Lecture 12 - Metals - II (Non-Ferrous alloys)
Link NOC:Nature and Property of Materials Lecture 13 - Metals - III (Strengthening and Degradation)
Link NOC:Nature and Property of Materials Lecture 14 - Ceramics - I
Link NOC:Nature and Property of Materials Lecture 15 - Ceramics - II
Link NOC:Nature and Property of Materials Lecture 16 - Polymers : Introduction and Classification
Link NOC:Nature and Property of Materials Lecture 17 - Polymeric Structure
Link NOC:Nature and Property of Materials Lecture 18 - Effects of Glass transition temperature
Link NOC:Nature and Property of Materials Lecture 19 - Polymer Mechanical properties
Link NOC:Nature and Property of Materials Lecture 20 - Composites - I
Link NOC:Nature and Property of Materials Lecture 21 - Composites - II
Link NOC:Nature and Property of Materials Lecture 22 - Composites - III
Link NOC:Nature and Property of Materials Lecture 23 - Smart Materials - I (Introduction)
Link NOC:Nature and Property of Materials Lecture 24 - Smart Materials - II (Piezoelectricity)
Link NOC:Nature and Property of Materials Lecture 25 - Smart Materials - III (Magnetostriction)
Link NOC:Nature and Property of Materials Lecture 26 - Smart Materials - IV (Smart Polymers)
Link NOC:Nature and Property of Materials Lecture 27 - Smart Materials - V (SMA)
Link NOC:Nature and Property of Materials Lecture 28 - Materials Selection in Engineering Design
Link NOC:Nature and Property of Materials Lecture 29 - Numerical: Cantilever beam (High stiffness and light weight)
Link NOC:Nature and Property of Materials Lecture 30 - Numerical: Cantilever beam (High strength and light weight)
Link NOC:Nature and Property of Materials Lecture 31 - Numerical: Connecting rod
Link NOC:Nature and Property of Materials Lecture 32 - Numerical: Probe for scanning probe microscope
Link NOC:Nature and Property of Materials Lecture 33 - Optical Properties
Link NOC:Nature and Property of Materials Lecture 34 - Optical Fiber
Link NOC:Nature and Property of Materials Lecture 35 - Thermal Properties
Link NOC:Nature and Property of Materials Lecture 36 - Numerical: Material selection for Heat exchanger
Link NOC:Nature and Property of Materials Lecture 37 - Electric Properties - I
Link NOC:Nature and Property of Materials Lecture 38 - Electric Properties - II
Link NOC:Nature and Property of Materials Lecture 39 - Magnetic Properties
Link NOC:Nature and Property of Materials Lecture 40 - Laboratory demonstration
Link NOC:Manufacturing Process Technology - Part II Lecture 1 - Introduction to Advanced Machining Processes
Link NOC:Manufacturing Process Technology - Part II Lecture 2 - Classification of Machining Processes
Link NOC:Manufacturing Process Technology - Part II Lecture 3 - Silicon growth and Crystallography
Link NOC:Manufacturing Process Technology - Part II Lecture 4 - Micro Fabrication Technology
Link NOC:Manufacturing Process Technology - Part II Lecture 5 - Photolithography
Link NOC:Manufacturing Process Technology - Part II Lecture 6 - Soft Lithography
Link NOC:Manufacturing Process Technology - Part II Lecture 7 - Introduction to Wet Etching Techniques
Link NOC:Manufacturing Process Technology - Part II Lecture 8 - Introduction to Dry Etching Techniques
Link NOC:Manufacturing Process Technology - Part II Lecture 9 - Introduction of Additive Techniques
Link NOC:Manufacturing Process Technology - Part II Lecture 10 - Introduction to Abrasive Jet Machining Process
Link NOC:Manufacturing Process Technology - Part II Lecture 11 - Ultrasonic Machining Process
Link NOC:Manufacturing Process Technology - Part II Lecture 12 - Determination of MRR of Ultrasonic Machining Process
Link NOC:Manufacturing Process Technology - Part II Lecture 13 - Mechanics of Ultrasonic Machining (USM)
Link NOC:Manufacturing Process Technology - Part II Lecture 14 - Effect of Process parameters of USM
Link NOC:Manufacturing Process Technology - Part II Lecture 15 - Ultrasonic Machining Unit
Link NOC:Manufacturing Process Technology - Part II Lecture 16 - Electrochemical Machining Processes (ECM)
Link NOC:Manufacturing Process Technology - Part II Lecture 17 - Material Removal Rate of ECM
Link NOC:Manufacturing Process Technology - Part II Lecture 18 - Electrode Double Layer
Link NOC:Manufacturing Process Technology - Part II Lecture 19 - Material removal rate of an alloy in ECM
Link NOC:Manufacturing Process Technology - Part II Lecture 20 - Kinematics and Dynamics of ECM
Link NOC:Manufacturing Process Technology - Part II Lecture 21 - Temperature and Pressure rise during ECM
Link NOC:Manufacturing Process Technology - Part II Lecture 22 - Determination of Electrolyte flow velocity in ECM
Link NOC:Manufacturing Process Technology - Part II Lecture 23 - Effect of heat and Hydrogen bubble generation during ECM Process
Link NOC:Manufacturing Process Technology - Part II Lecture 24 - Theoretical determination of Tool shape
Link NOC:Manufacturing Process Technology - Part II Lecture 25 - Design for Electrolyte flow in ECM
Link NOC:Manufacturing Process Technology - Part II Lecture 26 - Introductions of Electro-chemical Drilling Process
Link NOC:Manufacturing Process Technology - Part II Lecture 27 - Introduction to Finishing Process
Link NOC:Manufacturing Process Technology - Part II Lecture 28 - Electric Discharge Machining Process
Link NOC:Manufacturing Process Technology - Part II Lecture 29 - EDM part-2
Link NOC:Manufacturing Process Technology - Part II Lecture 30 - Effect of various process parameters on EDM process
Link NOC:Manufacturing Process Technology - Part II Lecture 31 - Analysis of RC circuit for EDM
Link NOC:Manufacturing Process Technology - Part II Lecture 32 - Electrodischarge machining sytem
Link NOC:Manufacturing Process Technology - Part II Lecture 33 - Effect of various parameters on EDM Process
Link NOC:Manufacturing Process Technology - Part II Lecture 34 - Tool Electrodes and Dielectric fluids and Electron Beam Machining
Link NOC:Manufacturing Process Technology - Part II Lecture 35 - Mechanics of Electron Beam Machining Process
Link NOC:Manufacturing Process Technology - Part II Lecture 36 - Functional Characteristics of EBM Process Edit Lesson
Link NOC:Manufacturing Process Technology - Part II Lecture 37 - Introduction of Laser Beam Machining Process
Link NOC:Manufacturing Process Technology - Part II Lecture 38 - Material removal rate of LBM
Link NOC:Manufacturing Process Technology - Part II Lecture 39 - Heat conduction and Temperature rise during LBM
Link NOC:Manufacturing Process Technology - Part II Lecture 40 - Modelling of LBM processes
Link NOC:Manufacturing Process Technology - Part II Lecture 41 - Metal forming Processes Edit Lesson
Link NOC:Manufacturing Process Technology - Part II Lecture 42 - Yield Criterion used in Metal Forming Processes Edit Lesson
Link NOC:Manufacturing Process Technology - Part II Lecture 43 - Concept of Principal stress, strain
Link NOC:Manufacturing Process Technology - Part II Lecture 44 - Trescas' Yield criteria and Rolling Process
Link NOC:Manufacturing Process Technology - Part II Lecture 45 - Rolling Processes - Part 1
Link NOC:Manufacturing Process Technology - Part II Lecture 46 - Rolling Processes - Part 2
Link NOC:Manufacturing Process Technology - Part II Lecture 47 - Additive Manufacturing Processes
Link NOC:Manufacturing Process Technology - Part II Lecture 48 - Fused Deposition Modeling Process
Link NOC:Basics of Finite Element Analysis - II Lecture 1 - Overview of the Course
Link NOC:Basics of Finite Element Analysis - II Lecture 2 - Fundamental principles
Link NOC:Basics of Finite Element Analysis - II Lecture 3 - Steps followed in FEA
Link NOC:Basics of Finite Element Analysis - II Lecture 4 - Weak Formulation
Link NOC:Basics of Finite Element Analysis - II Lecture 5 - Weak Formulation : Example Problem
Link NOC:Basics of Finite Element Analysis - II Lecture 6 - Assembling element level equations
Link NOC:Basics of Finite Element Analysis - II Lecture 7 - Errors in FEA Solution
Link NOC:Basics of Finite Element Analysis - II Lecture 8 - Measures of Errors in FEA Solution
Link NOC:Basics of Finite Element Analysis - II Lecture 9 - Convergence and Accuracy of Solution - Part I
Link NOC:Basics of Finite Element Analysis - II Lecture 10 - Convergence and Accuracy of Solution - Part II
Link NOC:Basics of Finite Element Analysis - II Lecture 11 - Convergence - Part I
Link NOC:Basics of Finite Element Analysis - II Lecture 12 - Convergence - Part II
Link NOC:Basics of Finite Element Analysis - II Lecture 13 - Numerical Integration Schemes - Part I
Link NOC:Basics of Finite Element Analysis - II Lecture 14 - Numerical Integration Schemes - Part II
Link NOC:Basics of Finite Element Analysis - II Lecture 15 - Approximations - Part I
Link NOC:Basics of Finite Element Analysis - II Lecture 16 - Approximations - Part II
Link NOC:Basics of Finite Element Analysis - II Lecture 17 - Approximations - Part III
Link NOC:Basics of Finite Element Analysis - II Lecture 18 - Gauss Quadrature
Link NOC:Basics of Finite Element Analysis - II Lecture 19 - Gaussian Quadrature review
Link NOC:Basics of Finite Element Analysis - II Lecture 20 - Gaussian Quadrature - Part II
Link NOC:Basics of Finite Element Analysis - II Lecture 21 - Gaussian Quadrature - Part III
Link NOC:Basics of Finite Element Analysis - II Lecture 22 - Newton-Cotes Quadrature
Link NOC:Basics of Finite Element Analysis - II Lecture 23 - Two dimensional FEM problem
Link NOC:Basics of Finite Element Analysis - II Lecture 24 - Two dimensional one variable FEM problem
Link NOC:Basics of Finite Element Analysis - II Lecture 25 - 2D Finite element problems with single variable (Model equation)
Link NOC:Basics of Finite Element Analysis - II Lecture 26 - 2D Finite element problems with single variable (Weak formulation)
Link NOC:Basics of Finite Element Analysis - II Lecture 27 - Elemental level 2D finite element equations
Link NOC:Basics of Finite Element Analysis - II Lecture 28 - Interpolation functions for 2D finite element problems
Link NOC:Basics of Finite Element Analysis - II Lecture 29 - Interpolation functions for linear triangular elements - Part I
Link NOC:Basics of Finite Element Analysis - II Lecture 30 - Interpolation functions for linear triangular elements - Part II
Link NOC:Basics of Finite Element Analysis - II Lecture 31 - Interpolation functions for Triangular and Rectangular elements
Link NOC:Basics of Finite Element Analysis - II Lecture 32 - Evaluation of Stiffness and Force matrices
Link NOC:Basics of Finite Element Analysis - II Lecture 33 - Stiffness and Force matrices for Triangular element
Link NOC:Basics of Finite Element Analysis - II Lecture 34 - Stiffness and Force matrices for Rectangular element
Link NOC:Basics of Finite Element Analysis - II Lecture 35 - Boundary elements for Finite element Equations
Link NOC:Basics of Finite Element Analysis - II Lecture 36 - Boundary integrals for Triangular element
Link NOC:Basics of Finite Element Analysis - II Lecture 37 - Assembly of 2-D finite elements - Part I
Link NOC:Basics of Finite Element Analysis - II Lecture 38 - Assembly of 2-D finite elements - Part II
Link NOC:Basics of Finite Element Analysis - II Lecture 39 - 2-D Heat transfer problems - Part I
Link NOC:Basics of Finite Element Analysis - II Lecture 40 - 2-D Heat transfer problems - Part II
Link NOC:Basics of Finite Element Analysis - II Lecture 41 - Numerical integration schemes for 2-D problems
Link NOC:Basics of Finite Element Analysis - II Lecture 42 - Jacobian and transformation matrix for 2-D problems
Link NOC:Basics of Finite Element Analysis - II Lecture 43 - Numerical Integration Schemes for 2-D Problems : Closure
Link NOC:Basics of Finite Element Analysis - II Lecture 44 - Post-processing
Link NOC:Basics of Finite Element Analysis - II Lecture 45 - Plane Elasticity Problems
Link NOC:Basics of Finite Element Analysis - II Lecture 46 - Plane Elasticity Problems : Development of Weak form
Link NOC:Basics of Finite Element Analysis - II Lecture 47 - Plane Elasticity Problems : Element level equations
Link NOC:Basics of Finite Element Analysis - II Lecture 48 - Plane Elasticity Problems : Closure
Link NOC:Principles of Vibration Control Lecture 1 - Introduction to Vibration control
Link NOC:Principles of Vibration Control Lecture 2 - Strategies and Steps in Vibration Control
Link NOC:Principles of Vibration Control Lecture 3 - Strategies, Active control, Detuning and Decoupling
Link NOC:Principles of Vibration Control Lecture 4 - Viscous damping model
Link NOC:Principles of Vibration Control Lecture 5 - Coulomb and Hysteretic damping model
Link NOC:Principles of Vibration Control Lecture 6 - Energy Dissipation in Structural Materials
Link NOC:Principles of Vibration Control Lecture 7 - Material Selection Criterion against Damping
Link NOC:Principles of Vibration Control Lecture 8 - Design for Enhanced Material Damping
Link NOC:Principles of Vibration Control Lecture 9 - Linear Viscoelastic Materials and Models
Link NOC:Principles of Vibration Control Lecture 10 - Maxwell and 3-Parameter Models
Link NOC:Principles of Vibration Control Lecture 11 - Complex modulus and Applications of VEM
Link NOC:Principles of Vibration Control Lecture 12 - Basics of Dynamic Vibration Absorber
Link NOC:Principles of Vibration Control Lecture 13 - Modelling of Dynamic Vibration Absorber
Link NOC:Principles of Vibration Control Lecture 14 - Proof mass Actuator
Link NOC:Principles of Vibration Control Lecture 15 - Springs for Vibration Isolation
Link NOC:Principles of Vibration Control Lecture 16 - Introduction to Active Vibration Control
Link NOC:Principles of Vibration Control Lecture 17 - Basics of Classical Control System
Link NOC:Principles of Vibration Control Lecture 18 - Basics of State Space Control
Link NOC:Principles of Vibration Control Lecture 19 - Controllability and Observability of System
Link NOC:Principles of Vibration Control Lecture 20 - Full State Feedback Control
Link NOC:Principles of Vibration Control Lecture 21 - SMSS Laboratory Demonstration
Link NOC:Fundamentals of Acoustics Lecture 1 - Lesson 1 - Course Overview
Link NOC:Fundamentals of Acoustics Lecture 2 - Lesson 2 - Introduction
Link NOC:Fundamentals of Acoustics Lecture 3 - Lesson 3 - Nature Of Sound
Link NOC:Fundamentals of Acoustics Lecture 4 - Lesson 4 - The Decibel scale
Link NOC:Fundamentals of Acoustics Lecture 5 - Lesson 5 - Key Terms In Acoustics
Link NOC:Fundamentals of Acoustics Lecture 6 - Lesson 6 - Adding Decibels
Link NOC:Fundamentals of Acoustics Lecture 7 - Lesson 1 - Important Mathematical Concepts-Complex Algebra
Link NOC:Fundamentals of Acoustics Lecture 8 - Lesson 2 - Important Mathematical Concepts-Complex Time Signals
Link NOC:Fundamentals of Acoustics Lecture 9 - Lesson 3 - Important Mathematical Concepts-Transfer Function
Link NOC:Fundamentals of Acoustics Lecture 10 - Lesson 4 - Important Mathematical Concepts-Pole Zero Plot
Link NOC:Fundamentals of Acoustics Lecture 11 - Lesson 5 - Important Mathematical Concepts - Bode Plot For Simple Pole
Link NOC:Fundamentals of Acoustics Lecture 12 - Lesson 6 - Important Mathematical Concepts - Bode Plot For Simple Zero
Link NOC:Fundamentals of Acoustics Lecture 13 - Lesson 1 - Bode Plots (Magnitude) for Complex Transfer Functions
Link NOC:Fundamentals of Acoustics Lecture 14 - Lesson 2 - Momentum Equation for 1-D Sound Propagation
Link NOC:Fundamentals of Acoustics Lecture 15 - Lesson 3 - Continuity Equation for 1-D Sound Propagation
Link NOC:Fundamentals of Acoustics Lecture 16 - Lesson 4 - Gas Law for 1-D Sound Propagation
Link NOC:Fundamentals of Acoustics Lecture 17 - Lesson 5 - 1-D Wave Equation
Link NOC:Fundamentals of Acoustics Lecture 18 - Lesson 6 - Solution for 1-D Wave Equation
Link NOC:Fundamentals of Acoustics Lecture 19 - Lesson 1 - Waveguide
Link NOC:Fundamentals of Acoustics Lecture 20 - Lesson 2 - Transmission Line Equations - Part I
Link NOC:Fundamentals of Acoustics Lecture 21 - Lesson 3 - Transmission Line Equations - Part II
Link NOC:Fundamentals of Acoustics Lecture 22 - Lesson 4 - Transmission Line Equations - Part III
Link NOC:Fundamentals of Acoustics Lecture 23 - Lesson 5 - Transmission Line Equations - Part IV
Link NOC:Fundamentals of Acoustics Lecture 24 - Lesson 6 - Transmission Line Equations - Part V
Link NOC:Fundamentals of Acoustics Lecture 25 - Lesson 1 - Instantaneous Power
Link NOC:Fundamentals of Acoustics Lecture 26 - Lesson 2 - Instantaneous Power in a L-R Circuit
Link NOC:Fundamentals of Acoustics Lecture 27 - Lesson 3 - Power Factor, and Acoustic Power
Link NOC:Fundamentals of Acoustics Lecture 28 - Lesson 4 - Power Flow into an Infinitely Long Tube
Link NOC:Fundamentals of Acoustics Lecture 29 - Lesson 5 - Point Sources of Sound
Link NOC:Fundamentals of Acoustics Lecture 30 - Lesson 6 - Relations for Outward Travelling Spherical Acoustic Wave
Link NOC:Fundamentals of Acoustics Lecture 31 - Lesson 1 - Specific Acoustic Impedance for a Closed Tube
Link NOC:Fundamentals of Acoustics Lecture 32 - Lesson 2 - Specific Acoustic Impedance for an Open Tube and an Infinitely Long Tube
Link NOC:Fundamentals of Acoustics Lecture 33 - Lesson 3 - Specific Acoustic Impedance for a Tube with Imperfect Termination
Link NOC:Fundamentals of Acoustics Lecture 34 - Lesson 4 - Kundt’s Tube
Link NOC:Fundamentals of Acoustics Lecture 35 - Lesson 5 - Volume Velocity
Link NOC:Fundamentals of Acoustics Lecture 36 - Lesson 6 - Comparison of Impedances for a Radially Propagating Wave and a Planar Wave
Link NOC:Fundamentals of Acoustics Lecture 37 - Lesson 1 - Interference of sound sources - Part I
Link NOC:Fundamentals of Acoustics Lecture 38 - Lesson 2 - Interference of sound sources - Part II
Link NOC:Fundamentals of Acoustics Lecture 39 - Lesson 3 - Interference of sound sources - Part III
Link NOC:Fundamentals of Acoustics Lecture 40 - Lesson 4 - Interference of sound sources - Part IV
Link NOC:Fundamentals of Acoustics Lecture 41 - Lesson 5 - Directivity
Link NOC:Fundamentals of Acoustics Lecture 42 - Lesson 6 - Complex power, pressure and velocity for a spherical source
Link NOC:Fundamentals of Acoustics Lecture 43 - Lesson 1 - Noise reduction - Mass Attenuation Method
Link NOC:Fundamentals of Acoustics Lecture 44 - Lesson 2 - Noise Reduction - Pressure Ratio
Link NOC:Fundamentals of Acoustics Lecture 45 - Lesson 3 - Noise Reduction - Velocity of Wall
Link NOC:Fundamentals of Acoustics Lecture 46 - Lesson 4 - 3 Media Problem - Introduction
Link NOC:Fundamentals of Acoustics Lecture 47 - Lesson 5 - 3 Media Problem - Apply Boundary Conditions
Link NOC:Fundamentals of Acoustics Lecture 48 - Lesson 6 - 3 Media Problem - Special cases
Link NOC:Fundamentals of Acoustics Lecture 49 - Lesson 1 - Mufflers
Link NOC:Fundamentals of Acoustics Lecture 50 - Lesson 2 - Designing of Reactive Mufflers
Link NOC:Fundamentals of Acoustics Lecture 51 - Lesson 3 - Designing of Dissipative Mufflers
Link NOC:Fundamentals of Acoustics Lecture 52 - Lesson 4 - Time and Frequency Domain Representation of a Signal
Link NOC:Fundamentals of Acoustics Lecture 53 - Lesson 5 - Fourier Series
Link NOC:Fundamentals of Acoustics Lecture 54 - Lesson 6 - Fourier Series
Link NOC:Fundamentals of Acoustics Lecture 55 - Lesson 1 - Fourier Transform
Link NOC:Fundamentals of Acoustics Lecture 56 - Lesson 2 - Fourier Transform
Link NOC:Fundamentals of Acoustics Lecture 57 - Lesson 3 - Fourier Transform
Link NOC:Fundamentals of Acoustics Lecture 58 - Lesson 4 - Discrete Fourier Transform (DFT)
Link NOC:Fundamentals of Acoustics Lecture 59 - Lesson 5 - Discrete Fourier Transform (DFT)
Link NOC:Fundamentals of Acoustics Lecture 60 - Lesson 6 - Discrete Fourier Transform (DFT)
Link NOC:Fundamentals of Acoustics Lecture 61 - Lesson 1 - Measuring Sound Signals
Link NOC:Fundamentals of Acoustics Lecture 62 - Lesson 2 - Microphones
Link NOC:Fundamentals of Acoustics Lecture 63 - Lesson 3 - Microphones
Link NOC:Fundamentals of Acoustics Lecture 64 - Lesson 4 - Weighting
Link NOC:Fundamentals of Acoustics Lecture 65 - Lesson 5 - Loudness
Link NOC:Fundamentals of Acoustics Lecture 66 - Lesson 6 - Loudness
Link NOC:Fundamentals of Acoustics Lecture 67 - Lesson 1 - Octave Band Analysis - Part I
Link NOC:Fundamentals of Acoustics Lecture 68 - Lesson 2 - Octave Band Analysis – Part II
Link NOC:Fundamentals of Acoustics Lecture 69 - Lesson 3 - Octave Band Analysis – Part III
Link NOC:Fundamentals of Acoustics Lecture 70 - Lesson 4 - Reverberation Time
Link NOC:Fundamentals of Acoustics Lecture 71 - Lesson 5 - Calculation of Reverberation Time and Sound Transmission Class (STC)
Link NOC:Fundamentals of Acoustics Lecture 72 - Lesson 6 - Noise Reduction Coefficient (NRC)
Link NOC:Heat Treatment and Surface Hardening - II Lecture 1 - Recap - I
Link NOC:Heat Treatment and Surface Hardening - II Lecture 2 - Recap - II
Link NOC:Heat Treatment and Surface Hardening - II Lecture 3 - Recap - III
Link NOC:Heat Treatment and Surface Hardening - II Lecture 4 - Determination of Phase Diagram (Experimentally) - I
Link NOC:Heat Treatment and Surface Hardening - II Lecture 5 - Determination of Phase Diagram (Experimentally) - II
Link NOC:Heat Treatment and Surface Hardening - II Lecture 6 - Determination of Phase Diagram (Thermodynamically)
Link NOC:Heat Treatment and Surface Hardening - II Lecture 7 - Effect of pressure on phase transformation temperature and concept of equilibrium between condensed and vapor phase
Link NOC:Heat Treatment and Surface Hardening - II Lecture 8 - Effect of different parameters on heat treatment and concept of saturation vapor pressure with examples
Link NOC:Heat Treatment and Surface Hardening - II Lecture 9 - Title: Formation of ideal solid or liquid solution and (G-X) diagrams for ideal solutions (Part-I)
Link NOC:Heat Treatment and Surface Hardening - II Lecture 10 - G-X diagrams (Part- II) and concept of chemical potential (Micro Sign) from G-X diagrams.
Link NOC:Heat Treatment and Surface Hardening - II Lecture 11 - Concept of common tangent for equilibrium between two phases
Link NOC:Heat Treatment and Surface Hardening - II Lecture 12 - Expressions for equilibrium of two phases - I
Link NOC:Heat Treatment and Surface Hardening - II Lecture 13 - Expressions for equilibrium of two phases - II
Link NOC:Heat Treatment and Surface Hardening - II Lecture 14 - Expressions for equilibrium of two phases - III
Link NOC:Heat Treatment and Surface Hardening - II Lecture 15 - Determining nucleation of phases using G-X plot
Link NOC:Heat Treatment and Surface Hardening - II Lecture 16 - ΔG for nucleation and overall transformation, concepts of solid state transformation including precipitation and Quasi-Chemical Model (QCM)
Link NOC:Heat Treatment and Surface Hardening - II Lecture 17 - Introduction to real solutions and expression of ΔHmix based on the Quasi-Chemical Model (QCM)
Link NOC:Heat Treatment and Surface Hardening - II Lecture 18 - Expression for ΔHmix as a function of interaction energy and mole fraction, based on the QCM - Part I
Link NOC:Heat Treatment and Surface Hardening - II Lecture 19 - Expression for ΔHmix as a function of interaction energy and mole fraction, based on the QCM - Part II
Link NOC:Heat Treatment and Surface Hardening - II Lecture 20 - Graphical representation of ΔGmix, ΔHmix, and -TΔSmix for real solutions and evolution of eutectic phase diagram from the G-X plots
Link NOC:Heat Treatment and Surface Hardening - II Lecture 21 - Effect of ΔHmix on determination of phase diagrams (same crystal structure)
Link NOC:Heat Treatment and Surface Hardening - II Lecture 22 - Effect of ΔHmix on determination of phase diagrams (Continued...)
Link NOC:Heat Treatment and Surface Hardening - II Lecture 23 - Importance of phase diagrams
Link NOC:Heat Treatment and Surface Hardening - II Lecture 24 - Effect of heat treatment on microstructure evolution in steel - I
Link NOC:Heat Treatment and Surface Hardening - II Lecture 25 - Effect of heat treatment on microstructure evolution in steel - II
Link NOC:Heat Treatment and Surface Hardening - II Lecture 26 - Recap of homogeneous and heterogeneous nucleation for solid to solid transformation
Link NOC:Heat Treatment and Surface Hardening - II Lecture 27 - Nucleation rate and its dependence on T (temp. of interest), ΔT, ΔG v and ΔG* and, introduction to growth kinetics
Link NOC:Heat Treatment and Surface Hardening - II Lecture 28 - Growth kinetics (Continued...)
Link NOC:Heat Treatment and Surface Hardening - II Lecture 29 - Growth rate variation with undercooling and kinetics of overall phase transformation
Link NOC:Heat Treatment and Surface Hardening - II Lecture 30 - Implication of Avrami’s equation with example on excel spreadsheet
Link NOC:Heat Treatment and Surface Hardening - II Lecture 31 - Experimental verification of Avrami Equation
Link NOC:Heat Treatment and Surface Hardening - II Lecture 32 - Linear regression (least squares) method to find the value of n and k in Avrami equation
Link NOC:Heat Treatment and Surface Hardening - II Lecture 33 - In this lecture, method to determine the goodness of fit has been explained. Procedure to estimate the values of n and k from experimental data have also been discussed.
Link NOC:Heat Treatment and Surface Hardening - II Lecture 34 - Stereology and quantitative metallography - I
Link NOC:Heat Treatment and Surface Hardening - II Lecture 35 - Stereology and quantitative metallography - II
Link NOC:Heat Treatment and Surface Hardening - II Lecture 36 - Grain size measurements methods
Link NOC:Heat Treatment and Surface Hardening - II Lecture 37 - Statistical tools for analysis and reporting of obtained data with examples
Link NOC:Heat Treatment and Surface Hardening - II Lecture 38 - Evolution of TTT and CCT diagram from f vs. t plots
Link NOC:Heat Treatment and Surface Hardening - II Lecture 39 - TTT, CCT continue and hardenability of steel
Link NOC:Heat Treatment and Surface Hardening - II Lecture 40 - Importance of heat treatment practices in real life (with examples)
Link NOC:Phase Transformation in Materials Lecture 1 - Brief Introduction
Link NOC:Phase Transformation in Materials Lecture 2 - Define Phase, Equilibrium
Link NOC:Phase Transformation in Materials Lecture 3 - Free Energy, Stability of Phases
Link NOC:Phase Transformation in Materials Lecture 4 - Gibbs Free Energy of Binary Solution
Link NOC:Phase Transformation in Materials Lecture 5 - Ideal Solution and Chemical Potential
Link NOC:Phase Transformation in Materials Lecture 6 - Thermodynamics of solid solutions
Link NOC:Phase Transformation in Materials Lecture 7 - G vs X curves
Link NOC:Phase Transformation in Materials Lecture 8 - Solid solutions: Types
Link NOC:Phase Transformation in Materials Lecture 9 - Heterogeneous phase equilibria
Link NOC:Phase Transformation in Materials Lecture 10 - G vs X curves for eutectic system
Link NOC:Phase Transformation in Materials Lecture 11 - G-X plot for peritectic system
Link NOC:Phase Transformation in Materials Lecture 12 - Effect of temperature of solid solubility, Influence of interfaces on Equilibrium
Link NOC:Phase Transformation in Materials Lecture 13 - Introduction of Diffusion
Link NOC:Phase Transformation in Materials Lecture 14 - Mechanism of Diffusion, Fick's I law
Link NOC:Phase Transformation in Materials Lecture 15 - Fick's II law
Link NOC:Phase Transformation in Materials Lecture 16 - Fick's II law (Continued...), Diffusion and Temperature
Link NOC:Phase Transformation in Materials Lecture 17 - Interfacial Free Energy,Solid/Vapor Interface
Link NOC:Phase Transformation in Materials Lecture 18 - Boundaries in single phase solids
Link NOC:Phase Transformation in Materials Lecture 19 - High angle grain boundaries, Equilibrium in poly-crystalline materials, Interphase interfaces in solids
Link NOC:Phase Transformation in Materials Lecture 20 - Interphase interfaces in solids (Continued...)
Link NOC:Phase Transformation in Materials Lecture 21 - CSL Boundaries
Link NOC:Phase Transformation in Materials Lecture 22 - Types of Nucleations
Link NOC:Phase Transformation in Materials Lecture 23 - Homogeneous Nucleation
Link NOC:Phase Transformation in Materials Lecture 24 - Homogeneous Nucleation (Continued...)
Link NOC:Phase Transformation in Materials Lecture 25 - Heterogeneous Nucleation
Link NOC:Phase Transformation in Materials Lecture 26 - Heterogeneous nucleation (Continued...)
Link NOC:Phase Transformation in Materials Lecture 27 - Growth
Link NOC:Phase Transformation in Materials Lecture 28 - Atomic mechanism of growth
Link NOC:Phase Transformation in Materials Lecture 29 - Dendritic Solidification
Link NOC:Phase Transformation in Materials Lecture 30 - Growth rate for dendrite formation
Link NOC:Phase Transformation in Materials Lecture 31 - Alloy solidification
Link NOC:Phase Transformation in Materials Lecture 32 - Alloy solidification (Continued...)
Link NOC:Phase Transformation in Materials Lecture 33 - Eutectic: Solidification
Link NOC:Phase Transformation in Materials Lecture 34 - Eutectic: solidification (Continued...)
Link NOC:Phase Transformation in Materials Lecture 35 - Solidification of casting / ingot
Link NOC:Phase Transformation in Materials Lecture 36 - Precipitation hardenable alloy
Link NOC:Phase Transformation in Materials Lecture 37 - Precipitation age- hardening alloy (Continued...)
Link NOC:Phase Transformation in Materials Lecture 38 - Age hardening alloy
Link NOC:Phase Transformation in Materials Lecture 39 - Eutectoid transformation
Link NOC:Phase Transformation in Materials Lecture 40 - Eutectoid transformation (Continued....)
Link NOC:Phase Transformation in Materials Lecture 41 - Eutectoid transformation in steel (Continued...)
Link NOC:Phase Transformation in Materials Lecture 42 - Martensite
Link NOC:Phase Transformation in Materials Lecture 43 - Martensite (Continued...)
Link NOC:Phase Transformation in Materials Lecture 44 - Martensite (Continued...) and TTT curves
Link NOC:Phase Transformation in Materials Lecture 45 - TTT diagram
Link NOC:Phase Transformation in Materials Lecture 46 - Recovery, Recrystallization and Grain growth
Link NOC:Phase Transformation in Materials Lecture 47 - Recovery
Link NOC:Phase Transformation in Materials Lecture 48 - Recrystallization
Link NOC:Phase Transformation in Materials Lecture 49 - Recrystallization (Continued...)
Link NOC:Phase Transformation in Materials Lecture 50 - Introduction to spinodal decomposition
Link NOC:Manufacturing of Composites Lecture 1 - Introduction to Composites
Link NOC:Manufacturing of Composites Lecture 2 - Matrices
Link NOC:Manufacturing of Composites Lecture 3 - Fiber reinforcements
Link NOC:Manufacturing of Composites Lecture 4 - Fiber reinforcements (Continued...)
Link NOC:Manufacturing of Composites Lecture 5 - Composites properties
Link NOC:Manufacturing of Composites Lecture 6 - Composites testing
Link NOC:Manufacturing of Composites Lecture 7 - Selection of material
Link NOC:Manufacturing of Composites Lecture 8 - Selection of material (Continued...)
Link NOC:Manufacturing of Composites Lecture 9 - Design for Manufacturing
Link NOC:Manufacturing of Composites Lecture 10 - Design for Manufacturing (Continued...)
Link NOC:Manufacturing of Composites Lecture 11 - Composite Manufacturing Processes
Link NOC:Manufacturing of Composites Lecture 12 - Filament winding Processes
Link NOC:Manufacturing of Composites Lecture 13 - Resin transfer moulding
Link NOC:Manufacturing of Composites Lecture 14 - Pultrusion
Link NOC:Manufacturing of Composites Lecture 15 - Compression Moulding Process
Link NOC:Manufacturing of Composites Lecture 16 - Vacuum Impregnation Methods
Link NOC:Manufacturing of Composites Lecture 17 - Stacking of Composites
Link NOC:Manufacturing of Composites Lecture 18 - Thermoplastic Composites Manufacturing Processes - Part 1
Link NOC:Manufacturing of Composites Lecture 19 - Thermoplastic Composites Manufacturing Processes - Part 2 (Continued...)
Link NOC:Manufacturing of Composites Lecture 20 - Non-destructive testing methods for composite materials
Link NOC:Manufacturing of Composites Lecture 21 - Metal Matrix Composites
Link NOC:Manufacturing of Composites Lecture 22 - Metal Matrix Composites applications (Continued...)
Link NOC:Manufacturing of Composites Lecture 23 - Processing of Metal Matrix Composites - Part 1
Link NOC:Manufacturing of Composites Lecture 24 - Processing of Metal Matrix Composites - Part 2
Link NOC:Manufacturing of Composites Lecture 25 - Ceramic Matrix Composites
Link NOC:Manufacturing of Composites Lecture 26 - Fabrication of Ceramic Matrix Composites (CMCs)
Link NOC:Manufacturing of Composites Lecture 27 - Carbon - Carbon Composites
Link NOC:Manufacturing of Composites Lecture 28 - Polymer Matrix and Nano Composites
Link NOC:Manufacturing of Composites Lecture 29 - Machining of Composites
Link NOC:Manufacturing of Composites Lecture 30 - Repair of Composites
Link NOC:Manufacturing of Composites Lecture 31 - Manufacturing Processes: Selection and Considerations
Link NOC:Applied Ergonomics Lecture 1
Link NOC:Applied Ergonomics Lecture 2
Link NOC:Applied Ergonomics Lecture 3
Link NOC:Applied Ergonomics Lecture 4
Link NOC:Applied Ergonomics Lecture 5
Link NOC:Applied Ergonomics Lecture 6
Link NOC:Applied Ergonomics Lecture 7
Link NOC:Applied Ergonomics Lecture 8
Link NOC:Applied Ergonomics Lecture 9
Link NOC:Applied Ergonomics Lecture 10
Link NOC:Applied Ergonomics Lecture 11
Link NOC:Applied Ergonomics Lecture 12
Link NOC:Applied Ergonomics Lecture 13
Link NOC:Applied Ergonomics Lecture 14
Link NOC:Applied Ergonomics Lecture 15
Link NOC:Applied Ergonomics Lecture 16
Link NOC:Applied Ergonomics Lecture 17
Link NOC:Applied Ergonomics Lecture 18
Link NOC:Applied Ergonomics Lecture 19
Link NOC:Applied Ergonomics Lecture 20
Link NOC:Applied Ergonomics Lecture 21
Link NOC:Applied Ergonomics Lecture 22
Link NOC:Applied Ergonomics Lecture 23
Link NOC:Applied Ergonomics Lecture 24
Link NOC:Applied Ergonomics Lecture 25
Link NOC:Applied Ergonomics Lecture 26
Link NOC:Applied Ergonomics Lecture 27
Link NOC:Applied Ergonomics Lecture 28
Link NOC:Applied Ergonomics Lecture 29
Link NOC:Applied Ergonomics Lecture 30 - Work Systems
Link NOC:Applied Ergonomics Lecture 31 - Measures of Productivity
Link NOC:Applied Ergonomics Lecture 32 - Productivity Measurement
Link NOC:Applied Ergonomics Lecture 33 - Work Study
Link NOC:Applied Ergonomics Lecture 34 - Motion and time study
Link NOC:Applied Ergonomics Lecture 35 - Motion Study
Link NOC:Applied Ergonomics Lecture 36 - Flow Diagram
Link NOC:Applied Ergonomics Lecture 37 - Time Study
Link NOC:Applied Ergonomics Lecture 38 - Manual Work System
Link NOC:Applied Ergonomics Lecture 39 - Worker Machine Systems
Link NOC:Applied Ergonomics Lecture 40 - Industrial accidents
Link NOC:Applied Ergonomics Lecture 41 - Human Errors
Link NOC:Applied Ergonomics Lecture 42 - Workers compensation laws
Link NOC:Applied Ergonomics Lecture 43 - Organisation Ergonomics - Part 1
Link NOC:Applied Ergonomics Lecture 44 - Organisation Ergonomics - Part 2
Link NOC:Applied Ergonomics Lecture 45 - Job Satisfaction
Link NOC:Applied Ergonomics Lecture 46 - Worker behavior
Link NOC:Applied Ergonomics Lecture 47 - Job ranking Techniques
Link NOC:Applied Ergonomics Lecture 48 - Waging System
Link NOC:Applied Ergonomics Lecture 49 - Biomechanics - 1
Link NOC:Applied Ergonomics Lecture 50 - Biomechanics - 2
Link NOC:Applied Ergonomics Lecture 51 - Applications of Biomechanics
Link NOC:Applied Ergonomics Lecture 52 - Problem solving - 1
Link NOC:Applied Ergonomics Lecture 53 - Problem solving - 2
Link NOC:Applied Ergonomics Lecture 54 - Problem solving - 3
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 1 - Basics of Production
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 2 - Basics of Production (Continued...)
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 3 - Sustainability and Manufacturing
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 4 - Introduction to Simulation
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 5 - Introduction to Simulation (Continued...)
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 6 - Basic Statistical Concepts for Sustainable Manufacturing Analysis
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 7 - Basic Statistical Concepts for Sustainable Manufacturing Analysis (Continued...)
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 8 - Life Cycle Assessment
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 9 - Life Cycle Assessment Elements
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 10 - Life Cycle Assessment Procedure
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 11 - Life Cycle Assessment (Continued...)
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 12 - Sustainability Framework
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 13 - Basic Modeling Concepts for Factory Simulation
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 14 - Basic Modeling Concepts for Factory Simulation (Continued...)
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 15 - Green Manufacturing Modelling: Metrics for Green Manufacturing
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 16 - Green Manufacturing Modelling (Continued...) Indices for Green Manufacturing
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 17 - Green Manufacturing Modelling (Continued...) Developing Green Manufacturing System
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 18 - Productivity and Sustainability
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 19 - Productivity and Sustainability (Continued...)
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 20 - Green Manufacturing Techniques
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 21 - Green Manufacturing Techniques (Continued...)
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 22 - Renewable Sources of Energy
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 23 - Renewable Sources of Energy (Continued...)
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 24 - Renewable energy in India and Industrial Symbiosis
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 25 - Demonstration of Various Instruments Used for Green Machining
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 26 - Laboratory demonstration
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 27 - Developing a Smart Factory
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 28 - Demonstration on PLM Software
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 29 - Developing a Smart Factory (Continued...)
Link NOC:Sustainability through Green Manufacturing Systems - An Applied Approach Lecture 30 - Sustainability and Green Manufacturing System
Link NOC:Noise Management and Control Lecture 1 - Course Overview
Link NOC:Noise Management and Control Lecture 2 - Introduction
Link NOC:Noise Management and Control Lecture 3 - Nature Of Sound
Link NOC:Noise Management and Control Lecture 4 - Beats
Link NOC:Noise Management and Control Lecture 5 - The Decibel Scale
Link NOC:Noise Management and Control Lecture 6 - Key Terms in Acoustics
Link NOC:Noise Management and Control Lecture 7 - Decibel Scale - Part 1
Link NOC:Noise Management and Control Lecture 8 - Decibel Scale - Part 2
Link NOC:Noise Management and Control Lecture 9 - Decibel Scale - Part 3
Link NOC:Noise Management and Control Lecture 10 - Complex Numbers
Link NOC:Noise Management and Control Lecture 11 - Complex Time Function
Link NOC:Noise Management and Control Lecture 12 - Linear Systems
Link NOC:Noise Management and Control Lecture 13 - Transfer Functions
Link NOC:Noise Management and Control Lecture 14 - Introduction to One Dimensional Wave Equation
Link NOC:Noise Management and Control Lecture 15 - The Momentum Equation
Link NOC:Noise Management and Control Lecture 16 - The Continuity Equation and The Gas Law
Link NOC:Noise Management and Control Lecture 17 - One Dimensional Wave Equation
Link NOC:Noise Management and Control Lecture 18 - Solution for One Dimensional Wave Equation
Link NOC:Noise Management and Control Lecture 19 - Transmission Line Equations
Link NOC:Noise Management and Control Lecture 20 - One Dimensional Example Problems
Link NOC:Noise Management and Control Lecture 21 - Impedance
Link NOC:Noise Management and Control Lecture 22 - Pressure Wave Travels in a Closed Tube
Link NOC:Noise Management and Control Lecture 23 - Standing Wave Formation in a Closed Tube With Rigid Termination
Link NOC:Noise Management and Control Lecture 24 - Pressure Wave Travels in an Open Tube
Link NOC:Noise Management and Control Lecture 25 - 1-D sound wave propagation: Kundt’s tube - I
Link NOC:Noise Management and Control Lecture 26 - 1-D sound wave propagation: Kundt’s tube - II
Link NOC:Noise Management and Control Lecture 27 - Radially propagating sound waves in spherical coordinate system - I
Link NOC:Noise Management and Control Lecture 28 - Radially propagating sound waves in spherical coordinate system - II
Link NOC:Noise Management and Control Lecture 29 - Complex impedance for radially propagating sound waves in spherical coordinate system
Link NOC:Noise Management and Control Lecture 30 - Volume velocity - I
Link NOC:Noise Management and Control Lecture 31 - Interference of 1-D spherically propagating sound waves - I
Link NOC:Noise Management and Control Lecture 32 - Interference of 1-D spherically propagating sound waves - II
Link NOC:Noise Management and Control Lecture 33 - Noise sources and introduction to microphones
Link NOC:Noise Management and Control Lecture 34 - Classification of microphones - I
Link NOC:Noise Management and Control Lecture 35 - Classification of microphones - II
Link NOC:Noise Management and Control Lecture 36 - Classification of microphones - III
Link NOC:Noise Management and Control Lecture 37 - Microphone Parameters
Link NOC:Noise Management and Control Lecture 38 - Understanding microphone specifications
Link NOC:Noise Management and Control Lecture 39 - Noise Source: Terminology
Link NOC:Noise Management and Control Lecture 40 - Noise Source: Sound Attenuation
Link NOC:Noise Management and Control Lecture 41 - Noise Source: Sound Pressure Level due to a noise source located outdoors
Link NOC:Noise Management and Control Lecture 42 - Noise Source: Role of reflecting surfaces
Link NOC:Noise Management and Control Lecture 43 - Noise Source: Sound Pressure Level due to a noise source located indoors - Part I
Link NOC:Noise Management and Control Lecture 44 - Noise Source: Sound Pressure Level due to a noise source located indoors - Part II
Link NOC:Noise Management and Control Lecture 45 - Measuring Sound Power Level - Understanding standard octave bands
Link NOC:Noise Management and Control Lecture 46 - Measuring Sound Power Level - Fan noise - Part I
Link NOC:Noise Management and Control Lecture 47 - Measuring Sound Power Level - Fan noise - Part II
Link NOC:Noise Management and Control Lecture 48 - Measuring Sound Power Level - Fan noise - Part III
Link NOC:Noise Management and Control Lecture 49 - Weighting
Link NOC:Noise Management and Control Lecture 50 - Noise coming from Motors
Link NOC:Noise Management and Control Lecture 51 - Noise coming from Motors and Pumps
Link NOC:Noise Management and Control Lecture 52 - Noise coming from Pump and Motor Working Simultaneously
Link NOC:Noise Management and Control Lecture 53 - Noise coming from Compressors
Link NOC:Noise Management and Control Lecture 54 - Example problems regarding Noise coming from Compressor
Link NOC:Noise Management and Control Lecture 55 - Noise Spread Mechanisms
Link NOC:Noise Management and Control Lecture 56 - Reverberation time
Link NOC:Noise Management and Control Lecture 57 - Reverberation time example problem
Link NOC:Noise Management and Control Lecture 58 - Noise from Adjacent Room
Link NOC:Noise Management and Control Lecture 59 - Acoustic Enclosures
Link NOC:Noise Management and Control Lecture 60 - Acoustic Enclosures - Example Problems
Link NOC:Noise Management and Control Lecture 61 - Large acoustical enclosures - I
Link NOC:Noise Management and Control Lecture 62 - Large acoustical enclosures - II
Link NOC:Noise Management and Control Lecture 63 - Acoustic barriers - I
Link NOC:Noise Management and Control Lecture 64 - Acoustic barriers - II
Link NOC:Noise Management and Control Lecture 65 - Acoustic barriers - III
Link NOC:Noise Management and Control Lecture 66 - Helmholtz resonator - I
Link NOC:Noise Management and Control Lecture 67 - Silencers
Link NOC:Noise Management and Control Lecture 68 - Side Branched Mufflers - I
Link NOC:Noise Management and Control Lecture 69 - Side Branched Mufflers - II
Link NOC:Noise Management and Control Lecture 70 - Side Branched Mufflers - III
Link NOC:Noise Management and Control Lecture 71 - Expansion Chamber Muffler
Link NOC:Noise Management and Control Lecture 72 - Single Expansion Chamber Muffler
Link NOC:Design Practice Lecture 1 - Brief introduction of Design systems
Link NOC:Design Practice Lecture 2 - Product Developement
Link NOC:Design Practice Lecture 3 - Basic protocols of industrial design
Link NOC:Design Practice Lecture 4 - Design thinking and innovation
Link NOC:Design Practice Lecture 5 - Brain Storming
Link NOC:Design Practice Lecture 6 - Design prototyping
Link NOC:Design Practice Lecture 7 - Generic Phases of the Design
Link NOC:Design Practice Lecture 8 - Configurational Design Aspects
Link NOC:Design Practice Lecture 9 - Concurrent Engineering
Link NOC:Design Practice Lecture 10 - Concurrent Engineering - 2
Link NOC:Design Practice Lecture 11 - Concurrent Engineering Approaches
Link NOC:Design Practice Lecture 12 - Concurrent Engineering Approaches - 2
Link NOC:Design Practice Lecture 13 - Benefits of concurrent engineering
Link NOC:Design Practice Lecture 14 - Concurrent engineering environment influencing dimensions
Link NOC:Design Practice Lecture 15 - Concurrent engineering environment influencing dimensions - 2
Link NOC:Design Practice Lecture 16 - Program and product Interface dimensions in Concurrent engineering
Link NOC:Design Practice Lecture 17 - Product Developement Methodology
Link NOC:Design Practice Lecture 18 - Elements of concurrent engineering: Optimization in product development
Link NOC:Design Practice Lecture 19 - Business relationships in concurrent engineering
Link NOC:Design Practice Lecture 20 - Organizational elements in concurrent engineering
Link NOC:Design Practice Lecture 21 - Techniques for the Implementation of concurrent engineering environment
Link NOC:Design Practice Lecture 22 - Average quality loss
Link NOC:Design Practice Lecture 23 - Robustness in Design
Link NOC:Design Practice Lecture 24 - Robustness in Design - 2
Link NOC:Design Practice Lecture 25 - Material selection in Engineering design
Link NOC:Design Practice Lecture 26 - Material selection in Engineering Design.
Link NOC:Design Practice Lecture 27 - Basic steps in Material Selection Process
Link NOC:Design Practice Lecture 28 - Design of Work Systems
Link NOC:Design Practice Lecture 29 - Motion Study
Link NOC:Design Practice Lecture 30 - Axiomatic Design
Link NOC:Design Practice Lecture 31 - Introduction to group technology
Link NOC:Design Practice Lecture 32 - Failure Mode Effect Analysis
Link NOC:Introduction to Composites Lecture 1 - Definition of the composite materials
Link NOC:Introduction to Composites Lecture 2 - Composite materials and its applications
Link NOC:Introduction to Composites Lecture 3 - Classification of the composite materials
Link NOC:Introduction to Composites Lecture 4 - What Makes fiber so strong?
Link NOC:Introduction to Composites Lecture 5 - Advantages and limitations of composite materials
Link NOC:Introduction to Composites Lecture 6 - Properties of the composite materials.
Link NOC:Introduction to Composites Lecture 7 - Different Types of Fiber
Link NOC:Introduction to Composites Lecture 8 - Production process and different types of Glass Fiber
Link NOC:Introduction to Composites Lecture 9 - Graphite Fibers
Link NOC:Introduction to Composites Lecture 10 - Aramid and Boron Fibers
Link NOC:Introduction to Composites Lecture 11 - Ceramic Fibers
Link NOC:Introduction to Composites Lecture 12 - Matrix - Properties and classifications
Link NOC:Introduction to Composites Lecture 13 - Polymers as matrix material and its classification
Link NOC:Introduction to Composites Lecture 14 - Thermosets and thermoplastics
Link NOC:Introduction to Composites Lecture 15 - Properties of thermosets and thermoplastics
Link NOC:Introduction to Composites Lecture 16 - Thermoset materials and its production methods
Link NOC:Introduction to Composites Lecture 17 - Thermoplastics and metals as matrix materials
Link NOC:Introduction to Composites Lecture 18 - Ceramic and carbon matrices
Link NOC:Introduction to Composites Lecture 19 - What is a good fabrication process of a composite?
Link NOC:Introduction to Composites Lecture 20 - Fabrication of Thermoset Composites
Link NOC:Introduction to Composites Lecture 21 - Hand Lay-Up Process
Link NOC:Introduction to Composites Lecture 22 - Bag Molding Process
Link NOC:Introduction to Composites Lecture 23 - Resin Transfer Molding Process
Link NOC:Introduction to Composites Lecture 24 - Fabrication of Thermoplastic, Metal and Ceramic Matrix based Composites
Link NOC:Introduction to Composites Lecture 25 - Terminologies and basic concepts
Link NOC:Introduction to Composites Lecture 26 - Orthotropic material
Link NOC:Introduction to Composites Lecture 27 - Modeling of unidirectional composites
Link NOC:Introduction to Composites Lecture 28 - Composite density as a function of mass fraction and volume fraction
Link NOC:Introduction to Composites Lecture 29 - Calculation of longitudinal modulus for unidirectional composites
Link NOC:Introduction to Composites Lecture 30 - Failure modes of unidirectional composite
Link NOC:Introduction to Composites Lecture 31 - Failure of Unidirectional Lamina
Link NOC:Introduction to Composites Lecture 32 - Minimum Volume Fraction and Critical Volume Fraction
Link NOC:Introduction to Composites Lecture 33 - Example based on Failure of Composite Material
Link NOC:Introduction to Composites Lecture 34 - Example based on Minimum and Critical Volume Fraction
Link NOC:Introduction to Composites Lecture 35 - Transverse Modulus of Unidirectional Composite
Link NOC:Introduction to Composites Lecture 36 - Halpin-Tsai Relation for Transverse Modulus
Link NOC:Introduction to Composites Lecture 37 - Transverse modulus of unidirectional composites
Link NOC:Introduction to Composites Lecture 38 - Transverse strength of unidirectional composites
Link NOC:Introduction to Composites Lecture 39 - Poisson’s ratio of unidirectional composites
Link NOC:Introduction to Composites Lecture 40 - Failure modes of composite materials
Link NOC:Introduction to Composites Lecture 41 - Failure modes of composite materials
Link NOC:Introduction to Composites Lecture 42 - Other properties
Link NOC:Introduction to Composites Lecture 43 - Concept of Tensor
Link NOC:Introduction to Composites Lecture 44 - Stress Transformation (Two Dimensional)
Link NOC:Introduction to Composites Lecture 45 - Analysis of Specially Orthotropic Lamina
Link NOC:Introduction to Composites Lecture 46 - Analysis of Generally Orthotropic Lamina
Link NOC:Introduction to Composites Lecture 47 - Transformation of Engineering Constants - Part I
Link NOC:Introduction to Composites Lecture 48 - Transformation of Engineering Constants - Part II
Link NOC:Introduction to Composites Lecture 49 - Variation of elastic constants with respect to fiber orientation for generally orthotropic lamina
Link NOC:Introduction to Composites Lecture 50 - Generally orthotropic lamina
Link NOC:Introduction to Composites Lecture 51 - Generalized Hooke’s law for anisotropic materials
Link NOC:Introduction to Composites Lecture 52 - Generalized Hooke’s law for anisotropic materials
Link NOC:Introduction to Composites Lecture 53 - Elastic constants for Specially orthotropic materials
Link NOC:Introduction to Composites Lecture 54 - Elastic constants for Specially orthotropic materials in plane stress
Link NOC:Introduction to Composites Lecture 55 - Relation Betweeen Engineering Constants and Elements of Stiffness and Compliance Matrices - Part I
Link NOC:Introduction to Composites Lecture 56 - Relation Betweeen Engineering Constants and Elements of Stiffness and Compliance Matrices - Part II
Link NOC:Introduction to Composites Lecture 57 - Stress Strain Relations for A Lamina With Arbitrary Orientation - Part I
Link NOC:Introduction to Composites Lecture 58 - Stress- Strain Relation for A Lamina With Arbitrary Orientation - Part II
Link NOC:Introduction to Composites Lecture 59 - Strength of An Orthotropic Lamina
Link NOC:Introduction to Composites Lecture 60 - Importance of Sign of Shear Stress in context of Strength of A Unidirectional Lamina
Link NOC:Introduction to Composites Lecture 61 - Strain displacement relations for a laminate
Link NOC:Introduction to Composites Lecture 62 - Stress-strain relations for individual layers of a laminate
Link NOC:Introduction to Composites Lecture 63 - Resultant forces and moments
Link NOC:Introduction to Composites Lecture 64 - Relations between force and moment resultants and mid-plane strains and curvatures
Link NOC:Introduction to Composites Lecture 65 - Physical significance of extensional stiffness matrix [A], coupling matrix [B] and bending stiffness matrix [D] matrices
Link NOC:Introduction to Composites Lecture 66 - Lamination sequence (standard laminate code)
Link NOC:Introduction to Composites Lecture 67 - Calculation of A, B and D Matrices.
Link NOC:Introduction to Composites Lecture 68 - Simplification of Stiffness Matrices - Part I
Link NOC:Introduction to Composites Lecture 69 - Simplification of Stiffness Matrices - Part II
Link NOC:Introduction to Composites Lecture 70 - Quasi-Isotropic Laminates - Part I
Link NOC:Introduction to Composites Lecture 71 - Quasi-Isotropic Laminates - Part II
Link NOC:Introduction to Composites Lecture 72 - Failure of Composite Laminates
Link NOC:Product Design and Manufacturing Lecture 1 - Introduction to product design and Manufacturing
Link NOC:Product Design and Manufacturing Lecture 2 - Introduction to product design and Manufacturing (Continued...)
Link NOC:Product Design and Manufacturing Lecture 3 - Fundamentals of Manufacturing towards Product Development
Link NOC:Product Design and Manufacturing Lecture 4 - Fundamentals of Manufacturing towards Product Development (Continued...)
Link NOC:Product Design and Manufacturing Lecture 5 - Engineering Design Process
Link NOC:Product Design and Manufacturing Lecture 6 - Product design morphology
Link NOC:Product Design and Manufacturing Lecture 7 - Product characteristics
Link NOC:Product Design and Manufacturing Lecture 8 - Elements of Visual Design - Part 1
Link NOC:Product Design and Manufacturing Lecture 9 - Elements of Visual Design - Part 2
Link NOC:Product Design and Manufacturing Lecture 10 - Translating Customer Needs
Link NOC:Product Design and Manufacturing Lecture 11 - Value Engineering, an introduction
Link NOC:Product Design and Manufacturing Lecture 12 - Value Engineering Methodology - Part 1
Link NOC:Product Design and Manufacturing Lecture 13 - Value Engineering Methodology - Part 2, FAST diagramming
Link NOC:Product Design and Manufacturing Lecture 14 - Value Engineering Methodology - Part 3
Link NOC:Product Design and Manufacturing Lecture 15 - Value Engineering, case study
Link NOC:Product Design and Manufacturing Lecture 16 - Materials Selection - Part 1
Link NOC:Product Design and Manufacturing Lecture 17 - Materials Selection - Part 2
Link NOC:Product Design and Manufacturing Lecture 18 - Manufacturing Process Selection - Part 1
Link NOC:Product Design and Manufacturing Lecture 19 - Manufacturing Process Selection - Part 2
Link NOC:Product Design and Manufacturing Lecture 20 - Product Costing
Link NOC:Product Design and Manufacturing Lecture 21 - Design for Manufacturing
Link NOC:Product Design and Manufacturing Lecture 22 - Design for Assembly
Link NOC:Product Design and Manufacturing Lecture 23 - Quality Control
Link NOC:Product Design and Manufacturing Lecture 24 - Patent - Part 1
Link NOC:Product Design and Manufacturing Lecture 25 - Patent - Part 2
Link NOC:Product Design and Manufacturing Lecture 26 - Rapid Prototyping, an introduction
Link NOC:Product Design and Manufacturing Lecture 27 - Rapid Prototyping Modelling
Link NOC:Product Design and Manufacturing Lecture 28 - Rapid Prototyping Processes - Part 1
Link NOC:Product Design and Manufacturing Lecture 29 - Rapid Prototyping Processes - Part 2
Link NOC:Product Design and Manufacturing Lecture 30 - Plant Layout Planning - Part 1
Link NOC:Product Design and Manufacturing Lecture 31 - Plant Layout Planning - Part 2
Link NOC:Product Design and Manufacturing Lecture 32 - Managing Competitiveness
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 1 - Basic Thermodynamics: System, phase and components
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 2 - Basic Thermodynamics: Gibbs Free Energy
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 3 - Phase Stability in Materials
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 4 - Effects of Temperature and Pressure on Single Components System
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 5 - Clausisus-Clapeyron Equation and Binary Solution
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 6 - Calculation of Configurational Entropy
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 7 - Chemical Potential
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 8 - Phase Stability in Binary Solution
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 9 - Activity and Thermodynamics of Regular Solution
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 10 - Thermodynamic of Real Solution
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 11 - Free Energy Curves and Various Systems
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 12 - Solubility Limits 2-phase Co-existence
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 13 - Phase Diagram Formation: Binary Solution
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 14 - Phase Diagram Construction: Partial Soluble Phases
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 15 - Phase Diagram Construction: Eutectic Phase
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 16 - Intermetallics and Phase Diagrams
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 17 - Phase Rule
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 18 - Gibb's Phase Rule: Unary and Binary System
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 19 - Gibb's Phase Rule: Eutectic Point and Lever Rule
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 20 - Phase Fraction Calculation in a Phase Diagram
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 21 - Microstructure evolution in Cu-Ni binary system
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 22 - Microstructure evolution (Continued...)
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 23 - Phase evolution in hypoeutectic region
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 24 - Phase evolution at Eutectic point
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 25 - Phase Diagrams of Cu-Ni and Al-Si
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 26 - Phase Diagrams of Pb-Sn and Fe-C
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 27 - Phase Diagram of Fe-C (Continued...)
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 28 - Fe-C Phase Diagram (Continued...)
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 29 - Fe-C Phase Diagram (Continued...)
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 30 - Phase Diagrams for non-Ferrous Alloys
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 31 - Method of measuring Phase diagram
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 32 - Methods of measuring phase diagram (Continued...)
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 33 - Methods of measuring phase diagram: PbMg2
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 34 - Ternary Phase Diagram
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 35 - Ternay Phase Diagram (Continued...)
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 36 - Ternary system with two phases
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 37 - Ternary system with three phases
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 38 - Ternary phase diagram with 4 phases
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 39 - Application of Phases diagrams
Link NOC:Phase Equilibria in Materials - Nature and Properties of Materials-II Lecture 40 - Summary of Course
Link NOC:Advanced Composites Lecture 1 - Basics of composite materials
Link NOC:Advanced Composites Lecture 2 - Different type of Fibers
Link NOC:Advanced Composites Lecture 3 - Properties of single layer continuous fiber composites
Link NOC:Advanced Composites Lecture 4 - Properties of single layer continuous fiber composites
Link NOC:Advanced Composites Lecture 5 - Strength of single layer continuous fiber composites
Link NOC:Advanced Composites Lecture 6 - Strength of single layer continuous fiber composites
Link NOC:Advanced Composites Lecture 7 - Concept of Tensor
Link NOC:Advanced Composites Lecture 8 - General Anisotropic Material
Link NOC:Advanced Composites Lecture 9 - Specially Orthotropic Material
Link NOC:Advanced Composites Lecture 10 - Specially Orthotropic Material Under Plane Stress
Link NOC:Advanced Composites Lecture 11 - Stress and Strain Transformation
Link NOC:Advanced Composites Lecture 12 - Transformation of Stiffness and Compliance Matrices
Link NOC:Advanced Composites Lecture 13 - Strain - Displacement relations
Link NOC:Advanced Composites Lecture 14 - Relations for stress and strain along thickness of laminate
Link NOC:Advanced Composites Lecture 15 - Stress - Strain variation along Laminate thickness
Link NOC:Advanced Composites Lecture 16 - Force and Moment resultant - Part 1
Link NOC:Advanced Composites Lecture 17 - Force and Moment resultant - Part 2
Link NOC:Advanced Composites Lecture 18 - Important observation related to [A], [B] and [D] matrices
Link NOC:Advanced Composites Lecture 19 - Quasi-Isotropic Laminates
Link NOC:Advanced Composites Lecture 20 - Maximum Stress Theory
Link NOC:Advanced Composites Lecture 21 - Maximum Strain Theory
Link NOC:Advanced Composites Lecture 22 - Importance of Sign of Shear Stress.
Link NOC:Advanced Composites Lecture 23 - Failure Initiation in Composite Laminate.
Link NOC:Advanced Composites Lecture 24 - Progressive Failure of Laminae in A Laminate
Link NOC:Advanced Composites Lecture 25 - Governing equations for composite plates
Link NOC:Advanced Composites Lecture 26 - Force equilibrium in Z-direction
Link NOC:Advanced Composites Lecture 27 - Moment equilibrium equations
Link NOC:Advanced Composites Lecture 28 - Equilibrium equations for composite plates
Link NOC:Advanced Composites Lecture 29 - Boundary conditions associated with different edges of composite plate - Part 1
Link NOC:Advanced Composites Lecture 30 - Boundary conditions associated with different edges of composite plate - Part 2
Link NOC:Advanced Composites Lecture 31 - Generalized Solution for Semi-Infinite Plate - Part I
Link NOC:Advanced Composites Lecture 32 - Generalized Solution for Semi-Infinite Plate - Part II
Link NOC:Advanced Composites Lecture 33 - Particular Solution for Semi-Infinite Plate: Case A
Link NOC:Advanced Composites Lecture 34 - Particular Solution for Semi-Infinite Plate: Case B
Link NOC:Advanced Composites Lecture 35 - Particular Solution for Semi-Infinite Plate: Case C
Link NOC:Advanced Composites Lecture 36 - Particular Solution for Semi-Infinite Plate: Case D
Link NOC:Advanced Composites Lecture 37 - Solution for governing equation related to semi-infinite composite plate
Link NOC:Advanced Composites Lecture 38 - Nature of displacement u0(x) and how it gets influence by important parameters of lamination sequence
Link NOC:Advanced Composites Lecture 39 - Semi-infinite plate loaded in the x-direction - Part 1
Link NOC:Advanced Composites Lecture 40 - Semi-infinite plate loaded in the x-direction - Part 2
Link NOC:Advanced Composites Lecture 41 - Thermal effects in composite laminates - Part 1
Link NOC:Advanced Composites Lecture 42 - Thermal effects in composite laminates - Part 2
Link NOC:Advanced Composites Lecture 43 - Thermal effects in composite laminates - Part 3
Link NOC:Advanced Composites Lecture 44 - Finite Rectangular Plate
Link NOC:Advanced Composites Lecture 45 - Different Boundary Conditions in Finite Rectangular Plate
Link NOC:Advanced Composites Lecture 46 - Example Based On a Finite Rectangular Plate: Part-I
Link NOC:Advanced Composites Lecture 47 - Example Based On a Finite Rectangular Plate: Part-II
Link NOC:Advanced Composites Lecture 48 - Example Based On a Finite Rectangular Plate: Part-III
Link NOC:Advanced Composites Lecture 49 - Anticlastic curvature
Link NOC:Advanced Composites Lecture 50 - Principle of virtual work
Link NOC:Advanced Composites Lecture 51 - Virtual work method: apply to beam problem
Link NOC:Advanced Composites Lecture 52 - Virtual work method: apply to simply supported plate
Link NOC:Advanced Composites Lecture 53 - Virtual work method: apply to simply supported plate
Link NOC:Advanced Composites Lecture 54 - 3rd Interpretation of special Galerkin method
Link NOC:Advanced Composites Lecture 55 - Role of D16 and D26 Terms On Laminated Plate Response: Part-I
Link NOC:Advanced Composites Lecture 56 - Role of D16 and D26 Terms On Laminated Plate Response: Part-II
Link NOC:Advanced Composites Lecture 57 - Role of D16 and D26 Terms On Laminated Plate Response: Part-III
Link NOC:Advanced Composites Lecture 58 - Role of D16 and D26 Terms On Laminated Plate Response: Part-IV
Link NOC:Advanced Composites Lecture 59 - Free Vibration in Composite Plate: Part-I
Link NOC:Advanced Composites Lecture 60 - Free Vibration in Composite Plate: Part-II
Link NOC:Advanced Composites Lecture 61 - Buckling of composite plates
Link NOC:Advanced Composites Lecture 62 - Force equilibrium in z-direction for buckling of composite plates
Link NOC:Advanced Composites Lecture 63 - Moment equilibrium around x, y and z-directions for buckling of composite plates
Link NOC:Advanced Composites Lecture 64 - Buckling of an infinitely long composite plate
Link NOC:Advanced Composites Lecture 65 - Buckling of a simply supported finite plate
Link NOC:Advanced Composites Lecture 66 - Composite plate under bidirectional compression
Link NOC:Advanced Composites Lecture 67 - Shear Bucking in Rectangular Composite Plate: Part-I
Link NOC:Advanced Composites Lecture 68 - Shear Bucking in Rectangular Composite Plate: Part-II
Link NOC:Advanced Composites Lecture 69 - Introduction to Short-Fiber Composites
Link NOC:Advanced Composites Lecture 70 - Theories of Stress Transfer: Part-I
Link NOC:Advanced Composites Lecture 71 - Theories of Stress Transfer: Part-II
Link NOC:Advanced Composites Lecture 72 - Modulus of Short-Fiber Composites and Closure
Link NOC:Engineering Metrology Lecture 1 - Introduction to measurements and metrology
Link NOC:Engineering Metrology Lecture 2 - Instruments in measurement systems
Link NOC:Engineering Metrology Lecture 3 - Instruments in measurement systems
Link NOC:Engineering Metrology Lecture 4 - General concepts and definitions in metrology
Link NOC:Engineering Metrology Lecture 5 - Standards of measurement
Link NOC:Engineering Metrology Lecture 6 - Limits, Fits, and Tolerances - Part 1
Link NOC:Engineering Metrology Lecture 7 - Limits, Fits, and Tolerances - Part 2
Link NOC:Engineering Metrology Lecture 8 - Limits, Fits, and Tolerances - Part 3
Link NOC:Engineering Metrology Lecture 9 - Limits, Fits, and Tolerances - Part 4
Link NOC:Engineering Metrology Lecture 10 - Linear Measurements - Part 1
Link NOC:Engineering Metrology Lecture 11 - Linear Measurements - Part 2
Link NOC:Engineering Metrology Lecture 12 - Laboratory demonstration, Vernier Caliper
Link NOC:Engineering Metrology Lecture 13 - Laboratory demonstration, Dial gauge and vernier, micrometer, surface plate, feeler gauge
Link NOC:Engineering Metrology Lecture 14 - Angular Measurements - Part 1
Link NOC:Engineering Metrology Lecture 15 - Angular Measurements - Part 2
Link NOC:Engineering Metrology Lecture 16 - Laboratory demonstration, Vernier height gauge
Link NOC:Engineering Metrology Lecture 17 - Laboratory demonstration, Thread gauge, spirit level
Link NOC:Engineering Metrology Lecture 18 - Laboratory demonstration, Combination set, slip gauges, sine bar
Link NOC:Engineering Metrology Lecture 19 - Comparators - Part 1
Link NOC:Engineering Metrology Lecture 20 - Comparators - Part 2
Link NOC:Engineering Metrology Lecture 21 - Transducers - Part 1
Link NOC:Engineering Metrology Lecture 22 - Transducers - Part 2
Link NOC:Engineering Metrology Lecture 23 - Screw thread metrology
Link NOC:Engineering Metrology Lecture 24 - Gears metrology - Part 1
Link NOC:Engineering Metrology Lecture 25 - Gears metrology - Part 2
Link NOC:Engineering Metrology Lecture 26 - Laboratory demonstration, Gear Vernier
Link NOC:Engineering Metrology Lecture 27 - Surface metrology
Link NOC:Engineering Metrology Lecture 28 - Temperature measurements
Link NOC:Engineering Metrology Lecture 29 - Pressure measurements - Part 1
Link NOC:Engineering Metrology Lecture 30 - Pressure measurements - Part 2
Link NOC:Engineering Metrology Lecture 31 - Strain measurements - Part 1
Link NOC:Engineering Metrology Lecture 32 - Strain measurements - Part 2
Link NOC:Engineering Metrology Lecture 33 - Optical measurements and Nanometrology - Part 1
Link NOC:Engineering Metrology Lecture 34 - Optical measurements and Nanometrology - Part 2
Link NOC:Engineering Metrology Lecture 35 - Optical measurements and Nanometrology - Part 3
Link NOC:Engineering Metrology Lecture 36 - Statistics in Metrology, an intoduction - Part 1
Link NOC:Engineering Metrology Lecture 37 - Statistics in Metrology, an intoduction - Part 2
Link NOC:Engineering Metrology Lecture 38 - Data and scales in measurements
Link NOC:Engineering Metrology Lecture 39 - Discrete and continuous data
Link NOC:Engineering Metrology Lecture 40 - Statistics for metrology, fundamental concepts - Part 1
Link NOC:Engineering Metrology Lecture 41 - Statistics for metrology, fundamental concepts - Part 2
Link NOC:Engineering Metrology Lecture 42 - Statistics for metrology, fundamental concepts - Part 3
Link NOC:Engineering Metrology Lecture 43 - Probability distributions for estimating measurement
Link NOC:Engineering Metrology Lecture 44 - Normal distribution
Link NOC:Engineering Metrology Lecture 45 - Statistics for proportions
Link NOC:Engineering Metrology Lecture 46 - Chi square distribution, and Data outlier detection
Link NOC:Engineering Metrology Lecture 47 - Quality Control, introduction
Link NOC:Engineering Metrology Lecture 48 - Quality Control, control charts for variables
Link NOC:Engineering Metrology Lecture 49 - Quality Control, control charts for attributes
Link NOC:Engineering Metrology Lecture 50 - Quality Control, critical aspects
Link NOC:Engineering Metrology Lecture 51 - 3D measurements, Coordinate Measuring Machine (CMM)
Link NOC:Engineering Metrology Lecture 52 - Laboratory demonstration, Coordinate Measuring Machine (CMM))
Link NOC:Smart Materials and Intelligent System Design Lecture 1 - Introduction to Smart Materials
Link NOC:Smart Materials and Intelligent System Design Lecture 2 - Piezoelectric Material
Link NOC:Smart Materials and Intelligent System Design Lecture 3 - Magnetostrictive Material
Link NOC:Smart Materials and Intelligent System Design Lecture 4 - Active Smart Polymer
Link NOC:Smart Materials and Intelligent System Design Lecture 5 - Shape Memory Alloys
Link NOC:Smart Materials and Intelligent System Design Lecture 6 - Introduction to composites
Link NOC:Smart Materials and Intelligent System Design Lecture 7 - Classification of Composites
Link NOC:Smart Materials and Intelligent System Design Lecture 8 - Micromechanics and Macromechanics of Composites
Link NOC:Smart Materials and Intelligent System Design Lecture 9 - Classical Laminated Plate Theory
Link NOC:Smart Materials and Intelligent System Design Lecture 10 - ABD Matrices
Link NOC:Smart Materials and Intelligent System Design Lecture 11 - Modelling of piezoelectric material 1
Link NOC:Smart Materials and Intelligent System Design Lecture 12 - Modelling of piezoelectric material 2
Link NOC:Smart Materials and Intelligent System Design Lecture 13 - Modelling of Magnetostrictive material
Link NOC:Smart Materials and Intelligent System Design Lecture 14 - Modelling of Shape memory Alloys
Link NOC:Smart Materials and Intelligent System Design Lecture 15 - Smart Actuators
Link NOC:Smart Materials and Intelligent System Design Lecture 16 - Smart Materials based MEMS
Link NOC:Smart Materials and Intelligent System Design Lecture 17 - Smart MEMS Applications
Link NOC:Smart Materials and Intelligent System Design Lecture 18 - Energy Harvesting
Link NOC:Smart Materials and Intelligent System Design Lecture 19 - Concept of Self Healing
Link NOC:Design Practice-II Lecture 1 - Design concepts
Link NOC:Design Practice-II Lecture 2 - Computer Aided Design (CAD)
Link NOC:Design Practice-II Lecture 3 - Geometrical transformation
Link NOC:Design Practice-II Lecture 4 - Composition of geometrical transformation
Link NOC:Design Practice-II Lecture 5 - Geometric modeling
Link NOC:Design Practice-II Lecture 6 - Representation of curves
Link NOC:Design Practice-II Lecture 7 - Parametric representation of synthetic curves
Link NOC:Design Practice-II Lecture 8 - Curve fitting problem (Hermite case)
Link NOC:Design Practice-II Lecture 9 - Problem solving (based on Bezier curve)
Link NOC:Design Practice-II Lecture 10 - Representation of Surfaces
Link NOC:Design Practice-II Lecture 11 - Introduction to Micro-Elctro mechanical Systems (MEMS)
Link NOC:Design Practice-II Lecture 12 - Lab-on-Chip
Link NOC:Design Practice-II Lecture 13 - Introduction to Sensors
Link NOC:Design Practice-II Lecture 14 - Introduction to Transducers
Link NOC:Design Practice-II Lecture 15 - Introduction to device fabrications
Link NOC:Design Practice-II Lecture 16 - Introduction to Silicon as a MEMS material
Link NOC:Design Practice-II Lecture 17 - Etching processes
Link NOC:Design Practice-II Lecture 18 - Types of Photolithography
Link NOC:Design Practice-II Lecture 19 - Introduction to actuators
Link NOC:Design Practice-II Lecture 20 - Designing of the Micro-Valve
Link NOC:Design Practice-II Lecture 21 - Electrochemical valves
Link NOC:Design Practice-II Lecture 22 - Micropumps
Link NOC:Design Practice-II Lecture 23 - Designing of peristaltic pumps
Link NOC:Design Practice-II Lecture 24 - Different types of pumps and sensors
Link NOC:Design Practice-II Lecture 25 - Gas Sensors
Link NOC:Design Practice-II Lecture 26 - Computer Numerical Control
Link NOC:Design Practice-II Lecture 27 - Numerical Control Programming
Link NOC:Design Practice-II Lecture 28 - NC Part Programming
Link NOC:Design Practice-II Lecture 29 - Canned Cycles
Link NOC:Design Practice-II Lecture 30 - Introduction to Rapid Prototyping
Link NOC:Design Practice-II Lecture 31 - Different Types of Rapid Prototyping Technologies
Link NOC:Design Practice-II Lecture 32 - LAB Demonstration of FDM Process
Link NOC:Design Practice-II Lecture 33 & 34
Link NOC:Design Practice-II Lecture 35
Link NOC:Design Practice-II Lecture 36
Link NOC:Design Practice-II Lecture 37, 38 & 39
Link NOC:Design Practice-II Lecture 40
Link NOC:Rapid Manufacturing Lecture 1 - Introduction to Rapid Manufacturing - Part 1
Link NOC:Rapid Manufacturing Lecture 2 - Introduction to Rapid Manufacturing - Part 2
Link NOC:Rapid Manufacturing Lecture 3 - Introduction to Rapid Manufacturing - Part 3
Link NOC:Rapid Manufacturing Lecture 4 - Product Development Process - Part 1
Link NOC:Rapid Manufacturing Lecture 5 - Product Development Process - Part 2
Link NOC:Rapid Manufacturing Lecture 6 - Product Development Process - Part 3
Link NOC:Rapid Manufacturing Lecture 7 - Design for Modularity (Manufacturing)
Link NOC:Rapid Manufacturing Lecture 8 - Design for Modularity (Assembly; Part 1)
Link NOC:Rapid Manufacturing Lecture 9 - Design for Modularity (Assembly; Part 2)
Link NOC:Rapid Manufacturing Lecture 10 - Design for Modularity
Link NOC:Rapid Manufacturing Lecture 11 - Subtractive versus Rapid Manufacturing
Link NOC:Rapid Manufacturing Lecture 12 - Reverse Engineering - Part 1
Link NOC:Rapid Manufacturing Lecture 13 - Reverse Engineering - Part 2
Link NOC:Rapid Manufacturing Lecture 14 - Laboratory Demonstration, Co-ordinate Measuring Machine - Part 1
Link NOC:Rapid Manufacturing Lecture 15 - Laboratory Demonstration, Co-ordinate Measuring Machine - Part 2
Link NOC:Rapid Manufacturing Lecture 16 - Laboratory Demonstration, 3D scanners - Part 1
Link NOC:Rapid Manufacturing Lecture 17 - Laboratory Demonstration, 3D scanners - Part 2
Link NOC:Rapid Manufacturing Lecture 18 - Polymerization Processes - Part 1
Link NOC:Rapid Manufacturing Lecture 19 - Polymerization Processes - Part 2
Link NOC:Rapid Manufacturing Lecture 20 - Powder based processes - Part 1
Link NOC:Rapid Manufacturing Lecture 21 - Powder based processes - Part 2
Link NOC:Rapid Manufacturing Lecture 22 - Powder based processes - Part 3
Link NOC:Rapid Manufacturing Lecture 23 - Extrusion based processes - Part 1
Link NOC:Rapid Manufacturing Lecture 24 - Extrusion based processes - Part 2
Link NOC:Rapid Manufacturing Lecture 25 - Sheet Stacking processes
Link NOC:Rapid Manufacturing Lecture 26 - 3D printing processes
Link NOC:Rapid Manufacturing Lecture 27 - Laboratory Demonstration, 3D printing - Part 1
Link NOC:Rapid Manufacturing Lecture 28 - Laboratory Demonstration, 3D printing - Part 2
Link NOC:Rapid Manufacturing Lecture 29 - Laboratory Demonstration, 3D printing - Part 3
Link NOC:Rapid Manufacturing Lecture 30 - Beam Deposition processes
Link NOC:Rapid Manufacturing Lecture 31 - Materials in Rapid Manufacturing - Part 1
Link NOC:Rapid Manufacturing Lecture 32 - Materials in Rapid Manufacturing - Part 2
Link NOC:Rapid Manufacturing Lecture 33 - Post-processing concerns - Part 1
Link NOC:Rapid Manufacturing Lecture 34 - Post-processing concerns - Part 2
Link NOC:Rapid Manufacturing Lecture 35 - Product costing for Rapid Manufacturing - Part 1
Link NOC:Rapid Manufacturing Lecture 36 - Product costing for Rapid Manufacturing - Part 2
Link NOC:Rapid Manufacturing Lecture 37 - Rapid Product Development, CAD/CAM - Part 1
Link NOC:Rapid Manufacturing Lecture 38 - Rapid Product Development, CAD/CAM - Part 2
Link NOC:Rapid Manufacturing Lecture 39 - Rapid Product Development, CAD/CAM - Part 3
Link NOC:Rapid Manufacturing Lecture 40 - Rapid Product Development, CAE and CIM
Link NOC:Rapid Manufacturing Lecture 41 - Rapid Product Development, Technomatix, Plant Simulation 10 - Part 1
Link NOC:Rapid Manufacturing Lecture 42 - Rapid Product Development, Technomatix, Plant Simulation 10 - Part 2
Link NOC:Rapid Manufacturing Lecture 43 - Rapid Product Development, Technomatix, Plant Simulation 10 - Part 3
Link NOC:Rapid Manufacturing Lecture 44 - Rapid Manufactiuring, case studies
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 1 - Introduction to Combustion
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 2 - Introduction to Combustion (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 3 - Introduction to Combustion (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 4 - Introduction to Combustion (Continued...) + Combustion and Thermochemistry
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 5 - Combustion and Thermochemistry
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 6 - Combustion and Thermochemistry (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 7 - Combustion and Thermochemistry (Continued...) + Chemical Kinetics
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 8 - Chemical Kinetics (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 9 - Chemical Kinetics (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 10 - Chemical Kinetics (Continued...) + Combustion Chemistry
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 11 - Combustion Chemistry (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 12 - Heat and Mass Transfer
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 13 - Heat and Mass Transfer + Coupling of Chemical Kinetics and Thermodynamics
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 14 - Coupling of Chemical Kinetics and Thermodynamics (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 15 - Coupling of Chemical Kinetics and Thermodynamics + Laminar Premixed Flames
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 16 - Laminar Premixed Flames (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 17 - Laminar Premixed Flames (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 18 - Laminar Premixed Flames (Continued...) + Laminar Non-Premixed Flames
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 19 - Laminar Non-Premixed Flames (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 20 - Laminar Non-Premixed Flames (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 21 - Laminar Non-Premixed Flames
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 22 - Laminar Non-Premixed Flames (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 23 - Laminar Non-Premixed Flames (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 24 - Laminar Non-Premixed Flames (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 25 - Laminar Non-Premixed Flames (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 26 - Laminar Non-Premixed Flames + Turbulence
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 27 - Turbulence : Introduction
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 28 - Turbulence : Introduction (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 29 - Turbulence : Flow Stability analysis
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 30 - Turbulence : Flow Stability analysis (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 31 - Turbulence : Stability and Burger's Equation
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 32 - Turbulence : Energy cascade, length scales and Statistical description
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 33 - Turbulence : Statistical analysis and free shear flows
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 34 - Turbulence : Free shear and wall bounded shear flows
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 35 - Turbulence : Turbulent boundary layer
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 36 - Turbulence
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 37 - Turbulence : Temperature effects and Modelling
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 38 - Turbulence : Modelling and statistics
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 39 - Turbulence : Modelling (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 40 - Turbulence : Modelling (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 41 - Turbulence : Chemistry Interaction
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 42 - Turbulence : Chemistry Interaction (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 43 - Turbulence : Chemistry Interaction (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 44 - Turbulence : Chemistry Interaction (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 45 - Turbulence : Chemistry Interaction (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 46 - Turbulent Combustion : Stochastic method of solution
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 47 - Turbulent Combustion : Transported scalar PDF model
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 48 - Turbulent Combustion : Transported joint velocity - scalar PDF model
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 49 - Turbulent Combustion : Modelling Turbulent Premixed Combustion
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 50 - Turbulent Combustion : Modelling Turbulent Premixed Combustion (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 51 - Turbulent Combustion : Modelling Turbulent Premixed Combustion (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 52 - Turbulent Combustion : Modelling Turbulent Premixed Combustion (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 53 - Turbulent Combustion : Modelling Turbulent Non-Premixed Combustion
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 54 - Turbulent Combustion : Modelling Turbulent Non-Premixed Combustion (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 55 - Turbulent Combustion : Modelling Turbulent Non-Premixed Combustion (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 56 - Turbulent Combustion : Modelling Turbulent Non-Premixed Combustion
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 57 - Turbulent Combustion : Modelling Turbulent Non-Premixed Combustion (Continued...)
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 58 - Multiphase Combustion : Introduction + Droplet Evaporation
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 59 - Multiphase Combustion : Droplet Combustion
Link NOC:Turbulent Combustion: Theory and Modelling Lecture 60 - Multiphase Combustion : Spray Combustion
Link NOC:Manufacturing Automation Lecture 1 - Introduction to Manufacturing Automation
Link NOC:Manufacturing Automation Lecture 2 - Various Aspects of Manufacturing Automation
Link NOC:Manufacturing Automation Lecture 3 - Part Transfer Mechanisms
Link NOC:Manufacturing Automation Lecture 4 - Automated Flow Lines
Link NOC:Manufacturing Automation Lecture 5 - Analysis of Automated Flow Lines
Link NOC:Manufacturing Automation Lecture 6 - Vibratory Bowl Feeder
Link NOC:Manufacturing Automation Lecture 7 - Analysis of Vibratory Bowl Feeder
Link NOC:Manufacturing Automation Lecture 8 - Reciprocating Tube Hopper Feeder
Link NOC:Manufacturing Automation Lecture 9 - Centreboard Hopper Feeder and its analysis
Link NOC:Manufacturing Automation Lecture 10 - Reciprocating fork and External Gate Hopper Feeders
Link NOC:Manufacturing Automation Lecture 11 - Rotary Disc Feeder and Centrifugal Hopper Feeder
Link NOC:Manufacturing Automation Lecture 12 - Bladed Wheel and Tumbling Barrel Hopper Feeders
Link NOC:Manufacturing Automation Lecture 13 - Rotary Centreboard and Magnetic Feeders
Link NOC:Manufacturing Automation Lecture 14 - Part Orienting Devices
Link NOC:Manufacturing Automation Lecture 15 - Feed Tracks and their analysis
Link NOC:Manufacturing Automation Lecture 16 - Powered Feed Track and Escapements
Link NOC:Manufacturing Automation Lecture 17 - Various Escapements and Part Placing Mechanisms
Link NOC:Manufacturing Automation Lecture 18 - Design for Automatic Assembly
Link NOC:Manufacturing Automation Lecture 19 - Performance and Economics of Assembly Systems
Link NOC:Manufacturing Automation Lecture 20 - Performance of Indexing and Free Transfer Machines
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 1 - Introduction to Computational Fluid Dynamics and Principles of Conservation
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 2 - Conservation of Mass and Momentum: Continuity and Navier Stokes Equation
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 3 - Navier Stokes Equation (Continued.)
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 4 - Energy Equation and General Structure of Conservation Equations
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 5 - Classification of Partial Differential Equations and Physical Behaviour
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 6 - Classification of Partial Differential Equations and Physical Behaviour (Continued.)
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 7 - Approximate Solutions of Differential Equations: Error Minimization Principles
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 8 - Approximate Solutions of Differential Equations: Variational Principles and Weighted Residual Approach
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 9 - Weighted Residual Approach and Introduction to Discretization
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 10 - Fundamentals of Discretization: Finite Element Method
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 11 - Fundamentals of Discretization: Finite Difference and Finite Volume Method
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 12 - Fundamentals of Discretization: Finite Volume Method (Continued.)
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 13 - Finite Volume Method: Some Conceptual Basics and Illustrations through 1-D Steady State Diffusion Problems
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 14 - Finite Volume Method: Boundary Condition Implementation and Discretization of Unsteady State Problems
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 15 - Finite Volume Method: Discretization of Unsteady State Problems
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 16 - Important Consequences of Discretization of Unsteady State Problems
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 17 - Important Consequences of Discretization of Time Dependent Diffusion Type Problems (Continued.) and Stability Analysis
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 18 - Discretization of Hyperbolic Equations: Stability Analysis
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 19 - PART 1 : Stability of Second Order Hyperbolic Equations PART 2 : Mid-Semester Assessment Review (Questions and Answers)
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 20 - PART 1: Mid-Semester Assessment Review (Questions and Answers) (Continued.) PART 2: Finite Volume Discretization of 2-D Unsteady State Diffusion Type
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 21 - Solution of Systems of Linear Algebraic Equations
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 22 - Solution of Systems of Linear Algebraic Equations: Elimination Methods
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 23 - Solution of Systems of Linear Algebraic Equations: Elimination Methods (Continued.)
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 24 - Elimination Methods: Error Analysis
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 25 - Iterative Methods for Numerical Solution of Systems of Linear Algebraic Equations
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 26 - Iterative Methods for Numerical Solution of Systems of Linear Algebraic Equations (Continued.)
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 27 - Iterative Methods: Further Examples
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 28 - PART 1: Combination of Iteration & Elimination Techniques PART 2: Introduction to Gradient Search Methods
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 29 - Gradient Search Methods (Continued.)
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 30 - Discretization of Convection-Diffusion Equations: A Finite Volume Approach
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 31 - Discretization of Convection-Diffusion Equations: A Finite Volume Approach (Continued.)
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 32 - Discretization of Convection- Diffusion Equations: A Finite Volume Approach (Continued.)
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 33 - Discretization of Convection -Diffusion Equations: A Finite Volume Approach (Continued.)
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 34 - Discretization of Convection-Diffusion Equations: A Finite Volume Approach ( Continued.)
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 35 - Discretization of Navier Stokes Equations
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 36 - Discretization of Navier Stokes Equations ( Continued.)
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 37 - Discretization of Navier Stokes Equations ( Continued. )
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 38 - PART 1 : Discretization of Navier Stokes Equations (Continued.) PART 2 : Fundamentals of Unstructured Grid Formulation
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 39 - Unstructured Grid Formulation (Continued.)
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 40 - What is there in implementing a CFD Code
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 41 - Introduction to Turbulence Modeling
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 42 - Introduction to Turbulence Modeling (Continued.)
Link Computational Fluid Dynamics (Prof. S. Chakraborty) Lecture 43 - End Semester Questions Review
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 1 - What is Hydraulic and Pneumatic System
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 2 - Basic Components, Symbols and Circuits
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 3 - Incompressible Fluids - Some Fundamental Properties
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 4 - Incompressible Fluid Flow related to Fluid Drive
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 5 - Capillary Fluid (incompressible) Flow and Hydrodynamic Lubrication
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 6 - Basis for Calculating Hydraulic Systems
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 7 - Different types of Valves - Features and Operations - I
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 8 - Hydraulic Valves (General) Different types of Valves - Features and Operations - II
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 9 - Hydraulic Circuits and Valves
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 10 - Hydraulic Servomechanism and Servo and Proportional Control Valves
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 11 - Basic Spool Valve Design Analysis
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 12 - General Control Valve Analysis
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 13 - Critical Centre Spool Valve Analysis
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 14 - Critical Centre Spool Valve Analysis - Stroking Forces
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 15 - Proportional Solenoid Pilot Operated Two Stage Pressure Relief Valve
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 16 - Proportional Solenoid Pilot Operated Two Stage Pressure Relief Valve (Continued...)
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 17 - Introduction to Positive Displacement Hydrostatic Units (Hydraulic Pumps and Motors)
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 18 - Basic features of some Hydraulic Pumps and Motors
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 19 - Analysis of an axial - Piston Swash Plate type Hydrostatic Pump (Discharge Flow Characteristics)
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 20 - Analysis of an axial - Piston Swash Plate type Hydrostatic Pump (Estimation of Torque on Drive Shaft and Swash Plate)
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 21 - Analysis of an Axial - Piston Swash Plate type Hydrostatic unit (Pressure Ripple and Swash Plate Torque)
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 22 - Design Analysis of Gear Pumps - I
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 23 - Design Analysis of Gear Pumps - II
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 24 - Basic Concept of Hydrostatic Transmission (HST) System
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 25 - Selection of HST units and components
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 26 - Regenerative Circuits
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 27 - Introduction to Fluid Logic
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 28 - Basic Devices, Symbols and Circuits
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 29 - Logic Circuits
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 30 - Design Analysis of ORBIT Motor - I : Basic Design and Feature
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 31 - Design Analysis of ORBIT Motor - II : Geometric Volume Displacement
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 32 - Design Analysis of ORBIT Motor - III : Output torque and stress, Deformation, Gap at Contacts
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 33 - Application and Selection of Accumulators - Part I
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 34 - Application and Selection of Accumulators - Part II
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 35 - Hydraulic Circuits in Industrial Applications
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 36 - Air preparation - Compressor and Accessories
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 37 - Pneumatic Circuits
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 38 - Analysis of Three - Way (Spool and Flapper Nozzle Valve)
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 39 - Analysis of Flapper Nozzle Valves
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 40 - Flow Force Compensation and Spool Design (Electro - hydraulic valves)
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 41 - Premier and Guide to Oil - hydraulic fluids ; and Introduction to Fluid Power Symbols
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 42 - Symbols in Oil Hydraulics
Link Fundamentals of Industrial Oil Hydraulics and Pneumatics Lecture 43 - Appendices Tutorial on Basic Calculation on HST System and Hydraulic Fluids
Link Machinery fault diagnosis and signal processing Lecture 1 - Introduction
Link Machinery fault diagnosis and signal processing Lecture 2 - Principles of Maintenance
Link Machinery fault diagnosis and signal processing Lecture 3 - Failure Modes Effects and Criticality Analysis
Link Machinery fault diagnosis and signal processing Lecture 4 - Fault Diagnostics and Prognostics
Link Machinery fault diagnosis and signal processing Lecture 5 - Basics of Machinery Vibration
Link Machinery fault diagnosis and signal processing Lecture 6 - Engineering Applications of Vibration
Link Machinery fault diagnosis and signal processing Lecture 7 - Rotordynamics
Link Machinery fault diagnosis and signal processing Lecture 8 - Time Domain Signal Analysis
Link Machinery fault diagnosis and signal processing Lecture 9 - Frequency Domain Signal Analysis
Link Machinery fault diagnosis and signal processing Lecture 10 - Computer Aided Data Acquisition
Link Machinery fault diagnosis and signal processing Lecture 11 - FFT Analysis
Link Machinery fault diagnosis and signal processing Lecture 12 - Modulation and Sidebands
Link Machinery fault diagnosis and signal processing Lecture 13 - Envelope Analysis
Link Machinery fault diagnosis and signal processing Lecture 14 - Cepstrum Analysis
Link Machinery fault diagnosis and signal processing Lecture 15 - Order Analysis
Link Machinery fault diagnosis and signal processing Lecture 16 - Basics of Instrumentation
Link Machinery fault diagnosis and signal processing Lecture 17 - Sensors and Transducers
Link Machinery fault diagnosis and signal processing Lecture 18 - Data Recording and Transmission
Link Machinery fault diagnosis and signal processing Lecture 19 - Vibration Transducers
Link Machinery fault diagnosis and signal processing Lecture 20 - Vibration Monitoring
Link Machinery fault diagnosis and signal processing Lecture 21 - Basics of Noise and Noise Monitoring
Link Machinery fault diagnosis and signal processing Lecture 22 - Numericals in Noise Vibration and Data Acquisition
Link Machinery fault diagnosis and signal processing Lecture 23 - Unbalance Detection
Link Machinery fault diagnosis and signal processing Lecture 24 - Field Balancing
Link Machinery fault diagnosis and signal processing Lecture 25 - Misalignment Detection
Link Machinery fault diagnosis and signal processing Lecture 26 - Cracked Shaft Detection
Link Machinery fault diagnosis and signal processing Lecture 27 - Looseness and Rub Detection
Link Machinery fault diagnosis and signal processing Lecture 28 - Ball and Journal Bearings
Link Machinery fault diagnosis and signal processing Lecture 29 - Gear Fault Detection
Link Machinery fault diagnosis and signal processing Lecture 30 - Fans, Blowers and Compressors
Link Machinery fault diagnosis and signal processing Lecture 31 - Pumps and Turbines
Link Machinery fault diagnosis and signal processing Lecture 32 - Contaminant Analysis
Link Machinery fault diagnosis and signal processing Lecture 33 - Oil Analysis
Link Machinery fault diagnosis and signal processing Lecture 34 - Fault Detection in Motors and Transformers
Link Machinery fault diagnosis and signal processing Lecture 35 - Motor Current Signature Analysis
Link Machinery fault diagnosis and signal processing Lecture 36 - Thermography
Link Machinery fault diagnosis and signal processing Lecture 37 - Ultrasonics
Link Machinery fault diagnosis and signal processing Lecture 38 - Acoustic Emission and Eddy Current Testing
Link Machinery fault diagnosis and signal processing Lecture 39 - Radiography,Dye Penetrant Test and Visual Inspection
Link Machinery fault diagnosis and signal processing Lecture 40 - Case Studies
Link Solar Energy Technology Lecture 1 - Energy and Dependence on External Sources and Sun, Physical Descriptions and Reactions
Link Solar Energy Technology Lecture 2 - Sun - Earth Geometry
Link Solar Energy Technology Lecture 3 - Terminology Extra - Terrestrial Radiation Terrestria Radiation
Link Solar Energy Technology Lecture 4 - Measuring Instruments
Link Solar Energy Technology Lecture 5 - Estimation of Solar Radiation or Details
Link Solar Energy Technology Lecture 6 - Radiation Processing - Long Term
Link Solar Energy Technology Lecture 7 - Evaluation of the Apparent Sunrise and Sunset Angles
Link Solar Energy Technology Lecture 8 - Estimation of Daily/Monthly Average daily Tilt Factor Under Terrestrial Conditions
Link Solar Energy Technology Lecture 9 - Solar Colector Basics
Link Solar Energy Technology Lecture 10 - Transmission - Absorptance Product
Link Solar Energy Technology Lecture 11 - Daily (Or Monthly Average Daily) Transmittance - Absorptance Product Analytical Evaluation
Link Solar Energy Technology Lecture 12 - Theory of Flat Plate Collectors - Liquid Based (A)
Link Solar Energy Technology Lecture 13 - Theory of Flat Plate Collectors - Liquid Based (B)
Link Solar Energy Technology Lecture 14 - Theory of Flat Plate Collectors - Liquid Based (C)
Link Solar Energy Technology Lecture 15 - Mean temperature and Heat Capacity Effects
Link Solar Energy Technology Lecture 16 - Theory of Air Based Solar Flat Plate Collectors
Link Solar Energy Technology Lecture 17 - Theory of Air Based Solar Flat Plate Collectors (Continued.)
Link Solar Energy Technology Lecture 18 - Other Collector Geometries
Link Solar Energy Technology Lecture 19 - Concentrating Collectors
Link Solar Energy Technology Lecture 20 - Concentrating Collectors (Continued.)
Link Solar Energy Technology Lecture 21 - Concentrating Collectors (Continued.)
Link Solar Energy Technology Lecture 22 - Compound Parabolic Collectors
Link Solar Energy Technology Lecture 23 - Exercise - I
Link Solar Energy Technology Lecture 24 - Exercise - I (Continued.)
Link Solar Energy Technology Lecture 25 - Device and System Performance
Link Solar Energy Technology Lecture 26 - Long Term Solar Energy System Performance
Link Solar Energy Technology Lecture 27 - Exercise - I (Continued.)
Link Solar Energy Technology Lecture 28 - Long Term Solar Energy System Performance Simplified Design Methods
Link Solar Energy Technology Lecture 29 - Long Term Solar Energy System Performance Simplified Design Methods (Continued.)
Link Solar Energy Technology Lecture 30 - Monthly Average Daily Utilizability
Link Solar Energy Technology Lecture 31 - The phi(bar) - f chart method (Continued.)
Link Solar Energy Technology Lecture 32 - The phi(bar) - f chart method Tank Losses and Finite Heat Exchanger
Link Solar Energy Technology Lecture 33 - Exercise - 2
Link Solar Energy Technology Lecture 34 - Exercise - 2 (Continued.)
Link Solar Energy Technology Lecture 35 - Exercise - 2 (Continued.)
Link Solar Energy Technology Lecture 36 - Economic Analysis
Link Solar Energy Technology Lecture 37 - Life Cycle Savings : The P1 and P2 Method
Link Solar Energy Technology Lecture 38 - Passive Devices
Link Solar Energy Technology Lecture 39 - Passive Architecture, Overhangs and Wing Walls
Link Solar Energy Technology Lecture 40 - Passive Architecture, Overhangs and Wing Walls (Continued.)
Link Solar Energy Technology Lecture 41 - Summary
Link Solar Energy Technology Lecture 42 - Summary (Continued.)
Link Solar Energy Technology Lecture 43 - Summary (Continued.)
Link Technology of Surface Coating Lecture 1 - Introduction
Link Technology of Surface Coating Lecture 2 - CVD Reaction
Link Technology of Surface Coating Lecture 3 - Adhesion of Surface Coating
Link Technology of Surface Coating Lecture 4 - CVD System
Link Technology of Surface Coating Lecture 5 - CDV of Tic
Link Technology of Surface Coating Lecture 6 - Chemical Vapour Deposition of Nitride Coating
Link Technology of Surface Coating Lecture 7 - Chemical Vapour Deposition of Carbo-Nitride Coating
Link Technology of Surface Coating Lecture 8 - Chemical Vapour Deposition of Cromium
Link Technology of Surface Coating Lecture 9 - Chemical Vapour Deposition of Aluminium Oxide
Link Technology of Surface Coating Lecture 10 - Chemical Vapour Deposition of Diamond
Link Technology of Surface Coating Lecture 11 - Vacuum Evaporation Deposition
Link Technology of Surface Coating Lecture 12 - Reactive Evaporation Deposition
Link Technology of Surface Coating Lecture 13 - Cathodic Arc Evaporation Deposition
Link Technology of Surface Coating Lecture 14 - Sputtering
Link Technology of Surface Coating Lecture 15 - Magnetron Sputtering
Link Technology of Surface Coating Lecture 16 - Unbalanced Magnetron Sputtering
Link Technology of Surface Coating Lecture 17 - Radio frequency and pulsed DC sputtering
Link Technology of Surface Coating Lecture 18 - Sputter Deposition of Nitride Coating
Link Technology of Surface Coating Lecture 19 - Sputter Deposition of Molybdenum Di Sulphide Coating
Link Technology of Surface Coating Lecture 20 - Influence of Architecture of Sputter Deposited Molybdenum Di Sulphide Coating
Link Technology of Surface Coating Lecture 21 - Electro Plating,Anodizing and Electro-Less Plating
Link Technology of Surface Coating Lecture 22 - Coating of Monolayer Abrasive Grain by Electro Plating
Link Technology of Surface Coating Lecture 23 - Mechansim of Wetting
Link Technology of Surface Coating Lecture 24 - Coating on Ceramics by Wetting
Link Technology of Surface Coating Lecture 25 - Coating of Monolayer Abrasive Grain by Wetting
Link Technology of Surface Coating Lecture 26 - Coating on Abrasive Grain
Link Technology of Surface Coating Lecture 27 - Combustion Spray Process
Link Technology of Surface Coating Lecture 28 - Plasma Spray Process
Link Technology of Surface Coating Lecture 29 - Mechanical, Chemical and Ion-Assisted Method
Link Technology of Surface Coating Lecture 30 - Combustion Spray Process
Link Technology of Surface Coating Lecture 31 - Production of Low Vacuum
Link Technology of Surface Coating Lecture 32 - Production of High Vacuum
Link Technology of Surface Coating Lecture 33 - Measurement of Low Pressure and Gas Flow in Coating Deposition System
Link Technology of Surface Coating Lecture 34 - Physical Characterization
Link Technology of Surface Coating Lecture 35 - Assessment of Coating Hardness
Link Technology of Surface Coating Lecture 36 - Assessment of Friction and Wear of Coating
Link Technology of Surface Coating Lecture 37 - Assessment of Surface Roughness and Thickness of Coating
Link Technology of Surface Coating Lecture 38 - Assessment of Adhesion of Coating
Link Technology of Surface Coating Lecture 39 - Performance Evaluation of TiN Coated Tool
Link Technology of Surface Coating Lecture 40 - Performance Evaluation of HFCVD Diamond Coated Tool
Link Vibration of Structures Lecture 1 - Transverse Vibrations of Strings - I
Link Vibration of Structures Lecture 2 - Transverse Vibrations of Strings - II
Link Vibration of Structures Lecture 3 - Axial and Torsional Vibrations of Bars
Link Vibration of Structures Lecture 4 - Variational Formulation - I
Link Vibration of Structures Lecture 5 - Variational Formulation - II
Link Vibration of Structures Lecture 6 - Modal Analysis - I
Link Vibration of Structures Lecture 7 - Modal Analysis - II
Link Vibration of Structures Lecture 8 - Properties of the Eigenvalue Problem
Link Vibration of Structures Lecture 9 - Modal Analysis: Approximate Methods - I
Link Vibration of Structures Lecture 10 - Modal Analysis: Approximate Methods - II
Link Vibration of Structures Lecture 11 - The Initial Value Problem
Link Vibration of Structures Lecture 12 - Forced Vibration Analysis - I
Link Vibration of Structures Lecture 13 - Forced Vibration Analysis - II
Link Vibration of Structures Lecture 14 - Forced Vibration Analysis - III
Link Vibration of Structures Lecture 15 - Damping in Structures
Link Vibration of Structures Lecture 16 - Axially Translating Strings
Link Vibration of Structures Lecture 17 - d' Alembert's Solution - I
Link Vibration of Structures Lecture 18 - d' Alembert's Solution - II
Link Vibration of Structures Lecture 19 - Harmonic Waves and Energetics of Wave Motion
Link Vibration of Structures Lecture 20 - Scattering of Waves
Link Vibration of Structures Lecture 21 - Applications of Wave Solution - I
Link Vibration of Structures Lecture 22 - Applications of Wave Solution - II
Link Vibration of Structures Lecture 23 - Beam Models - I
Link Vibration of Structures Lecture 24 - Beam Models - II
Link Vibration of Structures Lecture 25 - Modal Analysis of Beams
Link Vibration of Structures Lecture 26 - Applications of Modal Solution
Link Vibration of Structures Lecture 27 - Approximate Methods
Link Vibration of Structures Lecture 28 - Topic in Beam Vibration - I
Link Vibration of Structures Lecture 29 - Topic in Beam Vibration - II
Link Vibration of Structures Lecture 30 - Wave Propagation in Beams
Link Vibration of Structures Lecture 31 - Dynamics of Curved Beams
Link Vibration of Structures Lecture 32 - Vibrations of Rings and Arches
Link Vibration of Structures Lecture 33 - Dynamics of Membranes
Link Vibration of Structures Lecture 34 - Vibrations of Rectangular Membrane
Link Vibration of Structures Lecture 35 - Vibrations of Circular Membrane
Link Vibration of Structures Lecture 36 - Special Problems in Membrane Vibrations
Link Vibration of Structures Lecture 37 - Dynamics of Plates
Link Vibration of Structures Lecture 38 - Vibrations of Rectangular Plates
Link Vibration of Structures Lecture 39 - Vibrations of Circular Plates
Link Vibration of Structures Lecture 40 - Special Problems in Plate Vibrations
Link Basic Thermodynamics Lecture 1 - Introduction and Fundamental Concepts
Link Basic Thermodynamics Lecture 2 - Zeroth Law and Fundamental Concepts
Link Basic Thermodynamics Lecture 3 - Different Kind of Energy and First Low - I
Link Basic Thermodynamics Lecture 4 - First Low - II
Link Basic Thermodynamics Lecture 5 - First Low - III
Link Basic Thermodynamics Lecture 6 - Second Law and Its Corollaries - I
Link Basic Thermodynamics Lecture 7 - Second Law and Its Corollaries - II
Link Basic Thermodynamics Lecture 8 - Second Law and Its Corollaries - III
Link Basic Thermodynamics Lecture 9 - Second Law and Its Corollaries - IV
Link Basic Thermodynamics Lecture 10 - Second Law and Available Energy - I
Link Basic Thermodynamics Lecture 11 - Second Law and Available Energy - II
Link Basic Thermodynamics Lecture 12 - Second Law and Available Energy - III
Link Basic Thermodynamics Lecture 13 - Thermodynamic Property Relations - I
Link Basic Thermodynamics Lecture 14 - Thermodynamic Property Relations - II
Link Basic Thermodynamics Lecture 15 - Joule-Kelvin Expansion: Properties of Pure Substances
Link Basic Thermodynamics Lecture 16 - Properties of Pure Substances - I
Link Basic Thermodynamics Lecture 17 - Properties of Pure Substances - II
Link Basic Thermodynamics Lecture 18 - Properties of Pure Substances: Ideal Gases
Link Basic Thermodynamics Lecture 19 - Properties of Ideal Gases
Link Basic Thermodynamics Lecture 20 - Vapors Power Cycle - I
Link Basic Thermodynamics Lecture 21 - Vapor Power Cycle - II
Link Basic Thermodynamics Lecture 22 - Vapor Power Cycle - III
Link Basic Thermodynamics Lecture 23 - Vapor Power Cycle - IV
Link Basic Thermodynamics Lecture 24 - Gas Power Cycle - I
Link Basic Thermodynamics Lecture 25 - Gas Power Cycle - II
Link Basic Thermodynamics Lecture 26 - Gas Power Cycle - III
Link Basic Thermodynamics Lecture 27 - Thermodynamics of Reacting System - I
Link Basic Thermodynamics Lecture 28 - Thermodynamics of Reacting System - II
Link Basic Thermodynamics Lecture 29 - Thermodynamics of Reacting System - III
Link Basic Thermodynamics Lecture 30 - Thermodynamics of Multi Component System - I
Link Basic Thermodynamics Lecture 31 - Thermodynamics of Multi Component System - II
Link Basic Thermodynamics Lecture 32 - Thermodynamics of Multi Component System - III
Link Design of Machine Elements I Lecture 1 - Design Philosophy
Link Design of Machine Elements I Lecture 2 - Design And Manufacturing
Link Design of Machine Elements I Lecture 3 - Engineering Materials
Link Design of Machine Elements I Lecture 4 - Engineering Materials
Link Design of Machine Elements I Lecture 5 - Simple Stresses In Machine Elements
Link Design of Machine Elements I Lecture 6 - Simple Stresses In Machine Elements
Link Design of Machine Elements I Lecture 7 - Compound Stresses In Machine Elements
Link Design of Machine Elements I Lecture 8 - Design For Strength
Link Design of Machine Elements I Lecture 9 - Design for Strength
Link Design of Machine Elements I Lecture 10 - Design For Strength
Link Design of Machine Elements I Lecture 11 - Design for Strength
Link Design of Machine Elements I Lecture 12 - Design for Strength
Link Design of Machine Elements I Lecture 13 - Design of Fasteners - I
Link Design of Machine Elements I Lecture 14 - Design of Fasteners - II
Link Design of Machine Elements I Lecture 15 - Design Of Keys and Splines
Link Design of Machine Elements I Lecture 16 - Threaded Fasteners
Link Design of Machine Elements I Lecture 17 - Design Of Threaded Fasteners
Link Design of Machine Elements I Lecture 18 - Power Screws
Link Design of Machine Elements I Lecture 19 - Design Of Power Screws
Link Design of Machine Elements I Lecture 20 - Shaft Coupling - I
Link Design of Machine Elements I Lecture 21 - Shaft Coupling - II
Link Design of Machine Elements I Lecture 22 - Rivet Joints
Link Design of Machine Elements I Lecture 23 - Design of Welded Joints - I
Link Design of Machine Elements I Lecture 24 - Design of Welded Joints - II
Link Design of Machine Elements I Lecture 25 - Design of Joints With Eccentric Loading
Link Design of Machine Elements I Lecture 26 - Design of Joints With Variable Loading
Link Design of Machine Elements I Lecture 27 - Design of Springs
Link Design of Machine Elements I Lecture 28 - Design Of Springs
Link Design of Machine Elements I Lecture 29 - Design Of Springs
Link Design of Machine Elements I Lecture 30 - Belt Drives
Link Design of Machine Elements I Lecture 31 - Belt Drives
Link Design of Machine Elements I Lecture 32 - Belt Drives
Link Design of Machine Elements I Lecture 33 - Design for Strength
Link Design of Machine Elements I Lecture 34 - Design of Shafts
Link Design of Machine Elements I Lecture 35 - Design of Machine Elements - I (V & W)
Link Design of Machine Elements I Lecture 36 - Design of Machine Elements - II (V & W)
Link Design of Machine Elements I Lecture 37 - Design of Cylinders & Pressure Vessels - II
Link Design of Machine Elements I Lecture 38 - Design of Cylinders & Pressure Vessels - III
Link Design of Machine Elements I Lecture 39 - Design of Brakes - I
Link Design of Machine Elements I Lecture 40 - Design of Brakes - II
Link Manufacturing Processes II Lecture 1 - Instructional Objectives - I (Manufacturing Process II)
Link Manufacturing Processes II Lecture 2 - Instructional Objectives - II
Link Manufacturing Processes II Lecture 3 - On Tool Geometry
Link Manufacturing Processes II Lecture 4 - Interrelations Among The Tool Angles
Link Manufacturing Processes II Lecture 5 - Mechanism of Chip Formation
Link Manufacturing Processes II Lecture 6 - Orthogonal and Oblique Cutting
Link Manufacturing Processes II Lecture 7 - Use of Chip Breaker in Machining
Link Manufacturing Processes II Lecture 8 - Machining Forces
Link Manufacturing Processes II Lecture 9 - Analytical and Experimental
Link Manufacturing Processes II Lecture 10 - Dynamometers for Measuring Cutting Forces
Link Manufacturing Processes II Lecture 11 - CTCEAC
Link Manufacturing Processes II Lecture 12 - CCTCFA
Link Manufacturing Processes II Lecture 13 - Concept of Machinability and its Improvement
Link Manufacturing Processes II Lecture 14 - Tool Life
Link Manufacturing Processes II Lecture 15 - Conventional Cutting Tool Maths
Link Manufacturing Processes II Lecture 16 - Advanced Tool Materials
Link Manufacturing Processes II Lecture 17 - Kinematics System of Centre Lathe
Link Manufacturing Processes II Lecture 18 - General Purpose Machine Tool Drills
Link Manufacturing Processes II Lecture 19 - Kinematic Systems and Operations
Link Manufacturing Processes II Lecture 20 - Configuration and Kinematic System
Link Manufacturing Processes II Lecture 21 - Mounting of jobs and Cutting Tools in Machine
Link Manufacturing Processes II Lecture 22 - Mounting of jobs and Cutting Tools in Machine
Link Manufacturing Processes II Lecture 23 - Construction, Operation and Tool Layout
Link Manufacturing Processes II Lecture 24 - Use of Attachments In Machine Tools
Link Manufacturing Processes II Lecture 25 - Forces Developing and Acting In Machine Tools
Link Manufacturing Processes II Lecture 26 - Estimation of Machining Time
Link Manufacturing Processes II Lecture 27 - Broaching - Principle Systems and Applications
Link Manufacturing Processes II Lecture 28 - Grinding Principle and Application
Link Manufacturing Processes II Lecture 29 - Abrasive Processes
Link Manufacturing Processes II Lecture 30 - Abrasive Processes (Grinding)
Link Manufacturing Processes II Lecture 31 - Super finishing Processes
Link Manufacturing Processes II Lecture 32 - Production of Screw Threads
Link Manufacturing Processes II Lecture 33 - Gear Manufacturing
Link Manufacturing Processes II Lecture 34 - Jigs and Fixtures For Machine Shops
Link Manufacturing Processes II Lecture 35 - Design and Applications of Jigs and Fixtures
Link Manufacturing Processes II Lecture 36 - Non Traditional Manufacturing
Link Manufacturing Processes II Lecture 37 - Ultrasonic Machining
Link Manufacturing Processes II Lecture 38 - Water Jet Machining and Abrasive Water Jet
Link Manufacturing Processes II Lecture 39 - Electro - Chemical Machining
Link Manufacturing Processes II Lecture 40 - Electro - Discharge Machining
Link Manufacturing Processes II Lecture 41 - EBM and LBM
Link Refrigeration and Air Conditioning Lecture 1 - History of Refrigeration
Link Refrigeration and Air Conditioning Lecture 2 - Refrigerant Compressors & Development
Link Refrigeration and Air Conditioning Lecture 3 - Applications of RTAC
Link Refrigeration and Air Conditioning Lecture 4 - Review of Fundamentals Thermodynamics - I
Link Refrigeration and Air Conditioning Lecture 5 - Review of Fundamentals
Link Refrigeration and Air Conditioning Lecture 6 - Fundamentals of Fluid Flow
Link Refrigeration and Air Conditioning Lecture 7 - Fundamentals of Heat Transfer
Link Refrigeration and Air Conditioning Lecture 8 - Methods of Producing low Temperatures
Link Refrigeration and Air Conditioning Lecture 9 - Air Cycle Refrigeration Systems
Link Refrigeration and Air Conditioning Lecture 10 - Vapour Compression Refrigeration Systems
Link Refrigeration and Air Conditioning Lecture 11 - Vapour Compression Refrigeration Systems (Continued...)
Link Refrigeration and Air Conditioning Lecture 12 - Vapour Compression Refrigeration Systems (Continued...)
Link Refrigeration and Air Conditioning Lecture 13 - Vapour Compression Refrigeration Systems (Continued...)
Link Refrigeration and Air Conditioning Lecture 14 - Vapour Absorption Refrigeration Systems
Link Refrigeration and Air Conditioning Lecture 15 - Vapour Absorption Refrigeration System
Link Refrigeration and Air Conditioning Lecture 16 - Vapour Absorption Refrigeration Systems (Continued...)
Link Refrigeration and Air Conditioning Lecture 17 - Vapour Absorption Refrigeration Systems (Continued...)
Link Refrigeration and Air Conditioning Lecture 18 - Worked Out Examples - I
Link Refrigeration and Air Conditioning Lecture 19 - Worked Out Examples - II
Link Refrigeration and Air Conditioning Lecture 20 - Refrigeration System Components : Compressor
Link Refrigeration and Air Conditioning Lecture 21 - Refrigeration System Components : Compressor (Continued...)
Link Refrigeration and Air Conditioning Lecture 22 - Refrigeration System Components : Compressor (Continued...)
Link Refrigeration and Air Conditioning Lecture 23 - Refrigeration System Components : Compressor (Continued...)
Link Refrigeration and Air Conditioning Lecture 24 - Refrigeration System Components : Compressor (Continued...)
Link Refrigeration and Air Conditioning Lecture 25 - Refrigeration System Components : Compressor (Continued...)
Link Refrigeration and Air Conditioning Lecture 26 - Refrigeration System Components : Condensers
Link Refrigeration and Air Conditioning Lecture 27 - Refrigeration System Components : Condensers (Continued...)
Link Refrigeration and Air Conditioning Lecture 28 - Refrigeration System Components : Evaporators
Link Refrigeration and Air Conditioning Lecture 29 - Refrigeration System Components : Evaporators
Link Refrigeration and Air Conditioning Lecture 30 - Refrigeration System Components : Expansion Devices
Link Refrigeration and Air Conditioning Lecture 31 - Refrigeration System Components : Expansion Devices
Link Refrigeration and Air Conditioning Lecture 32 - Analysis of Complete Vapour Compression System
Link Refrigeration and Air Conditioning Lecture 33 - Refrigerants
Link Refrigeration and Air Conditioning Lecture 34 - Psychrometry
Link Refrigeration and Air Conditioning Lecture 35 - Psychrometric Processes
Link Refrigeration and Air Conditioning Lecture 36 - Inside Design Condition Thermal Comfort
Link Refrigeration and Air Conditioning Lecture 37 - Psychrometry of Air Conditioning Systems
Link Refrigeration and Air Conditioning Lecture 38 - Air Conditioning Systems
Link Refrigeration and Air Conditioning Lecture 39 - Cooling and Heating Load Calculation : Solar Radiation
Link Refrigeration and Air Conditioning Lecture 40 - Cooling and Heating Load Calculations
Link Refrigeration and Air Conditioning Lecture 41 - Cooling and Heating Load Calculations (Continued...)
Link Refrigeration and Air Conditioning Lecture 42 - Cooling and Heating Load Calculations (Continued...)
Link Refrigeration and Air Conditioning Lecture 43 - Selection of Air Conditioning Systems
Link Refrigeration and Air Conditioning Lecture 44 - Transmission and Distribution of Air
Link Refrigeration and Air Conditioning Lecture 45 - Transmission and Distribution of Air (Continued..)
Link Refrigeration and Air Conditioning Lecture 46 - Space Air Distribution
Link Fluid Mechanics Lecture 1 - Introduction and Fundamental Concepts - Part I
Link Fluid Mechanics Lecture 2 - Introduction and Fundamental Concepts - Part II
Link Fluid Mechanics Lecture 3 - Introduction and Fundamental Concepts - Part III
Link Fluid Mechanics Lecture 4 - Fluid Statics - Part I
Link Fluid Mechanics Lecture 5 - Fluid Statics - Part II
Link Fluid Mechanics Lecture 6 - Fluid Statics - Part III
Link Fluid Mechanics Lecture 7 - Fluid Statics - Part IV
Link Fluid Mechanics Lecture 8 - Fluid Statics - Part V
Link Fluid Mechanics Lecture 9 - Fluid Statics - Part VI
Link Fluid Mechanics Lecture 10 - Kinematics of Fluid - Part I
Link Fluid Mechanics Lecture 11 - Kinematics of Fluid - Part II
Link Fluid Mechanics Lecture 12 - Kinematics of Fluid - Part III
Link Fluid Mechanics Lecture 13 - Conservation Equations in Fluid Flow - Part I
Link Fluid Mechanics Lecture 14 - Conservation Equations in Fluid Flow - Part II
Link Fluid Mechanics Lecture 15 - Conservation Equations in Fluid Flow - Part III
Link Fluid Mechanics Lecture 16 - Conservation Equations in Fluid Flow - Part IV
Link Fluid Mechanics Lecture 17 - Conservation Equations in Fluid Flow - Part V
Link Fluid Mechanics Lecture 18 - Conservation Equations in Fluid Flow - Part VI
Link Fluid Mechanics Lecture 19 - Conservation Equations in Fluid Flow - Part VII
Link Fluid Mechanics Lecture 20 - Conservation Equations in Fluid Flow - Part VIII
Link Fluid Mechanics Lecture 21 - Conservation Equations in Fluid Flow - Part IX
Link Fluid Mechanics Lecture 22 - Fluid Flow Applications - Part I
Link Fluid Mechanics Lecture 23 - Fluid Flow Applications - Part II
Link Fluid Mechanics Lecture 24 - Fluid Flow Applications - Part III
Link Fluid Mechanics Lecture 25 - Fluid Flow Applications - Part IV
Link Fluid Mechanics Lecture 26 - Fluid Flow Applications - Part V
Link Fluid Mechanics Lecture 27 - Fluid Flow Applications - Part VI
Link Fluid Mechanics Lecture 28 - Fluid Flow Applications - Part VII
Link Fluid Mechanics Lecture 29 - Incompressible Viscous Flows - Part I
Link Fluid Mechanics Lecture 30 - Incompressible Viscous Flows - Part II
Link Fluid Mechanics Lecture 31 - Incompressible Viscous Flows - Part III
Link Fluid Mechanics Lecture 32 - Incompressible Viscous Flows - Part IV
Link Fluid Mechanics Lecture 33 - Application of ViscousFlow Through Pipes - Part I
Link Fluid Mechanics Lecture 34 - Application of ViscousFlow Through Pipes - Part II
Link Fluid Mechanics Lecture 35 - Application of ViscousFlow Through Pipes - Part III
Link Fluid Mechanics Lecture 36 - Principles of Similarity - Part I
Link Fluid Mechanics Lecture 37 - Principles of Similarity - Part II
Link Fluid Mechanics Lecture 38 - Principles of Similarity - Part III
Link Fluid Mechanics Lecture 39 - Flow of Ideal Fluids - Part I
Link Fluid Mechanics Lecture 40 - Flow of Ideal Fluids - Part II
Link Fluid Mechanics Lecture 41 - Flows with a Free Surface - Part I
Link Fluid Mechanics Lecture 42 - Flows with a Free Surface - Part II
Link Fluid Mechanics Lecture 43 - Flows with a Free Surface - Part III
Link Fluid Mechanics Lecture 44 - A Few Unsteady Flow Phenomena in Practice - Part I
Link Fluid Mechanics Lecture 45 - A Few Unsteady Flow Phenomena in Practice - Part II
Link Fluid Mechanics Lecture 46 - Introduction to Laminar Boundary Layer - Part I
Link Fluid Mechanics Lecture 47 - Introduction to Laminar Boundary Layer - Part II
Link Fluid Mechanics Lecture 48 - Introduction to Turbulent Flow - Part I
Link Fluid Mechanics Lecture 49 - Introduction to Turbulent Flow - Part II
Link Introduction to Fluid Machines and Compressible Flow Lecture 1 - Introduction to Fluid Machines 1
Link Introduction to Fluid Machines and Compressible Flow Lecture 2 - Energy Transfer in Fluid Machines Part - I
Link Introduction to Fluid Machines and Compressible Flow Lecture 3 - Energy Transfer in Fluid Machines Part - II
Link Introduction to Fluid Machines and Compressible Flow Lecture 4 - Energy Transfer - impulse and Reaction Machines, efficiencies of Fluid Machines
Link Introduction to Fluid Machines and Compressible Flow Lecture 5 - Principles of Similarity in Fluid Machines
Link Introduction to Fluid Machines and Compressible Flow Lecture 6 - Concept of specific speed and introduction to Impulse Hydraulic Turbine
Link Introduction to Fluid Machines and Compressible Flow Lecture 7 - Analysis of force on the Bucket of Pelton wheel and Power Generation
Link Introduction to Fluid Machines and Compressible Flow Lecture 8 - Specific speed, Governing and Limitation of a Pelton Turbine
Link Introduction to Fluid Machines and Compressible Flow Lecture 9 - Introduction to reaction Type of Hydraulic Turbine - A Francis Turbine
Link Introduction to Fluid Machines and Compressible Flow Lecture 10 - Analysis of Force on Francis Runner and Power Generation
Link Introduction to Fluid Machines and Compressible Flow Lecture 11 - Axial Flow Machine and Draft Tube
Link Introduction to Fluid Machines and Compressible Flow Lecture 12 - Governing of Reaction Turbine
Link Introduction to Fluid Machines and Compressible Flow Lecture 13 - Introduction to Rotodynamic Pumps
Link Introduction to Fluid Machines and Compressible Flow Lecture 14 - Flow and Energy Transfer in a Centrifugal Pump
Link Introduction to Fluid Machines and Compressible Flow Lecture 15 - Characteristics of a Centrifugal Pump
Link Introduction to Fluid Machines and Compressible Flow Lecture 16 - Matching of Pump and System Characteristics
Link Introduction to Fluid Machines and Compressible Flow Lecture 17 - Diffuser and Cavitation
Link Introduction to Fluid Machines and Compressible Flow Lecture 18 - Axial Flow Pump
Link Introduction to Fluid Machines and Compressible Flow Lecture 19 - Reciprocating Pump - Part I
Link Introduction to Fluid Machines and Compressible Flow Lecture 20 - Reciprocating Pump - Part II
Link Introduction to Fluid Machines and Compressible Flow Lecture 21 - Centrifugal Compressor - Part I
Link Introduction to Fluid Machines and Compressible Flow Lecture 22 - Centrifugal Compressor - Part II
Link Introduction to Fluid Machines and Compressible Flow Lecture 23 - Centrifugal Compressor - Part III
Link Introduction to Fluid Machines and Compressible Flow Lecture 24 - Axial Flow Compressor - Part I
Link Introduction to Fluid Machines and Compressible Flow Lecture 25 - Axial Flow Compressor - Part II
Link Introduction to Fluid Machines and Compressible Flow Lecture 26 - Introduction to Compressible Flow - Part I
Link Introduction to Fluid Machines and Compressible Flow Lecture 27 - Introduction to Compressible Flow - Part II
Link Introduction to Fluid Machines and Compressible Flow Lecture 28 - Thermodynamic Relations and Speed of Sound
Link Introduction to Fluid Machines and Compressible Flow Lecture 29 - Disturbance propagation, Stagnation and Sonic Properties
Link Introduction to Fluid Machines and Compressible Flow Lecture 30 - Effects of Area Variation on Properties in an Isentropic Flow
Link Introduction to Fluid Machines and Compressible Flow Lecture 31 - Choking in a Converging Nozzle
Link Introduction to Fluid Machines and Compressible Flow Lecture 32 - Isentropic Flow through Convergent - Divergent Duct
Link Introduction to Fluid Machines and Compressible Flow Lecture 33 - Normal Shock - Part I
Link Introduction to Fluid Machines and Compressible Flow Lecture 34 - Normal Shock - Part II
Link Introduction to Fluid Machines and Compressible Flow Lecture 35 - Normal Shock - Part III
Link Introduction to Fluid Machines and Compressible Flow Lecture 36 - Normal Shock - Part IV
Link Introduction to Fluid Machines and Compressible Flow Lecture 37 - Normal Shock - Part V
Link Introduction to Fluid Machines and Compressible Flow Lecture 38 - Oblique Shock - Part I
Link Introduction to Fluid Machines and Compressible Flow Lecture 39 - Oblique Shock - Part II
Link Introduction to Fluid Machines and Compressible Flow Lecture 40 - Introduction to Expansion Wave and Prandtl Meyer Flow
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 1 - Introductory Concepts
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 2 - Introductory Concepts (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 3 - Introductory Concepts (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 4 - Viscosity
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 5 - Viscosity (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 6 - Viscosity (Continued...) and Surface Tension
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 7 - Surface Tension (Continued...) and Fluid Statics
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 8 - Fluid Statics (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 9 - Fluid Statics (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 10 - Fluid Statics (Continued...) and Fluid Under Rigid Body Motion
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 11 - Fluid Kinematics
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 12 - Fluid Kinematics (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 13 - Fluid Kinematics (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 14 - Fluid Kinematics (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 15 - Fluid Kinematics (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 16 - Dynamics of Inviscid Flows
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 17 - Dynamics of Inviscid Flows (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 18 - Dynamics of Inviscid Flows (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 19 - Dynamics of Inviscid Flows (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 20 - Dynamics of Inviscid Flows (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 21 - Integral Forms of Control Volume Conservation Equations (Reynolds Transport Theorem)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 22 - Integral Forms of Control Volume Conservation Equations (Reynolds Transport Theorem) (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 23 - Integral Forms of Control Volume Conservation Equations (Reynolds Transport Theorem) (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 24 - Integral Forms of Control Volume Conservation Equations (Reynolds Transport Theorem) (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 25 - Integral Forms of Control Volume Conservation Equations (Reynolds Transport Theorem) (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 26 - Integral Forms of Control Volume Conservation Equations (Reynolds Transport Theorem) (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 27 - Integral Forms of Control Volume Conservation Equations (Reynolds Transport Theorem) (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 28 - Dynamics of Viscous Flows : Navier Stokes Equation
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 29 - Dynamics of Viscous Flows : Navier Stokes Equation (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 30 - Some Exact Solutions of Navier Stokes Equation
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 31 - Some Exact Solutions of Navier Stokes Equation (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 32 - Some Exact Solutions of Navier Stokes Equation (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 33 - Introduction to Turbulence
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 34 - Introduction to Turbulence (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 35 - Introduction to Turbulence (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 36 - Introduction to Turbulence (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 37 - Boundary Layer Theory
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 38 - Boundary Layer Theory (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 39 - Boundary Layer Theory (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 40 - Boundary Layer Theory (Continued...) and Flow Past Immersed Bodies
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 41 - Flow past Immersed Bodies (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 42 - Potential Flow Past Immersed Bodies
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 43 - Potential Flow (Continued...) and Flow Past Immersed Bodies of Special Shapes
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 44 - Flow Past Immersed Bodies (Continued...) and Sports Ball Aerodynamics
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 45 - Pipe Flow
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 46 - Pipe Flow (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 47 - Pipe Flow (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 48 - Principles of Similarity and Dimensional Analysis
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 49 - Introduction to Fluid Machines
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 50 - Introduction to Fluid Machines (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 51 - Introduction to Fluid Machines (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 52 - Introduction to Fluid Machines (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 53 - Introduction to Fluid Machines (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 54 - Compressible Flows
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 55 - Compressible Flows (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 56 - Compressible Flows (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 57 - Compressible Flows (Continued...)
Link Introduction to Fluid Mechanics and Fluid Engineering Lecture 58 - Compressible Flows (Continued...)
Link Micro fluidics Lecture 1 - Introduction to Microfluidics
Link Micro fluidics Lecture 2 - Microfluidics: Some Application Examples
Link Micro fluidics Lecture 3 - Microfluidics: Some More Application Examples
Link Micro fluidics Lecture 4 - Equations of Conservation
Link Micro fluidics Lecture 5 - Navier Stokes Equation
Link Micro fluidics Lecture 6 - Navier Stokes Equation (Continued...)
Link Micro fluidics Lecture 7 - Energy Equation
Link Micro fluidics Lecture 8 - Energy Equation (Continued...) and Species Conservation Equation
Link Micro fluidics Lecture 9 - Pressure-driven Microflows
Link Micro fluidics Lecture 10 - Pressure-driven Microflows (Continued...)
Link Micro fluidics Lecture 11 - Pressure-driven Microflows (Continued...)
Link Micro fluidics Lecture 12 - Pressure-driven Microflows (Continued...)
Link Micro fluidics Lecture 13 - Pressure -driven Microflows (Continued...)
Link Micro fluidics Lecture 14 - Some Examples of Unsteady Flows
Link Micro fluidics Lecture 15 - Some Examples of Unsteady Flows (Continued...)
Link Micro fluidics Lecture 16 - Some Examples of Unsteady Flows (Continued...)
Link Micro fluidics Lecture 17 - Stokes Drag on a Sphere
Link Micro fluidics Lecture 18 - Stokes Drag on a Sphere (Continued...) and Introduction to Lubrication Theory
Link Micro fluidics Lecture 19 - Lubircation Theory (Continued...)
Link Micro fluidics Lecture 20 - Lubrication Theory (Continued...)
Link Micro fluidics Lecture 21 - Boundary Condition in Fluid Mechanics: Slip or No-slip?
Link Micro fluidics Lecture 22 - Boundary Condition in Fluid Mechanics: Slip or No-slip? (Continued...)
Link Micro fluidics Lecture 23 - Surface Tension Driven Flows
Link Micro fluidics Lecture 24 - Surface Tension Driven Flows (Continued...)
Link Micro fluidics Lecture 25 - Surface Tension Driven Flows (Continued...)
Link Micro fluidics Lecture 26 - Surface Tension Driven Flows (Continued...)
Link Micro fluidics Lecture 27 - Surface Tension Driven Flows (Continued...) and Modulating Surface Tension
Link Micro fluidics Lecture 28 - Modulating Surface Tension (Continued...)
Link Micro fluidics Lecture 29 - Thin Film Dynamics
Link Micro fluidics Lecture 30 - Thin Film Dynamics (Continued...)
Link Micro fluidics Lecture 31 - Thin Film Dynamics (Continued...)
Link Micro fluidics Lecture 32 - Thin Film Dynamics (Continued...)
Link Micro fluidics Lecture 33 - Lab on a CD
Link Micro fluidics Lecture 34 - Lab on a CD (Continued...)
Link Micro fluidics Lecture 35 - Introduction to Microfabrication
Link Micro fluidics Lecture 36 - Electrokinetics
Link Micro fluidics Lecture 37 - Electrokinetics (Continued...)
Link Micro fluidics Lecture 38 - Electrokinetics (Continued...)
Link Micro fluidics Lecture 39 - Electrokinetics (Continued...)
Link Micro fluidics Lecture 40 - Electrokinetics (Continued...)
Link Micro fluidics Lecture 41 - Electrokinetics (Continued...)
Link Micro fluidics Lecture 42 - Dispersion
Link Micro fluidics Lecture 43 - Introduction to Nanofluidics
Link Micro fluidics Lecture 44 - Introduction to Nanofluidics (Continued...) and Molecular Dynamics Simulations
Link Micro fluidics Lecture 45 - Introduction to Molecular Dynamics Simulations (Continued...)
Link Micro fluidics Lecture 46 - Biomicrofluidics
Link Micro fluidics Lecture 47 - Biomicrofluidics (Continued...)
Link Micro fluidics Lecture 48 - Nanofluidic Energy Conversion
Link NOC:Conduction and Convection Heat Transfer Lecture 1 - Introduction and Fundamental Concepts - I
Link NOC:Conduction and Convection Heat Transfer Lecture 2 - Introduction and Fundamental Concepts - II
Link NOC:Conduction and Convection Heat Transfer Lecture 3 - Heat Conduction Equation
Link NOC:Conduction and Convection Heat Transfer Lecture 4 - Heat Conduction Equation and Different Types of Boundary Conditions
Link NOC:Conduction and Convection Heat Transfer Lecture 5 - 1D Steady State Heat Conduction In Plane Wall Without Generation of Thermal Energy
Link NOC:Conduction and Convection Heat Transfer Lecture 6 - 1D Steady State Heat Conduction In Plane Wall With Generation of Thermal Energy
Link NOC:Conduction and Convection Heat Transfer Lecture 7 - Problems on 1D Steady State Heat Conduction In Plane Wall
Link NOC:Conduction and Convection Heat Transfer Lecture 8 - 1D Steady State Heat Conduction In Cylindrical Geometry
Link NOC:Conduction and Convection Heat Transfer Lecture 9 - 1D Steady State Heat Conduction In Cylindrical Geometry (Continued...)
Link NOC:Conduction and Convection Heat Transfer Lecture 10 - 1D Steady State Heat Conduction in Spherical Geometry
Link NOC:Conduction and Convection Heat Transfer Lecture 11 - Hear Transfer from Extended Surfaces (Fins)
Link NOC:Conduction and Convection Heat Transfer Lecture 12 - Hear Transfer from Extended Surfaces (Continued...)
Link NOC:Conduction and Convection Heat Transfer Lecture 13 - Two-dimensional Steady State Heat Conduction
Link NOC:Conduction and Convection Heat Transfer Lecture 14 - Unsteady State Heat Conduction
Link NOC:Conduction and Convection Heat Transfer Lecture 15 - Unsteady State Heat Conduction (Continued...)
Link NOC:Conduction and Convection Heat Transfer Lecture 16 - One Dimensional Unsteady State Heat Conduction - I
Link NOC:Conduction and Convection Heat Transfer Lecture 17 - One Dimensional Unsteady State Heat Conduction - II
Link NOC:Conduction and Convection Heat Transfer Lecture 18 - Introduction to Convection
Link NOC:Conduction and Convection Heat Transfer Lecture 19 - Convection - I
Link NOC:Conduction and Convection Heat Transfer Lecture 20 - Review of Fluid Mechanics - I
Link NOC:Conduction and Convection Heat Transfer Lecture 21 - Review of Fluid Mechanics - II
Link NOC:Conduction and Convection Heat Transfer Lecture 22 - Review of Fluid Mechanics - III
Link NOC:Conduction and Convection Heat Transfer Lecture 23 - Review of Fluid Mechanics - IV
Link NOC:Conduction and Convection Heat Transfer Lecture 24 - Review of Fluid Mechanics - V
Link NOC:Conduction and Convection Heat Transfer Lecture 25 - Review of Fluid Mechanics - VI
Link NOC:Conduction and Convection Heat Transfer Lecture 26 - Review of Fluid Mechanics - VIII
Link NOC:Conduction and Convection Heat Transfer Lecture 27 - Energy Equation - I
Link NOC:Conduction and Convection Heat Transfer Lecture 28 - Energy Equation - II and Thermal Boundary Layer - I
Link NOC:Conduction and Convection Heat Transfer Lecture 29 - Thermal Boundary Layer - II
Link NOC:Conduction and Convection Heat Transfer Lecture 30 - Integral Method for Thermal BL Analysis
Link NOC:Conduction and Convection Heat Transfer Lecture 31 - Internal Forced Convection - I
Link NOC:Conduction and Convection Heat Transfer Lecture 32 - Internal Forced Convection - II
Link NOC:Conduction and Convection Heat Transfer Lecture 33 - Internal Forced Convection - III
Link NOC:Conduction and Convection Heat Transfer Lecture 34 - Internal Forced Convection - IV
Link NOC:Conduction and Convection Heat Transfer Lecture 35 - Free Convection - I (Natural Convection)
Link NOC:Conduction and Convection Heat Transfer Lecture 36 - Free Convection - II (Natural Convection)
Link NOC:Conduction and Convection Heat Transfer Lecture 37 - Boiling and Condensation - I
Link NOC:Conduction and Convection Heat Transfer Lecture 38 - Boiling and Condensation - II
Link NOC:Conduction and Convection Heat Transfer Lecture 39 - Heat Exchanger - I
Link NOC:Conduction and Convection Heat Transfer Lecture 40 - Heat Exchanger - II
Link NOC:Conduction and Convection Heat Transfer Lecture 41 - Heat Exchanger - II (Continued...)
Link NOC:Vibrations of Structures Lecture 1 - Transverse Vibrations of Strings - I
Link NOC:Vibrations of Structures Lecture 2 - Transverse Vibrations of Strings - II
Link NOC:Vibrations of Structures Lecture 3 - Axial and Torsional Vibrations of Bars
Link NOC:Vibrations of Structures Lecture 4 - Variational Formulation - I
Link NOC:Vibrations of Structures Lecture 5 - Variational Formulation - II
Link NOC:Vibrations of Structures Lecture 6 - Modal Analysis - I
Link NOC:Vibrations of Structures Lecture 7 - Modal Analysis - II
Link NOC:Vibrations of Structures Lecture 8 - Properties of the Eigenvalue Problem
Link NOC:Vibrations of Structures Lecture 9 - Modal Analysis: Approximate Methods - I
Link NOC:Vibrations of Structures Lecture 10 - Modal Analysis: Approximate Methods - II
Link NOC:Vibrations of Structures Lecture 11 - The Initial Value Problem
Link NOC:Vibrations of Structures Lecture 12 - Forced Vibration Analysis - I
Link NOC:Vibrations of Structures Lecture 13 - Forced Vibration Analysis - II
Link NOC:Vibrations of Structures Lecture 14 - Forced Vibration Analysis - III
Link NOC:Vibrations of Structures Lecture 15 - Dumping in Structures - I
Link NOC:Vibrations of Structures Lecture 16 - Damping in Structures - II
Link NOC:Vibrations of Structures Lecture 17 - Beam Models - I
Link NOC:Vibrations of Structures Lecture 18 - Beam Models - II
Link NOC:Vibrations of Structures Lecture 19 - Modal Analysis of Beams
Link NOC:Vibrations of Structures Lecture 20 - Application of Modal Solution
Link NOC:Vibrations of Structures Lecture 21 - Approximate Methods
Link NOC:Vibrations of Structures Lecture 22 - Topics in Beam Vibrations - I
Link NOC:Vibrations of Structures Lecture 23 - Topics in Beam Vibrations - II
Link NOC:Vibrations of Structures Lecture 24 - Dynamics of Curved Beams
Link NOC:Vibrations of Structures Lecture 25 - Vibrations of Rings and Arches - I
Link NOC:Vibrations of Structures Lecture 26 - Vibrations of Rings and Arches - II
Link NOC:Vibrations of Structures Lecture 27 - Dynamics of Membranes
Link NOC:Vibrations of Structures Lecture 28 - Vibrations of Rectangular Membranes
Link NOC:Vibrations of Structures Lecture 29 - Vibrations of Circular Membranes - I
Link NOC:Vibrations of Structures Lecture 30 - Vibrations of Circular Membranes - II
Link NOC:Vibrations of Structures Lecture 31 - Dynamics of Plates
Link NOC:Vibrations of Structures Lecture 32 - Vibrations of Rectangular Plates
Link NOC:Vibrations of Structures Lecture 33 - Vibrations of Circular Plates
Link NOC:Vibrations of Structures Lecture 34 - Special Problems in Plate Vibrations - I
Link NOC:Vibrations of Structures Lecture 35 - Special Problems in Plate Vibrations - II
Link NOC:Fluid Machines Lecture 1 - Definition of Fluid Machines and Energy Transfer in Fluid Machines - Part I
Link NOC:Fluid Machines Lecture 2 - Energy Transfer in Fluid Machines - Part II
Link NOC:Fluid Machines Lecture 3 - Impulse and Reaction Machines: Introductory Concepts
Link NOC:Fluid Machines Lecture 4 - Principles of Similarity in Fluid Machine
Link NOC:Fluid Machines Lecture 5 - Concept of Specific Speed
Link NOC:Fluid Machines Lecture 6 - Basic Principles, Analysis of Force and Power Generation - Part I
Link NOC:Fluid Machines Lecture 7 - Basic Principles, Analysis of Force and Power Generation - Part II
Link NOC:Fluid Machines Lecture 8 - Specific Speed Governing and Limitations of Impulse Turbine
Link NOC:Fluid Machines Lecture 9 - Tutorial - I
Link NOC:Fluid Machines Lecture 10 - Tutorial - II
Link NOC:Fluid Machines Lecture 11 - Introduction and Analysis of Force on Francis Turbine (Radial Flow) - Part I
Link NOC:Fluid Machines Lecture 12 - Analysis of Force (Part-II) and Power Generation
Link NOC:Fluid Machines Lecture 13 - Draft Tube
Link NOC:Fluid Machines Lecture 14 - Tutorial - III
Link NOC:Fluid Machines Lecture 15 - Tutorial - IV
Link NOC:Fluid Machines Lecture 16 - Axial Flow Turbine
Link NOC:Fluid Machines Lecture 17 - Governing of Reaction Turbine
Link NOC:Fluid Machines Lecture 18 - Introduction to Rotodynamic Pumps
Link NOC:Fluid Machines Lecture 19 - Flow and Energy Transfer to Centrifugal Pumps
Link NOC:Fluid Machines Lecture 20 - Tutorial - V
Link NOC:Fluid Machines Lecture 21 - Characteristics of a Centrifugal Pump
Link NOC:Fluid Machines Lecture 22 - Matching of Pump and System Characteristics
Link NOC:Fluid Machines Lecture 23 - Diffuser and Cavitation
Link NOC:Fluid Machines Lecture 24 - Tutorial - VI
Link NOC:Fluid Machines Lecture 25 - Tutorial - VIII
Link NOC:Fluid Machines Lecture 26 - Axial Flow Pump
Link NOC:Fluid Machines Lecture 27 - Reciprocating Pump - Part I
Link NOC:Fluid Machines Lecture 28 - Reciprocating Pump - Part II
Link NOC:Fluid Machines Lecture 29 - Tutorial - VIII
Link NOC:Fluid Machines Lecture 30 - Basic Principles and Energy Transfer in Centrifugal Compressor - Part I
Link NOC:Fluid Machines Lecture 31 - Basic Principles and Energy Transfer in Centrifugal Compressor - Part II
Link NOC:Fluid Machines Lecture 32 - Basic Principles and Energy Transfer in Centrifugal Compressor - Part III
Link NOC:Fluid Machines Lecture 33 - Basic Principles and Energy Transfer in Centrifugal Compressor - Part IV and Losses in Centrifugal Compressors
Link NOC:Fluid Machines Lecture 34 - Performance Characteristics of Centrifugal Compressors - Part I
Link NOC:Fluid Machines Lecture 35 - Performance Characteristics of Centrifugal Compressors - Part II
Link NOC:Fluid Machines Lecture 36 - Basic Principles and Energy Transfer in Axial Flow Compressor - Part I
Link NOC:Fluid Machines Lecture 37 - Basic Principles and Energy Transfer in Axial Flow Compressor - Part II
Link NOC:Fluid Machines Lecture 38 - Fans and Blowers - Part I
Link NOC:Fluid Machines Lecture 39 - Fans and Blowers - Part II
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 1 - Introduction to computer control – role of computers in automation
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 2 - Introduction (Continued...) - binary logic and logic gates
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 3 - Classification of Computer numerical control (CNC) – Point to point and continuous control
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 4 - Classification (Continued...) - Closed loop and open loop control
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 5 - Tutorial involving simple calculations on different aspects of CNC controls
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 6 - Questions, MCQ Discussions on Motors, Encoders, Decoders and Programming Practice
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 7 - Stepper motors, Permanent magnet DC motors
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 8 - Binary circuits and decoders
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 9 - Tachogenerator, printed circuit motors, Encoders
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 10 - Programming Practice - I
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 11 - Programming Practice - II
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 12 - Computer Aided Offline Programming
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 13 - Interpolators - Linear
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 14 - Interpolators - Curvilinear
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 15 - Questions on Programming and Interpolation
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 16 - 3-D Machining - Basic Concepts
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 17 - Curved Surface Geometry
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 18 - Cutter Path Generation for Curved Surfaces
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 19 - Cutter Path Generation (Concluding Part) and Current Status - CNC Machining and Related Processes
Link NOC:Computer numerical control (CNC) of machine tools and processes Lecture 20 - Questions and Discussions on Curved Surface Machining
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 1 - Non-traditonal abrasive machining : Ultrasonic, Abrasive jet and abrasive water jet machining
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 2 - Ultrasonic Machining
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 3 - Ultrasonic Machining (Continued...)
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 4 - Utrrasonic Machining - Free Impacts and Problem Solving
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 5 - Ultrasonic Machining - Problems and MCQs
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 6 - USM - Horn Design
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 7 - USM - Horn Design (Continued...)
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 8 - Ultrasonic Machining - Feed Mechanism, Head design and other aspects
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 9 - Ultrasonic Machining - Effects of Various Inputs on the Output
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 10 - Ultrasonic Machining - Numerical and MCQs
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 11 - A JM (Abrasive jet machining)
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 12
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 13 - A JM - Numerical problems
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 14 - A JM - Process Parameters and Response Characteristics take - home assignment discussing
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 15 - A JM - MCQs
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 16
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 17 - AWJM - Equipment
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 18 - AWJM - Numerical Problems
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 19 - AWJM - Application Equipment Details
Link NOC:Non Traditional Abrasive Machining Processes - Ultrasonic, Abrasive Jet and Abrasive Water Jet Machining Lecture 20 - AWJM - MCQs
Link NOC:Introduction to Fluid Mechanics Lecture 1 - Lagrangian and Eulerian Approach, Types of fluid flow
Link NOC:Introduction to Fluid Mechanics Lecture 2 - Streamlines, Streakline and Pathline
Link NOC:Introduction to Fluid Mechanics Lecture 3 - Acceleration of fluid flow
Link NOC:Introduction to Fluid Mechanics Lecture 4 - Deformation and Conservation of mass of fluid a element
Link NOC:Introduction to Fluid Mechanics Lecture 5 - Angular deformation of a fluid element, vorticity and streamfunction and velocity potential
Link NOC:Introduction to Fluid Mechanics Lecture 6 - Euler’s equation
Link NOC:Introduction to Fluid Mechanics Lecture 7 - Bernoulli’s equation - Part I
Link NOC:Introduction to Fluid Mechanics Lecture 8 - Kinematic viscosity, Reynolds number
Link NOC:Introduction to Fluid Mechanics Lecture 9 - Non-Newtonian fluids
Link NOC:Introduction to Fluid Mechanics Lecture 10 - Problems and Solutions
Link NOC:Introduction to Fluid Mechanics Lecture 11 - Problems and Solutions
Link NOC:Introduction to Fluid Mechanics Lecture 12 - Surface Tension - Part I
Link NOC:Introduction to Fluid Mechanics Lecture 13 - Surface Tension - Part II
Link NOC:Introduction to Fluid Mechanics Lecture 14 - Governing equation of fluid statics
Link NOC:Introduction to Fluid Mechanics Lecture 15 - Manometers
Link NOC:Introduction to Fluid Mechanics Lecture 16 - Force on a surface immersed in fluid - Part I
Link NOC:Introduction to Fluid Mechanics Lecture 17 - Force on a surface immersed in fluid - Part II
Link NOC:Introduction to Fluid Mechanics Lecture 18 - Force on a surface immersed in fluid - Part III, Stability of solid bodies in fluid - Part I
Link NOC:Introduction to Fluid Mechanics Lecture 19 - Stability of solid bodies in fluid - Part II
Link NOC:Introduction to Fluid Mechanics Lecture 20 - Fluid under rigid body motion
Link NOC:Introduction to Fluid Mechanics Lecture 21 - Lagrangian and Eulerian approaches
Link NOC:Introduction to Fluid Mechanics Lecture 22 - Concept of different flow lines
Link NOC:Introduction to Fluid Mechanics Lecture 23 - Acceleration of fluid flow
Link NOC:Introduction to Fluid Mechanics Lecture 24 - Deformation of fluid elements - Part I
Link NOC:Introduction to Fluid Mechanics Lecture 25 - Derivation of continuity equation
Link NOC:Introduction to Fluid Mechanics Lecture 26 - Problems and Solutions
Link NOC:Introduction to Fluid Mechanics Lecture 27 - Deformation of fluid elements - Part II
Link NOC:Introduction to Fluid Mechanics Lecture 28 - Deformation of fluid elements - Part III
Link NOC:Introduction to Fluid Mechanics Lecture 29 - Stream Function
Link NOC:Introduction to Fluid Mechanics Lecture 30 - Circulation, Velocity Potential
Link NOC:Introduction to Fluid Mechanics Lecture 31 - Euler’s equation
Link NOC:Introduction to Fluid Mechanics Lecture 32 - Bernoulli’s equation - Part I
Link NOC:Introduction to Fluid Mechanics Lecture 33 - Bernoulli’s equation - Part II
Link NOC:Introduction to Fluid Mechanics Lecture 34 - Bernoulli’s equation - Part III
Link NOC:Introduction to Fluid Mechanics Lecture 35 - Euler’s equation in streamline coordinates
Link NOC:Introduction to Fluid Mechanics Lecture 36
Link NOC:Introduction to Fluid Mechanics Lecture 37
Link NOC:Introduction to Fluid Mechanics Lecture 38
Link NOC:Introduction to Fluid Mechanics Lecture 39
Link NOC:Introduction to Fluid Mechanics Lecture 40
Link NOC:Introduction to Fluid Mechanics Lecture 41
Link NOC:Introduction to Fluid Mechanics Lecture 42
Link NOC:Introduction to Fluid Mechanics Lecture 43
Link NOC:Introduction to Fluid Mechanics Lecture 44
Link NOC:Introduction to Fluid Mechanics Lecture 45
Link NOC:Introduction to Fluid Mechanics Lecture 46
Link NOC:Introduction to Fluid Mechanics Lecture 47
Link NOC:Introduction to Fluid Mechanics Lecture 48
Link NOC:Introduction to Fluid Mechanics Lecture 49
Link NOC:Introduction to Fluid Mechanics Lecture 50
Link NOC:Introduction to Fluid Mechanics Lecture 51 - Navier-Stokes equation - Part I
Link NOC:Introduction to Fluid Mechanics Lecture 52 - Navier-Stokes equation - Part II
Link NOC:Introduction to Fluid Mechanics Lecture 53 - Navier-Stokes equation - Part III
Link NOC:Introduction to Fluid Mechanics Lecture 54 - Navier-Stokes equation - Part IV
Link NOC:Introduction to Fluid Mechanics Lecture 55 - Pipe Flow - Part I
Link NOC:Introduction to Fluid Mechanics Lecture 56 - Pipe Flow - Part II
Link NOC:Introduction to Fluid Mechanics Lecture 57 - Pipe Flow - Part III
Link NOC:Introduction to Fluid Mechanics Lecture 58 - Pipe Flow - Part IV
Link NOC:Introduction to Fluid Mechanics Lecture 59 - Principle of Similarity and Dynamical Analysis - Part I
Link NOC:Introduction to Fluid Mechanics Lecture 60 - Principle of Similarity and Dynamical Analysis - Part II
Link NOC:Spur and Helical Gear Cutting Lecture 1 - Introduction
Link NOC:Spur and Helical Gear Cutting Lecture 2 - Simple Gear Calculations
Link NOC:Spur and Helical Gear Cutting Lecture 3 - Gear Geometry
Link NOC:Spur and Helical Gear Cutting Lecture 4 - Helical Gear Problems
Link NOC:Spur and Helical Gear Cutting Lecture 5 - Numerical Problem MCQ
Link NOC:Spur and Helical Gear Cutting Lecture 6 - Numerical Problem Milling of Helical Gears
Link NOC:Spur and Helical Gear Cutting Lecture 7 - Simple and Compound Indexing
Link NOC:Spur and Helical Gear Cutting Lecture 8 - Differential Indexing
Link NOC:Spur and Helical Gear Cutting Lecture 9 - Helical Gear Cutting on Milling Machine
Link NOC:Spur and Helical Gear Cutting Lecture 10 - Numerical Problems on Gear Milling
Link NOC:Spur and Helical Gear Cutting Lecture 11 - Gear Shaping - I
Link NOC:Spur and Helical Gear Cutting Lecture 12 - Gear Shaping - II
Link NOC:Spur and Helical Gear Cutting Lecture 13 - Gear Shaping - III
Link NOC:Spur and Helical Gear Cutting Lecture 14 - Gear Shaping - IV
Link NOC:Spur and Helical Gear Cutting Lecture 15 - Gear Hobbing - I
Link NOC:Spur and Helical Gear Cutting Lecture 16 - Gear Hobbing - II
Link NOC:Spur and Helical Gear Cutting Lecture 17 - Gear Hobbing - III
Link NOC:Spur and Helical Gear Cutting Lecture 18 - Gear Hobbing - IV
Link NOC:Spur and Helical Gear Cutting Lecture 19 - Gear Hobbing - V
Link NOC:Spur and Helical Gear Cutting Lecture 20 - Gear Hobbing - VI
Link NOC:Laws of Thermodynamics Lecture 1 - Introduction, Definition of System, Properties and State of a System
Link NOC:Laws of Thermodynamics Lecture 2 - Properties of pure substances
Link NOC:Laws of Thermodynamics Lecture 3 - Properties of pure substances (Continued...)
Link NOC:Laws of Thermodynamics Lecture 4 - Heat and Work
Link NOC:Laws of Thermodynamics Lecture 5 - Tutorial 1: Properties of pure substances, heat and work
Link NOC:Laws of Thermodynamics Lecture 6 - Zeroth Law of Thermodynamics
Link NOC:Laws of Thermodynamics Lecture 7 - First law of thermodynamics for closed systems - Part I
Link NOC:Laws of Thermodynamics Lecture 8 - First law of thermodynamics for closed systems - Part II, some examples
Link NOC:Laws of Thermodynamics Lecture 9 - Tutorial 2: First law of thermodynamics for closed systems
Link NOC:Laws of Thermodynamics Lecture 10 - First law of thermodynamics for open systems
Link NOC:Laws of Thermodynamics Lecture 11 - Tutorial 3: First law of thermodynamics for open systems
Link NOC:Laws of Thermodynamics Lecture 12 - Second law and its corollaries - Part I
Link NOC:Laws of Thermodynamics Lecture 13 - Second law and its corollaries - Part II
Link NOC:Laws of Thermodynamics Lecture 14 - Second law and its corollaries - Part III
Link NOC:Laws of Thermodynamics Lecture 15 - Definition of entropy and entropy change in closed systems
Link NOC:Laws of Thermodynamics Lecture 16 - Entropy change in closed systems (Continued...)
Link NOC:Laws of Thermodynamics Lecture 17 - Tutorial 4: Entropy
Link NOC:Laws of Thermodynamics Lecture 18 - Entropy and its transport
Link NOC:Laws of Thermodynamics Lecture 19 - Tutorial 5: Entropy and its transport
Link NOC:Laws of Thermodynamics Lecture 20 - Introduction to Third Law
Link NOC:Laws of Thermodynamics Lecture 21 - Review of learning concepts
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 1 - Introduction to waste heat recovery
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 2 - Introduction to waste heat recovery (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 3 - Introduction to waste heat recovery (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 4 - Introduction to waste heat recovery (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 5 - Thermodynamic principles of waste heat recovery
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 6 - Thermodynamic principles of waste heat recovery (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 7 - Thermodynamic principles of waste heat recovery (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 8 - Thermodynamic principles of waste heat recovery (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 9 - Reversible Cycles
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 10 - Reversible Cycles (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 11 - Entropy
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 12 - Entropy (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 13 - Entropy (Continued...), Exergy
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 14 - Exergy, Second Law efficiency
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 15 - Second Law efficiency (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 16 - Recapitulation of common power cycles
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 17 - Recapitulation of common power cycles (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 18 - Recapitulation of common power cycles (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 19 - Recapitulation of common power cycles (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 20 - Recapitulation of common power cycles (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 21 - Recapitulation of common power cycles (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 22 - Gas Turbine cycle
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 23 - Combined cycle
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 24 - Combined cycle (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 25 - Combined Cycle (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 26 - Heat recovery steam generator
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 27 - Thermodynamic cycles for low temperature application
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 28 - Thermodynamic cycles for low temperature application (Continued...), Cogeneration
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 29 - Heat Exchanger
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 30 - Heat Exchanger (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 31 - Heat Exchanger (Continued...)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 32
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 33
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 34
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 35
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 36
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 37 - Heat Pipe - Part I
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 38 - Heat Pipe - Part II
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 39 - Heat Pipe - Part III
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 40 - Direct Conversion - Introduction to TEG
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 41 - Thermoelectric Generators - Functioning and Applications
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 42 - TEG - performance analysis
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 43 - TEG - performance optimization
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 44 - Direct Conversion - Magneto Hydro dynamics (MHD)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 45 - Direct Conversion - Thermo-Ionic generation
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 46 - Direct Conversion - Thermo Photo Voltaic generation (TPV)
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 47 - Heat Pumps - I
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 48 - Heat Pumps - II
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 49 - Heat Pumps - III
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 50 - Waste Heat Recovery from Incinerator Plants
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 51 - Energy Storage Systems - I
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 52 - Energy Storage Systems - II
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 53 - Energy Storage Systems - III
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 54 - Energy Storage Systems - IV
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 55 - Energy Storage Systems - V
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 56 - Energy Storage Systems - VI
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 57
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 58
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 59
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 60
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 61
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 62
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 63
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 64
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 65
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 66
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 67
Link NOC:Energy Conservation and Waste Heat Recovery Lecture 68 - Corrigendum
Link NOC:Introduction to Mechanical Micro Machining Lecture 1 - Introduction
Link NOC:Introduction to Mechanical Micro Machining Lecture 2 - Introduction (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 3 - Introduction (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 4 - Introduction (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 5 - Introduction (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 6 - Introduction (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 7 - Scaling Laws
Link NOC:Introduction to Mechanical Micro Machining Lecture 8 - Scaling laws (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 9 - Scaling laws (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 10 - Difference between macro and micro machining
Link NOC:Introduction to Mechanical Micro Machining Lecture 11 - Difference between macro and micro machining (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 12 - Difference between micro and macro machining (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 13 - Difference between micro and macro machining (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 14 - Difference between macro and micro machining (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 15 - Difference between macro and micro machining (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 16 - Difference between macro and micro machining (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 17 - Difference between macro and micro machining (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 18 - Difference between macro and micro machining (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 19 - Difference between macro and micro machining (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 20 - Difference between macro and micro machining (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 21 - Difference between macro and micro machining (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 22 - Component of the machine tool
Link NOC:Introduction to Mechanical Micro Machining Lecture 23 - Components of the machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 24 - Components of the machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 25 - Components of the machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 26 - Components of the machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 27 - Errors in machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 28 - Errors in machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 29 - Errors in machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 30 - Errors in machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 31 - Components of machine tool
Link NOC:Introduction to Mechanical Micro Machining Lecture 32 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 33 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 34 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 35 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 36 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 37 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 38 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 39 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 40 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 41 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 42 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 43 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 44 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 45 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 46 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 47 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 48 - Components of machine tool (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 49 - Micro tools
Link NOC:Introduction to Mechanical Micro Machining Lecture 50 - Micro tools (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 51 - Micro tools (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 52 - Fabrication of micro tool by EDM process
Link NOC:Introduction to Mechanical Micro Machining Lecture 53 - Micro tools (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 54 - Micro machines
Link NOC:Introduction to Mechanical Micro Machining Lecture 55 - Micro machines (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 56 - Diamond turning
Link NOC:Introduction to Mechanical Micro Machining Lecture 57 - Diamond turning (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 58 - Diamond turning (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 59 - Diamond turning (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 60 - Sensors and metrology for micro machining
Link NOC:Introduction to Mechanical Micro Machining Lecture 61 - Sensors and metrology for micro machining (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 62 - Sensors and metrology for micro machining (Continued...)
Link NOC:Introduction to Mechanical Micro Machining Lecture 63 - 3D surface measurement using interferometer
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 1 - Introduction
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 2 - Maintenance Principles
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 3 - FMECA
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 4 - Fault Diagnostics and Prognostics
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 5 - Machine Learning in CBM
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 6 - Basics of Vibration
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 7 - Free and Forced Response
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 8 - Vibration and Shock Isolation
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 9 - Rotordynamics
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 10 - Practical Examples of Vibration
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 11 - Time Domain Analysis
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 12 - Frequency Domain Analysis
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 13 - Non Stationary Signal Analysis
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 14 - Modulation and Beats
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 15 - Orbit and Order Analysis
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 16 - Computer aided data acquisition
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 17 - Orbit and Order Analysis
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 18 - Data Recording
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 19 - Cepstrum Analysis
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 20 - Hilbert Transform in Condition Monitoring
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 21 - Introduction to MATLAB
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 22 - Signal Processing using MATLAB
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 23 - Numericals in Signal Processing and Data Acquisition
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 24 - Signal Hetrodyning
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 25 - Practical Signals
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 26 - Basics Of Instrumentation
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 27 - Signal Conditioning And Filtering
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 28 - Errors In Measurements
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 29 - Dynamic Range And Frequency Response
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 30 - Overview Of Transducers For Cbm
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 31 - Accelerometers
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 32 - Vibration Monitoring
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 33 - Rotational Speed Measurements
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 34 - Basics of Noise
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 35 - Noise Monitoring
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 36 - Introduction to Faults in Rotating Machines
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 37 - Unbalance Detection
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 38 - Field Balancing
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 39 - Misalignment
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 40 - Crack and Looseness
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 41 - Journal and Anti-Friction Bearings
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 42 - Gears
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 43 - Pumps and Cavitation
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 44 - IC Engines
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 45 - Machinery Diagnostic Chart
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 46 - Principles of Motor Current Signature Analysis
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 47 - Faults in Electrical Machines
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 48 - Thermography
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 49 - Wear Debris Analysis
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 50 - Oil Analysis
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 51 - Ultrasonics
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 52 - Eddy Current and Acoustic Emission
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 53 - Radiography, Dye Penetrant Tests
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 54 - Tool Condition Monitoring
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 55 - Experimental Modal Analysis
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 56 - Introduction to Failure Analysis
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 57 - Railway Locomotive Noise and Vibration Monitoring
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 58 - Paper Mill Vibration Monitoring
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 59 - Overview of CBM facilities at IIT Kharagpur
Link NOC:Machinery Fault Diagnosis and Signal Processing Lecture 60 - Future of Condition based Monitoring
Link NOC:Metal Cutting and Machine Tools Lecture 1 - Introduction
Link NOC:Metal Cutting and Machine Tools Lecture 2 - Geometry of single point turning tools - 1
Link NOC:Metal Cutting and Machine Tools Lecture 3 - Geometry of turning tools - 2
Link NOC:Metal Cutting and Machine Tools Lecture 4 - Geometry of single point turning tools - 3
Link NOC:Metal Cutting and Machine Tools Lecture 5 - Geometry of cutting tools and numerical problems
Link NOC:Metal Cutting and Machine Tools Lecture 6 - Different types of tools and mcq
Link NOC:Metal Cutting and Machine Tools Lecture 7 - Mechanism of chip formation
Link NOC:Metal Cutting and Machine Tools Lecture 8 - Mechanics of material removal
Link NOC:Metal Cutting and Machine Tools Lecture 9 - Measurement of Cutting Forces
Link NOC:Metal Cutting and Machine Tools Lecture 10 - Numerical problems and MCQ
Link NOC:Metal Cutting and Machine Tools Lecture 11 - Tool wear and Tool life
Link NOC:Metal Cutting and Machine Tools Lecture 12 - Wear and life of cutting tools - 2
Link NOC:Metal Cutting and Machine Tools Lecture 13 - The lathe
Link NOC:Metal Cutting and Machine Tools Lecture 14 - Calculations on mechanisms in machine tools
Link NOC:Metal Cutting and Machine Tools Lecture 15 - Numerical problems on lathe
Link NOC:Metal Cutting and Machine Tools Lecture 16 - Milling machines
Link NOC:Metal Cutting and Machine Tools Lecture 17 - Milling machine - indexing
Link NOC:Metal Cutting and Machine Tools Lecture 18 - Gear cutting CNC and non traditional machining
Link NOC:Metal Cutting and Machine Tools Lecture 19 - CNC and non-traditional machining methods
Link NOC:Metal Cutting and Machine Tools Lecture 20 - Numerical problems for week 4
Link NOC:Metal Cutting and Machine Tools Lecture 21 - Live Session
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 1 - Introduction - Motivation and Theme of the Course
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 2 - Laws of Gearing, Kinematics and Geometry - Part I
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 3 - Laws of Gearing, Kinematics and Geometry - Part II
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 4 - Involute Toothed Gear- Properties and Terminology
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 5 - Tutorial
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 6 - Involute Straight Tooth Spur Gear
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 7 - Helical Tooth Spur Gear and Loads on Gear Shaft
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 8 - Design of Bevel Gear
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 9 - Crossed Helical Gear - I
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 10 - Crossed Helical Gear - II and Worm Gear
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 11 - Gear Unit Design - Selection of Stage Ratios, Pinion and Gear Teeth Numbers
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 12 - Gear Unit Design - First Stage Pinion and Gear Design- I (Module on Beam Strength Basis)
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 13 - Gear Unit Design - Failure of Gear Tooth (Probable Dynamic Load and Wear Load Capacity)
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 14 - Gear Unit Design - 1st. Stage Pinion and Gear Design-II (Probable Dynamic Load and Wear Load Capacity and Finalizing 1st. Stage Pinion and Gear set)
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 15 - Gear Unit Design - 1st. Layout (After Gear Design)
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 16 - Bearing Arrangement - Gear Box Shafts
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 17 - Bearing Load Calculation - Intermediate Shaft
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 18 - Bearing Selection and Introduction to Shaft Design Verification
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 19 - Design Verification of Gear Box Shafts
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 20 - Development (Layout) of Intermediate Shaft
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 21 - Development (Layout) of Input Shaft and Integral Pinion
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 22 - Development (Layout) of Output Shaft and 2nd. Stage (Output) Gear
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 23 - Development (Layout) of Output Shaft (Continued...), Loads on Shaft and Bearings
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 24 - Output Shaft-Bearing Lives
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 25 - Design Verification of Output Shaft
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 26 - Design Verification of Input Shaft (including Bearing Life Estimation)
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 27 - Finalizing Design including the Sizes of the Keys
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 28 - Development of Plan and Elevation of Gear Reduction Unit - I
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 29 - Development of Plan and Elevation of Gear Reduction Unit - II
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 30 - Development of Plan and Elevation of Gear Reduction Unit - III
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 31
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 32
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 33 - Involute Spur Gear Tooth Correction : Part I
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 34 - Involute Spur Gear Tooth Correction : Part II
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 35 - Involute Spur Gear Tooth Correction : Part III
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 36 - Involute Spur Gear Tooth Correction : Tutorial (Workout Example)
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 37 - Involute Spur Gear Tooth Correction : Tutorial (Workout Example-2)
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 38 - Tooth Tip Interference, Avoidance and Contact Ratio in Involute Internal Gearing
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 39
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 40
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 41
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 42
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 43
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 44
Link NOC:Gear and Gear Unit Design - Theory and Practice Lecture 45 - Live Session
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 1 - Principle of Optimization
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 2 - Traditional Methods of Optimization
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 3 - Traditional Methods of Optimization (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 4 - Binary-Coded Genetic Algorithm (BCGA)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 5 - Binary-Coded Genetic Algorithm (BCGA) (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 6 - Binary-Coded Genetic Algorithm (BCGA) (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 7 - Binary-Coded Genetic Algorithm (BCGA) (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 8 - Binary-Coded Genetic Algorithm (BCGA) (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 9 - Schema Theorem of BCGA
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 10 - Schema Theorem of BCGA (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 11 - Constraint Handling
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 12 - Real-Coded GA
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 13 - Faster Genetic Algorithms
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 14 - Faster Genetic Algorithms (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 15 - Faster Genetic Algorithms (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 16 - Faster Genetic Algorithms (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 17 - Scheduling GA
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 18 - Scheduling GA (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 19 - Scheduling GA (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 20 - Simmulated Annealing
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 21 - Particle Swarm Optimization
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 22 - Multi-Objective Optimization
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 23 - Multi-Objective Optimization (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 24 - Multi-Objective Optimization (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 25 - Multi-Objective Optimization (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 26 - Multi-Objective Optimization (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 27 - Intelligent Optimization Toolture
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 28 - A Practical Optimization Problem
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 29 - A Practical Optimization Problem (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 30 - A Practical Optimization Problem (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 31 - A Practical Optimization Problem (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 32 - A Practical Optimization Problem (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 33 - A Practical Optimization Problem (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 34 - A Practical Optimization Problem (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 35 - A Practical Optimization Problem (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 36 - A Practical Optimization Problem (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 37 - Genetic Algorithm as Evolution Tool
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 38 - Genetic Algorithm as Evolution Tool (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 39 - Genetic Algorithm as Evolution Tool (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 40 - Genetic Algorithm as Evolution Tool (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 41 - Genetic Algorithm as Evolution Tool (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 42 - Genetic Algorithm as Evolution Tool (Continued...)
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 43 - Summary 1
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 44 - Summary 2
Link NOC:Traditional and Non-Traditional Optimization Tools Lecture 45 - Summary 3
Link NOC:Mechanism and Robot Kinematics Lecture 1 - Introduction
Link NOC:Mechanism and Robot Kinematics Lecture 2 - Nomenclature
Link NOC:Mechanism and Robot Kinematics Lecture 3 - Kinematic Diagram
Link NOC:Mechanism and Robot Kinematics Lecture 4 - Degree of Freedom - I
Link NOC:Mechanism and Robot Kinematics Lecture 5 - Degree of Freedom - II
Link NOC:Mechanism and Robot Kinematics Lecture 6 - Degree of Freedom - Failure
Link NOC:Mechanism and Robot Kinematics Lecture 7 - Grashof Criteria - I
Link NOC:Mechanism and Robot Kinematics Lecture 8 - Grashof Criteria - II
Link NOC:Mechanism and Robot Kinematics Lecture 9 - Geometry and Representation of Vectors
Link NOC:Mechanism and Robot Kinematics Lecture 10 - Displacement Analysis: constrained mechanism - I
Link NOC:Mechanism and Robot Kinematics Lecture 11 - Displacement Analysis: constrained mechanism - II
Link NOC:Mechanism and Robot Kinematics Lecture 12 - Displacement Analysis: constrained mechanism - III
Link NOC:Mechanism and Robot Kinematics Lecture 13 - Displacement Analysis: constrained mechanism - IV
Link NOC:Mechanism and Robot Kinematics Lecture 14 - Displacement Analysis: open chain robot - I
Link NOC:Mechanism and Robot Kinematics Lecture 15 - Displacement Analysis: open chain robot - II
Link NOC:Mechanism and Robot Kinematics Lecture 16 - Displacement Analysis: open chain robot - III
Link NOC:Mechanism and Robot Kinematics Lecture 17 - Displacement Analysis: open chain robot - IV
Link NOC:Mechanism and Robot Kinematics Lecture 18 - Displacement Analysis: closed chain robot - I
Link NOC:Mechanism and Robot Kinematics Lecture 19 - Displacement Analysis: closed chain robot - II
Link NOC:Mechanism and Robot Kinematics Lecture 20 - Velocity Analysis: geometric concepts - I
Link NOC:Mechanism and Robot Kinematics Lecture 21 - Velocity Analysis: geometric concepts - II
Link NOC:Mechanism and Robot Kinematics Lecture 22 - Velocity Analysis: geometric concepts - III
Link NOC:Mechanism and Robot Kinematics Lecture 23 - Velocity Analysis: application of geometric concepts - I
Link NOC:Mechanism and Robot Kinematics Lecture 24 - Velocity Analysis: application of geometric concepts - II
Link NOC:Mechanism and Robot Kinematics Lecture 25 - Velocity Analysis: application of geometric concepts - III
Link NOC:Mechanism and Robot Kinematics Lecture 26 - Velocity Analysis: analytical approach - I
Link NOC:Mechanism and Robot Kinematics Lecture 27 - Velocity Analysis: analytical approach - II
Link NOC:Mechanism and Robot Kinematics Lecture 28 - Velocity Analysis: analytical approach - III
Link NOC:Mechanism and Robot Kinematics Lecture 29 - Serial Manipulator Velocity Analysis - I
Link NOC:Mechanism and Robot Kinematics Lecture 30 - Serial Manipulator Velocity Analysis - II
Link NOC:Mechanism and Robot Kinematics Lecture 31 - Serial Manipulator Velocity Analysis - III
Link NOC:Mechanism and Robot Kinematics Lecture 32 - Parallel Manipulator Velocity Analysis
Link NOC:Mechanism and Robot Kinematics Lecture 33 - Path Generation Problem
Link NOC:Mechanism and Robot Kinematics Lecture 34 - Acceleration Analysis - I
Link NOC:Mechanism and Robot Kinematics Lecture 35 - Acceleration Analysis - II
Link NOC:Mechanism and Robot Kinematics Lecture 36 - Force Analysis - I
Link NOC:Mechanism and Robot Kinematics Lecture 37 - Force Analysis - II
Link NOC:Mechanism and Robot Kinematics Lecture 38 - Coordinate transformation - I
Link NOC:Mechanism and Robot Kinematics Lecture 39 - Coordinate transformation - II
Link NOC:Mechanism and Robot Kinematics Lecture 40 - Coordinate transformation - III
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 1 - Introduction
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 2 - Applications of Heat Exchangers
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 3 - Classification of Heat Exchangers
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 4 - Classification of Heat Exchangers (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 5 - Design and Simulation of Heat Exchangers
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 6 - Design and Simulation
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 7 - Design and Simulation of Heat Exchangers - Numerical Problem
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 8 - Design and Simulation of Heat Exchangers - Numerical Problem (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 9 - Design and Simulation of Heat Exchangers - Numerical Problem (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 10 - Tubular Heat Exchanger Types
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 11 - Tubular Heat Exchanger Types : Heat Transfer Co-efficient
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 12 - Tubular Heat Exchanger : Double Pipe
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 13 - Tubular Heat Exchanger : Shell - and - Tube
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 14 - Tubular Heat Exchanger : Shell - and - Tube Design
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 15 - Tubular Heat Exchanger : Shell - and - Tube Design (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 16 - Enhancement of Heat Transfer compact Heat Exchangers
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 17 - Extended Surface Heat Transfer
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 18 - Extended Surface Heat Transfer: Some Example
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 19 - Extended Surface Heat Exchangers: Some Example
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 20 - Analysis of fin plates of finned tube heat exchanger
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 21 - Finned tube heat exchanger
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 22 - Finned tube heat exchanger (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 23 - Finned tube heat exchanger (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 24 - Plate fin heat exchanger
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 25 - Plate fin heat exchanger (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 26 - Plate fin heat exchanger (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 27 - Plate fin heat exchanger : Analysis
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 28 - Plate fin heat exchanger : Pressure drop
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 29 - Plate fin heat exchanger : Numerical
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 30 - Plate fin heat exchanger : Numerical (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 31 - Plate fin heat exchanger : Numerical (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 32 - Plate fin heat exchanger : Multistream
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 33 - Plate fin heat exchanger : Multistream (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 34 - Plate fin heat exchanger : Multistream Analysis
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 35 - Plate fin heat exchanger : Layer Stacking
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 36 - Phase change heat exchangers
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 37 - Phase change heat exchangers (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 38 - Surface Condenser
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 39 - Surface Condenser (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 40 - Surface Condenser (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 41 - Surface Condenser (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 42 - In tube condensation
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 43 - Heat pipes and Heat pipe heat exchangers
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 44 - Heat pipes and Heat pipe heat exchangers (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 45 - Heat pipes and Heat exchangers
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 46 - Heat pipes and Heat exchangers (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 47 - Micro Heat Exchanger Introduction
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 48 - Micro scale Heat Transfer
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 49 - Micro scale Heat Transfer (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 50 - Micro Channel
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 51 - Micro Heat Exchanger
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 52 - Regenerators
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 53 - Fixed Bed Regenerator Analysis
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 54 - Design and Simulation of Regenerator (Fixed Bed)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 55 - Fixed Bed Regenerator (Numerical)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 56 - Fixed Bed Regenerator (Numerical) (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 57 - Fouling in Heat Exchangers
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 58 - Fouling in Heat Exchangers (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 59 - Fouling in Heat Exchangers (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 60 - Direct Contact heat exchanger
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 61 - Direct Contact heat exchanger (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 62 - Heat exchanger network synthesis
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 63 - Heat exchanger network
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 64 - Heat exchanger network (Continued...)
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 65 - Heat Exchanger Testing
Link NOC:Heat Exchangers: Fundamentals and Design Analysis Lecture 66 - Heat Exchanger Testing (Continued...)
Link NOC:Robotics Lecture 1 - Introduction to Robots and Robotics
Link NOC:Robotics Lecture 2 - Introduction to Robots and Robotics (Continued...)
Link NOC:Robotics Lecture 3 - Introduction to Robots and Robotics (Continued...)
Link NOC:Robotics Lecture 4 - Introduction to Robots and Robotics (Continued...)
Link NOC:Robotics Lecture 5 - Introduction to Robots and Robotics (Continued...)
Link NOC:Robotics Lecture 6 - Introduction to Robots and Robotics (Continued...)
Link NOC:Robotics Lecture 7 - Introduction to Robots and Robotics (Continued...)
Link NOC:Robotics Lecture 8 - Introduction to Robots and Robotics (Continued...)
Link NOC:Robotics Lecture 9 - Introduction to Robots and Robotics (Continued...)
Link NOC:Robotics Lecture 10 - Introduction to Robots and Robotics (Continued...)
Link NOC:Robotics Lecture 11 - Robot Kinematics
Link NOC:Robotics Lecture 12 - Robot Kinematics (Continued...)
Link NOC:Robotics Lecture 13 - Robot Kinematics (Continued...)
Link NOC:Robotics Lecture 14 - Robot Kinematics (Continued...)
Link NOC:Robotics Lecture 15 - Robot Kinematics (Continued...)
Link NOC:Robotics Lecture 16 - Robot Kinematics (Continued...)
Link NOC:Robotics Lecture 17 - Robot Kinematics (Continued...)
Link NOC:Robotics Lecture 18 - Robot Kinematics (Continued...)
Link NOC:Robotics Lecture 19 - Robot Kinematics (Continued...)
Link NOC:Robotics Lecture 20 - Robot Kinematics (Continued...)
Link NOC:Robotics Lecture 21 - Trajectory Planning
Link NOC:Robotics Lecture 22 - Trajectory Planning (Continued...)
Link NOC:Robotics Lecture 23 - Singularity Checking
Link NOC:Robotics Lecture 24 - Robot Dynamics
Link NOC:Robotics Lecture 25 - Robot Dynamics (Continued...)
Link NOC:Robotics Lecture 26 - Robot Dynamics (Continued...)
Link NOC:Robotics Lecture 27 - Robot Dynamics (Continued...)
Link NOC:Robotics Lecture 28 - Robot Dynamics (Continued...)
Link NOC:Robotics Lecture 29 - Robot Dynamics (Continued...)
Link NOC:Robotics Lecture 30 - Control Scheme
Link NOC:Robotics Lecture 31 - Sensors
Link NOC:Robotics Lecture 32 - Sensors (Continued...)
Link NOC:Robotics Lecture 33 - Sensors (Continued...)
Link NOC:Robotics Lecture 34 - Robot Vision
Link NOC:Robotics Lecture 35 - Robot Vision (Continued...)
Link NOC:Robotics Lecture 36 - Robot Vision (Continued...)
Link NOC:Robotics Lecture 37 - Robot Motion Planning
Link NOC:Robotics Lecture 38 - Robot Motion Planning (Continued...)
Link NOC:Robotics Lecture 39 - Robot Motion Planning (Continued...)
Link NOC:Robotics Lecture 40 - Robot Motion Planning (Continued...)
Link NOC:Robotics Lecture 41 - Intelligent Robot
Link NOC:Robotics Lecture 42 - Biped Walking
Link NOC:Robotics Lecture 43 - Biped Walking (Continued...)
Link NOC:Robotics Lecture 44 - Summary
Link NOC:Robotics Lecture 45 - Summary (Continued...)
Link NOC:Computational Fluid Dynamics Lecture 1 - Intoduction to CFD
Link NOC:Computational Fluid Dynamics Lecture 2 - Classification of partial differential equations
Link NOC:Computational Fluid Dynamics Lecture 3 - Examples of partial differential equations
Link NOC:Computational Fluid Dynamics Lecture 4 - Examples of partial differential equations (Continued...)
Link NOC:Computational Fluid Dynamics Lecture 5 - Nature of the characteristics of partial differential equation
Link NOC:Computational Fluid Dynamics Lecture 6 - Euler-Lagrangian equation
Link NOC:Computational Fluid Dynamics Lecture 7 - Approximate Solutions of Differential Equations
Link NOC:Computational Fluid Dynamics Lecture 8 - Variational formulation
Link NOC:Computational Fluid Dynamics Lecture 9 - Example of variational formulation and introduction to weighted residual method
Link NOC:Computational Fluid Dynamics Lecture 10 - Weighted residual method (Continued...)
Link NOC:Computational Fluid Dynamics Lecture 11 - Point Collocation method, the Galerkin's method and the 'M' form
Link NOC:Computational Fluid Dynamics Lecture 12 - Finite element method (FEM) of discretization
Link NOC:Computational Fluid Dynamics Lecture 13 - Finite element method of discretization (Continued...)
Link NOC:Computational Fluid Dynamics Lecture 14 - Finite difference method (FDM) of discretization
Link NOC:Computational Fluid Dynamics Lecture 15 - Well posed boundary value problem
Link NOC:Computational Fluid Dynamics Lecture 16 - Finite volume method (FVM) of discretization
Link NOC:Computational Fluid Dynamics Lecture 17 - Illustrative examples of finite volume method
Link NOC:Computational Fluid Dynamics Lecture 18 - Illustrative examples of finite volume method (Continued...)
Link NOC:Computational Fluid Dynamics Lecture 19 - Basic rules of finite volume discretization
Link NOC:Computational Fluid Dynamics Lecture 20 - Implementation of boundary conditions in FVM
Link NOC:Computational Fluid Dynamics Lecture 21 - Implementation of boundary conditions in FVM (Continued...)
Link NOC:Computational Fluid Dynamics Lecture 22 - 1-D Unsteady state diffusion problem
Link NOC:Computational Fluid Dynamics Lecture 23 - 1-D Unsteady state diffusion problem (Continued...)
Link NOC:Computational Fluid Dynamics Lecture 24 - Consequences of Discretization of Unsteady State Problems
Link NOC:Computational Fluid Dynamics Lecture 25 - FTCS scheme
Link NOC:Computational Fluid Dynamics Lecture 26 - CTCS scheme (Leap frog scheme) and Dufort-Frankel scheme
Link NOC:Computational Fluid Dynamics Lecture 27 - Part 1: FV Discretization of 2-D Unsteady State Diffusion Type problems; Part 2: Solution to linear algebraic equations
Link NOC:Computational Fluid Dynamics Lecture 28 - Solution to linear algebraic equations (Continued...)
Link NOC:Computational Fluid Dynamics Lecture 29 - Elemination methods
Link NOC:Computational Fluid Dynamics Lecture 30 - Gaussian elemination and LU Decomposition methods
Link NOC:Computational Fluid Dynamics Lecture 31 - Illustrative example of elemination method
Link NOC:Computational Fluid Dynamics Lecture 32 - Tri-Diagonal Matrix Algorithm (TDMA)
Link NOC:Computational Fluid Dynamics Lecture 33 - Elimination Methods: Error Analysis
Link NOC:Computational Fluid Dynamics Lecture 34 - Elimination Methods: Error Analysis (Continued...)
Link NOC:Computational Fluid Dynamics Lecture 35 - Iteration methods
Link NOC:Computational Fluid Dynamics Lecture 36 - Generalized analysis of Iteration method
Link NOC:Computational Fluid Dynamics Lecture 37 - Further discussion on Iterative methods
Link NOC:Computational Fluid Dynamics Lecture 38 - Illustrative examples of Iterative methods
Link NOC:Computational Fluid Dynamics Lecture 39 - Gradient Search based methods
Link NOC:Computational Fluid Dynamics Lecture 40 - Steepest descent method (Continued...)
Link NOC:Computational Fluid Dynamics Lecture 41 - Conjugate gradient method
Link NOC:Computational Fluid Dynamics Lecture 42 - Convection diffusion equation
Link NOC:Computational Fluid Dynamics Lecture 43 - Central difference scheme applied to convection-diffusion equation
Link NOC:Computational Fluid Dynamics Lecture 44 - Upwind scheme
Link NOC:Computational Fluid Dynamics Lecture 45 - Illustrative examples
Link NOC:Computational Fluid Dynamics Lecture 46 - Exact solution of 1-D steady state convection diffusion equation (Continued...)
Link NOC:Computational Fluid Dynamics Lecture 47 - Exponential scheme
Link NOC:Computational Fluid Dynamics Lecture 48 - Generalized convection diffusion formulation
Link NOC:Computational Fluid Dynamics Lecture 49 - 2-D convection diffusion problem
Link NOC:Computational Fluid Dynamics Lecture 50 - False (numerical) diffusion scheme and the QUICK scheme
Link NOC:Computational Fluid Dynamics Lecture 51 - Discretization of Navier Stokes equation
Link NOC:Computational Fluid Dynamics Lecture 52 - Discretization of Navier Stokes equation (Continued...)
Link NOC:Computational Fluid Dynamics Lecture 53 - Concept of staggered grid
Link NOC:Computational Fluid Dynamics Lecture 54 - SIMPLE algorithm
Link NOC:Computational Fluid Dynamics Lecture 55 - Salient features of SIMPLE algorithm
Link NOC:Computational Fluid Dynamics Lecture 56 - Illustrative examples on the use of SIMPLE algorithm
Link NOC:Computational Fluid Dynamics Lecture 57 - SIMPLER algorithm
Link NOC:Computational Fluid Dynamics Lecture 58 - Illustrative examples of SIMPLER algorithm
Link NOC:Computational Fluid Dynamics Lecture 59 - What is there in implementing a CFD Code
Link NOC:Computational Fluid Dynamics Lecture 60 - Some representative case studies
Link NOC:Concepts of Thermodynamics Lecture 1 - Introductory Concepts
Link NOC:Concepts of Thermodynamics Lecture 2 - Properties of Pure Substances
Link NOC:Concepts of Thermodynamics Lecture 3 - Properties of Pure Substances (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 4 - Introduction to Property Tables
Link NOC:Concepts of Thermodynamics Lecture 5 - Properties of Pure Substances: Example problems (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 6 - Properties of Pure Substances: Example problems (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 7 - Use of Computer as Means of Learning Thermodynamics
Link NOC:Concepts of Thermodynamics Lecture 8 - Properties of Pure Substances (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 9 - Properties of Pure Substances Spring - Piston Problem
Link NOC:Concepts of Thermodynamics Lecture 10 - Heat and Work
Link NOC:Concepts of Thermodynamics Lecture 11 - Heat and Work : Representative Problems
Link NOC:Concepts of Thermodynamics Lecture 12 - Heat and Work : Representative Problems (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 13 - Heat and Work : Representative Problems (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 14 - First Law of Thermodynamics for a Control Mass System
Link NOC:Concepts of Thermodynamics Lecture 15 - Enthalpy and Specific Heats
Link NOC:Concepts of Thermodynamics Lecture 16 - First Law for a Control Mass System : Representative Examples
Link NOC:Concepts of Thermodynamics Lecture 17 - First Law for a Control Mass System : Representative Examples (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 18 - First Law for a Control Mass System : Representative Examples (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 19 - Control Volume Conservation Reynolds Transport Theorem
Link NOC:Concepts of Thermodynamics Lecture 20 - Control Volume Mass and Energy Balance
Link NOC:Concepts of Thermodynamics Lecture 21 - Supplementary Lecture: Problem solving with the aid of a computer
Link NOC:Concepts of Thermodynamics Lecture 22 - First Law for Steady State Steady Flow (SSSF) Process
Link NOC:Concepts of Thermodynamics Lecture 23 - First Law for SSSF Process : Example Problem
Link NOC:Concepts of Thermodynamics Lecture 24 - First Law for SSSF Process : Example Problem (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 25 - First Law for SSSF Process : Example Problem (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 26 - First Law for SSSF Process : Example Problem (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 27 - Supplementary Lecture: Problem solving with the aid of a computer
Link NOC:Concepts of Thermodynamics Lecture 28 - First Law of Thermodynamics for Unsteady Processes in a Control Volume
Link NOC:Concepts of Thermodynamics Lecture 29 - First Law for Unsteady Problems - Examples
Link NOC:Concepts of Thermodynamics Lecture 30 - First Law for Unsteady Problems - Examples (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 31 - First Law for Unsteady Problems - Examples (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 32 - Supplementary Lecture : Problem Solving with the Aid of a Computer
Link NOC:Concepts of Thermodynamics Lecture 33 - Introduction to Second Law of Thermodynamics
Link NOC:Concepts of Thermodynamics Lecture 34 - Statements of the Second Law of Thermodynamics
Link NOC:Concepts of Thermodynamics Lecture 35 - Perpetual Motion Machines; Reversible and Irreversible Processes
Link NOC:Concepts of Thermodynamics Lecture 36 - Factors for Irreversibility and Introduction to Reversible Cycles
Link NOC:Concepts of Thermodynamics Lecture 37 - Carnot Theorem and Absolute Temperature Scale
Link NOC:Concepts of Thermodynamics Lecture 38 - Second Law: Illustrative Problems
Link NOC:Concepts of Thermodynamics Lecture 39 - Clausius Inequality and Introduction to Entropy
Link NOC:Concepts of Thermodynamics Lecture 40 - Thermodynamic Property Relationships; Entropy change for Solids, Liquids and Ideal gases
Link NOC:Concepts of Thermodynamics Lecture 41 - Entropy balance for Reversible and Irreversible Processes
Link NOC:Concepts of Thermodynamics Lecture 42 - What is Entropy ?
Link NOC:Concepts of Thermodynamics Lecture 43 - Entropy Change in closed system: Examples
Link NOC:Concepts of Thermodynamics Lecture 44 - Entropy Change in closed system: Examples
Link NOC:Concepts of Thermodynamics Lecture 45 - Supplementary Lecture: Problem solving with the aid of a computer
Link NOC:Concepts of Thermodynamics Lecture 46 - Supplementary Lecture: Problem solving with the aid of a computer
Link NOC:Concepts of Thermodynamics Lecture 47 - Entropy Transport for a flow process
Link NOC:Concepts of Thermodynamics Lecture 48 - Entropy Transport for flow process: Examples
Link NOC:Concepts of Thermodynamics Lecture 49 - Entropy Transport for flow process: Examples
Link NOC:Concepts of Thermodynamics Lecture 50 - Entropy Transport for flow process: Examples
Link NOC:Concepts of Thermodynamics Lecture 51 - Entropy Transport for flow process: Examples
Link NOC:Concepts of Thermodynamics Lecture 52 - Supplementary Lecture: Problem solving with the aid of a computer
Link NOC:Concepts of Thermodynamics Lecture 53 - Exergy (Availability)
Link NOC:Concepts of Thermodynamics Lecture 54 - Exergy (Availability) (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 55 - Exergy Analysis : Examples
Link NOC:Concepts of Thermodynamics Lecture 56 - Exergy Analysis : Examples (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 57 - Thermodynamic Relationships
Link NOC:Concepts of Thermodynamics Lecture 58 - Thermodynamic Relationships (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 59 - Otto Cycle
Link NOC:Concepts of Thermodynamics Lecture 60 - Diesel Cycle
Link NOC:Concepts of Thermodynamics Lecture 61 - Example Problems : Otto Cycle and Diesel Cycle
Link NOC:Concepts of Thermodynamics Lecture 62 - Brayton Cycle
Link NOC:Concepts of Thermodynamics Lecture 63 - Carnot Cycle and Rankine Cycle
Link NOC:Concepts of Thermodynamics Lecture 64 - Carnot Cycle and Rankine Cycle (Continued...)
Link NOC:Concepts of Thermodynamics Lecture 65 - Vapour Compression Refrigeration Cycle
Link NOC:Concepts of Thermodynamics Lecture 66 - Review of Learning Concepts
Link NOC:Concepts of Thermodynamics Lecture 67 - Supplementary Lecture: Problem solving with the aid of a computer
Link NOC:Concepts of Thermodynamics Lecture 68 - Supplementary Lecture: Problem solving with the aid of a computer
Link NOC:Electronic Packaging and Manufacturing Lecture 1 - Introduction - 1
Link NOC:Electronic Packaging and Manufacturing Lecture 2 - Introduction - 2
Link NOC:Electronic Packaging and Manufacturing Lecture 3 - Introduction - 3
Link NOC:Electronic Packaging and Manufacturing Lecture 4 - Semiconductors and Components - 1
Link NOC:Electronic Packaging and Manufacturing Lecture 5 - Semiconductors and Components - 2
Link NOC:Electronic Packaging and Manufacturing Lecture 6 - 1st Level Packaging - I
Link NOC:Electronic Packaging and Manufacturing Lecture 7 - 1st Level Packaging - II
Link NOC:Electronic Packaging and Manufacturing Lecture 8 - Area Array Packages - I
Link NOC:Electronic Packaging and Manufacturing Lecture 9 - Area Array Packages - II
Link NOC:Electronic Packaging and Manufacturing Lecture 10 - Area Array Packages - III
Link NOC:Electronic Packaging and Manufacturing Lecture 11 - Flip Chip Technology
Link NOC:Electronic Packaging and Manufacturing Lecture 12 - 1st Level Interconnections - I
Link NOC:Electronic Packaging and Manufacturing Lecture 13 - 1st Level Interconnections - II
Link NOC:Electronic Packaging and Manufacturing Lecture 14 - 1st Level Interconnections - III
Link NOC:Electronic Packaging and Manufacturing Lecture 15 - Advanced Packaging
Link NOC:Electronic Packaging and Manufacturing Lecture 16 - 2nd Level Packaging: PCB - I
Link NOC:Electronic Packaging and Manufacturing Lecture 17 - 2nd Level Packaging: PCB - II
Link NOC:Electronic Packaging and Manufacturing Lecture 18 - 2nd Level Packaging: PCB - III
Link NOC:Electronic Packaging and Manufacturing Lecture 19 - 2nd Level Packaging: PCB - IV
Link NOC:Electronic Packaging and Manufacturing Lecture 20 - 2nd Level Packaging: PCB - V
Link NOC:Electronic Packaging and Manufacturing Lecture 21 - System Integration
Link NOC:Electronic Packaging and Manufacturing Lecture 22 - Thermal Management 1: Introduction
Link NOC:Electronic Packaging and Manufacturing Lecture 23 - Thermal Management 2: Concepts
Link NOC:Electronic Packaging and Manufacturing Lecture 24 - Thermal Management 3: Thermal Resistance
Link NOC:Electronic Packaging and Manufacturing Lecture 25 - Thermal Management 4: Heat Sink
Link NOC:Electronic Packaging and Manufacturing Lecture 26 - Thermal Management 5: Heat Sink Characterization
Link NOC:Electronic Packaging and Manufacturing Lecture 27 - Thermal Management 6: Heat Transfer Correlations
Link NOC:Electronic Packaging and Manufacturing Lecture 28 - Thermal Management 7: Practice Problems
Link NOC:Electronic Packaging and Manufacturing Lecture 29 - Thermal Management 8: Thermal Technologies
Link NOC:Electronic Packaging and Manufacturing Lecture 30 - Thermal Management 9: Novel Cooling Technologies
Link NOC:Electronic Packaging and Manufacturing Lecture 31 - Shock and Vibration - 1
Link NOC:Electronic Packaging and Manufacturing Lecture 32 - Shock and Vibration - 2
Link NOC:Electronic Packaging and Manufacturing Lecture 33 - Shock and Vibration - 3
Link NOC:Electronic Packaging and Manufacturing Lecture 34 - Shock and Vibration - 4
Link NOC:Electronic Packaging and Manufacturing Lecture 35 - Electronic Packaging Reliability - 1
Link NOC:Electronic Packaging and Manufacturing Lecture 36 - Electronic Packaging Reliability - 2
Link NOC:Electronic Packaging and Manufacturing Lecture 37 - Electronic Packaging Reliability - 3
Link NOC:Electronic Packaging and Manufacturing Lecture 38 - Electronic Packaging Reliability - 4
Link NOC:Electronic Packaging and Manufacturing Lecture 39 - Power Electronics Packaging
Link NOC:Electronic Packaging and Manufacturing Lecture 40 - Special Topics
Link NOC:Kinematics of Mechanisms and Machines Lecture 1 - Introduction and Motivation
Link NOC:Kinematics of Mechanisms and Machines Lecture 2 - Nomenclature and Classification
Link NOC:Kinematics of Mechanisms and Machines Lecture 3 - Kinematic Diagram
Link NOC:Kinematics of Mechanisms and Machines Lecture 4 - Degree of Freedom
Link NOC:Kinematics of Mechanisms and Machines Lecture 5 - Constrained and Robotic Mechanisms
Link NOC:Kinematics of Mechanisms and Machines Lecture 6 - Failure of DOF Calculation
Link NOC:Kinematics of Mechanisms and Machines Lecture 7 - Grashof Criterion - I
Link NOC:Kinematics of Mechanisms and Machines Lecture 8 - Grashof Criterion - II
Link NOC:Kinematics of Mechanisms and Machines Lecture 9 - Grashof Criterion - Problems
Link NOC:Kinematics of Mechanisms and Machines Lecture 10 - Displacement Analysis - I
Link NOC:Kinematics of Mechanisms and Machines Lecture 11 - Displacement Analysis - II
Link NOC:Kinematics of Mechanisms and Machines Lecture 12 - Displacement Analysis Example - I
Link NOC:Kinematics of Mechanisms and Machines Lecture 13 - Displacement Analysis Example - II
Link NOC:Kinematics of Mechanisms and Machines Lecture 14 - Steering Mechanisms
Link NOC:Kinematics of Mechanisms and Machines Lecture 15 - Displacement Analysis of Robots - I
Link NOC:Kinematics of Mechanisms and Machines Lecture 16 - Displacement Analysis of Robots - II
Link NOC:Kinematics of Mechanisms and Machines Lecture 17 - Displacement Analysis of Robots - III
Link NOC:Kinematics of Mechanisms and Machines Lecture 18 - Geometric Velocity Analysis - I
Link NOC:Kinematics of Mechanisms and Machines Lecture 19 - Geometric Velocity Analysis - II
Link NOC:Kinematics of Mechanisms and Machines Lecture 20 - Geometric Velocity Analysis - III
Link NOC:Kinematics of Mechanisms and Machines Lecture 21 - Velocity Analysis: Method of IC - I
Link NOC:Kinematics of Mechanisms and Machines Lecture 22 - Velocity Analysis: Method of IC - II
Link NOC:Kinematics of Mechanisms and Machines Lecture 23 - Velocity Analysis: Method of IC - III
Link NOC:Kinematics of Mechanisms and Machines Lecture 24 - Analytical Velocity Analysis - I
Link NOC:Kinematics of Mechanisms and Machines Lecture 25 - Analytical Velocity Analysis - II
Link NOC:Kinematics of Mechanisms and Machines Lecture 26 - Analytical Velocity Analysis - III
Link NOC:Kinematics of Mechanisms and Machines Lecture 27 - Velocity Analysis Examples
Link NOC:Kinematics of Mechanisms and Machines Lecture 28 - Robot Velocity Analysis - I
Link NOC:Kinematics of Mechanisms and Machines Lecture 29 - Robot Velocity Analysis - II
Link NOC:Kinematics of Mechanisms and Machines Lecture 30 - Robot Velocity Analysis - III
Link NOC:Kinematics of Mechanisms and Machines Lecture 31 - Robot Path Generation
Link NOC:Kinematics of Mechanisms and Machines Lecture 32 - Acceleration Analysis - I
Link NOC:Kinematics of Mechanisms and Machines Lecture 33 - Acceleration Analysis - II
Link NOC:Kinematics of Mechanisms and Machines Lecture 34 - Force Analysis - I
Link NOC:Kinematics of Mechanisms and Machines Lecture 35 - Force Analysis - II
Link NOC:Kinematics of Mechanisms and Machines Lecture 36 - Force Analysis Examples
Link NOC:Kinematics of Mechanisms and Machines Lecture 37 - Gear Kinematics
Link NOC:Kinematics of Mechanisms and Machines Lecture 38 - Gear trains - I
Link NOC:Kinematics of Mechanisms and Machines Lecture 39 - Gear trains - II
Link NOC:Kinematics of Mechanisms and Machines Lecture 40 - Gear trains - III
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 1 - Motivations of studying fluid mechanics
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 2 - Macroscopic and microscopic point of views
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 3 - Concept of traction vector
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 4 - Cauchy's theorem
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 5 - Concept of pressure in a fluid
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 6 - Density, Bulk Modulus, Viscosity
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 7 - Viscosity, Newtonian fluid
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 8 - Kinematic viscosity, Reynolds number
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 9 - Non-Newtonian fluids
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 10 - Some illustrative examples solved
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 11 - Problems and Solutions
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 12 - Surface Tension - Part I
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 13 - Surface Tension - Part II
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 14 - Governing equation of fluid statics
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 15 - Manometers
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 16 - Force on a surface immersed in fluid - Part I
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 17 - Force on a surface immersed in fluid - Part II
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 18 - Force on a surface immersed in fluid - Part III, Stability of solid bodies in fluid - Part I
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 19 - Stability of solid bodies in fluid - Part II
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 20 - Fluid under rigid body motion
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 21 - Lagrangian and Eulerian approaches
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 22 - Concept of different flow lines
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 23 - Acceleration of fluid flow
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 24 - Deformation of fluid elements - Part I
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 25 - Derivation of continuity equation
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 26 - Problems and Solutions
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 27 - Deformation of fluid elements - Part II
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 28 - Deformation of fluid elements - Part III
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 29 - Stream Function
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 30 - Circulation, Velocity Potential
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 31 - Euler's equation
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 32 - Bernoulli’s equation - Part I
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 33 - Bernoulli’s equation - Part II
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 34 - Bernoulli's equation - Part III
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 35 - Euler’s equation in streamline coordinates
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 36 - Problems and Solutions
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 37 - Problems and Solutions
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 38 - Application of Bernoulli's equation - Part I
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 39 - Application of Bernoulli's equation - Part II
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 40 - Application of Bernoulli's equation - Part III
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 41 - Reynolds Transport Theorem (RTT)
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 42 - Application of RTT: Conservation of mass
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 43 - Problems and Solutions
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 44 - Problems and Solutions
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 45 - Application of RTT: Conservation of linear momentum
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 46 - Problems and Solutions
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 47 - Problems and Solutions
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 48 - Problems and Solutions
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 49 - Application of RTT: Conservation of angular momentum
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 50 - Problems and Solutions
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 51 - Navier-Stokes equation - Part I
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 52 - Navier-Stokes equation - Part II
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 53 - Navier-Stokes equation - Part III
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 54 - Navier-Stokes equation - Part IV
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 55 - Pipe Flow - Part I
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 56 - Pipe Flow - Part II
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 57 - Pipe Flow - Part III
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 58 - Pipe Flow - Part IV
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 59 - Principle of Similarity and Dynamical Analysis - Part I
Link NOC:Introduction to Fluid Mechanics (2019) Lecture 60 - Principle of Similarity and Dynamical Analysis - Part II
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 1 - Introduction to Conduction
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 2 - 1-D Steady State Conduction
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 3 - Introduction to Convection
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 4 - Conduction Equation : Internal Energy Form
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 5 - Conduction Equation : C_p form
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 6 - Conduction Equation : Boundary Conditions and Problems
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 7 - 1-D Steady State Conduction - I
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 8 - Concept of Thermal Resistance
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 9 - 1-D Steady State Conduction - II
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 10 - 1-D Steady State Conduction - II (Continued...)
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 11 - Problems on 1-D Steady State Conduction - I
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 12 - Problems on 1-D Steady State Conduction - I (Continued...)
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 13 - Problems on 1-D Steady State Conduction - II
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 14 - Conduction in Cylindrical Geometry
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 15 - Critical Insulation Thickness
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 16 - Critical Insulation Thickness (Continued...)
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 17 - Problems on Conduction in Cylindrical Geometry - 1
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 18 - Problems on Conduction in Cylindrical Geometry - 2 and Conduction in Spherical Geometry
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 19 - Problems on Conduction in Cylindrical Geometry - 2 and Conduction in Spherical Geometry
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 20 - Heat Transfer From Extended Surfaces
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 21 - Boundary Conditions at the Fin Tip
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 22 - Fin Types, Efficiency and Effectiveness
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 23 - Problems on Heat Transfer From Extended Surfaces
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 24 - 2-D Steady State Conduction
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 25 - Separation of Variables Method for 2-D Steady State Conduction
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 26 - Superposition Method for 2-D Steady State Conduction
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 27 - Transient Conduction: Lumped Parameter Approach
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 28 - Problems on Lumped Parameter Approach
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 29 - Transient Conduction: Infinite Slab
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 30 - Transient Conduction: Semi-Infinite Slab - 1
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 31 - Transient Conduction: Semi-Infinite Slab - 2
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 32 - Introduction to Convection
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 33 - Review of Fluid Mechanics - 1
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 34 - Review of Fluid Mechanics - 2
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 35 - Review of Fluid Mechanics - 3
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 36 - Review of Fluid Mechanics - 4
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 37 - Review of Fluid Mechanics - 5
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 38 - Energy Conservation Equation - 1
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 39 - Energy Conservation Equation - 2
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 40 - Energy Conservation Equation - 3
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 41 - Thermal Boundary Layer - 1
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 42 - Thermal Boundary Layer - 2
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 43 - Energy Integral Equation - 1
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 44 - Energy Integral Equation - 2
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 45 - Internal Forced Convection - 1
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 46 - Internal Forced Convection - 2
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 47 - Internal Forced Convection - 3
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 48 - Internal Forced Convection - 4
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 49 - Internal Forced Convection - 5
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 50 - Internal Forced Convection - 6
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 51 - Viscous Dissipation - 1
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 52 - Viscous Dissipation - 2
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 53 - Natural Convection - 1
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 54 - Natural Convection - 2
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 55 - Natural Convection - 3
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 56 - Natural Convection - 4
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 57 - Condensation - 1
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 58 - Condensation - 2
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 59 - Boiling
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 60 - Heat Exchangers - 1
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 61 - Heat Exchangers - 2
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 62 - Heat Exchangers - 3
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 63 - Heat Exchangers - 4
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 64 - Heat Exchangers - 5
Link NOC:Conduction and Convection Heat Transfer (Prof. S. Chakraborty) Lecture 65 - Problems on Heat Exchangers
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 1 - Eulerian and Lagrangian Description of Fluid Motion
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 2 - Lines of Flow Visualization and Acceleration of Flow
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 3 - Angular Deformation of Fluid Elements
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 4 - Linear and Volumetric Deformation; Perspectives from Mass Conservation
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 5 - Continuity Education in Integral Form : Stream Function and Velocity Potential
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 6 - Euler Equation for Inviscid Flow
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 7 - Bernoulli's Equation
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 8 - Examples of Bernoulli's Equation
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 9 - Reynolds Transport Equation
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 10 - Reynolds Transport Theorem : Mass and Linear Momentum Conservation
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 11 - Reynolds transport theorem : arbitrarily moving control volume
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 12 - Reynolds transport theorem : angular momentum conservation
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 13 - Introduction to traction vector and stress tensor
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 14 - Cauchy/Navier equation
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 15 - Navier Stokes equation
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 16 - Navier Stokes equation (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 17 - Some exact solutions of the Navier Stokes equation
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 18 - Interfacial boundary conditions and example of thin film flows
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 19 - Exact solutions of the Navier Stokes equations in cylindrical polar coordinates
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 20 - Exact solutions of the Navier Stokes equation for some unsteady flows
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 21 - Confined oscillatory flows
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 22 - Introduction to Turbulence
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 23 - Statistical Treatment of Turbulence and Near - Wall Velocity Profiles
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 24 - Introduction to Boundary Layer Theory
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 25 - Similarity Solution of Boundary Layer Equation
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 26 - Momentum Integral Method
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 27 - Application of Momentum Integral Method and Boundary Layer Separation
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 28 - Potential Flow
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 29 - Potential Flow (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 30 - Potential Flow (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 31 - Potential Flow (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 32 - Potential Flow (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 33 - Potential Flow (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 34 - Stokes Flow past a Sphere
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 35 - Stokes Flow past a Sphere (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 36 - Stokes Flow past a Sphere (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 37 - Lubrication Theory
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 38 - Lubrication Theory (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 39 - Lubrication Theory (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 40 - Thin Film Dynamics
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 41 - Thin Film Dynamics (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 42 - Thin Film Dynamics (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 43 - Thin Film Dynamics (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 44 - Thin Film Dynamics (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 45 - Thin Film Dynamics (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 46 - Thin Film Dynamics (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 47 - Thin Film Dynamics (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 48 - Compressible Flows
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 49 - Compressible Flows (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 50 - Compressible Flows (Stagnation Properties)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 51 - Compressible Flows (Stagnation Properties, Variable Area)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 52 - Compressible Flows (Variable Area)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 53 - Compressible Flows (Variable Area)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 54 - Compressible Flows (Normal Shock)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 55 - Compressible Flows (Normal Shock) (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 56 - Compressible Flows (Converging Nozzle)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 57 - Compressible Flows (Converging Diverging Nozzle)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 58 - Compressible Flows (Converging Diverging Nozzle) (Continued...)
Link NOC:Advanced Concepts in Fluid Mechanics Lecture 59 - Compressible Flows with Friction
Link Advanced Gas Dynamics Lecture 1 - Introduction to Gas Dynamics & Review of Basic Thermodynamics
Link Advanced Gas Dynamics Lecture 2 - Review of Basic Thermodynamics Continued
Link Advanced Gas Dynamics Lecture 3 - An introduction to Normal Shocks
Link Advanced Gas Dynamics Lecture 4 - The Mach Number and Compressible Flow
Link Advanced Gas Dynamics Lecture 5 - The relation of physical properties across a normal shock
Link Advanced Gas Dynamics Lecture 6 - Normal Shock in a duct: Throat and Reservoir conditions
Link Advanced Gas Dynamics Lecture 7 - Example Problems in Normal Shocks
Link Advanced Gas Dynamics Lecture 8 - An introduction to Oblique Shocks
Link Advanced Gas Dynamics Lecture 9 - The relation of physical properties across an oblique shock
Link Advanced Gas Dynamics Lecture 10 - Example Problems in Oblique Shocks
Link Advanced Gas Dynamics Lecture 11 - Pressure - Deflection relationship of Shocks
Link Advanced Gas Dynamics Lecture 12 - An introduction to Expansion waves
Link Advanced Gas Dynamics Lecture 13 - Area - Mach Relationship
Link Advanced Gas Dynamics Lecture 14 - Unsteady Shock Waves: The Shock Tube
Link Advanced Gas Dynamics Lecture 15 - The Shock Tube: Propagating Normal Shock and its reflection from end wall
Link Advanced Gas Dynamics Lecture 16 - A review of wave propagation
Link Advanced Gas Dynamics Lecture 17 - Wave propagation: Small Perturbation Theory
Link Advanced Gas Dynamics Lecture 18 - Finite Wave Theory: An introduction to the Method of Characteristics
Link Advanced Gas Dynamics Lecture 19 - The Shock Tube: Propagating Expansion Fan
Link Advanced Gas Dynamics Lecture 20 - The Method of Characteristics
Link Advanced Gas Dynamics Lecture 21 - Application of The Method of Characteristics: Design of a minimum length nozzle
Link Advanced Gas Dynamics Lecture 22 - Application of The Method of Characteristics: Flow through a diverging channel
Link Advanced Gas Dynamics Lecture 23 - Flow over a Wavy wall: Formulation using Perturbation Theory
Link Advanced Gas Dynamics Lecture 24 - Subsonic Flow over a Wavy wall
Link Advanced Gas Dynamics Lecture 25 - Supersonic Flow over a Wavy wall
Link Advanced Gas Dynamics Lecture 26 - Supersonic Flow past a 3D Cone: Axisymmetric/Quasi 2D Flow
Link Advanced Gas Dynamics Lecture 27 - Quasi 2D Flow - I
Link Advanced Gas Dynamics Lecture 28 - Quasi 2D Flow - II
Link Advanced Gas Dynamics Lecture 29 - Similarity Rules and Transformed Coordinate System
Link Advanced Gas Dynamics Lecture 30 - Critical Mach Number and Thin Airfoil Theory
Link Advanced Gas Dynamics Lecture 31 - Example Problem using Thin Airfoil Theory
Link Advanced Gas Dynamics Lecture 32 - Example Problems - 1
Link Advanced Gas Dynamics Lecture 33 - Example Problems - 2
Link Advanced Gas Dynamics Lecture 34 - Example Problems - 3
Link Advanced Gas Dynamics Lecture 35 - Supersonic Flow past a 3D Cone at an angle of attack
Link Advanced Gas Dynamics Lecture 36 - Supersonic Flow past a 3D Cone at an angle of attack: Flow Visualization - I
Link Advanced Gas Dynamics Lecture 37 - Supersonic Flow past a 3D Cone at an angle of attack: Flow Visualization - II
Link Advanced Gas Dynamics Lecture 38 - Supersonic Flow past a 3D Cone at an angle of attack: Governing Equations
Link Advanced Gas Dynamics Lecture 39 - Supersonic Flow past a 3D Cone at an angle of attack: Numerical Procedure
Link Advanced Gas Dynamics Lecture 40 - Supersonic Flow past a 3D Bluff Body at an angle of attack
Link Design and Optimization of Energy systems Lecture 1 - Introduction to Optimization
Link Design and Optimization of Energy systems Lecture 2 - System Design and Analysis
Link Design and Optimization of Energy systems Lecture 3 - Workable system
Link Design and Optimization of Energy systems Lecture 4 - System simulation
Link Design and Optimization of Energy systems Lecture 5 - Information flow diagrams
Link Design and Optimization of Energy systems Lecture 6 - Successive substitution method
Link Design and Optimization of Energy systems Lecture 7 - Successive substitution method (Continued.)
Link Design and Optimization of Energy systems Lecture 8 - Successive substitution method and Newton-Raphson method
Link Design and Optimization of Energy systems Lecture 9 - Newton-Raphson method (Continued.)
Link Design and Optimization of Energy systems Lecture 10 - Convergence characteristics of Newton-Raphson method
Link Design and Optimization of Energy systems Lecture 11 - Newton-Raphson method for multiple variables
Link Design and Optimization of Energy systems Lecture 12 - Solution of system of linear equations
Link Design and Optimization of Energy systems Lecture 13 - Introduction to Curve fitting
Link Design and Optimization of Energy systems Lecture 14 - Example for Lagrange interpolation
Link Design and Optimization of Energy systems Lecture 15 - Lagrange interpolation (Continued.)
Link Design and Optimization of Energy systems Lecture 16 - Best fit
Link Design and Optimization of Energy systems Lecture 17 - Least Square Regression
Link Design and Optimization of Energy systems Lecture 18 - Least Square Regression (Continued.)
Link Design and Optimization of Energy systems Lecture 19 - Least Square Regression (Continued.)
Link Design and Optimization of Energy systems Lecture 20 - Non-linear Regression (Gauss - Newton Algorithm)
Link Design and Optimization of Energy systems Lecture 21 - Optimization- Basic ideas
Link Design and Optimization of Energy systems Lecture 22 - Properties of objective function and cardinal ideas in optimization
Link Design and Optimization of Energy systems Lecture 23 - Unconstrained optimization
Link Design and Optimization of Energy systems Lecture 24 - Constrained optimization problems
Link Design and Optimization of Energy systems Lecture 25 - Mathematical proof of the Lagrange multiplier method
Link Design and Optimization of Energy systems Lecture 26 - Test for Maxima / Minima
Link Design and Optimization of Energy systems Lecture 27 - Handling in-equality constraints
Link Design and Optimization of Energy systems Lecture 28 - Kuhn-Tucker conditions (Continued.)
Link Design and Optimization of Energy systems Lecture 29 - Uni-modal function and search methods
Link Design and Optimization of Energy systems Lecture 30 - Dichotomous search
Link Design and Optimization of Energy systems Lecture 31 - Fibonacci search method
Link Design and Optimization of Energy systems Lecture 32 - Reduction ratio of Fibonacci search method
Link Design and Optimization of Energy systems Lecture 33 - Introduction to multi-variable optimization
Link Design and Optimization of Energy systems Lecture 34 - The Conjugate gradient method
Link Design and Optimization of Energy systems Lecture 35 - The Conjugate gradient method (Continued.)
Link Design and Optimization of Energy systems Lecture 36 - Linear programming
Link Design and Optimization of Energy systems Lecture 37 - Dynamic programming
Link Design and Optimization of Energy systems Lecture 38 - Genetic Algorithms
Link Design and Optimization of Energy systems Lecture 39 - Genetic Algorithms (Continued.)
Link Design and Optimization of Energy systems Lecture 40 - Simulated Annealing and Summary
Link Engineering Fracture Mechanics Lecture 1 - EFM Course Outline
Link Engineering Fracture Mechanics Lecture 2 - Spectacular Failures
Link Engineering Fracture Mechanics Lecture 3 - Lessons from Spectacular Failures
Link Engineering Fracture Mechanics Lecture 4 - LEFM and EPFM
Link Engineering Fracture Mechanics Lecture 5 - Fracture Mechanics is Holistic
Link Engineering Fracture Mechanics Lecture 6 - Fatigue Crack Growth Model
Link Engineering Fracture Mechanics Lecture 7 - Crack Growth and Fracture Mechanisms
Link Engineering Fracture Mechanics Lecture 8 - Elastic Strain Energy
Link Engineering Fracture Mechanics Lecture 9 - Fracture Strength by Griffith
Link Engineering Fracture Mechanics Lecture 10 - Energy Release Rate
Link Engineering Fracture Mechanics Lecture 11 - Utility of Energy Release Rate
Link Engineering Fracture Mechanics Lecture 12 - Pop-in Phenomenon
Link Engineering Fracture Mechanics Lecture 13 - Displacement and Stress Formulations
Link Engineering Fracture Mechanics Lecture 14 - Forms of Stress Functions
Link Engineering Fracture Mechanics Lecture 15 - Airy’s Stress Function for Mode-I
Link Engineering Fracture Mechanics Lecture 16 - Westergaard Solution of Stress Field for Mode-I
Link Engineering Fracture Mechanics Lecture 17 - Displacement Field for Mode-I
Link Engineering Fracture Mechanics Lecture 18 - Relation between KI and GI
Link Engineering Fracture Mechanics Lecture 19 - Stress Field in Mode-II
Link Engineering Fracture Mechanics Lecture 20 - Generalised Westergaard Approach
Link Engineering Fracture Mechanics Lecture 21 - William’s Eigen Function Approach
Link Engineering Fracture Mechanics Lecture 22 - Multi-parameter Stress Field Equations
Link Engineering Fracture Mechanics Lecture 23 - Validation of Multi-parameter Field Equations
Link Engineering Fracture Mechanics Lecture 24 - Discussion Session - I
Link Engineering Fracture Mechanics Lecture 25 - Evaluation of SIF for Various Geometries
Link Engineering Fracture Mechanics Lecture 26 - SIF for Embedded Cracks
Link Engineering Fracture Mechanics Lecture 27 - SIF for Surface Cracks
Link Engineering Fracture Mechanics Lecture 28 - Modeling of Plastic Deformation
Link Engineering Fracture Mechanics Lecture 29 - Irwin’s Model
Link Engineering Fracture Mechanics Lecture 30 - Dugdale Model
Link Engineering Fracture Mechanics Lecture 31 - Fracture Toughness Testing
Link Engineering Fracture Mechanics Lecture 32 - Plane Strain Fracture Toughness Testing
Link Engineering Fracture Mechanics Lecture 33 - Plane Stress Fracture Toughness Testing
Link Engineering Fracture Mechanics Lecture 34 - Paris Law and Sigmoidal Curve
Link Engineering Fracture Mechanics Lecture 35 - Crack Closure
Link Engineering Fracture Mechanics Lecture 36 - Crack Growth Models
Link Engineering Fracture Mechanics Lecture 37 - J-Integral
Link Engineering Fracture Mechanics Lecture 38 - HRR Field and CTOD
Link Engineering Fracture Mechanics Lecture 39 - FAD and Mixed Mode Fracture
Link Engineering Fracture Mechanics Lecture 40 - Crack Arrest and Repair Methodologies
Link Engineering Fracture Mechanics Lecture 41 - Discussion Session - II
Link Experimental Stress Analysis Lecture 1 - Overview of Experimental Stress Analysis
Link Experimental Stress Analysis Lecture 2 - Optical Methods Work as Optical Computers
Link Experimental Stress Analysis Lecture 3 - Stress, Strain and Displacement Fields
Link Experimental Stress Analysis Lecture 4 - Physical Principle of Strain Gauges, Photoelasticity and Moiré
Link Experimental Stress Analysis Lecture 5 - Introduction to Moiré, Brittle Coatings and Holography
Link Experimental Stress Analysis Lecture 6 - Hologram Interferometry, Speckle Methods
Link Experimental Stress Analysis Lecture 7 - Introduction to Shearography, TSA, DIC and Caustics
Link Experimental Stress Analysis Lecture 8 - Fringe Patterns – Richness of Qualitative Information
Link Experimental Stress Analysis Lecture 9 - Multi-Scale Analysis in Experimental Mechanics
Link Experimental Stress Analysis Lecture 10 - Selection of an Experimental Technique
Link Experimental Stress Analysis Lecture 11 - Introduction to Transmission Photoelasticity
Link Experimental Stress Analysis Lecture 12 - Ordinary and Extraordinary Rays
Link Experimental Stress Analysis Lecture 13 - Light Ellipse, Passage of Light Through a Crystal Plate
Link Experimental Stress Analysis Lecture 14 - Retardation Plates, Stress-optic Law
Link Experimental Stress Analysis Lecture 15 - Plane Polariscope
Link Experimental Stress Analysis Lecture 16 - Jones Calculus
Link Experimental Stress Analysis Lecture 17 - Circular Polariscope
Link Experimental Stress Analysis Lecture 18 - Determination of Photoelastic Parameters at an Arbitrary Point
Link Experimental Stress Analysis Lecture 19 - Tardy’s Method of Compensation
Link Experimental Stress Analysis Lecture 20 - Calibration of Photo elastic Materials
Link Experimental Stress Analysis Lecture 21 - Fringe Thinning Methodologies
Link Experimental Stress Analysis Lecture 22 - Fringe Ordering in Photoelasticity
Link Experimental Stress Analysis Lecture 23 - Miscellaneous Topics in Transmission Photoelasticity
Link Experimental Stress Analysis Lecture 24 - Three Dimensional Photoelasticity
Link Experimental Stress Analysis Lecture 25 - Overview of Digital Photoelasticity
Link Experimental Stress Analysis Lecture 26 - Introduction to Photoelastic Coatings
Link Experimental Stress Analysis Lecture 27 - Correction Factors for Photoelastic Coatings
Link Experimental Stress Analysis Lecture 28 - Coating Materials, Selection of Coating Thickness, Industrial Application of Photoelastic Coatings
Link Experimental Stress Analysis Lecture 29 - Calibration of Photoelastic Coatings, Introduction to Brittle Coatings
Link Experimental Stress Analysis Lecture 30 - Analysis of Brittle Coatings
Link Experimental Stress Analysis Lecture 31 - Introduction to Strain Gauges
Link Experimental Stress Analysis Lecture 32 - Strain Sensitivity of a Strain Gauge, Bridge Sensitivity, Rosettes
Link Experimental Stress Analysis Lecture 33 - Strain Gauge Alloys, Carriers and Adhesives
Link Experimental Stress Analysis Lecture 34 - Performance of Strain Gauge System
Link Experimental Stress Analysis Lecture 35 - Temperature Compensation, Two-wire and Three-wire Circuits
Link Experimental Stress Analysis Lecture 36 - Strain Gauge Selection
Link Experimental Stress Analysis Lecture 37 - Bonding of a Strain Gauge
Link Experimental Stress Analysis Lecture 38 - Soldering, Accounting for Transverse Sensitivity Effects
Link Experimental Stress Analysis Lecture 39 - Correction Factors for Special Applications
Link Experimental Stress Analysis Lecture 40 - Special Gauges
Link Experimental Stress Analysis Lecture 41 - Questions and Answers
Link Rocket Propulsion Lecture 1 - Introduction
Link Rocket Propulsion Lecture 2 - Motion in Space
Link Rocket Propulsion Lecture 3 - Rotational Frame of Reference and Orbital Velocities
Link Rocket Propulsion Lecture 4 - Velocity Requirements
Link Rocket Propulsion Lecture 5 - Theory of Rocket Propulsion
Link Rocket Propulsion Lecture 6 - Rocket Equation and Staging of Rockets
Link Rocket Propulsion Lecture 7 - Review of Rocket Principles; Propulsion Efficiency
Link Rocket Propulsion Lecture 8 - Examples Illustrating Theory of Rocket Propulsion and Introduction to Nozzles
Link Rocket Propulsion Lecture 9 - Theory of Nozzles
Link Rocket Propulsion Lecture 10 - Nozzle Shape
Link Rocket Propulsion Lecture 11 - Area Ratio of Nozzles; Under-expansion and Over-expansion
Link Rocket Propulsion Lecture 12 - Characteristic Velocity and Thrust Coefficient
Link Rocket Propulsion Lecture 13 - Divergence Loss in Conical Nozzles and the Bell Nozzle
Link Rocket Propulsion Lecture 14 - Unconventional Nozzles and Problems in Nozzles
Link Rocket Propulsion Lecture 15 - Criterion for Choice of Chemical Propellants
Link Rocket Propulsion Lecture 16 - Choice of Fuel-Rich Propellants
Link Rocket Propulsion Lecture 17 - Performance Prediction Analysis
Link Rocket Propulsion Lecture 18 - Dissociation of Products of Combustion
Link Rocket Propulsion Lecture 19 - Shifting Equilibrium and Frozen Flow in Nozzles
Link Rocket Propulsion Lecture 20 - Factors Influencing Choice of Chemical Propellants
Link Rocket Propulsion Lecture 21 - Low Energy Liquid Propellants and Hybrid Propellants
Link Rocket Propulsion Lecture 22 - Introduction to Solid Propellant Rockets
Link Rocket Propulsion Lecture 23 - Burn Rate of Solid Propellants and Equilibrium Pressure in Solid Propellant Rockets
Link Rocket Propulsion Lecture 24 - Design Aspects of Solid Propellant Rockets
Link Rocket Propulsion Lecture 25 - Burning Surface Area of Solid Propellant Grains
Link Rocket Propulsion Lecture 26 - Ignition of Solid Propellant Rockets
Link Rocket Propulsion Lecture 27 - Review of Solid Propellant Rockets
Link Rocket Propulsion Lecture 28 - Feed Systems for Liquid Propellant Rockets
Link Rocket Propulsion Lecture 29 - Feed System Cycles for Pump Fed Liquid Propellant Rockets
Link Rocket Propulsion Lecture 30 - Analysis of Gas Generator and Staged Combustion Cycles and Introduction to Injectors
Link Rocket Propulsion Lecture 31 - Injectors, Cooling of Chamber and Mixture Ratio Distribution
Link Rocket Propulsion Lecture 32 - Efficiencies due to Mixture Ratio Distribution and Incomplete Vaporization
Link Rocket Propulsion Lecture 33 - Pumps and Turbines; Propellant Feed System at Zero “g” Conditions
Link Rocket Propulsion Lecture 34 - Review of Liquid Bi-propellant Rockets and Introduction to Mono-propellant Rockets
Link Rocket Propulsion Lecture 35 - Introduction to Hybrid Rockets and a Simple Illustration of Combustion Instability in Liquid Propellant Rockets
Link Rocket Propulsion Lecture 36 - Combustion Instability in Solid Propellant and Liquid Propellant Rockets – Bulk and Wave Modes
Link Rocket Propulsion Lecture 37 - Wave modes of Oscillation
Link Rocket Propulsion Lecture 38 - Mechanisms Causing Instabilities and Strategies for Avoiding Combustion Instability
Link Rocket Propulsion Lecture 39 - Electric and Magnetic Fields and the Electrostatic Thruster
Link Rocket Propulsion Lecture 40 - Electrical Thrusters
Link Rocket Propulsion Lecture 41 - Advances in Rocket Propulsion
Link Advanced Finite Elements Analysis Lecture 1 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 2 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 3 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 4 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 5 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 6 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 7 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 8 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 9 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 10 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 11 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 12 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 13 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 14 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 15 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 16 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 17 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 18 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 19 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 20 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 21 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 22 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 23 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 24 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 25 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 26 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 27 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 28 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 29 - Advanced Finite Elements Analysis
Link Advanced Finite Elements Analysis Lecture 30 - Advanced Finite Elements Analysis
Link Advanced Operations Research Lecture 1 - Introduction and Linear Programming
Link Advanced Operations Research Lecture 2 - Revised Simplex Algorithm
Link Advanced Operations Research Lecture 3 - Simplex Method for Bounded Variables
Link Advanced Operations Research Lecture 4 - One Dimensional Cutting Stock Problem
Link Advanced Operations Research Lecture 5 - One Dimensional Cutting Stock Problem (Continued.)
Link Advanced Operations Research Lecture 6 - Dantzig-Wolfe Decomposition Algorithm
Link Advanced Operations Research Lecture 7 - Dantzig-Wolfe Decomposition Algorithm Primal-Dual Algorithm
Link Advanced Operations Research Lecture 8 - Primal-Dual Algorithm
Link Advanced Operations Research Lecture 9 - Goal Programming-Formulations
Link Advanced Operations Research Lecture 10 - Goal Programming Solutions Complexity of Simplex Algorithm
Link Advanced Operations Research Lecture 11 - Complexity of Simplex Algorithm (Continued.) Integer Programming
Link Advanced Operations Research Lecture 12 - Integer Programming-Formulations
Link Advanced Operations Research Lecture 13 - Solving Zero-One Problems
Link Advanced Operations Research Lecture 14 - Solving Zero-One Problems (Continued.)
Link Advanced Operations Research Lecture 15 - Branch And Bond Algorithm For Integer Programming
Link Advanced Operations Research Lecture 16 - Cutting Plane Algorithm
Link Advanced Operations Research Lecture 17 - All Integer Primal Algorithm
Link Advanced Operations Research Lecture 18 - All Integer Dual Algorithm
Link Advanced Operations Research Lecture 19 - Network Models
Link Advanced Operations Research Lecture 20 - Shortest Path Problem
Link Advanced Operations Research Lecture 21 - Successive Shortest Path Problem
Link Advanced Operations Research Lecture 22 - Maximum Flow Problem
Link Advanced Operations Research Lecture 23 - Minimum Cost Flow Problem
Link Advanced Operations Research Lecture 24 - Traveling Salesman Problem (TSP)
Link Advanced Operations Research Lecture 25 - Branch and Bound Algorithms for TSP
Link Advanced Operations Research Lecture 26 - Heuristics for TSP
Link Advanced Operations Research Lecture 27 - Heuristics for TSP (Continued.)
Link Advanced Operations Research Lecture 28 - Chinese Postman Problem
Link Advanced Operations Research Lecture 29 - Vehicle Routeing Problem
Link Advanced Operations Research Lecture 30 - Queueing Models
Link Advanced Operations Research Lecture 31 - Single Server Queueing Models
Link Advanced Operations Research Lecture 32 - Multiple Server Queueing Models
Link Advanced Operations Research Lecture 33 - Game Theory
Link Advanced Operations Research Lecture 34 - Critical Path Method
Link Advanced Operations Research Lecture 35 - Quadratic Programming
Link Advanced Operations Research Lecture 36 - Integer Programming (Continued.)
Link Advanced Operations Research Lecture 37 - All Integer Dual Algorithm
Link Advanced Operations Research Lecture 38 - Mixed Integer Linear Programming
Link Advanced Operations Research Lecture 39 - Benders Partitioning Algorithm
Link Fundamentals of Operations Research Lecture 1 - Introduction to Linear Programming Formulations
Link Fundamentals of Operations Research Lecture 2 - Linear Programming Formulations (Continued...)
Link Fundamentals of Operations Research Lecture 3 - Linear Programming Solutions- Graphical Methods
Link Fundamentals of Operations Research Lecture 4 - Linear Programming Solutions - Simplex Algorithm
Link Fundamentals of Operations Research Lecture 5 - Simplex Algorithm-Minimization Problems
Link Fundamentals of Operations Research Lecture 6 - Simplex Algorithm - Initialization and Iteration
Link Fundamentals of Operations Research Lecture 7 - Simplex Algorithm - Termination
Link Fundamentals of Operations Research Lecture 8 - Introduction to Duality
Link Fundamentals of Operations Research Lecture 9 - Primal Dual Relationships, Duality Theorems
Link Fundamentals of Operations Research Lecture 10 - Dual Variables and the Simplex Tables
Link Fundamentals of Operations Research Lecture 11 - Simplex Algorithm in Matrix Form Introduction to Sensitivity Analysis
Link Fundamentals of Operations Research Lecture 12 - Sensitivity Analysis Transportation Problem (Introduction)
Link Fundamentals of Operations Research Lecture 13 - Transportation Problem, Methods for Initial Basic Feasible Solutions
Link Fundamentals of Operations Research Lecture 14 - Transportation Problem-Optimal Solutions
Link Fundamentals of Operations Research Lecture 15 - Transportation Problem - Other Issues
Link Fundamentals of Operations Research Lecture 16 - Assignment Problem - Hungarian Algorithm
Link Fundamentals of Operations Research Lecture 17 - Assignment Problem - Other Issues Introduction to Dynamic Programming
Link Fundamentals of Operations Research Lecture 18 - Dynamic Programming - Examples Involving Discrete Variables
Link Fundamentals of Operations Research Lecture 19 - Dynamic Programming - Continuous Variables
Link Fundamentals of Operations Research Lecture 20 - Dynamic Programming - Examples to Solve Linear & Integer Programming Problems
Link Fundamentals of Operations Research Lecture 21 - Inventory Models - Deterministic Models
Link Fundamentals of Operations Research Lecture 22 - Inventory Models - Discount Models, Constrained Inventory Problems, Lagrangean Multipliers, Conclusions
Link Introduction to Finite Element Method Lecture 1 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 2 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 3 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 4 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 5 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 6 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 7 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 8 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 9 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 10 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 11 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 12 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 13 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 14 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 15 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 16 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 17 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 18 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 19 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 20 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 21 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 22 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 23 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 24 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 25 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 26 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 27 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 28 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 29 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 30 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 31 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 32 - Introduction to Finite Element Method
Link Introduction to Finite Element Method Lecture 33 - Introduction to Finite Element Method
Link Mechanical Measurements and Metrology Lecture 1 - Introduction to the Study of Mechanical Measurement
Link Mechanical Measurements and Metrology Lecture 2 - Errors in Measurement
Link Mechanical Measurements and Metrology Lecture 3 - Errors in Measurement (Continued...)
Link Mechanical Measurements and Metrology Lecture 4 - Propagation of Errors
Link Mechanical Measurements and Metrology Lecture 5 - Regression Analysis
Link Mechanical Measurements and Metrology Lecture 6 - Regression Analysis (Continued...)
Link Mechanical Measurements and Metrology Lecture 7 - Design of Experiments
Link Mechanical Measurements and Metrology Lecture 8 - Design of Experiments (Continued...)
Link Mechanical Measurements and Metrology Lecture 9 - Temperature Measurement
Link Mechanical Measurements and Metrology Lecture 10 - Overview of Thermometry
Link Mechanical Measurements and Metrology Lecture 11 - Thermoelectric Thermometry
Link Mechanical Measurements and Metrology Lecture 12 - Thermoelectric Thermometry (Continued...)
Link Mechanical Measurements and Metrology Lecture 13 - Measurement of Temperature Under Various Conditions
Link Mechanical Measurements and Metrology Lecture 14 - Errors in Temperature Measurement
Link Mechanical Measurements and Metrology Lecture 15 - Measurement of Transient Temperature and Resistance Thermometry
Link Mechanical Measurements and Metrology Lecture 16 - Resistance Thermometry (Continued...)
Link Mechanical Measurements and Metrology Lecture 17 - Resistance Thermometry (Continued...) and pyrometry
Link Mechanical Measurements and Metrology Lecture 18 - pyrometry (Continued...)
Link Mechanical Measurements and Metrology Lecture 19 - pyrometry (Continued...)
Link Mechanical Measurements and Metrology Lecture 20 - Pressure Measurement (Continued...)
Link Mechanical Measurements and Metrology Lecture 21 - Pressure Measurement (Continued...)
Link Mechanical Measurements and Metrology Lecture 22 - Pressure Measurement (Continued...)
Link Mechanical Measurements and Metrology Lecture 23 - Pressure Measurement (Continued...)
Link Mechanical Measurements and Metrology Lecture 24 - Transient Response of Pressure Transducers
Link Mechanical Measurements and Metrology Lecture 25 - Transient Response of Pressure Transducers
Link Mechanical Measurements and Metrology Lecture 26 - Measurement of High Vacuum
Link Mechanical Measurements and Metrology Lecture 27 - Measurement of Fluid Velocity
Link Mechanical Measurements and Metrology Lecture 28 - Hot Wire Anemometry and Laser Doppler Velocimetry
Link Mechanical Measurements and Metrology Lecture 29 - Laser Doppler Velocimetry and Ultrasonic Methods
Link Mechanical Measurements and Metrology Lecture 30 - Measurement of Heat Flux
Link Mechanical Measurements and Metrology Lecture 31 - Measurement of Heat Flux (Continued...)
Link Mechanical Measurements and Metrology Lecture 32 - Transient Method of Heat Flux Measurement
Link Mechanical Measurements and Metrology Lecture 33 - Measurement of Volume and Mass Flow Rate of Fluid
Link Mechanical Measurements and Metrology Lecture 34 - Flow Measuring Devices
Link Mechanical Measurements and Metrology Lecture 35 - Measurement of Stagnation and Bulk Mean Temperature
Link Mechanical Measurements and Metrology Lecture 36 - Measurement of Thermo-Physical Properties
Link Mechanical Measurements and Metrology Lecture 37 - Measurement of Thermal Conductivity
Link Mechanical Measurements and Metrology Lecture 38 - Measurement of Heat Capacity and Heating Value
Link Mechanical Measurements and Metrology Lecture 39 - Measurement of Viscosity
Link Mechanical Measurements and Metrology Lecture 40 - Measurement of Viscosity (Continued...)
Link Mechanical Measurements and Metrology Lecture 41 - Integrating Sphere and Measurement of Emissivity
Link Mechanical Measurements and Metrology Lecture 42 - Measurements of Gas Composition
Link Mechanical Measurements and Metrology Lecture 43 - Measurements of Gas Composition (Continued...)
Link Mechanical Measurements and Metrology Lecture 44 - Measurements of Gas Composition and Smoke
Link Mechanical Measurements and Metrology Lecture 45 - Measurement of Force
Link Mechanical Measurements and Metrology Lecture 46 - Force Measurement
Link Mechanical Measurements and Metrology Lecture 47 - Vibration and Acceleration Measurement
Link Mechanical Measurements and Metrology Lecture 48 - Laser Doppler Accelerometer,Speed,Torque
Link Mechanical Measurements and Metrology Lecture 49 - General Issues in Mechanical Measurement
Link Mechanical Measurements and Metrology Lecture 50 - Case Studies
Link Principles of Mechanical Measurements Lecture 1 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 2 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 3 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 4 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 5 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 6 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 7 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 8 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 9 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 10 - Principles of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 11 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 12 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 13 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 14 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 15 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 16 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 17 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 18 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 19 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 20 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 21 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 22 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 23 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 24 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 25 - Principles Of Mechanical Measurements
Link Principles of Mechanical Measurements Lecture 26 - Principles Of Mechanical Measurements
Link Spray Theory and Applications Lecture 1 - Introduction to sprays and their applications
Link Spray Theory and Applications Lecture 2 - Spatial versus Temporal Sampling
Link Spray Theory and Applications Lecture 3 - Spatial Vs Temporal Sampling example problem
Link Spray Theory and Applications Lecture 4 - Steady vs unsteady spray
Link Spray Theory and Applications Lecture 5 - Statistical measures on spray
Link Spray Theory and Applications Lecture 6 - Discussion on pdf and moments
Link Spray Theory and Applications Lecture 7 - Size velocity correlation
Link Spray Theory and Applications Lecture 8 - Discussion on Interfacial tension
Link Spray Theory and Applications Lecture 9 - Introduction to Atomizers and their design - 1
Link Spray Theory and Applications Lecture 10 - Introduction to Atomizers and their design - 2
Link Spray Theory and Applications Lecture 11 - Simple measurement techniques
Link Spray Theory and Applications Lecture 12 - Selection of atomizers
Link Spray Theory and Applications Lecture 13 - Spray measurement characteristics
Link Spray Theory and Applications Lecture 14 - Spray measurements techniques
Link Spray Theory and Applications Lecture 15 - Non-intrusive spray measurements techniques
Link Spray Theory and Applications Lecture 16 - Non-intrusive spray measurements techniques
Link Spray Theory and Applications Lecture 17 - Linear stability analysis – Introduction
Link Spray Theory and Applications Lecture 18 - Linear stability analysis- Kelvin-Helmhotz instability - 1
Link Spray Theory and Applications Lecture 19 - Linear stability analysis- Kelvin-Helmhotz instability - 2
Link Spray Theory and Applications Lecture 20 - Linear stability analysis- Kelvin-Helmhotz instability - 3
Link Spray Theory and Applications Lecture 21 - Linear stability analysis procedure
Link Spray Theory and Applications Lecture 22 - Linear stability analysis - Cylindrial jet instability - 1
Link Spray Theory and Applications Lecture 23 - Linear stability analysis - Cylindrial jet instability - 2
Link Spray Theory and Applications Lecture 24 - Linear stability analysis - Planar Liquid Sheet instability - 1
Link Spray Theory and Applications Lecture 25 - Linear stability analysis - Planar Liquid Sheet instability - 2
Link Spray Theory and Applications Lecture 26 - Design of pressure swirl atomizer - 1
Link Spray Theory and Applications Lecture 27 - Design of pressure swirl atomizer - 2
Link Spray Theory and Applications Lecture 28 - Design of pressure swirl atomizer - 3
Link Spray Theory and Applications Lecture 29 - Design of pressure swirl atomizer - 4
Link Spray Theory and Applications Lecture 30 - Secondary atomization-Dimensionless parameters
Link Spray Theory and Applications Lecture 31 - Secondary atomization-Modes of breakup - 1
Link Spray Theory and Applications Lecture 32 - Secondary atomization-Modes of breakup - 2
Link Spray Theory and Applications Lecture 33 - Multiphase modelling
Link Spray Theory and Applications Lecture 34 - Multiphase modelling
Link Spray Theory and Applications Lecture 35 - Multiphase flow modelling basics
Link Spray Theory and Applications Lecture 36 - Multiphase modelling – Selection of model - 1
Link Spray Theory and Applications Lecture 37 - Multiphase modelling – Selection of model - 2
Link Spray Theory and Applications Lecture 38 - Multiphase modelling - Governing equations
Link Spray Theory and Applications Lecture 39 - Droplet evaporation
Link Spray Theory and Applications Lecture 40 - Droplet combustion
Link Spray Theory and Applications Lecture 41 - Spray combustion
Link Conduction And Radiation Lecture 1 - Importance of Thermal Radiation
Link Conduction And Radiation Lecture 2 - Blackbody definition
Link Conduction And Radiation Lecture 3 - Solid angle, spectral radiation intensity
Link Conduction And Radiation Lecture 4 - Radiation pressure and radiation energy density
Link Conduction And Radiation Lecture 5 - Relationship between “I” and “T” and Candidate blackbody distribution functions
Link Conduction And Radiation Lecture 6 - Candidate blackbody distribution functions (Continued...)
Link Conduction And Radiation Lecture 7 - Planck's blackbody radiation distribution function
Link Conduction And Radiation Lecture 8 - Planck's distribution and Wien's displacement law
Link Conduction And Radiation Lecture 9 - Universal blackbody function
Link Conduction And Radiation Lecture 10 - Emissivity
Link Conduction And Radiation Lecture 11 - Emissivity (Continued...)
Link Conduction And Radiation Lecture 12 - Emissivity (Continued...)
Link Conduction And Radiation Lecture 13 - Kirchoff law, Absorptivity
Link Conduction And Radiation Lecture 14 - Kirchoff law, Absorptivity (Continued...)
Link Conduction And Radiation Lecture 15 - Problems on emissivity, absorptivity
Link Conduction And Radiation Lecture 16 - Reflectivity
Link Conduction And Radiation Lecture 17 - Transmissivity
Link Conduction And Radiation Lecture 18 - Problems on reflectivity and transmissivity
Link Conduction And Radiation Lecture 19 - Radiation heat transfer between surfaces
Link Conduction And Radiation Lecture 20 - View factor
Link Conduction And Radiation Lecture 21 - View factor (Continued...)
Link Conduction And Radiation Lecture 22 - View factor (Continued...)
Link Conduction And Radiation Lecture 23 - Enclosure analysis
Link Conduction And Radiation Lecture 24 - Enclosure analysis (Continued...)
Link Conduction And Radiation Lecture 25 - Enclosure analysis - Gray surface
Link Conduction And Radiation Lecture 26 - Enclosure analysis - Non gray surfaces
Link Conduction And Radiation Lecture 27 - Radiation in participating media
Link Conduction And Radiation Lecture 28 - Solution to the RTE
Link Conduction And Radiation Lecture 29 - Concept of mean beam length
Link Conduction And Radiation Lecture 30 - Enclosure analysis in the presence of absorbing / emitting gas
Link Conduction And Radiation Lecture 31 - Emissivities and absorptivities of Gas mixtures
Link Conduction And Radiation Lecture 32 - Conduction - Introduction
Link Conduction And Radiation Lecture 33 - Conduction - Energy equation
Link Conduction And Radiation Lecture 34 - Conduction - 1D, steady state
Link Conduction And Radiation Lecture 35 - Conduction - 1D, heat generation
Link Conduction And Radiation Lecture 36 - Fin heat transfer - I
Link Conduction And Radiation Lecture 37 - Fin heat transfer - II
Link Conduction And Radiation Lecture 38 - Conduction - Cylindrical and Spherical geometries
Link Conduction And Radiation Lecture 39 - Transient conduction
Link Conduction And Radiation Lecture 40 - Transient conduction (Continued...)
Link Conduction And Radiation Lecture 41 - Two dimensional steady state conduction
Link Conduction And Radiation Lecture 42 - Analytical solution for Laplace equation
Link Conduction And Radiation Lecture 43 - Numerical methods in conduction
Link Conduction And Radiation Lecture 44 - Numerical methods in conduction (Continued...)
Link Conduction And Radiation Lecture 45 - Conduction with change of phase
Link Conduction And Radiation Lecture 46 - Conduction with change of phase (Continued...)
Link Gas Dynamics and Propulsion Lecture 1 - Introduction
Link Gas Dynamics and Propulsion Lecture 2 - Introduction / Fundamental Ideas
Link Gas Dynamics and Propulsion Lecture 3 - Fundamental Ideas
Link Gas Dynamics and Propulsion Lecture 4 - Fundamental Ideas
Link Gas Dynamics and Propulsion Lecture 5 - Fundamental Ideas / Normal Shock Waves
Link Gas Dynamics and Propulsion Lecture 6 - Normal Shock Waves
Link Gas Dynamics and Propulsion Lecture 7 - Normal Shock Waves / Rayleigh Flow
Link Gas Dynamics and Propulsion Lecture 8 - Rayleigh Flow
Link Gas Dynamics and Propulsion Lecture 9 - Rayleigh Flow
Link Gas Dynamics and Propulsion Lecture 10 - Rayleigh Flow / Fanno Flow
Link Gas Dynamics and Propulsion Lecture 11 - Fanno Flow
Link Gas Dynamics and Propulsion Lecture 12 - Fanno Flow
Link Gas Dynamics and Propulsion Lecture 13 - Fanno Flow / Quasi One Dimensional Flows
Link Gas Dynamics and Propulsion Lecture 14 - Quasi One Dimensional Flows
Link Gas Dynamics and Propulsion Lecture 15 - Quasi One Dimensional Flows
Link Gas Dynamics and Propulsion Lecture 16 - Quasi One Dimensional Flows
Link Gas Dynamics and Propulsion Lecture 17 - Quasi One Dimensional Flows
Link Gas Dynamics and Propulsion Lecture 18 - Quasi One Dimensional Flows
Link Gas Dynamics and Propulsion Lecture 19 - Quasi One Dimensional Flows
Link Gas Dynamics and Propulsion Lecture 20 - Oblique Shock Waves
Link Gas Dynamics and Propulsion Lecture 21 - Oblique Shock Waves
Link Gas Dynamics and Propulsion Lecture 22 - Oblique Shock Waves
Link Gas Dynamics and Propulsion Lecture 23 - Oblique Shock Waves / Prandtl Meyer Waves
Link Gas Dynamics and Propulsion Lecture 24 - Prandtl Meyer Waves
Link Gas Dynamics and Propulsion Lecture 25 - Prandtl Meyer Waves
Link Gas Dynamics and Propulsion Lecture 26 - Propulsion - an Introduction
Link Gas Dynamics and Propulsion Lecture 27 - Components of the Gas Turbine Engine
Link Gas Dynamics and Propulsion Lecture 28 - Components of the Gas Turbine Engine
Link Gas Dynamics and Propulsion Lecture 29 - Components of the Gas Turbine Engine
Link Gas Dynamics and Propulsion Lecture 30 - Components of the Gas Turbine Engine
Link Gas Dynamics and Propulsion Lecture 31 - Components of the Gas Turbine Engine / Thermodynamic Analysis of the Engine
Link Gas Dynamics and Propulsion Lecture 32 - Thermodynamic Analysis of the Engine
Link Gas Dynamics and Propulsion Lecture 33 - Thermodynamic Analysis of the Engine
Link Gas Dynamics and Propulsion Lecture 34 - Calculations for Thrust and Fuel Consumption
Link Gas Dynamics and Propulsion Lecture 35 - Calculations for Thrust and Fuel Consumption
Link Gas Dynamics and Propulsion Lecture 36 - Calculations for Thrust and Fuel Consumption / Emerging Trends
Link Gas Dynamics and Propulsion Lecture 37 - Emerging Trends / Ramjets
Link Gas Dynamics and Propulsion Lecture 38 - Ramjets
Link Gas Dynamics and Propulsion Lecture 39 - Ramjets / Scramjets
Link Gas Dynamics and Propulsion Lecture 40 - Scramjets
Link Microfluidics Lecture 1 - Introduction and Scaling
Link Microfluidics Lecture 2 - Scaling
Link Microfluidics Lecture 3 - Micro-scale fluid mechanics
Link Microfluidics Lecture 4 - Micro-scale fluid mechanics (Continued...)
Link Microfluidics Lecture 5 - Micro-scale fluid mechanics (Continued...)
Link Microfluidics Lecture 6 - Micro-scale fluid mechanics (Continued...)
Link Microfluidics Lecture 7 - Micro-scale fluid mechanics (Continued...)
Link Microfluidics Lecture 8 - Micro-scale fluid mechanics (Continued...)
Link Microfluidics Lecture 9 - Micro-scale fluid mechanics (Continued...)
Link Microfluidics Lecture 10 - Micro-scale fluid mechanics (Continued...)
Link Microfluidics Lecture 11 - Capillary Flows
Link Microfluidics Lecture 12 - Capillary Flows (Continued...)
Link Microfluidics Lecture 13 - Capillary Flows and Electrokinetics
Link Microfluidics Lecture 14 - Electrokinetics
Link Microfluidics Lecture 15 - Electrokinetics (Continued...)
Link Microfluidics Lecture 16 - Electrokinetics (Continued...)
Link Microfluidics Lecture 17 - Electrokinetics (Continued...)
Link Microfluidics Lecture 18 - Electrokinetics (Continued...)
Link Microfluidics Lecture 19 - Electrokinetics (Continued...)
Link Microfluidics Lecture 20 - Electrokinetics and Magnetophoresis
Link Microfluidics Lecture 21 - Microfabrication Techniques
Link Microfluidics Lecture 22 - Microfabrication Techniques (Continued...)
Link Microfluidics Lecture 23 - Microfabrication Techniques (Continued...)
Link Microfluidics Lecture 24 - Microfabrication Techniques (Continued...)
Link Microfluidics Lecture 25 - Microfabrication Techniques (Continued...)
Link Microfluidics Lecture 26 - Microfabrication Techniques (Continued...)
Link Microfluidics Lecture 27 - Microfabrication Techniques (Continued...)
Link Microfluidics Lecture 28 - Microfabrication Techniques (Continued...)
Link Microfluidics Lecture 29 - Micropump
Link Microfluidics Lecture 30 - Micropump (Continued...)
Link Microfluidics Lecture 31 - Microvalve
Link Microfluidics Lecture 32 - Microvalve (Continued...)
Link Microfluidics Lecture 33 - Microvalve (Continued...)
Link Microfluidics Lecture 34 - Micro Flow Sensor and Micro mixers
Link Microfluidics Lecture 35 - Micro mixers
Link Microfluidics Lecture 36 - Micro mixers (Continued...)
Link Microfluidics Lecture 37 - Micro droplets
Link Microfluidics Lecture 38 - Micro reactors (Continued...)
Link Microfluidics Lecture 39 - Micro needles and Microparticle separation
Link Microfluidics Lecture 40 - Few applications of microfluidics
Link Microfluidics Lecture 41 - Lab Demo
Link Convective Heat Transfer Lecture 1 - Introduction to convective heat transfer - Part 1
Link Convective Heat Transfer Lecture 2 - Introduction to convective heat transfer - Part 2
Link Convective Heat Transfer Lecture 3 - Continuity Equation
Link Convective Heat Transfer Lecture 4 - Momentum and Energy Equations
Link Convective Heat Transfer Lecture 5 - Energy Equation
Link Convective Heat Transfer Lecture 6 - Reynolds Transport Theorem
Link Convective Heat Transfer Lecture 7 - Entrophy Generation and streamfunction-vorticity formulation
Link Convective Heat Transfer Lecture 8 - Couette flow - Part 1
Link Convective Heat Transfer Lecture 9 - Couette flow - Part 2
Link Convective Heat Transfer Lecture 10 - Couette flow - Part 3
Link Convective Heat Transfer Lecture 11 - Boundary layer approximation
Link Convective Heat Transfer Lecture 12 - Laminar External flow past flat plate (Blasius Similarity Solution)
Link Convective Heat Transfer Lecture 13 - Numerical solution to the Blasius equation and similarity solution to heat transfer
Link Convective Heat Transfer Lecture 14 - Pohlhausen similarity solution and flows including pressure gradient (Falkner-Skan)
Link Convective Heat Transfer Lecture 15 - Falkner skan solutions for heat transfer
Link Convective Heat Transfer Lecture 16 - Similarity solution for flow and heat transfer with transpiration at walls
Link Convective Heat Transfer Lecture 17 - Thermal boundary layer in high speed flows
Link Convective Heat Transfer Lecture 18 - Approximate(Integral) methods for laminar external flow and heat transfer
Link Convective Heat Transfer Lecture 19 - Integral method for laminar external thermal boundary layer over isothermal surface
Link Convective Heat Transfer Lecture 20 - Integral method for flows with pressure gradient (von Karman-Pohlhausen method)
Link Convective Heat Transfer Lecture 21 - Integral method with pressure gradient: heat transfer
Link Convective Heat Transfer Lecture 22 - Heat transfer across a circular cylinder: Walz approximation
Link Convective Heat Transfer Lecture 23 - Duhamel's method for varying surface temperature
Link Convective Heat Transfer Lecture 24 - Laminar External heat transfer with non uniform surface temperature
Link Convective Heat Transfer Lecture 25 - Laminar internal forced convection - fundamentals
Link Convective Heat Transfer Lecture 26 - Hydrodynamically and thermally fully developed internal laminar flows
Link Convective Heat Transfer Lecture 27 - Fully developed laminar internal flow and heat transfer
Link Convective Heat Transfer Lecture 28 - Shooting method for fully developed heat transfer and thermal entry length problem
Link Convective Heat Transfer Lecture 29 - Thermal entry length problem with plug velocity profile: Graetz problem
Link Convective Heat Transfer Lecture 30 - Extended Graetz problem for parabolic velocity profile
Link Convective Heat Transfer Lecture 31 - Extended Graetz problem
Link Convective Heat Transfer Lecture 32 - Extended Graetz problem with wall flux boundary condition
Link Convective Heat Transfer Lecture 33 - Approximate method for laminar internal flows
Link Convective Heat Transfer Lecture 34 - Integral method for thermal entry length problem
Link Convective Heat Transfer Lecture 35 - Introduction to Natural Convection Heat Transfer
Link Convective Heat Transfer Lecture 36 - Similarity Solution in Natural Convection for Vertical isothermal Plate - Part 1
Link Convective Heat Transfer Lecture 37 - Similarity Solution in Natural Convection for Vertical isothermal Plate - Part 2
Link Convective Heat Transfer Lecture 38 - Similarity Solution in Natural Convection for Vertical isoflux Plate
Link Convective Heat Transfer Lecture 39 - Approximate Method in Natural Convection Heat Transfer
Link Convective Heat Transfer Lecture 40 - Natural Convection in Other Configurations
Link Convective Heat Transfer Lecture 41 - Turbulent Convective Heat Transfer : RANS Equations - Part 1
Link Convective Heat Transfer Lecture 42 - Turbulent Convective Heat Transfer : RANS Equations - Part 2
Link Convective Heat Transfer Lecture 43 - Analogies in Turbulent Convective Heat Transfer - Part 1
Link Convective Heat Transfer Lecture 44 - Analogies in Turbulent Convective Heat Transfer - Part 2
Link Introduction to Explosions and Explosion Safety Lecture 1 - Loud Bang and Disruption
Link Introduction to Explosions and Explosion Safety Lecture 2 - Blast Wave in an Explosion: Predictions from Dimensional Considerations
Link Introduction to Explosions and Explosion Safety Lecture 3 - Typical Examples of Explosions and Classification
Link Introduction to Explosions and Explosion Safety Lecture 4 - Shock Hugoniot and Rayleigh Line
Link Introduction to Explosions and Explosion Safety Lecture 5 - Properties behind a Constant Velocity Shock
Link Introduction to Explosions and Explosion Safety Lecture 6 - Blast waves:Concentration of Mass at the Front,Snow Plow Approximation,Energy conservation ina Blast wave
Link Introduction to Explosions and Explosion Safety Lecture 7 - Blast waves: Decay of a strong Blast wave,Explosion Length, Sach's Scaling,Over pressure,Cranz Hopkinson Scaling law of Overpressure
Link Introduction to Explosions and Explosion Safety Lecture 8 - Blast Waves: Overpressure and Impulse in the Near and Far Field, Examples,Introduction to Impulse
Link Introduction to Explosions and Explosion Safety Lecture 9 - Blast Waves: Non-dimensional Impulse, Cranz -Hopkinson Scaling, Missiles, Fragments and Shrapnel, Craters, Examples
Link Introduction to Explosions and Explosion Safety Lecture 10 - Blast Waves: Interaction with Objects, Reflection and Transmission of Blast Waves, Impedance
Link Introduction to Explosions and Explosion Safety Lecture 11 - Blast Waves: Amplification of Reflected Blast Waves; Role of Impedance, Spalling, Damage to Organs containing Air, Mushroom Cloud in an Explosion, Examples
Link Introduction to Explosions and Explosion Safety Lecture 12 - Blast Waves: Damage from Blast Waves, Examples, Multiple Spikes in an Impulse, Iso-damage Curve on an Overpressure- Impulse Diagram, Complex Structures
Link Introduction to Explosions and Explosion Safety Lecture 13 - Energy Release in a Chemical Reaction: Moles, Internal Chemical Energy, Standard Heats of Formation
Link Introduction to Explosions and Explosion Safety Lecture 14 - Energy Release: Stoichiometry, Equivalence Ratio and Heat Release in Fuel Rich and Oxidizer Rich Compounds
Link Introduction to Explosions and Explosion Safety Lecture 15 - Energy Release: Examples of Energy Release Calculations, Higher and Lower Calorific Values, Internal Energy of Formation
Link Introduction to Explosions and Explosion Safety Lecture 16 - Rate of Energy Release: Concentration, Activation Energy, Energy Release Profile
Link Introduction to Explosions and Explosion Safety Lecture 17 - Thermal Theory of Explosion
Link Introduction to Explosions and Explosion Safety Lecture 18 - Thermal Theory
Link Introduction to Explosions and Explosion Safety Lecture 19 - Role of Chain Carriers in an Explosion
Link Introduction to Explosions and Explosion Safety Lecture 20 - Combustion - I
Link Introduction to Explosions and Explosion Safety Lecture 21 - Combustion - II
Link Introduction to Explosions and Explosion Safety Lecture 22 - Case Histories of Explosions involving Volatile Liquids
Link Introduction to Explosions and Explosion Safety Lecture 23 - Detonation
Link Introduction to Explosions and Explosion Safety Lecture 24 - Structure of Detonations
Link Introduction to Explosions and Explosion Safety Lecture 25 - Realizable States in a Detonation
Link Introduction to Explosions and Explosion Safety Lecture 26 - One Dimensional Model of Detonation
Link Introduction to Explosions and Explosion Safety Lecture 27 - Case Histories of Explosions involving Detonation or Quasi-Detonation
Link Introduction to Explosions and Explosion Safety Lecture 28 - Explosions in Confined and Unconfined Geometries
Link Introduction to Explosions and Explosion Safety Lecture 29 - Dust Explosions - I
Link Introduction to Explosions and Explosion Safety Lecture 30 - Dust Explosions - II
Link Introduction to Explosions and Explosion Safety Lecture 31 - Physical Explosions
Link Introduction to Explosions and Explosion Safety Lecture 32 - Rupture of Cryogenic Storage Vessels and Pressure Vessels
Link Introduction to Explosions and Explosion Safety Lecture 33 - Condensed Phased Explosives Based on Hydrocarbons
Link Introduction to Explosions and Explosion Safety Lecture 34 - Condensed Phase Explosives and their Properties
Link Introduction to Explosions and Explosion Safety Lecture 35 - TNT Equivalence and Yield of an Explosion
Link Introduction to Explosions and Explosion Safety Lecture 36 - Atmospheric Dispersion
Link Introduction to Explosions and Explosion Safety Lecture 37 - Modeling Atmospheric Dispersion
Link Introduction to Explosions and Explosion Safety Lecture 38 - Explosions Involving Atmospheric Dispersion
Link Introduction to Explosions and Explosion Safety Lecture 39 - Quantification of Damages in an Explosion
Link Introduction to Explosions and Explosion Safety Lecture 40 - Risk Analysis for an Explosion
Link Metrology Lecture 1 - Introduction to Metrology
Link Metrology Lecture 2 - Metrology terminologies
Link Metrology Lecture 3 - Measurement errors
Link Metrology Lecture 4 - Linear measuring instruments – 1 (Angle plate, steel rule, spring calipers)
Link Metrology Lecture 5 - Linear measuring instruments – 2 (Combination set, Vernier calipers)
Link Metrology Lecture 6 - Linear measuring instruments – 3 (Height gauge, Micrometers – 1)
Link Metrology Lecture 7 - Linear measuring instruments – 4 (Micrometers – 2, Bore gauge)
Link Metrology Lecture 8 - Linear measuring instruments – 5 (Dial indicators, thickness gauges, depth gauges)
Link Metrology Lecture 9 - Manufacturing tolerances and fits
Link Metrology Lecture 10 - Terminologies of limits fits and tolerances
Link Metrology Lecture 11 - Numerical problems on fit and tolerances
Link Metrology Lecture 12 - Selection of fits, Geometrical tolerances
Link Metrology Lecture 13 - Positional tolerances
Link Metrology Lecture 14 - Limit gauging - 1
Link Metrology Lecture 15 - Limit gauging - 2
Link Metrology Lecture 16 - Design of limit gauges
Link Metrology Lecture 17 - Measurement of straightness, flatness and squareness
Link Metrology Lecture 18 - Perpendicularity measurement
Link Metrology Lecture 19 - Basics of surface roughness
Link Metrology Lecture 20 - Surface finish parameters
Link Metrology Lecture 21 - Stylus type surface finish measuring instruments
Link Metrology Lecture 22 - Non-contact type surface finish measuring instruments
Link Metrology Lecture 23 - Screw thread production and terminology
Link Metrology Lecture 24 - Measurement of screw thread elements
Link Metrology Lecture 25 - Introduction to gears
Link Metrology Lecture 26 - Measurement of gear elements
Link Metrology Lecture 27 - Angle measurement - 1
Link Metrology Lecture 28 - Angle measurement - 2
Link Metrology Lecture 29 - Radius measurement, Contact angle measurement
Link Metrology Lecture 30 - Basics of interferometry
Link Metrology Lecture 31 - Interferometers
Link Metrology Lecture 32 - Introduction to comparators, Mechanical comparators
Link Metrology Lecture 33 - Electrical and electronic comparators, Optical comparators
Link Metrology Lecture 34 - Pneumatic comparators
Link Metrology Lecture 35 - Geometrical tests on lathe
Link Metrology Lecture 36 - Geometrical tests on pillar type drilling machine
Link Metrology Lecture 37 - Universal measuring machine (UMM) and Coordinate measuring machine (CMM)
Link Metrology Lecture 38 - CMM probes and CMM software
Link Metrology Lecture 39 - Feature measurement using CMM, Laser vision
Link Metrology Lecture 40 - In-process gauging and control
Link Metrology Lecture 41 - Stage position metrology
Link Metrology Lecture 42 - Micro and Nano stages, Nano technology instrumentation
Link Metrology Lecture 43 - Optical system design
Link Metrology Lecture 44 - Complex opto- mechanical assemblies, Metrology testing and certification services
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 1 - Introduction to the course
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 2 - Newton's laws
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 3 - Equilibrium
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 4 - Example 1 - Statics
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 5 - Example 2 - Rigid Body Systems
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 6 - Example 3 - Rigid Body Systems
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 7 - Structural Systems with rigid bodies
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 8 - Types of 1-D Structural Elements
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 9 - Axial members
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 10 - Analysis of the truss system
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 11 - Stability of Structural systems
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 12 - Beams - Example 1
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 13 - Beams - BMD and SFD
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 14 - Beams - Loading, Shear and Bending Moment Relations
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 15 - Static Friction
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 16 - Friction - Solving Problems
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 17 - Particle Kinematics - 1
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 18 - Particle Kinematics - 2 (Example)
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 19 - Particle Kinematics - Curvilinear Coordinates
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 20 - Rigid Body Kinematics
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 21 - Rotational Motion (Example 1)
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 22 - Rotational Motion (Example 2)
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 23 - Dynamics (Introduction)
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 24 - Dynamics - Example 1
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 25 - Dynamics - Example 2
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 26 - Dynamics - Example 3
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 27 - Dynamics - Example 4
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 28 - Center of Percussion - Example
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 29 - Impulse / Momentum - Example 1
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 30 - Impulse / Momentum - Example 2
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 31 - Impulse / Momentum - Example 3
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 32 - Impulse / Momentum - Example 4
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 33 - Work Energy Methods - Example 1
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 34 - Work Energy Methods - Example 2
Link NOC:Engineering Mechanics Statics and Dynamics Lecture 35 - Work Energy Methods - Example 3
Link NOC:Foundation of Computational Fluid Dynamics Week 1 - Module-1
Link NOC:Foundation of Computational Fluid Dynamics Week 1 - Module-2
Link NOC:Foundation of Computational Fluid Dynamics Week 1 - Module-3
Link NOC:Foundation of Computational Fluid Dynamics Week 1 - Module-4
Link NOC:Foundation of Computational Fluid Dynamics Week 1 - Module-5
Link NOC:Foundation of Computational Fluid Dynamics Week 2 - Module-1
Link NOC:Foundation of Computational Fluid Dynamics Week 2 - Module-2
Link NOC:Foundation of Computational Fluid Dynamics Week 2 - Module-3
Link NOC:Foundation of Computational Fluid Dynamics Week 2 - Module-4
Link NOC:Foundation of Computational Fluid Dynamics Week 2 - Module-5
Link NOC:Foundation of Computational Fluid Dynamics Week 3 - Module-1
Link NOC:Foundation of Computational Fluid Dynamics Week 3 - Module-2
Link NOC:Foundation of Computational Fluid Dynamics Week 3 - Module-3
Link NOC:Foundation of Computational Fluid Dynamics Week 3 - Module-4
Link NOC:Foundation of Computational Fluid Dynamics Week 3 - Module-5
Link NOC:Foundation of Computational Fluid Dynamics Week 4 - Module-1
Link NOC:Foundation of Computational Fluid Dynamics Week 4 - Module-2
Link NOC:Foundation of Computational Fluid Dynamics Week 4 - Module-3
Link NOC:Foundation of Computational Fluid Dynamics Week 4 - Module-4
Link NOC:Foundation of Computational Fluid Dynamics Week 4 - Module-5
Link NOC:Foundation of Computational Fluid Dynamics Week 5 - Module-1
Link NOC:Foundation of Computational Fluid Dynamics Week 5 - Module-2
Link NOC:Foundation of Computational Fluid Dynamics Week 5 - Module-3
Link NOC:Foundation of Computational Fluid Dynamics Week 5 - Module-4
Link NOC:Foundation of Computational Fluid Dynamics Week 5 - Module-5
Link NOC:Foundation of Computational Fluid Dynamics Week 5 - Module-6
Link NOC:Foundation of Computational Fluid Dynamics Week 6 - Module-1
Link NOC:Foundation of Computational Fluid Dynamics Week 6 - Module-2 - Part 1
Link NOC:Foundation of Computational Fluid Dynamics Week 6 - Module-2 - Part 2
Link NOC:Foundation of Computational Fluid Dynamics Week 6 - Module-3
Link NOC:Foundation of Computational Fluid Dynamics Week 6 - Module-4
Link NOC:Foundation of Computational Fluid Dynamics Week 6 - Module-5
Link NOC:Foundation of Computational Fluid Dynamics Week 7 - Module-1
Link NOC:Foundation of Computational Fluid Dynamics Week 7 - Module-2
Link NOC:Foundation of Computational Fluid Dynamics Week 7 - Module-3
Link NOC:Foundation of Computational Fluid Dynamics Week 7 - Module-4
Link NOC:Foundation of Computational Fluid Dynamics Week 7 - Module-5
Link NOC:Foundation of Computational Fluid Dynamics Week 8 - Module-1
Link NOC:Foundation of Computational Fluid Dynamics Week 8 - Module-2
Link NOC:Foundation of Computational Fluid Dynamics Week 8 - Module-3
Link NOC:Foundation of Computational Fluid Dynamics Week 8 - Module-4
Link NOC:Foundation of Computational Fluid Dynamics Week 8 - Module-5
Link NOC:Foundation of Computational Fluid Dynamics Week 8 - Module-6
Link NOC:Foundation of Computational Fluid Dynamics Conclusion
Link NOC:Introduction to Boundary Layers Lecture 1 - Review of fundamentals of fluid mechanics - I
Link NOC:Introduction to Boundary Layers Lecture 2 - Review of fundamentals of fluid mechanics - II
Link NOC:Introduction to Boundary Layers Lecture 3 - Concept of a Boundary Layer (BL) - I
Link NOC:Introduction to Boundary Layers Lecture 4 - Concept of a Boundary Layer (BL) - II
Link NOC:Introduction to Boundary Layers Lecture 5 - Concepts of BL thickness (?)
Link NOC:Introduction to Boundary Layers Lecture 6 - Concepts of BL displacement thickness (?*) and BL momentum thickness (?)
Link NOC:Introduction to Boundary Layers Lecture 7 - Control Volume approach to derive expressions for ?* over a flat plate
Link NOC:Introduction to Boundary Layers Lecture 8 - Control Volume approach to derive expressions for ? over a flat plate
Link NOC:Introduction to Boundary Layers Lecture 9 - Concept of wall friction
Link NOC:Introduction to Boundary Layers Lecture 10 - Concept of friction drag
Link NOC:Introduction to Boundary Layers Lecture 11 - Skin Friction Coefficient - I
Link NOC:Introduction to Boundary Layers Lecture 12 - Skin Friction Coefficient - II
Link NOC:Introduction to Boundary Layers Lecture 13 - Derivation of Prandtls Laminar BL Equations - I
Link NOC:Introduction to Boundary Layers Lecture 14 - Derivation of Prandtls Laminar BL Equations - II
Link NOC:Introduction to Boundary Layers Lecture 15 - Derivation of Prandtls Laminar BL Equations - III
Link NOC:Introduction to Boundary Layers Lecture 16 - Derivation of Prandtls Laminar BL Equations - IV
Link NOC:Introduction to Boundary Layers Lecture 17 - Similarity Solutions to the BL Equations Applied to a Flat Plate - I
Link NOC:Introduction to Boundary Layers Lecture 18 - Similarity Solutions to the BL Equations Applied to a Flat Plate - II
Link NOC:Introduction to Boundary Layers Lecture 19 - Similarity Solutions to the BL Equations Applied to a Flat Plate - III
Link NOC:Introduction to Boundary Layers Lecture 20 - Runge-Kutta Method to Numerically Solve the BL Equations Applied to a Flat Plate
Link NOC:Introduction to Boundary Layers Lecture 21 - Description of the Numerical Code to Solve the BL Equations Applied to a Flat Plate
Link NOC:Introduction to Boundary Layers Lecture 22 - Similarity Solutions to the BL Equations (other than flat plate) - I
Link NOC:Introduction to Boundary Layers Lecture 23 - Similarity Solutions to the BL Equations (other than flat plate) - II
Link NOC:Introduction to Boundary Layers Lecture 24 - Similarity Solutions to the BL Equations (other than flat plate) - III
Link NOC:Introduction to Boundary Layers Lecture 25 - Similarity Solutions to the BL Equations (other than flat plate) - IV
Link NOC:Introduction to Boundary Layers Lecture 26 - Description of the Numerical Code to Solve the BL Equations (other than flat plate)
Link NOC:Introduction to Boundary Layers Lecture 27 - The Energy Equation - I
Link NOC:Introduction to Boundary Layers Lecture 28 - The Energy Equation - II
Link NOC:Introduction to Boundary Layers Lecture 29 - Similarity Solutions to Thermal BL - I
Link NOC:Introduction to Boundary Layers Lecture 30 - Similarity Solutions to Thermal BL - II
Link NOC:Introduction to Boundary Layers Lecture 31 - Similarity Solutions to Thermal BL - III
Link NOC:Introduction to Boundary Layers Lecture 32 - BL Separation with Pressure-Gradient - I
Link NOC:Introduction to Boundary Layers Lecture 33 - BL Separation with Pressure Gradient - II
Link NOC:Introduction to Boundary Layers Lecture 34 - Effect of Prandtl Number in Thermal BL - I
Link NOC:Introduction to Boundary Layers Lecture 35 - Effect of Prandtl Number in Thermal BL - II
Link NOC:Introduction to Boundary Layers Lecture 36 - Effect of Prandtl Number in Thermal BL - III
Link NOC:Introduction to Boundary Layers Lecture 37 - Effect of Dissipation in Thermal BL - I
Link NOC:Introduction to Boundary Layers Lecture 38 - Effect of Dissipation in Thermal BL - II
Link NOC:Introduction to Boundary Layers Lecture 39 - Effect of Dissipation in Thermal BL - III
Link NOC:Introduction to Boundary Layers Lecture 40 - Similarity Solutions to Thermal BL - An Overview
Link NOC:Fundamentals of Gas Dynamics Lecture 1 - Introduction
Link NOC:Fundamentals of Gas Dynamics Lecture 2 - Basics of Thermodynamics
Link NOC:Fundamentals of Gas Dynamics Lecture 3 - Tutorial 1
Link NOC:Fundamentals of Gas Dynamics Lecture 4 - Control Volume Approach
Link NOC:Fundamentals of Gas Dynamics Lecture 5 - Conservation Equations
Link NOC:Fundamentals of Gas Dynamics Lecture 6 - Tutorial 2
Link NOC:Fundamentals of Gas Dynamics Lecture 7 - Energy Equation
Link NOC:Fundamentals of Gas Dynamics Lecture 8 - Concept of stagnation
Link NOC:Fundamentals of Gas Dynamics Lecture 9 - Discussion on stagnation
Link NOC:Fundamentals of Gas Dynamics Lecture 10 - Velocity of sound
Link NOC:Fundamentals of Gas Dynamics Lecture 11 - Discussion on velocity of sound and mach number
Link NOC:Fundamentals of Gas Dynamics Lecture 12 - Wave propagation
Link NOC:Fundamentals of Gas Dynamics Lecture 13 - Mach wave
Link NOC:Fundamentals of Gas Dynamics Lecture 14 - Mach number relations
Link NOC:Fundamentals of Gas Dynamics Lecture 15 - Variable Area Adiabatic flow
Link NOC:Fundamentals of Gas Dynamics Lecture 16 - Variable Area Adiabatic flow (Continued...)
Link NOC:Fundamentals of Gas Dynamics Lecture 17 - * reference quantities and their relations
Link NOC:Fundamentals of Gas Dynamics Lecture 18 - Importance of stagnation temperature in relation to v
Link NOC:Fundamentals of Gas Dynamics Lecture 19 - Discussion on variable area adiabaic flow and * reference quantities
Link NOC:Fundamentals of Gas Dynamics Lecture 20 - Gas tables
Link NOC:Fundamentals of Gas Dynamics Lecture 21 - Converging nozzle
Link NOC:Fundamentals of Gas Dynamics Lecture 22 - Condition of choked flow and associated properties
Link NOC:Fundamentals of Gas Dynamics Lecture 23 - Area ratio and pressure ratio in converging nozzles
Link NOC:Fundamentals of Gas Dynamics Lecture 24 - Discussion on converging nozzles
Link NOC:Fundamentals of Gas Dynamics Lecture 25 - Converging - Diverging (C-D) nozzles
Link NOC:Fundamentals of Gas Dynamics Lecture 26 - More on C-D nozzles
Link NOC:Fundamentals of Gas Dynamics Lecture 27 - Discussion on C-D nozzles - 1
Link NOC:Fundamentals of Gas Dynamics Lecture 28 - Discussion on C-D nozzles - 2
Link NOC:Fundamentals of Gas Dynamics Lecture 29 - Examples and applications of flow through C-D nozzles
Link NOC:Fundamentals of Gas Dynamics Lecture 30 - Introduction to normal shocks
Link NOC:Fundamentals of Gas Dynamics Lecture 31 - Normal shock relations - 1
Link NOC:Fundamentals of Gas Dynamics Lecture 32 - Normal shock relations - 2
Link NOC:Fundamentals of Gas Dynamics Lecture 33 - Rankine-Hugoniot equation
Link NOC:Fundamentals of Gas Dynamics Lecture 34 - Discussion on Normal Shocks - 1
Link NOC:Fundamentals of Gas Dynamics Lecture 35 - Discussion on Normal Shocks - 2
Link NOC:Fundamentals of Gas Dynamics Lecture 36 - Normal shocks in C-D nozzles
Link NOC:Fundamentals of Gas Dynamics Lecture 37 - Normal shocks in C-D nozzles (Continued...)
Link NOC:Fundamentals of Gas Dynamics Lecture 38 - Moving Normal Shocks
Link NOC:Fundamentals of Gas Dynamics Lecture 39 - Discussion on moving normal shocks
Link NOC:Fundamentals of Gas Dynamics Lecture 40 - Oblique shocks
Link NOC:Fundamentals of Gas Dynamics Lecture 41 - Oblique shock relations
Link NOC:Fundamentals of Gas Dynamics Lecture 42 - Discussion on oblique shocks
Link NOC:Fundamentals of Gas Dynamics Lecture 43 - Reflection of oblique shocks
Link NOC:Fundamentals of Gas Dynamics Lecture 44 - Discussion on reflection of oblique shocks
Link NOC:Fundamentals of Gas Dynamics Lecture 45 - Prandtl-Meyer flow
Link NOC:Fundamentals of Gas Dynamics Lecture 46 - Prandtl-Meyer flow (Continued...)
Link NOC:Fundamentals of Gas Dynamics Lecture 47 - Discussion on Prandtl-Meyer expansion
Link NOC:Fundamentals of Gas Dynamics Lecture 48 - Shock Polar diagram and Prandtl-Meyer relation for Oblique shocks
Link NOC:Experimental Stress Analysis - An Overview Lecture 1 - Introduction to Stress Analysis – Analytical and Numerical Approaches
Link NOC:Experimental Stress Analysis - An Overview Lecture 2 - Introduction to Stress Analysis - Experimental Approaches
Link NOC:Experimental Stress Analysis - An Overview Lecture 3 - Optical Methods Work as Optical Computers
Link NOC:Experimental Stress Analysis - An Overview Lecture 4 - Basic information provided by various experimental methods
Link NOC:Experimental Stress Analysis - An Overview Lecture 5 - Visual Appreciation of Field Information - Part 1
Link NOC:Experimental Stress Analysis - An Overview Lecture 6 - Visual Appreciation of Field Information - Part 2
Link NOC:Experimental Stress Analysis - An Overview Lecture 7 - Visual Appreciation of Field Information - Part 3
Link NOC:Experimental Stress Analysis - An Overview Lecture 8 - Visual Appreciation of Field Information - Part 4
Link NOC:Experimental Stress Analysis - An Overview Lecture 9 - Visual Appreciation of Field Information - Part 5
Link NOC:Experimental Stress Analysis - An Overview Lecture 10 - Completeness of a Numerical Solution
Link NOC:Experimental Stress Analysis - An Overview Lecture 11 - Principle of Strain Gauges
Link NOC:Experimental Stress Analysis - An Overview Lecture 12 - Overview of Strain Gauge Measurements
Link NOC:Experimental Stress Analysis - An Overview Lecture 13 - Elegance of Photoelasticity
Link NOC:Experimental Stress Analysis - An Overview Lecture 14 - Introduction to Photoelasticity
Link NOC:Experimental Stress Analysis - An Overview Lecture 15 - Different Polariscopes
Link NOC:Experimental Stress Analysis - An Overview Lecture 16 - Principles of Moiré
Link NOC:Experimental Stress Analysis - An Overview Lecture 17 - Introduction to Moiré
Link NOC:Experimental Stress Analysis - An Overview Lecture 18 - Introduction to Brittle Coatings
Link NOC:Experimental Stress Analysis - An Overview Lecture 19 - Introduction to Holography
Link NOC:Experimental Stress Analysis - An Overview Lecture 20 - Introduction to Hologram Interferometry
Link NOC:Experimental Stress Analysis - An Overview Lecture 21 - Introduction to Double exposure hologram interferometry
Link NOC:Experimental Stress Analysis - An Overview Lecture 22 - Introduction to Speckle Methods
Link NOC:Experimental Stress Analysis - An Overview Lecture 23 - Introduction to Speckle Interferometry Techniques
Link NOC:Experimental Stress Analysis - An Overview Lecture 24 - Introduction to TSA and DIC
Link NOC:Experimental Stress Analysis - An Overview Lecture 25 - Introduction to Caustics
Link NOC:Experimental Stress Analysis - An Overview Lecture 26 - Introduction to Coherent Gradient Sensor
Link NOC:Experimental Stress Analysis - An Overview Lecture 27 - Naming of Experimental Methods
Link NOC:Experimental Stress Analysis - An Overview Lecture 28 - Fringe Patterns - Richness of Qualitative Information
Link NOC:Experimental Stress Analysis - An Overview Lecture 29 - Key technologies that have influenced Experimental Mechanics
Link NOC:Experimental Stress Analysis - An Overview Lecture 30 - Multiscale analysis and trends in experimental mechanics
Link NOC:Experimental Stress Analysis - An Overview Lecture 31 - Selection of an experimental technique - Part 1
Link NOC:Experimental Stress Analysis - An Overview Lecture 32 - Selection of an experimental technique - Part 2
Link NOC:Fluid Dynamics and Turbomachines Lecture 1 - Introduction to Fluid Flow
Link NOC:Fluid Dynamics and Turbomachines Lecture 2 - Flow field, Stresses on fluid element, Newtonian fluid
Link NOC:Fluid Dynamics and Turbomachines Lecture 3 - Non Newtonian fluid, Classification of flow, Analysis of flow
Link NOC:Fluid Dynamics and Turbomachines Lecture 4 - Tutorial
Link NOC:Fluid Dynamics and Turbomachines Lecture 5 - Lecture 1 - Integral analysis, Control volume, Generalised conservation equation
Link NOC:Fluid Dynamics and Turbomachines Lecture 6 - Lecture 2 - Mass and linear momentum conservation in CV
Link NOC:Fluid Dynamics and Turbomachines Lecture 7 - Lecture 3 - Angular momentum conservation, Non-inertial frame of reference
Link NOC:Fluid Dynamics and Turbomachines Lecture 8 - Lecture 4 - Tutorial
Link NOC:Fluid Dynamics and Turbomachines Lecture 9 - Lecture 1 - Differential Analysis
Link NOC:Fluid Dynamics and Turbomachines Lecture 10 - Lecture 2 - Navier-Stokes equation for 2D incompressible flow
Link NOC:Fluid Dynamics and Turbomachines Lecture 11 - Lecture 3 - Vorticity, Stream function, Bernoulli's equation
Link NOC:Fluid Dynamics and Turbomachines Lecture 12 - Lecture 4 - Tutorial
Link NOC:Fluid Dynamics and Turbomachines Lecture 13 - Lecture 1 - External flows, Laminar and Turbulent Boundary Layer
Link NOC:Fluid Dynamics and Turbomachines Lecture 14 - Lecture 2 - Differential analysis of boundary layer, Blassius equation
Link NOC:Fluid Dynamics and Turbomachines Lecture 15 - Lecture 3 - Boundary Layer flow with pressure gradient, Flow separation
Link NOC:Fluid Dynamics and Turbomachines Lecture 16 - Lecture 4 - Internal flow, Pipe friction
Link NOC:Fluid Dynamics and Turbomachines Lecture 17 - Lecture 1 - Basic Thermodynamics
Link NOC:Fluid Dynamics and Turbomachines Lecture 18 - Lecture 2 - Turbomachines: Definition and classification
Link NOC:Fluid Dynamics and Turbomachines Lecture 19 - Lecture 3 - Dimensional Analysis
Link NOC:Fluid Dynamics and Turbomachines Lecture 20 - Lecture 4 - Tutorial
Link NOC:Fluid Dynamics and Turbomachines Lecture 21 - Lecture 1 - Representation of Turbomachines and Definition of velocity
Link NOC:Fluid Dynamics and Turbomachines Lecture 22 - Lecture 2 - Euler's energy equation
Link NOC:Fluid Dynamics and Turbomachines Lecture 23 - Lecture 3 - Real fluid flow and efficiency of turbomachine
Link NOC:Fluid Dynamics and Turbomachines Lecture 24 - Lecture 4 - Tutorial
Link NOC:Fluid Dynamics and Turbomachines Lecture 25 - Lecture 1 - Pumps
Link NOC:Fluid Dynamics and Turbomachines Lecture 26 - Lecture 2 - Pumping Systems
Link NOC:Fluid Dynamics and Turbomachines Lecture 27 - Lecture 3 - Hydraulic Turbines : Pelton Turbine
Link NOC:Fluid Dynamics and Turbomachines Lecture 28 - Lecture 4 - Hydraulic Turbines : Reaction Turbines
Link NOC:Fluid Dynamics and Turbomachines Lecture 29 - Lecture 5 - Cavitation in Hydroturbomachines
Link NOC:Fluid Dynamics and Turbomachines Lecture 30 - Lecture 6 - Tutorial
Link NOC:Fluid Dynamics and Turbomachines Lecture 31 - Lecture 1 - Introduction to compressible flow
Link NOC:Fluid Dynamics and Turbomachines Lecture 32 - Lecture 2 - Steam and Gas Turbine : Introduction and classification
Link NOC:Fluid Dynamics and Turbomachines Lecture 33 - Lecture 3 - Steam and Gas Turbine : h-s Plots and velocity triangle
Link NOC:Fluid Dynamics and Turbomachines Lecture 34 - Lecture 4 - Tutorial
Link NOC:Micro and Nano Scale Energy Transport Lecture 1 - Overview to Micro/Nanoscale energy transport - Part 1
Link NOC:Micro and Nano Scale Energy Transport Lecture 2 - Overview to Micro/Nanoscale energy transport - Part 2
Link NOC:Micro and Nano Scale Energy Transport Lecture 3 - Some applications of Micro/Nanoscale energy transport
Link NOC:Micro and Nano Scale Energy Transport Lecture 4 - Continuum heat transfer and its limitation
Link NOC:Micro and Nano Scale Energy Transport Lecture 5 - Energy carriers at Micro/Nanoscale and their attributes
Link NOC:Micro and Nano Scale Energy Transport Lecture 6 - Microscopic contributes to Internal energy of a systems
Link NOC:Micro and Nano Scale Energy Transport Lecture 7 - Fundamentals of Quantum mechanics - Part 1
Link NOC:Micro and Nano Scale Energy Transport Lecture 8 - Fundamentals of Quantum mechanics - Part 2
Link NOC:Micro and Nano Scale Energy Transport Lecture 9 - Fundamentals of Quantum mechanics - Part 3
Link NOC:Micro and Nano Scale Energy Transport Lecture 10 - Fundamentals of Quantum mechanics - Part 4
Link NOC:Micro and Nano Scale Energy Transport Lecture 11 - Fundamentals of Quantum mechanics - Part 5
Link NOC:Micro and Nano Scale Energy Transport Lecture 12 - Fundamentals of solid state physics - Part 1
Link NOC:Micro and Nano Scale Energy Transport Lecture 13 - Fundamentals of solid state physics - Part 2
Link NOC:Micro and Nano Scale Energy Transport Lecture 14 - Fundamentals of solid state physics - Part 3
Link NOC:Micro and Nano Scale Energy Transport Lecture 15 - Fundamentals of solid state physics - Part 4
Link NOC:Micro and Nano Scale Energy Transport Lecture 16 - Fundamentals of statistical thermodynamics - Part 1
Link NOC:Micro and Nano Scale Energy Transport Lecture 17 - Fundamentals of statistical thermodynamics - Part 2
Link NOC:Micro and Nano Scale Energy Transport Lecture 18 - Fundamentals of statistical thermodynamics - Part 3
Link NOC:Micro and Nano Scale Energy Transport Lecture 19 - Fundamentals of statistical thermodynamics - Part 4
Link NOC:Micro and Nano Scale Energy Transport Lecture 20 - Kinetic theory of energy carriers - Part 1
Link NOC:Micro and Nano Scale Energy Transport Lecture 21 - Kinetic theory of energy carriers - Part 2
Link NOC:Micro and Nano Scale Energy Transport Lecture 22 - Non-equilibrium energy transport at Nanoscales: Boltzmann Transport Equation (BTE)
Link NOC:Micro and Nano Scale Energy Transport Lecture 23 - Boltzmann Transport Equation under the relaxation time approximation
Link NOC:Micro and Nano Scale Energy Transport Lecture 24 - Derivation of Continuum laws from Boltzmann Transport Equation - Part 1
Link NOC:Micro and Nano Scale Energy Transport Lecture 25 - Derivation of Continuum laws from Boltzmann Transport Equation - Part 2
Link NOC:Micro and Nano Scale Energy Transport Lecture 26 - Derivation of Continuum laws from Boltzmann Transport Equation - Part 3
Link NOC:Micro and Nano Scale Energy Transport Lecture 27 - Nanoscale Energy transport in a Thin Film - Part 1
Link NOC:Micro and Nano Scale Energy Transport Lecture 28 - Nanoscale Energy transport in a Thin Film - Part 2
Link NOC:Micro and Nano Scale Energy Transport Lecture 29 - Nanoscale Energy transport in a Thin Film - Part 3
Link NOC:Micro and Nano Scale Energy Transport Lecture 30 - Gas flow and Heat transport in Microchannels - Part 1
Link NOC:Micro and Nano Scale Energy Transport Lecture 31 - Gas flow and Heat transport in Microchannels - Part 2
Link NOC:Micro and Nano Scale Energy Transport Lecture 32 - Single phase liquid flow and Heat transport in Microchannels - Part 1
Link NOC:Micro and Nano Scale Energy Transport Lecture 33 - Single phase liquid flow and Heat transport in Microchannels - Part 2
Link NOC:Micro and Nano Scale Energy Transport Lecture 34 - Fundamentals of Electro kinetics in Microchannels Part1
Link NOC:Micro and Nano Scale Energy Transport Lecture 35 - Fundamentals of Electro kinetics in Microchannels Part2
Link NOC:Micro and Nano Scale Energy Transport Lecture 36 - Fundamentals of Electro kinetics in Microchannels Part3
Link NOC:Micro and Nano Scale Energy Transport Lecture 37 - Two phase Heat transfer in Microchannels - Part 1
Link NOC:Micro and Nano Scale Energy Transport Lecture 38 - Two phase Heat transfer in Microchannels - Part 2
Link NOC:Micro and Nano Scale Energy Transport Lecture 39 - Nano fluid Heat transfer - Part 1
Link NOC:Micro and Nano Scale Energy Transport Lecture 40 - Nano fluid Heat transfer - Part 2
Link NOC:Micro and Nano Scale Energy Transport Lecture 41 - Measurement techniques in Micro and Nanoscale Heat transfer - Part 1
Link NOC:Micro and Nano Scale Energy Transport Lecture 42 - Measurement techniques in Micro and Nanoscale Heat transfer - Part 2
Link NOC:Electron Diffraction and Imaging Lecture 1 - 1D-2D-3D lattice
Link NOC:Electron Diffraction and Imaging Lecture 2 - Stereographic projection - 1
Link NOC:Electron Diffraction and Imaging Lecture 3 - Stereographic Projection - 2
Link NOC:Electron Diffraction and Imaging Lecture 4 - Symmetry in 1-D crystals
Link NOC:Electron Diffraction and Imaging Lecture 5 - Symmetry in 2-D crystals
Link NOC:Electron Diffraction and Imaging Lecture 6 - Symmetry in 3-D crystals
Link NOC:Electron Diffraction and Imaging Lecture 7 - Understanding IUCr tables
Link NOC:Electron Diffraction and Imaging Lecture 8 - Symmetry in 3-D Crystals
Link NOC:Electron Diffraction and Imaging Lecture 9 - Reciprocal lattice
Link NOC:Electron Diffraction and Imaging Lecture 10 - Directions Planes and zone axes
Link NOC:Electron Diffraction and Imaging Lecture 11 - Interplanar distances and angles
Link NOC:Electron Diffraction and Imaging Lecture 12 - Diffraction - 1
Link NOC:Electron Diffraction and Imaging Lecture 13 - Diffraction - 2
Link NOC:Electron Diffraction and Imaging Lecture 14 - Diffraction - Structure and Shape Factor
Link NOC:Electron Diffraction and Imaging Lecture 15 - Transformation of Indices
Link NOC:Electron Diffraction and Imaging Lecture 16 - Microscope - 1
Link NOC:Electron Diffraction and Imaging Lecture 17 - Microscope - 2
Link NOC:Electron Diffraction and Imaging Lecture 18 - Kikuchi Diffraction
Link NOC:Electron Diffraction and Imaging Lecture 19 - Double Diffraction and CBED
Link NOC:Electron Diffraction and Imaging Lecture 20 - CBED and Precession Electron Diffraction
Link NOC:Electron Diffraction and Imaging Lecture 21 - Indexing Diffraction Pattern
Link NOC:Electron Diffraction and Imaging Lecture 22 - Correlation of Diffraction Spots to Microstructure
Link NOC:Electron Diffraction and Imaging Lecture 23 - 3-Index to 4-Index System
Link NOC:Electron Diffraction and Imaging Lecture 24 - Kinematical and Dynamical Theory of Diffraction and Imaging
Link NOC:Electron Diffraction and Imaging Lecture 25 - Contrast from Planar Defects
Link NOC:Electron Diffraction and Imaging Lecture 26 - Contrast from Strain Fields
Link NOC:Electron Diffraction and Imaging Lecture 27 - Atomic Scattering Factor
Link NOC:Electron Diffraction and Imaging Lecture 28 - Coherence
Link NOC:Electron Diffraction and Imaging Lecture 29 - Lens Aberrations
Link NOC:Electron Diffraction and Imaging Lecture 30 - Phase Contrast Microscopy - 1
Link NOC:Electron Diffraction and Imaging Lecture 31 - Phase Contrast Microscopy - 2
Link NOC:Electron Diffraction and Imaging Lecture 32 - Phase Contrast Microscopy - 3
Link NOC:Electron Diffraction and Imaging Lecture 33 - STEM
Link NOC:Electron Diffraction and Imaging Lecture 34 - ELES and EDS
Link NOC:Electron Diffraction and Imaging Lecture 35 - Recent trends
Link NOC:Electron Diffraction and Imaging Lecture 36 - Energy dispersive Spectroscopy
Link NOC:Electron Diffraction and Imaging Lecture 37 - Revision - 1
Link NOC:Electron Diffraction and Imaging Lecture 38 - Revision - 2
Link NOC:Electron Diffraction and Imaging Lecture 39 - Revision of Recent trends in Microscopy
Link NOC:Electron Diffraction and Imaging Lecture 40 - Crystallography Revision
Link NOC:Acoustic and Noise Control Lecture 1 - Module 1 - Introduction - 1
Link NOC:Acoustic and Noise Control Lecture 2 - Module 1 - Introduction - 2
Link NOC:Acoustic and Noise Control Lecture 3 - Module 2 - Governing Equation - 1
Link NOC:Acoustic and Noise Control Lecture 4 - Module 2 - Governing Equation - 2
Link NOC:Acoustic and Noise Control Lecture 5 - Module 3 - Plane Wave - 1
Link NOC:Acoustic and Noise Control Lecture 6 - Module 3 - Plane Wave - 2
Link NOC:Acoustic and Noise Control Lecture 7 - Module 4 - Reflection Of Plane Waves - 1
Link NOC:Acoustic and Noise Control Lecture 8 - Module 4 - Reflection Of Plane Waves - 2
Link NOC:Acoustic and Noise Control Lecture 9 - Module 5 - Frequence Analysis - 1
Link NOC:Acoustic and Noise Control Lecture 10 - Module 5 - Frequence Analysis - 2
Link NOC:Acoustic and Noise Control Lecture 11 - Module 6 - Harmonic Plane Waves
Link NOC:Acoustic and Noise Control Lecture 12 - Module 7 - Travelling And Standing Waves
Link NOC:Acoustic and Noise Control Lecture 13 - Module 8 - Acoustic Mode Shapes, Reflection
Link NOC:Acoustic and Noise Control Lecture 14 - Module 9 - Plane Waves : Reflection and Intermission
Link NOC:Acoustic and Noise Control Lecture 15 - Module 10 - Flexural Waves, evanescent Waves
Link NOC:Acoustic and Noise Control Lecture 16 - Module 11 - Near Field Acoustic Waves
Link NOC:Acoustic and Noise Control Lecture 17 - Module 12 - cuton Waves in duct
Link NOC:Acoustic and Noise Control Lecture 18 - Module 13 - Power Calculation
Link NOC:Acoustic and Noise Control Lecture 19 - Module 14 - Decibel Scale
Link NOC:Acoustic and Noise Control Lecture 20 - Module 15 - Db Arithmetic
Link NOC:Acoustic and Noise Control Lecture 21 - Module 16 - Sound Power Level
Link NOC:Acoustic and Noise Control Lecture 22 - Module 17 - Human factors in Acoustic Engineering
Link NOC:Acoustic and Noise Control Lecture 23 - Module 18 - Microphone
Link NOC:Acoustic and Noise Control Lecture 24 - Module 19 - Acoustic Measurements
Link NOC:Acoustic and Noise Control Lecture 25 - Module 20 - Muffler Analysis
Link NOC:Acoustic and Noise Control Lecture 26 - Module 21 - Transfer Matrix Method
Link NOC:Acoustic and Noise Control Lecture 27 - Module 22 - Electro Mechanical Analogies - Part 1
Link NOC:Acoustic and Noise Control Lecture 28 - Module 23 - Electro Mechanical Analogies Simple Example
Link NOC:Acoustic and Noise Control Lecture 29 - Module 24 - Electro Mechanical Analogies Example
Link NOC:Acoustic and Noise Control Lecture 30 - Module 25 - Helmholtz Resonator
Link NOC:Acoustic and Noise Control Lecture 31 - Module 26 - Source Impedance
Link NOC:Acoustic and Noise Control Lecture 32 - Module 27 - Insertion Loss
Link NOC:Acoustic and Noise Control Lecture 33 - Module 28 - Analysis Of Industrial Mufflers
Link NOC:Acoustic and Noise Control Lecture 34 - Module 29 - Spherical Waves
Link NOC:Acoustic and Noise Control Lecture 35 - Module 30 - Monopole and Dipole
Link NOC:Acoustic and Noise Control Lecture 36 - Module 31 - Inhomogeneous Wave Equation
Link NOC:Acoustic and Noise Control Lecture 37 - Module 32 - Green's Function
Link NOC:Acoustic and Noise Control Lecture 38 - Module 33 - Kirchoff Helmholtz Integral Equation
Link NOC:Acoustic and Noise Control Lecture 39 - Tutorial 1
Link NOC:Acoustic and Noise Control Lecture 40 - Tutorial 2
Link NOC:Acoustic and Noise Control Lecture 41 - Tutorial 3
Link NOC:Acoustic and Noise Control Lecture 42 - Tutorial 4
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 1 - Concept of Steel Quality
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 2 - Control of Residuals and Impact on Quality
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 3 - Non-Metallic Inclusions
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 4 - Evaluation of Residuals and Inclusions
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 5 - Cleanliness Requirements for Different applications
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 6 - Limitation of Primary Steelmaking and Importance of secondary Refining
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 7 - Deoxidation
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 8 - Prevention of Slag carryover
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 9 - Desulphurisation
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 10 - Degassing
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 11 - Secondary Refining Processes
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 12 - Injection of Calcium
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 13 - Different Routes and Temperature Control
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 14 - Decarburisation
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 15 - Cleanliness Measures in Ladle and Tundish
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 16 - Cleanliness Measures in Mould
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 17 - Nature and Distribution of Entrapments in Casting
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 18 - Genesis of Entrapment
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 19 - Effect of Vertical vis-a-vis Curved Mould
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 20 - Quality of Cast Product
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 21 - Role of Concast Process, Caster Design and Steel Grade
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 22 - Primary Cooling in Caster Mould
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 23 - Heat Transfer in Mould
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 24 - Role of Mould Oscillation
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 25 - Cast Structure and Dendrite Size
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 26 - Role of Chemistry - Part I
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 27 - Role of Chemistry - Part II
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 28 - Role of Segregation - Part I
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 29 - Role of Segregation - Part II
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 30 - Deleterious Effect of Phosphorus
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 31 - Strength of Solidifying Strand
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 32 - Brittle Zone Near Solidus
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 33 - Strength and Toughness of Solid Shell
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 34 - Role of Chemistry on Solidification Behaviour
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 35 - Sticking vis-a-vis Depression Behaviour
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 36 - Role of Chemistry on Bulging or Depression Tendency - Part I
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 37 - Role of Chemistry on Bulging or Depression Tendency - Part II
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 38 - Effect of Cast Grain Size
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 39 - Brittle Temperature Regions
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 40 - Typical Cracks and Defects - Part I
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 41 - Typical Cracks and Defects - Part II
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 42 - Remedial Measures to Control Defects - Part I
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 43 - Remedial Measures to Control Defects - Part II
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 44 - Remedial Measures to Control Defects - Part III
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 45 - Grade - Specific Casting Parameters - Part I
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 46 - Grade - Specific Casting Parameters - Part II
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 47 - Identification of Genesis of Quality Problems Through Metallographic Investigation - Part I
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 48 - Identification of Genesis of Quality Problems Through Metallographic Investigation - Part II
Link NOC:Steel Quality - Role of Secondary Refining and Continuous Casting Lecture 49 - Identification of Genesis of Quality Problems Through Metallographic Investigation - Part III
Link NOC:X-ray Crystallography and Diffraction Lecture 1 - Geometry of Crystals
Link NOC:X-ray Crystallography and Diffraction Lecture 2 - Geometry of Crystals (Continued...)
Link NOC:X-ray Crystallography and Diffraction Lecture 3 - Tutorial-1
Link NOC:X-ray Crystallography and Diffraction Lecture 4 - Reciprocal Lattice
Link NOC:X-ray Crystallography and Diffraction Lecture 5 - Stereographic Projection
Link NOC:X-ray Crystallography and Diffraction Lecture 6 - Tutorial-2
Link NOC:X-ray Crystallography and Diffraction Lecture 7 - Point Groups and Space Groups
Link NOC:X-ray Crystallography and Diffraction Lecture 8 - Point Groups and Space Groups (Continued...)
Link NOC:X-ray Crystallography and Diffraction Lecture 9 - Tutorial-3
Link NOC:X-ray Crystallography and Diffraction Lecture 10 - Point Groups and Space Groups (Continued...)
Link NOC:X-ray Crystallography and Diffraction Lecture 11 - Basics of X-Rays
Link NOC:X-ray Crystallography and Diffraction Lecture 12 - Production and Detection of X-Rays
Link NOC:X-ray Crystallography and Diffraction Lecture 13 - Production and Detection of X-Rays (Continued...)
Link NOC:X-ray Crystallography and Diffraction Lecture 14 - Principles of X-Ray Diffraction
Link NOC:X-ray Crystallography and Diffraction Lecture 15 - X-Ray Diffraction Methods
Link NOC:X-ray Crystallography and Diffraction Lecture 16 - Debye Sherrer Camera
Link NOC:X-ray Crystallography and Diffraction Lecture 17 - Diffractometer Measurements
Link NOC:X-ray Crystallography and Diffraction Lecture 18 - Tutorial-4
Link NOC:X-ray Crystallography and Diffraction Lecture 19 - Intensity of Diffracted Beams
Link NOC:X-ray Crystallography and Diffraction Lecture 20 - Intensity of Diffracted Beams (Continued...)
Link NOC:X-ray Crystallography and Diffraction Lecture 21 - Determination of Crystal Structures
Link NOC:X-ray Crystallography and Diffraction Lecture 22 - Precise Lattice Parameter Determination
Link NOC:X-ray Crystallography and Diffraction Lecture 23 - XRD - Lab Demonstration
Link NOC:X-ray Crystallography and Diffraction Lecture 24 - Discussion - Based on Forum Queries - 1
Link NOC:X-ray Crystallography and Diffraction Lecture 25 - Phase Diagram Determination
Link NOC:X-ray Crystallography and Diffraction Lecture 26 - Ordered Disordered Transformation
Link NOC:X-ray Crystallography and Diffraction Lecture 27 - Ordered Disordered Transformation (Continued...)
Link NOC:X-ray Crystallography and Diffraction Lecture 28 - Qualitative Phase Analysis
Link NOC:X-ray Crystallography and Diffraction Lecture 29 - Quantitative Phase Analysis - 1
Link NOC:X-ray Crystallography and Diffraction Lecture 30 - Precise Lattice Parameter Determination - 1
Link NOC:X-ray Crystallography and Diffraction Lecture 31 - Chemical Analysis by X-Ray Flourescence
Link NOC:X-ray Crystallography and Diffraction Lecture 32 - Chemical Analysis by X-Ray Absorption
Link NOC:X-ray Crystallography and Diffraction Lecture 33 - Effect of Crystallite Size on Diffracted X-Ray Intensity
Link NOC:X-ray Crystallography and Diffraction Lecture 34 - Texture Determination by XRD
Link NOC:X-ray Crystallography and Diffraction Lecture 35 - Particle Size Determination by XRD
Link NOC:X-ray Crystallography and Diffraction Lecture 36 - Effect of Crystallite Size on Diffracted X-Ray Intensity
Link NOC:X-ray Crystallography and Diffraction Lecture 37 - Determination of Single Crystal Orientation by X-Rays
Link NOC:X-ray Crystallography and Diffraction Lecture 38 - Stress Analysis by X-Rays
Link NOC:X-ray Crystallography and Diffraction Lecture 39 - Factors Contributing to Peak Broadening
Link NOC:X-ray Crystallography and Diffraction Lecture 40 - Residual Stress Measurement by X-Rays
Link NOC:Transport Phenomena in Materials Lecture 1 - Subscript Notation - Part 1
Link NOC:Transport Phenomena in Materials Lecture 2 - Subscript Notation - Part 2
Link NOC:Transport Phenomena in Materials Lecture 3 - Coordinate Rotation
Link NOC:Transport Phenomena in Materials Lecture 4 - Introduction to Tensors
Link NOC:Transport Phenomena in Materials Lecture 5 - Symmetry of Properties
Link NOC:Transport Phenomena in Materials Lecture 6 - Material Derivative
Link NOC:Transport Phenomena in Materials Lecture 7 - Planar Flows
Link NOC:Transport Phenomena in Materials Lecture 8 - Reynolds Transport Theorem
Link NOC:Transport Phenomena in Materials Lecture 9 - Derivation of Navier-Stokes equation
Link NOC:Transport Phenomena in Materials Lecture 10 - Navier Stokes equations - Part 2
Link NOC:Transport Phenomena in Materials Lecture 11 - Flow problem statements
Link NOC:Transport Phenomena in Materials Lecture 12 - Simple cases in fluid flow : rectangular coordinate system
Link NOC:Transport Phenomena in Materials Lecture 13 - Simple cases in fluid flow : cylindrical coordinate system
Link NOC:Transport Phenomena in Materials Lecture 14 - Pipe flow and porous medium
Link NOC:Transport Phenomena in Materials Lecture 15 - Simple cases in fluid flow : spherical coordinate system
Link NOC:Transport Phenomena in Materials Lecture 16 - Friction factors and correlations
Link NOC:Transport Phenomena in Materials Lecture 17 - Energy Transport
Link NOC:Transport Phenomena in Materials Lecture 18 - Conduction cases - steady state
Link NOC:Transport Phenomena in Materials Lecture 19 - Conduction cases - transient state
Link NOC:Transport Phenomena in Materials Lecture 20 - Convective heat transfer
Link NOC:Experimental Stress Analysis - An Overview Lecture 1 - Overview of Experimental Stress Analysis
Link NOC:Experimental Stress Analysis - An Overview Lecture 2 - Optical Methods Work as Optical Computers
Link NOC:Experimental Stress Analysis - An Overview Lecture 3 - Stress, Strain and Displacement Fields
Link NOC:Experimental Stress Analysis - An Overview Lecture 4 - Completeness of a numerical solution
Link NOC:Experimental Stress Analysis - An Overview Lecture 5 - Fringe Patterns - Richness of Qualitative Information
Link NOC:Experimental Stress Analysis - An Overview Lecture 6 - Multi-Scale Analysis in Experimental Mechanics
Link NOC:Experimental Stress Analysis - An Overview Lecture 7 - Selection of an Experimental Technique
Link NOC:Experimental Stress Analysis - An Overview Lecture 8 - Introduction to Transmission Photoelasticity
Link NOC:Experimental Stress Analysis - An Overview Lecture 9 - Ordinary and Extraordinary Rays
Link NOC:Experimental Stress Analysis - An Overview Lecture 10 - Light Ellipse, Passage of Light Through a Crystal Plate
Link NOC:Experimental Stress Analysis - An Overview Lecture 11 - Retardation Plates, Stress-optic Law
Link NOC:Experimental Stress Analysis - An Overview Lecture 12 - Plane Polariscope
Link NOC:Experimental Stress Analysis - An Overview Lecture 13 - Jones Calculus
Link NOC:Experimental Stress Analysis - An Overview Lecture 14 - Circular Polariscope
Link NOC:Experimental Stress Analysis - An Overview Lecture 15 - Determination of Photoelastic Parameters at an Arbitrary Point
Link NOC:Experimental Stress Analysis - An Overview Lecture 16 - Tardy’s Method of Compensation
Link NOC:Experimental Stress Analysis - An Overview Lecture 17 - Calibration of Photoelastic Materials
Link NOC:Experimental Stress Analysis - An Overview Lecture 18 - Fringe Thinning Methodologies
Link NOC:Experimental Stress Analysis - An Overview Lecture 19 - Fringe Ordering in Photoelasticity
Link NOC:Experimental Stress Analysis - An Overview Lecture 20 - Miscellaneous Topics in Transmission Photoelasticity
Link NOC:Experimental Stress Analysis - An Overview Lecture 21 - Three Dimensional Photoelasticity
Link NOC:Experimental Stress Analysis - An Overview Lecture 22 - Overview of Digital Photoelasticity
Link NOC:Experimental Stress Analysis - An Overview Lecture 23 - Introduction to Photoelastic Coatings
Link NOC:Experimental Stress Analysis - An Overview Lecture 24 - Correction Factors for Photoelastic Coatings
Link NOC:Experimental Stress Analysis - An Overview Lecture 25 - Coating Materials, Selection of Coating Thickness, Industrial Application of Photoelastic Coatings
Link NOC:Experimental Stress Analysis - An Overview Lecture 26 - Calibration of Photoelastic Coatings, Introduction to Brittle Coatings
Link NOC:Experimental Stress Analysis - An Overview Lecture 27 - Analysis of Brittle Coatings
Link NOC:Experimental Stress Analysis - An Overview Lecture 28 - Introduction to Strain Gauges
Link NOC:Experimental Stress Analysis - An Overview Lecture 29 - Strain Sensitivity of a Strain Gauge, Bridge Sensitivity, Rosettes
Link NOC:Experimental Stress Analysis - An Overview Lecture 30 - Strain Gauge Alloys, Carriers and Adhesives
Link NOC:Experimental Stress Analysis - An Overview Lecture 31 - Performance of Strain Gauge System
Link NOC:Experimental Stress Analysis - An Overview Lecture 32 - Temperature Compensation, Two-wire and Three-wire Circuits
Link NOC:Experimental Stress Analysis - An Overview Lecture 33 - Strain Gauge Selection
Link NOC:Experimental Stress Analysis - An Overview Lecture 34 - Bonding of a Strain Gauge
Link NOC:Experimental Stress Analysis - An Overview Lecture 35 - Soldering, Accounting for Transverse Sensitivity Effects
Link NOC:Experimental Stress Analysis - An Overview Lecture 36 - Correction Factors for Special Applications
Link NOC:Experimental Stress Analysis - An Overview Lecture 37 - Special Gauges
Link NOC:Mechanics of Human Movement Lecture 1 - Basic Terminologies
Link NOC:Mechanics of Human Movement Lecture 2 - Skeletal System
Link NOC:Mechanics of Human Movement Lecture 3 - Axial and Appendicular Skeleton
Link NOC:Mechanics of Human Movement Lecture 4 - Bones in the Human Body
Link NOC:Mechanics of Human Movement Lecture 5 - Types of Joints
Link NOC:Mechanics of Human Movement Lecture 6 - Movements about Joints
Link NOC:Mechanics of Human Movement Lecture 7 - Levers in the Human Body
Link NOC:Mechanics of Human Movement Lecture 8 - Skeletal Muscles: Functions
Link NOC:Mechanics of Human Movement Lecture 9 - Skeletal Muscles: Structure Part - I
Link NOC:Mechanics of Human Movement Lecture 10 - Skeletal Muscles: Structure Part - II
Link NOC:Mechanics of Human Movement Lecture 11 - Mechanics and Modeling of Muscles
Link NOC:Mechanics of Human Movement Lecture 12 - Muscle Action - Part I
Link NOC:Mechanics of Human Movement Lecture 13 - Muscle Action - Part II
Link NOC:Mechanics of Human Movement Lecture 14 - Principles of Statics
Link NOC:Mechanics of Human Movement Lecture 15 - Static Analysis of Elbow - Part I
Link NOC:Mechanics of Human Movement Lecture 16 - Static Analysis of Elbow - Part II
Link NOC:Mechanics of Human Movement Lecture 17 - Static Analysis of Shoulder - Part I
Link NOC:Mechanics of Human Movement Lecture 18 - Static Analysis of Shoulder - Part II
Link NOC:Mechanics of Human Movement Lecture 19 - Static Analysis of Spine - Part I
Link NOC:Mechanics of Human Movement Lecture 20 - Static Analysis of Spine - Part II
Link NOC:Mechanics of Human Movement Lecture 21 - Static Analysis of Spine - Part III
Link NOC:Mechanics of Human Movement Lecture 22 - Static Analysis of Hip - Part I
Link NOC:Mechanics of Human Movement Lecture 23 - Static Analysis of Hip - Part II
Link NOC:Mechanics of Human Movement Lecture 24 - Static Analysis of the Knee
Link NOC:Mechanics of Human Movement Lecture 25 - Static Analysis of the Knee and Ankle
Link NOC:Mechanics of Human Movement Lecture 26 - Kinetics: Linear Motion
Link NOC:Mechanics of Human Movement Lecture 27 - Kinetics: Linear Motion - Part II
Link NOC:Mechanics of Human Movement Lecture 28 - Kinetics: Linear Motion - Part III
Link NOC:Mechanics of Human Movement Lecture 29 - Kinetics: Angular Motion - Part I
Link NOC:Mechanics of Human Movement Lecture 30 - Kinetics: Angular Motion - Part II
Link NOC:Mechanics of Human Movement Lecture 31 - Kinetics: Angular Motion - Part III
Link NOC:Mechanics of Human Movement Lecture 32 - Kinetics: Angular Motion - Part IV
Link NOC:Mechanics of Human Movement Lecture 33 - Kinetics of Arm Swinging during Walking
Link NOC:Mechanics of Human Movement Lecture 34 - Inverse Dynamics Analysis
Link NOC:Mechanics of Human Movement Lecture 35 - Biomechanics of Balance - Part I
Link NOC:Mechanics of Human Movement Lecture 36 - Biomechanics of Balance - Part II
Link NOC:Mechanics of Human Movement Lecture 37 - Biomechanics of Balance - Part III
Link NOC:Mechanics of Human Movement Lecture 38 - Human Gait
Link NOC:Mechanics of Human Movement Lecture 39 - Human Gait Terminologies
Link NOC:Mechanics of Human Movement Lecture 40 - Characteristics of Normal Gait - Part I
Link NOC:Mechanics of Human Movement Lecture 41 - Characteristics of Normal Gait - Part II
Link NOC:Mechanics of Human Movement Lecture 42 - Characteristics of Normal Gait - Part III
Link NOC:Mechanics of Human Movement Lecture 43 - Pathological Gait Part - I
Link NOC:Mechanics of Human Movement Lecture 44 - Pathological Gait Part - II
Link NOC:Mechanics of Human Movement Lecture 45 - Pathological Gait Part - III
Link NOC:Mechanics of Human Movement Lecture 46 - Introduction to Assistive Devices for Mobility
Link NOC:Mechanics of Human Movement Lecture 47 - Design Considerations: Prosthetic Foot
Link NOC:Mechanics of Human Movement Lecture 48 - Design Considerations: Prosthesis and Orthosis
Link NOC:Mechanics of Human Movement Lecture 49 - Design Considerations: Prosthetic Knee
Link NOC:Mechanics of Human Movement Lecture 50 - Journey of Standing Wheelchair Development
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 1 - Introduction to DfX
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 2 - Introduction to Quality
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 3 - Introduction to Robustness
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 4 - Introduction to Six Sigma Concept
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 5 - Recap and clarifications of basic concepts
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 6 - Review of Six Sigma and Quality Loss Function (QLF)
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 7 - Types of QLF and SN Ratio
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 8 - Linking Quality and Robustness
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 9 - Design for Six Sigma - Stages, Design of Experiments
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 10 - Introduction To Design Of Experiments
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 11 - Need for DoE and basic DoE methods
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 12 - Factorial Design
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 13 - Orthogonal Array- L4 and L8 example
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 14 - Setting up an Orthogonal Array
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 15 - Confounding OA and Resolution Table
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 16 - Confounding Logic and Randomization of Experiments
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 17 - Paper Helicopter Case Study - Part I
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 18 - Paper Helicopter Case Study - Part II
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 19 - Introduction To Injection Molding Process, Materials, Terminologies Related To Plastic Parts and Design Guidelines
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 20 - Estimation of Mold Cost for Injection Molding (Dixon and Poli's Method)
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 21 - Estimation of Mold Cost for Injection Molding (Dixon and Poli's Method) (Continued...)
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 22 - Mold Cost Estimation - Tutorial
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 23 - Design for Additive Manufacturing
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 24 - Demo
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 25 - Introduction to Sustainable Development and Sustainability Indicators - Part 1
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 26 - Introduction to Sustainable Development and Sustainability Indicators - Part 2
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 27 - Introduction to design process
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 28 - Accounting for manufacturability and assembly in design - An overview
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 29 - DfMA in product design
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 30 - General design guidelines for manual assembly
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 31 - Systematic DFA methodology
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 32 - Alpha symmetry, Beta symmetry
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 33 - Quantification of part size and thickness
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 34 - Systematic DFA Case study - controller assembly
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 35 - DFA examples and discussion
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 36 - Xerox Producibility Index (XPI)
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 37 - High Speed and Robotic Assembly
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 38 - Sheet Metal Working
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 39 - Overview of DoE Workflow
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 40 - DFA Software
Link NOC:Design for Quality, Manufacturing and Assembly Lecture 41 - DFM Software and Case Studies
Link NOC:Surrogates and Approximations in Engineering Design Lecture 1 - Overview and Motivation of Course
Link NOC:Surrogates and Approximations in Engineering Design Lecture 2 - Basic Optimization Problem Formulation
Link NOC:Surrogates and Approximations in Engineering Design Lecture 3 - Problem Formulation Example
Link NOC:Surrogates and Approximations in Engineering Design Lecture 4 - Calculus related to Optimization
Link NOC:Surrogates and Approximations in Engineering Design Lecture 5 - The big picture - Overview
Link NOC:Surrogates and Approximations in Engineering Design Lecture 6 - Introduction to DOE - 1
Link NOC:Surrogates and Approximations in Engineering Design Lecture 7 - Introduction to DOE - 2
Link NOC:Surrogates and Approximations in Engineering Design Lecture 8 - Types of DOE - 1
Link NOC:Surrogates and Approximations in Engineering Design Lecture 9 - Types of DOE - 2 and some examples
Link NOC:Surrogates and Approximations in Engineering Design Lecture 10 - Introduction to surrogate modeling
Link NOC:Surrogates and Approximations in Engineering Design Lecture 11 - Types of surrogate - Polynomial models
Link NOC:Surrogates and Approximations in Engineering Design Lecture 12 - Radial basis function - 1
Link NOC:Surrogates and Approximations in Engineering Design Lecture 13 - Radial basis function - 2
Link NOC:Surrogates and Approximations in Engineering Design Lecture 14 - Kriging - 1
Link NOC:Surrogates and Approximations in Engineering Design Lecture 15 - Kriging - 2
Link NOC:Surrogates and Approximations in Engineering Design Lecture 16 - Metamodels for Safe and Efficient Automotive Structures
Link NOC:Surrogates and Approximations in Engineering Design Lecture 17 - Exploration and Exploitation in Surrogates
Link NOC:Surrogates and Approximations in Engineering Design Lecture 18 - Errors Based Exploration
Link NOC:Surrogates and Approximations in Engineering Design Lecture 19 - Ensemble of Surrogates
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 1 - Concept of Steel Quality
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 2 - Typical Examples of Surface Defects
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 3 - Origin of Common Quality Problems
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 4 - Present Scenario on Quality Demands
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 5 - Control of Residuals and Impact on Quality
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 6 - Non-Metallic Inclusions
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 7 - Evaluation of Residuals and Inclusions
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 8 - Cleanliness Requirements for Different applications
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 9 - Limitation of Primary Steelmaking and Importance of secondary Refining
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 10 - Deoxidation
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 11 - Prevention of Slag carryover
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 12 - Desulphurisation
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 13 - Degassing
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 14 - Secondary Refining Processes
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 15 - Injection of Calcium
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 16 - Decarburisation
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 17 - Cleanliness Measures in Ladle and Tundish
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 18 - Cleanliness Measures in Mould
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 19 - Different Routes and Temperature Control
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 20 - Nature and Distribution of Entrapments in Casting
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 21 - Sources of Exogenous Entrapments
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 22 - Effect of Vertical vis-a-vis Curved Mould
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 23 - Quality of Cast Product
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 24 - Role of Concast Process, Caster Design and Steel Grade
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 25 - Primary Cooling in Caster Mould
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 26 - Heat Transfer in Mould
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 27 - Cast Structure and Dendrite Size
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 28 - Role of Mould Oscillation
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 29 - Role of Chemistry - Part I
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 30 - Role of Chemistry - Part II
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 31 - Role of Segregation - Part I
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 32 - Role of Segregation - Part II
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 33 - Deleterious Effect of Phosphorus
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 34 - Strength of Solidifying Strand
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 35 - Brittle Zone Near Solidus
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 36 - Strength and Toughness of Solid Shell
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 37 - Role of Chemistry on Solidification Behaviour
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 38 - Sticking vis-a-vis Depression Behaviour
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 39 - Role of Chemistry on Bulging or Depression Tendency - Part I
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 40 - Role of Chemistry on Bulging or Depression Tendency - Part II
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 41 - Effect of Cast Grain Size
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 42 - Brittle Temperature Regions
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 43 - Role of Secondary Cooling - Part 1
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 44 - Role of Secondary Cooling - Part 2
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 45 - Typical Cracks and Defects - Part I
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 46 - Typical Cracks and Defects - Part II
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 47 - Remedial Measures to Control Defects - Part I
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 48 - Remedial Measures to Control Defects - Part II
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 49 - Remedial Measures to Control Defects - Part III
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 50 - Grade - Specific Casting Parameters - Part I
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 51 - Grade - Specific Casting Parameters - Part II
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 52 - Identification of Genesis of Quality Problems Through Metallographic Investigation - Part I
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 53 - Identification of Genesis of Quality Problems Through Metallographic Investigation - Part II
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 54 - Identification of Genesis of Quality Problems Through Metallographic Investigation - Part III
Link NOC:Steel Quality: Role of Secondary Refining and Continuous Casting Lecture 55 - Some Examples of Quality Problems
Link Theory of Mechanism Lecture 1 - Review of Kinematics Fundamentals-I
Link Theory of Mechanism Lecture 2 - Links, Pairs, Kinematic Chains; Planar Mobility Criterion
Link Theory of Mechanism Lecture 3 - Mobility of Mechanisms, Grubler's Criterion and Applications
Link Theory of Mechanism Lecture 4 - Inversions, Grashof Criterion, Kinematic equivalence
Link Theory of Mechanism Lecture 5 - Linkage Synthesis Classification, 2-position Motion Generation
Link Theory of Mechanism Lecture 6 - Driver dyad, Quick-return synthesis - I
Link Theory of Mechanism Lecture 7 - Quick-return synthesis - II, 3-position Motion Generation
Link Theory of Mechanism Lecture 8 - Specified fixed pivots, Path generation
Link Theory of Mechanism Lecture 9 - Function generation
Link Theory of Mechanism Lecture 10 - Function generation using relative poles
Link Theory of Mechanism Lecture 11 - Structural Error, and Chebyshev Spacing
Link Theory of Mechanism Lecture 12 - Chebyshev Spacing
Link Theory of Mechanism Lecture 13 - Analytical Linkage Synthesis-I: Vector Loop Closure, Freudenstein's method
Link Theory of Mechanism Lecture 14 - Analytical Linkage Synthesis-II: Bloch's method, Driver Dyad
Link Theory of Mechanism Lecture 15 - Four-bar Position Analysis, Dyad or Standard Form Synthesis
Link Theory of Mechanism Lecture 16 - Dyad Form Synthesis: Motion Generation
Link Theory of Mechanism Lecture 17 - Dyad Form Synthesis: Path and Function Generation
Link Theory of Mechanism Lecture 18 - Dyad Form Synthesis: Multi loop linakges
Link Theory of Mechanism Lecture 19 - Dyad Form Synthesis: Four Position Motion Generation
Link Theory of Mechanism Lecture 20 - Coupler Curves - I
Link Theory of Mechanism Lecture 21 - Coupler Curves - II, Fixed and Moving Centrodes
Link Theory of Mechanism Lecture 22 - Coupler Curves - III, Symmetrical Coupler Curves
Link Theory of Mechanism Lecture 23 - Roberts-Chebyshev Theorem
Link Theory of Mechanism Lecture 24 - Cognates
Link Theory of Mechanism Lecture 25 - Velocity Analysis: Review of Velocity Polygons
Link Theory of Mechanism Lecture 26 - Velocity Analysis: Velocity Polygons (Continued...) and Instant Centres
Link Theory of Mechanism Lecture 27 - Velocity Analysis: Auxiliary Point Method
Link Theory of Mechanism Lecture 28 - Auxiliary Point Method: (Continued...)
Link Theory of Mechanism Lecture 29 - Velocity and Acceleration Analysis: Analytical Method
Link Theory of Mechanism Lecture 30 - Acceleration Analysis: Analytical Method (Continued...)
Link Theory of Mechanism Lecture 31 - Acceleration Analysis: Auxiliary Point Method
Link Theory of Mechanism Lecture 32 - Force Analysis of Mechanisms, Mechanical Advantage
Link Theory of Mechanism Lecture 33 - Force Analysis of Mechanisms - II
Link Theory of Mechanism Lecture 34 - Balancing of Mechanisms using Counterweights
Link Theory of Mechanism Lecture 35 - Balancing of Mechanisms using Springs
Link Theory of Mechanism Lecture 36 - Spatial Mechanisms
Link Theory of Mechanism Lecture 37 - Introduction to the Kinematics of Spatial Mechanisms
Link NOC:Engineering Mechanics Lecture 1 - Introduction to Engineering Mechanics - I
Link NOC:Engineering Mechanics Lecture 2 - Introduction to Engineering Mechanics - II
Link NOC:Engineering Mechanics Lecture 3 - Force Systems - I
Link NOC:Engineering Mechanics Lecture 4 - Force Systems - II
Link NOC:Engineering Mechanics Lecture 5 - Equilibrium of Rigid bodies - I
Link NOC:Engineering Mechanics Lecture 6 - Equilibrium of Rigid bodies - II
Link NOC:Engineering Mechanics Lecture 7 - Trusses - I
Link NOC:Engineering Mechanics Lecture 8 - Trusses - II
Link NOC:Engineering Mechanics Lecture 9 - Trusses - III
Link NOC:Engineering Mechanics Lecture 10 - Beams - I
Link NOC:Engineering Mechanics Lecture 11 - Beams - II
Link NOC:Engineering Mechanics Lecture 12 - Beams - III
Link NOC:Engineering Mechanics Lecture 13 - Beams - IV
Link NOC:Engineering Mechanics Lecture 14 - Virtual Work - I
Link NOC:Engineering Mechanics Lecture 15 - Virtual Work - II
Link NOC:Engineering Mechanics Lecture 16 - Energy Relations
Link NOC:Engineering Mechanics Lecture 17 - Review Before Quiz - I
Link NOC:Engineering Mechanics Lecture 18 - Friction - I
Link NOC:Engineering Mechanics Lecture 19 - Friction - II
Link NOC:Engineering Mechanics Lecture 20 - Friction - III
Link NOC:Engineering Mechanics Lecture 21 - Particle Dynamics
Link NOC:Engineering Mechanics Lecture 22 - Circular Motion
Link NOC:Engineering Mechanics Lecture 23 - Absolute Motion
Link NOC:Engineering Mechanics Lecture 24 - Relative Motion - I
Link NOC:Engineering Mechanics Lecture 25 - Relative Motion - II
Link NOC:Engineering Mechanics Lecture 26 - Relative Motion - III and Instantaneous Center
Link NOC:Engineering Mechanics Lecture 27 - Rotating frame of reference I - Velocity
Link NOC:Engineering Mechanics Lecture 28 - Rotating frame of reference II - Acceleration
Link NOC:Engineering Mechanics Lecture 29 - Rotating frame of reference III - Choice of rotating frame of reference
Link NOC:Engineering Mechanics Lecture 30 - RFR- IV Crank and slotted bar
Link NOC:Engineering Mechanics Lecture 31 - RFR-V Understanding Coriolis Acceleration
Link NOC:Engineering Mechanics Lecture 32 - Kinetics - I
Link NOC:Engineering Mechanics Lecture 33 - Kinetics - II
Link NOC:Engineering Mechanics Lecture 34 - Kinetics - III
Link NOC:Engineering Mechanics Lecture 35 - 3D Kinematics - I
Link NOC:Engineering Mechanics Lecture 36 - 3D Kinematics - II
Link NOC:Engineering Mechanics Lecture 37 - 3D Kinematics - III
Link Advanced Manufacturing Processes Lecture 1 - Manufacturing and Manufacturing Systems
Link Advanced Manufacturing Processes Lecture 2 - Manufacturing Trends and Challenges
Link Advanced Manufacturing Processes Lecture 3 - Manufacturing Aspects, Selection and Classification
Link Advanced Manufacturing Processes Lecture 4 - Description and Taxonomy of the Mfg. Processes
Link Advanced Manufacturing Processes Lecture 5 - Metal Casting basics, Gating and Risering design
Link Advanced Manufacturing Processes Lecture 6 - Evaporative Pattern Casting Process (EPC)
Link Advanced Manufacturing Processes Lecture 7 - Continuous, Permanent mold, Centrifugal and Pressure Die Casting
Link Advanced Manufacturing Processes Lecture 8 - Hybrid EPC Processes and Vacuum EPC Process
Link Advanced Manufacturing Processes Lecture 9 - Set-up of VEPC and Investment Casting Processes
Link Advanced Manufacturing Processes Lecture 10 - Ceramic Shell Investment Casting Process
Link Advanced Manufacturing Processes Lecture 11 - Shell Molding Process
Link Advanced Manufacturing Processes Lecture 12 - Abrasive Flow Machining
Link Advanced Manufacturing Processes Lecture 13 - Mechanism of Material Removal in AFM and Variant processes in AFM
Link Advanced Manufacturing Processes Lecture 14 - Abrasive Jet Machining (AJM)
Link Advanced Manufacturing Processes Lecture 15 - Water Jet and Abrasive Water Jet Machining
Link Advanced Manufacturing Processes Lecture 16 - Ultrasonic Machining Process (USM)
Link Advanced Manufacturing Processes Lecture 17 - Mechanism, Processes Variants and applications of USM
Link Advanced Manufacturing Processes Lecture 18 - Micro USM and advances in USM
Link Advanced Manufacturing Processes Lecture 19 - Electric Discharge Machining (EDM) Process
Link Advanced Manufacturing Processes Lecture 20 - Die-Sinker EDM and Wire Cut Electric Discharge Machining (WEDM)
Link Advanced Manufacturing Processes Lecture 21 - Variant Processes in EDM
Link Advanced Manufacturing Processes Lecture 22 - Electro Chemical Discharge Machining (ECDM)
Link Advanced Manufacturing Processes Lecture 23 - Laser Beam Machining (LBM)
Link Advanced Manufacturing Processes Lecture 24 - Equipment and Process Parameters in LBM
Link Advanced Manufacturing Processes Lecture 25 - Electrochemical Machining (ECM)
Link Advanced Manufacturing Processes Lecture 26 - ECM Kinematics and Tool Design
Link Advanced Manufacturing Processes Lecture 27 - The Subsystems in ECM, advantages and applications
Link Advanced Manufacturing Processes Lecture 28 - Variant Processes in ECM: ECG, ECH, ECDe and STEM
Link Advanced Manufacturing Processes Lecture 29 - Electron Beam, Plasma Beam and Ion Beam Machining
Link Advanced Manufacturing Processes Lecture 30 - Submerged Arc Welding (SAW)
Link Advanced Manufacturing Processes Lecture 31 - Resistance Welding Process
Link Advanced Manufacturing Processes Lecture 32 - Solid State Welding processes
Link Advanced Manufacturing Processes Lecture 33 - Friction Welding process
Link Advanced Manufacturing Processes Lecture 34 - Electron Beam and Plasma Welding Processes
Link Advanced Manufacturing Processes Lecture 35 - Laser Beam welding and Diffusion welding processes
Link Advanced Manufacturing Processes Lecture 36 - High Energy Rate Forming Processes
Link Advanced Manufacturing Processes Lecture 37 - Rapid Prototyping Technology (RPT)
Link Advanced Manufacturing Processes Lecture 38 - Rapid Manufacturing, applications and advancements
Link Advanced Manufacturing Processes Lecture 39 - Microwave Processing of Materials
Link Advanced Manufacturing Processes Lecture 40 - Applications and new trends in Microwave Material Processing
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 1 - General Introduction: Historical Background and Spectrum of Applications
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 2 - CFD: Simulation Process and Course Outline
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 3 - Conservation Laws and Mathematical Preliminaries
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 4 - Mass Conservation: Continuity Equation
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 5 - Momentum Equation: Newton’s 2nd Law
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 6 - Momentum Equation: Navier-Stokes Equations
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 7 - Navier-Stokes Equation and its Simplified Forms
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 8 - Energy and Scalar Transport Equations
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 9 - Scalar Transport, Mathematical Classification and Boundary Conditions
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 10 - Finite Difference Method: Methodology and Grid Notation
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 11 - Finite Difference Approximation of First Order Derivatives
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 12 - Finite Difference Approximation of Second Order Derivatives - 1
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 13 - Finite Difference Approximation of Second Order Derivatives - 2
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 14 - Approximation of Mixed Derivatives and Multi-Dimensional F.D. Formulae
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 15 - Implementation of Boundary Conditions and Finite Difference Algebraic System
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 16 - Applications of FDM to Scalar Transport Problems - 1
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 17 - Applications of FDM to Scalar Transport Problems - 2
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 18 - Application of FDM to Advection-Diffusion and Computer Implementation Aspects
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 19 - Computer Implementation of FDM for Steady State Heat Diffusion Problems - 1
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 20 - Computer Implementation of FDM for Steady State Heat Diffusion Problems - 2
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 21 - Computer Implementation of FDM for Steady State Heat Diffusion Problems - 3
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 22 - Solution of Discrete Algebraic Systems
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 23 - Direct and Basic Iterative Methods for Linear Systems
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 24 - Accelerated Iterative Methods for Linear Systems
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 25 - Two Level and Multi-Level Methods for First Order IVPs - 1
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 26 - Two Level and Multi-Level Methods for First Order IVPs - 2
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 27 - Application to Unsteady Transport Problems
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 28 - Introduction to Finite Volume Method
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 29 - Finite Volume Interpolation Schemes
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 30 - Application of FVM to Scalar Transport
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 31 - Introduction to Finite Element Method
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 32 - Finite Element Shape Functions and Numerical Integration - 1
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 33 - Finite Element Shape Functions and Numerical Integration - 2
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 34 - Application of FEM to Scalar Transport
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 35 - Special Features of Navier-Stokes Equations
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 36 - Time Integration Techniques for Navier-Stokes Equations
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 37 - Implicit Pressure Correction Methods
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 38 - SIMPLEC, SIMPLER and Fractional Step Methods
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 39 - Turbulent Flows: Features and Simulation Strategies
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 40 - Reynolds Averaging and RANS Simulation Models
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 41 - RANS Turbulence Models and Large Eddy Simulation
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 42 - Introduction to Grid Generation
Link Computational Fluid Dynamics (Dr. K.M. Singh) Lecture 43 - Aspects of Practical CFD Analysis
Link Metal Casting Lecture 1 - Introduction
Link Metal Casting Lecture 2 - Overview of different casting processes - 1
Link Metal Casting Lecture 3 - Overview of different casting processes - 2
Link Metal Casting Lecture 4 - Overview of different casting processes - 3
Link Metal Casting Lecture 5 - Terminology and Tools of Sand Moulding
Link Metal Casting Lecture 6 - Moulding Sands and Design - 1
Link Metal Casting Lecture 7 - Moulding Sands and Design - 2
Link Metal Casting Lecture 8 - Moulding Sands Properties
Link Metal Casting Lecture 9 - Moulding Sand Properties Testing
Link Metal Casting Lecture 10 - Cores and Core Sands
Link Metal Casting Lecture 11 - Patterns and Allowances
Link Metal Casting Lecture 12 - Steps Involved in Making a Sand Casting
Link Metal Casting Lecture 13 - Design of Risering System - 1
Link Metal Casting Lecture 14 - Design of Risering System - 2
Link Metal Casting Lecture 15 - Design of Risering System - 3
Link Metal Casting Lecture 16 - Design of Risering System - 4
Link Metal Casting Lecture 17 - Design of Risering System - 5
Link Metal Casting Lecture 18 - Design of Gating System - 1
Link Metal Casting Lecture 19 - Design of Gating System - 2
Link Metal Casting Lecture 20 - Sand Casting Defects - 1
Link Metal Casting Lecture 21 - Sand Casting Defects - 2
Link Metal Casting Lecture 22 - Melting Furnaces and Practice
Link Metal Casting Lecture 23 - Treatment of Molten Metal
Link Metal Casting Lecture 24 - Fluidity of Molten Metal
Link Metal Casting Lecture 25 - Solidification
Link Metal Casting Lecture 26 - Cast Irons and Steels
Link Metal Casting Lecture 27 - Aluminum and Magnesium Cast Alloys
Link Metal Casting Lecture 28 - Copper, Zinc and Titanium Cast Alloys
Link Metal Casting Lecture 29 - Die Casting Process - I
Link Metal Casting Lecture 30 - Die Casting Process - II
Link Metal Casting Lecture 31 - Investment Casting Process - I
Link Metal Casting Lecture 32 - Investment Casting Process - II
Link Metal Casting Lecture 33 - Continuous Casting Process
Link Metal Casting Lecture 34 - Centrifugal Casting Process
Link Metal Casting Lecture 35 - Evaporative Pattern Casting and Plaster Moulding
Link Metal Casting Lecture 36 - Vacuum Sealed Moulding and Squeeze Casting
Link Metal Casting Lecture 37 - Shakeout, Fettling and Finishing
Link Metal Casting Lecture 38 - Inspection, Testing and Quality Control
Link Metal Casting Lecture 39 - Design Consideration and Economics
Link Metal Casting Lecture 40 - Environment, Health and Safety Aspects
Link Processing of non metals Lecture 1 - Engineering Materials and Processing Techniques: Introduction
Link Processing of non metals Lecture 2 - Properties of Non-Metals
Link Processing of non metals Lecture 3 - Glass Structure and Properties
Link Processing of non metals Lecture 4 - Glass Processing - I
Link Processing of non metals Lecture 5 - Glass Processing - II
Link Processing of non metals Lecture 6 - Ceramics - I
Link Processing of non metals Lecture 7 - Ceramics - II
Link Processing of non metals Lecture 8 - Ceramic Powder Preparation
Link Processing of non metals Lecture 9 - Ceramic Powder Preparation – I
Link Processing of non metals Lecture 10 - Processing of Ceramic Parts ? Pressing
Link Processing of non metals Lecture 11 - Processing of Ceramic Parts – II
Link Processing of non metals Lecture 12 - Ceramics: Secondary Processing
Link Processing of non metals Lecture 13 - Thermoplastics and Thermosets
Link Processing of non metals Lecture 14 - Processing of Plastics
Link Processing of non metals Lecture 15 - Extrusion of Plastics
Link Processing of non metals Lecture 16 - Transfer Molding and Compression Molding
Link Processing of non metals Lecture 17 - Injection Molding
Link Processing of non metals Lecture 18 - Thermoforming
Link Processing of non metals Lecture 19 - Rotational Molding and Blow Molding
Link Processing of non metals Lecture 20 - Composite Materials
Link Processing of non metals Lecture 21 - Composite Materials: Classification and Applications
Link Processing of non metals Lecture 22 - Processing of Polymer Matrix Composites
Link Processing of non metals Lecture 23 - Hand Lay-up and Spray Lay-up
Link Processing of non metals Lecture 24 - Pultrusion
Link Processing of non metals Lecture 25 - Compression Molding
Link Processing of non metals Lecture 26 - Filament Winding
Link Processing of non metals Lecture 27 - Injection Molding-1
Link Processing of non metals Lecture 28 - Pre-pregging and Sheet Molding Compounds
Link Processing of non metals Lecture 29 - Resin Transfer Molding and Autoclave Molding
Link Processing of non metals Lecture 30 - Ceramic Matrix Composites
Link Processing of non metals Lecture 31 - Ceramic Matrix Composites: Fundamentals and Properties
Link Processing of non metals Lecture 32 - Powder Processing: Ceramic Matrix Composites
Link Processing of non metals Lecture 33 - Chemical Vapour Infiltration
Link Processing of non metals Lecture 34 - Ceramic Matrix Composites: Processing-1
Link Processing of non metals Lecture 35 - Ceramic Matrix Composites: Post Processing
Link Processing of non metals Lecture 36 - Drilling of Polymer Matrix Composites
Link Processing of non metals Lecture 37 - Hole Making Techniques for Polymer Matrix Composites
Link Processing of non metals Lecture 38 - Joining of Polymer Matrix Composites
Link Processing of non metals Lecture 39 - Microwave Joining of Polymer Matrix Composites
Link Processing of non metals Lecture 40 - Research Tools for Secondary Processing
Link Vibration control Lecture 1 - Basics of Vibrations for Simple Mechanical Systems
Link Vibration control Lecture 2 - Introduction to Damping in Free and Force Vibrations
Link Vibration control Lecture 3 - Free and Forced Vibrations of Two Degree of Systems
Link Vibration control Lecture 4 - Multi Degree of Freedom Systems
Link Vibration control Lecture 5 - Reduction at source - 1
Link Vibration control Lecture 6 - Reduction at source - 2
Link Vibration control Lecture 7 - Reduction at source - 3
Link Vibration control Lecture 8 - Feedback Control System - 1
Link Vibration control Lecture 9 - Shunt Damping
Link Vibration control Lecture 10 - Vibration Isolation - 1
Link Vibration control Lecture 11 - Vibration Isolation - 2
Link Vibration control Lecture 12 - Vibration Isolation - 3
Link Vibration control Lecture 13 - Source Classification
Link Vibration control Lecture 14 - Self Excitation Vibration
Link Vibration control Lecture 15 - Flow Induction Vibration
Link Vibration control Lecture 16 - Field Balancing of Rigid / Flexible Rotors
Link Vibration control Lecture 17 - Damping: Models and Measures - I
Link Vibration control Lecture 18 - Damping: Models and Measures - II
Link Vibration control Lecture 19 - Numerical Problems
Link Vibration control Lecture 20 - Design Sensitivity - I
Link Vibration control Lecture 21 - Design Specification
Link Vibration control Lecture 22 - Design for Enhanced Material Damping
Link Vibration control Lecture 23 - Basics of Passive Vibration Control
Link Vibration control Lecture 24 - Design of Absorber
Link Vibration control Lecture 25 - Shock Absorber
Link Vibration control Lecture 26 - Isolators with Stiffness and Damping
Link Vibration control Lecture 27 - Basics of Active Vibration Control
Link Vibration control Lecture 28 - Piezoelectric Material - I
Link Vibration control Lecture 29 - Piezoelectric Material - II: Applications
Link Vibration control Lecture 30 - Piezoelectric Accelerometers
Link Vibration control Lecture 31 - Electro-rheological (ER) Fluids
Link Vibration control Lecture 32 - Magneto-rheological (MR) Fluids
Link Vibration control Lecture 33 - Magneto and Electrostrictive Materials
Link Vibration control Lecture 34 - Shape Memory Alloy
Link Vibration control Lecture 35 - Electro-Magnetics
Link Vibration control Lecture 36 - Numerical Problems
Link Vibration control Lecture 37 - Basics of Vibration Measurement System
Link Vibration control Lecture 38 - Data Acquisition
Link Vibration control Lecture 39 - Fourier Transformation
Link Vibration control Lecture 40 - Filters
Link Welding Engineering Lecture 1 - Introduction to Welding Engineering
Link Welding Engineering Lecture 2 - Classification of Welding Processes - I
Link Welding Engineering Lecture 3 - Classification of Welding Processes - II
Link Welding Engineering Lecture 4 - Sources of Heat and Protection of Weld pool
Link Welding Engineering Lecture 5 - Protection of Weld Pool
Link Welding Engineering Lecture 6 - Introduction
Link Welding Engineering Lecture 7 - Fundamentals of Arc Initiation
Link Welding Engineering Lecture 8 - Arc Maintenance & Arc Characteristics
Link Welding Engineering Lecture 9 - Arc Forces
Link Welding Engineering Lecture 10 - Arc Efficiency
Link Welding Engineering Lecture 11 - Melting Rate in Different Welding Processes
Link Welding Engineering Lecture 12 - Types of power sources and their characteristics - I
Link Welding Engineering Lecture 13 - Types of power sources and their characteristics - II
Link Welding Engineering Lecture 14 - SMAW - I
Link Welding Engineering Lecture 15 - SMAW - II
Link Welding Engineering Lecture 16 - GTAW - I
Link Welding Engineering Lecture 17 - GTAW - II
Link Welding Engineering Lecture 18 - PAW & SAW
Link Welding Engineering Lecture 19 - SAW
Link Welding Engineering Lecture 20 - GMAW
Link Welding Engineering Lecture 21 - Brazing, Soldering & Braze Welding
Link Welding Engineering Lecture 22 - Braze welding and Electroslag welding
Link Welding Engineering Lecture 23 - Weld Thermal Cycle
Link Welding Engineering Lecture 24 - Effect of WTC and Cooling rate in welding
Link Welding Engineering Lecture 25 - Cooling rate
Link Welding Engineering Lecture 26 - Peak temperature & Solidification rate
Link Welding Engineering Lecture 27 - Residual stress - I
Link Welding Engineering Lecture 28 - Residual stress - II
Link Welding Engineering Lecture 29 - Introduction
Link Welding Engineering Lecture 30 - Type of joints and welds
Link Welding Engineering Lecture 31 - Edge preparation
Link Welding Engineering Lecture 32 - Design for static and fatigue loading
Link Welding Engineering Lecture 33 - Fatigue fracture of weld joints - I
Link Welding Engineering Lecture 34 - Fatigue fracture of weld joints - II
Link Welding Engineering Lecture 35 - Introduction-
Link Welding Engineering Lecture 36 - DT & NDT
Link Welding Engineering Lecture 37 - Understanding Weldability
Link Welding Engineering Lecture 38 - Reactions in weldment
Link Welding Engineering Lecture 39 - Weldability of Al alloys
Link Welding Engineering Lecture 40 - Failure analysis and prevention
Link Industrial Engineering Lecture 1 - Production Planning and Control
Link Industrial Engineering Lecture 2 - Product Design and Development
Link Industrial Engineering Lecture 3 - Statistical Process Control - Part I
Link Industrial Engineering Lecture 4 - Statistical Process Control - Part II
Link Industrial Engineering Lecture 5 - Statistical Process Control - Part III
Link Industrial Engineering Lecture 6 - Productivity
Link Industrial Engineering Lecture 7 - Factors Affecting the Productivity
Link Industrial Engineering Lecture 8 - Improving the Productivity Introduction to Work Study
Link Industrial Engineering Lecture 9 - Work Study Human Component and Method Study
Link Industrial Engineering Lecture 10 - Recording Techniques for Method Study - Part I
Link Industrial Engineering Lecture 11 - Recording Techniques for Method Study - Part II
Link Industrial Engineering Lecture 12 - Recording Techniques Critical Examination
Link Industrial Engineering Lecture 13 - Principles of Motion Economy
Link Industrial Engineering Lecture 14 - Work Measurement Time Study - Part I
Link Industrial Engineering Lecture 15 - Work Measurement Time Study - Part II
Link Industrial Engineering Lecture 16 - Performance Rating Allowances
Link Industrial Engineering Lecture 17 - Work Measurement: Work Sampling
Link Industrial Engineering Lecture 18 - PMT System Standard Data Method
Link Industrial Engineering Lecture 19 - Ergonomics
Link Industrial Engineering Lecture 20 - Metabolism and Organization at Work
Link Industrial Engineering Lecture 21 - Working Conditions Lights Vibrations
Link Industrial Engineering Lecture 22 - Materials Management - Part I
Link Industrial Engineering Lecture 23 - Materials Management - Part II
Link Industrial Engineering Lecture 24 - Materials Requirement Planning
Link Industrial Engineering Lecture 25 - Sales Forecasting - Part I
Link Industrial Engineering Lecture 26 - Sales Forecasting - Part II
Link Industrial Engineering Lecture 27 - Capacity Planning - Part I
Link Industrial Engineering Lecture 28 - Capacity Planning - Part II
Link Industrial Engineering Lecture 29 - Network Analysis - Part I
Link Industrial Engineering Lecture 30 - Network Analysis - Part II
Link Industrial Engineering Lecture 31 - Facility Design Part - Part I
Link Industrial Engineering Lecture 32 - Facility Design Part - Part II
Link Industrial Engineering Lecture 33 - Facility Design Part - Part III
Link Industrial Engineering Lecture 34 - Facility Design Part - Part IV
Link Industrial Engineering Lecture 35 - Product Design Development
Link Industrial Engineering Lecture 36 - Materials Handling
Link Industrial Engineering Lecture 37 - Quality Concepts
Link Industrial Engineering Lecture 38 - Value Engineering
Link Industrial Engineering Lecture 39 - Reliability
Link Industrial Engineering Lecture 40 - Industrial Safety
Link Manufacturing Processes I Lecture 1 - Powder Metallurgy - Part I
Link Manufacturing Processes I Lecture 2 - Powder Metallurgy - Part II
Link Manufacturing Processes I Lecture 3 - Powder Metallurgy - Part III
Link Manufacturing Processes I Lecture 4 - Metal Forming - Fundamentals
Link Manufacturing Processes I Lecture 5 - Forging
Link Manufacturing Processes I Lecture 6 - Swaging and Wire Drawing
Link Manufacturing Processes I Lecture 7 - Sheet Metal Operations - Part I
Link Manufacturing Processes I Lecture 8 - Sheet Metal Operations - Part II
Link Manufacturing Processes I Lecture 9 - Sheet Metal Operations - Part III
Link Manufacturing Processes I Lecture 10 - Sheet Metal Working - Presses
Link Manufacturing Processes I Lecture 11 - Sheet Metal Working - Equipment
Link Manufacturing Processes I Lecture 12 - High Energy Rate Forming Processes
Link Manufacturing Processes I Lecture 13 - Machining Fundamentals
Link Manufacturing Processes I Lecture 14 - Machining - Part I
Link Manufacturing Processes I Lecture 15 - Machining - Part II
Link Manufacturing Processes I Lecture 16 - Machining - Part III
Link Manufacturing Processes I Lecture 17 - Metal casting - Part I
Link Manufacturing Processes I Lecture 18 - Metal casting - Part II
Link Manufacturing Processes I Lecture 19 - Metal Casting - Part III
Link Manufacturing Processes I Lecture 20 - Metal Casting - Part IV
Link Manufacturing Processes I Lecture 21 - Metal Casting - Part V
Link Manufacturing Processes I Lecture 22 - Metal Casting - Part VI
Link Manufacturing Processes I Lecture 23 - Metal Casting - Part VII
Link Manufacturing Processes I Lecture 24 - Metal Casting - Part VIII
Link Manufacturing Processes I Lecture 25 - Metal Casting - Part IX
Link Manufacturing Processes I Lecture 26 - Metal Casting - Part X
Link Manufacturing Processes I Lecture 27 - Introduction
Link Manufacturing Processes I Lecture 28 - Welding Process Classification
Link Manufacturing Processes I Lecture 29 - Brazing Soldering Braze Welding
Link Manufacturing Processes I Lecture 30 - Arc Welding Power Source - Part I
Link Manufacturing Processes I Lecture 31 - Arc Welding Power Source - Part II
Link Manufacturing Processes I Lecture 32 - Shielded Metal Arc Welding - Part I
Link Manufacturing Processes I Lecture 33 - Shielded Metal Arc Welding - Part II
Link Manufacturing Processes I Lecture 34 - Submerged Arc Welding
Link Manufacturing Processes I Lecture 35 - Gas Metal Arc Welding - Part I
Link Manufacturing Processes I Lecture 36 - Gas Metal Arc Welding - Part II
Link Manufacturing Processes I Lecture 37 - Tungsten Inert Gas Welding - Part I
Link Manufacturing Processes I Lecture 38 - Tungsten Inert Gas Welding - Part II
Link Manufacturing Processes I Lecture 39 - Resistance Welding Process
Link Manufacturing Processes I Lecture 40 - Reaction in Weld Region Welding Defects
Link Strength of Materials Lecture 1 - Solid Mechanics
Link Strength of Materials Lecture 2 - Strength of Materials
Link Strength of Materials Lecture 3 - Strength of Materials
Link Strength of Materials Lecture 4 - Solid Mechanics
Link Strength of Materials Lecture 5 - Strength of Materials
Link Strength of Materials Lecture 6 - Strength of Materials
Link Strength of Materials Lecture 7 - Strength of Materials
Link Strength of Materials Lecture 8 - Strength of Materials
Link Strength of Materials Lecture 9 - Strength of Materials
Link Strength of Materials Lecture 10 - Strength of Materials
Link Strength of Materials Lecture 11 - Strength of Materials
Link Strength of Materials Lecture 12 - Strength of Materials
Link Strength of Materials Lecture 13 - Strength of Materials
Link Strength of Materials Lecture 14 - Strength of Materials
Link Strength of Materials Lecture 15 - Strength of Materials
Link Strength of Materials Lecture 16 - Strength of Materials
Link Strength of Materials Lecture 17 - Strength of Materials
Link Strength of Materials Lecture 18 - Strength of Materials
Link Strength of Materials Lecture 19 - Strength of Materials
Link Strength of Materials Lecture 20 - Strength of Materials
Link Strength of Materials Lecture 21 - Strength of Materials
Link Strength of Materials Lecture 22 - Strength of Materials
Link Strength of Materials Lecture 23 - Strength of Materials
Link Strength of Materials Lecture 24 - Strength of Materials
Link Strength of Materials Lecture 25 - Strength of Materials
Link Strength of Materials Lecture 26 - Strength of Materials
Link Strength of Materials Lecture 27 - Strength of Materials
Link Strength of Materials Lecture 28 - Strength of Materials
Link Strength of Materials Lecture 29 - Strength of Materials
Link Strength of Materials Lecture 30 - Strength of Materials
Link Strength of Materials Lecture 31 - Strength of Materials
Link Strength of Materials Lecture 32 - Strength of Materials
Link Strength of Materials Lecture 33 - Strength of Materials
Link Strength of Materials Lecture 34 - Strength of Materials
Link Strength of Materials Lecture 35 - Strength of Materials
Link Strength of Materials Lecture 36 - Strength of Materials
Link Strength of Materials Lecture 37 - Strength of Materials
Link Strength of Materials Lecture 38 - Strength of Materials
Link Strength of Materials Lecture 39 - Strength of Materials
Link Strength of Materials Lecture 40 - Strength of Materials
Link NOC:Two Phase Flow and Heat Transfer Lecture 1 - Introduction
Link NOC:Two Phase Flow and Heat Transfer Lecture 2 - Flow Regimes
Link NOC:Two Phase Flow and Heat Transfer Lecture 3 - Homogeneous Model
Link NOC:Two Phase Flow and Heat Transfer Lecture 4 - Drift Flux Model
Link NOC:Two Phase Flow and Heat Transfer Lecture 5 - Separated Flow Model
Link NOC:Two Phase Flow and Heat Transfer Lecture 6 - Dispersed Flow
Link NOC:Two Phase Flow and Heat Transfer Lecture 7 - Slug Flow
Link NOC:Two Phase Flow and Heat Transfer Lecture 8 - Annular Flow
Link NOC:Two Phase Flow and Heat Transfer Lecture 9 - Droplet Annular and Stratified Flow
Link NOC:Two Phase Flow and Heat Transfer Lecture 10 - Measurement of Void Fraction
Link NOC:Two Phase Flow and Heat Transfer Lecture 11 - Signal Analysis
Link NOC:Two Phase Flow and Heat Transfer Lecture 12 - Two Fluid and Population Balance Model
Link NOC:Two Phase Flow and Heat Transfer Lecture 13 - Interface Tracking
Link NOC:Two Phase Flow and Heat Transfer Lecture 14 - Lattice Boltzmann Method
Link NOC:Two Phase Flow and Heat Transfer Lecture 15 - Smoothed Particle Hydrodynamics
Link NOC:Two Phase Flow and Heat Transfer Lecture 16 - Molecular Perspective of Two Phase Flow
Link NOC:Two Phase Flow and Heat Transfer Lecture 17 - Boiling Heat Transfer
Link NOC:Two Phase Flow and Heat Transfer Lecture 18 - Condensation
Link NOC:Two Phase Flow and Heat Transfer Lecture 19 - Solid-Liquid Flow
Link NOC:Two Phase Flow and Heat Transfer Lecture 20 - Gas-Solid Flow
Link NOC:Refrigeration and Air-Conditioning Lecture 1 - Recapitulation of Thermodynamics
Link NOC:Refrigeration and Air-Conditioning Lecture 2 - Introduction to Refrigeration
Link NOC:Refrigeration and Air-Conditioning Lecture 3 - Air Refrigeration Cycle
Link NOC:Refrigeration and Air-Conditioning Lecture 4 - Aircraft Refrigeration Cycles - 1
Link NOC:Refrigeration and Air-Conditioning Lecture 5 - Aircraft Refrigeration Cycles - 2
Link NOC:Refrigeration and Air-Conditioning Lecture 6 - Aircraft Refrigeration Cycles - 3
Link NOC:Refrigeration and Air-Conditioning Lecture 7 - Vapour Compression Cycle - 1
Link NOC:Refrigeration and Air-Conditioning Lecture 8 - Vapour Compression Cycle - 2
Link NOC:Refrigeration and Air-Conditioning Lecture 9 - P-h Charts
Link NOC:Refrigeration and Air-Conditioning Lecture 10 - Actual Vapour Compression Cycle - 1
Link NOC:Refrigeration and Air-Conditioning Lecture 11 - Actual Vapour Compression Cycle - 2
Link NOC:Refrigeration and Air-Conditioning Lecture 12 - Compound Compression with Intercooling - 1
Link NOC:Refrigeration and Air-Conditioning Lecture 13 - Compound Compression with Intercooling - 2
Link NOC:Refrigeration and Air-Conditioning Lecture 14 - Multiple Evaporator and Cascade System
Link NOC:Refrigeration and Air-Conditioning Lecture 15 - Problem Solving - 1
Link NOC:Refrigeration and Air-Conditioning Lecture 16 - Refrigerants - 1
Link NOC:Refrigeration and Air-Conditioning Lecture 17 - Refrigerants - 2
Link NOC:Refrigeration and Air-Conditioning Lecture 18 - Vpour Absorption Systems - 1
Link NOC:Refrigeration and Air-Conditioning Lecture 19 - Vpour Absorption Systems - 2
Link NOC:Refrigeration and Air-Conditioning Lecture 20 - Vpour Absorption Systems - 3
Link NOC:Refrigeration and Air-Conditioning Lecture 21 - Introduction to Air-conditioning
Link NOC:Refrigeration and Air-Conditioning Lecture 22 - Properties of Moist Air
Link NOC:Refrigeration and Air-Conditioning Lecture 23 - Psychrometric Chart
Link NOC:Refrigeration and Air-Conditioning Lecture 24 - Psychrometric Processes - 1
Link NOC:Refrigeration and Air-Conditioning Lecture 25 - Psychrometric Processes - 2
Link NOC:Refrigeration and Air-Conditioning Lecture 26 - Psychrometric Processes - 3
Link NOC:Refrigeration and Air-Conditioning Lecture 27 - Infiltration
Link NOC:Refrigeration and Air-Conditioning Lecture 28 - Design Conditions
Link NOC:Refrigeration and Air-Conditioning Lecture 29 - Cooling Load - 1
Link NOC:Refrigeration and Air-Conditioning Lecture 30 - Cooling Load - 2
Link NOC:Refrigeration and Air-Conditioning Lecture 31 - Cooling Load - 3
Link NOC:Refrigeration and Air-Conditioning Lecture 32 - Air Distribution System - 1
Link NOC:Refrigeration and Air-Conditioning Lecture 33 - Air Distribution System - 2
Link NOC:Refrigeration and Air-Conditioning Lecture 34 - Problem Solving - 2
Link NOC:Refrigeration and Air-Conditioning Lecture 35 - Air-Conditioning Systems
Link NOC:Refrigeration and Air-Conditioning Lecture 36 - Human Physiology
Link NOC:Refrigeration and Air-Conditioning Lecture 37 - Thermal Comfort
Link NOC:Refrigeration and Air-Conditioning Lecture 38 - Indoor Environmental Health - 1
Link NOC:Refrigeration and Air-Conditioning Lecture 39 - Indoor Environmental Health - 2
Link NOC:Refrigeration and Air-Conditioning Lecture 40 - Problem Solving - 3
Link NOC:Engineering Economic Analysis Lecture 1 - Introduction to Engineering Economy, Physical and Economic Environment, Phases in Engg. process
Link NOC:Engineering Economic Analysis Lecture 2 - Some economic concepts, Value and utility, Interest and Interest rate, Time value of money
Link NOC:Engineering Economic Analysis Lecture 3 - Interest formulas: Simple and compound interest, Cash flow diagrams
Link NOC:Engineering Economic Analysis Lecture 4 - Interest formulas for discrete compounding and discrete payments: Single payment (CAF and PWF)
Link NOC:Engineering Economic Analysis Lecture 5 - Interest formulas for discrete compounding and discrete payments: Equal payment series (CAF, CRF and PWF)
Link NOC:Engineering Economic Analysis Lecture 6 - Problem solving on discrete compounding, discrete payment
Link NOC:Engineering Economic Analysis Lecture 7 - Interest formulas for Uniform gradient series
Link NOC:Engineering Economic Analysis Lecture 8 - Interest formulas for geometric gradient series
Link NOC:Engineering Economic Analysis Lecture 9 - Compounding frequency of Interest: Nominal and Effective interest rates
Link NOC:Engineering Economic Analysis Lecture 10 - Problem solving on frequency compounding of interest and gradient series factors
Link NOC:Engineering Economic Analysis Lecture 11 - Economic equivalence: Meaning and principles of equivalence
Link NOC:Engineering Economic Analysis Lecture 12 - Equivalence calculations involving cash flows
Link NOC:Engineering Economic Analysis Lecture 13 - Methods of comparison of alternatives: Present worth, Annual equivalent, Future worth, Internal rate of return
Link NOC:Engineering Economic Analysis Lecture 14 - comparison of alternatives: Capitalized equivalent amount, Capital recovery with return
Link NOC:Engineering Economic Analysis Lecture 15 - Problem solving on equivalence and comparison of alternatives
Link NOC:Engineering Economic Analysis Lecture 16 - Replacement analysis: Reason, Concept of defender and challenger
Link NOC:Engineering Economic Analysis Lecture 17 - Proper treatment of sunk cost in replacement
Link NOC:Engineering Economic Analysis Lecture 18 - Replacement because of improved efficiency, inadequacy, demand etc.
Link NOC:Engineering Economic Analysis Lecture 19 - Problem solving on replacement analysis
Link NOC:Engineering Economic Analysis Lecture 20 - Economic life of the asset
Link NOC:Engineering Economic Analysis Lecture 21 - Depreciation: Definition, Reasons, Types of property, Value time function and book value
Link NOC:Engineering Economic Analysis Lecture 22 - Basic depreciation methods:S-L method, Declining balance method
Link NOC:Engineering Economic Analysis Lecture 23 - Depreciation: Declining balance switching to S-L, SOYD Method
Link NOC:Engineering Economic Analysis Lecture 24 - Modified accelerated cost recovery system (MACRS) method of depreciation, Depletion
Link NOC:Engineering Economic Analysis Lecture 25 - Depreciation: Units of production method, Depletion
Link NOC:Engineering Economic Analysis Lecture 26 - Problem solving based on Depreciation and Depletion
Link NOC:Engineering Economic Analysis Lecture 27 - Elements of cost: types of cost
Link NOC:Engineering Economic Analysis Lecture 28 - Breakeven analysis, Effect of fixed and variable cost on BEP.
Link NOC:Engineering Economic Analysis Lecture 29 - Economic order quantity
Link NOC:Engineering Economic Analysis Lecture 30 - Problem solving based on Breakeven analysis and EOQ
Link NOC:Engineering Economic Analysis Lecture 31 - Cost estimation: Methods of cost estimation, Adjustment of data, Learning
Link NOC:Engineering Economic Analysis Lecture 32 - cost estimating relationships
Link NOC:Engineering Economic Analysis Lecture 33 - Introduction to decision under risk Criteria for decision under risk
Link NOC:Engineering Economic Analysis Lecture 34 - Expected value decision making under risk
Link NOC:Engineering Economic Analysis Lecture 35 - Expected variance decision making under risk
Link NOC:Engineering Economic Analysis Lecture 36 - Problem solving based on decision under risk
Link NOC:Engineering Economic Analysis Lecture 37 - Income taxes: Principles and calculation of effective income tax rates
Link NOC:Engineering Economic Analysis Lecture 38 - Effect of method of depreciation on income taxes
Link NOC:Engineering Economic Analysis Lecture 39 - After tax economic analysis
Link NOC:Engineering Economic Analysis Lecture 40 - Problem solving based on Income tax analysis
Link NOC:Convective Heat Transfer Lecture 1 - Introduction
Link NOC:Convective Heat Transfer Lecture 2 - Balance of Total Energy
Link NOC:Convective Heat Transfer Lecture 3 - Different Forms of Thermal Energy Equation
Link NOC:Convective Heat Transfer Lecture 4 - Thermal Boundary Layer
Link NOC:Convective Heat Transfer Lecture 5 - Forced Convection : Low Prandtl Number over a Flat Plate
Link NOC:Convective Heat Transfer Lecture 6 - Forced Convection : High Prandtl Number over a Flat Plate
Link NOC:Convective Heat Transfer Lecture 7 - Forced Convection over a Flat Plate : Uniform Heat Flux
Link NOC:Convective Heat Transfer Lecture 8 - Natural Convection : Uniform Wall Temperature
Link NOC:Convective Heat Transfer Lecture 9 - Natural Convection : Uniform Heat Flux
Link NOC:Convective Heat Transfer Lecture 10 - Tutorial : Convection over Flat Plate
Link NOC:Convective Heat Transfer Lecture 11 - Forced Convection in Ducts
Link NOC:Convective Heat Transfer Lecture 12 - Thermally Developed Slug Flow in a Duct
Link NOC:Convective Heat Transfer Lecture 13 - Thermally and Hydrodynamically Developed Flow : Uniform Heat Flux
Link NOC:Convective Heat Transfer Lecture 14 - Thermally and Hydrodynamically Developed Flow : Uniform Wall Temperature
Link NOC:Convective Heat Transfer Lecture 15 - Thermal Entrance Region : Uniform Wall Temperature
Link NOC:Convective Heat Transfer Lecture 16 - Thermal Entrance Region : Uniform Heat Flux
Link NOC:Convective Heat Transfer Lecture 17 - Rayleigh Benard Convection
Link NOC:Convective Heat Transfer Lecture 18 - Heat Transfer with Phase Change
Link NOC:Convective Heat Transfer Lecture 19 - Mass Transfer
Link NOC:Convective Heat Transfer Lecture 20 - Tutorial : Convection inside Duct and Mass Transfer
Link NOC:Introduction to Mechanical Vibration Lecture 1 - Lesson 1 - Introduction
Link NOC:Introduction to Mechanical Vibration Lecture 2 - Lesson 2 - Addition of two harmonic motions and beat phenomenon
Link NOC:Introduction to Mechanical Vibration Lecture 3 - Lesson 3 - Fourier series and harmonic analysis
Link NOC:Introduction to Mechanical Vibration Lecture 4 - Lesson 4 - Vibration analysis procedure
Link NOC:Introduction to Mechanical Vibration Lecture 5 - Lesson 5 - Numerical problems
Link NOC:Introduction to Mechanical Vibration Lecture 6 - Lesson 1 - Undamped free vibration
Link NOC:Introduction to Mechanical Vibration Lecture 7 - Lesson 2 - Energy method
Link NOC:Introduction to Mechanical Vibration Lecture 8 - Lesson 3 - Damped free vibration
Link NOC:Introduction to Mechanical Vibration Lecture 9 - Lesson 4 - Viscous damped systems and logarithmic decrement
Link NOC:Introduction to Mechanical Vibration Lecture 10 - Lesson 5 - Coulomb damping
Link NOC:Introduction to Mechanical Vibration Lecture 11 - Lesson 1 - Harmonic excitations
Link NOC:Introduction to Mechanical Vibration Lecture 12 - Lesson 2 - Magnification factor and frequency response curve
Link NOC:Introduction to Mechanical Vibration Lecture 13 - Lesson 3 - Rotating unbalance
Link NOC:Introduction to Mechanical Vibration Lecture 14 - Lesson 4 - Excitation of the support
Link NOC:Introduction to Mechanical Vibration Lecture 15 - Lesson 5 - Energy input and dissipation by viscous damping
Link NOC:Introduction to Mechanical Vibration Lecture 16 - Lesson 1 - Coulomb damping and equivalent viscous damping
Link NOC:Introduction to Mechanical Vibration Lecture 17 - Lesson 2 - Structural damping and equivalent viscous damping
Link NOC:Introduction to Mechanical Vibration Lecture 18 - Lesson 3 - Vibration isolation and force transmissibility
Link NOC:Introduction to Mechanical Vibration Lecture 19 - Lesson 4 - Motion transmissibility
Link NOC:Introduction to Mechanical Vibration Lecture 20 - Lesson 5 - Numerical problems
Link NOC:Introduction to Mechanical Vibration Lecture 21 - Lesson 1 - Transducers and vibration pickup
Link NOC:Introduction to Mechanical Vibration Lecture 22 - Lesson 2 - Vibrometer
Link NOC:Introduction to Mechanical Vibration Lecture 23 - Lesson 3 - Accelerometer
Link NOC:Introduction to Mechanical Vibration Lecture 24 - Lesson 4 - Velocity pickup or Velometer
Link NOC:Introduction to Mechanical Vibration Lecture 25 - Lesson 5 - Phase distortion and frequency measurement
Link NOC:Introduction to Mechanical Vibration Lecture 26 - Lesson 1 - Undamped free vibration
Link NOC:Introduction to Mechanical Vibration Lecture 27 - Lesson 2 - Principal modes of vibration
Link NOC:Introduction to Mechanical Vibration Lecture 28 - Lesson 3 - Combined rectilinear and angular modes
Link NOC:Introduction to Mechanical Vibration Lecture 29 - Lesson 4 - Damped free vibration
Link NOC:Introduction to Mechanical Vibration Lecture 30 - Lesson 5 - Undamped forced vibration with harmonic excitation
Link NOC:Introduction to Mechanical Vibration Lecture 31 - Lesson 1 - Undamped dynamic vibration absorber
Link NOC:Introduction to Mechanical Vibration Lecture 32 - Lesson 2 - Tuned absorber
Link NOC:Introduction to Mechanical Vibration Lecture 33 - Lesson 3 - Numerical problems
Link NOC:Introduction to Mechanical Vibration Lecture 34 - Lesson 4 - Damped dynamic vibration absorber
Link NOC:Introduction to Mechanical Vibration Lecture 35 - Lesson 5 - Optimally tuned vibration absorber
Link NOC:Introduction to Mechanical Vibration Lecture 36 - Lesson 1 - Undamped free vibration
Link NOC:Introduction to Mechanical Vibration Lecture 37 - Lesson 2 - Eigen values and eigen vectors
Link NOC:Introduction to Mechanical Vibration Lecture 38 - Lesson 3 - Flexibility influence coefficients
Link NOC:Introduction to Mechanical Vibration Lecture 39 - Lesson 4 - Stiffness influence coefficients
Link NOC:Introduction to Mechanical Vibration Lecture 40 - Lesson 5 - Static and dynamic coupling
Link NOC:Joining Technologies of Commercial Importance Lecture 1 - Introduction: Manufacturing and Joining
Link NOC:Joining Technologies of Commercial Importance Lecture 2 - Fundamental mechanisms of Joining
Link NOC:Joining Technologies of Commercial Importance Lecture 3 - Classification of Joining Processes
Link NOC:Joining Technologies of Commercial Importance Lecture 4 - Heat Generation in Welding
Link NOC:Joining Technologies of Commercial Importance Lecture 5 - Protection of Weld Metal
Link NOC:Joining Technologies of Commercial Importance Lecture 6 - Principle of Fusion Welding Processes: Gas Welding
Link NOC:Joining Technologies of Commercial Importance Lecture 7 - Fundamentals of Welding
Link NOC:Joining Technologies of Commercial Importance Lecture 8 - Physics of Welding Arc
Link NOC:Joining Technologies of Commercial Importance Lecture 9 - Shielded Metal Arc Welding
Link NOC:Joining Technologies of Commercial Importance Lecture 10 - Gas Tungsten Arc Welding
Link NOC:Joining Technologies of Commercial Importance Lecture 11 - Newer variants of Gas tungsten arc welding
Link NOC:Joining Technologies of Commercial Importance Lecture 12 - Gas metal arc welding
Link NOC:Joining Technologies of Commercial Importance Lecture 13 - Submerged arc welding
Link NOC:Joining Technologies of Commercial Importance Lecture 14 - Electro-slag and Electro-gas welding
Link NOC:Joining Technologies of Commercial Importance Lecture 15 - Laser beam welding
Link NOC:Joining Technologies of Commercial Importance Lecture 16 - Brazing
Link NOC:Joining Technologies of Commercial Importance Lecture 17 - Soldering and braze welding
Link NOC:Joining Technologies of Commercial Importance Lecture 18 - Fundamentals of resistance welding
Link NOC:Joining Technologies of Commercial Importance Lecture 19 - Resistance welding processes: spot and seam welding
Link NOC:Joining Technologies of Commercial Importance Lecture 20 - Flash butt welding
Link NOC:Joining Technologies of Commercial Importance Lecture 21 - Adhesive joining
Link NOC:Joining Technologies of Commercial Importance Lecture 22 - Weld bonding
Link NOC:Joining Technologies of Commercial Importance Lecture 23 - Solid state joining technologies: Fundamentals
Link NOC:Joining Technologies of Commercial Importance Lecture 24 - Ultrasonic welding
Link NOC:Joining Technologies of Commercial Importance Lecture 25 - Diffusion welding
Link NOC:Joining Technologies of Commercial Importance Lecture 26 - Explosive welding
Link NOC:Joining Technologies of Commercial Importance Lecture 27 - Magnetic pulse welding
Link NOC:Joining Technologies of Commercial Importance Lecture 28 - Weld thermal cycle
Link NOC:Joining Technologies of Commercial Importance Lecture 29 - Heat affected zone and weld thermal cycle: I
Link NOC:Joining Technologies of Commercial Importance Lecture 30 - Heat affected zone and weld thermal cycle: II
Link NOC:Joining Technologies of Commercial Importance Lecture 31 - Solidification of weld metal
Link NOC:Joining Technologies of Commercial Importance Lecture 32 - Fundamentals of weldability of metals
Link NOC:Joining Technologies of Commercial Importance Lecture 33 - Weldability of carbon and alloys steels: Fe-C, CCT
Link NOC:Joining Technologies of Commercial Importance Lecture 34 - Weldabiliity of stainless steels
Link NOC:Joining Technologies of Commercial Importance Lecture 35 - Metallurgical transformations in weld and heat affected zone of steels
Link NOC:Joining Technologies of Commercial Importance Lecture 36 - Weldability of aluminium alloys
Link NOC:Joining Technologies of Commercial Importance Lecture 37 - Solidification cracking and their control
Link NOC:Joining Technologies of Commercial Importance Lecture 38 - Residual Stresses in Weld Joints
Link NOC:Joining Technologies of Commercial Importance Lecture 39 - Cracking of Welded Joints I: Solidification and liquation Cracks
Link NOC:Joining Technologies of Commercial Importance Lecture 40 - Cracking of Welded Joints II: Cold Cracks
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 1 - Introduction to Modelling
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 2 - Examples of models
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 3 - Modeling of Dynamic Systems
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 4 - Introduction to Simulation
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 5 - MATLAB as a Simulation tool
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 6 - Bond graphs modelling
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 7 - Bond graph model and causality
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 8 - Generation of System Equations
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 9 - Methods of Drawing bond graph models - Mechanical Systems
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 10 - Methods of Drawing bond graph models - Electrical Systems
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 11 - Basic System Models - Mechanical Systems
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 12 - Basic System Models - Electrical Systems
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 13 - Basic System Models - Hydraulic Systems
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 14 - Basic System Models - Pneumatic Systems
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 15 - Basic System Models - Thermal Systems
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 16 - System Models : Linearity and Non Linearity in Systems
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 17 - System Model of Combined Rotary and Translatory Systems
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 18 - System Model of Electro Mechanical Systems
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 19 - System Model of Hydro Mechanical Systems
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 20 - System Models of Robots
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 21 - Dynamic response of the 1st order system
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 22 - Dynamic response of 2nd order system
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 23 - Performance measures for 2nd order system
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 24 - System Transfer functions
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 25 - Transfer Function of 1st and 2nd Order System
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 26 - Block Diagram Algebra
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 27 - Signal Flow Graphs
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 28 - State Variable Formulation
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 29 - Frequency Response
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 30 - Bode Plot
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 31 - Simulation using SIMULINK
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 32 - Simulation of simple and compound pendulums
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 33 - Simulation of planar mechanisms
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 34 - Simulation of wheeled mobile robots
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 35 - Validation and Verification of Simulation Models
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 36 - Parameter estimation methods
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 37 - Parameter estimation examples
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 38 - System identifications
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 39 - Introduction to Optimization
Link NOC:Modelling and Simulation of Dynamic Systems Lecture 40 - Optimization with modeling of engineering problems
Link NOC:Principles of Casting Technology Lecture 1 - Introduction to Casting Technology
Link NOC:Principles of Casting Technology Lecture 2 - Mechanism of solidification
Link NOC:Principles of Casting Technology Lecture 3 - Solidification of Pure Metals and Alloys
Link NOC:Principles of Casting Technology Lecture 4 - Freeze Wave Mechanism and Solidification Time
Link NOC:Principles of Casting Technology Lecture 5 - Problem Solving on Solidification
Link NOC:Principles of Casting Technology Lecture 6 - Technology of pattern making
Link NOC:Principles of Casting Technology Lecture 7 - Allowances in pattern making
Link NOC:Principles of Casting Technology Lecture 8 - Moulding sands and its ingredients
Link NOC:Principles of Casting Technology Lecture 9 - Testing of molding sands
Link NOC:Principles of Casting Technology Lecture 10 - Sand preparation for casting
Link NOC:Principles of Casting Technology Lecture 11 - Technology of mould making
Link NOC:Principles of Casting Technology Lecture 12 - Technology of core making
Link NOC:Principles of Casting Technology Lecture 13 - Special sand moulding process
Link NOC:Principles of Casting Technology Lecture 14 - Organic binders
Link NOC:Principles of Casting Technology Lecture 15 - Special moulding process
Link NOC:Principles of Casting Technology Lecture 16 - Introduction of gating design
Link NOC:Principles of Casting Technology Lecture 17 - Types of gate
Link NOC:Principles of Casting Technology Lecture 18 - Pouring time calculation
Link NOC:Principles of Casting Technology Lecture 19 - Aspiration effects in gating system
Link NOC:Principles of Casting Technology Lecture 20 - Problem solving on gating design
Link NOC:Principles of Casting Technology Lecture 21 - Solidification analysis
Link NOC:Principles of Casting Technology Lecture 22 - Risering methods
Link NOC:Principles of Casting Technology Lecture 23 - Shape factor
Link NOC:Principles of Casting Technology Lecture 24 - Feeding and Chills effect
Link NOC:Principles of Casting Technology Lecture 25 - Problem related to riser design
Link NOC:Principles of Casting Technology Lecture 26 - Special casting process - 1
Link NOC:Principles of Casting Technology Lecture 27 - Special casting process - 2
Link NOC:Principles of Casting Technology Lecture 28 - Special casting process - 3
Link NOC:Principles of Casting Technology Lecture 29 - Technology of melting
Link NOC:Principles of Casting Technology Lecture 30 - Melting practices
Link NOC:Principles of Casting Technology Lecture 31 - Melting and Casting of cast metal
Link NOC:Principles of Casting Technology Lecture 32 - Melting practice for gray iron
Link NOC:Principles of Casting Technology Lecture 33 - Melting practice for Malleable iron and S.G iron
Link NOC:Principles of Casting Technology Lecture 34 - Casting of steel and alloy steel
Link NOC:Principles of Casting Technology Lecture 35 - Casting practices for non-ferrous metals and alloys
Link NOC:Principles of Casting Technology Lecture 36 - Fettling of castings
Link NOC:Principles of Casting Technology Lecture 37 - Heat treatment of castings
Link NOC:Principles of Casting Technology Lecture 38 - Heat treatment practices for cast iron and non-ferrous metals and alloys
Link NOC:Principles of Casting Technology Lecture 39 - Casting defects
Link NOC:Principles of Casting Technology Lecture 40 - Diagnostics of casting defects
Link NOC:Steam and Gas Power Systems Lecture 1 - Review of Thermodynamics
Link NOC:Steam and Gas Power Systems Lecture 2 - Rankine Cycle
Link NOC:Steam and Gas Power Systems Lecture 3 - Performance of Rankine Cycle
Link NOC:Steam and Gas Power Systems Lecture 4 - Binary vapour cycle and co-generation
Link NOC:Steam and Gas Power Systems Lecture 5 - Problem Solving (Rankine Cycle)
Link NOC:Steam and Gas Power Systems Lecture 6 - Steam Generators
Link NOC:Steam and Gas Power Systems Lecture 7 - Fire Tube Boilers
Link NOC:Steam and Gas Power Systems Lecture 8 - Water Tube Boilers
Link NOC:Steam and Gas Power Systems Lecture 9 - Boiler Mountings and Accessories
Link NOC:Steam and Gas Power Systems Lecture 10 - High Pressure Boilers (Part-1)
Link NOC:Steam and Gas Power Systems Lecture 11 - High Pressure Boilers (Part-2)
Link NOC:Steam and Gas Power Systems Lecture 12 - Draught
Link NOC:Steam and Gas Power Systems Lecture 13 - Performance of Boiler
Link NOC:Steam and Gas Power Systems Lecture 14 - Combustion of Fuel
Link NOC:Steam and Gas Power Systems Lecture 15 - Combustion of Fuel (Problem Solving)
Link NOC:Steam and Gas Power Systems Lecture 16 - Boiler Trial
Link NOC:Steam and Gas Power Systems Lecture 17 - Nozzles and Diffusers - Momentum and Continuity Equations
Link NOC:Steam and Gas Power Systems Lecture 18 - Nozzles and Diffusers - Efficiency and Critical Pressure
Link NOC:Steam and Gas Power Systems Lecture 19 - Nozzles and Diffusers - General Relationships and Supersaturated Flow
Link NOC:Steam and Gas Power Systems Lecture 20 - Problem Solving (Nozzles and diffusers)
Link NOC:Steam and Gas Power Systems Lecture 21 - Steam Turbine
Link NOC:Steam and Gas Power Systems Lecture 22 - Compounding of Steam Turbine
Link NOC:Steam and Gas Power Systems Lecture 23 - Impulse Steam Turbine
Link NOC:Steam and Gas Power Systems Lecture 24 - Impulse Steam Turbine Performance
Link NOC:Steam and Gas Power Systems Lecture 25 - Problem solving (Impulse Steam Turbine)
Link NOC:Steam and Gas Power Systems Lecture 26 - Impulse Reaction Steam Turbine
Link NOC:Steam and Gas Power Systems Lecture 27 - Impulse Reaction Steam Turbine Performance
Link NOC:Steam and Gas Power Systems Lecture 28 - Energy Losses in Steam Turbine
Link NOC:Steam and Gas Power Systems Lecture 29 - Condensers
Link NOC:Steam and Gas Power Systems Lecture 30 - Problem Solving (Steam Turbine)
Link NOC:Steam and Gas Power Systems Lecture 31 - Gas turbine cycle
Link NOC:Steam and Gas Power Systems Lecture 32 - Gas Turbine cycle Performance Evaluations
Link NOC:Steam and Gas Power Systems Lecture 33 - Gas Turbine cycle - Modifications
Link NOC:Steam and Gas Power Systems Lecture 34 - Problem Solving (Gas Turbine Cycle)
Link NOC:Steam and Gas Power Systems Lecture 35 - Centrifugal Compressors
Link NOC:Steam and Gas Power Systems Lecture 36 - Centrifugal Compressors Characteristics
Link NOC:Steam and Gas Power Systems Lecture 37 - Axial Flow Compressor
Link NOC:Steam and Gas Power Systems Lecture 38 - Axial Flow Compressor Characteristics
Link NOC:Steam and Gas Power Systems Lecture 39 - Jet Propulsion
Link NOC:Steam and Gas Power Systems Lecture 40 - Problem Solving
Link NOC:Product Design and Development Lecture 1 - Introduction to product design and development
Link NOC:Product Design and Development Lecture 2 - Product life-cycle
Link NOC:Product Design and Development Lecture 3 - Product policy of an organization and selection of profitable products
Link NOC:Product Design and Development Lecture 4 - Product design
Link NOC:Product Design and Development Lecture 5 - Product design steps and product analysis
Link NOC:Product Design and Development Lecture 6 - Value engineering concepts
Link NOC:Product Design and Development Lecture 7 - Problem Identification and VEJP
Link NOC:Product Design and Development Lecture 8 - Function analysis
Link NOC:Product Design and Development Lecture 9 - Functional analysis system technique
Link NOC:Product Design and Development Lecture 10 - Case study on value engineering
Link NOC:Product Design and Development Lecture 11 - Quality function deployment
Link NOC:Product Design and Development Lecture 12 - Computer aided design
Link NOC:Product Design and Development Lecture 13 - Rubust design
Link NOC:Product Design and Development Lecture 14 - Design for X
Link NOC:Product Design and Development Lecture 15 - Ergonomics in product design
Link NOC:Product Design and Development Lecture 16 - DFMA guidelines
Link NOC:Product Design and Development Lecture 17 - Product design for manual assembly
Link NOC:Product Design and Development Lecture 18 - Design guidelines for different processes
Link NOC:Product Design and Development Lecture 19 - Rapid prototyping: concept, advantages
Link NOC:Product Design and Development Lecture 20 - Rapid prototyping processes
Link NOC:Fundamentals of Manufacturing Processes Lecture 1 - Understanding Manufacturing
Link NOC:Fundamentals of Manufacturing Processes Lecture 2 - Fundamental Approaches of Manufacturing
Link NOC:Fundamentals of Manufacturing Processes Lecture 3 - Manufacturing Process Specific Advantages and Limitations
Link NOC:Fundamentals of Manufacturing Processes Lecture 4 - Material and Manufacturing Processes
Link NOC:Fundamentals of Manufacturing Processes Lecture 5 - Classification of Manufacturing Processes
Link NOC:Fundamentals of Manufacturing Processes Lecture 6 - Selection of Manufacturing Processes
Link NOC:Fundamentals of Manufacturing Processes Lecture 7 - Applications of Manufacturing Processes
Link NOC:Fundamentals of Manufacturing Processes Lecture 8 - Effect of Manufacturing Processes on Mechanical Properties
Link NOC:Fundamentals of Manufacturing Processes Lecture 9 - Break Even Analysis in Manufacturing Processes
Link NOC:Fundamentals of Manufacturing Processes Lecture 10 - Casting: Introduction and Suitability
Link NOC:Fundamentals of Manufacturing Processes Lecture 11 - Steps of Casting Processes
Link NOC:Fundamentals of Manufacturing Processes Lecture 12 - Casting: Terminology
Link NOC:Fundamentals of Manufacturing Processes Lecture 13 - The Pattern Allowances - I
Link NOC:Fundamentals of Manufacturing Processes Lecture 14 - The Pattern Allowances - II
Link NOC:Fundamentals of Manufacturing Processes Lecture 15 - Casting: Sand Moulding - l
Link NOC:Fundamentals of Manufacturing Processes Lecture 16 - Sand Moulding - II
Link NOC:Fundamentals of Manufacturing Processes Lecture 17 - Casting: Core and Core Prints
Link NOC:Fundamentals of Manufacturing Processes Lecture 18 - Casting: Gating System
Link NOC:Fundamentals of Manufacturing Processes Lecture 19 - Casting: Yield and Riser Design
Link NOC:Fundamentals of Manufacturing Processes Lecture 20 - Casting: Riser Design
Link NOC:Fundamentals of Manufacturing Processes Lecture 21 - Casting: Cleaning of Castings
Link NOC:Fundamentals of Manufacturing Processes Lecture 22 - Casting: Casting Defects and their Preventions
Link NOC:Fundamentals of Manufacturing Processes Lecture 23 - Casting: Shell Mould Casting
Link NOC:Fundamentals of Manufacturing Processes Lecture 24 - Casting: Investment and Permanent Mould Casting
Link NOC:Fundamentals of Manufacturing Processes Lecture 25 - Metal Working Processes: Hot and Cold Working
Link NOC:Fundamentals of Manufacturing Processes Lecture 26 - Metal Working Processes: Rolling
Link NOC:Fundamentals of Manufacturing Processes Lecture 27 - Metal Working Processes: Forging
Link NOC:Fundamentals of Manufacturing Processes Lecture 28 - Metal Working Processes: Extrusion
Link NOC:Fundamentals of Manufacturing Processes Lecture 29 - Metal Working Processes: Wire Drawing
Link NOC:Fundamentals of Manufacturing Processes Lecture 30 - Metal Working Processes: Press
Link NOC:Fundamentals of Manufacturing Processes Lecture 31 - Sheet Metal Operations: Shearing
Link NOC:Fundamentals of Manufacturing Processes Lecture 32 - Metal Working Processes: Sheet Metal Operations - II
Link NOC:Fundamentals of Manufacturing Processes Lecture 33 - Metal Working Processes: Sheet Metal Operations - III
Link NOC:Fundamentals of Manufacturing Processes Lecture 34 - Metal Working Processes: Dies and Die sets
Link NOC:Fundamentals of Manufacturing Processes Lecture 35 - Material Removal Processes: Machining
Link NOC:Fundamentals of Manufacturing Processes Lecture 36 - Material Removal Processes: Mechanism of Metal Cutting
Link NOC:Fundamentals of Manufacturing Processes Lecture 37 - Material Removal Processes: Chip Formation
Link NOC:Fundamentals of Manufacturing Processes Lecture 38 - Material Removal Processes: Types of Chips and Power Consumption
Link NOC:Fundamentals of Manufacturing Processes Lecture 39 - Material Removal Processes: Heat Generation
Link NOC:Fundamentals of Manufacturing Processes Lecture 40 - Material Removal Processes: Tool Failure and Tool Life
Link NOC:Fundamentals of Manufacturing Processes Lecture 41 - Material Removal Processes: Tool materials
Link NOC:Fundamentals of Manufacturing Processes Lecture 42 - Material removal processes: Cutting fluids
Link NOC:Fundamentals of Manufacturing Processes Lecture 43 - Material removal processes: Grinding - I
Link NOC:Fundamentals of Manufacturing Processes Lecture 44 - Material removal Processes: Grinding - II
Link NOC:Fundamentals of Manufacturing Processes Lecture 45 - Material removal Processes: Grinding - III
Link NOC:Fundamentals of Manufacturing Processes Lecture 46 - Material removal processes: Grinding operations
Link NOC:Fundamentals of Manufacturing Processes Lecture 47 - Joining of metals: Fundamentals - I
Link NOC:Fundamentals of Manufacturing Processes Lecture 48 - Joining of metals: Fundamentals - II
Link NOC:Fundamentals of Manufacturing Processes Lecture 49 - Joining of metals: Welding processes - I
Link NOC:Fundamentals of Manufacturing Processes Lecture 50 - Brazing, soldering and weldability
Link NOC:Fundamentals of Manufacturing Processes Lecture 51 - Weldability and welding defects
Link NOC:Fundamentals of Manufacturing Processes Lecture 52 - Heat treatment: Fundamentals - I
Link NOC:Fundamentals of Manufacturing Processes Lecture 53 - Heat treatment: Fundamentals - II
Link NOC:Fundamentals of Manufacturing Processes Lecture 54 - Heat treatment: Fundamentals - III
Link NOC:Fundamentals of Manufacturing Processes Lecture 55 - Heat treatment: Normalizing and hardening
Link NOC:Fundamentals of Manufacturing Processes Lecture 56 - Heat treatment: Tempering
Link NOC:Fundamentals of Manufacturing Processes Lecture 57 - Improving surface properties: Introduction
Link NOC:Fundamentals of Manufacturing Processes Lecture 58 - Improving surface properties: Surface modification processes I
Link NOC:Fundamentals of Manufacturing Processes Lecture 59 - Improving surface properties: Changing chemical composition
Link NOC:Fundamentals of Manufacturing Processes Lecture 60 - Improving surface properties: Coating
Link NOC:Modelling and Simulation of Discrete Event System Lecture 1 - Introduction to Simulation
Link NOC:Modelling and Simulation of Discrete Event System Lecture 2 - Concept of System, Model and Simulation
Link NOC:Modelling and Simulation of Discrete Event System Lecture 3 - Time advance mechanism, Components of a simulation model
Link NOC:Modelling and Simulation of Discrete Event System Lecture 4 - Program organization and logic, Steps in a simulation study
Link NOC:Modelling and Simulation of Discrete Event System Lecture 5 - Simulation examples
Link NOC:Modelling and Simulation of Discrete Event System Lecture 6 - Statistical Models in Simulation
Link NOC:Modelling and Simulation of Discrete Event System Lecture 7 - Input probability distribution functions for discrete systems
Link NOC:Modelling and Simulation of Discrete Event System Lecture 8 - Continuous distribution functions
Link NOC:Modelling and Simulation of Discrete Event System Lecture 9 - Continuous distribution functions and empirical distribution functions
Link NOC:Modelling and Simulation of Discrete Event System Lecture 10 - Problem solving on statistical models in simulation
Link NOC:Modelling and Simulation of Discrete Event System Lecture 11 - Characteristics of a queueing system
Link NOC:Modelling and Simulation of Discrete Event System Lecture 12 - Performance measures of queueing system
Link NOC:Modelling and Simulation of Discrete Event System Lecture 13 - Analysis of a single server queueing system
Link NOC:Modelling and Simulation of Discrete Event System Lecture 14 - Simulation of a single server queueing system
Link NOC:Modelling and Simulation of Discrete Event System Lecture 15 - Computer representation of simulation of single server queuing system
Link NOC:Modelling and Simulation of Discrete Event System Lecture 16 - Generation of Random Numbers
Link NOC:Modelling and Simulation of Discrete Event System Lecture 17 - Issues and Challenges in Congruential Generators
Link NOC:Modelling and Simulation of Discrete Event System Lecture 18 - Testing of random numbers
Link NOC:Modelling and Simulation of Discrete Event System Lecture 19 - Generation of Random Variates
Link NOC:Modelling and Simulation of Discrete Event System Lecture 20 - Problem Solving on Random Number and Random Variate Generation
Link NOC:Modelling and Simulation of Discrete Event System Lecture 21 - Input modeling: Identifying distributions with data
Link NOC:Modelling and Simulation of Discrete Event System Lecture 22 - Input modeling: Estimation of parameters
Link NOC:Modelling and Simulation of Discrete Event System Lecture 23 - Input modeling: Goodness-of-fit tests and assessing sample dependence
Link NOC:Modelling and Simulation of Discrete Event System Lecture 24 - Input modeling: Multivariate input models
Link NOC:Modelling and Simulation of Discrete Event System Lecture 25 - Problem Solving on input modeling
Link NOC:Modelling and Simulation of Discrete Event System Lecture 26 - Output analysis of a single system: Introduction
Link NOC:Modelling and Simulation of Discrete Event System Lecture 27 - Obtaining a specified precision
Link NOC:Modelling and Simulation of Discrete Event System Lecture 28 - Comparison of alternative system configurations
Link NOC:Modelling and Simulation of Discrete Event System Lecture 29 - Confidence Intervals for comparing more than two systems
Link NOC:Modelling and Simulation of Discrete Event System Lecture 30 - Problem Solving on output analysis of single and alternative systems
Link NOC:Modelling and Simulation of Discrete Event System Lecture 31 - Introduction to simulation of manufacturing and material handling system
Link NOC:Modelling and Simulation of Discrete Event System Lecture 32 - Issues in material handling system
Link NOC:Modelling and Simulation of Discrete Event System Lecture 33 - Modeling of system randomness: Machine downtime
Link NOC:Modelling and Simulation of Discrete Event System Lecture 34 - Verification of simulation models
Link NOC:Modelling and Simulation of Discrete Event System Lecture 35 - Model validity and credibility
Link NOC:Modelling and Simulation of Discrete Event System Lecture 36 - Problem solving and case studies on simulation of manufacturing system
Link NOC:Modelling and Simulation of Discrete Event System Lecture 37 - Introduction to Monte Carlo Simulation
Link NOC:Modelling and Simulation of Discrete Event System Lecture 38 - Inventory Control Simulation using Monte Carlo Technique
Link NOC:Modelling and Simulation of Discrete Event System Lecture 39 - In this lecture, Monte Carlo technique was used to solve inventory system problems
Link NOC:Modelling and Simulation of Discrete Event System Lecture 40 - Problem solving on Monte Carlo Simulation
Link NOC:Processing of Polymers and Polymer Composites Lecture 1 - Introduction to course
Link NOC:Processing of Polymers and Polymer Composites Lecture 2 - Engineering materials and processing techniques
Link NOC:Processing of Polymers and Polymer Composites Lecture 3 - Thermoplastics and thermosets
Link NOC:Processing of Polymers and Polymer Composites Lecture 4 - Processing of polymers
Link NOC:Processing of Polymers and Polymer Composites Lecture 5 - Thermoforming processes
Link NOC:Processing of Polymers and Polymer Composites Lecture 6 - Extrusion - I
Link NOC:Processing of Polymers and Polymer Composites Lecture 7 - Extrusion - II
Link NOC:Processing of Polymers and Polymer Composites Lecture 8 - Compression molding
Link NOC:Processing of Polymers and Polymer Composites Lecture 9 - Injection molding - I
Link NOC:Processing of Polymers and Polymer Composites Lecture 10 - injection molding - II
Link NOC:Processing of Polymers and Polymer Composites Lecture 11 - Transfer molding
Link NOC:Processing of Polymers and Polymer Composites Lecture 12 - Rotational molding
Link NOC:Processing of Polymers and Polymer Composites Lecture 13 - Blow molding
Link NOC:Processing of Polymers and Polymer Composites Lecture 14 - Composite materials: Basic concepts
Link NOC:Processing of Polymers and Polymer Composites Lecture 15 - Classification of composite materials
Link NOC:Processing of Polymers and Polymer Composites Lecture 16 - Processing of polymer composites
Link NOC:Processing of Polymers and Polymer Composites Lecture 17 - Hand lay-up
Link NOC:Processing of Polymers and Polymer Composites Lecture 18 - Spray lay-up
Link NOC:Processing of Polymers and Polymer Composites Lecture 19 - Compression molding
Link NOC:Processing of Polymers and Polymer Composites Lecture 20 - Injection molding
Link NOC:Processing of Polymers and Polymer Composites Lecture 21 - Reaction injection molding
Link NOC:Processing of Polymers and Polymer Composites Lecture 22 - Autoclave molding
Link NOC:Processing of Polymers and Polymer Composites Lecture 23 - Resin transfer molding
Link NOC:Processing of Polymers and Polymer Composites Lecture 24 - Filament winding
Link NOC:Processing of Polymers and Polymer Composites Lecture 25 - Pultrusion process
Link NOC:Processing of Polymers and Polymer Composites Lecture 26 - Sheet molding
Link NOC:Processing of Polymers and Polymer Composites Lecture 27 - Pre-pregging and challenges in primary processing of composites
Link NOC:Processing of Polymers and Polymer Composites Lecture 28 - Secondary processing of polymer composites
Link NOC:Processing of Polymers and Polymer Composites Lecture 29 - Joining of polymer composites
Link NOC:Processing of Polymers and Polymer Composites Lecture 30 - Adhesive joining
Link NOC:Processing of Polymers and Polymer Composites Lecture 31 - Mechanical joining
Link NOC:Processing of Polymers and Polymer Composites Lecture 32 - Microwave joining
Link NOC:Processing of Polymers and Polymer Composites Lecture 33 - Induction and resistance welding
Link NOC:Processing of Polymers and Polymer Composites Lecture 34 - Drilling of polymer matrix composites - I
Link NOC:Processing of Polymers and Polymer Composites Lecture 35 - Drilling of polymer matrix composites - II
Link NOC:Processing of Polymers and Polymer Composites Lecture 36 - Methods to prevent drilling induced damage
Link NOC:Processing of Polymers and Polymer Composites Lecture 37 - Non-conventional drilling
Link NOC:Processing of Polymers and Polymer Composites Lecture 38 - Process simulation of secondary processing
Link NOC:Processing of Polymers and Polymer Composites Lecture 39 - Intelligent drilling of polymer matrix composites
Link NOC:Processing of Polymers and Polymer Composites Lecture 40 - Web based tools for polymer matrix composites
Link NOC:Operations Management Lecture 1 - Operations Management: Basics
Link NOC:Operations Management Lecture 2 - Operations Management: Objectives
Link NOC:Operations Management Lecture 3 - Operations Management: Functions and Scope
Link NOC:Operations Management Lecture 4 - Types of Production Systems
Link NOC:Operations Management Lecture 5 - Operations Strategy
Link NOC:Operations Management Lecture 6 - Product Life-Cycle
Link NOC:Operations Management Lecture 7 - Value Engineering Concepts
Link NOC:Operations Management Lecture 8 - Design for X (DFX)
Link NOC:Operations Management Lecture 9 - Ergonomics in Product Design
Link NOC:Operations Management Lecture 10 - Rapid Prototyping: Concept, Advantages
Link NOC:Operations Management Lecture 11 - Sales Forecasting
Link NOC:Operations Management Lecture 12 - Forecasting System
Link NOC:Operations Management Lecture 13 - Qualitative Methods of Forecasting
Link NOC:Operations Management Lecture 14 - Quantitative Methods - I
Link NOC:Operations Management Lecture 15 - Quantitative Methods - II
Link NOC:Operations Management Lecture 16 - Facility Planning
Link NOC:Operations Management Lecture 17 - Factors Affecting Plant Location
Link NOC:Operations Management Lecture 18 - Plant Location: Case Study on Uttarakhand
Link NOC:Operations Management Lecture 19 - Location Evaluation Methods - I
Link NOC:Operations Management Lecture 20 - Location Evaluation Methods - II
Link NOC:Operations Management Lecture 21 - Facility Layout and Planning - I
Link NOC:Operations Management Lecture 22 - Facility Layout and Planning - II
Link NOC:Operations Management Lecture 23 - Factors Influencing Plant Layout
Link NOC:Operations Management Lecture 24 - Material Flow Patterns
Link NOC:Operations Management Lecture 25 - Tools and Techniques used For Plant Layout Planning
Link NOC:Operations Management Lecture 26 - Production Planning and Control
Link NOC:Operations Management Lecture 27 - Process Planning
Link NOC:Operations Management Lecture 28 - Aggregate Production Planning
Link NOC:Operations Management Lecture 29 - Capacity Planning: Introduction
Link NOC:Operations Management Lecture 30 - Capacity Planning: Examples
Link NOC:Operations Management Lecture 31 - Project Scheduling
Link NOC:Operations Management Lecture 32 - Network Diagrams
Link NOC:Operations Management Lecture 33 - Critical Path Method
Link NOC:Operations Management Lecture 34 - Critical Path Method: Problems - I
Link NOC:Operations Management Lecture 35 - Critical Path Method: Problems - II
Link NOC:Operations Management Lecture 36 - Program Evaluation and Review Technique (PERT)
Link NOC:Operations Management Lecture 37 - PERT Problems - I
Link NOC:Operations Management Lecture 38 - PERT Problems - II
Link NOC:Operations Management Lecture 39 - Time Cost Trade Off (Crashing)
Link NOC:Operations Management Lecture 40 - Project Network: Crashing Problems
Link NOC:Operations Management Lecture 41 - Production Control
Link NOC:Operations Management Lecture 42 - Sequencing
Link NOC:Operations Management Lecture 43 - Sequencing Problems - I
Link NOC:Operations Management Lecture 44 - Sequencing Problems - II
Link NOC:Operations Management Lecture 45 - Master Production Scheduling (MPS)
Link NOC:Operations Management Lecture 46 - Concept of Quality
Link NOC:Operations Management Lecture 47 - Total Quality Management (TQM)
Link NOC:Operations Management Lecture 48 - Total Productive Maintenance
Link NOC:Operations Management Lecture 49 - Statistical Quality Control (SQC)
Link NOC:Operations Management Lecture 50 - Six Sigma
Link NOC:Operations Management Lecture 51 - Materials Management
Link NOC:Operations Management Lecture 52 - Inventory Control
Link NOC:Operations Management Lecture 53 - Economic Order Quantity (EOQ) Models
Link NOC:Operations Management Lecture 54 - Economic Order Quantity (EOQ): Problems
Link NOC:Operations Management Lecture 55 - Production Quantity Model
Link NOC:Operations Management Lecture 56 - Just In time (JIT)
Link NOC:Operations Management Lecture 57 - Kanban System
Link NOC:Operations Management Lecture 58 - Materials Requirement Planning (MRP) - I
Link NOC:Operations Management Lecture 59 - Materials Requirement Planning (MRP) - II
Link NOC:Operations Management Lecture 60 - Enterprise Resource Planning (ERP)
Link NOC:Theory of Production Processes Lecture 1 - Introduction to Theory and Practics of Casting
Link NOC:Theory of Production Processes Lecture 2 - Theory of Solidification: Cooling curves
Link NOC:Theory of Production Processes Lecture 3 - Solidification of pure metals and alloys
Link NOC:Theory of Production Processes Lecture 4 - Factors affecting solidification process
Link NOC:Theory of Production Processes Lecture 5 - Fluidity of liquid metals
Link NOC:Theory of Production Processes Lecture 6 - Technology of patternmaking: Pattern materials
Link NOC:Theory of Production Processes Lecture 7 - Patternmaking: Types of pattern and allowances
Link NOC:Theory of Production Processes Lecture 8 - Molding sand ingredients and sand testing methods
Link NOC:Theory of Production Processes Lecture 9 - Sand molding methods
Link NOC:Theory of Production Processes Lecture 10 - Coremaking: Properties and types of cores
Link NOC:Theory of Production Processes Lecture 11 - Gating system design: Types of gates
Link NOC:Theory of Production Processes Lecture 12 - Gating system design: Pouring time calculation
Link NOC:Theory of Production Processes Lecture 13 - Introduction to riser design
Link NOC:Theory of Production Processes Lecture 14 - Risering methods
Link NOC:Theory of Production Processes Lecture 15 - Problem solving on gating design and risering methods
Link NOC:Theory of Production Processes Lecture 16 - Theory of melting: Types of furnaces
Link NOC:Theory of Production Processes Lecture 17 - Melting and production of Iron castings
Link NOC:Theory of Production Processes Lecture 18 - Production of steel and non-ferrous castings
Link NOC:Theory of Production Processes Lecture 19 - Casting design considerations
Link NOC:Theory of Production Processes Lecture 20 - Casting defects: Types, causes and remedies
Link NOC:Theory of Production Processes Lecture 21 - Concept of stress and strain, Elastic and plastic behavior
Link NOC:Theory of Production Processes Lecture 22 - State of stress in two and three dimensions, Mohr’s circle
Link NOC:Theory of Production Processes Lecture 23 - Description of strain at a point
Link NOC:Theory of Production Processes Lecture 24 - Mean and deviator stresses, Elastic stress strain relationships
Link NOC:Theory of Production Processes Lecture 25 - Theory of plasticity: True stress and true strain, Flow curve
Link NOC:Theory of Production Processes Lecture 26 - Yield criteria for ductile materials
Link NOC:Theory of Production Processes Lecture 27 - Flow rules, Plastic stress strain relationships
Link NOC:Theory of Production Processes Lecture 28 - Classification of metal working processes
Link NOC:Theory of Production Processes Lecture 29 - Mechanics of metal working
Link NOC:Theory of Production Processes Lecture 30 - Temperature in metalworking: Hot and cold working
Link NOC:Theory of Production Processes Lecture 31 - Rolling process: Classification, Hot and cold rolling
Link NOC:Theory of Production Processes Lecture 32 - Analysis of rolling operation: Forces and geometrical relationships
Link NOC:Theory of Production Processes Lecture 33 - Introduction to forging Process: Classification and equipments
Link NOC:Theory of Production Processes Lecture 34 - Analysis of forging process
Link NOC:Theory of Production Processes Lecture 35 - Problem solving on rolling and forging processes
Link NOC:Theory of Production Processes Lecture 36 - Extrusion process: Classification and analysis
Link NOC:Theory of Production Processes Lecture 37 - Drawing of rods, tubes and wires
Link NOC:Theory of Production Processes Lecture 38 - Analysis of drawing operation
Link NOC:Theory of Production Processes Lecture 39 - Sheet metal operations
Link NOC:Theory of Production Processes Lecture 40 - Metal Forming Defects
Link NOC:Theory of Production Processes Lecture 41 - Classification of joining processes
Link NOC:Theory of Production Processes Lecture 42 - Heat flow in welding
Link NOC:Theory of Production Processes Lecture 43 - Metallurgy of fusion welds
Link NOC:Theory of Production Processes Lecture 44 - Heat affected zone in welding
Link NOC:Theory of Production Processes Lecture 45 - Heat treatment processes in welding
Link NOC:Theory of Production Processes Lecture 46 - Principle of shield arc welding processes
Link NOC:Theory of Production Processes Lecture 47 - Principle of gas shield arc welding processes
Link NOC:Theory of Production Processes Lecture 48 - Principle of Resistance welding
Link NOC:Theory of Production Processes Lecture 49 - Principle of Solid State Welding Processes
Link NOC:Theory of Production Processes Lecture 50 - Brazing, soldering and adhesive bonding
Link NOC:Theory of Production Processes Lecture 51 - Residual stresses in welding
Link NOC:Theory of Production Processes Lecture 52 - Methods of controlling residual stresses in welding
Link NOC:Theory of Production Processes Lecture 53 - Welding Distortion
Link NOC:Theory of Production Processes Lecture 54 - Control of welding distortion
Link NOC:Theory of Production Processes Lecture 55 - Preheat and postweld heat treatment of weldments
Link NOC:Theory of Production Processes Lecture 56 - Weldability of metals
Link NOC:Theory of Production Processes Lecture 57 - Weldability of steels
Link NOC:Theory of Production Processes Lecture 58 - Weldability of cast iron
Link NOC:Theory of Production Processes Lecture 59 - Weldability of non-ferrous materials
Link NOC:Theory of Production Processes Lecture 60 - Welding defects
Link NOC:Automatic Control Lecture 1 - Definition and Types
Link NOC:Automatic Control Lecture 2 - Performance Specifications
Link NOC:Automatic Control Lecture 3 - Design Process
Link NOC:Automatic Control Lecture 4 - Block Diagrams
Link NOC:Automatic Control Lecture 5 - Laplace Transform and Transfer Function
Link NOC:Automatic Control Lecture 6 - Translational Mechanical System
Link NOC:Automatic Control Lecture 7 - Rotational Mechanical System
Link NOC:Automatic Control Lecture 8 - Electrical System
Link NOC:Automatic Control Lecture 9 - Linearization of Nonlinear Systems
Link NOC:Automatic Control Lecture 10 - Numerical Problems
Link NOC:Automatic Control Lecture 11 - Poles and Zeros
Link NOC:Automatic Control Lecture 12 - First Order System
Link NOC:Automatic Control Lecture 13 - Second Order System
Link NOC:Automatic Control Lecture 14 - Underdamped Second Order System - I
Link NOC:Automatic Control Lecture 15 - Underdamped Second Order System - II
Link NOC:Automatic Control Lecture 16 - Definition of Stability
Link NOC:Automatic Control Lecture 17 - Routh-Hurwitz Criterion
Link NOC:Automatic Control Lecture 18 - Routh-Hurwitz Criterion- Special Cases
Link NOC:Automatic Control Lecture 19 - Steady State Errors
Link NOC:Automatic Control Lecture 20 - Static Error Constants
Link NOC:Automatic Control Lecture 21 - Define Root Locus
Link NOC:Automatic Control Lecture 22 - Sketching of Root Locus - I
Link NOC:Automatic Control Lecture 23 - Sketching of Root Locus - II
Link NOC:Automatic Control Lecture 24 - Sketching of Root Locus - III
Link NOC:Automatic Control Lecture 25 - Numerical Examples and Second Order Approximation
Link NOC:Automatic Control Lecture 26 - PI Controller Design
Link NOC:Automatic Control Lecture 27 - PD Controller Design
Link NOC:Automatic Control Lecture 28 - PID Controller Design
Link NOC:Automatic Control Lecture 29 - Lag Compensation
Link NOC:Automatic Control Lecture 30 - Lead and Lag-Lead Compensation
Link NOC:Automatic Control Lecture 31 - State Space Representation
Link NOC:Automatic Control Lecture 32 - Converting a Transfer Function to State Space
Link NOC:Automatic Control Lecture 33 - Converting From State Space to Transfer Function
Link NOC:Automatic Control Lecture 34 - Controller Design
Link NOC:Automatic Control Lecture 35 - Controller Design and Controllability
Link NOC:Automatic Control Lecture 36 - Transfer Function, Poles, Zeros, Response
Link NOC:Automatic Control Lecture 37 - Steady State Error, Root Locus
Link NOC:Automatic Control Lecture 38 - Design Via Root Locus, Compensation - I
Link NOC:Automatic Control Lecture 39 - Design Via Root Locus, Compensation - II
Link NOC:Automatic Control Lecture 40 - State Space Method
Link NOC:Failure Analysis and Prevention Lecture 1 - Introduction - Need and scope of failure analysis and prevention
Link NOC:Failure Analysis and Prevention Lecture 2 - Introduction - Engineering disasters and understanding failures
Link NOC:Failure Analysis and Prevention Lecture 3 - Fundamental sources of failures - Deficient design - I
Link NOC:Failure Analysis and Prevention Lecture 4 - Fundamental sources of failures - Deficient design - II
Link NOC:Failure Analysis and Prevention Lecture 5 - Fundamental sources of failures - Deficient design - III and upgrading of a part
Link NOC:Failure Analysis and Prevention Lecture 6 - Fundamental sources of failures - Imperfections in base metals
Link NOC:Failure Analysis and Prevention Lecture 7 - Fundamental sources of failures - Improper Manufacturing - I
Link NOC:Failure Analysis and Prevention Lecture 8 - Fundamental sources of failures - Improper Manufacturing - II
Link NOC:Failure Analysis and Prevention Lecture 9 - Fundamental sources of failures - Improper Manufacturing - III
Link NOC:Failure Analysis and Prevention Lecture 10 - Fundamental sources of failures - Improper Manufacturing - IV and improper service conditions
Link NOC:Failure Analysis and Prevention Lecture 11 - Fundamental sources of failures - Poor assembly, service and maintenance
Link NOC:Failure Analysis and Prevention Lecture 12 - Industrial engineering tool for failure analysis - Pareto diagram
Link NOC:Failure Analysis and Prevention Lecture 13 - Industrial engineering tool for failure analysis - Fishbone diagram and FMEA
Link NOC:Failure Analysis and Prevention Lecture 14 - Industrial engineering tool for failure analysis - FMEA
Link NOC:Failure Analysis and Prevention Lecture 15 - Industrial engineering tool for failure analysis - Fault tree analysis
Link NOC:Failure Analysis and Prevention Lecture 16 - Industrial engineering tool for failure analysis - Reliability - I
Link NOC:Failure Analysis and Prevention Lecture 17 - Industrial engineering tool for failure analysis - Reliability - II
Link NOC:Failure Analysis and Prevention Lecture 18 - General procedure of failure analysis - Steps
Link NOC:Failure Analysis and Prevention Lecture 19 - General procedure of failure analysis - Background information collection
Link NOC:Failure Analysis and Prevention Lecture 20 - General procedure of failure analysis - Preliminary examination
Link NOC:Failure Analysis and Prevention Lecture 21 - General procedure of failure analysis - NDT for failure analysis
Link NOC:Failure Analysis and Prevention Lecture 22 - General procedure of failure analysis - Destructive testing
Link NOC:Failure Analysis and Prevention Lecture 23 - General procedure of failure analysis - DT, selection, preservation, cleaning and sectioning of samples
Link NOC:Failure Analysis and Prevention Lecture 24 - General procedure of failure analysis - Macroscopy of fracture surfaces - I
Link NOC:Failure Analysis and Prevention Lecture 25 - General procedure of failure analysis - Macroscopy of fracture surfaces - II
Link NOC:Failure Analysis and Prevention Lecture 26 - General procedure of failure analysis - Macroscopy of fracture surfaces - III
Link NOC:Failure Analysis and Prevention Lecture 27 - General procedure of failure analysis - Macroscopy of fracture surfaces - IV
Link NOC:Failure Analysis and Prevention Lecture 28 - General procedure of failure analysis - Microscopy of fracture surfaces
Link NOC:Failure Analysis and Prevention Lecture 29 - General procedure of failure analysis - Metallography of failed components
Link NOC:Failure Analysis and Prevention Lecture 30 - General procedure of failure analysis - Determination of type of fracture - I
Link NOC:Failure Analysis and Prevention Lecture 31 - General procedure of failure analysis - Determination of type of fracture - II
Link NOC:Failure Analysis and Prevention Lecture 32 - General procedure of failure analysis - Determination of type of fracture - III and chemical analysis
Link NOC:Failure Analysis and Prevention Lecture 33 - General procedure of failure analysis - Application of fracture mechanics - I
Link NOC:Failure Analysis and Prevention Lecture 34 - General procedure of failure analysis - Application of fracture mechanics - II
Link NOC:Failure Analysis and Prevention Lecture 35 - General procedure of failure analysis - Simulated test service conditions and analysis of evidences
Link NOC:Failure Analysis and Prevention Lecture 36 - General procedure of failure analysis - Question for analysis
Link NOC:Failure Analysis and Prevention Lecture 37 - General procedure of failure analysis - Reporting failure analysis and failure analysis of welded joint
Link NOC:Failure Analysis and Prevention Lecture 38 - General procedure of failure analysis - Failure analysis of weld joint
Link NOC:Failure Analysis and Prevention Lecture 39 - General procedure of failure analysis - Examples of failure analysis
Link NOC:Failure Analysis and Prevention Lecture 40 - General procedure of failure analysis - Embrittlement of steels
Link NOC:Mechanical Measurement System Lecture 1 - Basic concepts of measurement
Link NOC:Mechanical Measurement System Lecture 2 - Functional elements of instruments
Link NOC:Mechanical Measurement System Lecture 3 - Classification of measuring instruments
Link NOC:Mechanical Measurement System Lecture 4 - Methods of correction for interfering and modifying inputs
Link NOC:Mechanical Measurement System Lecture 5 - Static characteristics of measuring instruments - 1
Link NOC:Mechanical Measurement System Lecture 6 - Static characteristics of measuring instruments - 2
Link NOC:Mechanical Measurement System Lecture 7 - Loading effect and Impedance matching
Link NOC:Mechanical Measurement System Lecture 8 - Statistical analysis
Link NOC:Mechanical Measurement System Lecture 9 - Chi-square test
Link NOC:Mechanical Measurement System Lecture 10 - Least square method
Link NOC:Mechanical Measurement System Lecture 11 - Uncertainty analysis
Link NOC:Mechanical Measurement System Lecture 12 - Problem solving - 1
Link NOC:Mechanical Measurement System Lecture 13 - Generalized model of a measuring system
Link NOC:Mechanical Measurement System Lecture 14 - Zero and first order system
Link NOC:Mechanical Measurement System Lecture 15 - First order system - step response
Link NOC:Mechanical Measurement System Lecture 16 - First order system - ramp response
Link NOC:Mechanical Measurement System Lecture 17 - First order system - impulse response
Link NOC:Mechanical Measurement System Lecture 18 - First order system - frequency response
Link NOC:Mechanical Measurement System Lecture 19 - Second order system - step response - 1
Link NOC:Mechanical Measurement System Lecture 20 - Second order system - step response - 2
Link NOC:Mechanical Measurement System Lecture 21 - Second order system - ramp response
Link NOC:Mechanical Measurement System Lecture 22 - Second order system - impulse and frequency response
Link NOC:Mechanical Measurement System Lecture 23 - Higher order systems
Link NOC:Mechanical Measurement System Lecture 24 - Compensation
Link NOC:Mechanical Measurement System Lecture 25 - Transducers - 1
Link NOC:Mechanical Measurement System Lecture 26 - Transducers - 2
Link NOC:Mechanical Measurement System Lecture 27 - Flow measurement - 1
Link NOC:Mechanical Measurement System Lecture 28 - Flow measurement - 2
Link NOC:Mechanical Measurement System Lecture 29 - Temperature measurement - 1
Link NOC:Mechanical Measurement System Lecture 30 - Temperature measurement - 2
Link NOC:Mechanical Measurement System Lecture 31 - Strain gauges
Link NOC:Mechanical Measurement System Lecture 32 - Piezoelectric transducers
Link NOC:Mechanical Measurement System Lecture 33 - Pressure measurement
Link NOC:Mechanical Measurement System Lecture 34 - Force and torque measurement
Link NOC:Mechanical Measurement System Lecture 35 - Displacement and acceleration measurement
Link NOC:Mechanical Measurement System Lecture 36 - Sound measurement
Link NOC:Mechanical Measurement System Lecture 37 - Thermophysical properties measurement
Link NOC:Mechanical Measurement System Lecture 38 - Flow visualization
Link NOC:Mechanical Measurement System Lecture 39 - Air pollution sampling and measurement
Link NOC:Mechanical Measurement System Lecture 40 - Problem solving - 2
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 1 - Introduction and need of surface engineering
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 2 - Surface/sub-surface regions and properties of importance for surface engineering
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 3 - Surface properties and their modification
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 4 - Classification of surface modification techniques - I
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 5 - Classification of surface modification techniques - II
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 6 - Comparison of surface modification techniques and scope of surface engineering
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 7 - Scope of surface engineering - I
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 8 - Surface properties for wear and friction resistance - I
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 9 - Surface properties for wear and friction resistance - II
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 10 - Surface properties for wear and friction resistance - III
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 11 - Issues and application of surface modification
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 12 - Surface damage: type and categories
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 13 - Surface damage: Adhesive wear - I
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 14 - Surface damage: Adhesive wear - II
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 15 - Surface damage: Classical law of adhesive wear and abrasive wear
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 16 - Surface damage: Abrasive wear - I
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 17 - Surface damage: Abrasive wear - II
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 18 - Surface damage: Erosive wear
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 19 - Surface damage: Melting wear and corrosive wear
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 20 - Surface damage: Diffusive wear and evaluation of surface damage
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 21 - Properties and mode of wear
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 22 - Metal systems
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 23 - Thermal barrier coatings
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 24 - Functionally graded materials and other materials
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 25 - Surface modification techniques: Principle of controlling surface metallurgy
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 26 - Surface modification techniques: Controlling surface metallurgy - I
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 27 - Surface modification techniques: Controlling surface metallurgy - II
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 28 - Surface modification techniques: Controlling surface metallurgy - III
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 29 - Surface modification techniques: Controlling surface metallurgy - IV
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 30 - Surface modification techniques: Changing surface composition
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 31 - Surface modification techniques: Carburizing - I
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 32 - Surface modification techniques: Carburizing - II
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 33 - Surface modification techniques: Carburizing and Cyaniding
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 34 - Surface modification techniques: Nitriding
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 35 - Surface modification techniques: Plasma carburizing and plasma nitriding
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 36 - Surface modification techniques: Vacuum based surface modification I
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 37 - Surface modification techniques: Ion implantation and ion plating
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 38 - Surface modification techniques: Sputtering and Ion beam assisted deposition
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 39 - Surface modification techniques: Chemical vapour deposition and boronizing
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 40 - Surface modification techniques: Laser alloying
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 41 - Surface modification techniques: Laser nitriding and developing surface layer
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 42 - Surface modification techniques: Fundamentals of surface modification by weld surfacing and thermal spraying
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 43 - Surface modification techniques: Fundamentals of surface modification by weld surfacing
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 44 - Surface modification techniques: Weld surfacing processes
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 45 - Surface modification techniques: Weld surfacing - I
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 46 - Surface modification techniques: Weld surfacing - II
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 47 - Surface modification techniques: Weld surfacing - III
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 48 - Surface modification techniques: Laser cladding
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 49 - Surface modification techniques: Principle of thermal spraying
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 50 - Surface modification techniques: Flame spraying
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 51 - Surface modification techniques: Improving the performance of flame spray coating
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 52 - Surface modification techniques: HVOF and Detonation spraying
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 53 - Surface modification techniques: Cold spraying, arc spraying
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 54 - Surface modification techniques: Plasma spraying, electroplating, electroless plating
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 55 - Characterization of modified surfaces: Surface roughness and thickness - I
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 56 - Characterization of modified surfaces: Surface roughness and thickness - II
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 57 - Characterization of modified surfaces: Thickness and soundness
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 58 - Characterization of modified surfaces: Soundness and mechanical properties
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 59 - Characterization of modified surfaces: Metallography
Link NOC:Fundamentals of Surface Engineering: Mechanisms, Processes and Characterizations Lecture 60 - Characterization of modified surfaces: Wear behavior
Link NOC:Work System Design Lecture 1 - Work System Design: Introduction
Link NOC:Work System Design Lecture 2 - Introduction and Concept of Productivity
Link NOC:Work System Design Lecture 3 - Measurement of Productivity
Link NOC:Work System Design Lecture 4 - Productivity Measures
Link NOC:Work System Design Lecture 5 - Productivity Measurement Models
Link NOC:Work System Design Lecture 6 - Factors Influencing Productivity
Link NOC:Work System Design Lecture 7 - Causes of Low Productivity
Link NOC:Work System Design Lecture 8 - Productivity Improvement Technique
Link NOC:Work System Design Lecture 9 - Numerical Problems on Productivity
Link NOC:Work System Design Lecture 10 - Case Study on Productivity
Link NOC:Work System Design Lecture 11 - Work Study: Basic Concept
Link NOC:Work System Design Lecture 12 - Steps Involved in Work Study
Link NOC:Work System Design Lecture 13 - Concept of Work Content
Link NOC:Work System Design Lecture 14 - Techniques of Work Study
Link NOC:Work System Design Lecture 15 - Human Aspects of Work Study
Link NOC:Work System Design Lecture 16 - Method Study: Basic Concept
Link NOC:Work System Design Lecture 17 - Method Study: Steps
Link NOC:Work System Design Lecture 18 - Method Study: Recording Techniques
Link NOC:Work System Design Lecture 19 - Operation Process Charts
Link NOC:Work System Design Lecture 20 - Operation Process Charts: Examples
Link NOC:Work System Design Lecture 21 - Flow Process Charts
Link NOC:Work System Design Lecture 22 - Flow Process Charts: Examples
Link NOC:Work System Design Lecture 23 - Two-Handed-Process Charts
Link NOC:Work System Design Lecture 24 - Multiple Activity Charts
Link NOC:Work System Design Lecture 25 - Flow Diagrams
Link NOC:Work System Design Lecture 26 - String Diagrams
Link NOC:Work System Design Lecture 27 - Principles of Motion Economy
Link NOC:Work System Design Lecture 28 - Micro-Motion Study
Link NOC:Work System Design Lecture 29 - Therbligs
Link NOC:Work System Design Lecture 30 - SIMO Charts
Link NOC:Work System Design Lecture 31 - Memo-Motion Study
Link NOC:Work System Design Lecture 32 - Cycle Graph and Chronocycle Graph
Link NOC:Work System Design Lecture 33 - Critical Examination Techniques
Link NOC:Work System Design Lecture 34 - Development and Selection of New Method
Link NOC:Work System Design Lecture 35 - Installation and Maintenance of Improved Methods
Link NOC:Work System Design Lecture 36 - Work Measurement: Basic Concept
Link NOC:Work System Design Lecture 37 - Techniques of Work Measurement
Link NOC:Work System Design Lecture 38 - Steps Involved in Time Study
Link NOC:Work System Design Lecture 39 - Steps and Equipment of Time Study
Link NOC:Work System Design Lecture 40 - Performance Rating
Link NOC:Work System Design Lecture 41 - Performance Rating: Examples
Link NOC:Work System Design Lecture 42 - Allowances in Time Study
Link NOC:Work System Design Lecture 43 - Computation of Standard Time - I
Link NOC:Work System Design Lecture 44 - Computation of Standard Time - II
Link NOC:Work System Design Lecture 45 - Work Measurement: Applications
Link NOC:Work System Design Lecture 46 - Work Sampling: Basic Concept
Link NOC:Work System Design Lecture 47 - Procedure of Work Sampling
Link NOC:Work System Design Lecture 48 - Work Sampling: Examples
Link NOC:Work System Design Lecture 49 - Introduction to Synthetic Data and PMTS
Link NOC:Work System Design Lecture 50 - Introduction to MTM and MOST
Link NOC:Work System Design Lecture 51 - Ergonomics: Basic Concept
Link NOC:Work System Design Lecture 52 - Industrial Ergonomics
Link NOC:Work System Design Lecture 53 - Ergonomics: Anthropometry
Link NOC:Work System Design Lecture 54 - Man-Machine System - 1
Link NOC:Work System Design Lecture 55 - Man-Machine System - 2
Link NOC:Work System Design Lecture 56 - Case Study: Office Chair
Link NOC:Work System Design Lecture 57 - Case Study: Tower Crane Cabin
Link NOC:Work System Design Lecture 58 - Case Study: Car Seat
Link NOC:Work System Design Lecture 59 - Case Study: Computer System
Link NOC:Work System Design Lecture 60 - Case Study: Assembly Line
Link NOC:Principles of Metal Forming Technology Lecture 1 - Introduction to Metal Forming Technology
Link NOC:Principles of Metal Forming Technology Lecture 2 - Classification of Metal Working Processes
Link NOC:Principles of Metal Forming Technology Lecture 3 - Behavior of Materials
Link NOC:Principles of Metal Forming Technology Lecture 4 - Failure of Materials
Link NOC:Principles of Metal Forming Technology Lecture 5 - Concept of stress and strain
Link NOC:Principles of Metal Forming Technology Lecture 6 - Description of stress
Link NOC:Principles of Metal Forming Technology Lecture 7 - State of stress in three dimension
Link NOC:Principles of Metal Forming Technology Lecture 8 - Description of strain
Link NOC:Principles of Metal Forming Technology Lecture 9 - Hydrostatic and deviator components of stress and strain
Link NOC:Principles of Metal Forming Technology Lecture 10 - Elastic stress strain relationships
Link NOC:Principles of Metal Forming Technology Lecture 11 - Introduction to theory of plasticity and flow curve
Link NOC:Principles of Metal Forming Technology Lecture 12 - True stress and true strain
Link NOC:Principles of Metal Forming Technology Lecture 13 - Yield criteria for ductile materials
Link NOC:Principles of Metal Forming Technology Lecture 14 - Yield locus, Octahedral shear stress and strain
Link NOC:Principles of Metal Forming Technology Lecture 15 - Plastic stress strain relationships
Link NOC:Principles of Metal Forming Technology Lecture 16 - Measures of yielding and ductility in tensile testing
Link NOC:Principles of Metal Forming Technology Lecture 17 - Instability in tension
Link NOC:Principles of Metal Forming Technology Lecture 18 - Strain rate effects on flow properties
Link NOC:Principles of Metal Forming Technology Lecture 19 - Temperature effects on flow properties
Link NOC:Principles of Metal Forming Technology Lecture 20 - Influence of various parameters on flow properties
Link NOC:Principles of Metal Forming Technology Lecture 21 - Classification of metal working processes
Link NOC:Principles of Metal Forming Technology Lecture 22 - Mechanics of metalworking and analysis methods
Link NOC:Principles of Metal Forming Technology Lecture 23 - Determination of flow stresses in metal working
Link NOC:Principles of Metal Forming Technology Lecture 24 - Hot working and cold working
Link NOC:Principles of Metal Forming Technology Lecture 25 - Metallurgical considerations in metal forming
Link NOC:Principles of Metal Forming Technology Lecture 26 - Introduction and classification of forging processes
Link NOC:Principles of Metal Forming Technology Lecture 27 - Equipments used in forging
Link NOC:Principles of Metal Forming Technology Lecture 28 - Forging in plane strain
Link NOC:Principles of Metal Forming Technology Lecture 29 - Introduction and classification of rolling processes
Link NOC:Principles of Metal Forming Technology Lecture 30 - Analysis of rolling load calculations
Link NOC:Principles of Metal Forming Technology Lecture 31 - Defects in rolled and forged products
Link NOC:Principles of Metal Forming Technology Lecture 32 - Introduction and classification of extrusion processes
Link NOC:Principles of Metal Forming Technology Lecture 33 - Analysis of extrusion processes
Link NOC:Principles of Metal Forming Technology Lecture 34 - Extrusion of tubes and pipes, extrusion defect
Link NOC:Principles of Metal Forming Technology Lecture 35 - Introduction to rod and wire drawing
Link NOC:Principles of Metal Forming Technology Lecture 36 - Analysis of wire drawing and tube drawing processes
Link NOC:Principles of Metal Forming Technology Lecture 37 - Sheet metal operations - I
Link NOC:Principles of Metal Forming Technology Lecture 38 - Sheet metal operations - II
Link NOC:Principles of Metal Forming Technology Lecture 39 - Powder metallurgy forming - I
Link NOC:Principles of Metal Forming Technology Lecture 40 - Powder metallurgy forming - II
Link NOC:Radiative Heat Transfer Lecture 1 - Introduction
Link NOC:Radiative Heat Transfer Lecture 2 - Fundamentals of Radiation
Link NOC:Radiative Heat Transfer Lecture 3 - Basic Laws of Thermal Radiation
Link NOC:Radiative Heat Transfer Lecture 4 - Properties of Plane Surfaces
Link NOC:Radiative Heat Transfer Lecture 5 - Radiative Properties of Materials
Link NOC:Radiative Heat Transfer Lecture 6 - View Factor
Link NOC:Radiative Heat Transfer Lecture 7 - Hottel Crossed String Method
Link NOC:Radiative Heat Transfer Lecture 8 - Inside Sphere and Monte Carlo Method
Link NOC:Radiative Heat Transfer Lecture 9 - Radiative Heat Exchange Between Black Surfaces
Link NOC:Radiative Heat Transfer Lecture 10 - Radiative Heat Exchange Between Gray Diffuse Surfaces
Link NOC:Radiative Heat Transfer Lecture 11 - Network Analogy
Link NOC:Radiative Heat Transfer Lecture 12 - Solution Methods for Governing Integral Equations
Link NOC:Radiative Heat Transfer Lecture 13 - Radiative Heat Exchange between Partially Specular Gray Surfaces
Link NOC:Radiative Heat Transfer Lecture 14 - Non-Gray Surfaces
Link NOC:Radiative Heat Transfer Lecture 15 - Radiative Heat Transfer in the Presence of Conduction/Convection
Link NOC:Radiative Heat Transfer Lecture 16 - Radiative Transfer in Participating Media
Link NOC:Radiative Heat Transfer Lecture 17 - Equation of Radiative Transfer
Link NOC:Radiative Heat Transfer Lecture 18 - Solution of Radiative Transfer Equation
Link NOC:Radiative Heat Transfer Lecture 19 - Radiative Heat Transfer in Cylindrical Media
Link NOC:Radiative Heat Transfer Lecture 20 - Approximate Methods-I
Link NOC:Radiative Heat Transfer Lecture 21 - Approximate Methods-II
Link NOC:Radiative Heat Transfer Lecture 22 - The Method of Spherical Harmonics (PN Approximation) - I
Link NOC:Radiative Heat Transfer Lecture 23 - The Method of Spherical Harmonics (PN Approximation) - II
Link NOC:Radiative Heat Transfer Lecture 24 - Discrete Ordinate Method (DOM)
Link NOC:Radiative Heat Transfer Lecture 25 - Zone Method
Link NOC:Radiative Heat Transfer Lecture 26 - Exchange Areas
Link NOC:Radiative Heat Transfer Lecture 27 - Monte Carlo Method for Thermal Radiation - I
Link NOC:Radiative Heat Transfer Lecture 28 - Monte Carlo Method for Thermal Radiation - II
Link NOC:Radiative Heat Transfer Lecture 29 - Radiative Properties of Gases
Link NOC:Radiative Heat Transfer Lecture 30 - Atomic and Molecular Spectra
Link NOC:Radiative Heat Transfer Lecture 31 - Line Radiation
Link NOC:Radiative Heat Transfer Lecture 32 - Spectral Modelling
Link NOC:Radiative Heat Transfer Lecture 33 - Wide Band Models
Link NOC:Radiative Heat Transfer Lecture 34 - WSGG Model
Link NOC:Radiative Heat Transfer Lecture 35 - k-Distribution Model
Link NOC:Radiative Heat Transfer Lecture 36 - Radiative Properties of Particulate Media
Link NOC:Radiative Heat Transfer Lecture 37 - Combustion and Flame
Link NOC:Radiative Heat Transfer Lecture 38 - Solar and Atmospheric Radiation
Link NOC:Radiative Heat Transfer Lecture 39 - Concentrated Solar Collector
Link NOC:Radiative Heat Transfer Lecture 40 - Experimental Methods
Link NOC:Weldability of Metals Lecture 1 - Understanding Weldability: Introduction - I
Link NOC:Weldability of Metals Lecture 2 - Understanding Weldability: Introduction - II
Link NOC:Weldability of Metals Lecture 3 - Metal Properties and Weldability - I
Link NOC:Weldability of Metals Lecture 4 - Metal Properties and Weldability - II
Link NOC:Weldability of Metals Lecture 5 - Weldability of Work Hardenable Metals
Link NOC:Weldability of Metals Lecture 6 - Weldability of Work Hardenable and Precipitation Strengthened Metals
Link NOC:Weldability of Metals Lecture 7 - Weldability of Precipitation Strengthened Metals
Link NOC:Weldability of Metals Lecture 8 - Weldability of Metals Strengthened by Grain Refinement, dispersion Hardening and Transformation Hardening
Link NOC:Weldability of Metals Lecture 9 - Weldability of Transformation Hardening Metals
Link NOC:Weldability of Metals Lecture 10 - Weldability of Metals: Combination of Strengthening Mechanisms
Link NOC:Weldability of Metals Lecture 11 - Weldability Consideration
Link NOC:Weldability of Metals Lecture 12 - Weldability of Carbon and Alloy Steel - I
Link NOC:Weldability of Metals Lecture 13 - Weldability of Carbon and Alloy Steel - II
Link NOC:Weldability of Metals Lecture 14 - Weldability of Carbon and Alloy Steel - III
Link NOC:Weldability of Metals Lecture 15 - Weldability of Low Carbon Steel and Mild Steel
Link NOC:Weldability of Metals Lecture 16 - Weldability of Medium Carbon Steel and High Carbon Steel
Link NOC:Weldability of Metals Lecture 17 - Weldability of Carbon and Welding Processes - I
Link NOC:Weldability of Metals Lecture 18 - Weldability of Carbon and Welding Processes - II
Link NOC:Weldability of Metals Lecture 19 - Weldability of Carbon Steel and Welding Processes - III
Link NOC:Weldability of Metals Lecture 20 - Weldability of Carbon Steel and Radiation Welding and Thermal Cutting
Link NOC:Weldability of Metals Lecture 21 - Weldability of High Strength Low Alloy Steels
Link NOC:Weldability of Metals Lecture 22 - Weldability of Q&T Steels - I
Link NOC:Weldability of Metals Lecture 23 - Weldability of Q&T Steels - II
Link NOC:Weldability of Metals Lecture 24 - Weldability of Q&T Steels - III
Link NOC:Weldability of Metals Lecture 25 - Weldability of Q&T Steels - IV
Link NOC:Weldability of Metals Lecture 26 - Weldability of HTLA Steel - I
Link NOC:Weldability of Metals Lecture 27 - Weldability of HTLA Steel - II
Link NOC:Weldability of Metals Lecture 28 - Weldability of Cr-Mo Steel - I
Link NOC:Weldability of Metals Lecture 29 - Weldability of Cr-Mo Steel - II
Link NOC:Weldability of Metals Lecture 30 - Weldability of Cr-Mo Steel - III
Link NOC:Weldability of Metals Lecture 31 - Weldability of Pre-Coated Steel - I
Link NOC:Weldability of Metals Lecture 32 - Weldability of Pre-Coated Steel - II
Link NOC:Weldability of Metals Lecture 33 - Weldability of Stainless Steel - I
Link NOC:Weldability of Metals Lecture 34 - Weldability of Stainless Steel - II
Link NOC:Weldability of Metals Lecture 35 - Weldability of Martensitic Stainless Steel - I
Link NOC:Weldability of Metals Lecture 36 - Weldability of Martensitic Stainless Steel - II
Link NOC:Weldability of Metals Lecture 37 - Weldability of Ferritic Stainless Steel - I
Link NOC:Weldability of Metals Lecture 38 - Weldability of Austenitic Stainless Steel - I
Link NOC:Weldability of Metals Lecture 39 - Weldability of Austenitic Stainless Steel - II
Link NOC:Weldability of Metals Lecture 40 - Weldability of PH Stainless Steel
Link NOC:Manufacturing Guidelines for Product Design Lecture 1 - Product Design : Basics
Link NOC:Manufacturing Guidelines for Product Design Lecture 2 - Introduction of Manufacturing Processes
Link NOC:Manufacturing Guidelines for Product Design Lecture 3 - Manufacturing Processes : Advantages and Limitations - I
Link NOC:Manufacturing Guidelines for Product Design Lecture 4 - Manufacturing Processes : Advantages and Limitations - II
Link NOC:Manufacturing Guidelines for Product Design Lecture 5 - Process Capabilities : Basics
Link NOC:Manufacturing Guidelines for Product Design Lecture 6 - Engineering Materials
Link NOC:Manufacturing Guidelines for Product Design Lecture 7 - Properties of materials
Link NOC:Manufacturing Guidelines for Product Design Lecture 8 - Selection of materials - I
Link NOC:Manufacturing Guidelines for Product Design Lecture 9 - Selection of materials - II
Link NOC:Manufacturing Guidelines for Product Design Lecture 10 - Applications of Engineering Material
Link NOC:Manufacturing Guidelines for Product Design Lecture 11 - Robust design
Link NOC:Manufacturing Guidelines for Product Design Lecture 12 - Design for X
Link NOC:Manufacturing Guidelines for Product Design Lecture 13 - Product Design for Manual Assembly
Link NOC:Manufacturing Guidelines for Product Design Lecture 14 - DFMA Guidelines
Link NOC:Manufacturing Guidelines for Product Design Lecture 15 - Ergonomics in Product Design
Link NOC:Manufacturing Guidelines for Product Design Lecture 16 - Selection of processes - I
Link NOC:Manufacturing Guidelines for Product Design Lecture 17 - Selection of processes - II
Link NOC:Manufacturing Guidelines for Product Design Lecture 18 - Process Capabilities.
Link NOC:Manufacturing Guidelines for Product Design Lecture 19 - Design Guidelines for Sand Casting
Link NOC:Manufacturing Guidelines for Product Design Lecture 20 - Design Guidelines for Die Casting
Link NOC:Manufacturing Guidelines for Product Design Lecture 21 - Product Design Guidelines : Compression Molding and Extrusion
Link NOC:Manufacturing Guidelines for Product Design Lecture 22 - Design Guidelines for Extrusion and Injection Molding
Link NOC:Manufacturing Guidelines for Product Design Lecture 23 - Design Guidelines for Sheet Metal Working
Link NOC:Manufacturing Guidelines for Product Design Lecture 24 - Design Guidelines for Machining
Link NOC:Manufacturing Guidelines for Product Design Lecture 25 - Design Guidelines for Powder Metal Processing
Link NOC:Manufacturing Guidelines for Product Design Lecture 26 - Assembly Processes : Introduction
Link NOC:Manufacturing Guidelines for Product Design Lecture 27 - Adhesive Joining : Guidelines
Link NOC:Manufacturing Guidelines for Product Design Lecture 28 - Design Guidelines for Mechanical Fasteners
Link NOC:Manufacturing Guidelines for Product Design Lecture 29 - Design Guidelines for Welding
Link NOC:Manufacturing Guidelines for Product Design Lecture 30 - Design guidelines : Brazing and Soldering
Link NOC:Manufacturing Guidelines for Product Design Lecture 31 - Induction Welding : Plastics
Link NOC:Manufacturing Guidelines for Product Design Lecture 32 - Ultrasonic Welding : Plastics
Link NOC:Manufacturing Guidelines for Product Design Lecture 33 - Vibration and Spin Welding : Plastics
Link NOC:Manufacturing Guidelines for Product Design Lecture 34 - Microwave Joining
Link NOC:Manufacturing Guidelines for Product Design Lecture 35 - Hole making : Guidelines
Link NOC:Manufacturing Guidelines for Product Design Lecture 36 - Design for Environment
Link NOC:Manufacturing Guidelines for Product Design Lecture 37 - Design for Environment : Steps
Link NOC:Manufacturing Guidelines for Product Design Lecture 38 - Product Architecture
Link NOC:Manufacturing Guidelines for Product Design Lecture 39 - Rapid Prototyping
Link NOC:Manufacturing Guidelines for Product Design Lecture 40 - Product Design : Manufacturing Perspective
Link NOC:Inspection and Quality Control in Manufacturing Lecture 1 - Introduction: Fundamental concepts of quality, inspection and their role in manufacturing
Link NOC:Inspection and Quality Control in Manufacturing Lecture 2 - Need of Inspection: Types and Principles
Link NOC:Inspection and Quality Control in Manufacturing Lecture 3 - Destructive Inspection - I
Link NOC:Inspection and Quality Control in Manufacturing Lecture 4 - Destructive Inspection - II
Link NOC:Inspection and Quality Control in Manufacturing Lecture 5 - Testing of Composite Materials
Link NOC:Inspection and Quality Control in Manufacturing Lecture 6 - Nondestructive Inspection - Visual Inspection
Link NOC:Inspection and Quality Control in Manufacturing Lecture 7 - Dye Penetrant Inspection
Link NOC:Inspection and Quality Control in Manufacturing Lecture 8 - Magnetic Particle Inspection
Link NOC:Inspection and Quality Control in Manufacturing Lecture 9 - Eddy Current Inspection
Link NOC:Inspection and Quality Control in Manufacturing Lecture 10 - Ultrasonic Inspection
Link NOC:Inspection and Quality Control in Manufacturing Lecture 11 - Acoustic Emission Inspection
Link NOC:Inspection and Quality Control in Manufacturing Lecture 12 - Radiography Inspection
Link NOC:Inspection and Quality Control in Manufacturing Lecture 13 - Leak Testing
Link NOC:Inspection and Quality Control in Manufacturing Lecture 14 - Thermographic Nondestructive Testing
Link NOC:Inspection and Quality Control in Manufacturing Lecture 15 - Advanced Nondestructive Testing Techniques, NDT Standards, Safety in NDT
Link NOC:Inspection and Quality Control in Manufacturing Lecture 16 - Engineering Metrology - Linear Measurement
Link NOC:Inspection and Quality Control in Manufacturing Lecture 17 - Angular Measurement and Measurement of Surface Finish
Link NOC:Inspection and Quality Control in Manufacturing Lecture 18 - Screw Thread Metrology
Link NOC:Inspection and Quality Control in Manufacturing Lecture 19 - Gear Measurement
Link NOC:Inspection and Quality Control in Manufacturing Lecture 20 - Miscellaneous Measurements
Link NOC:Financial Mathematics Lecture 1 - Introduction to Financial Mathematics
Link NOC:Financial Mathematics Lecture 2 - Important Mathematical Functions and its Characteristics
Link NOC:Financial Mathematics Lecture 3 - Progressions and Series, Growth and Decay Curves
Link NOC:Financial Mathematics Lecture 4 - Statistical Measures
Link NOC:Financial Mathematics Lecture 5 - Problem Solving on Mathematical Functions and Statistical Measures
Link NOC:Financial Mathematics Lecture 6 - Interest and Interest Rate, Time Value of Money
Link NOC:Financial Mathematics Lecture 7 - Simple Discount, Focal Date and Equation of Value
Link NOC:Financial Mathematics Lecture 8 - Introduction to Bank Discount
Link NOC:Financial Mathematics Lecture 9 - Introduction to Compound Interest
Link NOC:Financial Mathematics Lecture 10 - Problem Solving on Simple Interest and Bank Discount
Link NOC:Financial Mathematics Lecture 11 - Introduction to Discrete Compounding and Discrete Payments
Link NOC:Financial Mathematics Lecture 12 - Equal Payment Series and Gradient Series Factors
Link NOC:Financial Mathematics Lecture 13 - Geometric Gradient Series Factors
Link NOC:Financial Mathematics Lecture 14 - Annuities Due and Annuities Deferred
Link NOC:Financial Mathematics Lecture 15 - Problem Solving on Compounding Factors
Link NOC:Financial Mathematics Lecture 16 - Compounding Frequency of Interest
Link NOC:Financial Mathematics Lecture 17 - Interest Factors for Continuous Compounding
Link NOC:Financial Mathematics Lecture 18 - Introduction to Economic Equivalence
Link NOC:Financial Mathematics Lecture 19 - Principles of Equivalence
Link NOC:Financial Mathematics Lecture 20 - Problem Solving on Compounding Frequency and Economic Equivalence
Link NOC:Financial Mathematics Lecture 21 - Methods of Comparison of Alternatives
Link NOC:Financial Mathematics Lecture 22 - Payback Period
Link NOC:Financial Mathematics Lecture 23 - Capitalized Equivalent and Capital Recovery with Return
Link NOC:Financial Mathematics Lecture 24 - Project Balance
Link NOC:Financial Mathematics Lecture 25 - Problem Solving on Alternatives Comparison and Project Balance
Link NOC:Financial Mathematics Lecture 26 - Analysis of Credit and Loans
Link NOC:Financial Mathematics Lecture 27 - Assessing Interest and Structured Payments in Loans
Link NOC:Financial Mathematics Lecture 28 - Introduction to Cost of Credit and Amortization
Link NOC:Financial Mathematics Lecture 29 - Analysis of Amortization Schedule
Link NOC:Financial Mathematics Lecture 30 - Graduated Payment Mortgage, Sinking Funds
Link NOC:Financial Mathematics Lecture 31 - Introduction to Depreciation and Depletion
Link NOC:Financial Mathematics Lecture 32 - Types of Depreciation: SL Method and Declining Balance Method
Link NOC:Financial Mathematics Lecture 33 - Tax Depreciation Methods
Link NOC:Financial Mathematics Lecture 34 - SOD and UOP Method of Depreciation, Depletion
Link NOC:Financial Mathematics Lecture 35 - Problem Solving on Depreciation and Depletion
Link NOC:Financial Mathematics Lecture 36 - Introduction to Break-Even Analysis
Link NOC:Financial Mathematics Lecture 37 - Analysis of Break-Even Time and Dual Break-Even Points
Link NOC:Financial Mathematics Lecture 38 - Economic Order Quantity
Link NOC:Financial Mathematics Lecture 39 - Introduction to Leverage
Link NOC:Financial Mathematics Lecture 40 - Financial Leverage and Total Leverage
Link NOC:Financial Mathematics Lecture 41 - Introduction to Stocks
Link NOC:Financial Mathematics Lecture 42 - Stock Valuation
Link NOC:Financial Mathematics Lecture 43 - Two Stage Dividend Growth and Preferred Stocks
Link NOC:Financial Mathematics Lecture 44 - Introduction to Bonds
Link NOC:Financial Mathematics Lecture 45 - Bond Premium and Discount, Bond Purchase
Link NOC:Financial Mathematics Lecture 46 - Introduction to Mutual funds
Link NOC:Financial Mathematics Lecture 47 - Performance Measures
Link NOC:Financial Mathematics Lecture 48 - Options
Link NOC:Financial Mathematics Lecture 49 - Option Valuation
Link NOC:Financial Mathematics Lecture 50 - Introduction to Cost of Capital and Ratio Analysis
Link NOC:Financial Mathematics Lecture 51 - Introduction to Risk Measurement
Link NOC:Financial Mathematics Lecture 52 - Decision-Making Under Risk
Link NOC:Financial Mathematics Lecture 53 - Decision Under Uncertainty
Link NOC:Financial Mathematics Lecture 54 - Risk Premium, Portfolio Return and Risk
Link NOC:Financial Mathematics Lecture 55 - Portfolio Diversification
Link NOC:Financial Mathematics Lecture 56 - Introduction to Insurance, Mortality Table
Link NOC:Financial Mathematics Lecture 57 - Pure Endowment and Life Annuities
Link NOC:Financial Mathematics Lecture 58 - Introduction to Life Insurance
Link NOC:Financial Mathematics Lecture 59 - Types of Life Insurance Policies
Link NOC:Financial Mathematics Lecture 60 - Reserve Funds, Property and Casualty Insurance
Link NOC:Product Design Using Value Engineering Lecture 1 - Introduction to Product Design and Development
Link NOC:Product Design Using Value Engineering Lecture 2 - Product Design Steps and Product Analysis
Link NOC:Product Design Using Value Engineering Lecture 3 - Profit Consideration
Link NOC:Product Design Using Value Engineering Lecture 4 - Value Engineering (VE) History, Concept and Definitions
Link NOC:Product Design Using Value Engineering Lecture 5 - Value Engineering vs Cost Cutting
Link NOC:Product Design Using Value Engineering Lecture 6 - Creative Thinking
Link NOC:Product Design Using Value Engineering Lecture 7 - Problem Identification and VEJP
Link NOC:Product Design Using Value Engineering Lecture 8 - Types of Product Functions
Link NOC:Product Design Using Value Engineering Lecture 9 - Funtional Analysis
Link NOC:Product Design Using Value Engineering Lecture 10 - Functional Analysis System Technique
Link NOC:Product Design Using Value Engineering Lecture 11 - Function-Cost Relationship - I
Link NOC:Product Design Using Value Engineering Lecture 12 - Function-Cost Relationship - II
Link NOC:Product Design Using Value Engineering Lecture 13 - VE Applications in Product Design
Link NOC:Product Design Using Value Engineering Lecture 14 - Value Engineering: Case Study - I
Link NOC:Product Design Using Value Engineering Lecture 15 - Value Engineering: Case Study - II
Link NOC:Product Design Using Value Engineering Lecture 16 - VE Tools and Techniques - I
Link NOC:Product Design Using Value Engineering Lecture 17 - VE Tools and Techniques - II
Link NOC:Product Design Using Value Engineering Lecture 18 - VE Success Stories - I
Link NOC:Product Design Using Value Engineering Lecture 19 - VE Success Stories - II
Link NOC:Product Design Using Value Engineering Lecture 20 - Behavioral Roadblocks
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 1 - Introduction
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 2 - Solar Energy Harvesting
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 3 - Perovskite Solar Cells
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 4 - Solar Thermal Energy
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 5 - Heat Transfer Fluids
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 6 - Hydrogen Energy: Introduction and Hydrogen Production from Fossil Fuels and Biomass
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 7 - Hydrogen Production from Thermochemical Process
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 8 - Hydrogen Production from Electrolysis
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 9 - Photo-electrochemical Production of Hydrogen Using Solar Energy
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 10 - Hydrogen Production from Biological Process
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 11 - Nanogenerators: Introduction and Piezoelectric Nanogenerators
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 12 - Triboelectric Nanogenerators
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 13 - Pyroelectric Nanogenerators
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 14 - Thermoelectric Nanogenerators and Electromagnetic generators
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 15 - Other Energy Resources
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 16 - Energy Storage
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 17 - Electrochemical Energy Storage (Batteries)
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 18 - Supercapacitors
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 19 - Hydrogen Storage
Link NOC:Selection of Nanomaterials for Energy Harvesting and Storage Application Lecture 20 - Thermal Energy Storage
Link Micro and Smart Systems Lecture 1 - Glimpses of Microsystems: Scaling Effects
Link Micro and Smart Systems Lecture 2 - Smart Materials and Systems
Link Micro and Smart Systems Lecture 3 - Microsensors
Link Micro and Smart Systems Lecture 4 - Microactuators
Link Micro and Smart Systems Lecture 5 - Microsystems: some Examples
Link Micro and Smart Systems Lecture 6 - Smart systems Application and Structural Health Monitoring
Link Micro and Smart Systems Lecture 7 - Microfabrication Technologies
Link Micro and Smart Systems Lecture 8 - Thin-film Materials and their Deposition
Link Micro and Smart Systems Lecture 9 - Approaches for Pattern Transfer
Link Micro and Smart Systems Lecture 10 - Surface Micromachining of Microstructures
Link Micro and Smart Systems Lecture 11 - Bulk Micromachining of Microsystems
Link Micro and Smart Systems Lecture 12 - Extended Approaches for Working Microsystems
Link Micro and Smart Systems Lecture 13 - Non-conventional Approaches for Microsystems
Link Micro and Smart Systems Lecture 14 - Packaging of Microsystems
Link Micro and Smart Systems Lecture 15 - Deformation Strains and Stresses
Link Micro and Smart Systems Lecture 16 - Microdevice Suspensions: Lumped Modeling
Link Micro and Smart Systems Lecture 17 - Residual Stress and Stress Gradients
Link Micro and Smart Systems Lecture 18 - Torsion and Twist
Link Micro and Smart Systems Lecture 19 - Vibrations of Microsystems Devices: Part-1
Link Micro and Smart Systems Lecture 20 - Vibrations of Microsystems Devices: Part-2 Micromachined Gyroscopes: Part-1
Link Micro and Smart Systems Lecture 21 - Micromachined Gyroscopes: Part-2 Modelling of Coupled Electrostatic Microsystems: Part-1
Link Micro and Smart Systems Lecture 22 - Modelling of Coupled Electrostatic Microsystems: Part-2
Link Micro and Smart Systems Lecture 23 - Coupled Electrothermal-elastic Modelling
Link Micro and Smart Systems Lecture 24 - Modelling of Microsystems: Scaling Effects
Link Micro and Smart Systems Lecture 25 - Finite Element Method and Microsystems
Link Micro and Smart Systems Lecture 26 - Theoretical Basis for the Finite Element Method
Link Micro and Smart Systems Lecture 27 - Energy Theorems and Weak Form of the Governing Equation
Link Micro and Smart Systems Lecture 28 - Finite Element Equation Development and Shape Functions
Link Micro and Smart Systems Lecture 29 - Isoparametric FE Formulation and some Examples
Link Micro and Smart Systems Lecture 30 - Finite Element for Structures with Piezoelectric Materials
Link Micro and Smart Systems Lecture 31 - Semiconductor Device Physics
Link Micro and Smart Systems Lecture 32 - BJT and MOSFET Characteristics and Op-Amps
Link Micro and Smart Systems Lecture 33 - Op-Amp Circuits and Signal conditioning for Microsystems Devices
Link Micro and Smart Systems Lecture 34 - Control and Microsystems
Link Micro and Smart Systems Lecture 35 - Vibration Control of a Beam
Link Micro and Smart Systems Lecture 36 - Signal Conditioning Circuits and Integration of Microsystems and Microelectronics
Link Micro and Smart Systems Lecture 37 - Pressure Sensor Design Concepts, Processing, and Packaging: Part-1
Link Micro and Smart Systems Lecture 38 - Pressure Sensor Design Concepts, Processing, and Packaging: Part-2
Link Micro and Smart Systems Lecture 39 - Pressure Sensor Design Concepts, Processing, and Packaging: Part-3 Capacitive Micro-accelerometer: Part-1
Link Micro and Smart Systems Lecture 40 - Capacitive Micro-accelerometer: Part-2
Link NOC:Variational Methods in Mechanics Lecture 1 - Classification of optimization problems and the place of Calculus of Variations in it - Part I
Link NOC:Variational Methods in Mechanics Lecture 2 - Classification of optimization problems and the place of Calculus of Variations in it - Part II
Link NOC:Variational Methods in Mechanics Lecture 3 - Genesis of Calculus of Variations - Part I
Link NOC:Variational Methods in Mechanics Lecture 4 - Genesis of Calculus of Variations - Part II
Link NOC:Variational Methods in Mechanics Lecture 5 - Formulation of Calculus of Variations problems in geometry and mechanics and design - Part I
Link NOC:Variational Methods in Mechanics Lecture 6 - Formulation of Calculus of Variations problems in geometry and mechanics and design - Part II
Link NOC:Variational Methods in Mechanics Lecture 7 - Unconstrained minimization in one and many variables - Part I
Link NOC:Variational Methods in Mechanics Lecture 8 - Unconstrained minimization in one and many variables - Part II
Link NOC:Variational Methods in Mechanics Lecture 9 - Constrained minimization KKT conditions - Part I
Link NOC:Variational Methods in Mechanics Lecture 10 - Constrained minimization KKT conditions - Part II
Link NOC:Variational Methods in Mechanics Lecture 11 - Sufficient conditions for constrained minimization - Part I
Link NOC:Variational Methods in Mechanics Lecture 12 - Sufficient conditions for constrained minimization - Part II
Link NOC:Variational Methods in Mechanics Lecture 13 - Mathematical preliminaries function, functional, metrics and metric space, norm and vector spaces - Part I
Link NOC:Variational Methods in Mechanics Lecture 14 - Mathematical preliminaries function, functional, metrics and metric space, norm and vector spaces - Part II
Link NOC:Variational Methods in Mechanics Lecture 15 - Function spaces and Gateaux variation
Link NOC:Variational Methods in Mechanics Lecture 16 - First variation of a functional Freche?t differential and variational derivative
Link NOC:Variational Methods in Mechanics Lecture 17 - Fundamental lemma of calculus of variations and Euler Lagrange equations - Part I
Link NOC:Variational Methods in Mechanics Lecture 18 - Fundamental lemma of calculus of variations and Euler Lagrange equations - Part II
Link NOC:Variational Methods in Mechanics Lecture 19 - Extension of Euler-Lagrange equations to multiple derivatives
Link NOC:Variational Methods in Mechanics Lecture 20 - Extension of Euler-Lagrange equations to multiple functions in a functional
Link NOC:Variational Methods in Mechanics Lecture 21 - Global Constraints in calculus of variations - Part I
Link NOC:Variational Methods in Mechanics Lecture 22 - Global Constraints in calculus of variations - Part II
Link NOC:Variational Methods in Mechanics Lecture 23 - Local (finite subsidiary) constrains in calculus of variations - Part I
Link NOC:Variational Methods in Mechanics Lecture 24 - Local (finite subsidiary) constrains in calculus of variations - Part II
Link NOC:Variational Methods in Mechanics Lecture 25 - Size optimization of a bar for maximum stiffness for given volume - Part I
Link NOC:Variational Methods in Mechanics Lecture 26 - Size optimization of a bar for maximum stiffness for given volume - Part II
Link NOC:Variational Methods in Mechanics Lecture 27 - Size optimization of a bar for maximum stiffness for given volume - Part III
Link NOC:Variational Methods in Mechanics Lecture 28 - Calculus of variations in functionals involving two and three independent variables - Part I
Link NOC:Variational Methods in Mechanics Lecture 29 - Calculus of variations in functionals involving two and three independent variables - Part II
Link NOC:Variational Methods in Mechanics Lecture 30 - General variation of a functional, transversality conditions. Broken extremals, Wierstrass-Erdmann corner conditions - Part I
Link NOC:Variational Methods in Mechanics Lecture 31 - General variation of a functional, transversality conditions. Broken extremals, Wierstrass-Erdmann corner conditions - Part II
Link NOC:Variational Methods in Mechanics Lecture 32 - Variational (energy) methods in statics; principles of minimum potential energy and virtual work
Link NOC:Variational Methods in Mechanics Lecture 33 - General framework of optimal structural designs - Part I
Link NOC:Variational Methods in Mechanics Lecture 34 - General framework of optimal structural designs - Part II
Link NOC:Variational Methods in Mechanics Lecture 35 - Optimal structural design of bars and beams using the optimality criteria method
Link NOC:Variational Methods in Mechanics Lecture 36 - Invariants of Euler-Lagrange equations and canonical forms
Link NOC:Variational Methods in Mechanics Lecture 37 - Noether’s theorem
Link NOC:Variational Methods in Mechanics Lecture 38 - Minimum characterization of Sturm-Liouville problems
Link NOC:Variational Methods in Mechanics Lecture 39 - Rayleigh quotient for natural frequencies and mode shapes of elastic systems
Link NOC:Variational Methods in Mechanics Lecture 40 - Stability analysis and buckling using calculus of variations
Link NOC:Variational Methods in Mechanics Lecture 41 - Strongest (most stable) column
Link NOC:Variational Methods in Mechanics Lecture 42 - Dynamic compliance optimization
Link NOC:Variational Methods in Mechanics Lecture 43 - Electro-thermal-elastic structural optimization
Link NOC:Variational Methods in Mechanics Lecture 44 - Formulating the extremization problem starting from the differential equation, self-adjointness of the differential operator, and methods to deal with conservative and dissipative system
Link NOC:Compliant Mechanisms: Principles and Design Lecture 1 - Overview
Link NOC:Compliant Mechanisms: Principles and Design Lecture 2 - Spirit of compliant design
Link NOC:Compliant Mechanisms: Principles and Design Lecture 3 - A glimpse of applications
Link NOC:Compliant Mechanisms: Principles and Design Lecture 4 - Mobility and degrees of freedom in compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 5 - Maxwell’s rule and Grübler’s formula
Link NOC:Compliant Mechanisms: Principles and Design Lecture 6 - Using compatibility and force equilibrium matrices to identify degrees of freedom and states of self-stress in trusses
Link NOC:Compliant Mechanisms: Principles and Design Lecture 7 - Empirical formula for flexure joints
Link NOC:Compliant Mechanisms: Principles and Design Lecture 8 - Types of elastic pairs (flexures)
Link NOC:Compliant Mechanisms: Principles and Design Lecture 9 - Linear finite element analysis of compliant mechanisms with beam elements
Link NOC:Compliant Mechanisms: Principles and Design Lecture 10 - A compliant mechanism kit
Link NOC:Compliant Mechanisms: Principles and Design Lecture 11 - Linear and nonlinear finite element analyses using continuum elements
Link NOC:Compliant Mechanisms: Principles and Design Lecture 12 - Subtleties in finite element analysis: geometric nonlinearity and contact
Link NOC:Compliant Mechanisms: Principles and Design Lecture 13 - Deformation of a cantilever under a tip-load, using elliptic integrals
Link NOC:Compliant Mechanisms: Principles and Design Lecture 14 - Elliptic integrals and their use in elastica analysis
Link NOC:Compliant Mechanisms: Principles and Design Lecture 15 - Frisch-Fay’s approach to large deformation of beam
Link NOC:Compliant Mechanisms: Principles and Design Lecture 16 - Burns-Crossley’s kinematic model
Link NOC:Compliant Mechanisms: Principles and Design Lecture 17 - Howell-Midha’s elastic model
Link NOC:Compliant Mechanisms: Principles and Design Lecture 18 - Putting together the pseudo rigid-body model
Link NOC:Compliant Mechanisms: Principles and Design Lecture 19 - Modeling a partially compliant mechanism
Link NOC:Compliant Mechanisms: Principles and Design Lecture 20 - Kinematic coefficients of a four-bar linkage with and without springs
Link NOC:Compliant Mechanisms: Principles and Design Lecture 21 - Solving equations of PRB modeling and comparing with finite element analysis
Link NOC:Compliant Mechanisms: Principles and Design Lecture 22 - Loop-closure equations for PRB models of compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 23 - Burmester theory for compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 24 - PRB-based Synthesis Examples
Link NOC:Compliant Mechanisms: Principles and Design Lecture 25 - Structural optimization approach
Link NOC:Compliant Mechanisms: Principles and Design Lecture 26 - Early works on design for compliance
Link NOC:Compliant Mechanisms: Principles and Design Lecture 27 - Design for deflection of trusses
Link NOC:Compliant Mechanisms: Principles and Design Lecture 28 - Design for deflection of beams and frames
Link NOC:Compliant Mechanisms: Principles and Design Lecture 29 - Design of elastic continua for desired deflection
Link NOC:Compliant Mechanisms: Principles and Design Lecture 30 - Continuum element-based topology optimization of compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 31 - YinSyn; synthesis of nonlinear responses with compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 32 - Five different formulations for compliant mechanism design and some benchmark problems
Link NOC:Compliant Mechanisms: Principles and Design Lecture 33 - Distributed compliance
Link NOC:Compliant Mechanisms: Principles and Design Lecture 34 - How to achieve distributed compliance
Link NOC:Compliant Mechanisms: Principles and Design Lecture 35 - Shape optimization
Link NOC:Compliant Mechanisms: Principles and Design Lecture 36 - Cam-flexure clamp-case-study
Link NOC:Compliant Mechanisms: Principles and Design Lecture 37 - SL model for compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 38 - Feasibility maps for compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 39 - Selection of compliant mechanisms for given user-specifications
Link NOC:Compliant Mechanisms: Principles and Design Lecture 40 - Two case-studies using feasibility maps technique
Link NOC:Compliant Mechanisms: Principles and Design Lecture 41 - SML model for compliant mechanisms for dynamic response
Link NOC:Compliant Mechanisms: Principles and Design Lecture 42 - Re-design of compliant mechanisms; Matlab and Java codes
Link NOC:Compliant Mechanisms: Principles and Design Lecture 43 - Non-dimensional analysis of beams
Link NOC:Compliant Mechanisms: Principles and Design Lecture 44 - Deformation index and slenderness ratio of compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 45 - Kinetoelastostatic maps
Link NOC:Compliant Mechanisms: Principles and Design Lecture 46 - Designing with kinetoelastic maps
Link NOC:Compliant Mechanisms: Principles and Design Lecture 47 - Non-dimensinalization of stress, frequency, and other measures
Link NOC:Compliant Mechanisms: Principles and Design Lecture 48 - Designing compliant suspensions using kinetoelastic maps
Link NOC:Compliant Mechanisms: Principles and Design Lecture 49 - Instant centre method for designing compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 50 - Stiffness and compliance ellipsoids
Link NOC:Compliant Mechanisms: Principles and Design Lecture 51 - Building block method of designing compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 52 - Comparative analysis of different methods for designing compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 53 - Aspects of Mechanical advantage of compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 54 - Mechanical advantage of rigid-body and compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 55 - Bistability in elastic systems
Link NOC:Compliant Mechanisms: Principles and Design Lecture 56 - Analysis of bistable arches
Link NOC:Compliant Mechanisms: Principles and Design Lecture 57 - Compliant mechanisms with bistable arches
Link NOC:Compliant Mechanisms: Principles and Design Lecture 58 - Static balancing and zero-free-length springs
Link NOC:Compliant Mechanisms: Principles and Design Lecture 59 - Static balance of a compliant mechanism using a linkage
Link NOC:Compliant Mechanisms: Principles and Design Lecture 60 - Static balancing method for compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 61 - A catalogue of compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 62 - Compliant suspension mechanism in microsystems (MEMS)
Link NOC:Compliant Mechanisms: Principles and Design Lecture 63 - Micromechanical signal processors using compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 64 - A few special concepts of compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 65 - Materials and prototyping of compliant mechanisms
Link NOC:Compliant Mechanisms: Principles and Design Lecture 66 - Summary of the course
Link NOC:Compliant Mechanisms: Principles and Design Lecture 67 - Micromachined accelerometers with Displacement-amplifying Compliant Mechanisms (DaCMs)
Link NOC:Compliant Mechanisms: Principles and Design Lecture 68 - Miniature compliant mechanisms as cell-manipulation tools
Link NOC:Compliant Mechanisms: Principles and Design Lecture 69 - Micro-newton force sensor
Link NOC:Compliant Mechanisms: Principles and Design Lecture 70 - Compliant tissue cutting mechanism
Link NOC:Compliant Mechanisms: Principles and Design Lecture 71 - A compliant pipe-crawling robots
Link NOC:Compliant Mechanisms: Principles and Design Lecture 72 - A compliant easy-chair for the elderly
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 1 - Introduction to Multiphase
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 2 - Thermodynamics of Multiphase systems
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 3 - Thermodynamics of Interface - I
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 4 - Thermodynamics of Interface - II
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 5 - Interfacial phenomena key concepts - I
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 6 - Interfacial phenomena key concepts - II
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 7 - Interfacial heat and mass transfer - I - Interfacial mass, momentum and energy balance, Surface tension, WettingL07
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 8 - Interfacial heat and mass transfer - II - Interfacial dynamics, Instabilities of the interface
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 9 - Interfacial heat and mass transfer - III - Evaporation from thin films
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 10 - Governing equations and interfacial conditions
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 11 - Governing equations : Averaging techniques - I
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 12 - Governing equations : Averaging techniques - II
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 13 - Governing equations : Averaging techniques - III
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 14 - Interface shapes
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 15 - Transport processes at interface with key concepts - I
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 16 - Transport processes at interface with key concepts - II
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 17 - Interfacial transport
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 18 - Interfacial transport including dynamic behavior
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 19 - Interface behavior
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 20 - Heat transfer and evaporation in droplets
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 21 - Droplet vaporization models - I
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 22 - Droplet vaporization models - II
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 23 - Droplet vaporization dynamics - I
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 24 - Droplet vaporization dynamics - II
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 25 - Droplet liquid phase transport
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 26 - Comprehensive droplet vaporization model and correlations - I
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 27 - Comprehensive droplet vaporization model and correlations - II
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 28 - Comparison of droplet vaporization models
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 29 - Species transport in droplet
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 30 - Heat transfer and transport processes in sessile droplets
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 31 - Introduction to atomization
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 32 - Atomization principles and governing parameters
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 33 - Spray / droplet breakup models – I (TAB model)
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 34 - Spray / droplet breakup models – II (WAVE model)
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 35 - Droplet combustion - I
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 36 - Droplet combustion - II
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 37 - Regimes in spray combustion
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 38 - Boiling - I
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 39 - Boiling - II (Bubble dynamics)
Link NOC:Heat Transfer and Combustion in Multiphase Systems Lecture 40 - Boiling - II (Bubble dynamics and critical heat flux)
Link NOC:Convective Heat Transfer (2018) Lecture 1 - Introduction to convective heat transfer
Link NOC:Convective Heat Transfer (2018) Lecture 2 - Governing equations I - Momentum Conservation
Link NOC:Convective Heat Transfer (2018) Lecture 3 - Governing equations II - Energy Conservation
Link NOC:Convective Heat Transfer (2018) Lecture 4 - Introduction to external forced convection
Link NOC:Convective Heat Transfer (2018) Lecture 5 - Scaling Analysis - Momentum
Link NOC:Convective Heat Transfer (2018) Lecture 6 - Scaling Analysis - Energy I
Link NOC:Convective Heat Transfer (2018) Lecture 7 - Scaling Analysis - Energy II
Link NOC:Convective Heat Transfer (2018) Lecture 8 - Similarity solution - Momentum
Link NOC:Convective Heat Transfer (2018) Lecture 9 - Similarity solution - Energy
Link NOC:Convective Heat Transfer (2018) Lecture 10 - Integral solutions - Momentum
Link NOC:Convective Heat Transfer (2018) Lecture 11 - Integral solutions - Energy
Link NOC:Convective Heat Transfer (2018) Lecture 12 - Suction and Blowing
Link NOC:Convective Heat Transfer (2018) Lecture 13 - Falkner-Skan solution
Link NOC:Convective Heat Transfer (2018) Lecture 14 - Arbitrary Wall temperature
Link NOC:Convective Heat Transfer (2018) Lecture 15 - Internal forced convection - Developing flow
Link NOC:Convective Heat Transfer (2018) Lecture 16 - Hydrodynamic fully developed flow
Link NOC:Convective Heat Transfer (2018) Lecture 17 - Mean temperature in fully developed flow
Link NOC:Convective Heat Transfer (2018) Lecture 18 - Uniform heat flux
Link NOC:Convective Heat Transfer (2018) Lecture 19 - Uniform wall temperature
Link NOC:Convective Heat Transfer (2018) Lecture 20 - Tube surrounded by isothermal flow
Link NOC:Convective Heat Transfer (2018) Lecture 21 - Heat transfer to fully developed flow - I
Link NOC:Convective Heat Transfer (2018) Lecture 22 - Heat transfer to fully developed flow - II
Link NOC:Convective Heat Transfer (2018) Lecture 23 - Laminar slug flow
Link NOC:Convective Heat Transfer (2018) Lecture 24 - Power law fluids
Link NOC:Convective Heat Transfer (2018) Lecture 25 - Forced convection - Tutorial I
Link NOC:Convective Heat Transfer (2018) Lecture 26 - Forced convection - Tutorial II
Link NOC:Convective Heat Transfer (2018) Lecture 27 - Forced convection - Tutorial III
Link NOC:Convective Heat Transfer (2018) Lecture 28 - Introduction to external natural convection
Link NOC:Convective Heat Transfer (2018) Lecture 29 - Scaling analysis - I
Link NOC:Convective Heat Transfer (2018) Lecture 30 - Scaling analysis - II
Link NOC:Convective Heat Transfer (2018) Lecture 31 - Integral solution
Link NOC:Convective Heat Transfer (2018) Lecture 32 - Similarity solution
Link NOC:Convective Heat Transfer (2018) Lecture 33 - Uniform wall heat flux
Link NOC:Convective Heat Transfer (2018) Lecture 34 - Thermal stratification
Link NOC:Convective Heat Transfer (2018) Lecture 35 - Mixed convection
Link NOC:Convective Heat Transfer (2018) Lecture 36 - Internal natural convection - Scaling analysis
Link NOC:Convective Heat Transfer (2018) Lecture 37 - Heat transfer regimes
Link NOC:Convective Heat Transfer (2018) Lecture 38 - Regime III
Link NOC:Convective Heat Transfer (2018) Lecture 39 - Regime IV - Shallow enclosure limit - I
Link NOC:Convective Heat Transfer (2018) Lecture 40 - Regime IV - Shallow enclosure limit - II
Link NOC:Convective Heat Transfer (2018) Lecture 41 - Partially divided enclosures
Link NOC:Convective Heat Transfer (2018) Lecture 42 - Inclined enclosures
Link NOC:Convective Heat Transfer (2018) Lecture 43 - Natural convection - Tutorial I
Link NOC:Convective Heat Transfer (2018) Lecture 44 - Natural convection - Tutorial II
Link NOC:Convective Heat Transfer (2018) Lecture 45 - Introduction to Turbulence
Link NOC:Convective Heat Transfer (2018) Lecture 46 - Reynold’s Averaged Navier Stokes equation - I
Link NOC:Convective Heat Transfer (2018) Lecture 47 - Reynold’s Averaged Navier Stokes equation - II
Link NOC:Convective Heat Transfer (2018) Lecture 48 - Turbulent boundary layer - Viscous sub layer
Link NOC:Convective Heat Transfer (2018) Lecture 49 - Turbulent boundary layer - Fully turbulent sub layer
Link NOC:Convective Heat Transfer (2018) Lecture 50 - Heat transfer in turbulent boundary layer
Link NOC:Convective Heat Transfer (2018) Lecture 51 - Turbulent internal flow - I
Link NOC:Convective Heat Transfer (2018) Lecture 52 - Turbulent internal flow - II
Link NOC:Convective Heat Transfer (2018) Lecture 53 - Turbulent internal flow - III
Link NOC:Convective Heat Transfer (2018) Lecture 54 - K - ε model
Link NOC:Convective Heat Transfer (2018) Lecture 55 - Turbulence - Tutorial
Link NOC:Convective Heat Transfer (2018) Lecture 56 - Experimental techniques - Thermochromic liquid crystals
Link NOC:Convective Heat Transfer (2018) Lecture 57 - Experimental techniques - IR thermography
Link NOC:Convective Heat Transfer (2018) Lecture 58 - Droplet evaporation - Sessile I
Link NOC:Convective Heat Transfer (2018) Lecture 59 - Droplet evaporation - Sessile II
Link NOC:Convective Heat Transfer (2018) Lecture 60 - Droplet evaporation - Contact free
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 1 - Introduction to complex variables
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 2 - Cauchy Riemann Equations
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 3 - Analytic Functions
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 4 - Simple definitions
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 5 - Definition of sets, domains, theorem on antiderivative
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 6 - Cauchy Gorsat Theorem
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 7 - Implications of Cauchy Gorsat Theorem, Cauchy Integral Formula
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 8 - Implications of CIF, converse of CG theorem
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 9 - Examples in contour integrals, ratios of polynomials
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 10 - Contour integration of sinc function
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 11 - Method of path deformation
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 12 - Method of path deformation (Continued...)
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 13 - Infinite and finite branch cuts
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 14 - Finite Branch Cut
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 15 - Infinite branch cut example
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 16 - Contour integration: rectangular contour
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 17 - Finite square root branch cut
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 18 - Example on finite branch cut
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 19 - Pole on a branch cut
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 20 - L shaped branch cut
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 21 - L shaped branch cut continued
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 22 - Inverse Laplace Transform
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 23 - Inverse Laplace Transform (Continued...)
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 24 - Additional material or corrections to lectures
Link NOC:A Short Lecture series on Contour Integration in the Complex Plane Lecture 25 - Summary of the total course
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 1 - Module 1 : Lecture 1 - Solution models
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 2 - Module 1 : Lecture 2 - Summary of solution models
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 3 - Module 1 : Lecture 3 - G vs X diagrams
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 4 - Module 1 : Lecture 4 - Phase diagrams
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 5 - Module 1 : Lecture 5 - Bond breaking model
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 6 - Module 2 : Lecture 6 - Chemical potential
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 7 - Module 1 : Tutorial 1
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 8 - Module 1 : Tutorial 2
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 9 - Module 1 : Tutorial 3
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 10 - Module 1 : Tutorial 4
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 11 - Module 1 : Tutorial 5
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 12 - Module 2 : Tutorial 6
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 13 - Module 2 : Lecture 7 - Diffusion and chemical potential
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 14 - Module 2 : Lecture 8 - Fick's law
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 15 - Module 2 : Lecture 9 - Failure of classical diffusion equation
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 16 - Module 2 : Lecture 10 - Some references
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 17 - Module 3 : Lecture 11 - Spinodal decomposition - some history
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 18 - Module 3 : Lecture 12 - Spinodal decomposition
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 19 - Module 3 : Lecture 13 - Stability
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 20 - Module 3 : Lecture 14 - Thermodynamic property : composition dependence
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 21 - Module 3 : Lecture 15 - Regions of stability
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 22 - Module 3 : Lecture 16 - Understanding spinodal region
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 23 - Module 2 : Tutorial 7
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 24 - Module 4 : Lecture 17 - Solution to classical diffusion equation
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 25 - Module 4 : Lecture 18 - Diffusion and mobility - I
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 26 - Module 4 : Lecture 19 - Diffusion and mobility - II
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 27 - Module 4 : Lecture 20 - Failure of classical diffusion equation
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 28 - Module 4 : Lecture 21 - Non-classical diffusion equation
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 29 - Module 5 : Lecture 22 - GNU Octave : Introduction
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 30 - Module 5 : Lecture 23 - GNU Octave : interactive mode
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 31 - Module 5 : Lecture 24 - GNU Octave : script mode
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 32 - Module 6 : Lecture 25 - Ideal solution using octave
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 33 - Module 6 : Lecture 26 - Regular solution using octave
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 34 - Module 6 : Lecture 27 - Constructing phase diagram
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 35 - Module 6 : Lecture 28 - Plotting spinodal
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 36 - Module 7 : Lecture 29 - Non-dimensionalisation of diffusion equation
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 37 - Module 7 : Lecture 30 - Diffusion and Fourier law of heat conduction
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 38 - Module 8 : Lecture 31 - Diffusion equation : Analytical solution - I
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 39 - Module 8 : Lecture 32 - Diffusion equation : Analytical solution - II
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 40 - Module 8 : Lecture 33 - Diffusion equation : Error function solution - I
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 41 - Module 8 : Lecture 34 - Diffusion equation: Error function solution - II
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 42 - Module 9 : Lecture 35 - Diffusion equation : finite difference method
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 43 - Module 9 : Lecture 36 - Diffusion equation : zero flux BC and explicit method
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 44 - Module 9 : Lecture 37 - Diffusion equation : zero flux BC and implicit method
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 45 - Module 9 : Lecture 38 - Diffusion equation : imposed concentration BC and explicit/implicit methods
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 46 - Module 10 : Lecture 39 - Periodic boundary conditions (PBC)
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 47 - Module 10 : Lecture 40 - Expicit method with PBC
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 48 - Module 10 : Lecture 41 - Spectral Techniques - I
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 49 - Module 10 : Lecture 42 - Spectral Techniques - II
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 50 - Module 10 : Lecture 43 - Implicit spectral method
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 51 - Module 11 : Lecture 44 - Scalars, vectors and tensors
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 52 - Module 11 : Lecture 45 - Coordinate transformation
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 53 - Module 11 : Lecture 46 - Transformation laws
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 54 - Module 11 : Lecture 47 - II rank tensors and Neumann principle
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 55 - Module 12 : Lecture 48 - Group theory
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 56 - Module 12 : Lecture 49 - Crystal: symmetry elements - I
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 57 - Module 12 : Lecture 50 - Crystal: symmetry elements - II
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 58 - Module 12 : Lecture 51 - Understanding Neumann's principle
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 59 - Module 12 : Lecture 52 - Representation quadric
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 60 - Module 13 : Lecture 53 - Variational calculus
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 61 - Module 13 : Lecture 54 - Optimization of functionals - I
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 62 - Module 13 : Lecture 55 - Optimization of functionals - II
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 63 - Module 13 : Lecture 56 - Variational derivative
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 64 - Module 13 : Lecture 57 - Free energy functional
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 65 - Module 14 : Lecture 58 - Derivation of Cahn-Hilliard (CH) equation - I
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 66 - Module 14 : Lecture 59 - Derivation of Cahn-Hilliard (CH) equation - II
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 67 - Module 14 : Lecture 60 - Free energy versus concentration curves
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 68 - Module 14 : Lecture 61 - Diffusion equation versus CH
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 69 - Module 15 : Lecture 62 - Numerical solution of CH: finite difference
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 70 - Module 15 : Lecture 63 - Numerical solution of CH: spectral method
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 71 - Module 16 : Lecture 64 - Interfacial energy in CH
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 72 - Module 16 : Lecture 65 - CH: analytical solution
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 73 - Module 16 : Lecture 66 - Interfacial energy in CH: analytical calculation
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 74 - Module 16 : Lecture 67 - Interfacial energy: numerical versus analytical values
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 75 - Module 17 : Lecture 68 - Order-disorder transition and Allen-Cahn equation
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 76 - Module 17 : Lecture 69 - AC: numerical solution
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 77 - Module 18 : Lecture 70 - Spinodal decomposition in 2D
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 78 - Module 18 : Lecture 71 - Order-disorder transformation
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 79 - Module 18 : Lecture 72 - Gibbs Thomson effect
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 80 - Module 18 : Lecture 73 - Grain growth
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 81 - Module 19 : Lecture 74 - Precipitate growth - I
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 82 - Module 19 : Lecture 75 - Precipitate growth - II
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 83 - Module 20 : Lecture 76 - Grain growth: Fan-Chen model - I
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 84 - Module 20 : Lecture 77 - Grain growth: Fan-Chen model - II
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 85 - Module 21 : Lecture 78 - Grain boundary grooving - I
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 86 - Module 21 : Lecture 79 - Grain boundary grooving - II
Link NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects Lecture 87 - Module 22 : Lecture 80 - Overview of phase field modelling
Link NOC:Introduction to Materials Science and Engineering Lecture 1 - Intoduction
Link NOC:Introduction to Materials Science and Engineering Lecture 2 - Crystal geometry
Link NOC:Introduction to Materials Science and Engineering Lecture 3 - Unit cell
Link NOC:Introduction to Materials Science and Engineering Lecture 4 - Classification of lattices
Link NOC:Introduction to Materials Science and Engineering Lecture 5 - Gaps in Bravais lattice list
Link NOC:Introduction to Materials Science and Engineering Lecture 6 - Symmetry - I
Link NOC:Introduction to Materials Science and Engineering Lecture 7 - Symmetry - II
Link NOC:Introduction to Materials Science and Engineering Lecture 8 - Classification of lattices on the basis of symmetry
Link NOC:Introduction to Materials Science and Engineering Lecture 9 - A symmetry based approach to Bravais lattices
Link NOC:Introduction to Materials Science and Engineering Lecture 10 - Miller indices of directions
Link NOC:Introduction to Materials Science and Engineering Lecture 11 - Miller indices for planes
Link NOC:Introduction to Materials Science and Engineering Lecture 12 - Miller indices for plane and its normal in Cubic Crystal
Link NOC:Introduction to Materials Science and Engineering Lecture 13 - Weiss Zone law and its applications
Link NOC:Introduction to Materials Science and Engineering Lecture 14 - Inter-planar spacing
Link NOC:Introduction to Materials Science and Engineering Lecture 15 - Bragg’s Law
Link NOC:Introduction to Materials Science and Engineering Lecture 16 - Close-packing of hard spheres
Link NOC:Introduction to Materials Science and Engineering Lecture 17 - Hexagonal Close-Packed (HCP) structure
Link NOC:Introduction to Materials Science and Engineering Lecture 18 - Lattice and motif of HCP crystals
Link NOC:Introduction to Materials Science and Engineering Lecture 19 - c/a ratio of an ideal HCP crystal
Link NOC:Introduction to Materials Science and Engineering Lecture 20 - ABCABC stacking of close-packed spheres
Link NOC:Introduction to Materials Science and Engineering Lecture 21 - Voids in close-packed structures
Link NOC:Introduction to Materials Science and Engineering Lecture 22 - Solid solutions - I
Link NOC:Introduction to Materials Science and Engineering Lecture 23 - Solid solutions - II
Link NOC:Introduction to Materials Science and Engineering Lecture 24 - Hume-Rothery rules
Link NOC:Introduction to Materials Science and Engineering Lecture 25 - Ordered and disordered solid solutions
Link NOC:Introduction to Materials Science and Engineering Lecture 26 - Graphene
Link NOC:Introduction to Materials Science and Engineering Lecture 27 - Structure of graphite
Link NOC:Introduction to Materials Science and Engineering Lecture 28 - Structure of diamond
Link NOC:Introduction to Materials Science and Engineering Lecture 29 - Carbon nanotubes (CNT)
Link NOC:Introduction to Materials Science and Engineering Lecture 30 - Buckminsterfullerene (C60)
Link NOC:Introduction to Materials Science and Engineering Lecture 31 - Ionic solids
Link NOC:Introduction to Materials Science and Engineering Lecture 32 - NaCl
Link NOC:Introduction to Materials Science and Engineering Lecture 33 - CsCl
Link NOC:Introduction to Materials Science and Engineering Lecture 34 - ZnS
Link NOC:Introduction to Materials Science and Engineering Lecture 35 - BCC vs CsCl
Link NOC:Introduction to Materials Science and Engineering Lecture 36 - Amorphous Solids
Link NOC:Introduction to Materials Science and Engineering Lecture 37 - Polymers
Link NOC:Introduction to Materials Science and Engineering Lecture 38 - Vinyl Polymers
Link NOC:Introduction to Materials Science and Engineering Lecture 39 - Thermoplasts and Thermosets
Link NOC:Introduction to Materials Science and Engineering Lecture 40 - Tacticity
Link NOC:Introduction to Materials Science and Engineering Lecture 41 - Copolymers
Link NOC:Introduction to Materials Science and Engineering Lecture 42 - Crystallinity in Polymers
Link NOC:Introduction to Materials Science and Engineering Lecture 43 - Defects in Crystals
Link NOC:Introduction to Materials Science and Engineering Lecture 44 - Vacancies
Link NOC:Introduction to Materials Science and Engineering Lecture 45 - Edge dislocation: Half plane
Link NOC:Introduction to Materials Science and Engineering Lecture 46 - Edge dislocation: Slip
Link NOC:Introduction to Materials Science and Engineering Lecture 47 - Characteristic vectors of a dislocation
Link NOC:Introduction to Materials Science and Engineering Lecture 48 - Edge, screw and mixed dislocations
Link NOC:Introduction to Materials Science and Engineering Lecture 49 - Screw dislocations
Link NOC:Introduction to Materials Science and Engineering Lecture 50 - Burgers circuit
Link NOC:Introduction to Materials Science and Engineering Lecture 51 - Elastic energy of a dislocation line
Link NOC:Introduction to Materials Science and Engineering Lecture 52 - Burgers vector: Shortest lattice translation
Link NOC:Introduction to Materials Science and Engineering Lecture 53 - Burgers vector of a dislocation is constant along the line
Link NOC:Introduction to Materials Science and Engineering Lecture 54 - Geometrical properties of a dislocations: Dislocation cannot end abruptly in a crystal: Free surface
Link NOC:Introduction to Materials Science and Engineering Lecture 55 - Dislocation cannot end abruptly in a crystal: Grain boundaries
Link NOC:Introduction to Materials Science and Engineering Lecture 56 - Dislocation cannot end abruptly in a crystal: Dislocation nodes
Link NOC:Introduction to Materials Science and Engineering Lecture 57 - Dislocation cannot end abruptly in a crystal: Dislocation loop
Link NOC:Introduction to Materials Science and Engineering Lecture 58 - Dislocation motion
Link NOC:Introduction to Materials Science and Engineering Lecture 59 - 2D defects: Surfaces or interfaces
Link NOC:Introduction to Materials Science and Engineering Lecture 60 - Free surface or external surface of the crystal
Link NOC:Introduction to Materials Science and Engineering Lecture 61 - Stacking faults
Link NOC:Introduction to Materials Science and Engineering Lecture 62 - Twin boundary
Link NOC:Introduction to Materials Science and Engineering Lecture 63 - Grain boundary
Link NOC:Introduction to Materials Science and Engineering Lecture 64 - Small angle symmetric tilt boundary
Link NOC:Introduction to Materials Science and Engineering Lecture 65 - Ball bearing model
Link NOC:Introduction to Materials Science and Engineering Lecture 66 - Phase diagrams: Introduction
Link NOC:Introduction to Materials Science and Engineering Lecture 67 - Phases and components
Link NOC:Introduction to Materials Science and Engineering Lecture 68 - Uses of phase diagrams
Link NOC:Introduction to Materials Science and Engineering Lecture 69 - Phases present in the system
Link NOC:Introduction to Materials Science and Engineering Lecture 70 - Composition of phases present in the system
Link NOC:Introduction to Materials Science and Engineering Lecture 71 - Proportion of phases present in the system
Link NOC:Introduction to Materials Science and Engineering Lecture 72 - Microstructure evolution during solidification in isomorphous systems
Link NOC:Introduction to Materials Science and Engineering Lecture 73 - Eutectic system
Link NOC:Introduction to Materials Science and Engineering Lecture 74 - Eutectic reaction
Link NOC:Introduction to Materials Science and Engineering Lecture 75 - Eutectic, hypoeutectic and hypereutectic alloys
Link NOC:Introduction to Materials Science and Engineering Lecture 76 - Gibbs’ phase rule
Link NOC:Introduction to Materials Science and Engineering Lecture 77 - Fe-C phase diagram
Link NOC:Introduction to Materials Science and Engineering Lecture 78 - Eutectoid, hypoeutectoid and hypereutectoid steels
Link NOC:Introduction to Materials Science and Engineering Lecture 79 - Microstructure of a hypoeutectoid steel
Link NOC:Introduction to Materials Science and Engineering Lecture 80 - Microstructure of a hypereutectoid steel
Link NOC:Introduction to Materials Science and Engineering Lecture 81 - Diffusion: Introduction
Link NOC:Introduction to Materials Science and Engineering Lecture 82 - Fick’s first law
Link NOC:Introduction to Materials Science and Engineering Lecture 83 - Fick’s second law
Link NOC:Introduction to Materials Science and Engineering Lecture 84 - Error function solution of Fick’s second law
Link NOC:Introduction to Materials Science and Engineering Lecture 85 - Atomic mechanisms of diffusion
Link NOC:Introduction to Materials Science and Engineering Lecture 86 - Substitutional diffusion revisited
Link NOC:Introduction to Materials Science and Engineering Lecture 87 - Diffusion paths
Link NOC:Introduction to Materials Science and Engineering Lecture 88 - Steady and unsteady state diffusion
Link NOC:Introduction to Materials Science and Engineering Lecture 89 - Phase Transformation
Link NOC:Introduction to Materials Science and Engineering Lecture 90 - Nucleation
Link NOC:Introduction to Materials Science and Engineering Lecture 91 - Nucleation and capillary rise
Link NOC:Introduction to Materials Science and Engineering Lecture 92 - Nucleation, growth and overall transformation
Link NOC:Introduction to Materials Science and Engineering Lecture 93 - Time-temperature-transformation (TTT) diagram
Link NOC:Introduction to Materials Science and Engineering Lecture 94 - Homogeneus and heterogeneous nucleation
Link NOC:Introduction to Materials Science and Engineering Lecture 95 - Heat treatment of steels
Link NOC:Introduction to Materials Science and Engineering Lecture 96 - TTT diagram of Eutectoid Steels
Link NOC:Introduction to Materials Science and Engineering Lecture 97 - Quenching and martensite
Link NOC:Introduction to Materials Science and Engineering Lecture 98 - Austempering and bainite
Link NOC:Introduction to Materials Science and Engineering Lecture 99 - Tempering
Link NOC:Introduction to Materials Science and Engineering Lecture 100 - Residual stresses and Quench cracks
Link NOC:Introduction to Materials Science and Engineering Lecture 101 - Marquenching and martempering
Link NOC:Introduction to Materials Science and Engineering Lecture 102 - TTT diagram of hypoeutectoid and hypereutectoid steels
Link NOC:Introduction to Materials Science and Engineering Lecture 103 - TTT diagram of alloy steel
Link NOC:Introduction to Materials Science and Engineering Lecture 104 - hardenability of steels
Link NOC:Introduction to Materials Science and Engineering Lecture 105 - Glass Ceramics
Link NOC:Introduction to Materials Science and Engineering Lecture 106 - Tensile test
Link NOC:Introduction to Materials Science and Engineering Lecture 107 - Plastic deformation and crystal structure
Link NOC:Introduction to Materials Science and Engineering Lecture 108 - Shape change
Link NOC:Introduction to Materials Science and Engineering Lecture 109 - Slip
Link NOC:Introduction to Materials Science and Engineering Lecture 110 - Resolved shear stress
Link NOC:Introduction to Materials Science and Engineering Lecture 111 - CRSS
Link NOC:Introduction to Materials Science and Engineering Lecture 112 - Schmid's law
Link NOC:Introduction to Materials Science and Engineering Lecture 113 - CRSS:Theory vs experiment
Link NOC:Introduction to Materials Science and Engineering Lecture 114 - Why is experimental CRSS less than theoretical CRSS
Link NOC:Introduction to Materials Science and Engineering Lecture 115 - Strengthening mechaniksms
Link NOC:Introduction to Materials Science and Engineering Lecture 116 - Dislocation density
Link NOC:Introduction to Materials Science and Engineering Lecture 117 - Frank-Read source
Link NOC:Introduction to Materials Science and Engineering Lecture 118 - strain hardening
Link NOC:Introduction to Materials Science and Engineering Lecture 119 - Dislocation interaction leading to strain hardening - I
Link NOC:Introduction to Materials Science and Engineering Lecture 120 - Dislocation interaction leading to strain hardening - II
Link NOC:Introduction to Materials Science and Engineering Lecture 121 - Solid solution hardening
Link NOC:Introduction to Materials Science and Engineering Lecture 122 - Grain size hardening
Link NOC:Introduction to Materials Science and Engineering Lecture 123 - Age hardening - I
Link NOC:Introduction to Materials Science and Engineering Lecture 124 - Age hardening - II
Link NOC:Introduction to Materials Science and Engineering Lecture 125 - Metastable precipitates
Link NOC:Introduction to Materials Science and Engineering Lecture 126 - Annealing of cold-worked metals
Link NOC:Introduction to Materials Science and Engineering Lecture 127 - Recovery
Link NOC:Introduction to Materials Science and Engineering Lecture 128 - Recrystallization
Link NOC:Introduction to Materials Science and Engineering Lecture 129 - Grain Growth
Link NOC:Introduction to Materials Science and Engineering Lecture 130 - True stress and true strain
Link NOC:Introduction to Materials Science and Engineering Lecture 131 - Creep
Link NOC:Introduction to Materials Science and Engineering Lecture 132 - Effect of stress and temperature on creep
Link NOC:Introduction to Materials Science and Engineering Lecture 133 - Creep Mechanisms
Link NOC:Introduction to Materials Science and Engineering Lecture 134 - Composites
Link NOC:Introduction to Materials Science and Engineering Lecture 135 - Isostrain modulus
Link NOC:Introduction to Materials Science and Engineering Lecture 136 - Isostress modulus
Link NOC:Introduction to Materials Science and Engineering Lecture 137 - Fracture
Link NOC:Introduction to Materials Science and Engineering Lecture 138 - Ductile and Brittle Fracture
Link NOC:Introduction to Materials Science and Engineering Lecture 139 - Role of crack size
Link NOC:Introduction to Materials Science and Engineering Lecture 140 - Griffith's Criterion
Link NOC:Introduction to Materials Science and Engineering Lecture 141 - Stress Concentration
Link NOC:Introduction to Materials Science and Engineering Lecture 142 - Ductile to brittle transition
Link NOC:Introduction to Materials Science and Engineering Lecture 143 - Enhancing fracture resistance
Link NOC:Introduction to Materials Science and Engineering Lecture 144 - Toughening of glass: Tempering
Link NOC:Introduction to Materials Science and Engineering Lecture 145 - Toughening of glass: Ion-Exchange
Link NOC:Introduction to Materials Science and Engineering Lecture 146 - Fatigue
Link NOC:Introduction to Materials Science and Engineering Lecture 147 - Sub-Critical crack growth
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 1 - Structure and properties of materials - Part I
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 2 - Structure and properties of materials - Part II
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 3 - Elasticity Isotropic elasticity of materials; Anisotropic elasticity - Part I
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 4 - Elasticity Isotropic elasticity of materials; Anisotropic elasticity - Part II
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 5 - Continuum Plasticity - I (Part A)
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 6 - Continuum Plasticity - I (Part B)
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 7 - Continuum Plasticity - II (Part A)
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 8 - Continuum Plasticity - II (Part B)
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 9 - Crystal Plasticity - I (Part A)
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 10 - Crystal Plasticity - I (Part B)
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 11 - Crystal Plasticity - II (Part A)
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 12 - Crystal Plasticity - II (Part B)
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 13 - Crystal Plasticity - II (Part C)
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 14 - Hardening Mechanisms in Metals - Part I
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 15 - Hardening Mechanisms in Metals - Part II
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 16 - Hardening Mechanisms in Metals - Part III
Link NOC:Introduction to Crystal Elasticity and Crystal Plasticity Lecture 17 - Multi-Scale Approach to Materials Modelling
Link Advanced Characterization Techniques Lecture 1 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 2 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 3 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 4 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 5 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 6 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 7 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 8 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 9 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 10 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 11 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 12 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 13 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 14 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 15 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 16 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 17 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 18 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 19 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 20 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 21 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 22 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 23 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 24 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 25 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 26 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 27 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 28 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 29 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 30 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 31 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 32 - Advanced Characterization Techniques
Link Advanced Characterization Techniques Lecture 33 - Advanced Characterization Techniques
Link Electroceramics Lecture 1
Link Electroceramics Lecture 2
Link Electroceramics Lecture 3
Link Electroceramics Lecture 4
Link Electroceramics Lecture 5
Link Electroceramics Lecture 6
Link Electroceramics Lecture 7
Link Electroceramics Lecture 8
Link Electroceramics Lecture 9
Link Electroceramics Lecture 10
Link Electroceramics Lecture 11
Link Electroceramics Lecture 12
Link Electroceramics Lecture 13
Link Electroceramics Lecture 14
Link Electroceramics Lecture 15
Link Electroceramics Lecture 16
Link Electroceramics Lecture 17
Link Electroceramics Lecture 18
Link Electroceramics Lecture 19
Link Electroceramics Lecture 20
Link Electroceramics Lecture 21
Link Electroceramics Lecture 22
Link Electroceramics Lecture 23
Link Electroceramics Lecture 24
Link Electroceramics Lecture 25
Link Electroceramics Lecture 26
Link Electroceramics Lecture 27
Link Electroceramics Lecture 28
Link Electroceramics Lecture 29
Link Electroceramics Lecture 30
Link Electroceramics Lecture 31
Link Electroceramics Lecture 32
Link Electroceramics Lecture 33
Link Electroceramics Lecture 34
Link Electroceramics Lecture 35
Link Electroceramics Lecture 36
Link Electroceramics Lecture 37
Link Electroceramics Lecture 38
Link Electroceramics Lecture 39
Link Electroceramics Lecture 40
Link Electroceramics Lecture 41
Link Fuels Refractory and Furnaces Lecture 1 - Energy Resources and Environment
Link Fuels Refractory and Furnaces Lecture 2 - Characterization of Fuels: Concepts
Link Fuels Refractory and Furnaces Lecture 3 - Characterization of Fuels: Concepts
Link Fuels Refractory and Furnaces Lecture 4 - Production of Secondary Fuels : Carbonization
Link Fuels Refractory and Furnaces Lecture 5 - Materials Balance in Coke-making
Link Fuels Refractory and Furnaces Lecture 6 - Heat Balance and Clean Development Mechanism
Link Fuels Refractory and Furnaces Lecture 7 - Production of Secondary Fuels: Gasification
Link Fuels Refractory and Furnaces Lecture 8 - Materials and Heat Balance in Gasification
Link Fuels Refractory and Furnaces Lecture 9 - Principles of combustion: Concepts and illustrations
Link Fuels Refractory and Furnaces Lecture 10 - Principles of combustion: Concepts and illustrations
Link Fuels Refractory and Furnaces Lecture 11 - Materials balance in combustion
Link Fuels Refractory and Furnaces Lecture 12 - Principles of Combustion: Flame Temperature
Link Fuels Refractory and Furnaces Lecture 13 - Flame Temperature Calculations
Link Fuels Refractory and Furnaces Lecture 14 - Refractory in Furnaces
Link Fuels Refractory and Furnaces Lecture 15 - Refractory in Furnaces
Link Fuels Refractory and Furnaces Lecture 16 - Furnace: Types and Classification
Link Fuels Refractory and Furnaces Lecture 17 - Heat Utilization in furnaces, energy flow diagrams
Link Fuels Refractory and Furnaces Lecture 18 - Heat Utilization in furnaces, energy flow diagrams
Link Fuels Refractory and Furnaces Lecture 19 - Heat Utilization in Furnaces: Heat Recovery Concepts and Illustrations
Link Fuels Refractory and Furnaces Lecture 20 - Heat Utilization in Furnaces: Heat Recovery Concepts and Illustrations
Link Fuels Refractory and Furnaces Lecture 21 - Transport Phenomena in Furnaces: Fluid Flow
Link Fuels Refractory and Furnaces Lecture 22 - Macroscopic Energy Balance: Concepts
Link Fuels Refractory and Furnaces Lecture 23 - Macroscopic Energy Balance: Applications to Design Head Meters, Stack and Blowers, Types of Flames
Link Fuels Refractory and Furnaces Lecture 24 - Macroscopic Energy Balance: Applications to Design Head Meters, Stack and Blowers, Types of Flames
Link Fuels Refractory and Furnaces Lecture 25 - Macroscopic Energy Balance: Applications to Design Head Meters, Stack and Blowers, Types of Flames
Link Fuels Refractory and Furnaces Lecture 26 - Macroscopic Energy Balance: Applications to Design Head Meters, Stack and Blowers, Types of Flames
Link Fuels Refractory and Furnaces Lecture 27 - Principles of Burner Design
Link Fuels Refractory and Furnaces Lecture 28 - Transport Phenomena in Furnaces: Heat Transfer and Refractory Design
Link Fuels Refractory and Furnaces Lecture 29 - Transport Phenomena in Furnaces: Heat Transfer and Refractory Design
Link Fuels Refractory and Furnaces Lecture 30 - Transport Phenomena in Furnaces: Convection and Radiation Heat Transfer, Role of Refractory
Link Fuels Refractory and Furnaces Lecture 31 - Transport Phenomena in Furnaces: Convection and Radiation Heat Transfer, Role of Refractory
Link Fuels Refractory and Furnaces Lecture 32 - Steady Heat flows in Furnace and Heat Exchanger
Link Fuels Refractory and Furnaces Lecture 33 - Exercises on Heat Flow in Furnaces and Heat Exchangers
Link Fuels Refractory and Furnaces Lecture 34 - Exercises on Heat Flow in Furnaces and Heat Exchangers
Link Fuels Refractory and Furnaces Lecture 35 - Miscellaneous Topics: Atmosphere in Furnaces
Link Fuels Refractory and Furnaces Lecture 36 - Miscellaneous Topics: Pyrometry
Link Fuels Refractory and Furnaces Lecture 37 - Miscellaneous Topics: Pyrometry
Link Fuels Refractory and Furnaces Lecture 38 - Miscellaneous topics: Electric Resistance Heating
Link Fuels Refractory and Furnaces Lecture 39 - Furnace efficiency, Fuel Saving, Carbon Offset: Concepts and Exercises
Link Fuels Refractory and Furnaces Lecture 40 - Furnace efficiency, Fuel Saving, Carbon Offset: Concepts and Exercises
Link Introduction to Biomaterials Lecture 1 - Introduction to basic concepts of Biomaterials Science; Salient properties of important material classes; overview of body environment,
Link Introduction to Biomaterials Lecture 2 - Manufacturing and properties of metals, ceramics, polymers and composites
Link Introduction to Biomaterials Lecture 3 - Concept of biocompatibility, host response, structure-property of biological cell
Link Introduction to Biomaterials Lecture 4 - Structure and properties of cells, protein and cellular adaptation process
Link Introduction to Biomaterials Lecture 5 - Cell-I
Link Introduction to Biomaterials Lecture 6 - Cell-II
Link Introduction to Biomaterials Lecture 7 - Cell Migration and Cell Division and cell death
Link Introduction to Biomaterials Lecture 8 - Cell Differentiation and Cell Death
Link Introduction to Biomaterials Lecture 9 - Cell Apoptosis-I
Link Introduction to Biomaterials Lecture 10 - Cell Apoptosis-II
Link Introduction to Biomaterials Lecture 11 - Structure and properties of Protein; cell - material interaction
Link Introduction to Biomaterials Lecture 12 - Assessment of biocompatibility of biomaterials
Link Introduction to Biomaterials Lecture 13 - Biological testing (hemocompatibility, tribological testing)
Link Introduction to Biomaterials Lecture 14 - Structure and properties of bone as well as in vivo testing and histocompatibility assessment
Link Introduction to Biomaterials Lecture 15 - Important biometallic alloys
Link Introduction to Biomaterials Lecture 16 - Ti Alloy
Link Introduction to Biomaterials Lecture 17 - Co-Cr-Mo alloys
Link Introduction to Biomaterials Lecture 18 - Bioceramics
Link Introduction to Biomaterials Lecture 19 - Processing of Bioceramics
Link Introduction to Biomaterials Lecture 20 - Ceramics, Bioceramics and Glasses
Link Introduction to Biomaterials Lecture 21 - Sintering and mechanical properties of ceramics
Link Introduction to Biomaterials Lecture 22 - Fracture and toughening of ceramic composites
Link Introduction to Biomaterials Lecture 23 - Development of based bioceramic composites for hard tissue replacement
Link Introduction to Biomaterials Lecture 24 - Alternative phosphate materials, based composites with bactericidal property and glass ceramics for dental restoration
Link Introduction to Biomaterials Lecture 25 - Electrostatic Spraying of UHMWPE-HA-CNT composites
Link Introduction to Biomaterials Lecture 26 - Thin Films and Coatings
Link Introduction to Biomaterials Lecture 27 - hermal Spray Coatings
Link Introduction to Biomaterials Lecture 28 - Biocompatibility of plasma sprayed CNT reinforced Hydroxyapatite biocomposite coatings
Link Introduction to Biomaterials Lecture 29 - Biocompatibility of Alumina and CNT reinforced Hydroxyapatite
Link Introduction to Biomaterials Lecture 30 - Glass-ceramics for dental restoration applications
Link Introduction to Biomaterials Lecture 31 - Structure and properties of polymers
Link Introduction to Biomaterials Lecture 32 - Biodegradable polymers (Importance)
Link Introduction to Biomaterials Lecture 33 - Biodegradable polymers (Types)
Link Introduction to Biomaterials Lecture 34 - Mechanisms of Bioerosion
Link Introduction to Biomaterials Lecture 35 - External field and material interaction
Link Introduction to Biomaterials Lecture 36 - Tissue Engineering and wound healing
Link Introduction to Biomaterials Lecture 37 - Understanding Design Concepts of Bio-implants
Link Introduction to Biomaterials Lecture 38 - Understanding Design Concepts of Dental-implants
Link Introduction to Biomaterials Lecture 39 - Understanding Design Concepts of Orthopedic-implant
Link Materials and Energy balance in Metallurgical Processes Lecture 1 - Introduction to Course
Link Materials and Energy balance in Metallurgical Processes Lecture 2 - Measurement of Quantities
Link Materials and Energy balance in Metallurgical Processes Lecture 3 - Exercises on Measurement of Quantities, Introduction to Stoichiometry
Link Materials and Energy balance in Metallurgical Processes Lecture 4 - Stoichiometry Concept and Exercise
Link Materials and Energy balance in Metallurgical Processes Lecture 5 - Exercise on Stoichiometry and Introduction to Thermochemistry
Link Materials and Energy balance in Metallurgical Processes Lecture 6 - Thermochemistry
Link Materials and Energy balance in Metallurgical Processes Lecture 7 - Exercise on Thermochemistry & Frequently Asked Questions
Link Materials and Energy balance in Metallurgical Processes Lecture 8 - Errors in Measurements
Link Materials and Energy balance in Metallurgical Processes Lecture 9 - Basics of Materials & Energy Balance
Link Materials and Energy balance in Metallurgical Processes Lecture 10 - Introduction to Mineral Beneficiation
Link Materials and Energy balance in Metallurgical Processes Lecture 11 - Materials Balance in Mineral Processing and Faq
Link Materials and Energy balance in Metallurgical Processes Lecture 12 - Exercises in Mineral Processing
Link Materials and Energy balance in Metallurgical Processes Lecture 13 - Calcination Concepts & Exercises
Link Materials and Energy balance in Metallurgical Processes Lecture 14 - Pyromet ExtractionUnit Processes
Link Materials and Energy balance in Metallurgical Processes Lecture 15 - Predominance Area Diagram
Link Materials and Energy balance in Metallurgical Processes Lecture 16 - Material Balance in Roasting;illustration
Link Materials and Energy balance in Metallurgical Processes Lecture 17 - Heat Balance in Roasting illustration
Link Materials and Energy balance in Metallurgical Processes Lecture 18 - Exersises on Roasting
Link Materials and Energy balance in Metallurgical Processes Lecture 19 - Exercises on Roasting
Link Materials and Energy balance in Metallurgical Processes Lecture 20 - Smelting Matte Smelting
Link Materials and Energy balance in Metallurgical Processes Lecture 21 - Exercise-I Matte Smelting
Link Materials and Energy balance in Metallurgical Processes Lecture 22 - Exercise-II Matte Smelting
Link Materials and Energy balance in Metallurgical Processes Lecture 23 - Reduction Smelting
Link Materials and Energy balance in Metallurgical Processes Lecture 24 - Lead Smelting Material Balance
Link Materials and Energy balance in Metallurgical Processes Lecture 25 - Imperial Smelting Process
Link Materials and Energy balance in Metallurgical Processes Lecture 26 - Introduction to Ironmaking
Link Materials and Energy balance in Metallurgical Processes Lecture 27 - Coke Making
Link Materials and Energy balance in Metallurgical Processes Lecture 28 - Ironmaking Fundamentals
Link Materials and Energy balance in Metallurgical Processes Lecture 29 - Material & Heat Balance in Ironmaking - I
Link Materials and Energy balance in Metallurgical Processes Lecture 30 - Material & Heat Balance in Ironmaking - II
Link Materials and Energy balance in Metallurgical Processes Lecture 31 - RIST Diagram - I
Link Materials and Energy balance in Metallurgical Processes Lecture 32 - RIST Diagram - II
Link Materials and Energy balance in Metallurgical Processes Lecture 33 - Concepts in Converting
Link Materials and Energy balance in Metallurgical Processes Lecture 34 - Exercise in Converting
Link Materials and Energy balance in Metallurgical Processes Lecture 35 - Additional Topics - I Melting in Cupola
Link Materials and Energy balance in Metallurgical Processes Lecture 36 - Additional Topics - II Gasification
Link Materials and Energy balance in Metallurgical Processes Lecture 37 - Additional Topics - III Material Balance in Gasification
Link Materials and Energy balance in Metallurgical Processes Lecture 38 - Additional Topics - IV Industrial Furnaces
Link Materials and Energy balance in Metallurgical Processes Lecture 39 - Energy Balance in Industrial Furnaces
Link Materials and Energy balance in Metallurgical Processes Lecture 40 - Thoughts on Application of Energy Balance
Link Optoelectronic Materials and Devices Lecture 1 - Conductivity of materials, Drude’s theory and its failures
Link Optoelectronic Materials and Devices Lecture 2 - Free electron theory
Link Optoelectronic Materials and Devices Lecture 3 - Free electron theory
Link Optoelectronic Materials and Devices Lecture 4 - Crystal structure, Reciprocal lattice I
Link Optoelectronic Materials and Devices Lecture 5 - Reciprocal lattice II, Brillouin zone and Bragg’s diffraction condition
Link Optoelectronic Materials and Devices Lecture 6 - Electrons in a crystal, Bloch’s electron
Link Optoelectronic Materials and Devices Lecture 7 - Free electron band diagrams in an empty lattice
Link Optoelectronic Materials and Devices Lecture 8 - Effect of periodic potential, Origin of band-gap through Kronig-Penny model
Link Optoelectronic Materials and Devices Lecture 9 - Electron dynamics
Link Optoelectronic Materials and Devices Lecture 10 - Conduction in relation to band diagrams
Link Optoelectronic Materials and Devices Lecture 11 - Semiconductor E-k diagrams and their material properties
Link Optoelectronic Materials and Devices Lecture 12 - Equilibrium carrier statistics in semiconductors: density of states, fermi function and population density in bands
Link Optoelectronic Materials and Devices Lecture 13 - Equilibrium carrier statistics in semiconductors: qualitative examination of carrier densities in conduction and valence bands
Link Optoelectronic Materials and Devices Lecture 14 - Equilibrium carrier statistics in semiconductors: quantitative examination of carrier densities in intrinsic semiconductor
Link Optoelectronic Materials and Devices Lecture 15 - Doping in semiconductors
Link Optoelectronic Materials and Devices Lecture 16 - Equilibrium carrier statistics in semiconductors: complete ionization of dopant levels
Link Optoelectronic Materials and Devices Lecture 17 - Equilibrium carrier statistics in semiconductors: carrier freeze out
Link Optoelectronic Materials and Devices Lecture 18 - Semiconductor junctions in band-diagrams
Link Optoelectronic Materials and Devices Lecture 19 - Linear dielectric behavior
Link Optoelectronic Materials and Devices Lecture 20 - Non-linear dielectric behavior
Link Optoelectronic Materials and Devices Lecture 21 - Carrier recombination-generation - I: band-to-band transition
Link Optoelectronic Materials and Devices Lecture 22 - Carrier recombination-generation - II: Other mechanisms
Link Optoelectronic Materials and Devices Lecture 23 - R-G statistics via R-G centers
Link Optoelectronic Materials and Devices Lecture 24 - Optoelectronic materials and bandgap engineering
Link Optoelectronic Materials and Devices Lecture 25 - Optical properties of materials
Link Optoelectronic Materials and Devices Lecture 26 - Optical properties of single interfaces: Fresnal reflection coefficients
Link Optoelectronic Materials and Devices Lecture 27 - Optical Properties of two interfaces: thin film case
Link Optoelectronic Materials and Devices Lecture 28 - Drift
Link Optoelectronic Materials and Devices Lecture 29 - Diffusion
Link Optoelectronic Materials and Devices Lecture 30 - Continuity Equation
Link Optoelectronic Materials and Devices Lecture 31 - Resistor and diode (p-n junction)
Link Optoelectronic Materials and Devices Lecture 32 - Fundamentals of p-n junction
Link Optoelectronic Materials and Devices Lecture 33 - Fundamentals of p-n junction (Continued...)
Link Optoelectronic Materials and Devices Lecture 34 - Solar cells
Link Optoelectronic Materials and Devices Lecture 35 - Microelectronics processing
Link Optoelectronic Materials and Devices Lecture 36 - MOS capacitor
Link Optoelectronic Materials and Devices Lecture 37 - Transistor
Link Optoelectronic Materials and Devices Lecture 38 - Organic Electronics
Link Optoelectronic Materials and Devices Lecture 39 - Organic Light Emitting Diodes
Link Optoelectronic Materials and Devices Lecture 40 - Organic Solar Cells and Organics Thin Film Transistors
Link Steel Making Lecture 1
Link Steel Making Lecture 2
Link Steel Making Lecture 3
Link Steel Making Lecture 4
Link Steel Making Lecture 5
Link Steel Making Lecture 6
Link Steel Making Lecture 7
Link Steel Making Lecture 8
Link Steel Making Lecture 9
Link Steel Making Lecture 10
Link Steel Making Lecture 11
Link Steel Making Lecture 12
Link Steel Making Lecture 13
Link Steel Making Lecture 14
Link Steel Making Lecture 15
Link Steel Making Lecture 16
Link Steel Making Lecture 17
Link Steel Making Lecture 18
Link Steel Making Lecture 19
Link Steel Making Lecture 20
Link Steel Making Lecture 21
Link Steel Making Lecture 22
Link Steel Making Lecture 23
Link Steel Making Lecture 24
Link Steel Making Lecture 25
Link Steel Making Lecture 26
Link Steel Making Lecture 27
Link Steel Making Lecture 28
Link Steel Making Lecture 29
Link Steel Making Lecture 30
Link Steel Making Lecture 31
Link Steel Making Lecture 32
Link Steel Making Lecture 33
Link Steel Making Lecture 34
Link Steel Making Lecture 35
Link Steel Making Lecture 36
Link Steel Making Lecture 37
Link Steel Making Lecture 38
Link Steel Making Lecture 39
Link Steel Making Lecture 40
Link Steel Making Lecture 41
Link Steel Making Lecture 42
Link Structure of Materials Lecture 1 - Overview
Link Structure of Materials Lecture 2 - Geometry of Crystals: Symmetry, Lattices
Link Structure of Materials Lecture 3 - Geometry of Crystals: Symmetry, Lattices
Link Structure of Materials Lecture 4 - Geometry of Crystals: Symmetry, Lattices
Link Structure of Materials Lecture 5 - Geometry of Crystals: Symmetry, Lattices
Link Structure of Materials Lecture 6 - Geometry of Crystals: Symmetry, Lattices
Link Structure of Materials Lecture 7 - Geometry of Crystals: Symmetry, Lattices
Link Structure of Materials Lecture 8 - Geometry of Crystals: Symmetry, Lattices
Link Structure of Materials Lecture 9 - Geometry of Crystals: Symmetry, Lattices
Link Structure of Materials Lecture 10 - Geometry of Crystals: Symmetry, Lattices
Link Structure of Materials Lecture 11 - Geometry of Crystals: Symmetry, Lattices
Link Structure of Materials Lecture 12 - Geometry of Crystals: Symmetry, Lattices (Continued...) and Miller Indices
Link Structure of Materials Lecture 13 - Miller Indices
Link Structure of Materials Lecture 14 - Miller Indices (Continued...) and Crystal Structures
Link Structure of Materials Lecture 15 - Crystal Structures
Link Structure of Materials Lecture 16 - Crystal Structures
Link Structure of Materials Lecture 17 - Crystal Structures
Link Structure of Materials Lecture 18 - Crystal Structures
Link Structure of Materials Lecture 19 - Crystal Structures
Link Structure of Materials Lecture 20 - Crystal Structures
Link Structure of Materials Lecture 21 - Crystal Structures (Continued...) and Defects in Crystals
Link Structure of Materials Lecture 22 - Defects in Crystals
Link Structure of Materials Lecture 23 - Defects in Crystals
Link Structure of Materials Lecture 24 - Defects in Crystals
Link Structure of Materials Lecture 25 - Defects in Crystals
Link Structure of Materials Lecture 26 - Defects in Crystals
Link Structure of Materials Lecture 27 - Defects in Crystals
Link Structure of Materials Lecture 28 - Defects in Crystals
Link Structure of Materials Lecture 29 - Defects in Crystals
Link Structure of Materials Lecture 30 - Diffusion in Solids
Link Structure of Materials Lecture 31 - Diffusion in Solids
Link Structure of Materials Lecture 32 - Phase Diagrams
Link Structure of Materials Lecture 33 - Phase Diagrams
Link Structure of Materials Lecture 34 - Phase Diagrams
Link Structure of Materials Lecture 35 - Phase Diagrams
Link Structure of Materials Lecture 36 - Phase Diagrams
Link Structure of Materials Lecture 37 - Phase Transformations
Link Structure of Materials Lecture 38 - Phase Transformations
Link Structure of Materials Lecture 39 - Phase Transformations
Link Structure of Materials Lecture 40 - Phase Transformations
Link Structure of Materials Lecture 41 - Phase Transformations
Link Structure of Materials Lecture 42 - Phase Transformations
Link Structure of Materials Lecture 43 - Phase Transformations
Link Structure of Materials Lecture 44 - Phase Transformations
Link Structure of Materials Lecture 45 - Phase Transformations
Link Environmental Degradation of Materials Lecture 1 - Introduction, Basic definition of corrosion
Link Environmental Degradation of Materials Lecture 2 - Forms of Degradation, Thermodynamics of corrosion
Link Environmental Degradation of Materials Lecture 3 - Thermodynamics of corrosion
Link Environmental Degradation of Materials Lecture 4 - Thermodynamics of corrosion
Link Environmental Degradation of Materials Lecture 5 - Thermodynamics of corrosion, Electrochemical series, Concentration cell
Link Environmental Degradation of Materials Lecture 6 - Reduction Potential series, Pourbaix diagram
Link Environmental Degradation of Materials Lecture 7 - Pourbaix diagram
Link Environmental Degradation of Materials Lecture 8 - Pourbaix diagram
Link Environmental Degradation of Materials Lecture 9 - Pourbaix diagram, Kinetics of corrosion
Link Environmental Degradation of Materials Lecture 10 - Kinetics of corrosion, Rate expression, Solved problems
Link Environmental Degradation of Materials Lecture 11 - Solved problems on the corrosion rate, Exchange current density
Link Environmental Degradation of Materials Lecture 12 - Exchange current density, Polarization, Activation Polarization, Tafel Equation
Link Environmental Degradation of Materials Lecture 13 - Activation Polarization, Concentration Polarization
Link Environmental Degradation of Materials Lecture 14 - Concentration Polarization, Mixed Potential Theory
Link Environmental Degradation of Materials Lecture 15 - Mixed Potential Theory, Explanation of corrosion events on the basis of Mixed potential theory, Galvanization
Link Environmental Degradation of Materials Lecture 16 - Explanation of corrosion events on the basis of Mixed potential theory, Effect of impurity, Effect of area factor
Link Environmental Degradation of Materials Lecture 17 - Explanation of corrosion events on the basis of Mixed potential theory, Effect of area factor, Concentration polarization, Passivation
Link Environmental Degradation of Materials Lecture 18 - Passivation and Mixed potential theory
Link Environmental Degradation of Materials Lecture 19 - Passivation and Mixed potential theory
Link Environmental Degradation of Materials Lecture 20 - Different corrosion protection mechanisms, electrochemical ways of protection, cathodic protection
Link Environmental Degradation of Materials Lecture 21 - Cathodic and anodic protection
Link Environmental Degradation of Materials Lecture 22 - Anodic protection, Forms of corrosion, Factors of corrosion
Link Environmental Degradation of Materials Lecture 23 - Forms of corrosion, Uniform Corrosion, Galvanic corrosion
Link Environmental Degradation of Materials Lecture 24 - Galvanic corrosion
Link Environmental Degradation of Materials Lecture 25 - Crevice corrosion
Link Environmental Degradation of Materials Lecture 26 - Crevice corrosion, Pitting corrosion
Link Environmental Degradation of Materials Lecture 27 - Pitting corrosion, Intergranular corrosion
Link Environmental Degradation of Materials Lecture 28 - Intergranular corrosion, Dealloying
Link Environmental Degradation of Materials Lecture 29 - Dealloying, Erosion corrosion
Link Environmental Degradation of Materials Lecture 30 - Erosion corrosion, Cavitation
Link Environmental Degradation of Materials Lecture 31 - Cavitation, Fretting corrosion, corrosion cracking
Link Environmental Degradation of Materials Lecture 32 - Stress corrosion cracking: mechanisms (dissolution controlled)
Link Environmental Degradation of Materials Lecture 33 - Stress corrosion cracking: mechanisms (cleavage controlled), factors affecting SCC, hydrogen embrittlement, corrosion fatigue
Link Environmental Degradation of Materials Lecture 34 - Biologically influenced corrosion, liquid metal attack
Link Environmental Degradation of Materials Lecture 35 - Corrosion protection, change of materials, effect of design of component
Link Environmental Degradation of Materials Lecture 36 - Corrosion protection, change of environment, Inhibitors, coatings
Link Environmental Degradation of Materials Lecture 37 - Oxidation and hot corrosion, pitting Bedworth ratio, thermodynamics of oxidation
Link Environmental Degradation of Materials Lecture 38 - Thermodynamics of oxidation, Ellingham diagram, oxidation kinetics and laws
Link Environmental Degradation of Materials Lecture 39 - Oxide structure and Oxidation
Link Environmental Degradation of Materials Lecture 40 - Hot corrosion, corrosion testing and failure analysis, linear polarization
Link Environmental Degradation of Materials Lecture 41 - Degradation of composites, polymers and ceramics, corrosion and society
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 1 - Introduction to the course
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 2 - Heterogeneous equilibrium and Free energy Formalism
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 3 - Concept of Chemical Potential
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 4 - Phase Rule-I
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 5 - Phase Rule-II and Single Component Equilibria
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 6 - Single Component Phase Diagram
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 7 - Binary Phase Diagram - Isomorphous Diagram
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 8 - Binary Ispmorphous System
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 9 - Solidification of Isomorphous Alloys
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 10 - Free Energy of Binary Isomorphous Phase Diagram
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 11 - Phase Diagram of Binary Eutectic Systems Edit Lesson
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 12 - Solidification of eutectic, hypo-eutectic and hyper-eutectic alloys & their morphologies - I
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 13 - Solidification of eutectic, hypo-eutectic and hyper-eutectic alloys & their morphologies - II
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 14 - Phase diagrams of binary eutectic two terminal solid solution
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 15 - Phase diagrams of binary peritectic System - I
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 16 - Phase diagrams of binary peritectic System - II
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 17 - Phase diagrams of binary peritectic System with intermediate phases
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 18 - Intermediate Phases
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 19 - Introduction to Monotectic Phase Diagram
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 20 - Microstructural Evolution of Monotectic Phase Diagram
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 21 - Free Energy Composition diagrams for Monotectic systems and Syntactic phase diagram
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 22 - Quasichemical theory - I
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 23 - Quasichemical theory - II
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 24 - Quasichemical theory Free enegy formalism
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 25 - Solid state reaction
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 26 - Introduction to Iron-Carbon phase diagram
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 27 - Eutectoid transformation in Iron-Carbon phase diagram
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 28 - Austenite to pearlite transformation in Iron-Carbon phase diagram
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 29 - Hypo-eutectoid steels
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 30 - Pearlite Transformation
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 31 - Martensite Transformation - I
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 32 - Martensite Transformation - II
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 33 - Tempering of Martensite
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 34 - Bainite Transformation
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 35 - TTT curves for Steel
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 36 - Cast Iron - I
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 37 - Cast Iron - II
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 38 - Ductile Iron and Nodular Iron
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 39 - Malleable Iron
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 40 - Alloyed Cast Iron
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 41 - Phase Diagram for different Solid State Reaction
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 42 - Phase Diagram of Ceramic
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 43 - Ternary Phase Diagram - I
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 44 - Ternary Phase Diagram - II
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 45 - Ternary Phase Diagram and Tie Line Construction - I
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 46 - Ternary Phase Diagram and Tie Line Construction - II
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 47 - Ternary Phase Diagram and Tie Line Construction - III
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 48 - Ternary Isomorphous Phase Diagram
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 49 - Ternary Three Phase Equilibria
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 50 - Three Phase Equilibria in Ternary Systems - I
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 51 - Three Phase Equilibria in Ternary Systems - II
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 52 - Solidification Behaviour of Ternary Alloy
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 53 - Three Phase Equilibria
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 54 - Ternary Four Phase Equilibria - I
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 55 - Ternary Four Phase Equilibria - II
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 56 - Solidification Behaviour of Ternary Eutectic Alloys
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 57 - Phase Diagram of Ternary Eutectic with Terminal Solid Solution
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 58 - Ternary Peritectic Reaction
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 59 - Quasi-peritectic Reaction
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 60 - Case Studies on Ternary Phase Diagrams - I
Link NOC:Phase Diagrams in Materials Science and Engineering Lecture 61 - Case Studies on Ternary Phase Diagrams - II
Link NOC:Fundamentals of Material Processing - I Lecture 1 - Introduction
Link NOC:Fundamentals of Material Processing - I Lecture 2 - Solidification (Casting)
Link NOC:Fundamentals of Material Processing - I Lecture 3 - Solidification (Welding)
Link NOC:Fundamentals of Material Processing - I Lecture 4 - Thermodynamics of Solidification
Link NOC:Fundamentals of Material Processing - I Lecture 5 - Kinetics of Solidification (Homogeneous)
Link NOC:Fundamentals of Material Processing - I Lecture 6 - Kinetics of Solidification (Heterogeneous)
Link NOC:Fundamentals of Material Processing - I Lecture 7 - Heat Flow
Link NOC:Fundamentals of Material Processing - I Lecture 8 - Heat Flow (Continued...)
Link NOC:Fundamentals of Material Processing - I Lecture 9 - Heat Flow (Insulating Mold Condition)
Link NOC:Fundamentals of Material Processing - I Lecture 10 - Heat Flow (Insulating Mold Condition) (Continued...)
Link NOC:Fundamentals of Material Processing - I Lecture 11 - Heat Flow (Interface Resistance Controlled Solidification)
Link NOC:Fundamentals of Material Processing - I Lecture 12 - Heat Flow (Effect of Superheat)
Link NOC:Fundamentals of Material Processing - I Lecture 13 - Heat Flow (Solidification of Alloys)
Link NOC:Fundamentals of Material Processing - I Lecture 14 - Composition Variation
Link NOC:Fundamentals of Material Processing - I Lecture 15 - Composition Variation (Continued...)
Link NOC:Fundamentals of Material Processing - I Lecture 16 - Complete and Limited Liquid Diffusion
Link NOC:Fundamentals of Material Processing - I Lecture 17 - Mixed Mode Solidification
Link NOC:Fundamentals of Material Processing - I Lecture 18 - Mixed Mode Solidification and Zone Refining
Link NOC:Fundamentals of Material Processing - I Lecture 19 - Zone Refining (Continued...)
Link NOC:Fundamentals of Material Processing - I Lecture 20 - Cellular Solidification of Single Phase Alloy
Link NOC:Fundamentals of Material Processing - I Lecture 21 - Cellular Solidification of Single Phase Alloy (Continued...)
Link NOC:Fundamentals of Material Processing - I Lecture 22 - Cellular Solidification of Single Phase Alloy (Continued...)
Link NOC:Fundamentals of Material Processing - I Lecture 23 - Plane Front Solidification of Multiphase Alloy
Link NOC:Fundamentals of Material Processing - I Lecture 24 - Plane Front Solidification of Multiphase Alloy (Continued...)
Link NOC:Fundamentals of Material Processing - I Lecture 25 - Fluid Flow Considerations
Link NOC:Fundamentals of Material Processing - I Lecture 26 - Introduction to Powder Processing
Link NOC:Fundamentals of Material Processing - I Lecture 27 - Introduction to Powder Processing (Continued...)
Link NOC:Fundamentals of Material Processing - I Lecture 28 - Powder characterization
Link NOC:Fundamentals of Material Processing - I Lecture 29 - Powder Characterization Techniques
Link NOC:Fundamentals of Material Processing - I Lecture 30 - Powder Characterization using Surface Area
Link NOC:Fundamentals of Material Processing - I Lecture 31 - Powder Characterization using Gas Permeability Method
Link NOC:Fundamentals of Material Processing - I Lecture 32 - Powder Manufacturing
Link NOC:Fundamentals of Material Processing - I Lecture 33 - Powder Manufacturing (Continued...)
Link NOC:Fundamentals of Material Processing - I Lecture 34 - Powder Manufacturing (Continued...)
Link NOC:Fundamentals of Material Processing - I Lecture 35 - Powder Consolidation
Link NOC:Fundamentals of Material Processing - I Lecture 36 - Powder Consolidation (Continued...)
Link NOC:Fundamentals of Material Processing - I Lecture 37 - Particle Packing
Link NOC:Fundamentals of Material Processing - I Lecture 38 - Powder Compaction
Link NOC:Fundamentals of Material Processing - I Lecture 39 - Powder Compaction (Continued...)
Link NOC:Fundamentals of Material Processing - I Lecture 40 - Sintering Theory
Link NOC:Heat Treatment and Surface Hardening - I Lecture 1 - Introduction to Heat Treatment and Importance of Material Tetrahedron
Link NOC:Heat Treatment and Surface Hardening - I Lecture 2 - Case studies in reference to Material tetrahedron T/t information and processing
Link NOC:Heat Treatment and Surface Hardening - I Lecture 3 - Few more case studies in reference to processing with T/t modification
Link NOC:Heat Treatment and Surface Hardening - I Lecture 4 - Critical Definition and Phase Transformation Thermodynamics and Driving Force
Link NOC:Heat Treatment and Surface Hardening - I Lecture 5 - Thermodynamics of Phase Transformation Driving force of Phase Transformation
Link NOC:Heat Treatment and Surface Hardening - I Lecture 6 - Thermodynamics of Phase Transformation and Driving Force for Phase Transformation
Link NOC:Heat Treatment and Surface Hardening - I Lecture 7 - Finding Value of Driving Force (?G) and Single Component (liquid-solid)
Link NOC:Heat Treatment and Surface Hardening - I Lecture 8 - Finding Value of Driving Force (?G) and Nucleation Single Component (liquid-solid)
Link NOC:Heat Treatment and Surface Hardening - I Lecture 9 - Nucleation Treatment Single Component (Solid-Liquid) - I
Link NOC:Heat Treatment and Surface Hardening - I Lecture 10 - Nucleation Treatment Single Component (Solid-Liquid) - II
Link NOC:Heat Treatment and Surface Hardening - I Lecture 11 - Solved Problem on Nucleation rate and How to determine the value of ?sl Physical Concept & Interfacial Energy
Link NOC:Heat Treatment and Surface Hardening - I Lecture 12 - How to determine the value of ?sl (Physical Concept and Interfacial Energy)
Link NOC:Heat Treatment and Surface Hardening - I Lecture 13 - Interfacial Energy - I
Link NOC:Heat Treatment and Surface Hardening - I Lecture 14 - Interfacial Energy - II
Link NOC:Heat Treatment and Surface Hardening - I Lecture 15 - Heterogeneous Nucleation - I
Link NOC:Heat Treatment and Surface Hardening - I Lecture 16 - Heterogeneous Nucleation - II
Link NOC:Heat Treatment and Surface Hardening - I Lecture 17 - Solid - Solid Transformation and Nucleation rate - I
Link NOC:Heat Treatment and Surface Hardening - I Lecture 18 - Solid - Solid Transformation and Nucleation rate - II
Link NOC:Heat Treatment and Surface Hardening - I Lecture 19 - Phase Diagram and G vs X plot - I
Link NOC:Heat Treatment and Surface Hardening - I Lecture 20 - Phase Diagram and G vs X plot - II
Link NOC:Heat Treatment and Surface Hardening - I Lecture 21 - Phase Diagram and G vs X plot - III
Link NOC:Heat Treatment and Surface Hardening - I Lecture 22 - Introduction to Kinetics of Phase Transformation
Link NOC:Heat Treatment and Surface Hardening - I Lecture 23 - Variation of ?G* and r* with Undercooling
Link NOC:Heat Treatment and Surface Hardening - I Lecture 24 - Nucleation rate - I
Link NOC:Heat Treatment and Surface Hardening - I Lecture 25 - Nucleation Rate - II
Link NOC:Heat Treatment and Surface Hardening - I Lecture 26 - Critical Undercooling
Link NOC:Heat Treatment and Surface Hardening - I Lecture 27 - Maximum nucleation rate for homogeneous nucleation
Link NOC:Heat Treatment and Surface Hardening - I Lecture 28 - Maximum nucleation rate for heterogeneous nucleation
Link NOC:Heat Treatment and Surface Hardening - I Lecture 29 - Nucleation kinetics in solid state
Link NOC:Heat Treatment and Surface Hardening - I Lecture 30 - Interface controlled growth
Link NOC:Heat Treatment and Surface Hardening - I Lecture 31 - Diffusion controlled growth
Link NOC:Heat Treatment and Surface Hardening - I Lecture 32 - Avrami Kinetics - I
Link NOC:Heat Treatment and Surface Hardening - I Lecture 33 - Avrami Kinetics - II
Link NOC:Heat Treatment and Surface Hardening - I Lecture 34 - Avrami Kinetics - III
Link NOC:Heat Treatment and Surface Hardening - I Lecture 35 - Time-Temperature-Transformation (TTT) diagram
Link NOC:Heat Treatment and Surface Hardening - I Lecture 36 - Diffusion in Solids - I
Link NOC:Heat Treatment and Surface Hardening - I Lecture 37 - Diffusion in Solids - II
Link NOC:Heat Treatment and Surface Hardening - I Lecture 38 - Diffusion in Solids - III
Link NOC:Heat Treatment and Surface Hardening - I Lecture 39 - Diffusion in Solids - IV
Link NOC:Heat Treatment and Surface Hardening - I Lecture 40 - Applications of heat treatment
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 1 - Introduction to Metal Working
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 2 - Continuum Mechanics
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 3 - Stress Invariants
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 4 - Strain Tensors and Mohr circle for strains
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 5 - Yield Stress Criterion
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 6 - Effective Stress and Strain
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 7 - Work Hardening and Flow Behaviour
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 8 - Effect of Strain Rate
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 9 - Combined Effect of Strain, Strain Rate and Temperature
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 10 - Effect of Temperature
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 11 - Cold, Warm and Hot Working
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 12 - Mechanics of Metal Working
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 13 - Wire Drawing
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 14 - Wire Drawing (Continued...)
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 15 - Hodographs
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 16 - Upper-Bound Analysis
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 17 - Plane Strain Indentation
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 18 - Strain Calculation Models and Friction
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 19 - Types of Friction
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 20 - Effect of Friction in Rolling
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 21 - Vacuum Technology
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 22 - Vacuum Technology (Continued...)
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 23 - Thermal Evaporation
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 24 - Thermal Evaporation (Continued...)
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 25 - Thermal Evaporation (Continued...)
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 26 - Plasma Physics
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 27 - Plasma Physics (Continued...)
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 28 - Sputtering
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 29 - Sputtering (Continued...)
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 30 - Sputtering (Continued...)
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 31 - Chemical Vapor Deposition
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 32 - Chemical Vapor Deposition (Continued...)
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 33 - Chemical Vapor Deposition (Continued...)
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 34 - Chemical Vapor Deposition (Continued...)
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 35 - Epitaxy, Molecular Beam Epitaxy and Atomic Layer Deposition
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 36 - Adsorption and Nucleation
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 37 - Thin Film Growth
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 38 - Kinetics of Thin Film Growth
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 39 - Thin Film Morphology- Zone Structure Model
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 40 - Thin Film Characterization
Link NOC:Fundamentals of Material Processing - Part 2 Lecture 41 - Thin Film Characterization
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 1 - Material Evolution
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 2 - Bonding in Materials
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 3 - Correlation between bond and physical properties
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 4 - Crystal Structure: Lattice and Basis
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 5 - Unit Cell (Primitive and Non-primitive)
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 6 - Crystal Systems and Bravais Lattices
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 7 - Bravais Lattice and Symmetry in Crystals
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 8 - Symmetry in Crystals
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 9 - Symmetry and Correlation with the Bravais Lattice
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 10 - Miller Indices (Planes and Directions)
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 11 - Miller Indices - Part 2
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 12 - Miller Indices - Part 3
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 13 - Miller Indices and Weiss Zone Law
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 14 - Structure of Metals and Alloys
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 15 - Structure of Metals, Packing, Co-ordination and Interstices
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 16 - Interstices, Solid Solutions and Alloys
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 17 - Solid Solutions: Alloys
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 18 - Solid Solutions: Alloy (Continued...)
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 19 - Covalent Solids
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 20 - Covalent Solids (Continued...) and Ionic Solids
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 21 - Ionic Solids: Stability and Rules of Formation
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 22 - Ionic solids (Continued...) : Formation of structure
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 23 - ionic Solids (Continued...) : Close Packing of anions
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 24 - Ionic Solids (Continued...) : Other cubic structures
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 25 - Ionic Solids (Ceramics) : Remaining cubic and non-cubic structures
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 26 - HCP based Structure
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 27 - Structure of Non-crystalline Solids (glasses)
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 28 - Structure of Non-Crystalline Solids:Glasses (Continued...)
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 29 - Structure of Non-Crystalline Solids (Polymers)
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 30 - Structure of Polymers
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 31 - Structure of Polymers (Continued...)
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 32 - Structure Determination (X-ray Diffraction)
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 33 - X-ray Diffraction
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 34 - X-ray Diffraction (Continued...)
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 35 - X-ray Diffraction (Continued...)
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 36 - X-ray Diffraction (Continued...)
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 37 - X-ray Diffraction (Continued...)
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 38 - Defects in Solids (Point Defects)
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 39 - Point Defect Concentration
Link NOC:Nature and Properties of Materials - An Introductory Course Lecture 40 - 2-D Defects
Link NOC:Defects in Crystalline Solids - Part I Lecture 1 - Introduction to Defects
Link NOC:Defects in Crystalline Solids - Part I Lecture 2 - Equilibrium Points Defects
Link NOC:Defects in Crystalline Solids - Part I Lecture 3 - Energy of Vacancy Formation
Link NOC:Defects in Crystalline Solids - Part I Lecture 4 - Vacancy Concentration Measurement Techniques
Link NOC:Defects in Crystalline Solids - Part I Lecture 5 - Self-interstitial Defects+Frenkel Defects
Link NOC:Defects in Crystalline Solids - Part I Lecture 6 - Schottky Defects+Extrinsic Defects
Link NOC:Defects in Crystalline Solids - Part I Lecture 7 - Interstitials in Iron
Link NOC:Defects in Crystalline Solids - Part I Lecture 8 - Defects Reaction+Kroger-Vink Notation
Link NOC:Defects in Crystalline Solids - Part I Lecture 9 - Defects Reaction and its Thermodynamics
Link NOC:Defects in Crystalline Solids - Part I Lecture 10 - Equilibrium Concentration using Defects Reaction
Link NOC:Defects in Crystalline Solids - Part I Lecture 11 - Examples on defect reaction
Link NOC:Defects in Crystalline Solids - Part I Lecture 12 - Diffusion (Interstitial Diffusion)
Link NOC:Defects in Crystalline Solids - Part I Lecture 13 - Non-steady state diffusion
Link NOC:Defects in Crystalline Solids - Part I Lecture 14 - Self-diffusion + Examples
Link NOC:Defects in Crystalline Solids - Part I Lecture 15 - Diffusion in substitutional alloys+Diffusion along defects
Link NOC:Defects in Crystalline Solids - Part I Lecture 16 - History of Dislocations
Link NOC:Defects in Crystalline Solids - Part I Lecture 17 - Volterra Model + Structure of Dislocations + Burger vectors
Link NOC:Defects in Crystalline Solids - Part I Lecture 18 - Characteristics of Dislocations
Link NOC:Defects in Crystalline Solids - Part I Lecture 19 - Mixed Dislocations + Dislocation Loops
Link NOC:Defects in Crystalline Solids - Part I Lecture 20 - Elastic Continuum Model + Strain field for screw dislocations
Link NOC:Defects in Crystalline Solids - Part I Lecture 21 - Stress and Strain Fields
Link NOC:Defects in Crystalline Solids - Part I Lecture 22 - Stress State around Edge Dislocations+Elastic Energy of Dislocations
Link NOC:Defects in Crystalline Solids - Part I Lecture 23 - Glide Forces on Dislocations+Line Tension on Dislocations
Link NOC:Defects in Crystalline Solids - Part I Lecture 24 - Climb Forces on Dislocations+Interaction Between Dislocations
Link NOC:Defects in Crystalline Solids - Part I Lecture 25 - Image Forces on Dislocations
Link NOC:Defects in Crystalline Solids - Part I Lecture 26 - Resistance to Dislocation Motion+Peierl Nebarro Valley
Link NOC:Defects in Crystalline Solids - Part I Lecture 27 - Slip System+Examples
Link NOC:Defects in Crystalline Solids - Part I Lecture 28 - Dislocations and Slips+Examples
Link NOC:Defects in Crystalline Solids - Part I Lecture 29 - Critical resolved Shear Stress+Examples (Continued...)
Link NOC:Defects in Crystalline Solids - Part I Lecture 30 - Glide+Kinks
Link NOC:Defects in Crystalline Solids - Part I Lecture 31 - Cross-slip+Climb
Link NOC:Defects in Crystalline Solids - Part I Lecture 32 - Climb+Jogs
Link NOC:Defects in Crystalline Solids - Part I Lecture 33 - Examples on Jogs+Dislocation Intersection
Link NOC:Defects in Crystalline Solids - Part I Lecture 34 - Dislocation Intersection and step characteristics+Superjogs
Link NOC:Defects in Crystalline Solids - Part I Lecture 35 - Strain and strain-rate due to dislocation motion+Velocity of dislocations+Observation of dislocations
Link NOC:Defects in Crystalline Solids - Part I Lecture 36 - Observation of dislocation (Continued...) + Dislocation Dynamics
Link NOC:Defects in Crystalline Solids - Part I Lecture 37 - Dislocations in FCC+Partial dislocations
Link NOC:Defects in Crystalline Solids - Part I Lecture 38 - Partial dislocations (Continued...) +Stacking Fault
Link NOC:Defects in Crystalline Solids - Part I Lecture 39 - Thompson's Tetrahedron+Examples
Link NOC:Defects in Crystalline Solids - Part I Lecture 40 - Dislocations in BCC+Asymmetry of Slip
Link NOC:Corrosion - Part I Lecture 1 - Introduction to corrosion - I
Link NOC:Corrosion - Part I Lecture 2 - Introduction to corrosion - II
Link NOC:Corrosion - Part I Lecture 3 - Types and forms of corrosion
Link NOC:Corrosion - Part I Lecture 4 - Uniform and Galvanic corrosion
Link NOC:Corrosion - Part I Lecture 5 - Crevice and Pitting corrosion
Link NOC:Corrosion - Part I Lecture 6 - Forms of corrosion: Explanation with Examples
Link NOC:Corrosion - Part I Lecture 7 - Electrochemical Nature of Corrosion and its Thermodynamics
Link NOC:Corrosion - Part I Lecture 8 - Thermodynamics aspects of corrosion - I
Link NOC:Corrosion - Part I Lecture 9 - Thermodynamics aspects of corrosion - II
Link NOC:Corrosion - Part I Lecture 10 - Thermodynamics aspects ofcorrosion - III
Link NOC:Corrosion - Part I Lecture 11 - Relation Between Free Energy and Equilibrium Constant
Link NOC:Corrosion - Part I Lecture 12 - Derivation of Nernst Equation
Link NOC:Corrosion - Part I Lecture 13 - Standard Reduction Potential Series for Pure Metals
Link NOC:Corrosion - Part I Lecture 14 - Reduction Potentials in Acidic and Neutral Solutions
Link NOC:Corrosion - Part I Lecture 15 - Nernst equation in terms of pH
Link NOC:Corrosion - Part I Lecture 16 - Limitations of Standard Reduction Potential Series of Pure Metals
Link NOC:Corrosion - Part I Lecture 17 - Concentration Cell Formation and Galvanic Series
Link NOC:Corrosion - Part I Lecture 18 - Examples of Concentration cell and Spontaneity of Corrosion Process
Link NOC:Corrosion - Part I Lecture 19 - Spontaneity of Corrosion Process and Introduction to Pourbaix Diagram
Link NOC:Corrosion - Part I Lecture 20 - Construction of Pourbaix Diagram
Link NOC:Corrosion - Part I Lecture 21 - Construction of Pourbaix diagram for Ni-H2O system - I
Link NOC:Corrosion - Part I Lecture 22 - Construction of Pourbaix diagram for Ni-H2O system - II
Link NOC:Corrosion - Part I Lecture 23 - Construction of Pourbaix diagram for Ni-H2O system - III
Link NOC:Corrosion - Part I Lecture 24 - Pourbaix diagram of Ni-H2O and AI-H2O
Link NOC:Corrosion - Part I Lecture 25 - Inferences from Pourbaix diagram of Fe-H2O and AI-H2O
Link NOC:Corrosion - Part I Lecture 26 - Estimation of Corrosion Rate - I
Link NOC:Corrosion - Part I Lecture 27 - Estimation of Corrosion Rate - II
Link NOC:Corrosion - Part I Lecture 28 - Estimation of Corrosion Rate - III
Link NOC:Corrosion - Part I Lecture 29 - Exchange Current Density
Link NOC:Corrosion - Part I Lecture 30 - Exchange Current Density and Standard Hydrogen Electrode
Link NOC:Corrosion - Part I Lecture 31 - Electrical Double Layer and Polarization
Link NOC:Corrosion - Part I Lecture 32 - Correlation between Current Density and Overvoltage
Link NOC:Corrosion - Part I Lecture 33 - Introduction to Buttler-Volmer Equation
Link NOC:Corrosion - Part I Lecture 34 - Derivation of Tafel Equation
Link NOC:Corrosion - Part I Lecture 35 - Tafel Plot and Activation Polarization
Link NOC:Corrosion - Part I Lecture 36 - Activation polarization, concentration polarization and total polarization
Link NOC:Corrosion - Part I Lecture 37 - Summary of concentration polarization (CP) and introduction to mixed potential theory - I
Link NOC:Corrosion - Part I Lecture 38 - Mixed potential theory - II
Link NOC:Corrosion - Part I Lecture 39 - Understanding of mixed potential theory through the case studies and events of corrosion - I
Link NOC:Corrosion - Part I Lecture 40 - Understanding of mixed potential theory through the case studies and events of corrosion - II
Link NOC:Corrosion - Part I Lecture 41 - Understanding of mixed potential theory through the case studies and events of corrosion - III
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 1 - Introduction to Solar Energy
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 2 - Solar Radiation
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 3 - Atmospheric Effects on Solar Radiation
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 4 - Effect of Location on Time
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 5 - Sun-Earth Angular Relations
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 6 - Solar Radiation Measurements
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 7 - Introduction to Band Theory
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 8 - Semiconductor Basics - I
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 9 - Semiconductor Basics - II
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 10 - Electrical Properties of Semiconductors
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 11 - Carrier Transport
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 12 - Carrier Transport, Generation and Recombination
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 13 - Recombinaton-Generation statistics
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 14 - Recombinaton-Generation statistics (Continued...)
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 15 - Recombinaton-Generation statistics (Continued...)
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 16 - P-N Junction basics
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 17 - P-N Junction Characterisitics
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 18 - P-N Junction: Effect of Bias
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 19 - P-N Junction Analysis (Dark)
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 20 - P-N Junction Analysis (Dark)
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 21 - P-N Junction Analysis (Light)
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 22 - P-N Junction Analysis (Light)
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 23 - P-N Junction Analysis (Light)
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 24 - P-N Junction Analysis (Light)
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 25 - Solar Cell Device Parameters
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 26 - Solar Cell Device Parameters
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 27 - Solar PV Technologies: Introduction
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 28 - Generation-I Technologies (Mono Silicon Solar Cells)
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 29 - Generation-I Technologies (Mono Silicon Solar Cells)
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 30 - Generation-I Technologies (Poly Silicon Solar Cells)
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 31 - Manufacturing of Si
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 32 - Generation I Technologies: GaAs Solar Cells
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 33 - Generation II Technologies: a-Si Solar Cells
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 34 - Generation II Technologies: CdTe Solar Cells
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 35 - Generation II Technologies: CdTe Solar Cells
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 36 - Generation II Technologies: CIGS Solar Cells
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 37 - Generation II Technologies: CIGS and Multijunction Solar Cells
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 38 - Generation III Technologies: Organic Solar Cells
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 39 - Generation III Technologies: Organic Solar Cells
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 40 - Generation III Technologies: Organic and Dye Sensitized Solar Cells
Link NOC:Solar Photovoltaics: Principles, Technologies and Material Lecture 41 - Generation III Technologies: Perovskite and CZTS Solar Cells
Link NOC:Defects in Crystalline Solids - Part II Lecture 1 - Dislocation structure in FCC
Link NOC:Defects in Crystalline Solids - Part II Lecture 2 - Partial dislocations in FCC
Link NOC:Defects in Crystalline Solids - Part II Lecture 3 - Thompsons Tetrahedron
Link NOC:Defects in Crystalline Solids - Part II Lecture 4 - Dislocation lock in FCC
Link NOC:Defects in Crystalline Solids - Part II Lecture 5 - Other defects in FCC (Twins and Frank Partial)
Link NOC:Defects in Crystalline Solids - Part II Lecture 6 - Dislocation structure in BCC
Link NOC:Defects in Crystalline Solids - Part II Lecture 7 - Soft core and Hard core for Screw dislocation in BCC
Link NOC:Defects in Crystalline Solids - Part II Lecture 8 - Dislocation structure in HCP
Link NOC:Defects in Crystalline Solids - Part II Lecture 9 - Burger vector and partial dislocation in HCP
Link NOC:Defects in Crystalline Solids - Part II Lecture 10 - Dislocation structure in ionic crystal
Link NOC:Defects in Crystalline Solids - Part II Lecture 11 - Dislocation structure in superlattices
Link NOC:Defects in Crystalline Solids - Part II Lecture 12 - Stacking fault and Kear-Wilsdorf lock in superlattices
Link NOC:Defects in Crystalline Solids - Part II Lecture 13 - Dislocation interaction & Strain hardening
Link NOC:Defects in Crystalline Solids - Part II Lecture 14 - Origin and Nucleation of dislocations
Link NOC:Defects in Crystalline Solids - Part II Lecture 15 - Multiplication of dislocations
Link NOC:Defects in Crystalline Solids - Part II Lecture 16 - Interactin of point defects and dislocation - Solid Solution Strengthening
Link NOC:Defects in Crystalline Solids - Part II Lecture 17 - Cottrell atmosphere and Yield-point phenomenon
Link NOC:Corrosion - Part II Lecture 1 - Recap of Electrochemical Polarization
Link NOC:Corrosion - Part II Lecture 2 - Recap of Electrochemical Polarization - Activation and Concentration Polarization
Link NOC:Corrosion - Part II Lecture 3 - Electrochemical Polarization: Activation and Concentration Polarization, Tafel Equation
Link NOC:Corrosion - Part II Lecture 4 - Activation and Concentration Polarization: Mixed Potential Theory
Link NOC:Corrosion - Part II Lecture 5 - Concentration Polarization and Mixed Potential Theory
Link NOC:Corrosion - Part II Lecture 6 - Explanation of Corrosion Processes on the basis of Mixed Potential Theory - Introduction
Link NOC:Corrosion - Part II Lecture 7 - Explanation of Corrosion Processes on the basis of Mixed Potential Theory - Part 1
Link NOC:Corrosion - Part II Lecture 8 - Explanation of Corrosion Processes on the basis of Mixed Potential Theory - Part 2
Link NOC:Corrosion - Part II Lecture 9 - Explanation of Corrosion Processes on the basis of Mixed Potential Theory - Part 2 (Continued...)
Link NOC:Corrosion - Part II Lecture 10 - Explanation of Corrosion Processes on the basis of Mixed Potential Theory - Part 3
Link NOC:Corrosion - Part II Lecture 11 - Effect of Exchange Current Density on Corrosion Rate of an Active Metal
Link NOC:Corrosion - Part II Lecture 12 - Area Effect of the Cathodic and Anodic Component - I
Link NOC:Corrosion - Part II Lecture 13 - Area Effect of the Cathodic and Anodic Component - II
Link NOC:Corrosion - Part II Lecture 14 - Explanation of Corrosion Processess on the Basis of Mixed Potential Theory: Numerical Analysis
Link NOC:Corrosion - Part II Lecture 15 - Galvanic Coupling between Two Active Metals
Link NOC:Corrosion - Part II Lecture 16 - Theory of Sacrificial Anode for the Protection of Steel Objects
Link NOC:Corrosion - Part II Lecture 17 - Effect of two Active Metals on Fe-corrosion when they are Galvanically Coupled
Link NOC:Corrosion - Part II Lecture 18 - Corrosion of Metals when Cathodic Protection is Concentration Controlled
Link NOC:Corrosion - Part II Lecture 19 - Effect of Velocity on the Corrosion Rate of an Active Metal
Link NOC:Corrosion - Part II Lecture 20 - Concentration Polarization and Activation Polarization: Numerical Analysis
Link NOC:Corrosion - Part II Lecture 21 - Numerical Problems and Passivation
Link NOC:Corrosion - Part II Lecture 22 - Theory of Passivation - I
Link NOC:Corrosion - Part II Lecture 23 - Theory of Passivation - II
Link NOC:Corrosion - Part II Lecture 24 - Interaction between Passivation and Pourbaix Diagram - I
Link NOC:Corrosion - Part II Lecture 25 - Interaction between Passivation and Pourbaix Diagram - II
Link NOC:Corrosion - Part II Lecture 26 - Passivity
Link NOC:Corrosion - Part II Lecture 27 - Interaction of Cathodic Polarization with an Active-Passive Metal
Link NOC:Corrosion - Part II Lecture 28 - Interaction of Anodic Polarization with an Active-Passive Metal
Link NOC:Corrosion - Part II Lecture 29 - Passivation and Mixed Potential Theory: Case Studies
Link NOC:Corrosion - Part II Lecture 30 - Passivation and Mixed Potential Theory: Case Studies (Continued...)
Link NOC:Corrosion - Part II Lecture 31 - Effect of Galvanic Coupling between an Active-Passive Metal and a Noble Metal
Link NOC:Corrosion - Part II Lecture 32 - Anodic Protection of an Active-Passive Metal and an Introduction of Linear Polarization
Link NOC:Corrosion - Part II Lecture 33 - Linear Polarization and Understanding Relative Corrosion Resistance of a Metal
Link NOC:Corrosion - Part II Lecture 34 - Oxidation of Metals and Alloys
Link NOC:Corrosion - Part II Lecture 35 - Different Stages of Oxidation and Pilling Bedworth Ratio
Link NOC:Corrosion - Part II Lecture 36 - Pilling Bedworth Ratio of Different Metal Oxides
Link NOC:Corrosion - Part II Lecture 37 - Thermodynamics of Oxidation
Link NOC:Corrosion - Part II Lecture 38 - Construction of Ellingham Diagram - I
Link NOC:Corrosion - Part II Lecture 39 - Construction of Ellingham Diagram - II
Link NOC:Corrosion - Part II Lecture 40 - Kinetics of Oxidation
Link NOC:Corrosion - Part II Lecture 41 - Oxide Structure and Oxidation Mechanism
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 1 - Outline of the Course
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 2 - Basics of Crystal Structure
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 3 - Basics of Crystallography and Bonding
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 4 - Arrangement of Atoms in Crystal Lattice
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 5 - Structure Formation: Ionic Solids
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 6 - Pauling's Rule and Crystal Structure of Ceramics
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 7 - Ceramic Materials: Crystal Structure
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 8 - Defect Chemistry
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 9 - Defect Chemistry: Non-Stoichiometric Oxides
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 10 - Concentration and Effect of Intrinsic Impurities
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 11 - Intrinsic and Extrinsic Defects
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 12 - Defect Concentration: Non-Stoichiometric Oxides
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 13 - Intrinsic Ionization in Metal Oxides
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 14 - Brouwer's Diagram
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 15 - Introduction to Dielectrics
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 16 - Dielectric Displacement and Polarization Mechanism
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 17 - Polarization Mechanisms
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 18 - Dielectric Polarizability - 1
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 19 - Dielectric Polarizability - 2
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 20 - Frequency Dependence of Dielectrics
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 21 - Losses in Dielectric Materials
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 22 - Frequency Dependence of Dielectric Constant
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 23 - Dipolar Relaxation
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 24 - Debye Equations for Dipolar Relaxation
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 25 - Impedance Spectroscopy
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 26 - Impedance Spectroscopy and Dielectric Breakdown
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 27 - Basics of Non-linear Dielectrics
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 28 - Piezoelectric Effect
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 29 - Pyroelectric Effect and Electrostriction
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 30 - Thermodynamics of Piezoelectric and Pyroelectric Materials
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 31 - Basics of Ferroelectric Materials
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 32 - Ferroelectric Phase Transitions
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 33 - Thermodynamics of Phase Transition in Ferroelectrics
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 34 - Second Order Phase Transition in Ferroelectric Materials
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 35 - First Order Phase Transition in Ferroelectric Materials
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 36 - Domain Walls in Ferroelectric Materials
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 37 - Domain Structure and Properties of Ferroelectric Materials
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 38 - Phase Diagram and Measurements of Ferroelectric Materials
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 39 - Principal of Measurements and Applications of Piezoelectric and Pyroelectric Materials
Link NOC:Fundamentals and Applications of Dielectric Ceramics Lecture 40 - Applications of Piezoelectric and Pyroelectric Materials
Link Advanced ceramics for strategic applications Lecture 1 - Introduction
Link Advanced ceramics for strategic applications Lecture 2 - Introduction (Continued...)
Link Advanced ceramics for strategic applications Lecture 3 - Crystal Structure
Link Advanced ceramics for strategic applications Lecture 4 - Crystal Structure (Continued...)
Link Advanced ceramics for strategic applications Lecture 5 - Crystal Structure (Continued...)
Link Advanced ceramics for strategic applications Lecture 6 - Crystal Structure (Continued...)
Link Advanced ceramics for strategic applications Lecture 7 - Defects in crystalline solids
Link Advanced ceramics for strategic applications Lecture 8 - Defects in crystalline solids (Continued...)
Link Advanced ceramics for strategic applications Lecture 9 - Dislocation
Link Advanced ceramics for strategic applications Lecture 10 - Two and Three Dimensional Defects
Link Advanced ceramics for strategic applications Lecture 11 - Electrical Conduction in ceramics
Link Advanced ceramics for strategic applications Lecture 12 - Electrical Conduction in Ceramics (Continued...)
Link Advanced ceramics for strategic applications Lecture 13 - Electrical Conduction in Ceramics (Continued...)
Link Advanced ceramics for strategic applications Lecture 14 - Electrical Conduction in Ceramics (Continued...)
Link Advanced ceramics for strategic applications Lecture 15 - Electrical Conduction in Ceramics (Continued...)
Link Advanced ceramics for strategic applications Lecture 16 - Electrical Conduction in Ceramics (Continued...)
Link Advanced ceramics for strategic applications Lecture 17 - Electrical Phenomenon in Insulators
Link Advanced ceramics for strategic applications Lecture 18 - Electrical Phenomenon in Insulators (Continued...)
Link Advanced ceramics for strategic applications Lecture 19 - Ferroelectric , Piezoelectric and Pyroelectric Ceramics
Link Advanced ceramics for strategic applications Lecture 20 - Ferroelectric , Piezoelectric and Pyroelectric Ceramics (Continued...)
Link Advanced ceramics for strategic applications Lecture 21 - Ferroelectric , Piezoelectric and Pyroelectric Ceramics (Continued...)
Link Advanced ceramics for strategic applications Lecture 22 - Ferroelectric , Piezoelectric and Pyroelectric Ceramics (Continued...)
Link Advanced ceramics for strategic applications Lecture 23 - Relaxor Ferroelectric
Link Advanced ceramics for strategic applications Lecture 24 - Superconductivity
Link Advanced ceramics for strategic applications Lecture 25 - Superconductivity (Continued...)
Link Advanced ceramics for strategic applications Lecture 26 - Ceramic Gas Sensor
Link Advanced ceramics for strategic applications Lecture 27 - Ceramic Gas Sensor (Continued...)
Link Advanced ceramics for strategic applications Lecture 28 - Solid Oxide Fuel Cell
Link Advanced ceramics for strategic applications Lecture 29 - Solid Oxide Fuel Cell (Continued...)
Link Advanced ceramics for strategic applications Lecture 30 - Solid Oxide Fuel Cell (Continued...)
Link Advanced ceramics for strategic applications Lecture 31 - Hydrogen Generation through MIEC Reactor
Link Advanced ceramics for strategic applications Lecture 32 - Lithium Ion Battery
Link Advanced ceramics for strategic applications Lecture 33 - Lithium Ion Battery (Continued...)
Link Advanced ceramics for strategic applications Lecture 34 - Magnetic Ceramics
Link Advanced ceramics for strategic applications Lecture 35 - Magnetic Ceramics (Continued...)
Link Advanced ceramics for strategic applications Lecture 36 - Magnetic Ceramics (Continued...)
Link Advanced ceramics for strategic applications Lecture 37 - Magnetic Ceramics (Continued...)
Link Advanced ceramics for strategic applications Lecture 38 - Sintering of Ceramics
Link Advanced ceramics for strategic applications Lecture 39 - Sintering of Ceramics (Continued...)
Link Advanced ceramics for strategic applications Lecture 40 - Sintering of Ceramics (Continued...)
Link Advanced ceramics for strategic applications Lecture 41 - Sintering of Ceramics (Continued...)
Link Advanced ceramics for strategic applications Lecture 42 - Mechanical Properties of Ceramic Materials
Link Advanced ceramics for strategic applications Lecture 43 - Mechanical Properties of Ceramic Materials (Continued...)
Link Advanced ceramics for strategic applications Lecture 44 - Mechanical Properties of Ceramic Materials (Continued...)
Link Advanced ceramics for strategic applications Lecture 45 - Mechanical Properties of Ceramic Materials (Continued...)
Link Advanced ceramics for strategic applications Lecture 46 - Structural Ceramics Materials
Link Advanced ceramics for strategic applications Lecture 47 - Bioceramics
Link Non-ferrous Extractive Metallurgy Lecture 1 - Brief History of Non-ferrous Metal
Link Non-ferrous Extractive Metallurgy Lecture 2 - Brief History of Non-ferrous Metal (Continued...)
Link Non-ferrous Extractive Metallurgy Lecture 3 - Sources of Non-ferrous Metal
Link Non-ferrous Extractive Metallurgy Lecture 4 - Mineral Benefication Techniques
Link Non-ferrous Extractive Metallurgy Lecture 5 - General Methods of Metal Extraction
Link Non-ferrous Extractive Metallurgy Lecture 6 - Principles of Carbon Reduction
Link Non-ferrous Extractive Metallurgy Lecture 7 - Principles of Hydrometalling
Link Non-ferrous Extractive Metallurgy Lecture 8 - Principles of Electrometallurgy
Link Non-ferrous Extractive Metallurgy Lecture 9 - Electrometallurgy (Continued...) and Temkin Model for Fused Salts
Link Non-ferrous Extractive Metallurgy Lecture 10 - Refining of Metals - Chemical Methods
Link Non-ferrous Extractive Metallurgy Lecture 11 - Refining of Metals - Physical Methods
Link Non-ferrous Extractive Metallurgy Lecture 12 - Concluding part of Module - 4
Link Non-ferrous Extractive Metallurgy Lecture 13 - Concluding part of Module - 4 (Continued...)
Link Non-ferrous Extractive Metallurgy Lecture 14 - Module - 5 Extraction of Metals from Oxides, Extraction of Magnesium
Link Non-ferrous Extractive Metallurgy Lecture 15 - Extraction Aluminium
Link Non-ferrous Extractive Metallurgy Lecture 16 - Extraction Aluminium (Continued...1)
Link Non-ferrous Extractive Metallurgy Lecture 17 - Extraction Aluminium (Continued...2)
Link Non-ferrous Extractive Metallurgy Lecture 18 - Extraction Aluminium (Continued...3)
Link Non-ferrous Extractive Metallurgy Lecture 19 - Extraction of Tin
Link Non-ferrous Extractive Metallurgy Lecture 20 - Extraction of Ferro Alloys
Link Non-ferrous Extractive Metallurgy Lecture 21 - Module - 6 Extraction of Metals from Sulphides Extraction of Copper
Link Non-ferrous Extractive Metallurgy Lecture 22 - Extraction of Copper (Continued...)
Link Non-ferrous Extractive Metallurgy Lecture 23 - Hydrometallurgy of Copper
Link Non-ferrous Extractive Metallurgy Lecture 24 - Extraction of Lead
Link Non-ferrous Extractive Metallurgy Lecture 25 - Extraction of Zinc-Imperial Smelting Process
Link Non-ferrous Extractive Metallurgy Lecture 26 - Module - 7 Extraction of metals from halides, Extraction of reactor metals
Link Non-ferrous Extractive Metallurgy Lecture 27 - Extraction of reactor metals (Continued...1)
Link Non-ferrous Extractive Metallurgy Lecture 28 - Extraction of reactor metals (Continued...2)
Link Non-ferrous Extractive Metallurgy Lecture 29 - Extraction of Titanium
Link Non-ferrous Extractive Metallurgy Lecture 30 - Extraction of Precious Metals
Link Non-ferrous Extractive Metallurgy Lecture 31 - Production of Secondary Metals and Treatment of Wastes
Link Non-ferrous Extractive Metallurgy Lecture 32 - Energy and Environment Related Issues in Nonferrous Metals Production
Link Non-ferrous Extractive Metallurgy Lecture 33 - Energy and Environment Related Issues in Nonferrous Metals Production (Continued...1)
Link Non-ferrous Extractive Metallurgy Lecture 34 - Energy and Environment Related Issues in Nonferrous Metals Production (Continued...2)
Link Non-ferrous Extractive Metallurgy Lecture 35 - Energy and Environment Related Issues in Nonferrous Metals Production (Continued...3)
Link Non-ferrous Extractive Metallurgy Lecture 36 - Energy and Environment Related Issues in Nonferrous Metals Production (Continued...4)
Link Non-ferrous Extractive Metallurgy Lecture 37 - Energy and Environment Related Issues in Nonferrous Metals Production (Continued...5)
Link Non-ferrous Extractive Metallurgy Lecture 38 - Energy and Environment Related Issues in Nonferrous Metals Production (Continued...6)
Link Non-ferrous Extractive Metallurgy Lecture 39 - Nonferrous Metals in India - Unleashing its true potential
Link Non-ferrous Extractive Metallurgy Lecture 40 - Nonferrous Metals in India - Unleashing its true potential (Continued...)
Link Non-ferrous Extractive Metallurgy Lecture 41 - Review and Summary
Link Non-ferrous Extractive Metallurgy Lecture 42 - Review and Summary (Continued...1)
Link Non-ferrous Extractive Metallurgy Lecture 43 - Review and Summary (Continued...2)
Link Principles of Physical Metallurgy Lecture 1 - Introduction
Link Principles of Physical Metallurgy Lecture 2 - Atomic Bond and Crystal Structure
Link Principles of Physical Metallurgy Lecture 3 - Atomic Bond and Crystal Structure (Continued...1)
Link Principles of Physical Metallurgy Lecture 4 - Atomic Bond and Crystal Structure (Continued...2)
Link Principles of Physical Metallurgy Lecture 5 - Experimental Tools & Techniques
Link Principles of Physical Metallurgy Lecture 6 - Experimental Tools & Techniques (Continued...)
Link Principles of Physical Metallurgy Lecture 7 - Solidification of Pure Metal
Link Principles of Physical Metallurgy Lecture 8 - Plastic Deformation of Pure Metal
Link Principles of Physical Metallurgy Lecture 9 - Plastic Deformation of Pure Metal (Continued...)
Link Principles of Physical Metallurgy Lecture 10 - Crystal Defects in Metals
Link Principles of Physical Metallurgy Lecture 11 - Crystal Defects in Metals (Continued...1)
Link Principles of Physical Metallurgy Lecture 12 - Crystal Defects in Metals (Continued...2)
Link Principles of Physical Metallurgy Lecture 13 - Crystal Defects in Metals (Continued...3)
Link Principles of Physical Metallurgy Lecture 14 - Crystal Defects in Metals (Continued...4)
Link Principles of Physical Metallurgy Lecture 15 - Diffusion in Solids
Link Principles of Physical Metallurgy Lecture 16 - Diffusion in Solids (Continued...)
Link Principles of Physical Metallurgy Lecture 17 - Numerical Examples in Diffusion
Link Principles of Physical Metallurgy Lecture 18 - Solidification of Binary Alloys
Link Principles of Physical Metallurgy Lecture 19 - Solidification of Binary Alloys (Continued...1)
Link Principles of Physical Metallurgy Lecture 20 - Solidification of Binary Alloys (Continued...2)
Link Principles of Physical Metallurgy Lecture 21 - Solidification of Binary Alloys (Continued...3)
Link Principles of Physical Metallurgy Lecture 22 - Solidification of Binary Alloys (Continued...4)
Link Principles of Physical Metallurgy Lecture 23 - Iron-Carbon Phase Diagram
Link Principles of Physical Metallurgy Lecture 24 - Iron-Carbon Phase Diagram (Continued...)
Link Principles of Physical Metallurgy Lecture 25 - Ternary Phase Diagram
Link Principles of Physical Metallurgy Lecture 26 - Common Binary Alloys
Link Principles of Physical Metallurgy Lecture 27 - Metal Working : Deformation Processing
Link Principles of Physical Metallurgy Lecture 28 - Metal Working : Deformation Processing (Continued...)
Link Principles of Physical Metallurgy Lecture 29 - Precipitation for Solid Solution
Link Principles of Physical Metallurgy Lecture 30 - Precipitation for Solid Solution (Continued...)
Link Principles of Physical Metallurgy Lecture 31 - Heat Treatment of Steel
Link Principles of Physical Metallurgy Lecture 32 - Heat Treatment of Steel (Continued...1)
Link Principles of Physical Metallurgy Lecture 33 - Heat Treatment of Steel (Continued...2)
Link Principles of Physical Metallurgy Lecture 34 - Heat Treatment of Steel (Continued...3)
Link Principles of Physical Metallurgy Lecture 35 - Heat Treatment of Steel (Continued...4)
Link Principles of Physical Metallurgy Lecture 36 - Heat Treatment of Steel (Continued...5)
Link Principles of Physical Metallurgy Lecture 37 - Surface Hardening
Link Principles of Physical Metallurgy Lecture 38 - Structural Steel
Link Principles of Physical Metallurgy Lecture 39 - Structural Steel (Continued...)
Link Principles of Physical Metallurgy Lecture 40 - Ultra High Strength Steel
Link Principles of Physical Metallurgy Lecture 41 - Preferred Orientation: Application
Link Principles of Physical Metallurgy Lecture 42 - Metal Joining
Link Processing of Semiconducting Materials Lecture 1 - Introduction to Electronics Materials
Link Processing of Semiconducting Materials Lecture 2 - Electrical Conductivity of Materials
Link Processing of Semiconducting Materials Lecture 3 - Direct and Indirect Band Semiconductors
Link Processing of Semiconducting Materials Lecture 4 - Doping in Semiconductors
Link Processing of Semiconducting Materials Lecture 5 - Semiconductor Statistics
Link Processing of Semiconducting Materials Lecture 6 - Importance of Doping
Link Processing of Semiconducting Materials Lecture 7 - Diffusion and Ion Implantation - I
Link Processing of Semiconducting Materials Lecture 8 - Diffusion and Ion Implantation - II
Link Processing of Semiconducting Materials Lecture 9 - Diffusion and Ion Implantation - III
Link Processing of Semiconducting Materials Lecture 10 - Elemental Semiconductors
Link Processing of Semiconducting Materials Lecture 11 - Compound Semiconductors
Link Processing of Semiconducting Materials Lecture 12 - Bulk Crystal Growth - I
Link Processing of Semiconducting Materials Lecture 13 - Bulk Crystal Growth - II
Link Processing of Semiconducting Materials Lecture 14 - Ga As Crystal Growth
Link Processing of Semiconducting Materials Lecture 15 - Defects in Crystals - I
Link Processing of Semiconducting Materials Lecture 16 - Defects in Crystals - II
Link Processing of Semiconducting Materials Lecture 17 - Band Gap Engineering - I
Link Processing of Semiconducting Materials Lecture 18 - Band Gap Engineering - II
Link Processing of Semiconducting Materials Lecture 19 - Chemical Vapour Deposition - I
Link Processing of Semiconducting Materials Lecture 20 - Chemical Vapour Deposition - II
Link Processing of Semiconducting Materials Lecture 21 - MOCVD
Link Processing of Semiconducting Materials Lecture 22 - Molecular Beam Epitaxy - I
Link Processing of Semiconducting Materials Lecture 23 - Molecular Beam Epitaxy - II
Link Processing of Semiconducting Materials Lecture 24 - p - n Junction
Link Processing of Semiconducting Materials Lecture 25 - Carrier Transport in P - N Junction
Link Processing of Semiconducting Materials Lecture 26 - Characterization - I
Link Processing of Semiconducting Materials Lecture 27 - Characterization - II
Link Processing of Semiconducting Materials Lecture 28 - Optical Characterization - I
Link Processing of Semiconducting Materials Lecture 29 - Metal-Semiconductor Contact - I
Link Processing of Semiconducting Materials Lecture 30 - Metal-Semiconductor Contact - II
Link Processing of Semiconducting Materials Lecture 31 - Applications of Metal-Semiconductor Contact
Link Processing of Semiconducting Materials Lecture 32 - Oxidation - I
Link Processing of Semiconducting Materials Lecture 33 - Oxidation - II
Link Processing of Semiconducting Materials Lecture 34 - Different Types of Semiconductor - I
Link Processing of Semiconducting Materials Lecture 35 - Oxidation - I
Link Processing of Semiconducting Materials Lecture 36 - Oxidation - II
Link Processing of Semiconducting Materials Lecture 37 - Dielectric Films
Link Processing of Semiconducting Materials Lecture 38 - Low - K and High - K materials
Link Processing of Semiconducting Materials Lecture 39 - Metallization
Link Processing of Semiconducting Materials Lecture 40 - Materials for Photovoltaics
Link Science and Technology of Polymers Lecture 1 - Basic Concepts on Polymers
Link Science and Technology of Polymers Lecture 2 - Basic Concepts on Polymers (Continued...)
Link Science and Technology of Polymers Lecture 3 - Basic Concepts on Polymers (Continued...)
Link Science and Technology of Polymers Lecture 4 - Polymer Raw Materials
Link Science and Technology of Polymers Lecture 5 - Principles of Polymer Synthesis
Link Science and Technology of Polymers Lecture 6 - Principles of Polymer Synthesis (Continued...)
Link Science and Technology of Polymers Lecture 7 - Principles of Polymer Synthesis (Continued...)
Link Science and Technology of Polymers Lecture 8 - Principles of Polymer Synthesis (Continued...)
Link Science and Technology of Polymers Lecture 9 - Principles of Polymer Synthesis (Continued...)
Link Science and Technology of Polymers Lecture 10 - Principles of Polymer Synthesis (Continued...)
Link Science and Technology of Polymers Lecture 11 - Structure and Properties of Polymers (Continued...)
Link Science and Technology of Polymers Lecture 12 - Structure and Properties of Polymers (Continued...)
Link Science and Technology of Polymers Lecture 13 - Structure and Properties of Polymers (Continued...)
Link Science and Technology of Polymers Lecture 14 - Structure and Properties of Polymers (Continued...)
Link Science and Technology of Polymers Lecture 15 - Polymerization Techniques
Link Science and Technology of Polymers Lecture 16 - Polymerization Techniques (Continued...)
Link Science and Technology of Polymers Lecture 17 - Polymerization Techniques (Continued...)
Link Science and Technology of Polymers Lecture 18 - Polymer Products
Link Science and Technology of Polymers Lecture 19 - Polymer Products (Continued...)
Link Science and Technology of Polymers Lecture 20 - Rubber Products
Link Science and Technology of Polymers Lecture 21 - Rubber Products (Continued...)
Link Science and Technology of Polymers Lecture 22 - Conducting Polymers
Link Science and Technology of Polymers Lecture 23 - Conducting Polymers (Continued...)
Link Science and Technology of Polymers Lecture 24 - Liquid Crystalline Polymers
Link Science and Technology of Polymers Lecture 25 - Stimuli Responsive Polymer and its application
Link Science and Technology of Polymers Lecture 26 - Stimuli Responsive Polymer and its application (Continued...)
Link Science and Technology of Polymers Lecture 27 - Polymeric Nanomaterials and Devices (Continued...)
Link Science and Technology of Polymers Lecture 28 - Polymeric Nanomaterials and Devices (Continued...)
Link Science and Technology of Polymers Lecture 29 - Polymeric Nanomaterials and Devices (Continued...)
Link Science and Technology of Polymers Lecture 30 - Environmental Degradation of Polymers
Link Science and Technology of Polymers Lecture 31 - Environmental Degradation of Polymers (Continued...)
Link Science and Technology of Polymers Lecture 32 - Polymer Composites
Link Science and Technology of Polymers Lecture 33 - Polymer Composites (Continued...)
Link Science and Technology of Polymers Lecture 34 - Polymer Composites (Continued...)
Link Science and Technology of Polymers Lecture 35 - Multicomponent Polymeric Materials
Link Science and Technology of Polymers Lecture 36 - Multicomponent Polymeric Materials (Continued...)
Link Science and Technology of Polymers Lecture 37 - Multicomponent Polymeric Materials (Continued...)
Link Science and Technology of Polymers Lecture 38 - Viscoelasticity
Link Science and Technology of Polymers Lecture 39 - Engineering and Speciality Polymers
Link Science and Technology of Polymers Lecture 40 - Engineering and Speciality Polymers (Continued...)
Link Advanced Materials and Processes Lecture 1 - Structure of Materials - Part I
Link Advanced Materials and Processes Lecture 2 - Structure of Materials - Part II
Link Advanced Materials and Processes Lecture 3 - Nano Crystalline Materials - Part I
Link Advanced Materials and Processes Lecture 4 - Nano Crystalline Materials - Part II
Link Advanced Materials and Processes Lecture 5 - Nano Crystalline Materials - Part III
Link Advanced Materials and Processes Lecture 6 - Nano Crystalline Materials - Part IV
Link Advanced Materials and Processes Lecture 7 - Amorphous Materials - Part I
Link Advanced Materials and Processes Lecture 8 - Amorphous Materials - Part II
Link Advanced Materials and Processes Lecture 9 - Amorphous Materials - Part III
Link Advanced Materials and Processes Lecture 10 - Amorphous Materials - Part IV
Link Advanced Materials and Processes Lecture 11 - Amorphous Materials - Part V
Link Advanced Materials and Processes Lecture 12 - Quasicrystals - Part I
Link Advanced Materials and Processes Lecture 13 - Quasicrystals - Part II
Link Advanced Materials and Processes Lecture 14 - Nano Quasicrystals - Part I
Link Advanced Materials and Processes Lecture 15 - Nano Quasicrystals - Part II
Link Advanced Materials and Processes Lecture 16 - Rapid Solidification Processing
Link Advanced Materials and Processes Lecture 17 - Mechanical Alloying
Link Advanced Materials and Processes Lecture 18 - Advanced AI Alloys - Part I
Link Advanced Materials and Processes Lecture 19 - Advanced AI Alloys - Part II
Link Advanced Materials and Processes Lecture 20 - Advanced AI Alloys - Part III
Link Advanced Materials and Processes Lecture 21 - Advanced AI Alloys - Part IV and Ti Alloys
Link Advanced Materials and Processes Lecture 22 - Shape Memory Alloys
Link Advanced Materials and Processes Lecture 23 - Strengthening Mechanisms - Part I
Link Advanced Materials and Processes Lecture 24 - Strengthening Mechanisms - Part II
Link Advanced Materials and Processes Lecture 25 - Superalloys
Link Advanced Materials and Processes Lecture 26 - In-Situ Composites - Part I
Link NOC:Principles of Polymer Synthesis Lecture 1 - Historical development of polymer science
Link NOC:Principles of Polymer Synthesis Lecture 2 - Molecular Weight Determination Of Polymers
Link NOC:Principles of Polymer Synthesis Lecture 3 - Molecular Weight Determination Of Polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 4 - Molecular Weight Determination of Polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 5 - Molecular Weight Determination of Polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 6 - Principles of step growth polymerization
Link NOC:Principles of Polymer Synthesis Lecture 7 - Principles of step growth polymerization (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 8 - Principles of step growth polymerization (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 9 - Principles of step growth polymerization (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 10 - Principles of step growth polymerization (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 11 - Principles of radical chain polymerization
Link NOC:Principles of Polymer Synthesis Lecture 12 - Principles of radical chain polymerization (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 13 - Principles of radical chain polymerization (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 14 - Principles of radical chain polymerization (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 15 - Principles of radical chain polymerization (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 16 - Principles of radical chain polymerization (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 17 - Principles of Chain Copolymerization
Link NOC:Principles of Polymer Synthesis Lecture 18 - Principles of Chain Copolymerization (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 19 - Principles of Chain Copolymerization (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 20 - Principles of Living Chain polymerization
Link NOC:Principles of Polymer Synthesis Lecture 21 - Principles of Living Chain polymerization (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 22 - Design of Chemical Reactors
Link NOC:Principles of Polymer Synthesis Lecture 23 - Design of Chemical Reactors (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 24 - Design of Chemical Reactors (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 25 - Design of Chemical Reactors (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 26 - Design of Chemical Reactors (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 27 - Design of Chemical Reactors (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 28 - Design of Chemical Reactors (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 29 - Design of Chemical Reactors (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 30 - Design of Chemical Reactors (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 31 - Design of Chemical Reactors (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 32 - Synthesis of industrial polymers
Link NOC:Principles of Polymer Synthesis Lecture 33 - Synthesis of industrial polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 34 - Synthesis of industrial polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 35 - Synthesis of industrial polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 36 - Synthesis of industrial polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 37 - Synthesis of industrial polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 38 - Synthesis of industrial polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 39 - Synthesis of industrial polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 40 - Synthesis of industrial polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 41 - Synthesis of industrial polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 42 - Synthesis of industrial polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 43 - Synthesis of industrial polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 44 - Synthesis of industrial polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 45 - Synthesis of industrial polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 46 - Synthesis of industrial polymers (Continued...)
Link NOC:Principles of Polymer Synthesis Lecture 47 - Synthesis of industrial polymers (Continued...)
Link NOC:Advanced Materials and Processes Lecture 1 - Introduction
Link NOC:Advanced Materials and Processes Lecture 2 - Introduction (Continued...)
Link NOC:Advanced Materials and Processes Lecture 3 - Introduction (Continued...)
Link NOC:Advanced Materials and Processes Lecture 4 - Introduction (Continued...)
Link NOC:Advanced Materials and Processes Lecture 5 - Introduction (Continued...)
Link NOC:Advanced Materials and Processes Lecture 6 - Bulk Metallic Glass, Glassy and Amorphous Materials
Link NOC:Advanced Materials and Processes Lecture 7 - Bulk Metallic Glass, Glassy and Amorphous Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 8 - Bulk Metallic Glass, Glassy and Amorphous Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 9 - Bulk Metallic Glass, Glassy and Amorphous Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 10 - Bulk Metallic Glass, Glassy and Amorphous Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 11 - Bulk Metallic Glass, Glassy and Amorphous Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 12 - Bulk Metallic Glass, Glassy and Amorphous Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 13 - Bulk Metallic Glass, Glassy and Amorphous Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 14 - Bulk Metallic Glass, Glassy and Amorphous Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 15 - Bulk Metallic Glass, Glassy and Amorphous Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 16 - Shape Memory Alloys
Link NOC:Advanced Materials and Processes Lecture 17 - Shape Memory Alloys (Continued...)
Link NOC:Advanced Materials and Processes Lecture 18 - Shape Memory Alloys (Continued...)
Link NOC:Advanced Materials and Processes Lecture 19 - Shape Memory Alloys (Continued...)
Link NOC:Advanced Materials and Processes Lecture 20 - Shape Memory Alloys (Continued...)
Link NOC:Advanced Materials and Processes Lecture 21 - Shape Memory Alloys: Case Studies and Applications
Link NOC:Advanced Materials and Processes Lecture 22 - Shape Memory Alloys: Case Studies and Applications (Continued...)
Link NOC:Advanced Materials and Processes Lecture 23 - Shape Memory Alloys: Case Studies and Applications (Continued...)
Link NOC:Advanced Materials and Processes Lecture 24 - Shape Memory Alloys: Case Studies and Applications (Continued...)
Link NOC:Advanced Materials and Processes Lecture 25 - Shape Memory Alloys: Case Studies and Applications (Continued...)
Link NOC:Advanced Materials and Processes Lecture 26 - Introduction of High Temperature Materials
Link NOC:Advanced Materials and Processes Lecture 27 - Introduction of High Temperature Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 28 - Introduction of High Temperature Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 29 - Introduction of High Temperature Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 30 - Introduction of High Temperature Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 31 - Supearalloys
Link NOC:Advanced Materials and Processes Lecture 32 - Supearalloys (Continued...)
Link NOC:Advanced Materials and Processes Lecture 33 - Supearalloys (Continued...)
Link NOC:Advanced Materials and Processes Lecture 34 - Supearalloys (Continued...)
Link NOC:Advanced Materials and Processes Lecture 35 - Supearalloys (Continued...)
Link NOC:Advanced Materials and Processes Lecture 36 - Nanomaterials: Part I
Link NOC:Advanced Materials and Processes Lecture 37 - Nanomaterials: Part I (Continued...)
Link NOC:Advanced Materials and Processes Lecture 38 - Nanomaterials: Part I (Continued...)
Link NOC:Advanced Materials and Processes Lecture 39 - Nanomaterials: Part I (Continued...)
Link NOC:Advanced Materials and Processes Lecture 40 - Nanomaterials: Part I (Continued...)
Link NOC:Advanced Materials and Processes Lecture 41 - Nanomaterials: Part II
Link NOC:Advanced Materials and Processes Lecture 42 - Nanomaterials: Part II (Continued...)
Link NOC:Advanced Materials and Processes Lecture 43 - Nanomaterials: Part II (Continued...)
Link NOC:Advanced Materials and Processes Lecture 44 - Nanomaterials: Part II (Continued...)
Link NOC:Advanced Materials and Processes Lecture 45 - Nanomaterials: Part II (Continued...)
Link NOC:Advanced Materials and Processes Lecture 46 - Soft and Hard Magnetic Materials
Link NOC:Advanced Materials and Processes Lecture 47 - Soft and Hard Magnetic Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 48 - Soft and Hard Magnetic Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 49 - Soft and Hard Magnetic Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 50 - Soft and Hard Magnetic Materials (Continued...)
Link NOC:Advanced Materials and Processes Lecture 51 - Advanced Processes
Link NOC:Advanced Materials and Processes Lecture 52 - Advanced Processes (Continued...)
Link NOC:Advanced Materials and Processes Lecture 53 - Advanced Processes (Continued...)
Link NOC:Advanced Materials and Processes Lecture 54 - Advanced Processes (Continued...)
Link NOC:Advanced Materials and Processes Lecture 55 - Advanced Processes (Continued...)
Link NOC:Advanced Materials and Processes Lecture 56 - Advanced Functional Alloys
Link NOC:Advanced Materials and Processes Lecture 57 - Advanced Functional Alloys (Continued...)
Link NOC:Advanced Materials and Processes Lecture 58 - Advanced Functional Alloys (Continued...)
Link NOC:Advanced Materials and Processes Lecture 59 - Advanced Functional Alloys (Continued...)
Link NOC:Advanced Materials and Processes Lecture 60 - Advanced Functional Alloys (Continued...)
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 1 - Structure of Solids
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 2 - Microstructure of Solids
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 3 - Defects in Crystalline Solids
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 4 - Surface and Surface Energy
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 5 - Surface Properties-due to mechanical activation
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 6 - Surface dependent physical and chemical property
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 7 - Surface Dependent Properties and Surface initiated Degradation
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 8 - Fatigue
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 9 - Wear Part - I
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 10 - Wear Part - II
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 11 - Wear Part - III
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 12 - Corrosion - I
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 13 - Corrosion - II
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 14 - Corrosion - III
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 15 - Corrosion - IV
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 16 - Corrosion - V
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 17 - Classification of Surface engineering
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 18 - Strengthening of metals
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 19 - Strengthening of Non-Metals
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 20 - Diffusive transformation in Steel
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 21 - Non-Diffusive transformation in Steel
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 22 - Shot Peening
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 23 - Shot Peening and Rolling
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 24 - Flame Hardening and Induction Hardening
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 25 - Case Carburizing
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 26 - Liquid Carburizing and Gas Carburizing
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 27 - Gas Nitriding
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 28 - Liquid and Salt Bath Nitriding
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 29 - Plasma Nitriding and Ion Implantation
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 30 - Heat treatment after carburizing and Nitriding
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 31 - Diffusion Coating Principle
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 32 - Diffusion Coating Processes
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 33 - Thick Coating by Cladding
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 34 - High Temperature Degradation
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 35 - Corrosion Prevention
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 36 - Chemical Conversion Coating
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 37 - Electroconversion Coating
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 38 - Electro and Electroless Deposition Process
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 39 - Hot Dipping - I
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 40 - Hot Dipping - II
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 41 - Thermal Spray Deposition - I
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 42 - Thermal Spray Deposition - II
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 43 - Thermal Spray Deposition - III
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 44 - Thermal Spray Deposition - IV
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 45 - Physical Vapur Deposition (PVD)
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 46 - Sputtering
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 47 - Chemical Vapor Deposition (CVD)
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 48 - Composite Coating
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 49 - Ion Implantation - I
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 50 - Ion Implantation - II
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 51 - Electron Beam Welding
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 52 - Electron Beam Surface engineering
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 53 - Laser Materials Processing: Introduction
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 54 - Laser Assisted Materials Processing:Processes
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 55 - Laser Surface Engineering:Hardening and Melting
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 56 - Laser Surface Engineering with Laser surface hardening and laser surface melting
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 57 - Laser Surface Alloying
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 58 - Laser Surface Cladding
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 59 - Surface Damage - Case Studies
Link NOC:Surface Engineering for Corrosion and Wear Resistance Application Lecture 60 - Overview and Conclusion
Link Advanced Metallurgical Thermodynamics Lecture 1 - Basic definitions
Link Advanced Metallurgical Thermodynamics Lecture 2 - Free energy, Stability, equilibrium in a unary system
Link Advanced Metallurgical Thermodynamics Lecture 3 - Effect of Pressure on equilibrium transformations: Clausius Clapeyron equation, phase diagram for unary system
Link Advanced Metallurgical Thermodynamics Lecture 4 - Free energy of solutions, free energy-composition diagrams
Link Advanced Metallurgical Thermodynamics Lecture 5 - Solution models, chemical potential
Link Advanced Metallurgical Thermodynamics Lecture 6 - Phase rule, free energy-composition diagrams and phase diagrams
Link Advanced Metallurgical Thermodynamics Lecture 7 - Evolution of phase diagrams
Link Advanced Metallurgical Thermodynamics Lecture 8 - Evolution of phase diagrams, miscibility gap
Link Advanced Metallurgical Thermodynamics Lecture 9 - To concept, partition less solidification
Link Advanced Metallurgical Thermodynamics Lecture 10 - To concept, partition less solidification (Continued...)
Link Advanced Metallurgical Thermodynamics Lecture 11 - Eutectic solidification, glass formation
Link Advanced Metallurgical Thermodynamics Lecture 12 - Kauzmann paradox, order of a transformation, glass forming ability
Link Advanced Metallurgical Thermodynamics Lecture 13 - Eutectic solidification, coupled growth, heterogeneous nucleation
Link Advanced Metallurgical Thermodynamics Lecture 14 - Peritectic solidification, metastable phase diagrams
Link Advanced Metallurgical Thermodynamics Lecture 15 - Errors in drawing phase diagrams, Fe-C vs. Fe-Fe3C phase diagram
Link Advanced Metallurgical Thermodynamics Lecture 16 - Free energy of undercooled liquid, shape of nucleus
Link Advanced Metallurgical Thermodynamics Lecture 17 - Solid state phase transformations - Precipitation
Link Advanced Metallurgical Thermodynamics Lecture 18 - Precipitation
Link Advanced Metallurgical Thermodynamics Lecture 19 - Precipitation - quasicrystals
Link Advanced Metallurgical Thermodynamics Lecture 20 - Precipitate coarsening, stability of a phase, spinodal decomposition
Link Advanced Metallurgical Thermodynamics Lecture 21 - Spinodal decomposition
Link Advanced Metallurgical Thermodynamics Lecture 22 - Eutectioid reaction
Link Advanced Metallurgical Thermodynamics Lecture 23 - Eutectioid reaction (Continued...)
Link Advanced Metallurgical Thermodynamics Lecture 24 - Bainitic transformation
Link Advanced Metallurgical Thermodynamics Lecture 25 - Kinetics of eutectoid transformations
Link Advanced Metallurgical Thermodynamics Lecture 26 - Martensitic Transformation
Link Advanced Metallurgical Thermodynamics Lecture 27 - Martensitic transformation, order-disorder transformation
Link Advanced Metallurgical Thermodynamics Lecture 28 - Miscibility gap in phase diagrams
Link Advanced Metallurgical Thermodynamics Lecture 29 - Phase diagram calculations
Link Advanced Metallurgical Thermodynamics Lecture 30 - Thermodynamics of heterogeneous systems
Link Advanced Metallurgical Thermodynamics Lecture 31 - Thermodynamics of heterogeneous systems (Continued...)
Link Materials Characterization Lecture 1 - Properties of light, Image formation
Link Materials Characterization Lecture 2 - Magnification and resolution
Link Materials Characterization Lecture 3 - Depth of field,focus and field of view
Link Materials Characterization Lecture 4 - Lens defects,filters and light microscopy introduction
Link Materials Characterization Lecture 5 - Optical microscope demo., Bright field imaging, opaque specimen illumination
Link Materials Characterization Lecture 6 - Opaque stop microscopy, Phase contrast microscopy
Link Materials Characterization Lecture 7 - Dark field microscopy, Polarization microscopy
Link Materials Characterization Lecture 8 - Differential interference contrast and fluorescence microscopy
Link Materials Characterization Lecture 9 - Sample preparation techniques for optical microscopy
Link Materials Characterization Lecture 10A - Tutorial problems (Continuation...)
Link Materials Characterization Lecture 10 - Tutorial problems
Link Materials Characterization Lecture 11 - Introduction to scanning electron Microscopy
Link Materials Characterization Lecture 12 - Lens aberrations, Object resolution, Image quality
Link Materials Characterization Lecture 13 - Interaction between electrons and sample, Imaging capabilities, Structural analysis, Elemental analysis
Link Materials Characterization Lecture 14 - SEM and its mode of operation, Effect of aperture size,Working distance,condenser lens strength
Link Materials Characterization Lecture 15 - SEM and its mode of operation- continuation, Relation between probe current and probe diameter, Summary
Link Materials Characterization Lecture 16 - Factors affecting Interaction volume, Demonstration of SEM
Link Materials Characterization Lecture 17 - Image formation and interpretation
Link Materials Characterization Lecture 18 - Image formation and interpretation continued, EDS, WDS
Link Materials Characterization Lecture 19 - Special contrast mechanisms, Monte Carlo simulations of Interaction volume
Link Materials Characterization Lecture 20 - Electron channeling contrast imaging (ECCI), Electron back scattered diffraction(EBSD)-Theory & instrument demonstration
Link Materials Characterization Lecture 21 - Tutorial Problems on SEM
Link Materials Characterization Lecture 22 - Basics of X-ray emission from source, electron excitation and X-ray interaction with materials in general
Link Materials Characterization Lecture 23 - Properties of X-rays
Link Materials Characterization Lecture 24 - Bragg's Law Derivation
Link Materials Characterization Lecture 25 - Diffraction relationship with reciprocal space
Link Materials Characterization Lecture 26 - X-ray scattering
Link Materials Characterization Lecture 27 - Factors affecting intensities of X-ray peaks
Link Materials Characterization Lecture 28 - Factors affecting intensities of X-ray peaks- continuation
Link Materials Characterization Lecture 29 - Effect of crystallite size and strain on intensity of X-rays
Link Materials Characterization Lecture 30 - Profile fit, Factors affecting peak brodening
Link Materials Characterization Lecture 31 - Indexing of diffraction pattern, Quantitative analysis
Link Materials Characterization Lecture 32 - Indexing, Quantitative analysis-continuation, Residual stress measurements
Link Materials Characterization Lecture 33 - XRD and Residual stress measurement- lab demonstration
Link Materials Characterization Lecture 34 - Introduction to Transmission Electron Microscopy (TEM)
Link Materials Characterization Lecture 35 - Fundementals of Transmission Electron Microscopy (TEM)
Link Materials Characterization Lecture 36 - Basics of Diffraction-1
Link Materials Characterization Lecture 37 - Basics of Diffraction-2
Link Materials Characterization Lecture 38 - TEM imaging-1
Link Materials Characterization Lecture 39 - TEM imaging-2
Link Materials Characterization Lecture 40 - TEM instrument demonstration
Link Materials Characterization Lecture 41 - TEM sample preparation-1
Link Materials Characterization Lecture 42 - TEM sample preparation-2
Link Materials Characterization Lecture 43 - XRD Tutorial - 1
Link Materials Characterization Lecture 44 - XRD tutorial - 2
Link Materials Characterization Lecture 45 - TEM Tutorial - 1
Link Materials Characterization Lecture 46 - TEM Tutorial - 2
Link Materials Characterization Lecture 47 - Quantitative metallography - Tutorial 1
Link Materials Characterization Lecture 48 - Quantitative metallography - Tutorial 2
Link Materials Characterization Lecture 49 - Quantitative metallography - Tutorial 3
Link Materials Characterization Lecture 50 - Quantitative metallography - Tutorial 4
Link Materials Characterization Lecture 51 - Quantitative metallography - Tutorial 5
Link Materials Characterization Lecture 52 - Quantitative metallography - Tutorial 6
Link Materials Characterization Lecture 53 - Quantitative metallography - Tutorial 7
Link Physics of Materials Lecture 1 - Introduction
Link Physics of Materials Lecture 2 - Properties of Materials
Link Physics of Materials Lecture 3 - Thermal Expansion
Link Physics of Materials Lecture 4 - Measuring Electrical Conductivity: DC and AC
Link Physics of Materials Lecture 5 - Free Electron Gas
Link Physics of Materials Lecture 6 - The Ideal Gas
Link Physics of Materials Lecture 7 - Drude Model: Electrical Conductivity
Link Physics of Materials Lecture 8 - Drude Model: Thermal Conductivity
Link Physics of Materials Lecture 9 - Drude Model: Successes and Limitations
Link Physics of Materials Lecture 10 - Drude Model: Source of Shortcomings
Link Physics of Materials Lecture 11 - Large Systems and Statistical Mechanics
Link Physics of Materials Lecture 12 - Maxwell Boltzmann Statistics
Link Physics of Materials Lecture 13 - Classical Particles and Quantum Particles
Link Physics of Materials Lecture 14 - History of Quantum Mechanics - 1
Link Physics of Materials Lecture 15 - History of Quantum Mechanics - 2
Link Physics of Materials Lecture 16 - Introduction to Drude Sommerfeld model
Link Physics of Materials Lecture 17 - Fermi-Dirac Statistics - Part 1
Link Physics of Materials Lecture 18 - Fermi-Dirac Statistics - Part 2
Link Physics of Materials Lecture 19 - Features of the Fermi Dirac Distribution Function
Link Physics of Materials Lecture 20 - Maxwell-Boltzmann Distribution Vs Fermi-Dirac Distribution
Link Physics of Materials Lecture 21 - Anisotropy and Periodic Potential in a Solid
Link Physics of Materials Lecture 22 - Confinement and Quantization - Part 1
Link Physics of Materials Lecture 23 - Confinement and Quantization - Part 2
Link Physics of Materials Lecture 24 - Density of States
Link Physics of Materials Lecture 25 - Fermi Energy, Fermi Surface, Fermi Temperature
Link Physics of Materials Lecture 26 - Electronic Contribution to Specific Heat at Constant Volume
Link Physics of Materials Lecture 27 - Reciprocal Space-1: Introduction to Reciprocal Space
Link Physics of Materials Lecture 28 - Reciprocal Space-2: Condition for Diffraction
Link Physics of Materials Lecture 29 - Reciprocal Space-3: Ewald sphere, Simple Cubic, FCC and BCC in Reciprocal Space
Link Physics of Materials Lecture 30 - Wigner Seitz Cell and Introduction to Brillouin Zones
Link Physics of Materials Lecture 31 - Brillouin Zones, Diffraction, and Allowed Energy Levels
Link Physics of Materials Lecture 32 - E Vs k, Brillouin Zones and the Origin of Bands
Link Physics of Materials Lecture 33 - Calculating Allowed Energy Bands and Forbidden Band Gaps
Link Physics of Materials Lecture 34 - Bands; Free Electron Approximation, Tight Binding Approximation
Link Physics of Materials Lecture 35 - Semiconductors
Link Physics of Materials Lecture 36 - Magnetic Properties
Link Physics of Materials Lecture 37 - Electron Compounds; Phonons, Optoelectronic Materials
Link Physics of Materials Lecture 38 - Superconductivity
Link Physics of Materials Lecture 39 - Bose-Einstein Statistics
Link Physics of Materials Lecture 40 - Physics of Nano Scale Materials; Course Summary
Link Electronic materials, devices, and fabrication Lecture 1 - Metals, semiconductors and insulators
Link Electronic materials, devices, and fabrication Lecture 2 - Introduction to semiconductors
Link Electronic materials, devices, and fabrication Lecture 3 - Density of states and Fermi-Dirac statistics
Link Electronic materials, devices, and fabrication Lecture 4 - Assignment 1 - Bonding, DOS, and Fermi statistics
Link Electronic materials, devices, and fabrication Lecture 5 - Intrinsic semiconductors
Link Electronic materials, devices, and fabrication Lecture 6 - Intrinsic semiconductors - conductivity
Link Electronic materials, devices, and fabrication Lecture 7 - Assignment 2 - Intrinsic semiconductors
Link Electronic materials, devices, and fabrication Lecture 8 - Extrinsic semiconductors
Link Electronic materials, devices, and fabrication Lecture 9 - Extrinsic semiconductors - Fermi level
Link Electronic materials, devices, and fabrication Lecture 10 - Extrinsic semiconductors - conductivity
Link Electronic materials, devices, and fabrication Lecture 11 - Assignment 3 - Extrinsic semiconductors
Link Electronic materials, devices, and fabrication Lecture 12 - Metal-semiconductor junctions
Link Electronic materials, devices, and fabrication Lecture 13 - Assigment 4 - Metal-semiconductor junctions
Link Electronic materials, devices, and fabrication Lecture 14 - pn junctions in equilibrium
Link Electronic materials, devices, and fabrication Lecture 15 - pn junctions under bias
Link Electronic materials, devices, and fabrication Lecture 16 - pn junction breakdown and heterojunctions
Link Electronic materials, devices, and fabrication Lecture 17 - Assignment 5 - pn junctions
Link Electronic materials, devices, and fabrication Lecture 18 - Transistors
Link Electronic materials, devices, and fabrication Lecture 19 - MOSFETs
Link Electronic materials, devices, and fabrication Lecture 20 - Assignment 6 - transistors
Link Electronic materials, devices, and fabrication Lecture 21 - Optoelectronic devices: Introduction
Link Electronic materials, devices, and fabrication Lecture 22 - Optoelectronic devices: LEDs
Link Electronic materials, devices, and fabrication Lecture 23 - Optoelectronic devices: LASERs
Link Electronic materials, devices, and fabrication Lecture 24 - Optoelectronic devices: photodetector
Link Electronic materials, devices, and fabrication Lecture 25 - Optoelectronic devices: solar cells
Link Electronic materials, devices, and fabrication Lecture 26 - Assignment 7 - optical properties
Link Electronic materials, devices, and fabrication Lecture 27 - Assignment 8 - optoelectronic devices
Link Electronic materials, devices, and fabrication Lecture 28 - Semiconductor manufacturing: Introduction
Link Electronic materials, devices, and fabrication Lecture 29 - Si wafer manufacturing
Link Electronic materials, devices, and fabrication Lecture 30 - IC device manufacturing: overview
Link Electronic materials, devices, and fabrication Lecture 31 - Layering: thermal oxidation
Link Electronic materials, devices, and fabrication Lecture 32 - Doping: thermal and ion implantation
Link Electronic materials, devices, and fabrication Lecture 33 - Lithography
Link Electronic materials, devices, and fabrication Lecture 34 - Etching and deposition (growth)
Link Electronic materials, devices, and fabrication Lecture 35 - Metallization and polishing
Link Electronic materials, devices, and fabrication Lecture 36 - Process and device evaluation
Link Electronic materials, devices, and fabrication Lecture 37 - Productivity and process yield
Link Electronic materials, devices, and fabrication Lecture 38 - Clean room design and contamination control
Link Electronic materials, devices, and fabrication Lecture 39 - Devices and IC formation
Link Electronic materials, devices, and fabrication Lecture 40 - IC circuit logic and packaging
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 1 - Properties of light, Image formation
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 2 - Magnification and resolution
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 3 - Depth of field, focus and field of view
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 4 - Lens defects, filters and light microscopy introduction
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 5 - Optical microscope demo., Bright field imaging, opaque specimen illumination
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 6 - Opaque stop microscopy, Phase contrast microscopy
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 7 - Dark field microscopy, Polarization microscopy
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 8 - Differential interference contrast and fluorescence microscopy
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 9 - Sample preparation techniques for optical microscopy
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 10 - Tutorial problems
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 11 - Tutorial problems (Continued...)
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 12 - Introduction to scanning electron Microscopy
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 13 - Lens aberrations, Object resolution, Image quality
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 14 - Interaction between electrons and sample, Imaging capabilities, Structural analysis, Elemental analysis
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 15 - SEM and its mode of operation, Effect of aperture size,Working distance,condenser lens strength
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 16 - SEM and its mode of operation- continuation, Relation between probe current and probe diameter, Summary
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 17 - Factors affecting Interaction volume, Demonstration of SEM
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 18 - Image formation and interpretation
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 19 - Image formation and interpretation continued, EDS, WDS
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 20 - Special contrast mechanisms, Monte Carlo simulations of Interaction volume
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 21 - Electron channeling contrast imaging (ECCI), Electron back scattered diffraction (EBSD)-Theory & instrument demonstration
Link NOC:Fundamentals of optical and scanning electron microscopy Lecture 22 - Tutorial Problems on SEM
Link NOC:Fundamentals of electronic materials and devices Lecture 1 - Electronic Materials
Link NOC:Fundamentals of electronic materials and devices Lecture 2 - Semiconductors - Introduction
Link NOC:Fundamentals of electronic materials and devices Lecture 3 - Electron statistics in a solid
Link NOC:Fundamentals of electronic materials and devices Lecture 4 - Worked numericals on week 1 lessons
Link NOC:Fundamentals of electronic materials and devices Lecture 5 - Intrinsic semiconductors
Link NOC:Fundamentals of electronic materials and devices Lecture 6 - Intrinsic semiconductors - conductivity
Link NOC:Fundamentals of electronic materials and devices Lecture 7 - Optional - worked assignment on intrinsic semiconductors
Link NOC:Fundamentals of electronic materials and devices Lecture 8 - Extrinsic semiconductors - Introduction
Link NOC:Fundamentals of electronic materials and devices Lecture 9 - Extrinsic semiconductors - Fermi level
Link NOC:Fundamentals of electronic materials and devices Lecture 10 - Extrinsic semiconductors - Mobility
Link NOC:Fundamentals of electronic materials and devices Lecture 11 - Worked assignment on extrinsic semiconductors
Link NOC:Fundamentals of electronic materials and devices Lecture 12 - Metal-semiconductor junctions
Link NOC:Fundamentals of electronic materials and devices Lecture 13 - pn junctions in equilibrium
Link NOC:Fundamentals of electronic materials and devices Lecture 14 - Optional - worked assignment on metal-semiconductor junctions
Link NOC:Fundamentals of electronic materials and devices Lecture 15 - pn junctions under bias
Link NOC:Fundamentals of electronic materials and devices Lecture 16 - Junction breakdown and heterojunctions
Link NOC:Fundamentals of electronic materials and devices Lecture 17 - Worked assignment on pn junctions
Link NOC:Fundamentals of electronic materials and devices Lecture 18 - Transistors - overview
Link NOC:Fundamentals of electronic materials and devices Lecture 19 - MOSFETs
Link NOC:Fundamentals of electronic materials and devices Lecture 20 - Worked assignment on transistors
Link NOC:Fundamentals of electronic materials and devices Lecture 21 - Optoelectronic devices - Introduction
Link NOC:Fundamentals of electronic materials and devices Lecture 22 - Light emitting diodes
Link NOC:Fundamentals of electronic materials and devices Lecture 23 - Solid state semiconductor lasers
Link NOC:Fundamentals of electronic materials and devices Lecture 24 - Optional - worked assignment on optical properties
Link NOC:Fundamentals of electronic materials and devices Lecture 25 - Photodetectors
Link NOC:Fundamentals of electronic materials and devices Lecture 26 - Solar cells
Link NOC:Fundamentals of electronic materials and devices Lecture 27 - Worked assignment on optoelectronic devices
Link NOC:Introduction to Reciprocal Space and its use in Solids Lecture 1 - Reciprocal space; Definition and Properties
Link NOC:Introduction to Reciprocal Space and its use in Solids Lecture 2 - Condition for Diffraction
Link NOC:Introduction to Reciprocal Space and its use in Solids Lecture 3 - Worked out examples
Link NOC:Introduction to Reciprocal Space and its use in Solids Lecture 4 - Ewald Sphere and lattices in reciprocal space
Link NOC:Introduction to Reciprocal Space and its use in Solids Lecture 5 - Wigner Sietz cells and Brillouin Zones
Link NOC:Introduction to Reciprocal Space and its use in Solids Lecture 6 - Worked out exmaples
Link NOC:Introduction to Reciprocal Space and its use in Solids Lecture 7 - Brillouin Zones, Diffraction and allowed energy levels
Link NOC:Introduction to Reciprocal Space and its use in Solids Lecture 8 - E Vs K, Brillouin zones and the Origin of Bands
Link NOC:Introduction to Reciprocal Space and its use in Solids Lecture 9 - Week 3 Worked out examples
Link NOC:Introduction to Reciprocal Space and its use in Solids Lecture 10 - Reciprocal space as Fourier transform of real lattice
Link NOC:Introduction to Reciprocal Space and its use in Solids Lecture 11 - Alternate notation of reciprocal space
Link NOC:Analysis and Modeling of Welding Lecture 1 - Introduction to fusion welding processes: Part 1/2
Link NOC:Analysis and Modeling of Welding Lecture 2 - Introduction to fusion welding processes: Part 2/2
Link NOC:Analysis and Modeling of Welding Lecture 3 - Heat sources - Part 1/2
Link NOC:Analysis and Modeling of Welding Lecture 4 - Heat sources - Part 2/2
Link NOC:Analysis and Modeling of Welding Lecture 5 - Heat removal
Link NOC:Analysis and Modeling of Welding Lecture 6 - Thermal Modelling - Part 1/2
Link NOC:Analysis and Modeling of Welding Lecture 7 - Thermal Modelling - Part 2/2
Link NOC:Analysis and Modeling of Welding Lecture 8 - Zones in a weldment
Link NOC:Analysis and Modeling of Welding Lecture 9 - Analytical Solutions to Weld Thermal Field
Link NOC:Analysis and Modeling of Welding Lecture 10 - Conduction to Keyhole mode
Link NOC:Analysis and Modeling of Welding Lecture 11 - Fluid flow modelling - Part 1/2
Link NOC:Analysis and Modeling of Welding Lecture 12 - Fluid flow modelling - Part 2/2
Link NOC:Analysis and Modeling of Welding Lecture 13 - Solute transfer modelling - Part 1/2
Link NOC:Analysis and Modeling of Welding Lecture 14 - Solute transfer modelling - Part 2/2
Link NOC:Analysis and Modeling of Welding Lecture 15 - Solute segregation profile - Part 1/2
Link NOC:Analysis and Modeling of Welding Lecture 16 - Solute segregation profile - Part 2/2
Link NOC:Analysis and Modeling of Welding Lecture 17 - Microstructure Formation in Fusion Welds
Link NOC:Analysis and Modeling of Welding Lecture 18 - Numerical Solutions to Thermal Field and Fluid Flow in Welding - Part 1
Link NOC:Analysis and Modeling of Welding Lecture 19 - Numerical Solutions to Thermal Field and Fluid Flow in Welding - Part 2
Link NOC:Analysis and Modeling of Welding Lecture 20 - Dissimilar Welding
Link NOC:Theory and Practice of Non Destructive Testing Lecture 1 - Visual optical method
Link NOC:Theory and Practice of Non Destructive Testing Lecture 2 - Dye Penetrant Testing - 1
Link NOC:Theory and Practice of Non Destructive Testing Lecture 3 - Dye Penetrant Testing - 2
Link NOC:Theory and Practice of Non Destructive Testing Lecture 4 - Dye Penetrant Testing - 3
Link NOC:Theory and Practice of Non Destructive Testing Lecture 5 - Dye Penetrant Testing - 4
Link NOC:Theory and Practice of Non Destructive Testing Lecture 6 - Magnetic particle testing - 1
Link NOC:Theory and Practice of Non Destructive Testing Lecture 7 - Magnetic particle testing - 2
Link NOC:Theory and Practice of Non Destructive Testing Lecture 8 - Magnetic particle testing - 3
Link NOC:Theory and Practice of Non Destructive Testing Lecture 9 - Magnetic particle testing - 4
Link NOC:Theory and Practice of Non Destructive Testing Lecture 10 - Magnetic particle testing - 5
Link NOC:Theory and Practice of Non Destructive Testing Lecture 11 - Eddy current testing - 1
Link NOC:Theory and Practice of Non Destructive Testing Lecture 12 - Eddy current testing - 2
Link NOC:Theory and Practice of Non Destructive Testing Lecture 13 - Eddy current testing - 3
Link NOC:Theory and Practice of Non Destructive Testing Lecture 14 - Eddy current testing - 4
Link NOC:Theory and Practice of Non Destructive Testing Lecture 15 - Eddy current testing - 5
Link NOC:Theory and Practice of Non Destructive Testing Lecture 16 - Ultrasonic testing - 1
Link NOC:Theory and Practice of Non Destructive Testing Lecture 17 - Ultrasonic testing - 2
Link NOC:Theory and Practice of Non Destructive Testing Lecture 18 - Ultrasonic testing - 3
Link NOC:Theory and Practice of Non Destructive Testing Lecture 19 - Ultrasonic testing - 4
Link NOC:Theory and Practice of Non Destructive Testing Lecture 20 - Ultrasonic testing - 5
Link NOC:Theory and Practice of Non Destructive Testing Lecture 21 - Ultrasonic testing - 6
Link NOC:Theory and Practice of Non Destructive Testing Lecture 22 - Ultrasonic testing - 7
Link NOC:Theory and Practice of Non Destructive Testing Lecture 23 - Ultrasonic testing - 8
Link NOC:Theory and Practice of Non Destructive Testing Lecture 24 - Ultrasonic testing - 9
Link NOC:Theory and Practice of Non Destructive Testing Lecture 25 - Ultrasonic testing - 10
Link NOC:Theory and Practice of Non Destructive Testing Lecture 26 - Acoustic Emission Testing - 1
Link NOC:Theory and Practice of Non Destructive Testing Lecture 27 - Acoustic Emission Testing - 2
Link NOC:Theory and Practice of Non Destructive Testing Lecture 28 - Acoustic Emission Testing - 3
Link NOC:Theory and Practice of Non Destructive Testing Lecture 29 - Acoustic Emission Testing - 4
Link NOC:Theory and Practice of Non Destructive Testing Lecture 30 - Acoustic Emission Testing - 5
Link NOC:Theory and Practice of Non Destructive Testing Lecture 31 - Radiography - 1
Link NOC:Theory and Practice of Non Destructive Testing Lecture 32 - Radiography - 2
Link NOC:Theory and Practice of Non Destructive Testing Lecture 33 - Radiography - 3
Link NOC:Theory and Practice of Non Destructive Testing Lecture 34 - Radiography - 4
Link NOC:Theory and Practice of Non Destructive Testing Lecture 35 - Radiography - 5
Link NOC:Theory and Practice of Non Destructive Testing Lecture 36 - Radiography - 6
Link NOC:Theory and Practice of Non Destructive Testing Lecture 37 - Radiography - 7
Link NOC:Theory and Practice of Non Destructive Testing Lecture 38 - Radiography - 8
Link NOC:Theory and Practice of Non Destructive Testing Lecture 39 - Radiography - 9
Link NOC:Theory and Practice of Non Destructive Testing Lecture 40 - Radiography - 10
Link NOC:Defects in Materials Lecture 1 - Introduction to defects in materials
Link NOC:Defects in Materials Lecture 2 - 1-D Lattice
Link NOC:Defects in Materials Lecture 3 - 2-D Lattice
Link NOC:Defects in Materials Lecture 4 - 3-D Lattice - a
Link NOC:Defects in Materials Lecture 5 - 3-D Lattice - b
Link NOC:Defects in Materials Lecture 6 - 3-D Lattice - c
Link NOC:Defects in Materials Lecture 7 - 3-D Crystals
Link NOC:Defects in Materials Lecture 8 - Types of Point Defects
Link NOC:Defects in Materials Lecture 9 - Vacancy Concentration Determination - 1
Link NOC:Defects in Materials Lecture 10 - Vacancy Concentration Determination - 2
Link NOC:Defects in Materials Lecture 11 - Point Defect Interstitial
Link NOC:Defects in Materials Lecture 12 - Transforamtion of co-ordinates
Link NOC:Defects in Materials Lecture 13 - Tensor - 1
Link NOC:Defects in Materials Lecture 14 - Tensor - 2
Link NOC:Defects in Materials Lecture 15 - Strain
Link NOC:Defects in Materials Lecture 16 - Stress
Link NOC:Defects in Materials Lecture 17 - Description of Dislocation - 1
Link NOC:Defects in Materials Lecture 18 - Description of Dislocation - 2
Link NOC:Defects in Materials Lecture 19 - Stress field around Dislocation
Link NOC:Defects in Materials Lecture 20 - Self Energy of Dislocation
Link NOC:Defects in Materials Lecture 21 - Force on Dislocation
Link NOC:Defects in Materials Lecture 22 - Forces Between Dislocation
Link NOC:Defects in Materials Lecture 23 - Chemical Force on Dislocation
Link NOC:Defects in Materials Lecture 24 - Perfect Dislocation in FCC Structures
Link NOC:Defects in Materials Lecture 25 - Instrinsic Stacking Faults in FCC
Link NOC:Defects in Materials Lecture 26 - Extrinsic Faults and Thompson Tetrahedron in FCC
Link NOC:Defects in Materials Lecture 27 - Dislocations in BCC and HCP
Link NOC:Defects in Materials Lecture 28 - Dislocations in Ordered Alloys and Dislocation Dislocation Interaction
Link NOC:Defects in Materials Lecture 29 - Twinning - 1
Link NOC:Defects in Materials Lecture 30 - Twinning - 2
Link NOC:Defects in Materials Lecture 31 - Martensitic Transformation - 1
Link NOC:Defects in Materials Lecture 32 - Martensitic Transformation - 2
Link NOC:Defects in Materials Lecture 33 - Interfaces - 1
Link NOC:Defects in Materials Lecture 34 - Interfaces - 2
Link NOC:Defects in Materials Lecture 35 - Defect Interaction and Strength
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 1 - Method of Stereology
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 2 - Volume Fraction and Particle Size - Part 1
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 3 - Volume Fraction and Particle Size - Part 2
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 4 - Geometric Probability - Part 1
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 5 - Geometric Probability - Part 2
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 6 - Probability Distributions
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 7 - Volume Fraction and Particle Size - Part 3
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 8 - Volume Fraction and Particle Size - Part 4
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 9 - Geometrical Probability - I
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 10 - Geometrical Probability - II
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 11 - Basic Stereological Parameters - Part 1
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 12 - Basic Stereological Parameters - Part 2
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 13 - Counting of grains and particles - Part 1
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 14 - Description of Polycrystalline Microstructures derived measures
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 15 - Counting of grains and particles - Part 2
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 16 - Counting of Grains and Particles - Part 3
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 17 - Counting of Grains and Particles - Part 4
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 18 - Other Applications of the Disector
Link NOC:Elementary Stereology for Quantitative Metallography Lecture 19 - Stereology of Anisotropic Microstructures
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 1 - Introduction to the course, Introduction to physical metallurgy of steels
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 2 - Martensitic transformation, Introduction to modern automotive steels
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 3 - Introduction to modern automotive steels
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 4 - Introduction to advanced high strength steels
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 5 - Introduction to Dual Phase Steel and TRIP Steel Heat Treatments
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 6 - Thermal and Mechanical Processing of TRIP and Hot Forming Steels
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 7 - Introduction to Welding Processes in Automotive Industries
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 8 - Principles of Resistance Spot Welding (RSW)
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 9 - Process Characteristics of Resistance Spot Welding - Part I
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 10 - Process Characteristics of Resistance Spot Welding - Part II
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 11 - Introduction to Laser Beam Welding - Part I
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 12 - Introduction to Laser Beam Welding - Part II
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 13 - Principles of Gas Metal Arc Welding - Part I
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 14 - Principles of Gas Metal Arc Welding - Part II
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 15 - Welding Metallurgy of Advanced High Strength Steels - Part I
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 16 - Microstructural Evolution During Welding of Advanced High Strength Steels
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 17 - Elemental Behaviour During Welding of Advanced High Strength Steels
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 18 - Quantification of Microstructural Constituents in Automotive Steel Welds - Part I
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 19 - Quantification of Microstructural Constituents in Automotive Steel Welds - Part II and Mechanical Properties
Link NOC:Welding of Advanced High Strength Steels for Automotive Applications Lecture 20 - Methodologies to Improve the Weldability of Advanced High Strength Steels
Link NOC:Welding Processes Lecture 1 - Introduction to the course
Link NOC:Welding Processes Lecture 2 - Classification of welding processes and definition of welding arc
Link NOC:Welding Processes Lecture 3 - Physics of welding arc - Part 1
Link NOC:Welding Processes Lecture 4 - Physics of welding arc - Part 2
Link NOC:Welding Processes Lecture 5 - Physics of welding arc - Part 3
Link NOC:Welding Processes Lecture 6 - Physics of welding arc - Part 4
Link NOC:Welding Processes Lecture 7 - Fundamentals of ionisation in welding arc
Link NOC:Welding Processes Lecture 8 - Electrical conductivity of welding arc
Link NOC:Welding Processes Lecture 9 - Electrical resistivity of welding arc
Link NOC:Welding Processes Lecture 10 - Heat transfer inside the arc
Link NOC:Welding Processes Lecture 11 - Arc ignition mechanisms Part - I
Link NOC:Welding Processes Lecture 12 - Arc ignition mechanisms Part - II
Link NOC:Welding Processes Lecture 13 - Principles of Gas Tungsten Arc Welding
Link NOC:Welding Processes Lecture 14 - Shielding gases for arc welding
Link NOC:Welding Processes Lecture 15 - Selection of shielding gases for engineering alloys
Link NOC:Welding Processes Lecture 16 - Arc welding power sources - Part 1
Link NOC:Welding Processes Lecture 17 - Arc welding power sources - Part 2
Link NOC:Welding Processes Lecture 18 - Arc welding power sources - Part 3
Link NOC:Welding Processes Lecture 19 - Variations in GTAW process
Link NOC:Welding Processes Lecture 20 - Square wave, variable polarity, GTAW with filler, hot wire GTAW
Link NOC:Welding Processes Lecture 21 - Dual gas GTAW and Plasma Welding processes
Link NOC:Welding Processes Lecture 22 - Multi cathode GTAW and Activated GTAW
Link NOC:Welding Processes Lecture 23 - Buried GTAW and Rate controlling parameters of GTAW
Link NOC:Welding Processes Lecture 24 - Introduction to consumable welding processes
Link NOC:Welding Processes Lecture 25 - Melting rate of consumable wires
Link NOC:Welding Processes Lecture 26 - Physics of droplet transfer in consumable welding
Link NOC:Welding Processes Lecture 27 - Modes of droplet transfer - Part 1
Link NOC:Welding Processes Lecture 28 - Modes of droplet transfer - Part 2
Link NOC:Welding Processes Lecture 29 - Modes of droplet transfer - Part 3
Link NOC:Welding Processes Lecture 30 - Shielded Metal Arc Welding
Link NOC:Welding Processes Lecture 31 - Flux cored arc welding - Introduction
Link NOC:Welding Processes Lecture 32 - Electrode fluxes and process characteristics of flux cored arc welding
Link NOC:Welding Processes Lecture 33 - Flux cored arc welding - Process characteristics
Link NOC:Welding Processes Lecture 34 - Advances in gas metal arc welding - Pulsed GMAW
Link NOC:Welding Processes Lecture 35 - Advances in gas metal arc welding - Controlled dip short circuiting processes
Link NOC:Welding Processes Lecture 36 - Submerged arc welding
Link NOC:Welding Processes Lecture 37 - Resistance welding - Fundamentals
Link NOC:Welding Processes Lecture 38 - Resistance spot welding - Part 1
Link NOC:Welding Processes Lecture 39 - Resistance spot welding - Part 2
Link NOC:Welding Processes Lecture 40 - Resistance spot welding - Part 3
Link NOC:Welding Processes Lecture 41 - Resistance spot welding - Part 4
Link NOC:Welding Processes Lecture 42 - Variants in resistance welding - Part 1
Link NOC:Welding Processes Lecture 43 - Variants in resistance welding - Part 2
Link NOC:Welding Processes Lecture 44 - Laser welding process - Introduction - Part 1
Link NOC:Welding Processes Lecture 45 - Laser welding process - Part 2
Link NOC:Welding Processes Lecture 46 - Laser welding process - Part 3
Link NOC:Welding Processes Lecture 47 - Laser welding process - Part 4
Link NOC:Welding Processes Lecture 48 - Electron beam welding process
Link NOC:Welding Processes Lecture 49 - Other welding processes - Electroslag welding
Link NOC:Welding Processes Lecture 50 - Magnetically Impelled Arc Butt (MIAB) welding
Link NOC:Welding Processes Lecture 51 - Aluminothermic (thermit) welding
Link NOC:Welding Processes Lecture 52 - Introduction to solid state welding processes - Friction welding
Link NOC:Welding Processes Lecture 53 - Friction stir welding - Part 1
Link NOC:Welding Processes Lecture 54 - Friction stir welding - Part 2
Link NOC:Welding Processes Lecture 55 - Other solid state welding processes
Link NOC:Welding Processes Lecture 56 - Joining processes for Plastics - Part 1
Link NOC:Welding Processes Lecture 57 - Joining processes for Plastics - Part 2
Link NOC:Welding Processes Lecture 58 - Adhesive bonding of plastics
Link NOC:Welding Processes Lecture 59 - Welding nomenclatures
Link NOC:Creep Deformation of Materials Lecture 1 - Importance of studying creep
Link NOC:Creep Deformation of Materials Lecture 2 - Basics of plastic deformation and characteristics of dislocations - Part 1
Link NOC:Creep Deformation of Materials Lecture 3 - Basics of plastic deformation and characteristics of dislocations - Part 2
Link NOC:Creep Deformation of Materials Lecture 4 - Basics of plastic deformation and characteristics of dislocations - Part 3
Link NOC:Creep Deformation of Materials Lecture 5 - Creep and different factors that influence creep deformation - Part 1
Link NOC:Creep Deformation of Materials Lecture 6 - Creep and different factors that influence creep deformation - Part 2
Link NOC:Creep Deformation of Materials Lecture 7 - Creep and different factors that influence creep deformation - Part 3
Link NOC:Creep Deformation of Materials Lecture 8 - Creep and different factors that influence creep deformation - Part 4
Link NOC:Creep Deformation of Materials Lecture 9 - Creep and different factors that influence creep deformation - Part 5
Link NOC:Creep Deformation of Materials Lecture 10 - Creep and different factors that influence creep deformation - Part 6
Link NOC:Creep Deformation of Materials Lecture 11 - Mechanisms of Creep - Part 1
Link NOC:Creep Deformation of Materials Lecture 12 - Mechanisms of Creep - Part 2
Link NOC:Creep Deformation of Materials Lecture 13 - Mechanisms of Creep - Part 3
Link NOC:Creep Deformation of Materials Lecture 14 - Mechanisms of Creep - Part 4
Link NOC:Creep Deformation of Materials Lecture 15 - Mechanisms of Creep - Part 5
Link NOC:Creep Deformation of Materials Lecture 16 - Transitions in Creep Mechanisms and Creep Constitutive Equation
Link NOC:Creep Deformation of Materials Lecture 17 - Deformation Mechanism Maps - Part 1
Link NOC:Creep Deformation of Materials Lecture 18 - Deformation Mechanism Maps - Part 2
Link NOC:Creep Deformation of Materials Lecture 19 - Modeling the Useful Creep Life of Materials/Components - Part 1
Link NOC:Creep Deformation of Materials Lecture 20 - Modeling the Useful Creep Life of Materials/Components - Part 2
Link NOC:Creep Deformation of Materials Lecture 21 - Modeling the Useful Creep Life of Materials/Components - Part 3
Link NOC:Creep Deformation of Materials Lecture 22 - Creep Testing Methods - Part 1
Link NOC:Creep Deformation of Materials Lecture 23 - Creep Testing Methods - Part 2
Link NOC:Creep Deformation of Materials Lecture 24 - Improving Creep Resistance of Materials
Link NOC:Nanotechnology, Science and Applications Lecture 1 - Nanotechnology Science and Applications - Introduction
Link NOC:Nanotechnology, Science and Applications Lecture 2 - Nanotechnology : A Walk through History
Link NOC:Nanotechnology, Science and Applications Lecture 3 - Discussion on Feynman’s talk on Nanotechnology - Part I
Link NOC:Nanotechnology, Science and Applications Lecture 4 - Discussion on Feynman’s talk on Nanotechnology - Part II
Link NOC:Nanotechnology, Science and Applications Lecture 5 - Impact of the nanoscale on thermodynamic considerations
Link NOC:Nanotechnology, Science and Applications Lecture 6 - Phase Diagrams and Stable Phases
Link NOC:Nanotechnology, Science and Applications Lecture 7 - Calorimetry
Link NOC:Nanotechnology, Science and Applications Lecture 8 - Zirconia - ZrO2
Link NOC:Nanotechnology, Science and Applications Lecture 9 - Experimentally Investigating the Hall-Petch relationship
Link NOC:Nanotechnology, Science and Applications Lecture 10 - Impact of the Nanoscale on the Hall-Petch Relationship
Link NOC:Nanotechnology, Science and Applications Lecture 11 - Impact of the nanoscale on Mechanical properties
Link NOC:Nanotechnology, Science and Applications Lecture 12 - Superplasticity and the Nanoscale: Background
Link NOC:Nanotechnology, Science and Applications Lecture 13 - Superplasticity and the Nanoscale: Experimental aspects
Link NOC:Nanotechnology, Science and Applications Lecture 14 - Severe Plastic Deformation and the nanoscale: Experimental Utility
Link NOC:Nanotechnology, Science and Applications Lecture 15 - An approach to prepare bulk nanostructures
Link NOC:Nanotechnology, Science and Applications Lecture 16 - Nanosized Ferroelectrics
Link NOC:Nanotechnology, Science and Applications Lecture 17 - Impact of the nanoscale on optical properties
Link NOC:Nanotechnology, Science and Applications Lecture 18 - Experimental approach to study impact of the nanoscale on optical properties
Link NOC:Nanotechnology, Science and Applications Lecture 19 - Impact of the nanoscale on optical properties: measurements
Link NOC:Nanotechnology, Science and Applications Lecture 20 - Nanocomposites
Link NOC:Nanotechnology, Science and Applications Lecture 21 - Effect of Nanoscale on Magnetic Properties: Potential use of biomaterials
Link NOC:Nanotechnology, Science and Applications Lecture 22 - Effect of Nanostructure on Damping Properties
Link NOC:Nanotechnology, Science and Applications Lecture 23 - Carbon
Link NOC:Nanotechnology, Science and Applications Lecture 24 - Carbon Nanotubes
Link NOC:Nanotechnology, Science and Applications Lecture 25 - Graphene, a 2D nanomaterials
Link NOC:Surface Engineering of Nanomaterials Lecture 1 - Tribology and Its Classification
Link NOC:Surface Engineering of Nanomaterials Lecture 2 - Friction Tribology
Link NOC:Surface Engineering of Nanomaterials Lecture 3 - Wear and Corrosion
Link NOC:Surface Engineering of Nanomaterials Lecture 4 - Lubrication
Link NOC:Surface Engineering of Nanomaterials Lecture 5 - Effect of Tribology on Surface of Nanomaterials
Link NOC:Surface Engineering of Nanomaterials Lecture 6 - Conventional Surface Engineering
Link NOC:Surface Engineering of Nanomaterials Lecture 7 - Types of Surface Modifications
Link NOC:Surface Engineering of Nanomaterials Lecture 8 - Physical Modifications
Link NOC:Surface Engineering of Nanomaterials Lecture 9 - Chemical Modifications
Link NOC:Surface Engineering of Nanomaterials Lecture 10 - Applications of Surface Engineering towards Nanomaterials
Link NOC:Surface Engineering of Nanomaterials Lecture 11 - Deposition and Surface Modification Methods
Link NOC:Surface Engineering of Nanomaterials Lecture 12 - Physical Vapour Deposition (PVD)
Link NOC:Surface Engineering of Nanomaterials Lecture 13 - Chemical Vapour Deposition (CVD)
Link NOC:Surface Engineering of Nanomaterials Lecture 14 - Advanced Surface Modification Practices
Link NOC:Surface Engineering of Nanomaterials Lecture 15 - Advantages of Deposition for Surface Modification
Link NOC:Surface Engineering of Nanomaterials Lecture 16 - Synthesis, Processing and Characterization of Nano-structured Coatings
Link NOC:Surface Engineering of Nanomaterials Lecture 17 - Functional Coatings
Link NOC:Surface Engineering of Nanomaterials Lecture 18 - Advanced Coating Practices
Link NOC:Surface Engineering of Nanomaterials Lecture 19 - Characterization of Nano-coatings
Link NOC:Surface Engineering of Nanomaterials Lecture 20 - Applications of Nano-coatings
Link NOC:Surface Engineering of Nanomaterials Lecture 21 - Need of Advanced Methods for Surface and Coating Testings
Link NOC:Surface Engineering of Nanomaterials Lecture 22 - Size Dependency in Nanostructures of Nanocoatings
Link NOC:Surface Engineering of Nanomaterials Lecture 23 - Size Effect in Electrochemical Properties of Nanostructured Coatings
Link NOC:Surface Engineering of Nanomaterials Lecture 24 - Size Effect in Mechanical Properties of Nanostructured Coatings
Link NOC:Surface Engineering of Nanomaterials Lecture 25 - Size Effect in Physical and Other Properties of Nanostructured Coatings
Link NOC:Surface Engineering of Nanomaterials Lecture 26 - Thin Films for Surface Engineering of Nanomaterials
Link NOC:Surface Engineering of Nanomaterials Lecture 27 - Sputtering Techniques
Link NOC:Surface Engineering of Nanomaterials Lecture 28 - Evaporation Processes
Link NOC:Surface Engineering of Nanomaterials Lecture 29 - Thin Film Deposition through Gas Phase Techniques
Link NOC:Surface Engineering of Nanomaterials Lecture 30 - Liquid Phase Techniques
Link NOC:Surface Engineering of Nanomaterials Lecture 31 - Microencapsulation Processes
Link NOC:Surface Engineering of Nanomaterials Lecture 32 - Microencapsulation: Kinetics of release
Link NOC:Surface Engineering of Nanomaterials Lecture 33 - Plating of Nanocomposite Coatings - I
Link NOC:Surface Engineering of Nanomaterials Lecture 34 - Plating of Nanocomposite Coatings - II
Link NOC:Surface Engineering of Nanomaterials Lecture 35 - Advantages of Microencapsulation over Other Conventional Methods
Link NOC:Surface Engineering of Nanomaterials Lecture 36 - Current Trends in Surface Modification of Nanomaterials - Part-1
Link NOC:Surface Engineering of Nanomaterials Lecture 37 - Current Trends in Surface Modification of Nanomaterials - Part-2
Link NOC:Surface Engineering of Nanomaterials Lecture 38 - Current Trends in Surface Modification of Nanomaterials - Part-3
Link NOC:Surface Engineering of Nanomaterials Lecture 39 - Modified Nanomaterials: In-use for consumer products
Link NOC:Surface Engineering of Nanomaterials Lecture 40 - Main Problems in Synthesis of Modified Nanomaterials
Link NOC:Material Science and Engineering Lecture 1 - Introduction
Link NOC:Material Science and Engineering Lecture 2 - Atomic structure and bonding
Link NOC:Material Science and Engineering Lecture 3 - Crystal systems and structures: Lattice
Link NOC:Material Science and Engineering Lecture 4 - X-ray diffraction: Crystal structure determination
Link NOC:Material Science and Engineering Lecture 5 - Crystal planes and directions: Indexing
Link NOC:Material Science and Engineering Lecture 6 - Optical microscope
Link NOC:Material Science and Engineering Lecture 7 - Optical aberration
Link NOC:Material Science and Engineering Lecture 8 - Metallography
Link NOC:Material Science and Engineering Lecture 9 - Microstructure: Understanding
Link NOC:Material Science and Engineering Lecture 10 - Quantitative metallography
Link NOC:Material Science and Engineering Lecture 11 - Crystallographic defects
Link NOC:Material Science and Engineering Lecture 12 - Diffusion
Link NOC:Material Science and Engineering Lecture 13 - Phase diagram - 1
Link NOC:Material Science and Engineering Lecture 14 - Phase diagram - 2
Link NOC:Material Science and Engineering Lecture 15 - Eutectic phase diagram
Link NOC:Material Science and Engineering Lecture 16 - Equilibrium and non-equilibrium cooling
Link NOC:Material Science and Engineering Lecture 17 - Equilibrium cooling of eutectic system
Link NOC:Material Science and Engineering Lecture 18 - Solidification structure
Link NOC:Material Science and Engineering Lecture 19 - Iron-carbon phase diagram
Link NOC:Material Science and Engineering Lecture 20 - Nucleation and growth
Link NOC:Material Science and Engineering Lecture 21 - TTT and CCT curves
Link NOC:Material Science and Engineering Lecture 22 - Heat treatment
Link NOC:Material Science and Engineering Lecture 23 - Precipitation
Link NOC:Material Science and Engineering Lecture 24 - Elastic behaviour
Link NOC:Material Science and Engineering Lecture 25 - Tensile test
Link NOC:Material Science and Engineering Lecture 26 - Engineering and true stress and strain
Link NOC:Material Science and Engineering Lecture 27 - Plastic deformation - 1
Link NOC:Material Science and Engineering Lecture 28 - Plastic deformation - 2
Link NOC:Material Science and Engineering Lecture 29 - Strengthening mechanism - 1
Link NOC:Material Science and Engineering Lecture 30 - Strengthening mechanism - 2
Link NOC:Material Science and Engineering Lecture 31 - Strengthening mechanism - 3
Link NOC:Material Science and Engineering Lecture 32 - Strengthening mechanism - 4
Link NOC:Material Science and Engineering Lecture 33 - Fracture: Part - 1
Link NOC:Material Science and Engineering Lecture 34 - Fracture: Part - 2
Link NOC:Material Science and Engineering Lecture 35 - Fatigue
Link NOC:Material Science and Engineering Lecture 36 - Creep
Link NOC:Material Science and Engineering Lecture 37 - NDT: Hardness measurement
Link NOC:Material Science and Engineering Lecture 38 - Ceramics, polymers, composites
Link NOC:Material Science and Engineering Lecture 39 - Electrical and magnetic properties
Link NOC:Material Science and Engineering Lecture 40 - Alloy designation and properties
Link NOC:Structural Analysis of Nanomaterials Lecture 1 - Introduction
Link NOC:Structural Analysis of Nanomaterials Lecture 2 - Structure of Materials
Link NOC:Structural Analysis of Nanomaterials Lecture 3 - Imperfections in Structure of Materials
Link NOC:Structural Analysis of Nanomaterials Lecture 4 - Phase Diagram: Determination of Phases
Link NOC:Structural Analysis of Nanomaterials Lecture 5 - Transformation of Phases
Link NOC:Structural Analysis of Nanomaterials Lecture 6 - Basic Properties: Metals - I
Link NOC:Structural Analysis of Nanomaterials Lecture 7 - Basic Properties: Metals - II
Link NOC:Structural Analysis of Nanomaterials Lecture 8 - Basic Properties: Ceramics
Link NOC:Structural Analysis of Nanomaterials Lecture 9 - Basic Properties: Polymers
Link NOC:Structural Analysis of Nanomaterials Lecture 10 - Selection of Nanomaterials based on Applications
Link NOC:Structural Analysis of Nanomaterials Lecture 11 - Introduction to X-Ray Diffraction
Link NOC:Structural Analysis of Nanomaterials Lecture 12 - Diffraction Methods and Directions of XRD
Link NOC:Structural Analysis of Nanomaterials Lecture 13 - Determination of Crystal Structures by XRD Patterns
Link NOC:Structural Analysis of Nanomaterials Lecture 14 - Precise Parameter Measurements
Link NOC:Structural Analysis of Nanomaterials Lecture 15 - Orientation of Single Crystals
Link NOC:Structural Analysis of Nanomaterials Lecture 16 - Qualitative Analysis by Diffraction
Link NOC:Structural Analysis of Nanomaterials Lecture 17 - Quantitative Analysis by Diffraction
Link NOC:Structural Analysis of Nanomaterials Lecture 18 - Microscopic Structural Analysis of Nanomaterials - I
Link NOC:Structural Analysis of Nanomaterials Lecture 19 - Microscopic Structural Analysis of Nanomaterials - II
Link NOC:Structural Analysis of Nanomaterials Lecture 20 - Other Characterization Techniques
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 1 - Introduction to Thermomechanical Processes
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 2 - Conventional Thermomechanical Processes
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 3 - Non-conventional Thermomechanical Processes
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 4 - Stress and Strain
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 5 - Effect of Strain Rate and Temperature
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 6 - Microstructure Evolution
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 7 - Dynamic Recovery
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 8 - Discontinuous Dynamic Recrystallization
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 9 - Dynamic Recrystallization : Critical Stress and Strain
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 10 - Continuous Dynamic Recrystallization (CDRX) and Geometrical Dynamic Recrystallization (GDRX)
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 11 - Stereographic Projection
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 12 - Using Stereographic Projection
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 13 - Crystallographic Texture
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 14 - Crystallographic Texture: Texture Components
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 15 - Crystallographic Texture: Application
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 16 - Constitutive Analysis
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 17 - Constitutive Analysis: Low Strain Rate
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 18 - Higher Strain Rate: Hot Working
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 19 - Constitutive Based Model : Physical Based Model
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 20 - Constitutive analysis : Case Study
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 21 - Processing Maps : Deformation Mechanism maps
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 22 - Processing Maps : Dynamic Material Model
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 23 - Microstructure and Application
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 24 - Processing Maps : Different Models
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 25 - Processing Maps : Case Study
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 26 - Equal Channel Angular Pressing (ECAP)
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 27 - Friction Stir Processing (FSP)
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 28 - Accumulative Roll Bonding (ARB)
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 29 - Multi Axial Forging (MAF)
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 30 - Severe Plastic Deformation : Case Study
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 31 - Overview on Thermo-Chemical treatments
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 32 - Overview on Thermo-Chemical treatments (Continued...)
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 33 - Thermodynamic aspects of thermo-chemical treatments: Preliminaries
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 34 - Thermodynamics of Gaseous Nitriding - I
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 35 - Thermodynamics of Gaseous Nitriding - II
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 36 - Gaseous Nitriding of Pure Iron
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 37 - Gaseous Nitriding of Iron based alloys
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 38 - Duplex and Dual Phase microstructures through nitriding
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 39 - Alloying element nitride precipitation during nitriding of iron based alloys
Link NOC:Thermo-Mechanical and Thermo-Chemical Processes Lecture 40 - Kinetics of gaseous nitriding
Link NOC:Welding Metallurgy Lecture 1 - Introduction to welding metallurgy
Link NOC:Welding Metallurgy Lecture 2 - Overview of Welding Processes
Link NOC:Welding Metallurgy Lecture 3 - Introduction to phase diagrams
Link NOC:Welding Metallurgy Lecture 4 - Phase diagram of Iron Carbon system
Link NOC:Welding Metallurgy Lecture 5 - Phase diagram of non ferrous metals and alloys
Link NOC:Welding Metallurgy Lecture 6 - Phase Transformations
Link NOC:Welding Metallurgy Lecture 7 - Time Temperature Transformation Diagrams
Link NOC:Welding Metallurgy Lecture 8 - Continuous Cooling Transformation Diagrams
Link NOC:Welding Metallurgy Lecture 9 - Carbon Equivalent, Schaeffler Diagrams
Link NOC:Welding Metallurgy Lecture 10 - Problem solving on Phase Diagrams
Link NOC:Welding Metallurgy Lecture 11 - Introduction to strengthening mechanism in metals
Link NOC:Welding Metallurgy Lecture 12 - Solid solution strengthening and grain refinement
Link NOC:Welding Metallurgy Lecture 13 - Precipitation Hardening and Martensite Strengthening
Link NOC:Welding Metallurgy Lecture 14 - Strain Hardening and Strain Ageing
Link NOC:Welding Metallurgy Lecture 15 - Problem solving on strengthening mechanism in metals
Link NOC:Welding Metallurgy Lecture 16 - Introduction to Heat treatment Processes in Welding
Link NOC:Welding Metallurgy Lecture 17 - Hardening and Hardenability
Link NOC:Welding Metallurgy Lecture 18 - Martempering and Austempering
Link NOC:Welding Metallurgy Lecture 19 - Case Hardening methods
Link NOC:Welding Metallurgy Lecture 20 - Heat treatment of Non-Ferrous metals and alloys
Link NOC:Welding Metallurgy Lecture 21 - Heat Sources in Welding
Link NOC:Welding Metallurgy Lecture 22 - Heat Flow in Welding
Link NOC:Welding Metallurgy Lecture 23 - Temperature Distribution in Welding
Link NOC:Welding Metallurgy Lecture 24 - Effect of Welding Parameters
Link NOC:Welding Metallurgy Lecture 25 - Metallurgical effect of Heat Flow on Welding
Link NOC:Welding Metallurgy Lecture 26 - Principles of Solidification in Welding
Link NOC:Welding Metallurgy Lecture 27 - Solute redistribution during Solidification
Link NOC:Welding Metallurgy Lecture 28 - Constitutional Supercooling
Link NOC:Welding Metallurgy Lecture 29 - Microsegregation and Banding
Link NOC:Welding Metallurgy Lecture 30 - Grain Structure during Solidification in Welding
Link NOC:Welding Metallurgy Lecture 31 - Distinct Zones in Fusion Welded Specimen
Link NOC:Welding Metallurgy Lecture 32 - Heat Affected Zone
Link NOC:Welding Metallurgy Lecture 33 - Properties of Heat Affect Zone
Link NOC:Welding Metallurgy Lecture 34 - Microstructural Products in Weldments
Link NOC:Welding Metallurgy Lecture 35 - Introduction to Preheat and Postweld Heat Treatment
Link NOC:Welding Metallurgy Lecture 36 - Preheat and Postweld Heat Treatment of Different Materials
Link NOC:Welding Metallurgy Lecture 37 - Residual Stresses in Welding
Link NOC:Welding Metallurgy Lecture 38 - Causes of Residual Stress Development in Welding
Link NOC:Welding Metallurgy Lecture 39 - Measurement of Residual Stresses in Weldments
Link NOC:Welding Metallurgy Lecture 40 - Controlling Residual Stresses in Weldments
Link NOC:Welding Metallurgy Lecture 41 - Introduction to Welding Distortion
Link NOC:Welding Metallurgy Lecture 42 - Types of Welding Distortions
Link NOC:Welding Metallurgy Lecture 43 - Angular Distortions in Welds
Link NOC:Welding Metallurgy Lecture 44 - Bowing, Buckling and Twisting in Welds
Link NOC:Welding Metallurgy Lecture 45 - Control of Distortion in Welds
Link NOC:Welding Metallurgy Lecture 46 - Introduction to Cracks in Welds
Link NOC:Welding Metallurgy Lecture 47 - Types of Weld Cracks
Link NOC:Welding Metallurgy Lecture 48 - Specific Weld Cracks
Link NOC:Welding Metallurgy Lecture 49 - Chevron Cracks and Reheat Cracks
Link NOC:Welding Metallurgy Lecture 50 - Lamellar Cracks and Stress Corrosion Cracking
Link NOC:Welding Metallurgy Lecture 51 - Introduction to Weldability of Metals
Link NOC:Welding Metallurgy Lecture 52 - Weldability of Carbon Steels
Link NOC:Welding Metallurgy Lecture 53 - Weldability of Alloy Steels
Link NOC:Welding Metallurgy Lecture 54 - Weldability of Cast Iron
Link NOC:Welding Metallurgy Lecture 55 - Weldability of Non Ferrous Metals and Alloys
Link NOC:Welding Metallurgy Lecture 56 - Introduction to Welding Defects
Link NOC:Welding Metallurgy Lecture 57 - Surface and Subsurface Welding Defects
Link NOC:Welding Metallurgy Lecture 58 - Issues in Welding: Design for Static Loading
Link NOC:Welding Metallurgy Lecture 59 - Considerations for Fatigue Loading in Welding
Link NOC:Welding Metallurgy Lecture 60 - Design Features for Fatigue and Static Loading in Welding
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 1 - Introduction
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 2 - Biomaterial
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 3 - Biocompatibility
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 4 - Host response
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 5 - Tissue Eng
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 6 - Scaffold
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 7 - Bone structure
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 8 - Bone properties
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 9 - Implant - I
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 10 - Implant - II
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 11 - Proteins
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 12 - Cell structure
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 13 - Bacteria structure
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 14 - Antibacterial assay
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 15 - Cell fate processes
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 16 - Cell division
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 17 - Cell differentiation
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 18 - Stem cells
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 19 - Osseointegration
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 20 - In vivo testing
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 21 - Cell-material interaction
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 22 - Cell-signalling
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 23 - In vitro testing
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 24 - Cytotoxicity assays
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 25 - Biocompatibility assay
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 26 - Clinical trials - I
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 27 - Clinical trials - II
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 28 - Metal manufacturing
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 29 - Ceramics manufacturing
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 30 - Polymers manufacturing
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 31 - Additive manufacturing
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 32 - HA-Ti-Toughness, Cell functionality
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 33 - HA-CaTiO 3 development
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 34 - HA- BaTiO 3 Functional Prop
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 35 - HA-Ag antimicrob and cell viability
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 36 - HA-ZnO, Cell fate and antimicrobial
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 37 - Dental ceramics processing
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 38 - Sr-based glass Ceramics
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 39 - Acetabular socket (Compression mold)
Link NOC:Biomaterials for Bone Tissue Engineering Applications Lecture 40 - ZTA femoral ball head fabrication
Link NOC:Iron Making Lecture 1
Link NOC:Iron Making Lecture 2
Link NOC:Iron Making Lecture 3
Link NOC:Iron Making Lecture 4
Link NOC:Iron Making Lecture 5
Link NOC:Iron Making Lecture 6
Link NOC:Iron Making Lecture 7
Link NOC:Iron Making Lecture 8
Link NOC:Iron Making Lecture 9
Link NOC:Iron Making Lecture 10
Link NOC:Iron Making Lecture 11
Link NOC:Iron Making Lecture 12
Link NOC:Iron Making Lecture 13
Link NOC:Iron Making Lecture 14
Link NOC:Iron Making Lecture 15
Link NOC:Iron Making Lecture 16
Link NOC:Iron Making Lecture 17
Link NOC:Iron Making Lecture 18
Link NOC:Iron Making Lecture 19
Link NOC:Iron Making Lecture 20
Link NOC:Iron Making Lecture 21
Link NOC:Iron Making Lecture 22
Link NOC:Iron Making Lecture 23
Link NOC:Iron Making Lecture 24
Link NOC:Iron Making Lecture 25
Link NOC:Iron Making Lecture 26
Link NOC:Iron Making Lecture 27
Link NOC:Iron Making Lecture 28
Link NOC:Iron Making Lecture 29
Link NOC:Iron Making Lecture 30
Link NOC:Iron Making Lecture 31
Link NOC:Iron Making Lecture 32
Link NOC:Iron Making Lecture 33
Link NOC:Iron Making Lecture 34
Link NOC:Iron Making Lecture 35
Link NOC:Iron Making Lecture 36
Link NOC:Iron Making Lecture 37
Link NOC:Iron Making Lecture 38
Link NOC:Iron Making Lecture 39 - Live Session
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 1 - Tribology: Introduction
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 2 - Surfaces and contacts
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 3 - Friction: Laws and mechanisms
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 4 - Contact temperature
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 5 - Lubrication
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 6 - Wear mechanisms: Adhesive wear
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 7 - Wear mechanisms: Abrasive wear
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 8 - Wear mechanisms: Tribochemical wear and Oxidative wear
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 9 - Wear mechanisms: Fatigue wear and Fretting wear
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 10 - Wear mechanisms: Erosive wear
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 11 - Overview of tribological materials
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 12 - Friction and wear of metal matrix composites
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 13 - Overview: Bioceramics and Biocomposites
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 14 - Fabrication of engineering polymers
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 15 - Polymer Ceramic Composites for Orthopedic Applications
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 16 - Processing concepts of ceramics
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 17 - Mechanical properties of ceramics
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 18 - Fracture and toughening of brittle solids
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 19 - Sliding wear of SiC Ceramics
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 20 - Sliding wear of SiC-WC Composites
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 21 - Friction and wear of HDPE-HA-Al2O3
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 22 - Wear behavior of bioceramics and biocomposites
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 23 - Tribological behavior of dental restorative materials
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 24 - Wear of transformation toughened zirconia
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 25 - Fretting wear of SiAlON Ceramics
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 26 - Tribochemistry in wear of cermets
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 27 - Overview: nanoceramic composites
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 28 - Wear of YSZ nanoceramics
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 29 - Wear behavior of nanostructured WC-ZrO2 nanocomposites
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 30 - Erosive wear of SiC-WC composites
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 31 - Overview: Cryogenic wear properties of materials
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 32 - Sliding wear of alumina ceramics and zirconia ceramics in cryogenic environment
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 33 - Sliding wear of silicon carbide in cryogenic environment
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 34 - Wear of TiB2 Ceramic Composites
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 35 - Erosive wear of ultra-high temperature NbB2-based ceramic composites
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 36 - Erosive wear of ultra-high temperature ZrB2-based ceramic composites
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 37 - Computational analysis in assessing wear
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 38 - Basics of ceramics coating techniques
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 39 - Erosive wear of WC-Co coating
Link NOC:Friction and Wear of Materials: Principles and Case Studies Lecture 40 - Abrasive wear of WC-Co coating
Link Elements of Ocean Engineering Lecture 1 - Introduction
Link Elements of Ocean Engineering Lecture 2 - Physical Oceanography - I
Link Elements of Ocean Engineering Lecture 3 - Physical Oceanography - II
Link Elements of Ocean Engineering Lecture 4 - Physical Oceanography - III
Link Elements of Ocean Engineering Lecture 5 - Physical Oceanography - IV
Link Elements of Ocean Engineering Lecture 6 - Sediments & Open Ocean
Link Elements of Ocean Engineering Lecture 7 - Open Ocean - I
Link Elements of Ocean Engineering Lecture 8 - Open Ocean - II
Link Elements of Ocean Engineering Lecture 9 - Physical Properties of Water
Link Elements of Ocean Engineering Lecture 10 - Water and Waves
Link Elements of Ocean Engineering Lecture 11 - Waves - I
Link Elements of Ocean Engineering Lecture 12 - Waves - II
Link Elements of Ocean Engineering Lecture 13 - Waves - III
Link Elements of Ocean Engineering Lecture 14 - Introduction to Offshore Structures - I
Link Elements of Ocean Engineering Lecture 15 - Introduction to Offshore Structures - II
Link Elements of Ocean Engineering Lecture 16 - Waves - IV
Link Elements of Ocean Engineering Lecture 17 - The Wave Spectra
Link Elements of Ocean Engineering Lecture 18 - The Wave Spectra (Continued...1)
Link Elements of Ocean Engineering Lecture 19 - The Wave Spectra (Continued...2)
Link Elements of Ocean Engineering Lecture 20 - Offshore Structures - I
Link Elements of Ocean Engineering Lecture 21 - Offshore Structures - II
Link Elements of Ocean Engineering Lecture 22 - Offshore Structures - III
Link Elements of Ocean Engineering Lecture 23 - Floating Offshore Structures
Link Elements of Ocean Engineering Lecture 24 - Drilling from Platforms
Link Elements of Ocean Engineering Lecture 25 - Drilling and Topsides
Link Elements of Ocean Engineering Lecture 26 - Topsides
Link Elements of Ocean Engineering Lecture 27 - Mooring Systems
Link Elements of Ocean Engineering Lecture 28 - Mooring Systems (Continued...1)
Link Elements of Ocean Engineering Lecture 29 - Static Analysis of Mooring Cable
Link Elements of Ocean Engineering Lecture 30 - Static Analysis of Mooring Cable (Continued...)
Link Elements of Ocean Engineering Lecture 31 - Mooring Systems (Continued...2)
Link Elements of Ocean Engineering Lecture 32 - Mooring Systems (Continued...3)
Link Elements of Ocean Engineering Lecture 33 - Mooring Systems (Continued...4)
Link Elements of Ocean Engineering Lecture 34 - Mooring Systems (Continued...5)
Link Elements of Ocean Engineering Lecture 35 - Mooring Systems (Continued...6)
Link Elements of Ocean Engineering Lecture 36 - Fixed Offshore Structures
Link Elements of Ocean Engineering Lecture 37 - Fixed Offshore Structures (Continued...)
Link Elements of Ocean Engineering Lecture 38 - Structural Analysis of Jacket Platforms
Link Elements of Ocean Engineering Lecture 39 - Structural Analysis of Jacket Platforms (Continued...1)
Link Elements of Ocean Engineering Lecture 40 - Structural Analysis of Jacket Platforms (Continued...2)
Link Elements of Ocean Engineering Lecture 41 - Jacket Pile Selection
Link Elements of Ocean Engineering Lecture 42 - Jacket Pile Selection (Continued...1)
Link Elements of Ocean Engineering Lecture 43 - Jacket Pile Selection (Continued...2)
Link Elements of Ocean Engineering Lecture 44 - Floating Platform Design
Link Elements of Ocean Engineering Lecture 45 - Semi-Submersibles
Link Elements of Ocean Engineering Lecture 46 - Semi-Submersibles & TLPs
Link Elements of Ocean Engineering Lecture 47 - Tension Leg Platform
Link Elements of Ocean Engineering Lecture 48 - Tension Leg Platform (Continued...)
Link Elements of Ocean Engineering Lecture 49 - SPAR Platform
Link Hydrostatics and Stability Lecture 1 - Introduction
Link Hydrostatics and Stability Lecture 2 - Archimedes Principle
Link Hydrostatics and Stability Lecture 3 - Archimedes Principle (Continued...)
Link Hydrostatics and Stability Lecture 4 - Numerical Integration
Link Hydrostatics and Stability Lecture 5 - Problems in Stability - I
Link Hydrostatics and Stability Lecture 6 - Problems in Stability - II
Link Hydrostatics and Stability Lecture 7 - Problems in Stability - III
Link Hydrostatics and Stability Lecture 8 - Problems in Integration
Link Hydrostatics and Stability Lecture 9 - Free Surface Effect
Link Hydrostatics and Stability Lecture 10 - Inclining Experiment
Link Hydrostatics and Stability Lecture 11 - Hydrostatic Curves - I
Link Hydrostatics and Stability Lecture 12 - Hydrostatic Curves - II
Link Hydrostatics and Stability Lecture 13 - Stability Curve
Link Hydrostatics and Stability Lecture 14 - Dynamical Stability - I
Link Hydrostatics and Stability Lecture 15 - Dynamical Stability - II
Link Hydrostatics and Stability Lecture 16 - Healing Moment - I
Link Hydrostatics and Stability Lecture 17 - Healing Moment - II
Link Hydrostatics and Stability Lecture 18 - Healing Moment - III
Link Hydrostatics and Stability Lecture 19 - Dynamical Stability - III
Link Hydrostatics and Stability Lecture 20 - Discussion
Link Hydrostatics and Stability Lecture 21 - Righting Stability - I
Link Hydrostatics and Stability Lecture 22 - Righting Stability - II
Link Hydrostatics and Stability Lecture 23 - Trim Calculations - I
Link Hydrostatics and Stability Lecture 24 - Trim Calculations - II
Link Hydrostatics and Stability Lecture 25 - Trim Stability - I
Link Hydrostatics and Stability Lecture 26 - Trim Stability - II
Link Hydrostatics and Stability Lecture 27 - Dry Docking - I
Link Hydrostatics and Stability Lecture 28 - Dry Docking - II
Link Hydrostatics and Stability Lecture 29 - Bilging - I
Link Hydrostatics and Stability Lecture 30 - Bilging - II
Link Hydrostatics and Stability Lecture 31 - Bilging - III
Link Hydrostatics and Stability Lecture 32 - Bilging - IV
Link Hydrostatics and Stability Lecture 33 - Safety Regulations
Link Hydrostatics and Stability Lecture 34 - Safety Regulations (Continued...)
Link Hydrostatics and Stability Lecture 35 - Safety Regulations (Continued...)
Link Hydrostatics and Stability Lecture 36 - Ship Stability on Waves
Link Hydrostatics and Stability Lecture 37 - Ship Stability on Waves (Continued...)
Link Hydrostatics and Stability Lecture 38 - Ship Stability on Waves (Continued...)
Link Hydrostatics and Stability Lecture 39 - Wave Theory
Link Hydrostatics and Stability Lecture 40 - Conclusion
Link Marine Construction and Welding Lecture 1 - Introduction to ships & offshore structures
Link Marine Construction and Welding Lecture 2 - Characteristics of shipbuilding industry
Link Marine Construction and Welding Lecture 3 - Structural Requirement
Link Marine Construction and Welding Lecture 4 - Basic Structural Components
Link Marine Construction and Welding Lecture 5 - Structural Subassemblies
Link Marine Construction and Welding Lecture 6 - Bulkheads
Link Marine Construction and Welding Lecture 7 - Decks & Shells
Link Marine Construction and Welding Lecture 8 - Structural Assemblies Double Bottom Construction
Link Marine Construction and Welding Lecture 9 - Wing Tanks & Duct Keels
Link Marine Construction and Welding Lecture 10 - Fore & Altend Construction
Link Marine Construction and Welding Lecture 11 - General Cargo Carrier
Link Marine Construction and Welding Lecture 12 - Bulk Carrier
Link Marine Construction and Welding Lecture 13 - Structural Details
Link Marine Construction and Welding Lecture 14 - Container Ship
Link Marine Construction and Welding Lecture 15 - RO-RO Ship
Link Marine Construction and Welding Lecture 16 - Oil Tanker
Link Marine Construction and Welding Lecture 17 - Structural Alignment & Continuity
Link Marine Construction and Welding Lecture 18 - Steel Material Preparation
Link Marine Construction and Welding Lecture 19 - Shot Blasting
Link Marine Construction and Welding Lecture 20 - Acid Pickling
Link Marine Construction and Welding Lecture 21 - Plate Cutting
Link Marine Construction and Welding Lecture 22 - Plate & Section Forming - I
Link Marine Construction and Welding Lecture 23 - Plate & Section Forming - II
Link Marine Construction and Welding Lecture 24 - Line Heating
Link Marine Construction and Welding Lecture 25 - Fusion Welding & Power Source
Link Marine Construction and Welding Lecture 26 - Welding Parameters & their Effects
Link Marine Construction and Welding Lecture 27 - Welding Methods
Link Marine Construction and Welding Lecture 28 - Shielded Metal Arc Welding
Link Marine Construction and Welding Lecture 29 - Gas Metal Arc Welding - I
Link Marine Construction and Welding Lecture 30 - Gas Metal Arc Welding - II
Link Marine Construction and Welding Lecture 31 - Gas Tungsten Arc Welding
Link Marine Construction and Welding Lecture 32 - Submerged Arc Welding
Link Marine Construction and Welding Lecture 33 - Electroslag Welding
Link Marine Construction and Welding Lecture 34 - Electrogas Welding
Link Marine Construction and Welding Lecture 35 - Friction Stir Welding
Link Marine Construction and Welding Lecture 36 - FSW Metallurgy
Link Marine Construction and Welding Lecture 37 - Welding Defects & NDT
Link Marine Construction and Welding Lecture 38 - Welding Distortions
Link Marine Construction and Welding Lecture 39 - Distortion Mechanism & Types of Distortion
Link Marine Construction and Welding Lecture 40 - Distortion Control & Mitigation
Link Marine Construction and Welding Lecture 41 - Welding Sequence
Link Marine Hydrodynamics Lecture 1 - Introduction to Marine Hydrodynamics
Link Marine Hydrodynamics Lecture 2 - Law of Conservation of Mass - Continuity of Equation
Link Marine Hydrodynamics Lecture 3 - Streamlines and Flow Direction
Link Marine Hydrodynamics Lecture 4 - Worked Examples on Various Types of Flow
Link Marine Hydrodynamics Lecture 5 - Equation of Motion (Law of Conservation of Momentum)
Link Marine Hydrodynamics Lecture 6 - Applications of Equations of Motion
Link Marine Hydrodynamics Lecture 7 - Applications of Equations of Motion (Continued...)
Link Marine Hydrodynamics Lecture 8 - Two Dimensional Flows
Link Marine Hydrodynamics Lecture 9 - Two Dimensional Flows (Continued...)
Link Marine Hydrodynamics Lecture 10 - Source, Sink and Doublet
Link Marine Hydrodynamics Lecture 11 - Worked Examples on Two Dimensional Flows
Link Marine Hydrodynamics Lecture 12 - Conformal Mapping and Joukowsky Transformation
Link Marine Hydrodynamics Lecture 13 - Uniform Flow Past an Elliptic Cylinder
Link Marine Hydrodynamics Lecture 14 - Aerofoil theory
Link Marine Hydrodynamics Lecture 15 - Aerofoil theory (Continued...)
Link Marine Hydrodynamics Lecture 16 - Aerofoil theory (Continued...)
Link Marine Hydrodynamics Lecture 17 - Schwarz - Christoffel Transformation
Link Marine Hydrodynamics Lecture 18 - Motion of a cylinder
Link Marine Hydrodynamics Lecture 19 - Vertex Motion
Link Marine Hydrodynamics Lecture 20 - Irrotational Flow - A Bird's eyeview
Link Marine Hydrodynamics Lecture 21 - Introduction to Water Waves
Link Marine Hydrodynamics Lecture 22 - Basic Equation and Conditions of Water Waves
Link Marine Hydrodynamics Lecture 23 - Water particle kinematics in wave motion
Link Marine Hydrodynamics Lecture 24 - Capillary Gravity Waves
Link Marine Hydrodynamics Lecture 25 - Linearised Long Wave Equation
Link Marine Hydrodynamics Lecture 26 - Linearised Long Wave Equation (Continued...)
Link Marine Hydrodynamics Lecture 27 - Wave motion in two layer fluids
Link Marine Hydrodynamics Lecture 28 - Worked Examples on Wave Motion
Link Marine Hydrodynamics Lecture 29 - Worked Examples on Wave Motion (Continued...)
Link Marine Hydrodynamics Lecture 30 - Gravity wave transformation and energy rotation
Link Marine Hydrodynamics Lecture 31 - Gravity wave transformation and energy rotation (Continued...)
Link Marine Hydrodynamics Lecture 32 - Gravity wave transformation and energy rotation (Continued...)
Link Marine Hydrodynamics Lecture 33 - Navier - Stokes equation of motion
Link Marine Hydrodynamics Lecture 34 - Analysis of Basic Flow Problems
Link Marine Hydrodynamics Lecture 35 - Analysis of Basic Flow Problems (Continued...)
Link Marine Hydrodynamics Lecture 36 - Unsteady unidirectional flows
Link Marine Hydrodynamics Lecture 37 - Unsteady unidirectional flows (Continued...)
Link Marine Hydrodynamics Lecture 38 - An introduction to Boundary Layer Theory
Link Marine Hydrodynamics Lecture 39 - Solution methods for Boundary Layer Equations
Link Marine Hydrodynamics Lecture 40 - Solutions Methods for Boundary Layer Equations (Continued...)
Link Seakeeping and Manoeuvring Lecture 1 - Regular Water Waves - I
Link Seakeeping and Manoeuvring Lecture 2 - Regular Water Waves - II
Link Seakeeping and Manoeuvring Lecture 3 - Definition of Ship Motions & Encounter Frequency
Link Seakeeping and Manoeuvring Lecture 4 - Single Degree of Freedom Motions in Regular Waves
Link Seakeeping and Manoeuvring Lecture 5 - Uncoupled Heave, Pitch and Roll - I
Link Seakeeping and Manoeuvring Lecture 6 - Uncoupled Heave, Pitch and Roll - II
Link Seakeeping and Manoeuvring Lecture 7 - Uncoupled Heave, Pitch and Roll - III
Link Seakeeping and Manoeuvring Lecture 8 - Uncoupled Heave, Pitch and Roll - IV
Link Seakeeping and Manoeuvring Lecture 9 - Uncoupled Heave, Pitch and Roll - V
Link Seakeeping and Manoeuvring Lecture 10 - Coupled Motions
Link Seakeeping and Manoeuvring Lecture 11 - Irregular Waves
Link Seakeeping and Manoeuvring Lecture 12 - Description of Irregular Waves by Spectrum
Link Seakeeping and Manoeuvring Lecture 13 - Theoretical Wave Spectrum
Link Seakeeping and Manoeuvring Lecture 14 - Ship Motion in Irregular Waves - I
Link Seakeeping and Manoeuvring Lecture 15 - Ship Motion in Irregular Waves - II
Link Seakeeping and Manoeuvring Lecture 16 - Ship Motion in Irregular Waves - III
Link Seakeeping and Manoeuvring Lecture 17 - Description of Short-Crested Sea
Link Seakeeping and Manoeuvring Lecture 18 - Motions in Short-Crested Sea
Link Seakeeping and Manoeuvring Lecture 19 - Derived Responses & Dynamic Effects - I
Link Seakeeping and Manoeuvring Lecture 20 - Derived Responses & Dynamic Effects - II
Link Seakeeping and Manoeuvring Lecture 21 - Derived Responses & Dynamic Effects - III
Link Seakeeping and Manoeuvring Lecture 22 - Seakeeping Considerations in Design
Link Seakeeping and Manoeuvring Lecture 23 - Manoeuvring: Introduction & Basic Equations
Link Seakeeping and Manoeuvring Lecture 24 - Dynamic Equations of Motion - I
Link Seakeeping and Manoeuvring Lecture 25 - Dynamic Equations of Motion - II
Link Seakeeping and Manoeuvring Lecture 26 - Hydrodynamic Derivatives
Link Seakeeping and Manoeuvring Lecture 27 - Controls-Fixed Stability
Link Seakeeping and Manoeuvring Lecture 28 - Stability & Cotrollability: Definitive Manoeuvres
Link Seakeeping and Manoeuvring Lecture 29 - Definitive Manoeuvres - I
Link Seakeeping and Manoeuvring Lecture 30 - Definitive Manoeuvres - II
Link Seakeeping and Manoeuvring Lecture 31 - Definitive Manoeuvres - III
Link Seakeeping and Manoeuvring Lecture 32 - Non-linear Equations of Motion
Link Seakeeping and Manoeuvring Lecture 33 - Non-linear Equations & Model Tests
Link Seakeeping and Manoeuvring Lecture 34 - Captive Model Tests and Experimental Determination of Hydrodynamic Derivatives
Link Seakeeping and Manoeuvring Lecture 35 - PMM Tests - I
Link Seakeeping and Manoeuvring Lecture 36 - PMM Tests - II
Link Seakeeping and Manoeuvring Lecture 37 - Rudder & Control Surfaces - I
Link Seakeeping and Manoeuvring Lecture 38 - Rudder & Control Surfaces - II
Link Seakeeping and Manoeuvring Lecture 39 - Theoretical Determination of Hydrodynamic Derivatives - I
Link Seakeeping and Manoeuvring Lecture 40 - Theoretical Determination of Hydrodynamic Derivatives - II
Link Applied Thermodynamics for Marine Systems Lecture 1 - Introduction & Some Definitions
Link Applied Thermodynamics for Marine Systems Lecture 2 - First Law of Thermodynamics (Closed System)
Link Applied Thermodynamics for Marine Systems Lecture 3 - First Law of Thermodynamics (Open System)
Link Applied Thermodynamics for Marine Systems Lecture 4 - Second Law of Thermodynamics
Link Applied Thermodynamics for Marine Systems Lecture 5 - Second Law and Carnot Principle
Link Applied Thermodynamics for Marine Systems Lecture 6 - Property of Pure Substance, Steam Table
Link Applied Thermodynamics for Marine Systems Lecture 7 - Ideal Gas Laws, Different Processes
Link Applied Thermodynamics for Marine Systems Lecture 8 - Introduction to Vapour Power Cycle
Link Applied Thermodynamics for Marine Systems Lecture 9 - Vapour Power Cycle
Link Applied Thermodynamics for Marine Systems Lecture 10 - Steam Power Cycle, Steam Nozzle
Link Applied Thermodynamics for Marine Systems Lecture 11 - Basic Concept of Turbine, Velocity Diagram
Link Applied Thermodynamics for Marine Systems Lecture 12 - Steam Turbine-Impulse
Link Applied Thermodynamics for Marine Systems Lecture 13 - Reaction Turbine Compounding
Link Applied Thermodynamics for Marine Systems Lecture 14 - Comparison of Different Staging Arrangement
Link Applied Thermodynamics for Marine Systems Lecture 15 - Basics Laws of Fluid Mechanics
Link Applied Thermodynamics for Marine Systems Lecture 16 - Pipe Friction, Major Loss, Minor Loss
Link Applied Thermodynamics for Marine Systems Lecture 17 - Pipeline & Pipe Network
Link Applied Thermodynamics for Marine Systems Lecture 18 - Refrigeration Vapour Compression Cycle
Link Applied Thermodynamics for Marine Systems Lecture 19 - Psychometrics
Link Applied Thermodynamics for Marine Systems Lecture 20 - Psychometrics (Continued...)
Link Applied Thermodynamics for Marine Systems Lecture 21 - Psychometric Processes
Link Applied Thermodynamics for Marine Systems Lecture 22 - Psychometric Processes (Continued...), Air Conditioning
Link Applied Thermodynamics for Marine Systems Lecture 23 - Summer & Winter Air Conditioning
Link Applied Thermodynamics for Marine Systems Lecture 24 - Gas Power Cycles, Cycles for IC Engines
Link Applied Thermodynamics for Marine Systems Lecture 25 - Gas Turbine Cycles
Link Applied Thermodynamics for Marine Systems Lecture 26 - Modification of Brayton Cycle
Link Applied Thermodynamics for Marine Systems Lecture 27 - Introduction to Convective Heat Transfer Forced & Free Convection
Link Performance of Marine Vehicles at Sea Lecture 1 - Components of Resistance - I
Link Performance of Marine Vehicles at Sea Lecture 2 - Components of Resistance - II
Link Performance of Marine Vehicles at Sea Lecture 3 - Dimensional Analysis
Link Performance of Marine Vehicles at Sea Lecture 4 - Frictional Resistance
Link Performance of Marine Vehicles at Sea Lecture 5 - Wave Making Resistance
Link Performance of Marine Vehicles at Sea Lecture 6 - Other Components of Resistance
Link Performance of Marine Vehicles at Sea Lecture 7 - Model Experiments
Link Performance of Marine Vehicles at Sea Lecture 8 - Shallow Water Effects
Link Performance of Marine Vehicles at Sea Lecture 9 - Ship hull form and Resistance
Link Performance of Marine Vehicles at Sea Lecture 10 - Propeller Geometry - Part I
Link Performance of Marine Vehicles at Sea Lecture 11 - Propeller Geometry - Part II
Link Performance of Marine Vehicles at Sea Lecture 12 - Introduction to High Speed Crafts - Part I
Link Performance of Marine Vehicles at Sea Lecture 13 - Introduction to High Speed Crafts - Part II
Link Performance of Marine Vehicles at Sea Lecture 14 - Propeller in Open Water - Part I
Link Performance of Marine Vehicles at Sea Lecture 15 - Propeller in Open Water - Part II
Link Performance of Marine Vehicles at Sea Lecture 16 - Propeller 'behind' a ship
Link Performance of Marine Vehicles at Sea Lecture 17 - Propeller experiments
Link Performance of Marine Vehicles at Sea Lecture 18 - Propeller theories - Part I
Link Performance of Marine Vehicles at Sea Lecture 19 - Propeller Theories
Link Performance of Marine Vehicles at Sea Lecture 20 - Cavitation
Link Performance of Marine Vehicles at Sea Lecture 21 - Regular Sea Waves - I
Link Performance of Marine Vehicles at Sea Lecture 22 - Regular Sea Waves - II
Link Performance of Marine Vehicles at Sea Lecture 23 - Irregular sea Waves - I
Link Performance of Marine Vehicles at Sea Lecture 24 - Irregular Sea Waves - II
Link Performance of Marine Vehicles at Sea Lecture 25 - Ship Motion in Regular Waves - I
Link Performance of Marine Vehicles at Sea Lecture 26 - Ship Motion in Regular Waves - II
Link Performance of Marine Vehicles at Sea Lecture 27 - Ship Motion in Regular Waves - III
Link Performance of Marine Vehicles at Sea Lecture 28 - Ship Motion in irregular Waves - I
Link Performance of Marine Vehicles at Sea Lecture 29 - Ship Motion in irregular Waves - II
Link Performance of Marine Vehicles at Sea Lecture 30 - Ship Motion in irregular Waves - III
Link Performance of Marine Vehicles at Sea Lecture 31 - Motion in Short Crested Sea,Coupled Motions
Link Performance of Marine Vehicles at Sea Lecture 32 - Derived Responses
Link Performance of Marine Vehicles at Sea Lecture 33 - Ship Controllability : Introductory Notes
Link Performance of Marine Vehicles at Sea Lecture 34 - Equation of Motion in Horizontal Plane
Link Performance of Marine Vehicles at Sea Lecture 35 - Hydrodynamic Derivatives and Stability
Link Performance of Marine Vehicles at Sea Lecture 36 - Hydrodynamic Derivatives and Stability
Link Performance of Marine Vehicles at Sea Lecture 37 - Ship Trials and Maneuvers - I
Link Performance of Marine Vehicles at Sea Lecture 38 - Ship Trials and Maneuvers - II
Link Performance of Marine Vehicles at Sea Lecture 39 - Heel During Turn, IMO Requirements
Link Performance of Marine Vehicles at Sea Lecture 40 - Rudder Hydrodynamics
Link Strength and Vibration of Marine Structures Lecture 1 - Introduction to Ship Structures - I
Link Strength and Vibration of Marine Structures Lecture 2 - Introduction to Ship Structures - II
Link Strength and Vibration of Marine Structures Lecture 3 - Deflection of Structure Beam - I
Link Strength and Vibration of Marine Structures Lecture 4 - Deflection of Structure Beam - II
Link Strength and Vibration of Marine Structures Lecture 5 - Deflection of Structure Beam - III
Link Strength and Vibration of Marine Structures Lecture 6 - Deflection of Structure Beam - IV
Link Strength and Vibration of Marine Structures Lecture 7 - Statically Indeterminate Structures - I
Link Strength and Vibration of Marine Structures Lecture 8 - Statically Indeterminate Structures - II
Link Strength and Vibration of Marine Structures Lecture 9 - Statically Indeterminate Structures - III
Link Strength and Vibration of Marine Structures Lecture 10 - Statically Indeterminate Structures - IV
Link Strength and Vibration of Marine Structures Lecture 11 - Statically Indeterminate Structures - V
Link Strength and Vibration of Marine Structures Lecture 12 - Statically Indeterminate Structures - VI
Link Strength and Vibration of Marine Structures Lecture 13 - Longitudinal Bending of Hull Girder - I
Link Strength and Vibration of Marine Structures Lecture 14 - Longitudinal Bending of Hull Girder - II
Link Strength and Vibration of Marine Structures Lecture 15 - Longitudinal Bending of Hull Grider - III
Link Strength and Vibration of Marine Structures Lecture 16 - Theory of Column - I
Link Strength and Vibration of Marine Structures Lecture 17 - Theory of Column - II
Link Strength and Vibration of Marine Structures Lecture 18 - Theory of Column - III
Link Strength and Vibration of Marine Structures Lecture 19 - Theory of Column - IV
Link Strength and Vibration of Marine Structures Lecture 20 - Calculation of Momentum of Inertia of Main Section
Link Strength and Vibration of Marine Structures Lecture 21 - Bending in Inclined Condition
Link Strength and Vibration of Marine Structures Lecture 22 - Calculation of Deflection/Shear Stress
Link Strength and Vibration of Marine Structures Lecture 23 - Ship Vibration - I
Link Strength and Vibration of Marine Structures Lecture 24 - Ship Vibration - II
Link Strength and Vibration of Marine Structures Lecture 25 - Ship Vibration - III
Link Strength and Vibration of Marine Structures Lecture 26 - Ship Vibration - IV
Link Strength and Vibration of Marine Structures Lecture 27 - Ship Vibration - V
Link Strength and Vibration of Marine Structures Lecture 28 - Propeller Induced Vibration & Hull Frequency Estimation
Link Strength and Vibration of Marine Structures Lecture 29 - Hull Frequency Estimation from Basic Group (Continued...)
Link Strength and Vibration of Marine Structures Lecture 30 - Analysis of Bulkhead - I
Link Strength and Vibration of Marine Structures Lecture 31 - Analysis of Bulkhead - II
Link Strength and Vibration of Marine Structures Lecture 32 - Stress Concentration/Structural Discontinuities
Link Strength and Vibration of Marine Structures Lecture 33 - Composite Construction
Link Strength and Vibration of Marine Structures Lecture 34 - Method of Plastic Analysis
Link Strength and Vibration of Marine Structures Lecture 35 - Calculation of Natural Frequency of Hull Girder
Link Strength and Vibration of Marine Structures Lecture 36 - Hull Resonance Diagram
Link NOC:Water Economics and Governance Lecture 1 - Introduction
Link NOC:Water Economics and Governance Lecture 2 - Global Water Availability and Uses
Link NOC:Water Economics and Governance Lecture 3 - Water Availability and Uses in India
Link NOC:Water Economics and Governance Lecture 4 - Surface Water and Ground Water Resources
Link NOC:Water Economics and Governance Lecture 5 - Water Use Practices and Major Challenges
Link NOC:Water Economics and Governance Lecture 6 - Background to Water Rights
Link NOC:Water Economics and Governance Lecture 7 - Water Rights
Link NOC:Water Economics and Governance Lecture 8 - Right to Sanitation
Link NOC:Water Economics and Governance Lecture 9 - Rights to Water and Sanitation - Underline Principals and Implementation
Link NOC:Water Economics and Governance Lecture 10 - Water Rights : Challenges
Link NOC:Water Economics and Governance Lecture 11 - Water Sustainability : Basic Concept
Link NOC:Water Economics and Governance Lecture 12 - The Dublin Statement on Water Sustainability
Link NOC:Water Economics and Governance Lecture 13 - Action Agenda in the Dublin Statement on Water Sustainability
Link NOC:Water Economics and Governance Lecture 14 - Water Sustainability : Viewpoints
Link NOC:Water Economics and Governance Lecture 15 - Water Sustainability : Conflicts
Link NOC:Water Economics and Governance Lecture 16 - Valuing Water : Economic Value of Water
Link NOC:Water Economics and Governance Lecture 17 - Valuing Water : Use and Non-Use Values
Link NOC:Water Economics and Governance Lecture 18 - Valuing Water : Valuation of Water
Link NOC:Water Economics and Governance Lecture 19 - Valuing Water : Water Valuation Methods
Link NOC:Water Economics and Governance Lecture 20 - Valuing Water : Full Value and Losses
Link NOC:Water Economics and Governance Lecture 21 - Pricing Water : Sustainable Water Pricing
Link NOC:Water Economics and Governance Lecture 22 - Pricing Water : Setting Water Tariffs
Link NOC:Water Economics and Governance Lecture 23 - Pricing Water : Water Tariff Models
Link NOC:Water Economics and Governance Lecture 24 - Pricing Water : Water Tariff Models
Link NOC:Water Economics and Governance Lecture 25 - Pricing Water : Water Tariff Models
Link NOC:Water Economics and Governance Lecture 26 - Water Pricing : Need of Reforms
Link NOC:Water Economics and Governance Lecture 27 - Conflicts in Water Pricing
Link NOC:Water Economics and Governance Lecture 28 - Conflicts in Water Pricing
Link NOC:Water Economics and Governance Lecture 29 - Conflicts in Water Pricing
Link NOC:Water Economics and Governance Lecture 30 - Water Pricing Case Studies
Link NOC:Water Economics and Governance Lecture 31 - Economics of Water Projects
Link NOC:Water Economics and Governance Lecture 32 - Economics of Water Projects : Economic Analysis
Link NOC:Water Economics and Governance Lecture 33 - Economics of Water Projects : Financial Analysis
Link NOC:Water Economics and Governance Lecture 34 - Economics of Water Projects : Benefit-Cost Analysis
Link NOC:Water Economics and Governance Lecture 35 - Economics of Demand and Sectoral Allocation
Link NOC:Water Economics and Governance Lecture 36 - Economics Evaluation of Water Projects
Link NOC:Water Economics and Governance Lecture 37 - Evaluation of Water Projects : Capital Budgeting Methods
Link NOC:Water Economics and Governance Lecture 38 - Evaluation of Water Projects : Capital Budgeting Methods
Link NOC:Water Economics and Governance Lecture 39 - Evaluation of Water Projects : Capital Budgeting Methods
Link NOC:Water Economics and Governance Lecture 40 - Evaluation of Water Projects : Capital Budgeting Methods
Link NOC:Water Economics and Governance Lecture 41 - Evaluation of Water Projects : Selection of Capital Budgeting Methods (Continued...)
Link NOC:Water Economics and Governance Lecture 42 - Evaluation of Water Projects : Selection of Capital Budgeting Methods (Continued...)
Link NOC:Water Economics and Governance Lecture 43 - Water Governance
Link NOC:Water Economics and Governance Lecture 44 - Elements, Dimensions and Principles of Water Governance
Link NOC:Water Economics and Governance Lecture 45 - Principles of Water Governance
Link NOC:Water Economics and Governance Lecture 46 - Principles of Water Governance and Effective Water Governance Schemes
Link NOC:Water Economics and Governance Lecture 47 - Effective Water Governance Schemes and its Benchmarking
Link NOC:Water Economics and Governance Lecture 48 - Decision Making and Implementation in Water Governance and its Benchmarking
Link NOC:Water Economics and Governance Lecture 49 - Water Governance in India : Historical Perspective
Link NOC:Water Economics and Governance Lecture 50 - Water Governance in India : Pre- and Post- Independent
Link NOC:Water Economics and Governance Lecture 51 - Water Governance in India : Water Programmes and Policies
Link NOC:Water Economics and Governance Lecture 52 - Water Governance in India : Water Programmes and Policies (Continued...)
Link NOC:Water Economics and Governance Lecture 53 - Water Governance in India : Environmental Protection and Water Reforms
Link NOC:Water Economics and Governance Lecture 54 - Water Dispute Management : Water Conflicts
Link NOC:Water Economics and Governance Lecture 55 - Water Dispute Management : Interstate and Interstate Water Disputes
Link NOC:Water Economics and Governance Lecture 56 - Water Dispute Management : Interstate Water Dispute Resolution
Link NOC:Water Economics and Governance Lecture 57 - Water Dispute Management : Case Studies
Link NOC:Water Economics and Governance Lecture 58 - Global Water Diplomacy : Trans-boundary Water
Link NOC:Water Economics and Governance Lecture 59 - Global Water Diplomacy : Conflict Vs Cooperation
Link NOC:Water Economics and Governance Lecture 60 - Global Water Diplomacy : Cooperation for Water
Link NOC:Water Economics and Governance Lecture 61 - Course Summary
Link NOC:Water Economics and Governance Lecture 62 - Course Summary (Continued...)
Link NOC:Water Economics and Governance Lecture 63 - Live Session-1
Link NOC:Water Economics and Governance Lecture 64 - Live Session-2
Link NOC:Water Economics and Governance Lecture 65 - Live Session-2 (April 20, 2018)
Link Design of Offshore Structures Lecture 1 - Loads On Offshore Structures - 1
Link Design of Offshore Structures Lecture 2 - Loads On Offshore Structures - 2
Link Design of Offshore Structures Lecture 3 - Loads On Offshore Structures - 3
Link Design of Offshore Structures Lecture 4 - Loads On Offshore Structures - 4
Link Design of Offshore Structures Lecture 5 - Loads On Offshore Structures - 5
Link Design of Offshore Structures Lecture 6 - Loads On Offshore Structures - 6
Link Design of Offshore Structures Lecture 7 - Loads On Offshore Structures - 7
Link Design of Offshore Structures Lecture 8 - Concepts of Fixed Offshore Platform Deck and Jacket - 1
Link Design of Offshore Structures Lecture 9 - Concepts of Fixed Offshore Platform Deck and Jacket - 2
Link Design of Offshore Structures Lecture 10 - Concepts of Fixed Offshore Platform Deck and Jacket - 3
Link Design of Offshore Structures Lecture 11 - Concepts of Fixed Offshore Platform Deck and Jacket - 4
Link Design of Offshore Structures Lecture 12 - Concepts of Fixed Offshore Platform Deck and Jacket - 5
Link Design of Offshore Structures Lecture 13 - Steel Tubular Member Design - 1
Link Design of Offshore Structures Lecture 14 - Steel Tubular Member Design - 2
Link Design of Offshore Structures Lecture 15 - Steel Tubular Member Design - 3
Link Design of Offshore Structures Lecture 16 - Steel Tubular Member Design - 4
Link Design of Offshore Structures Lecture 17 - Steel Tubular Member Design - 5
Link Design of Offshore Structures Lecture 18 - Tubular Joint Design for Static and Cyclic Loads - 1
Link Design of Offshore Structures Lecture 19 - Tubular Joint Design for Static and Cyclic Loads - 2
Link Design of Offshore Structures Lecture 20 - Tubular Joint Design for Static and Cyclic Loads - 3
Link Design of Offshore Structures Lecture 21 - Tubular Joint Design for Static and Cyclic Loads - 4
Link Design of Offshore Structures Lecture 22 - Tubular Joint Design for Static and Cyclic Loads - 5
Link Design of Offshore Structures Lecture 23 - Tubular Joint Design for Static and Cyclic Loads - 6
Link Design of Offshore Structures Lecture 24 - Tubular Joint Design for Static and Cyclic Loads - 7
Link Design of Offshore Structures Lecture 25 - Tubular Joint Design for Static and Cyclic Loads - 8
Link Design of Offshore Structures Lecture 26 - Tubular Joint Design for Static and Cyclic Loads - 9
Link Design of Offshore Structures Lecture 27 - Tubular Joint Design for Static and Cyclic Loads - 10
Link Design of Offshore Structures Lecture 28 - Tubular Joint Design for Static and Cyclic Loads - 11
Link Design of Offshore Structures Lecture 29 - Tubular Joint Design for Static and Cyclic Loads - 12
Link Design of Offshore Structures Lecture 30 - Jackup RIGS-Analysis and Design - 1
Link Design of Offshore Structures Lecture 31 - Jackup RIGS-Analysis and Design - 2
Link Design of Offshore Structures Lecture 32 - Jackup RIGS-Analysis and Design - 3
Link Design of Offshore Structures Lecture 33 - Jackup RIGS-Analysis and Design - 4
Link Design of Offshore Structures Lecture 34 - Jackup RIGS-Analysis and Design - 5
Link Design of Offshore Structures Lecture 35 - Design Against Accidental Loads - 1
Link Design of Offshore Structures Lecture 36 - Design Against Accidental Loads - 2
Link Design of Offshore Structures Lecture 37 - Design Against Accidental Loads - 3
Link Design of Offshore Structures Lecture 38 - Design Against Accidental Loads - 4
Link Design of Offshore Structures Lecture 39 - Design Against Accidental Loads - 5
Link Design of Offshore Structures Lecture 40 - Design Against Accidental Loads - 6
Link Design of Offshore Structures Lecture 41 - Design Against Accidental Loads - 7
Link Design of Offshore Structures Lecture 42 - Design Against Accidental Loads - 8
Link Foundation for Offshore Structures Lecture 1 - Basics of Soil Mechanics - I
Link Foundation for Offshore Structures Lecture 2 - Basics of Soil Mechanics - II
Link Foundation for Offshore Structures Lecture 3 - Basics of Soil Mechanics - III
Link Foundation for Offshore Structures Lecture 4 - Basics of Soil Mechanics - IV
Link Foundation for Offshore Structures Lecture 5 - Basics of Soil Mechanics - V
Link Foundation for Offshore Structures Lecture 6 - Basics of Soil Mechanics - VI
Link Foundation for Offshore Structures Lecture 7 - Basics of Soil Mechanics - VII
Link Foundation for Offshore Structures Lecture 8 - Bearing Capacity of Foundations - I
Link Foundation for Offshore Structures Lecture 9 - Bearing Capacity of Foundations - II
Link Foundation for Offshore Structures Lecture 10 - Pile Foundation - I
Link Foundation for Offshore Structures Lecture 11 - Pile Foundation - II
Link Foundation for Offshore Structures Lecture 12 - Pile Foundation - III
Link Foundation for Offshore Structures Lecture 13 - Pile Foundation - IV
Link Foundation for Offshore Structures Lecture 14 - Pile Foundation - V
Link Foundation for Offshore Structures Lecture 15 - Pile Foundation - VI
Link Foundation for Offshore Structures Lecture 16 - Pile Installation - I
Link Foundation for Offshore Structures Lecture 17 - Pile Installation - II
Link Foundation for Offshore Structures Lecture 18 - Pile Driveability Analysis - I
Link Foundation for Offshore Structures Lecture 19 - Pile Driveability Analysis - II
Link Foundation for Offshore Structures Lecture 20 - Pile Driveability Analysis - III
Link Foundation for Offshore Structures Lecture 21 - Pile Driveability Analysis - IV
Link Foundation for Offshore Structures Lecture 22 - Pile Driveability Analysis - V
Link Foundation for Offshore Structures Lecture 23 - Onbottom Stability of Jackets - I
Link Foundation for Offshore Structures Lecture 24 - Onbottom Stability of Jackets - II
Link Foundation for Offshore Structures Lecture 25 - Pile Load Test - I
Link Foundation for Offshore Structures Lecture 26 - Pile Load Test - II
Link Foundation for Offshore Structures Lecture 27 - Pile Load Test - III
Link Foundation for Offshore Structures Lecture 28 - Special Topics
Link Foundation for Offshore Structures Lecture 29 - Special Foundations - I
Link Foundation for Offshore Structures Lecture 30 - Special Foundations - II
Link Foundation for Offshore Structures Lecture 31 - Special Foundations - III
Link Foundation for Offshore Structures Lecture 32 - Pile Group Effects
Link Foundation for Offshore Structures Lecture 33 - Two Pile Group Effect For Axial Load
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 1 - Introduction and Terminologies
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 2 - Introduction to HSE
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 3 - Safety assurance and assessment
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 4 - Safety assurance and assessment (Continued...)
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 5 - Safety in design and operations
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 6 - Organizing for safety
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 7 - Hazard classification and assessment, Hazard evaluation and hazard control
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 8 - HaZOP
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 9 - HaZOP (Continued...)
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 10 - Hazard evaluation and hazard control
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 11 - Hazard Identification and Management in Oil & Gas Industry using HAZOP
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 12 - FMEA
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 13 - FMEA (Continued...)
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 14 - Environmental Issues and Management
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 15 - Impact of Oil and Gas Industry on Marine Environment
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 16 - Oil Hydrocarbon in Marine Environment
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 17 - Chemicals and Wastes from Offshore and Oil Industry
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 18 - Dispersion Models – Atmospheric Pollution
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 19 - Atmospheric Pollution (Continued...)
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 20 - Hazard Assessment and Accident Scenario
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 21 - Dose Assessment, Safety Regulation
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 22 - Toxic Release and Dispersion Modeling
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 23 - Chemical Exposure Index (CEI)
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 24 - Chemical Exposure Index (Continued.)
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 25 - Quantitative Risk Assessment
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 26 - Quantitative Risk Assessment (Liquid Release Models Case Study - Continued...)
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 27 - Fire and Explosion Modeling
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 28 - Fire and Explosion Modeling Flammability Diagrams
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 29 - Explosion Modeling
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 30 - Fire and Explosion Preventive Measures
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 31 - Probabilistic Risk Analysis
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 32 - Safety Measures in Design and Process Operations
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 33 - Case Studies
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 34 - Case Studies (Continued...)
Link Health,Safety and Environmental Management in Petroleum and Offshore Engineering Lecture 35 - Software Used in HSE – an Over View
Link Port and Harbour Structures Lecture 1 - Layout of ports
Link Port and Harbour Structures Lecture 2 - Continuation of layout of ports
Link Port and Harbour Structures Lecture 3 - Visakhapatnam port
Link Port and Harbour Structures Lecture 4 - Ships and size of ships
Link Port and Harbour Structures Lecture 5 - Port planning
Link Port and Harbour Structures Lecture 6 - Harbour layout
Link Port and Harbour Structures Lecture 7 - Site characteristics & navigation channel
Link Port and Harbour Structures Lecture 8 - Bathymetric survey
Link Port and Harbour Structures Lecture 9 - Tide, surge, tsunami and wave
Link Port and Harbour Structures Lecture 10 - Wave rose diagram
Link Port and Harbour Structures Lecture 11 - Breakwater
Link Port and Harbour Structures Lecture 12 - Design of breakwater - Part-1
Link Port and Harbour Structures Lecture 13 - Design of breakwater - Part-2
Link Port and Harbour Structures Lecture 14 - Berm breakwater
Link Port and Harbour Structures Lecture 15 - Dredging & methods of disposal
Link Port and Harbour Structures Lecture 16 - Berthing structures modelling
Link Port and Harbour Structures Lecture 17 - Berthing structures - analyses
Link Port and Harbour Structures Lecture 18 - Loads
Link Port and Harbour Structures Lecture 19 - Types of berthing structures
Link Port and Harbour Structures Lecture 20 - Design of berthing, structures-1
Link Port and Harbour Structures Lecture 21 - Design of offshore berthing, structures-1
Link Port and Harbour Structures Lecture 22 - Estimation of mooring, berthing and seismic forces
Link Port and Harbour Structures Lecture 23 - Estimation seismic forces
Link Port and Harbour Structures Lecture 24 - Active and passive earth pressure and differential water pressure
Link Port and Harbour Structures Lecture 25 - Load combinations and design
Link Port and Harbour Structures Lecture 26 - Fenders
Link Port and Harbour Structures Lecture 27 - Mechanical handling system
Link Port and Harbour Structures Lecture 28 - Single buoy mooring and open sea jetty - Part 1
Link Port and Harbour Structures Lecture 29 - Single buoy mooring and open sea jetty - Part 2
Link Port and Harbour Structures Lecture 30 - Slipway, drydock,floating dock, shiplift
Link Port and Harbour Structures Lecture 31 - Soil structure interaction
Link Port and Harbour Structures Lecture 32 - Calulation of fixity depth
Link Port and Harbour Structures Lecture 33 - Pile load test
Link Port and Harbour Structures Lecture 34 - Ground improvement techniques
Link Port and Harbour Structures Lecture 35 - Analysis of pile with spring support
Link Port and Harbour Structures Lecture 36 - UPV,Half cell potential, Low high Integrity Test
Link Port and Harbour Structures Lecture 37 - Mooring Dolphin at KPT
Link Port and Harbour Structures Lecture 38 - Coastal structures and environmental management
Link Port and Harbour Structures Lecture 39 - BOQ and Cost Estimate
Link Port and Harbour Structures Lecture 40 - Proposed Mega Terminal Chennai
Link Port and Harbour Structures Lecture 41 - Preliminary Project Report on Shipyard
Link Port and Harbour Structures Lecture 42 - Procedures & clearances before implementation of a project
Link Port and Harbour Structures Lecture 43 - Detailed project report
Link Port and Harbour Structures Lecture 44 - Environmental studies of a project
Link Port and Harbour Structures Lecture 45 - Design of pile
Link Port and Harbour Structures Lecture 46 - Design and construction of diaphragm wall
Link Port and Harbour Structures Lecture 47 - Emprical relationship between spt and several soil properties
Link Port and Harbour Structures Lecture 48 - Model studies for a deep water port_case study
Link Ship Resistance and Propulsion Lecture 1 - Syllabus and Introduction
Link Ship Resistance and Propulsion Lecture 2 - Seaway Effects on Resistance
Link Ship Resistance and Propulsion Lecture 3 - Ship Types and Powering Aspects
Link Ship Resistance and Propulsion Lecture 4 - Frictional Resistance and Turbulence Stimulation
Link Ship Resistance and Propulsion Lecture 5 - Wave Making Resistance
Link Ship Resistance and Propulsion Lecture 6 - Bulbous Bow on Ship Resistance
Link Ship Resistance and Propulsion Lecture 7 - Air and Wind Resistance Dimensional Analysis - I
Link Ship Resistance and Propulsion Lecture 8 - Dimensional Analysis - II, Model Tests and Ship Resistance Prediction Methods - I
Link Ship Resistance and Propulsion Lecture 9 - Model Tests and Ship Resistance Prediction Methods - II
Link Ship Resistance and Propulsion Lecture 10 - Model Tests and Ship Resistance Prediction Methods - III
Link Ship Resistance and Propulsion Lecture 11 - Resistance in Shallow Water
Link Ship Resistance and Propulsion Lecture 12 - Canal Effects on Resistance Holtrap-Mennen Method for Ship Resistance Prediction
Link Ship Resistance and Propulsion Lecture 13 - Ship Resistance Prediction Methods - I
Link Ship Resistance and Propulsion Lecture 14 - Ship Resistance Prediction Methods - II
Link Ship Resistance and Propulsion Lecture 15 - Resistance of Advanced Marine Vehicles - I
Link Ship Resistance and Propulsion Lecture 16 - Resistance of Advanced Marine Vehicles - II
Link Ship Resistance and Propulsion Lecture 17 - Resistance of Advanced Marine Vehicles - III
Link Coastal Engineering Lecture 1 - Wave deformation - I
Link Coastal Engineering Lecture 2 - Wave deformation - II
Link Coastal Engineering Lecture 3 - wave deformation (problems - I)
Link Coastal Engineering Lecture 4 - wave deformation (problems - II)
Link Coastal Engineering Lecture 5 - wave deformation (problems - III)
Link Coastal Engineering Lecture 6 - Sediment charecteristics - I
Link Coastal Engineering Lecture 7 - Sediment charecteristics - II
Link Coastal Engineering Lecture 8 - Radiation stresses - I
Link Coastal Engineering Lecture 9 - Radiation stresses - II
Link Coastal Engineering Lecture 10 - Longshore sediment transport - I
Link Coastal Engineering Lecture 11 - Longshore sediment transport - II
Link Coastal Engineering Lecture 12 - Longshore sediment transport (problems - I)
Link Coastal Engineering Lecture 13 - Longshore sediment transport (problems - II)
Link Coastal Engineering Lecture 14 - Coastal erosion protection measures - I
Link Coastal Engineering Lecture 15 - Coastal erosion protection measures - II
Link Coastal Engineering Lecture 16 - Coastal erosion protection measures - III
Link Coastal Engineering Lecture 17 - Coastal erosion protection measures - IV
Link Coastal Engineering Lecture 18 - Coastal erosion protection measures - V
Link Coastal Engineering Lecture 19 - Coastal erosion protection measures - VI
Link Coastal Engineering Lecture 20 - Coastal erosion protection measures - VII
Link Coastal Engineering Lecture 21 - Coastal erosion protection measures - VIII
Link Coastal Engineering Lecture 22 - Coastal erosion protection measures - IX
Link Coastal Engineering Lecture 23 - Coastal erosion protection measures - X
Link Coastal Engineering Lecture 24 - Cheaper CEP methods - XI
Link Coastal Engineering Lecture 25 - Geosynthetics - I
Link Coastal Engineering Lecture 26 - Geosynthetics - II
Link Coastal Engineering Lecture 27 - Breakwaters - I
Link Coastal Engineering Lecture 28 - Breakwaters - II
Link Coastal Engineering Lecture 29 - Breakwaters - III
Link Coastal Engineering Lecture 30 - Breakwaters - IV
Link Coastal Engineering Lecture 31 - Forces on coastal structures - I
Link Coastal Engineering Lecture 32 - Forces on coastal structures - II
Link Coastal Engineering Lecture 33 - Scour under marine structures
Link Coastal Engineering Lecture 34 - Physical modelling of coastal structures - I
Link Coastal Engineering Lecture 35 - Physical modelling of coastal structures - II
Link Coastal Engineering Lecture 36 - Tsunami - I
Link Coastal Engineering Lecture 37 - Tsunami - II
Link Wave Hydrodynamics Lecture 1 - Basic Fluid Dynamics - I
Link Wave Hydrodynamics Lecture 2 - Basic Fluid Dynamics - II
Link Wave Hydrodynamics Lecture 3 - Introduction
Link Wave Hydrodynamics Lecture 4 - Wave Motion - I
Link Wave Hydrodynamics Lecture 5 - Wave Motion - II
Link Wave Hydrodynamics Lecture 6 - Wave Motion - III
Link Wave Hydrodynamics Lecture 7 - Wave Motion Problems
Link Wave Hydrodynamics Lecture 8 - Standing Wave Theory
Link Wave Hydrodynamics Lecture 9 - Wave Deformation - I
Link Wave Hydrodynamics Lecture 10 - Wave Deformation - II
Link Wave Hydrodynamics Lecture 11 - Wave Deformation and Problems
Link Wave Hydrodynamics Lecture 12 - Random Waves
Link Wave Hydrodynamics Lecture 13 - Random Waves and Problems - I
Link Wave Hydrodynamics Lecture 14 - Random Waves and Problems - II
Link Wave Hydrodynamics Lecture 15 - Random Waves and Problems - III
Link Wave Hydrodynamics Lecture 16 - Simulation of Random Waves
Link Wave Hydrodynamics Lecture 17 - Directional waves
Link Wave Hydrodynamics Lecture 18 - Wave Loads on Structures - I
Link Wave Hydrodynamics Lecture 19 - Wave Loads on Structures - II
Link Wave Hydrodynamics Lecture 20 - Wave Loads on Structures and Problems - I
Link Wave Hydrodynamics Lecture 21 - Wave Loads on Structures and Problems - II
Link Wave Hydrodynamics Lecture 22 - Wave loads on Large Boides
Link Wave Hydrodynamics Lecture 23 - Finite Amplitude Wave Theories
Link Wave Hydrodynamics Lecture 24 - Hydrodynamic Testing Facility
Link Wave Hydrodynamics Lecture 25 - Hydrodynamic Testing Facility at IITM
Link Ocean Structures and Materials Lecture 1 - Introduction and objectives
Link Ocean Structures and Materials Lecture 2 - Fixed type offshore structures
Link Ocean Structures and Materials Lecture 3 - Compliant type offshore structures - I
Link Ocean Structures and Materials Lecture 4 - Compliant type offshore structures - II
Link Ocean Structures and Materials Lecture 5 - Drill ships and basics of drilling
Link Ocean Structures and Materials Lecture 6 - Subsea production systems
Link Ocean Structures and Materials Lecture 7 - Environmental loads - I
Link Ocean Structures and Materials Lecture 8 - Environmental loads - II
Link Ocean Structures and Materials Lecture 9 - Types of coastal structures - I
Link Ocean Structures and Materials Lecture 10 - Types of coastal structures - II
Link Ocean Structures and Materials Lecture 11 - Summary of coastal structures
Link Ocean Structures and Materials Lecture 12 - Tutorials on Module - I
Link Ocean Structures and Materials Lecture 13 - Outline of planning of ocean structures
Link Ocean Structures and Materials Lecture 14 - Introduction to design
Link Ocean Structures and Materials Lecture 15 - Construction techniques
Link Ocean Structures and Materials Lecture 16 - Dredging - I
Link Ocean Structures and Materials Lecture 17 - Dredging - II
Link Ocean Structures and Materials Lecture 18 - Uncertainties in analysis and design
Link Ocean Structures and Materials Lecture 19 - Design adequacy - Example I
Link Ocean Structures and Materials Lecture 20 - Design adequacy - Example II
Link Ocean Structures and Materials Lecture 21 - Dredging equipments' specifications
Link Ocean Structures and Materials Lecture 22 - Ocean Pollution
Link Ocean Structures and Materials Lecture 23 - Foundation and sea bed anchors
Link Ocean Structures and Materials Lecture 24 - Introduction to materials - I
Link Ocean Structures and Materials Lecture 25 - Introduction to materials - II
Link Ocean Structures and Materials Lecture 26 - Concrete in marine environment
Link Ocean Structures and Materials Lecture 27 - Concrete: problems and solutions
Link Ocean Structures and Materials Lecture 28 - Repair materials for marine structures
Link Ocean Structures and Materials Lecture 29 - Corrosion in concrete - I
Link Ocean Structures and Materials Lecture 30 - Corrosion in concrete - II
Link Ocean Structures and Materials Lecture 31 - Material sin repair and rehabilitation
Link Ocean Structures and Materials Lecture 32 - Materials for special repair
Link Ocean Structures and Materials Lecture 33 - New materials for coastal embankments - I
Link Ocean Structures and Materials Lecture 34 - New materials for coastal embankments - II
Link Ocean Structures and Materials Lecture 35 - Non-destructive testing
Link Ocean Structures and Materials Lecture 36 - Structural health monitoring
Link Ocean Structures and Materials Lecture 37 - Wireless sensor networking
Link Ocean Structures and Materials Lecture 38 - Repair and rehabilitation-Fenders
Link Dynamics of Ocean Structures Lecture 1 - Introduction to different types of ocean structures - I
Link Dynamics of Ocean Structures Lecture 2 - Introduction to different types of ocean structures - II
Link Dynamics of Ocean Structures Lecture 3 - Introduction to different types of ocean structures - III
Link Dynamics of Ocean Structures Lecture 4 - Types of Compliant towers
Link Dynamics of Ocean Structures Lecture 5 - New Generation offshore and Coastal structures
Link Dynamics of Ocean Structures Lecture 6 - Environmental forces
Link Dynamics of Ocean Structures Lecture 7 - Wave forces, Current
Link Dynamics of Ocean Structures Lecture 8 - Introduction to Structural dynamics
Link Dynamics of Ocean Structures Lecture 9 - Characteristics of single degree - of - freedom model
Link Dynamics of Ocean Structures Lecture 10 - Methods of writing equation of motion
Link Dynamics of Ocean Structures Lecture 11 - Free and forced vibration of single degree - of - freedom systems
Link Dynamics of Ocean Structures Lecture 12 - Undamped and damped systems - I
Link Dynamics of Ocean Structures Lecture 13 - Undamped and damped systems - II
Link Dynamics of Ocean Structures Lecture 14 - Undamped and damped systems - III
Link Dynamics of Ocean Structures Lecture 15 - Comparison of methods
Link Dynamics of Ocean Structures Lecture 16 - Examples
Link Dynamics of Ocean Structures Lecture 17 - Numerical problems in single degree - of - freedom systems
Link Dynamics of Ocean Structures Lecture 18 - Two degrees - of - freedom systems
Link Dynamics of Ocean Structures Lecture 19 - Eigenvalues and Eigenvectors
Link Dynamics of Ocean Structures Lecture 20 - Orthogonality of modes
Link Dynamics of Ocean Structures Lecture 21 - Study of Multi degrees - of - freedom systems
Link Dynamics of Ocean Structures Lecture 22 - Equations of motion
Link Dynamics of Ocean Structures Lecture 23 - Natural frequencies and mode shapes
Link Dynamics of Ocean Structures Lecture 24 - Stodla, Rayleigh - Ritz and influence coefficient methods, Dunkerley
Link Dynamics of Ocean Structures Lecture 25 - Continuous system
Link Dynamics of Ocean Structures Lecture 26 - Structural action of offshore structures
Link Dynamics of Ocean Structures Lecture 27 - Fluid - Structure interaction - I
Link Dynamics of Ocean Structures Lecture 28 - Fluid - Structure interaction - II Dynamic analysis of offshore jacket platforms
Link Dynamics of Ocean Structures Lecture 29 - Steps of analysis using software
Link Dynamics of Ocean Structures Lecture 30 - Steps of analysis using software (Continued...)
Link Dynamics of Ocean Structures Lecture 31 - Dynamic analysis of articulated towers
Link Dynamics of Ocean Structures Lecture 32 - Iterative frequency domain - I
Link Dynamics of Ocean Structures Lecture 33 - Iterative frequency domain - II
Link Dynamics of Ocean Structures Lecture 34 - Multi - legged articulated towers
Link Dynamics of Ocean Structures Lecture 35 - Response control of multi-legged articulated towers using tuned mass dampers Experimental and analytical studies on MLAT
Link Dynamics of Ocean Structures Lecture 36 - Development of Tension Leg Platforms and geometric optimization
Link Dynamics of Ocean Structures Lecture 37 - Dynamic analyses of TLPs
Link Dynamics of Ocean Structures Lecture 38 - Development of Mass, stiffness and damping matrices of TLP from first principles
Link Dynamics of Ocean Structures Lecture 39 - Estimate of classical damping
Link Dynamics of Ocean Structures Lecture 40 - TLPs under seismic excitation
Link Dynamics of Ocean Structures Lecture 41 - Direct Integration method
Link Dynamics of Ocean Structures Lecture 42 - Development of new generation offshore structures
Link Dynamics of Ocean Structures Lecture 43 - Introduction to stochastic dynamics of ocean structures
Link Dynamics of Ocean Structures Lecture 44 - Response spectrum
Link Dynamics of Ocean Structures Lecture 45 - Narrow band process
Link Dynamics of Ocean Structures Lecture 46 - Return period, Fatigue prediction
Link Dynamics of Ocean Structures Lecture 47 - Modal response method, Modal mass contribution
Link Dynamics of Ocean Structures Lecture 48 - Missing mass correction, Example problems
Link Dynamics of Ocean Structures Lecture 49 - Duhamel's integral
Link Advanced Marine Structures Lecture 1 - Introduction and Scope
Link Advanced Marine Structures Lecture 2 - Fixed type structures
Link Advanced Marine Structures Lecture 3 - Compliant type structures
Link Advanced Marine Structures Lecture 4 - New generation marine structures
Link Advanced Marine Structures Lecture 5 - Environmental loads - I
Link Advanced Marine Structures Lecture 6 - Environmental loads - II
Link Advanced Marine Structures Lecture 7 - Environmental loads - III
Link Advanced Marine Structures Lecture 8 - Environmental loads - IV
Link Advanced Marine Structures Lecture 9 - Other loads - I
Link Advanced Marine Structures Lecture 10 - Other loads - II
Link Advanced Marine Structures Lecture 11 - Ultimate load design principles - I
Link Advanced Marine Structures Lecture 12 - Ultimate Limit State - I
Link Advanced Marine Structures Lecture 13 - Ultimate Limit State - II
Link Advanced Marine Structures Lecture 14 - Ultimate Limit State - III
Link Advanced Marine Structures Lecture 15 - Partial safety factor
Link Advanced Marine Structures Lecture 16 - Plastic design - I
Link Advanced Marine Structures Lecture 17 - Plastic design - II
Link Advanced Marine Structures Lecture 18 - Plastic design - III
Link Advanced Marine Structures Lecture 19 - Plastic design - IV - Example problems - I
Link Advanced Marine Structures Lecture 20 - Plastic analysis - Example problems - II
Link Advanced Marine Structures Lecture 21 - Plastic analysis - Example problems - III
Link Advanced Marine Structures Lecture 22 - Theories of failure - I
Link Advanced Marine Structures Lecture 23 - Theories of failure - II
Link Advanced Marine Structures Lecture 24 - Theories of failure - III
Link Advanced Marine Structures Lecture 25 - Theories of failure - IV
Link Advanced Marine Structures Lecture 26 - Shear centre - I
Link Advanced Marine Structures Lecture 27 - Shear centre - II - Examples
Link Advanced Marine Structures Lecture 28 - Plastic capacity of sections under combined loads - I
Link Advanced Marine Structures Lecture 29 - Plastic capacity of sections under combined loads - II
Link Advanced Marine Structures Lecture 30 - Impact analysis- fundamentals - I
Link Advanced Marine Structures Lecture 31 - Impact analysis- fundamentals - II
Link Advanced Marine Structures Lecture 32 - Ultimate capacity of tubular joints
Link Advanced Marine Structures Lecture 33 - Fluid structure interaction - I
Link Advanced Marine Structures Lecture 34 - Fluid structure interaction - II
Link Advanced Marine Structures Lecture 35 - Fluid induced vibration - I
Link Advanced Marine Structures Lecture 36 - Fluid induced vibration - II
Link Advanced Marine Structures Lecture 37 - Flow through perforated members - I
Link Advanced Marine Structures Lecture 38 - Flow through perforated members - numerical studies - II
Link Advanced Marine Structures Lecture 39 - Flow through perforated members - III - Analytical studies
Link Advanced Marine Structures Lecture 40 - Introduction to Reliability - I
Link Advanced Marine Structures Lecture 41 - Introduction to Reliability - II
Link Advanced Marine Structures Lecture 42 - Introduction to Reliability - III
Link Advanced Marine Structures Lecture 43 - Reliability framework in Marine structures
Link Advanced Marine Structures Lecture 44 - Ultimate Limit state and Reliability approach - I
Link Advanced Marine Structures Lecture 45 - Ultimate limit state and Reliability approach - II
Link Advanced Marine Structures Lecture 46 - Levels of Reliability
Link Advanced Marine Structures Lecture 47 - FOSM and AFOSM methods of Reliability
Link Advanced Marine Structures Lecture 48 - Fracture and Fatigue
Link Advanced Marine Structures Lecture 49 - Fatigue failure
Link Advanced Marine Structures Lecture 50 - Fatigue loading and fatigue analysis
Link Advanced Marine Structures Lecture 51 - Deterministic fatigue analysis
Link Advanced Marine Structures Lecture 52 - Spectral fatigue analysis
Link Advanced Marine Structures Lecture 53 - Stress concentration and fatigue analysis
Link NOC:Dynamics of Ocean Structures Lecture 1 - Introduction to Offshore structures
Link NOC:Dynamics of Ocean Structures Lecture 2 - Introduction to Offshore structures (Continued...)
Link NOC:Dynamics of Ocean Structures Lecture 3 - Environmental Loads
Link NOC:Dynamics of Ocean Structures Lecture 4 - Structural action of Ocean structures
Link NOC:Dynamics of Ocean Structures Lecture 5 - Single Degree of Freedom
Link NOC:Dynamics of Ocean Structures Lecture 6 - Equations of Motion
Link NOC:Dynamics of Ocean Structures Lecture 7 - Free Vibration of SDOF systems
Link NOC:Dynamics of Ocean Structures Lecture 8 - Damped and Undamped Forced Vibration
Link NOC:Dynamics of Ocean Structures Lecture 9 - Damped Forced Vibration
Link NOC:Dynamics of Ocean Structures Lecture 10 - Response building
Link NOC:Dynamics of Ocean Structures Lecture 11 - Numerical Example (SDOF)
Link NOC:Dynamics of Ocean Structures Lecture 12 - Numerical Example II
Link NOC:Dynamics of Ocean Structures Lecture 13 - Numerical Example
Link NOC:Dynamics of Ocean Structures Lecture 14 - Numerical Example - MDOF
Link NOC:Dynamics of Ocean Structures Lecture 15 - Numerical Example - Eigen value problems
Link NOC:Dynamics of Ocean Structures Lecture 16 - Orthogonality of modes - MDOF system models
Link NOC:Dynamics of Ocean Structures Lecture 17 - Numerical Methods for MDOF systems
Link NOC:Dynamics of Ocean Structures Lecture 18 - Influence Coefficient Method - MDOF
Link NOC:Dynamics of Ocean Structures Lecture 19 - STODLA Method - MDOF
Link NOC:Dynamics of Ocean Structures Lecture 20 - Stodla Method - Examples
Link NOC:Dynamics of Ocean Structures Lecture 21 - Rayleighs Method
Link NOC:Dynamics of Ocean Structures Lecture 22 - Modal Response Analysis for MDOF
Link NOC:Dynamics of Ocean Structures Lecture 23 - Rayleigh Damping
Link NOC:Dynamics of Ocean Structures Lecture 24 - Caughey Damping
Link NOC:Dynamics of Ocean Structures Lecture 25 - Damping Matrix by Super Positioning Method
Link NOC:Dynamics of Ocean Structures Lecture 26 - Duhamels Integral
Link NOC:Dynamics of Ocean Structures Lecture 27 - Modal superposition and truncation
Link NOC:Dynamics of Ocean Structures Lecture 28 - Modal participation and missing mass corrections
Link NOC:Dynamics of Ocean Structures Lecture 29 - Fluid Structure Interaction
Link NOC:Dynamics of Ocean Structures Lecture 30 - Fluid Structure Interaction - II
Link NOC:Dynamics of Ocean Structures Lecture 31 - Retrofitting and Rehabilitation - Application through Dynamics
Link NOC:Dynamics of Ocean Structures Lecture 32 - Drag and Earthquake Forces
Link NOC:Dynamics of Ocean Structures Lecture 33 - Articulated Towers
Link NOC:Dynamics of Ocean Structures Lecture 34 - Fluid Structure Interaction Application in Ocean Structure
Link NOC:Dynamics of Ocean Structures Lecture 35 - Response Control of Compliant Structures (MLAT)
Link NOC:Dynamics of Ocean Structures Lecture 36 - MLATs with Passive Dampers
Link NOC:Dynamics of Ocean Structures Lecture 37 - Tension Leg Platforms
Link NOC:Dynamics of Ocean Structures Lecture 38 - Tension Leg Platforms - II
Link NOC:Dynamics of Ocean Structures Lecture 39 - Fluid Structure Interaction.
Link NOC:Dynamics of Ocean Structures Lecture 40 - Dynamic Analysis of TLPs under Springing and Ringing Waves
Link NOC:Dynamics of Ocean Structures Lecture 41 - Numerical Integration
Link NOC:Dynamics of Ocean Structures Lecture 42 - Dynamic Analysis of Offshore Triceratops
Link NOC:Dynamics of Ocean Structures Lecture 43 - Stochastic Process
Link NOC:Dynamics of Ocean Structures Lecture 44 - Stochastic Process (Continued...)
Link NOC:Dynamics of Ocean Structures Lecture 45 - Response Spectrum - I
Link NOC:Dynamics of Ocean Structures Lecture 46 - Response Spectrum - II
Link NOC:Dynamics of Ocean Structures Lecture 47 - Return Period and Fatigue Damage
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 1
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 2
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 3
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 4
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 5
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 6
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 7
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 8
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 9
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 10
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 11
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 12
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 13
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 14
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 15
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 16
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 17
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 18
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 19
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 20
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 21
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 22
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 23
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 24
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 25
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 26
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 27
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 28
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 29
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 30
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 31
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 32
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 33
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 34
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 35
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 36
Link NOC:Health, Safety and Environmental Management in Offshore and Petroleum Engineering Lecture 37
Link NOC:Risk and Reliability of offshore structures Lecture 1 - Introduction
Link NOC:Risk and Reliability of offshore structures Lecture 2 - Uncertainties
Link NOC:Risk and Reliability of offshore structures Lecture 3 - Uncertainties - II
Link NOC:Risk and Reliability of offshore structures Lecture 4 - Probability and Plausibility
Link NOC:Risk and Reliability of offshore structures Lecture 5 - Rules of Probability
Link NOC:Risk and Reliability of offshore structures Lecture 6 - Plausible Reasoning - I
Link NOC:Risk and Reliability of offshore structures Lecture 7 - Plausible Reasoning - Quantitative rules
Link NOC:Risk and Reliability of offshore structures Lecture 8 - Quantitative Rules
Link NOC:Risk and Reliability of offshore structures Lecture 9 - Probability Distribution
Link NOC:Risk and Reliability of offshore structures Lecture 10 - Random Variables
Link NOC:Risk and Reliability of offshore structures Lecture 11 - Random Variables - II
Link NOC:Risk and Reliability of offshore structures Lecture 12 - Sampling Estimates
Link NOC:Risk and Reliability of offshore structures Lecture 13 - Modelling of Environmental Loads
Link NOC:Risk and Reliability of offshore structures Lecture 14 - Exercises - I
Link NOC:Risk and Reliability of offshore structures Lecture 15 - Introduction
Link NOC:Risk and Reliability of offshore structures Lecture 16 - Components of Reliability analysis
Link NOC:Risk and Reliability of offshore structures Lecture 17 - Levels of Reliability
Link NOC:Risk and Reliability of offshore structures Lecture 18 - Error Estimation
Link NOC:Risk and Reliability of offshore structures Lecture 19 - Reliability methods - I
Link NOC:Risk and Reliability of offshore structures Lecture 20 - Reliability methods - II
Link NOC:Risk and Reliability of offshore structures Lecture 21 - Reliability methods - III
Link NOC:Risk and Reliability of offshore structures Lecture 22 - Reliability methods - IV
Link NOC:Risk and Reliability of offshore structures Lecture 23 - System Reliability - I
Link NOC:Risk and Reliability of offshore structures Lecture 24 - System Reliability - II
Link NOC:Risk and Reliability of offshore structures Lecture 25 - System Reliability - III
Link NOC:Risk and Reliability of offshore structures Lecture 26 - Failure domains
Link NOC:Risk and Reliability of offshore structures Lecture 27 - Failure domains II
Link NOC:Risk and Reliability of offshore structures Lecture 28 - Application Problem - I
Link NOC:Risk and Reliability of offshore structures Lecture 29 - Application Problem - I (Continued...)
Link NOC:Risk and Reliability of offshore structures Lecture 30 - Application Problem II
Link NOC:Risk and Reliability of offshore structures Lecture 31 - Application Problem II (Continued...)
Link NOC:Risk and Reliability of offshore structures Lecture 32 - Application Problem II (Continued...)
Link NOC:Risk and Reliability of offshore structures Lecture 33 - Risk and Reliability
Link NOC:Risk and Reliability of offshore structures Lecture 34 - Reliability analysis of structural systems
Link NOC:Risk and Reliability of offshore structures Lecture 35 - Codes on structural reliability
Link NOC:Risk and Reliability of offshore structures Lecture 36 - Variables in Reliability analysis
Link NOC:Risk and Reliability of offshore structures Lecture 37 - Mechanical models in Reliability analysis
Link NOC:Risk and Reliability of offshore structures Lecture 38 - Mechanical modes in Reliability analysis - II
Link NOC:Risk and Reliability of offshore structures Lecture 39 - Stochastic Process - I
Link NOC:Risk and Reliability of offshore structures Lecture 40 - Stochastic Process - II
Link NOC:Risk and Reliability of offshore structures Lecture 41 - Fatigue Reliability
Link NOC:Risk and Reliability of offshore structures Lecture 42 - Design SN curve
Link NOC:Risk and Reliability of offshore structures Lecture 43 - Simplified Fatigue Assessment
Link NOC:Risk and Reliability of offshore structures Lecture 44 - Short term fatigue damage
Link NOC:Risk and Reliability of offshore structures Lecture 45 - Behaviour of tubular joints
Link NOC:Risk and Reliability of offshore structures Lecture 46 - Tubular Joints - Experimental studies on T-Joints
Link NOC:Risk and Reliability of offshore structures Lecture 47 - Risk Assessment
Link NOC:Risk and Reliability of offshore structures Lecture 48 - Logical Risk analysis
Link NOC:Risk and Reliability of offshore structures Lecture 49 - Risk analysis of Mechanical Systems
Link NOC:Risk and Reliability of offshore structures Lecture 50 - FMEA II
Link NOC:Risk and Reliability of offshore structures Lecture 51 - Design FMEA for Offshore Triceratops
Link NOC:Risk and Reliability of offshore structures Lecture 52 - Fault Tree Analysis
Link NOC:Risk and Reliability of offshore structures Lecture 53 - Event Tree Analysis
Link NOC:Risk and Reliability of offshore structures Lecture 54 - Consequence Analysis
Link NOC:Risk and Reliability of offshore structures Lecture 55 - Risk Acceptability
Link NOC:Risk and Reliability of offshore structures Lecture 56 - Risk and Hazard assessment
Link NOC:Risk and Reliability of offshore structures Lecture 57 - Risk Picture
Link NOC:Risk and Reliability of offshore structures Lecture 58 - Risk Management
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 1 - Introduction
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 2 - Drilling Operation and Consequences
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 3 - Drilling Accidents
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 4 - Oil Spills
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 5 - Ecological Monitoring
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 6 - Pollution Modeling - I
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 7 - Pollution Modeling - II
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 8 - Pollution Modeling - III
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 9 - Hazard Management
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 10 - Introduction
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 11 - HSE Practices
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 12 - Lessons learnt from accidents
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 13 - HSE guidelines
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 14 - HSE lessons
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 15 - Risk Assessment - I
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 16 - Financing Risk
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 17 - Financing Risk Example Problem
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 18 - Risk Assessment and Accident Analysis
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 19 - Accident analysis
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 20 - Hazard assessment - I
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 21 - Hazard Analysis - I
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 22 - Hazop - I
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 23 - Hazop - II
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 24 - Hazop - III
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 25 - Hazop - IV
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 26 - Hazop - V
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 27 - Hazop (Case study)
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 28 - Accidents in offshore platforms
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 29 - Hazard Control
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 30 - FMEA
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 31 - FMEA Example
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 32 - FMEA Example - II
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 33 - Excercises
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 34 - Dose Response Assessment
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 35 - Flammability characteristics
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 36 - Flammability diagram
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 37 - Explosions
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 38 - Chemical Explosions
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 39 - Fire and Explosion Prevention - I
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 40 - Explosion and Prevention
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 41 - Fire Prevention Practices
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 42 - Industrial Hygiene control
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 43 - Chemical Risk Analysis
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 44 - Chemical Risk Analysis - II
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 45 - CEI - Examples
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 46 - QRA Application
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 47 - Hazard Identification Practices
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 48 - Risk in Marine Systems - I
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 49 - Risk in Marine Systems - II
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 50 - Safety measures in design and operation
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 51 - Safety measures in design and operation - II
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 52 - Safety factors for confined spaces - I
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 53 - Safety practices for confined spaces - II
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 54 - Safety practices for Fire protection
Link NOC:HSE for offshore and petroleum engineers-Practices Lecture 55 - Process safety management
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 1 - Introduction
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 2 - Novelty of fixed platforms
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 3 - Novelty of compliant platforms
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 4 - Novelty of floating platforms
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 5 - New generation offshore platforms - I
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 6 - New generation offshore platforms - II
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 7 - Offshore Triceratops
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 8 - Offshore Regasification platforms
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 9 - Environmental loads - I
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 10 - Environmental loads - II
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 11 - Wind loads
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 12 - Ice loads - I
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 13 - Ice loads - II
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 14 - Response spectrum - I
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 15 - Response spectrum - II
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 16 - Uncertainties
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 17 - Earthquake loads - I
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 18 - Earthquake loads - II
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 19 - Earthquake loads - III
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 20 - General design requirements
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 21 - Impact and Non-impact wave loads - I
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 22 - Impact and Non-impact wave loads - II
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 23 - Unsymmetrical bending - I
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 24 - Unsymmetrical bending - II
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 25 - Unsymmetrical bending - III
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 26 - Shear centre - I
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 27 - Shear centre - II
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 28 - Shear centre - III
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 29 - Shear centre - IV
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 30 - Curved beams - I
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 31 - Curved beams - II
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 32 - Curved beams - III
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 33 - Curved beams - IV
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 34 - Curved beams - V
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 35 - Rings and chain links - I
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 36 - Rings and chain links - II
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 37 - Marine risers
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 38 - Marine risers under VIM
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 39 - Fire safety overview
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 40 - Explosion - I
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 41 - Explosion and fire protection - I
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 42 - Explosion and fire protection - II
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 43 - Blast Resistance - I
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 44 - Blast Resistance - II
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 45 - Blast Resistance - III
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 46 - Blast Resistance - IV
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 47 - Material Strength - I
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 48 - Material Strength - II
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 49 - Material Strength - III
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 50 - Fire resistant design overview
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 51 - Types of fire
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 52 - Design Approach - I
Link NOC:Offshore Structures Under Special Loads Including Fire Resistance Lecture 53 - Design Approach - II
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 1 - Introduction to structural analysis - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 2 - Introduction to structural analysis - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 3 - System of linear equations - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 4 - System of linear equations - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 5 - Matrices - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 6 - Matrices - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 7 - Beam Element 1 - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 8 - Beam Element 1 - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 9 - Beam Element 2 - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 10 - Beam Element 2 - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 11 - Stiffness matrix of beam element - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 12 - Stiffness matrix of beam element - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 13 - Stiffness method of analysis of planar orthogonal structures - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 14 - Stiffness method of analysis of planar orthogonal structures - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 15 - Example on continuous beam - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 16 - Example on continuous beam - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 17 - Example - II - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 18 - Example - II - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 19 - Example - II (Continued...)
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 20 - Example - III - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 21 - Example - III - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 22 - Planar non-orthogonal frame - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 23 - Planar non-orthogonal frame - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 24 - Non-orthogonal structures - II
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 25 - Planar non-orthogonal frame
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 26 - Non-orthogonal structures - III - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 27 - Non-orthogonal structures - III - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 28 - Example problem: planar non-orthogonal structure - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 29 - Example problem: planar non-orthogonal structure - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 30 - Planar non-orthogonal frame using computer code - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 31 - Planar non-orthogonal frame using computer code - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 32 - Planar non-orthogonal frame - Example 3 - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 33 - Planar non-orthogonal frame - Example 3 - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 34 - Planar truss system
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 35 - Planar truss system examples - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 36 - Planar truss system examples - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 37 - 3D structures - analysis by stiffness method - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 38 - 3D structures - analysis by stiffness method - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 39 - 3D structures - transformation matrix - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 40 - 3D structures - transformation matrix - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 41 - Y-Z-X transformation for 3d analysis :
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 42 - Z-Y-X transformation for 3d analysis - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 43 - Z-Y-X transformation for 3d analysis - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 44 - Analysis of space frames - Example 1 - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 45 - Analysis of space frames - Example 1 - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 46 - Analysis of space frames - Example 1 - Part 3
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 47 - Analysis of space frame structures
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 48 - 3d analysis of space frames - Example 1 - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 49 - 3d analysis of space frames - Example 1 - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 50 - 3d analysis - Example 2 - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 51 - 3d analysis - Example 2 - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 52 - 3d truss analysis
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 53 - Special elements
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 54 - Non-prismatic members - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 55 - Non-prismatic members - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 56 - Offshore structures - 1 - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 57 - Offshore structures - 1 - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 58 - Offshore structures - 2 - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 59 - Offshore structures - 2 - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 60 - Offshore structures - 3 - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 61 - Offshore structures - 3 - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 62 - Offshore compliant structures - 1 - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 63 - Offshore compliant structures - 1 - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 64 - Offshore compliant structures - 2 - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 65 - Offshore compliant structures - 2 - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 66 - New generation platforms - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 67 - New generation platforms - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 68 - Environmental loads - 1 - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 69 - Environmental loads - 1 - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 70 - Wave spectra - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 71 - Wave spectra - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 72 - Wind loads - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 73 - Wind loads - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 74 - Wind loads - 2 - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 75 - Wind loads - 2 - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 76 - Ice load and Earthquake load - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 77 - Ice load and Earthquake load - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 78 - Dynamic analysis - 1 - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 79 - Dynamic analysis - 1 - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 80 - Dynamic analysis - 2 - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 81 - Dynamic analysis - 2 - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 82 - Dynamic analysis - 3 - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 83 - Dynamic analysis - 3 - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 84 - Computer methods of dynamic analysis - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 85 - Computer methods of dynamic analysis - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 86 - Damping estimate - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 87 - Damping estimate - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 88 - Damping estimate - 2 - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 89 - Damping estimate - 2 - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 90 - Newmark's method - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 91 - Newmark's method - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 92 - Articulated towers - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 93 - Articulated towers - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 94 - Tension leg platforms - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 95 - Tension leg platforms - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 96 - Tension leg platforms - 2 - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 97 - Tension leg platforms - 2 - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 98 - New generation offshore structures - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 99 - New generation offshore structures - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 100 - Triceratops-2 - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 101 - Triceratops-2 - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 102 - Random process - 1 - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 103 - Random process - 1 - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 104 - Random process - 2 - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 105 - Random process - 2 - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 106 - Response spectrum - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 107 - Response spectrum - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 108 - Return period and Stochastic process - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 109 - Return period and Stochastic process - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 110 - Stochastic modelling - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 111 - Stochastic modelling - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 112 - Fatigue damage - 1 - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 113 - Fatigue damage - 1 - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 114 - Fatigue damage - 2 - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 115 - Fatigue damage - 2 - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 116 - Fatigue estimate of offshore platform - Part 1
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 117 - Fatigue estimate of offshore platform - Part 2
Link NOC:Computer Methods Of Structural Analysis of Offshore Structures Lecture 118 - Live Session
Link NOC:Structural Health Monitoring Lecture 1 - Introduction to SHM - Part 1
Link NOC:Structural Health Monitoring Lecture 2 - Introduction to SHM - Part 2
Link NOC:Structural Health Monitoring Lecture 3 - Necessity of SHM - Part 1
Link NOC:Structural Health Monitoring Lecture 4 - Necessity of SHM - Part 2
Link NOC:Structural Health Monitoring Lecture 5 - Components of SHM - Part 1
Link NOC:Structural Health Monitoring Lecture 6 - Components of SHM - Part 2
Link NOC:Structural Health Monitoring Lecture 7 - Challenges in SHM - Part 1
Link NOC:Structural Health Monitoring Lecture 8 - Challenges in SHM - Part 2
Link NOC:Structural Health Monitoring Lecture 9 - Advantages of SHM - Part 1
Link NOC:Structural Health Monitoring Lecture 10 - Advantages of SHM - Part 2
Link NOC:Structural Health Monitoring Lecture 11 - Components of SHM process - Part 1
Link NOC:Structural Health Monitoring Lecture 12 - Components of SHM process - Part 2
Link NOC:Structural Health Monitoring Lecture 13 - SHM issues applied to concrete structures - Part 1
Link NOC:Structural Health Monitoring Lecture 14 - SHM issues applied to concrete structures - Part 2
Link NOC:Structural Health Monitoring Lecture 15 - Level of uncertainties in SHM process - Part 1
Link NOC:Structural Health Monitoring Lecture 16 - Level of uncertainties in SHM process - Part 2
Link NOC:Structural Health Monitoring Lecture 17 - Short term and long term Structural Health Monitoring (SHM) - Part 1
Link NOC:Structural Health Monitoring Lecture 18 - Short term and long term Structural Health Monitoring (SHM) - Part 2
Link NOC:Structural Health Monitoring Lecture 19 - Local and Global Health Monitoring
Link NOC:Structural Health Monitoring Lecture 20 - Data Evaluation and Assessment
Link NOC:Structural Health Monitoring Lecture 21 - Estimation of Structural Health i.e. Structural Health Monitoring (SHM)
Link NOC:Structural Health Monitoring Lecture 22 - Estimation of Structural Health using Static SHM
Link NOC:Structural Health Monitoring Lecture 23 - Structural Health Monitoring (SHM) Planning and Management - Part 1
Link NOC:Structural Health Monitoring Lecture 24 - Structural Health Monitoring (SHM) Planning and Management - Part 2
Link NOC:Structural Health Monitoring Lecture 25 - Vibration based health monitoring scheme - Part 1
Link NOC:Structural Health Monitoring Lecture 26 - Vibration based health monitoring scheme - Part 2
Link NOC:Structural Health Monitoring Lecture 27 - Structural Health monitoring methods:1 - Part 1
Link NOC:Structural Health Monitoring Lecture 28 - Structural Health monitoring methods:1 - Part 2
Link NOC:Structural Health Monitoring Lecture 29 - Damage identification using lumped mass and Element modal stiffness - Part 1
Link NOC:Structural Health Monitoring Lecture 30 - Damage identification using lumped mass and Element modal stiffness - Part 2
Link NOC:Structural Health Monitoring Lecture 31 - Damage identification by visual Inspection method - Part 1
Link NOC:Structural Health Monitoring Lecture 32 - Damage identification by visual Inspection method - Part 2
Link NOC:Structural Health Monitoring Lecture 33 - Various vibration based method in SHM-1 - Part 1
Link NOC:Structural Health Monitoring Lecture 34 - Various vibration based method in SHM-1 - Part 2
Link NOC:Structural Health Monitoring Lecture 35 - Comparison of Damage Detection Method - II
Link NOC:Structural Health Monitoring Lecture 36 - Damage Detection Method - II
Link NOC:Structural Health Monitoring Lecture 37 - Structural Health Monitoring (SHM) and Statistical Pattern Recognition (SPR)
Link NOC:Structural Health Monitoring Lecture 38 - Long term SHM (Structural Health Monitoring)
Link NOC:Structural Health Monitoring Lecture 39 - Non-Destructive evaluation - I - Part 1
Link NOC:Structural Health Monitoring Lecture 40 - Non-Destructive evaluation - I - Part 2
Link NOC:Structural Health Monitoring Lecture 41 - Non-Destructive evaluation - II
Link NOC:Structural Health Monitoring Lecture 42 - Non-Destructive evaluation - III
Link NOC:Structural Health Monitoring Lecture 43 - Crack detection in Composites
Link NOC:Structural Health Monitoring Lecture 44 - Various sensor technologies - Part 1
Link NOC:Structural Health Monitoring Lecture 45 - Various sensor technologies - Part 2
Link NOC:Structural Health Monitoring Lecture 46 - Fibre Optic sensors - Part 1
Link NOC:Structural Health Monitoring Lecture 47 - Fibre Optic sensors - Part 2
Link NOC:Structural Health Monitoring Lecture 48 - Smart sensing for SHM - Part 1
Link NOC:Structural Health Monitoring Lecture 49 - Smart sensing for SHM - Part 2
Link NOC:Structural Health Monitoring Lecture 50 - Sensing requirements in special structures
Link NOC:Structural Health Monitoring Lecture 51 - The sensor requirements and Data acquisition - Part 1
Link NOC:Structural Health Monitoring Lecture 52 - The sensor requirements and Data acquisition - Part 2
Link NOC:Structural Health Monitoring Lecture 53 - Acquisition system and Networking for SHM - Part 1
Link NOC:Structural Health Monitoring Lecture 54 - Acquisition system and Networking for SHM - Part 2
Link NOC:Structural Health Monitoring Lecture 55 - Wireless Sensor Networking (WSN) - Part 1
Link NOC:Structural Health Monitoring Lecture 56 - Wireless Sensor Networking (WSN) - Part 2
Link NOC:Structural Health Monitoring Lecture 57 - SHM layout design of offshore structures
Link NOC:Structural Health Monitoring Lecture 58 - Vibration Based damage detection
Link NOC:Structural Health Monitoring Lecture 59 - SHM design - Part 1
Link NOC:Structural Health Monitoring Lecture 60 - SHM design - Part 2
Link NOC:Structural Health Monitoring Lecture 61 - Artificial Intelligence (AI) in structural health monitoring (SHM)
Link NOC:Structural Health Monitoring Lecture 62 - Plausibility of errors in SHM
Link NOC:Structural Health Monitoring Lecture 63 - Artificial Neural Network (ANN) in the SHM process.
Link NOC:Structural Health Monitoring Lecture 64 - Damage detection
Link NOC:Structural Health Monitoring Lecture 65 - Application of SHM in Infrastructure Engieering - Part 1
Link NOC:Structural Health Monitoring Lecture 66 - Application of SHM in Infrastructure Engieering - Part 2
Link NOC:Structural Health Monitoring Lecture 67 - Design of sensor layout for SHM - Part 1
Link NOC:Structural Health Monitoring Lecture 68 - Design of sensor layout for SHM - Part 2
Link NOC:Structural Health Monitoring Lecture 69 - SHM applied to BSLRP - Part 1
Link NOC:Structural Health Monitoring Lecture 70 - SHM applied to BSLRP - Part 2
Link NOC:Structural Health Monitoring Lecture 71 - SHM design for BSLRP - Part 1
Link NOC:Structural Health Monitoring Lecture 72 - SHM design for BSLRP - Part 2
Link NOC:Structural Health Monitoring Lecture 73 - SHM design-2 for BSLRP - Part 1
Link NOC:Structural Health Monitoring Lecture 74 - SHM design-2 for BSLRP - Part 2
Link NOC:Structural Health Monitoring Lecture 75 - SHM design by experimental investigations for lab scale model of TLP-I - Part 1
Link NOC:Structural Health Monitoring Lecture 76 - SHM design by experimental investigations for lab scale model of TLP-I - Part 2
Link NOC:Structural Health Monitoring Lecture 77 - SHM design by experimental investigations for lab scale model of TLP-II - Part 1
Link NOC:Structural Health Monitoring Lecture 78 - SHM design by experimental investigations for lab scale model of TLP-II - Part 2
Link NOC:Structural Health Monitoring Lecture 79 - Structural Health Monitoring (SHM) of lab scale model of TLP-III - Part 1
Link NOC:Structural Health Monitoring Lecture 80 - Structural Health Monitoring (SHM) of lab scale model of TLP-III - Part 2
Link NOC:Structural Health Monitoring Lecture 81 - Structural Health Monitoring (SHM) of lab scale model of TLP-IV - Part 1
Link NOC:Structural Health Monitoring Lecture 82 - Structural Health Monitoring (SHM) of lab scale model of TLP-IV - Part 2
Link NOC:Structural Health Monitoring Lecture 83 - Future Scope of SHM - Part 1
Link NOC:Structural Health Monitoring Lecture 84 - Future Scope of SHM - Part 2
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 1 - Scalar field and its Gradient
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 2 - Line and Surface Integrals
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 3 - Divergence and Curl of Vector Fields
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 4 - Conservative Field, Stoke's Theorem
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 5 - Laplacian
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 6 - Electric Field Potential
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 7 - Gauss's Law, Potential
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 8 - Electric Field and Potential
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 9 - Potential and Potential Energy - I
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 10 - Potential and Potential Energy - II
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 11 - Potential and Potential Energy - III
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 12 - Coefficients of Potential and Capacitance
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 13 - Poission and Laplace Equation
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 14 - Solutions of Laplace Equation - I
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 15 - Solutions of Laplace Equation - II
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 16 - Solutions of Laplace Equation - III
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 17 - Special Techniques - I
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 18 - Special Techniques - II
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 19 - Special Techniques - III
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 20 - Dielectrics - I
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 21 - Dielectrics - II
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 22 - Dielectrics - III
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 23 - Equation of Continuity
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 24 - a) Force between current loops b) Magnetic Vector Potential
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 25 - Magnetic Vector Potential
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 26 - Boundary Conditions
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 27 - Magnetized Material
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 28 - Magentostatics (Continued...), Time Varying Field (Introduction)
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 29 - Faraday's Law and Inductance
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 30 - Maxwell's Equations
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 31 - Maxwell's Equations and Conservation Laws
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 32 - Conservation Laws
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 33 - a) Angular Momentum Conservation b) Electromagnetic Waves
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 34 - Electromagnetic Waves
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 35 - Propagation of Electromagnetic Waves in a metal
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 36 - Waveguides - I
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 37 - Waveguides - II
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 38 - Resonating Cavity
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 39 - Radiation - I
Link Electromagnetic Theory (Prof. D.K. Ghosh) Lecture 40 - Radiation - II
Link Special Theory of Relativity Lecture 1 - Problem with Classical Physics
Link Special Theory of Relativity Lecture 2 - Michelson-Morley Experiment
Link Special Theory of Relativity Lecture 3 - Postulates of Special Theory of Relativity and Galilean Transformation
Link Special Theory of Relativity Lecture 4 - Look out for a New Transformation
Link Special Theory of Relativity Lecture 5 - Lorentz Transformation
Link Special Theory of Relativity Lecture 6 - Length Contraction and Time Dilation
Link Special Theory of Relativity Lecture 7 - Examples of Length Contraction and Time Dilation
Link Special Theory of Relativity Lecture 8 - Velocity Transformation and Examples
Link Special Theory of Relativity Lecture 9 - A Three Event Problem
Link Special Theory of Relativity Lecture 10 - A Problem involving Light and Concept of Casuality
Link Special Theory of Relativity Lecture 11 - Problems involving Casuality and Need to Redefine Momentum
Link Special Theory of Relativity Lecture 12 - Minikowski Space and Four Vectors
Link Special Theory of Relativity Lecture 13 - Proper Time a Four Scalar
Link Special Theory of Relativity Lecture 14 - Velocity Four Vector
Link Special Theory of Relativity Lecture 15 - Momentum Energy Four Vector
Link Special Theory of Relativity Lecture 16 - Relook at Collision Problems
Link Special Theory of Relativity Lecture 17 - Zero Rest Mass Particle and Photon
Link Special Theory of Relativity Lecture 18 - Doppler Effect in Light
Link Special Theory of Relativity Lecture 19 - Example in C-Frame
Link Special Theory of Relativity Lecture 20 - Force in Relativity
Link Special Theory of Relativity Lecture 21 - Force Four-Vector
Link Special Theory of Relativity Lecture 22 - Electric & Magnetic Field Transformation
Link Special Theory of Relativity Lecture 23 - Example of EM Field Transformation
Link Special Theory of Relativity Lecture 24 - Current Density Four Vector and Maxwell Equation
Link NOC:Quantum Information and Computing Lecture 1 - Why Quantum Computing?
Link NOC:Quantum Information and Computing Lecture 2 - Postulates of Quantum Mechanics - I
Link NOC:Quantum Information and Computing Lecture 3 - Postulates of Quantum Mechanics - II
Link NOC:Quantum Information and Computing Lecture 4 - Qubit - The smallest unit
Link NOC:Quantum Information and Computing Lecture 5 - Qubit - Bloch sphere representation
Link NOC:Quantum Information and Computing Lecture 6 - Multiple Qubit States and Quantum Gates
Link NOC:Quantum Information and Computing Lecture 7 - Quantum Gates
Link NOC:Quantum Information and Computing Lecture 8 - Quantum Circuts
Link NOC:Quantum Information and Computing Lecture 9 - No-Cloning Theorem and Quantum Teleportation
Link NOC:Quantum Information and Computing Lecture 10 - Super Dense Coding
Link NOC:Quantum Information and Computing Lecture 11 - Density Matrix - I
Link NOC:Quantum Information and Computing Lecture 12 - Density Matrix - II
Link NOC:Quantum Information and Computing Lecture 13 - Bloch Sphere and Density Matrix
Link NOC:Quantum Information and Computing Lecture 14 - Measurement Postulates - I
Link NOC:Quantum Information and Computing Lecture 15 - Measurement Postulates - II
Link NOC:Quantum Information and Computing Lecture 16 - Simple Algorithms-Deutsch Algorithm
Link NOC:Quantum Information and Computing Lecture 17 - Deutsch-Josza and Bernstein - Vazirani Algorithms
Link NOC:Quantum Information and Computing Lecture 18 - Simon Problem
Link NOC:Quantum Information and Computing Lecture 19 - Grover's Search Algorithm - I
Link NOC:Quantum Information and Computing Lecture 20 - Grover's Search Algorithm - II
Link NOC:Quantum Information and Computing Lecture 21 - Grover's Search Algorithm - III
Link NOC:Quantum Information and Computing Lecture 22 - Grover's Search Algorithm - IV
Link NOC:Quantum Information and Computing Lecture 23 - Quantum Fourier Transform
Link NOC:Quantum Information and Computing Lecture 24 - Period Finding and QFT
Link NOC:Quantum Information and Computing Lecture 25 - Implementing QFT
Link NOC:Quantum Information and Computing Lecture 26 - Implementing QFT-3 qubits (and more)
Link NOC:Quantum Information and Computing Lecture 27 - Shor's Factorization Algorithm
Link NOC:Quantum Information and Computing Lecture 28 - Shor's Factorization Algorithm-Implementation
Link NOC:Quantum Information and Computing Lecture 29 - Shor's Algorithm-Continued Fraction
Link NOC:Quantum Information and Computing Lecture 30 - Quantum Error Correction - I
Link NOC:Quantum Information and Computing Lecture 31 - Quantum Error Correction - II Three Qubit Code
Link NOC:Quantum Information and Computing Lecture 32 - Quantum Error Correction - III Shor's 9 Qubit Code - I
Link NOC:Quantum Information and Computing Lecture 33 - Quantum Error Correction - IV Shor's 9 Qubit Code - II
Link NOC:Quantum Information and Computing Lecture 34 - Classical Information Theory
Link NOC:Quantum Information and Computing Lecture 35 - Shannon Entropy
Link NOC:Quantum Information and Computing Lecture 36 - Shannon's Noiseless Coding Theorem
Link NOC:Quantum Information and Computing Lecture 37 - Ven Neumann Entropy
Link NOC:Quantum Information and Computing Lecture 38 - EPR and Bell's Inequalities - I
Link NOC:Quantum Information and Computing Lecture 39 - EPR and Bell's Inequalities - II
Link NOC:Quantum Information and Computing Lecture 40 - EPR and Bell's Inequalities - III
Link NOC:Quantum Information and Computing Lecture 41 - Cryptography-RSA Algorithm - I
Link NOC:Quantum Information and Computing Lecture 42 - Cryptography-RSA Algorithm - II
Link NOC:Quantum Information and Computing Lecture 43 - Quantum Cryptography - I
Link NOC:Quantum Information and Computing Lecture 44 - Quantum Cryptography - II
Link NOC:Quantum Information and Computing Lecture 45 - Experimental Aspects of Quantum Computing - I
Link NOC:Quantum Information and Computing Lecture 46 - Experimental Aspects of Quantum Computing - II
Link NOC:Theory of Groups for Physics Applications Lecture 1 - Introduction
Link NOC:Theory of Groups for Physics Applications Lecture 2 - Algebraic Preliminaries
Link NOC:Theory of Groups for Physics Applications Lecture 3 - Basic Group Concepts and Low Order Groups - I
Link NOC:Theory of Groups for Physics Applications Lecture 4 - Basic Group Concepts and Low Order Groups - II
Link NOC:Theory of Groups for Physics Applications Lecture 5 - Lagrange's Theorem and Cayley's Theorem - I
Link NOC:Theory of Groups for Physics Applications Lecture 6 - Lagrange's Theorem and Cayley's Theorem - II
Link NOC:Theory of Groups for Physics Applications Lecture 7 - Factor Group Conjugacy Classes - I
Link NOC:Theory of Groups for Physics Applications Lecture 8 - Factor Group Conjugacy Classes - II
Link NOC:Theory of Groups for Physics Applications Lecture 9 - Cycle Structures and Molecular Notation - I
Link NOC:Theory of Groups for Physics Applications Lecture 10 - Cycle Structures and Molecular Notation - II
Link NOC:Theory of Groups for Physics Applications Lecture 11 - Cycle Structures and Classification - I
Link NOC:Theory of Groups for Physics Applications Lecture 12 - Cycle Structures and Classification - II
Link NOC:Theory of Groups for Physics Applications Lecture 13 - Point Group Notation and Factor Group - I
Link NOC:Theory of Groups for Physics Applications Lecture 14 - Point Group Notation and Factor Group - II
Link NOC:Theory of Groups for Physics Applications Lecture 15 - Representation Theory - I
Link NOC:Theory of Groups for Physics Applications Lecture 16 - Representation Theory - II
Link NOC:Theory of Groups for Physics Applications Lecture 17 - Representation Theory - III
Link NOC:Theory of Groups for Physics Applications Lecture 18 - Representation Theory - IV
Link NOC:Theory of Groups for Physics Applications Lecture 19 - Schur's Lemma and Orthogonality Theorem - I
Link NOC:Theory of Groups for Physics Applications Lecture 20 - Schur's Lemma and Orthogonality Theorem - II
Link NOC:Theory of Groups for Physics Applications Lecture 21 - Orthogonality For Characters - I
Link NOC:Theory of Groups for Physics Applications Lecture 22 - Orthogonality For Characters - II
Link NOC:Theory of Groups for Physics Applications Lecture 23 - Character Tables and Molecular Applications - I
Link NOC:Theory of Groups for Physics Applications Lecture 24 - Character Tables and Molecular Applications - II
Link NOC:Theory of Groups for Physics Applications Lecture 25 - Preliminaries About The Continuum - I
Link NOC:Theory of Groups for Physics Applications Lecture 26 - Preliminaries About The Continuum - II
Link NOC:Theory of Groups for Physics Applications Lecture 27 - Classical Groups - I
Link NOC:Theory of Groups for Physics Applications Lecture 28 - Classical Groups - II
Link NOC:Theory of Groups for Physics Applications Lecture 29 - Classical Groups-Topology - I
Link NOC:Theory of Groups for Physics Applications Lecture 30 - Classical Groups-Topology - II
Link NOC:Theory of Groups for Physics Applications Lecture 31 - SO(3) And Matrix Exponent - I
Link NOC:Theory of Groups for Physics Applications Lecture 32 - SO(3) And Matrix Exponent - II
Link NOC:Theory of Groups for Physics Applications Lecture 33 - Generators, Discussion Of Lie's Theorems - I
Link NOC:Theory of Groups for Physics Applications Lecture 34 - Generators, Discussion Of Lie's Theorems - II
Link NOC:Theory of Groups for Physics Applications Lecture 35 - Group Algebras; SO(3)-SU(2) Correspondence - I
Link NOC:Theory of Groups for Physics Applications Lecture 36 - Group Algebras; SO(3)-SU(2) Correspondence - II
Link NOC:Theory of Groups for Physics Applications Lecture 37 - SO(3), SU(2) Representations - I
Link NOC:Theory of Groups for Physics Applications Lecture 38 - SO(3), SU(2) Representations - II
Link NOC:Theory of Groups for Physics Applications Lecture 39 - Representation On Function Spaces - I
Link NOC:Theory of Groups for Physics Applications Lecture 40 - Representation On Function Spaces - II
Link NOC:Theory of Groups for Physics Applications Lecture 41 - Lorentz Boosts, SO(3,1) Algebra - I
Link NOC:Theory of Groups for Physics Applications Lecture 42 - Lorentz Boosts, SO(3,1) Algebra - II
Link NOC:Theory of Groups for Physics Applications Lecture 43 - Representation Of Lorentz Group And Clifford Algebra - I
Link NOC:Theory of Groups for Physics Applications Lecture 44 - Representation Of Lorentz Group And Clifford Algebra - II
Link NOC:Theory of Groups for Physics Applications Lecture 45 - SU(3) And Lie's Classification - I
Link NOC:Theory of Groups for Physics Applications Lecture 46 - SU(3) And Lie's Classification - II
Link NOC:Theory of Groups for Physics Applications Lecture 47 - Fundamental Symmetries Of Physics - I
Link NOC:Theory of Groups for Physics Applications Lecture 48 - Fundamental Symmetries Of Physics - II
Link NOC:Quantum Mechanics-I Lecture 1 - Introduction to Quantum Mechanics - I
Link NOC:Quantum Mechanics-I Lecture 2 - Introduction to Quantum Mechanics - II
Link NOC:Quantum Mechanics-I Lecture 3 - Review of Particle in Box, Potential Well, Barrier, Harmonic Oscillator - I
Link NOC:Quantum Mechanics-I Lecture 4 - Review of Particle in Box, Potential Well, Barrier, Harmonic Oscillator - II
Link NOC:Quantum Mechanics-I Lecture 5 - Tutorial 1 - Part I
Link NOC:Quantum Mechanics-I Lecture 6 - Tutorial 1 - Part II
Link NOC:Quantum Mechanics-I Lecture 7 - Bound States - I
Link NOC:Quantum Mechanics-I Lecture 8 - Bound States - II
Link NOC:Quantum Mechanics-I Lecture 9 - Conditions and Solutions for one Dimensional Bound States - I
Link NOC:Quantum Mechanics-I Lecture 10 - Conditions and Solutions for one Dimensional Bound States - II
Link NOC:Quantum Mechanics-I Lecture 11 - Tutorial 2
Link NOC:Quantum Mechanics-I Lecture 12 - Linear Vector Space (LVS) - I
Link NOC:Quantum Mechanics-I Lecture 13 - Linear Vector Space (LVS) - II
Link NOC:Quantum Mechanics-I Lecture 14 - Linear Vector Space (LVS) - III
Link NOC:Quantum Mechanics-I Lecture 15 - Basis for Operators and States in LVS - I
Link NOC:Quantum Mechanics-I Lecture 16 - Basis for Operators and States in LVS - II
Link NOC:Quantum Mechanics-I Lecture 17 - Tutorial 3 - Part I
Link NOC:Quantum Mechanics-I Lecture 18 - Tutorial 3 - Part II
Link NOC:Quantum Mechanics-I Lecture 19 - Function Spaces - I
Link NOC:Quantum Mechanics-I Lecture 20 - Function Spaces - II
Link NOC:Quantum Mechanics-I Lecture 21 - Postulates of Quantum Mechanics - I
Link NOC:Quantum Mechanics-I Lecture 22 - Postulates of Quantum Mechanics - II
Link NOC:Quantum Mechanics-I Lecture 23 - Tutorial 4 - Part I
Link NOC:Quantum Mechanics-I Lecture 24 - Tutorial 4 - Part II
Link NOC:Quantum Mechanics-I Lecture 25 - Classical vs Quantum Mechanics - I
Link NOC:Quantum Mechanics-I Lecture 26 - Classical vs Quantum Mechanics - II
Link NOC:Quantum Mechanics-I Lecture 27 - Compatible vs Incompatible Observable - I
Link NOC:Quantum Mechanics-I Lecture 28 - Compatible vs Incompatible Observable - II
Link NOC:Quantum Mechanics-I Lecture 29 - Tutorial 5 - Part I
Link NOC:Quantum Mechanics-I Lecture 30 - Tutorial 5 - Part II
Link NOC:Quantum Mechanics-I Lecture 31 - Tutorial 5 - Part III
Link NOC:Quantum Mechanics-I Lecture 32 - Schrodinger and Heisenberg Pictures - I
Link NOC:Quantum Mechanics-I Lecture 33 - Schrodinger and Heisenberg Pictures - II
Link NOC:Quantum Mechanics-I Lecture 34 - Solutions to other Coupled Potential Energies - I
Link NOC:Quantum Mechanics-I Lecture 35 - Solutions to other Coupled Potential Energies - II
Link NOC:Quantum Mechanics-I Lecture 36 - Tutorial 6 - Part I
Link NOC:Quantum Mechanics-I Lecture 37 - Tutorial 6 - Part II
Link NOC:Quantum Mechanics-I Lecture 38 - Hydrogen Atom and Wave Functions, Angular Momentum Operators, Identical Particles - I
Link NOC:Quantum Mechanics-I Lecture 39 - Hydrogen Atom and Wave Functions, Angular Momentum Operators, Identical Particles - II
Link NOC:Quantum Mechanics-I Lecture 40 - Identical Particles and Quantum Computer - I
Link NOC:Quantum Mechanics-I Lecture 41 - Identical Particles and Quantum Computer - II
Link NOC:Quantum Mechanics-I Lecture 42 - Tutorial 7 - Part I
Link NOC:Quantum Mechanics-I Lecture 43 - Tutorial 7 - Part II
Link NOC:Quantum Mechanics-I Lecture 44 - Harmonic Oscillator - I
Link NOC:Quantum Mechanics-I Lecture 45 - Harmonic Oscillator - II
Link NOC:Quantum Mechanics-I Lecture 46 - Ladder Operators - I
Link NOC:Quantum Mechanics-I Lecture 47 - Ladder Operators - II
Link NOC:Quantum Mechanics-I Lecture 48 - Tutorial 8 - Part I
Link NOC:Quantum Mechanics-I Lecture 49 - Tutorial 8 - Part II
Link NOC:Quantum Mechanics-I Lecture 50 - Stern-Gerlach Experiment - I
Link NOC:Quantum Mechanics-I Lecture 51 - Stern-Gerlach Experiment - II
Link NOC:Quantum Mechanics-I Lecture 52 - Oscillator Algebra
Link NOC:Quantum Mechanics-I Lecture 53 - Tutorial 9 - Part I
Link NOC:Quantum Mechanics-I Lecture 54 - Tutorial 9 - Part II
Link NOC:Quantum Mechanics-I Lecture 55 - Angular Momentum - I
Link NOC:Quantum Mechanics-I Lecture 56 - Angular Momentum - II
Link NOC:Quantum Mechanics-I Lecture 57 - Rotations Groups - I
Link NOC:Quantum Mechanics-I Lecture 58 - Rotations Groups - II
Link NOC:Quantum Mechanics-I Lecture 59 - Tutorial 10 - Part I
Link NOC:Quantum Mechanics-I Lecture 60 - Tutorial 10 - Part II
Link NOC:Quantum Mechanics-I Lecture 61 - Addition of Angular Momentum - I
Link NOC:Quantum Mechanics-I Lecture 62 - Addition of Angular Momentum - II
Link NOC:Quantum Mechanics-I Lecture 63 - Clebsch-Gordan Coe cients - I
Link NOC:Quantum Mechanics-I Lecture 64 - Clebsch-Gordan Coe cients - II
Link NOC:Quantum Mechanics-I Lecture 65 - Tutorial 11 - Part I
Link NOC:Quantum Mechanics-I Lecture 66 - Tutorial 11 - Part II
Link NOC:Quantum Mechanics-I Lecture 67 - Clebsch-Gordan Coe cients - III
Link NOC:Quantum Mechanics-I Lecture 68 - Tensor Operators and Wigner-Eckart Theorem - I
Link NOC:Quantum Mechanics-I Lecture 69 - Tensor Operators and Wigner-Eckart Theorem - II
Link NOC:Quantum Mechanics-I Lecture 70 - Tensor Operators and Wigner-Eckart Theorem - III
Link NOC:Quantum Mechanics-I Lecture 71 - Tutorial 12
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 1 - Quantum Theory Fundamental Quantisation - I
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 2 - Quantum Theory Fundamental Quantisation - II
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 3 - Path Integral Formulation - I
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 4 - Path Integral Formulation - II
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 5 - Path Integral Formulation - III
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 6 - Path Integral Formulation - IV
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 7 - Correlation Functions - I
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 8 - Correlation Functions - II
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 9 - Generating Functional, Forced Harmonic Oscillator - I
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 10 - Generating Functional, Forced Harmonic Oscillator - II
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 11 - Generating Function in Field Theory - I
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 12 - Generating Function in Field Theory - II
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 13 - Effective Potential - I
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 14 - Effective Potential - II
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 15 - Effective Potential - III
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 16 - Effective Potential - IV
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 17 - Asymptotic Theory - I
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 18 - Asymptotic Theory - II
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 19 - Asymptotic Condition Kallen-Lehmann representation - I
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 20 - Asymptotic Condition Kallen-Lehmann representation - II
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 21 - Gauge Invariance - Minimal Coupling
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 22 - Gauge Invariance - Geometric Picture
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 23 - Gauge Invariance - Abelian Case
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 24 - Gauge Invariance - Non-abelian case
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 25 - Yang Mills Theory - Coupling to Matter
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 26 - Yang Mills Theory - Physical Content
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 27 - Yang Mills Theory Constraint Dynamics - I
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 28 - Yang Mills Theory Constraint Dynamics - II
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 29 - Gauge Fixing and Faddeev Popov Ghosts - I
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 30 - Gauge Fixing and Faddeev Popov Ghosts - II
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 31 - Topological Vacuum of Yang Mills Theories - I
Link NOC:Path Integral and Functional Methods in Quantum Field Theory Lecture 32 - Topological Vacuum of Yang Mills Theories - II
Link Electronics Lecture 1 - p-n diode
Link Electronics Lecture 2 - p-n Junction/Diode (Continued...)
Link Electronics Lecture 3 - p-n diode (Continued...)
Link Electronics Lecture 4 - Diode Application
Link Electronics Lecture 5 - Transistors
Link Electronics Lecture 6 - Reverse - bias (Continued...)
Link Electronics Lecture 7 - Transistors (Continued...)
Link Electronics Lecture 8 - Transistors (Continued...)
Link Electronics Lecture 9 - Biasing a transistor unit 2 (Continued...)
Link Electronics Lecture 10 - Biasing of transistor
Link Electronics Lecture 11 - H and R Parameters and their use in small amplifiers
Link Electronics Lecture 12 - Small signal amplifiers analysis using H - Parameters
Link Electronics Lecture 13 - Small signal amplifiers analysis using R - Parameters
Link Electronics Lecture 14 - R - analysis (Continued...)
Link Electronics Lecture 15 - Common Collector(CC) amplifier (Continued...)
Link Electronics Lecture 16 - Feedback in amplifiers, Feedback Configurations and multi stage amplifiers
Link Electronics Lecture 17 - Reduction in non-linear distortion
Link Electronics Lecture 18 - Input/Output impedances in negative feedback amplifiers (Continued...)
Link Electronics Lecture 19 - RC Coupled Amplifiers
Link Electronics Lecture 20 - RC Coupled Amplifiers (Continued...)
Link Electronics Lecture 21 - RC Coupled Amplifiers (Continued...)
Link Electronics Lecture 22 - FETs ans MOSFET
Link Electronics Lecture 23 - FETs ans MOSFET (Continued...)
Link Electronics Lecture 24 - Depletion - MOSFET
Link Electronics Lecture 25 - Drain and transfer characteristic of E - MOSFET
Link Electronics Lecture 26 - Self Bias (Continued...) Design Procedure
Link Electronics Lecture 27 - FET/MOSFET Amplifiers and their Analysis
Link Electronics Lecture 28 - CMOS Inverter
Link Electronics Lecture 29 - CMOS Inverter (Continued...)
Link Electronics Lecture 30 - Power Amplifier
Link Electronics Lecture 31 - Power Amplifier (Continued...)
Link Electronics Lecture 32 - Power Amplifier (Continued...)
Link Electronics Lecture 33 - Power Amplifier (Continued...)
Link Electronics Lecture 34 - Differential and Operational Amplifier
Link Electronics Lecture 35 - Differential and Operational Amplifier (Continued...) dc and ac analysis
Link Electronics Lecture 36 - Differential and Operational Amplifier dc and ac analysis (Continued...)
Link Electronics Lecture 37 - Operational Amplifiers
Link Electronics Lecture 38 - Operational amplifiers in open loop (Continued...)
Link Electronics Lecture 39 - Summing Amplifiers
Link Electronics Lecture 40 - Frequency response of an intigration
Link Electronics Lecture 41 - Filters
Link Electronics Lecture 42 - Specification of OP Amplifiers
Link Plasma Physics: Fundamentals and Applications Lecture 1 - Introduction to Plasmas
Link Plasma Physics: Fundamentals and Applications Lecture 2 - Plasma Response to fields: Fluid Equations
Link Plasma Physics: Fundamentals and Applications Lecture 3 - DC Conductivity and Negative Differential Conductivity
Link Plasma Physics: Fundamentals and Applications Lecture 4 - RF Conductivity of Plasma
Link Plasma Physics: Fundamentals and Applications Lecture 5 - RF Conductivity of Plasma (Continued...)
Link Plasma Physics: Fundamentals and Applications Lecture 6 - Hall Effect, Cowling Effect and Cyclotron Resonance Heating
Link Plasma Physics: Fundamentals and Applications Lecture 7 - Electromagnetic Wave Propagation in Plasma
Link Plasma Physics: Fundamentals and Applications Lecture 8 - Electromagnetic Wave Propagation in Plasma (Continued...)
Link Plasma Physics: Fundamentals and Applications Lecture 9 - Electromagnetic Wave Propagation Inhomogeneous Plasma
Link Plasma Physics: Fundamentals and Applications Lecture 10 - Electrostatic Waves in Plasmas
Link Plasma Physics: Fundamentals and Applications Lecture 11 - Energy Flow with an Electrostatic Wave
Link Plasma Physics: Fundamentals and Applications Lecture 12 - Two Stream Instability
Link Plasma Physics: Fundamentals and Applications Lecture 13 - Relativistic electron Beam- Plasma Interaction
Link Plasma Physics: Fundamentals and Applications Lecture 14 - Cerenkov Free Electron Laser
Link Plasma Physics: Fundamentals and Applications Lecture 15 - Free Electron Laser
Link Plasma Physics: Fundamentals and Applications Lecture 16 - Free Electron Laser: Energy gain
Link Plasma Physics: Fundamentals and Applications Lecture 17 - Free Electron Laser: Wiggler Tapering and Compton Regime Operation
Link Plasma Physics: Fundamentals and Applications Lecture 18 - Weibel Instability
Link Plasma Physics: Fundamentals and Applications Lecture 19 - Rayleigh Taylor Instability
Link Plasma Physics: Fundamentals and Applications Lecture 20 - Single Particle Motion in Static Magnetic and Electric Fields
Link Plasma Physics: Fundamentals and Applications Lecture 21 - Plasma Physics Grad B and Curvature Drifts
Link Plasma Physics: Fundamentals and Applications Lecture 22 - Adiabatic Invariance of Magnetic Moment and Mirror confinement
Link Plasma Physics: Fundamentals and Applications Lecture 23 - Mirror machine
Link Plasma Physics: Fundamentals and Applications Lecture 24 - Thermonuclear fusion
Link Plasma Physics: Fundamentals and Applications Lecture 25 - Tokamak
Link Plasma Physics: Fundamentals and Applications Lecture 26 - Tokamak operation
Link Plasma Physics: Fundamentals and Applications Lecture 27 - Auxiliary heating and current drive in tokamak
Link Plasma Physics: Fundamentals and Applications Lecture 28 - Electromagnetic waves propagation in magnetise plasma
Link Plasma Physics: Fundamentals and Applications Lecture 29 - Longitudinal electromagnetic wave propagation cutoffs, resonances and faraday rotation
Link Plasma Physics: Fundamentals and Applications Lecture 30 - Electromagnetic propagation at oblique angles to magnetic field in a plasma
Link Plasma Physics: Fundamentals and Applications Lecture 31 - Low frequency EM waves magnetized plasma
Link Plasma Physics: Fundamentals and Applications Lecture 32 - Electrostatic waves in magnetized plasma
Link Plasma Physics: Fundamentals and Applications Lecture 33 - Ion acoustic, ion cyclotron and magneto sonic waves in magnetized plasma
Link Plasma Physics: Fundamentals and Applications Lecture 34 - VIasov theory of plasma waves
Link Plasma Physics: Fundamentals and Applications Lecture 35 - Landau damping and growth of waves
Link Plasma Physics: Fundamentals and Applications Lecture 36 - Landau damping and growth of waves (Continued...)
Link Plasma Physics: Fundamentals and Applications Lecture 37 - Anomalous resistivity in a plasma
Link Plasma Physics: Fundamentals and Applications Lecture 38 - Diffusion in plasma
Link Plasma Physics: Fundamentals and Applications Lecture 39 - Diffusion in magnetized plasma
Link Plasma Physics: Fundamentals and Applications Lecture 40 - Surface plasma wave
Link Plasma Physics: Fundamentals and Applications Lecture 41 - Laser interaction with plasmas embedded with clusters
Link Plasma Physics: Fundamentals and Applications Lecture 42 - Current trends and epilogue
Link Quantum Electronics Lecture 1 - Introduction
Link Quantum Electronics Lecture 2 - Anisotropic Media
Link Quantum Electronics Lecture 3 - Anisotropic Media (Continued...)
Link Quantum Electronics Lecture 4 - Anisotropic Media (Continued...)
Link Quantum Electronics Lecture 5 - Nonlinear optical effects and nonlinear polarization
Link Quantum Electronics Lecture 6 - Non - Linear Optics (Continued...)
Link Quantum Electronics Lecture 7 - Non - Linear Optics (Continued...)
Link Quantum Electronics Lecture 8 - Non - Linear Optics (Continued...)
Link Quantum Electronics Lecture 9 - Non - Linear Optics (Continued...)
Link Quantum Electronics Lecture 10 - Non - Linear Optics - Quasi Phase Matching
Link Quantum Electronics Lecture 11 - Non - Linear Optics
Link Quantum Electronics Lecture 12 - Non Linear Optics (Continued...)
Link Quantum Electronics Lecture 13 - Non Linear Optics (Continued...)
Link Quantum Electronics Lecture 14 - Non Linear Optics (Continued...)
Link Quantum Electronics Lecture 15 - Non Linear Optics (Continued...)
Link Quantum Electronics Lecture 16 - Non Linear Optics (Continued...)
Link Quantum Electronics Lecture 17 - Non Linear Optics (Continued...)
Link Quantum Electronics Lecture 18 - Non Linear Optics (Continued...)
Link Quantum Electronics Lecture 19 - Non Linear Optics (Continued...)
Link Quantum Electronics Lecture 20 - Third Order Non - Linear Effects
Link Quantum Electronics Lecture 21 - Third Order Non - Linear Effects (Continued...)
Link Quantum Electronics Lecture 22 - Third Order Non - Linear Effects (Continued...)
Link Quantum Electronics Lecture 23 - Third Order Non - Linear Effects (Continued...)
Link Quantum Electronics Lecture 24 - Review of Quantum Mechanics
Link Quantum Electronics Lecture 25 - Review of Quantum Mechanics (Continued...)
Link Quantum Electronics Lecture 26 - Review of Quantum Mechanics (Continued...)
Link Quantum Electronics Lecture 27 - Quantization of EM Field
Link Quantum Electronics Lecture 28 - Quantization of EM Field (Continued...)
Link Quantum Electronics Lecture 29 - Quantization of EM Field (Continued...)
Link Quantum Electronics Lecture 30 - Quantum States of EM Field
Link Quantum Electronics Lecture 31 - Quantum States of EM Field (Continued...)
Link Quantum Electronics Lecture 32 - Quantization of EM Field (Continued...)
Link Quantum Electronics Lecture 33 - Quantization of EM Field (Continued...)
Link Quantum Electronics Lecture 34 - Quantization of EM Field (Continued...)
Link Quantum Electronics Lecture 35 - Quantization of EM Field (Continued...)
Link Quantum Electronics Lecture 36 - Quantization of EM Field (Continued...)
Link Quantum Electronics Lecture 37 - Beam Splitter
Link Quantum Electronics Lecture 38 - Beam Splitter (Continued...)
Link Quantum Electronics Lecture 39 - Beam Splitter and Balanced Homodyning
Link Quantum Electronics Lecture 40 - Balanced Homodyning
Link Quantum Electronics Lecture 41 - Quantum Picture of Parametric Down Conversion
Link Quantum Electronics Lecture 42 - Questions
Link Quantum Mechanics and Applications Lecture 1 - Basic Quantum Mechanics I: Wave Particle Duality
Link Quantum Mechanics and Applications Lecture 2 - Basic Quantum Mechanics II: The Schrodinger Equation and The Dirac Delta Function
Link Quantum Mechanics and Applications Lecture 3 - Dirac Delta Function & Fourier Transforms
Link Quantum Mechanics and Applications Lecture 4 - The Free Particle
Link Quantum Mechanics and Applications Lecture 5 - Physical Interpretation of The Wave Function
Link Quantum Mechanics and Applications Lecture 6 - Expectation Values & The Uncertainty Principle
Link Quantum Mechanics and Applications Lecture 7 - The Free Particle (Continued...)
Link Quantum Mechanics and Applications Lecture 8 - Interference Experiment & The Particle in a Box Problem
Link Quantum Mechanics and Applications Lecture 9 - On Eigen Values and Eigen Functions of the 1 Dimensional Schrodinger Equation
Link Quantum Mechanics and Applications Lecture 10 - Linear Harmonic Oscillator
Link Quantum Mechanics and Applications Lecture 11 - Linear Harmonic Oscillator (Continued...1)
Link Quantum Mechanics and Applications Lecture 12 - Linear Harmonic Oscillator (Continued...2)
Link Quantum Mechanics and Applications Lecture 13 - Linear Harmonic Oscillator (Continued...3)
Link Quantum Mechanics and Applications Lecture 14 - Tunneling through a Barrier
Link Quantum Mechanics and Applications Lecture 15 - The 1-Dimensional Potential Wall & Particle in a Box
Link Quantum Mechanics and Applications Lecture 16 - Particle in a Box and Density of States
Link Quantum Mechanics and Applications Lecture 17 - The Angular Momentum Problem
Link Quantum Mechanics and Applications Lecture 18 - The Angular Momentum Problem (Continued...)
Link Quantum Mechanics and Applications Lecture 19 - The Hydrogen Atom Problem
Link Quantum Mechanics and Applications Lecture 20 - The Two Body Problem
Link Quantum Mechanics and Applications Lecture 21 - TheTwo Body Problem: The Hydrogen atom, The Deutron and The Diatomic Molecule
Link Quantum Mechanics and Applications Lecture 22 - Two Body Problem: The Diatomic molecule (Continued...) and the 3 Dimensional Oscillator
Link Quantum Mechanics and Applications Lecture 23 - 3d Oscillator & Dirac's Bra and Ket Algebra
Link Quantum Mechanics and Applications Lecture 24 - Dirac’s Bra and Ket Algebra
Link Quantum Mechanics and Applications Lecture 25 - Dirac’s Bra and Ket Algebra : The Linear Harmonic Oscillator
Link Quantum Mechanics and Applications Lecture 26 - The Linear Harmonic Oscillator using Bra and Ket Algebra (Continued...)
Link Quantum Mechanics and Applications Lecture 27 - The Linear Harmonic Oscillator: Coherent State and Relationship with the Classical Oscillator
Link Quantum Mechanics and Applications Lecture 28 - Coherent State and Relationship with the Classical Oscillator
Link Quantum Mechanics and Applications Lecture 29 - Angular Momentum Problem using Operator Algebra
Link Quantum Mechanics and Applications Lecture 30 - Angular Momentum Problem (Continued...)
Link Quantum Mechanics and Applications Lecture 31 - Pauli Spin Matrices and The Stern Gerlach Experiment
Link Quantum Mechanics and Applications Lecture 32 - The Larmor Precession and NMR Spherical Harmonics using Operator Algebra
Link Quantum Mechanics and Applications Lecture 33 - Addition of Angular Momentum: Clebsch Gordon Coefficient
Link Quantum Mechanics and Applications Lecture 34 - Clebsch Gordon Coefficients
Link Quantum Mechanics and Applications Lecture 35 - The JWKB Approximation
Link Quantum Mechanics and Applications Lecture 36 - The JWKB Approximation: Use of Connection Formulae to solve Eigen value Problems.
Link Quantum Mechanics and Applications Lecture 37 - The JWKB Approximation: Use of Connection Formulae to calculate Tunneling Probability.
Link Quantum Mechanics and Applications Lecture 38 - The JWKB Approximation: Tunneling Probability Calculations and Applications.
Link Quantum Mechanics and Applications Lecture 39 - The JWKB Approximation: Justification of the Connection Formulae
Link Quantum Mechanics and Applications Lecture 40 - Time Independent Perturbation Theory
Link Quantum Mechanics and Applications Lecture 41 - Time Independent Perturbation Theory (Continued...1)
Link Quantum Mechanics and Applications Lecture 42 - Time Independent Perturbation Theory (Continued...2)
Link Semiconductor Optoelectronics Lecture 1 - Context and Scope of the Course
Link Semiconductor Optoelectronics Lecture 2 - Energy Bands in Solids
Link Semiconductor Optoelectronics Lecture 3 - E-K Diagram
Link Semiconductor Optoelectronics Lecture 4 - The Density of States
Link Semiconductor Optoelectronics Lecture 5 - The Density of States (Continued...)
Link Semiconductor Optoelectronics Lecture 6 - The Density of states in a Quantum well Structure
Link Semiconductor Optoelectronics Lecture 7 - Occupation Probability and Carrier Concentration
Link Semiconductor Optoelectronics Lecture 8 - Carrier Concentration and Fermi Level
Link Semiconductor Optoelectronics Lecture 9 - Quasi Fermi Levels
Link Semiconductor Optoelectronics Lecture 10 - Semiconductor Materials
Link Semiconductor Optoelectronics Lecture 11 - Semiconductor Hetrostructures-Lattice-Matched Layers
Link Semiconductor Optoelectronics Lecture 12 - Strained -Layer Epitaxy and Quantum Well Structures
Link Semiconductor Optoelectronics Lecture 13 - Bandgap Engineering
Link Semiconductor Optoelectronics Lecture 14 - Hetrostructure p-n junctions
Link Semiconductor Optoelectronics Lecture 15 - Schottky Junction and Ohmic Contacts
Link Semiconductor Optoelectronics Lecture 16 - Fabrication of Heterostructure Devices
Link Semiconductor Optoelectronics Lecture 17 - Interaction od Photons with Electrons and Holes in a Semiconductor
Link Semiconductor Optoelectronics Lecture 18 - Optical Joint Density of States
Link Semiconductor Optoelectronics Lecture 19 - Rates of Emission and Absorption
Link Semiconductor Optoelectronics Lecture 20 - Amplication by Stimulated Emission
Link Semiconductor Optoelectronics Lecture 21 - The Semiconductor (Laser) Amplifier
Link Semiconductor Optoelectronics Lecture 22 - Absorption Spectrum of Semiconductor
Link Semiconductor Optoelectronics Lecture 23 - Gain and Absorption Spectrum of Quantum Well Structures
Link Semiconductor Optoelectronics Lecture 24 - Electro-absorption Modulator
Link Semiconductor Optoelectronics Lecture 25 - Electro-absorption Modulator - II Device Configuration
Link Semiconductor Optoelectronics Lecture 26 - Mid-Term Revision Question and Discussion
Link Semiconductor Optoelectronics Lecture 27 - Part - III Semiconductor Light Sources
Link Semiconductor Optoelectronics Lecture 28 - Light Emitting Diode-I Device Structure and Parameters
Link Semiconductor Optoelectronics Lecture 29 - Light Emitting Diode-II Device Chracteristics
Link Semiconductor Optoelectronics Lecture 30 - Light Emitting Diode-III Output Characteristics
Link Semiconductor Optoelectronics Lecture 31 - Light Emitting Diode-IV Modulation Bandwidth
Link Semiconductor Optoelectronics Lecture 32 - Light Emitting Diode-V materials and Applications
Link Semiconductor Optoelectronics Lecture 33 - Laser Basics
Link Semiconductor Optoelectronics Lecture 34 - Semiconductor Laser-I Device Structure
Link Semiconductor Optoelectronics Lecture 35 - Semiconductor Laser-II Output Characteristics
Link Semiconductor Optoelectronics Lecture 36 - Semiconductor Laser-III Single Frequency Lasers
Link Semiconductor Optoelectronics Lecture 37 - Vertical Cavity Surface Emitting Laser (VCSEL)
Link Semiconductor Optoelectronics Lecture 38 - Quantum Well Laser
Link Semiconductor Optoelectronics Lecture 39 - Practical Laser Diodes and Handling
Link Semiconductor Optoelectronics Lecture 40 - General Characteristics of Photodetectors
Link Semiconductor Optoelectronics Lecture 41 - Responsivity and Impulse Response
Link Semiconductor Optoelectronics Lecture 42 - Photoconductors
Link Semiconductor Optoelectronics Lecture 43 - Semiconductor Photo-Diodes
Link Semiconductor Optoelectronics Lecture 44 - Semiconductor Photo-Diodes-II : APD
Link Semiconductor Optoelectronics Lecture 45 - Other Photodectors
Link Semiconductor Optoelectronics Lecture 46 - Photonic Integrated Circuits
Link NOC:Semiconductor Optoelectronics Lecture 1 - Context, Scope and Contents of the Course
Link NOC:Semiconductor Optoelectronics Lecture 2 - Energy Bands in Solids
Link NOC:Semiconductor Optoelectronics Lecture 3 - E-k Diagram - The Band Structure
Link NOC:Semiconductor Optoelectronics Lecture 4 - The Density of States
Link NOC:Semiconductor Optoelectronics Lecture 5 - The Density of States ρ(k), ρ(E)
Link NOC:Semiconductor Optoelectronics Lecture 6 - Density of States in a Quantum Well Structure
Link NOC:Semiconductor Optoelectronics Lecture 7 - Occupation Probability and Carrier Concentration
Link NOC:Semiconductor Optoelectronics Lecture 8 - Carrier Concentration and Fermi Level
Link NOC:Semiconductor Optoelectronics Lecture 9 - Quasi Fermi Levels
Link NOC:Semiconductor Optoelectronics Lecture 10 - Semiconductor Materials
Link NOC:Semiconductor Optoelectronics Lecture 11 - Semiconductor Heterostructures-Lattice-Matched Layers
Link NOC:Semiconductor Optoelectronics Lecture 12 - Strained-Layer Epitaxy and Quantum Well Structures
Link NOC:Semiconductor Optoelectronics Lecture 13 - Bandgap Engineering
Link NOC:Semiconductor Optoelectronics Lecture 14 - Heterostructure p-n junctions
Link NOC:Semiconductor Optoelectronics Lecture 15 - Schottky Junctions and Ohmic Contacts
Link NOC:Semiconductor Optoelectronics Lecture 16 - Fabrication of Heterostructure Devices
Link NOC:Semiconductor Optoelectronics Lecture 17 - Interaction of Photons with Electrons and Holes in a Semiconductor
Link NOC:Semiconductor Optoelectronics Lecture 18 - Optical Joint Density of States, and Probabilities of Emission and Absorption
Link NOC:Semiconductor Optoelectronics Lecture 19 - Rates of Emission and Absorption
Link NOC:Semiconductor Optoelectronics Lecture 20 - Amplification by Stimulated Emission
Link NOC:Semiconductor Optoelectronics Lecture 21 - The Semiconductor (Laser) Amplifier
Link NOC:Semiconductor Optoelectronics Lecture 22 - Absorption Spectrum of Semiconductors
Link NOC:Semiconductor Optoelectronics Lecture 23 - Gain and Absorption Spectrum of Quantum Well Structures
Link NOC:Semiconductor Optoelectronics Lecture 24 - Electro-absorption Modulator-I Principle of Operation
Link NOC:Semiconductor Optoelectronics Lecture 25 - Electro-absorption Modulator-II Device Configuration
Link NOC:Semiconductor Optoelectronics Lecture 26 - Injuction Electroluminescence
Link NOC:Semiconductor Optoelectronics Lecture 27 - Light emitting diode-1 Device structure and parameters
Link NOC:Semiconductor Optoelectronics Lecture 28 - Light emitting diode-II Device Characteristics
Link NOC:Semiconductor Optoelectronics Lecture 29 - Light emitting diode-III Output Characteristics
Link NOC:Semiconductor Optoelectronics Lecture 30 - Light emitting diode-IV Modulation Bandwidth
Link NOC:Semiconductor Optoelectronics Lecture 31 - Light emitting diode-V Material and Applications
Link NOC:Semiconductor Optoelectronics Lecture 32 - Laser Basics
Link NOC:Semiconductor Optoelectronics Lecture 33 - Semiconductor Laser-I Device Structure
Link NOC:Semiconductor Optoelectronics Lecture 34 - Semiconductor Laser-II Output Characteristics
Link NOC:Semiconductor Optoelectronics Lecture 35 - Semiconductor Laser-III Single Frequency Lasers
Link NOC:Semiconductor Optoelectronics Lecture 36 - Vertical cavity Surface Emitting Laser (VCSEL)
Link NOC:Semiconductor Optoelectronics Lecture 37 - Quantum Well Laser
Link NOC:Semiconductor Optoelectronics Lecture 38 - Practical Laser Diodes and Handling
Link NOC:Semiconductor Optoelectronics Lecture 39 - General Characteristics of Photodetectors
Link NOC:Semiconductor Optoelectronics Lecture 40 - Responsivity and Impulse Response
Link NOC:Semiconductor Optoelectronics Lecture 41 - Photoconductors
Link NOC:Semiconductor Optoelectronics Lecture 42 - Semiconductor Photo-Diodes-I: PIN Diode
Link NOC:Semiconductor Optoelectronics Lecture 43 - Semiconductor Photo-Diodes-II: APD
Link NOC:Semiconductor Optoelectronics Lecture 44 - Other Photodetectors
Link NOC:Semiconductor Optoelectronics Lecture 45 - Photonic Integrated Circuits
Link NOC:Nuclear and Particle Physics Lecture 1 - Introduction
Link NOC:Nuclear and Particle Physics Lecture 2 - Nuclear Properties
Link NOC:Nuclear and Particle Physics Lecture 3 - Properties of Nuclear Force
Link NOC:Nuclear and Particle Physics Lecture 4 - Deuteron
Link NOC:Nuclear and Particle Physics Lecture 5 - Nucleons Scattering
Link NOC:Nuclear and Particle Physics Lecture 6 - Nuclear Models - I
Link NOC:Nuclear and Particle Physics Lecture 7 - Nuclear Models - II
Link NOC:Nuclear and Particle Physics Lecture 8 - Radioactive Decay - General Properties
Link NOC:Nuclear and Particle Physics Lecture 9 - Nuclear Alpha Decay
Link NOC:Nuclear and Particle Physics Lecture 10 - Nuclear Beta decay
Link NOC:Nuclear and Particle Physics Lecture 11 - Beta-decay details
Link NOC:Nuclear and Particle Physics Lecture 12 - Gamma decay
Link NOC:Nuclear and Particle Physics Lecture 13 - Nuclear Scattering - Preliminaries
Link NOC:Nuclear and Particle Physics Lecture 14 - Types of Reactions
Link NOC:Nuclear and Particle Physics Lecture 15 - Particle Accelerators - I
Link NOC:Nuclear and Particle Physics Lecture 16 - Particle Accelerators - II
Link NOC:Nuclear and Particle Physics Lecture 17 - Detectors
Link NOC:Nuclear and Particle Physics Lecture 18 - Elementary Particles - Introduction and Overview
Link NOC:Nuclear and Particle Physics Lecture 19 - Quark Model - I
Link NOC:Nuclear and Particle Physics Lecture 20 - Quark Model - II
Link NOC:Nuclear and Particle Physics Lecture 21 - Quark Model - III
Link NOC:Nuclear and Particle Physics Lecture 22 - Structure of the Hadron - Nucleus
Link NOC:Nuclear and Particle Physics Lecture 23 - Structure of the Hadron - Proton
Link NOC:Nuclear and Particle Physics Lecture 24 - Deep Inelastic Scattering
Link NOC:Nuclear and Particle Physics Lecture 25 - Relativistic Kinematics
Link NOC:Nuclear and Particle Physics Lecture 26 - Klein-Gordon Equation
Link NOC:Nuclear and Particle Physics Lecture 27 - Interaction of charged scalar with EM field
Link NOC:Nuclear and Particle Physics Lecture 28 - Relativistic Electrodynamics
Link NOC:Nuclear and Particle Physics Lecture 29 - Quantum Electrodynamics
Link NOC:Nuclear and Particle Physics Lecture 30 - Interaction between charged scalars
Link NOC:Nuclear and Particle Physics Lecture 31 - Dirac Equation - 1
Link NOC:Nuclear and Particle Physics Lecture 32 - Dirac Equation - 2
Link NOC:Nuclear and Particle Physics Lecture 33 - Interacting charged fermions - 1
Link NOC:Nuclear and Particle Physics Lecture 34 - Interacting charged fermions - 2
Link NOC:Nuclear and Particle Physics Lecture 35 - Interacting charged fermions - 3
Link NOC:Nuclear and Particle Physics Lecture 36 - Scattering Cross Section Revisited - 1
Link NOC:Nuclear and Particle Physics Lecture 37 - Scattering Cross Section Revisited - 2
Link NOC:Nuclear and Particle Physics Lecture 38 - Weak Interactions - 1
Link NOC:Nuclear and Particle Physics Lecture 39 - Weak Interactions - 2
Link NOC:Nuclear and Particle Physics Lecture 40 - Lagrangian Framework
Link NOC:Nuclear and Particle Physics Lecture 41 - Gauge Symmetry - U(1)
Link NOC:Nuclear and Particle Physics Lecture 42 - Electroweak Theory - 1
Link NOC:Nuclear and Particle Physics Lecture 43 - Electroweak Theory - 2
Link NOC:Nuclear and Particle Physics Lecture 44 - SSB and the Higgs Mechanism
Link NOC:Advanced Condensed Matter Physics Lecture 1 - Propagators - I
Link NOC:Advanced Condensed Matter Physics Lecture 2 - Propagators - II
Link NOC:Advanced Condensed Matter Physics Lecture 3 - Second quantization - I
Link NOC:Advanced Condensed Matter Physics Lecture 4 - Second quantization - II
Link NOC:Advanced Condensed Matter Physics Lecture 5 - Second quantized Hamiltonian
Link NOC:Advanced Condensed Matter Physics Lecture 6 - Tight Binding Hamiltonian, Hubbard model
Link NOC:Advanced Condensed Matter Physics Lecture 7 - Magnetism
Link NOC:Advanced Condensed Matter Physics Lecture 8 - Singlet and Triplet State: Magnetic Hamiltonian
Link NOC:Advanced Condensed Matter Physics Lecture 9 - Antiferromagnetism in Hubbard model
Link NOC:Advanced Condensed Matter Physics Lecture 10 - Green's function and representations in quantum mechanics
Link NOC:Advanced Condensed Matter Physics Lecture 11 - S matrix and free electron Green's function
Link NOC:Advanced Condensed Matter Physics Lecture 12 - Wick's theorem and normal ordering
Link NOC:Advanced Condensed Matter Physics Lecture 13 - Green's function and Feynman diagrams
Link NOC:Advanced Condensed Matter Physics Lecture 14 - Feynman diagram
Link NOC:Advanced Condensed Matter Physics Lecture 15 - phonon Green' function and Hartree Fock approaximation
Link NOC:Advanced Condensed Matter Physics Lecture 16 - Finite temperature Green's function and Matsubara frequencies
Link NOC:Advanced Condensed Matter Physics Lecture 17 - Dyson's equation and disorder in electronic systems
Link NOC:Advanced Condensed Matter Physics Lecture 18 - Introduction to electrodynamics, Meissner effect
Link NOC:Advanced Condensed Matter Physics Lecture 19 - London penetration depth, Type I and II superconductors
Link NOC:Advanced Condensed Matter Physics Lecture 20 - Cooper's problem, BCS gap equation
Link NOC:Advanced Condensed Matter Physics Lecture 21 - BCS theory, Transition temperature
Link NOC:Advanced Condensed Matter Physics Lecture 22 - Ginzburg Landau Theory, Coherence length and penetration depth
Link NOC:Advanced Condensed Matter Physics Lecture 23 - Quantum Hall Effect
Link NOC:Advanced Condensed Matter Physics Lecture 24 - Spin Hall effect, 2D topological insulator
Link NOC:Advanced Condensed Matter Physics Lecture 25 - Bose-Einstein condensation
Link NOC:Advanced Quantum Mechanics with Applications Lecture 1 - Introduction, Postulates of Quantum Mechanics
Link NOC:Advanced Quantum Mechanics with Applications Lecture 2 - Stern Gerlach Experiment, Spin Quantization, Young's Double Slit Experiment
Link NOC:Advanced Quantum Mechanics with Applications Lecture 3 - The Mathematical Formalism of Quantum Mechanics, Uncertainty Principle
Link NOC:Advanced Quantum Mechanics with Applications Lecture 4 - The Density Matrix Formalism, Expectation values of Operators
Link NOC:Advanced Quantum Mechanics with Applications Lecture 5 - Qunatum Harmonic Oscillator, Creation and annihilation Operators
Link NOC:Advanced Quantum Mechanics with Applications Lecture 6 - Coherent States and their Properties
Link NOC:Advanced Quantum Mechanics with Applications Lecture 7 - Applications of Coherent States, squeezed states
Link NOC:Advanced Quantum Mechanics with Applications Lecture 8 - Symmetries and Conservational Principles in Quantum Mechanics
Link NOC:Advanced Quantum Mechanics with Applications Lecture 9 - Rotation Operator and Invariance of Angular Momentum, Parity
Link NOC:Advanced Quantum Mechanics with Applications Lecture 10 - Spherically Symmetric System and Applications to quantum dots
Link NOC:Advanced Quantum Mechanics with Applications Lecture 11 - Spin Angular Momentum, Addition of Angular Momentum, Clebsch gordan coefficients
Link NOC:Advanced Quantum Mechanics with Applications Lecture 12 - Magnetic Hamiltonian, Heisenberg Model
Link NOC:Advanced Quantum Mechanics with Applications Lecture 13 - Nuclear Magnetic Resonance (NMR)
Link NOC:Advanced Quantum Mechanics with Applications Lecture 14 - Applications of NMR, time evolution of Magnetic Moments
Link NOC:Advanced Quantum Mechanics with Applications Lecture 15 - Introduction to Quantum Computing
Link NOC:Advanced Quantum Mechanics with Applications Lecture 16 - Qubits,EPR Paradox
Link NOC:Advanced Quantum Mechanics with Applications Lecture 17 - Quantum Entanglement (QE)
Link NOC:Advanced Quantum Mechanics with Applications Lecture 18 - Teleportation, Quantum Teleportation for one spin
Link NOC:Advanced Quantum Mechanics with Applications Lecture 19 - Entangled state for two spins
Link NOC:Advanced Quantum Mechanics with Applications Lecture 20 - Quantum Gates, Walsh Hadamard Transportation, No cloning theorem
Link NOC:Advanced Quantum Mechanics with Applications Lecture 21 - Perturbation Theory
Link NOC:Advanced Quantum Mechanics with Applications Lecture 22 - Stark Effect: First order in ground state
Link NOC:Advanced Quantum Mechanics with Applications Lecture 23 - Stark Effect: Second order in ground state
Link NOC:Advanced Quantum Mechanics with Applications Lecture 24 - Variational method, Variation of constants, Upper bound on ground state energy
Link NOC:Advanced Quantum Mechanics with Applications Lecture 25 - Application of Variational method,Hydrogen,Helium atom,Comparison with perturbation theory
Link NOC:Advanced Quantum Mechanics with Applications Lecture 26 - WKB Approximation, Bohr Sommerfeld quantization condition
Link NOC:Advanced Quantum Mechanics with Applications Lecture 27 - Summary of Approximation methods, Time dependent Perturbation Theory
Link NOC:Advanced Quantum Mechanics with Applications Lecture 28 - Time dependent Perturbation Theory, Fermi's Golden rule, Einstein's A and B coefficients
Link NOC:Advanced Quantum Mechanics with Applications Lecture 29 - Scattering Theory
Link NOC:Advanced Quantum Mechanics with Applications Lecture 30 - Linear Response Theory: Derivation of Kubo formula
Link NOC:Advanced Quantum Mechanics with Applications Lecture 31 - Quantum Dynamics: Two level system
Link NOC:Advanced Quantum Mechanics with Applications Lecture 32 - Examples
Link NOC:Advanced Quantum Mechanics with Applications Lecture 33 - Interaction of Radiation with matter, Landau levels
Link NOC:A Brief Course on Superconductivity Lecture 1 - Historical introduction of superconductivity
Link NOC:A Brief Course on Superconductivity Lecture 2 - Meissner effect, Electrodynamics of Superconductors, coherence length and penetration depth
Link NOC:A Brief Course on Superconductivity Lecture 3 - Electron Pairing, Basics of BCS Theory
Link NOC:A Brief Course on Superconductivity Lecture 4 - BCS ground state, variational calculation, expression for Tc
Link NOC:A Brief Course on Superconductivity Lecture 5 - Order parameter, Free energy functional, Ginzburg-Landau (GL) Theory, GL equations
Link NOC:A Brief Course on Superconductivity Lecture 6 - London Equations, Flux quantization
Link NOC:A Brief Course on Superconductivity Lecture 7 - Thermodynamic properties of superconductors, specific heat
Link NOC:A Brief Course on Superconductivity Lecture 8 - Experimental determination of Superconducting properties
Link NOC:A Brief Course on Superconductivity Lecture 9 - Unconventional Superconductivity, Uemura plot, High-Tc superconductivity, d-wave pairing, ARPES
Link NOC:A Brief Course on Superconductivity Lecture 10 - Singlet and triplet states of two s =1/2, magnetic Hamiltonian
Link NOC:A Brief Course on Superconductivity Lecture 11 - t-J model, discrete symmetry groups, example square lattice
Link NOC:A Brief Course on Superconductivity Lecture 12 - Cuprate Superconductors, electron vs hole doped superconductors
Link NOC:A Brief Course on Superconductivity Lecture 13 - Non-Fermi Liquid Theory, Adiabatic continuity
Link NOC:A Brief Course on Superconductivity Lecture 14 - Quasiparticle lifetime, breakdown of Fermi Liquid Theory in cuprate superconductors
Link NOC:A Brief Course on Superconductivity Lecture 15 - Josephson junctions, Josephson equations
Link NOC:A Brief Course on Superconductivity Lecture 16 - Numerical Differentiation
Link NOC:A Brief Course on Superconductivity Lecture 17 - Richardson's extrapolation
Link NOC:Introduction to Statistical Mechanics Lecture 1 - Prerequisites and Introduction
Link NOC:Introduction to Statistical Mechanics Lecture 2 - Combinatorics and Entropy
Link NOC:Introduction to Statistical Mechanics Lecture 3 - Method of steepest descent
Link NOC:Introduction to Statistical Mechanics Lecture 4 - Bose and Fermi gases
Link NOC:Introduction to Statistical Mechanics Lecture 5 - Maxwell Boltzmann distribution
Link NOC:Introduction to Statistical Mechanics Lecture 6 - Thermodynamic potentials
Link NOC:Introduction to Statistical Mechanics Lecture 7 - Legendre transformation
Link NOC:Introduction to Statistical Mechanics Lecture 8 - Specific heats of quantum gases
Link NOC:Introduction to Statistical Mechanics Lecture 9 - Low and high temperature equations of state
Link NOC:Introduction to Statistical Mechanics Lecture 10 - Chandrasekhar Limit
Link NOC:Introduction to Statistical Mechanics Lecture 11 - Radiation thermodynamics
Link NOC:Introduction to Statistical Mechanics Lecture 12 - Thermodyamics of black holes
Link NOC:Introduction to Statistical Mechanics Lecture 13 - Van der Waals fluid
Link NOC:Introduction to Statistical Mechanics Lecture 14 - Landau Diamagnetism
Link NOC:Introduction to Statistical Mechanics Lecture 15 - Relations between ensembles and Pauli paramagnetism
Link NOC:Introduction to Statistical Mechanics Lecture 16 - Ferromagnetism
Link NOC:Introduction to Statistical Mechanics Lecture 17 - Correlations and Mean Field
Link NOC:Introduction to Statistical Mechanics Lecture 18 - Theories of Specific Heat of Solids
Link NOC:Introduction to Statistical Mechanics Lecture 19 - Tutorial - I
Link NOC:Introduction to Statistical Mechanics Lecture 20 - Tutorial - II
Link NOC:Introduction to Statistical Mechanics Lecture 21 - Tutorial - III
Link NOC:Introduction to Statistical Mechanics Lecture 22 - Tutorial - IV
Link NOC:Introduction to Statistical Mechanics Lecture 23 - Tutorial - V
Link NOC:Introduction to Statistical Mechanics Lecture 24 - RG method Ising model
Link NOC:Introduction to Statistical Mechanics Lecture 25 - Introduction to Second Quantisation: Harmonic Oscillator
Link NOC:Introduction to Statistical Mechanics Lecture 26 - Quantum Theory of EM Field - I
Link NOC:Introduction to Statistical Mechanics Lecture 27 - Quantum Theory of EM Field - II
Link NOC:Introduction to Statistical Mechanics Lecture 28 - Creation and Annihilation in Fock Space - I
Link NOC:Introduction to Statistical Mechanics Lecture 29 - Creation and Annihilation in Fock Space - II
Link NOC:Introduction to Statistical Mechanics Lecture 30 - Green functions in many particle systems
Link NOC:Introduction to Statistical Mechanics Lecture 31 - Second quantised hamiltonians
Link NOC:Introduction to Statistical Mechanics Lecture 32 - Current algebra
Link NOC:Numerical Methods and Simulation Techniques for Scientists and Engineers Lecture 1 - Error analysis and estimates, significant digits, convergence
Link NOC:Numerical Methods and Simulation Techniques for Scientists and Engineers Lecture 2 - Roots of Non-linear equations, Bisection method
Link NOC:Numerical Methods and Simulation Techniques for Scientists and Engineers Lecture 3 - Newton Raphson method, Secant method
Link NOC:Numerical Methods and Simulation Techniques for Scientists and Engineers Lecture 4 - Newton Raphson Method
Link NOC:Numerical Methods and Simulation Techniques for Scientists and Engineers Lecture 5 - Newton Raphson Method (example), Curve fitting and interpolation of data
Link NOC:Numerical Methods and Simulation Techniques for Scientists and Engineers Lecture 6 - Newton’s interpolation formula, statistical interpolation of data
Link NOC:Numerical Methods and Simulation Techniques for Scientists and Engineers Lecture 7 - Linear and Polynomial regression
Link NOC:Numerical Methods and Simulation Techniques for Scientists and Engineers Lecture 8 - Numerical differentiation
Link NOC:Numerical Methods and Simulation Techniques for Scientists and Engineers Lecture 9 - Numerical differentiation, Error analysis
Link NOC:Numerical Methods and Simulation Techniques for Scientists and Engineers Lecture 10 - Numerical integration, Trapezoidal rule
Link NOC:Numerical Methods and Simulation Techniques for Scientists and Engineers Lecture 11 - Simpson’s 1/3rd rule
Link NOC:Numerical Methods and Simulation Techniques for Scientists and Engineers Lecture 12 - Simpson’s 1/3rd rule, Gaussian integration
Link NOC:Numerical Methods and Simulation Techniques for Scientists and Engineers Lecture 13 - Ordinary Differential equations
Link NOC:Numerical Methods and Simulation Techniques for Scientists and Engineers Lecture 14 - Solution of differential equation, Taylor series and Euler method
Link NOC:Numerical Methods and Simulation Techniques for Scientists and Engineers Lecture 15 - Heun’s method
Link NOC:Numerical Methods and Simulation Techniques for Scientists and Engineers Lecture 16 - Runge Kutta method
Link NOC:Numerical Methods and Simulation Techniques for Scientists and Engineers Lecture 17 - Examples of differential equation: Heat conduction equation
Link NOC:Numerical Methods and Simulation Techniques for Scientists and Engineers Lecture 18 - Introduction to Monte Carlo technique
Link NOC:Numerical Methods and Simulation Techniques for Scientists and Engineers Lecture 19 - Details of the Monte Carlo method
Link NOC:Numerical Methods and Simulation Techniques for Scientists and Engineers Lecture 20 - Importance sampling
Link NOC:Numerical Methods and Simulation Techniques for Scientists and Engineers Lecture 21 - Applications: Ising model
Link NOC:Numerical Methods and Simulation Techniques for Scientists and Engineers Lecture 22 - Introduction to Molecular Dynamics
Link NOC:Numerical Methods and Simulation Techniques for Scientists and Engineers Lecture 23 - Verlet algorithm
Link NOC:Numerical Methods and Simulation Techniques for Scientists and Engineers Lecture 24 - Applications of Molecular dynamics
Link NOC:Theoretical Mechanics Lecture 1 - Introduction, Constraints
Link NOC:Theoretical Mechanics Lecture 2 - Generalized Coordinates, Configuration Space
Link NOC:Theoretical Mechanics Lecture 3 - Principle of Virtual Work
Link NOC:Theoretical Mechanics Lecture 4 - D'Alembert's Principle
Link NOC:Theoretical Mechanics Lecture 5 - Lagrange's Equations
Link NOC:Theoretical Mechanics Lecture 6 - Hamilton's Principle
Link NOC:Theoretical Mechanics Lecture 7 - Variational Calculus, Lagrange's Equations
Link NOC:Theoretical Mechanics Lecture 8 - Conservation Laws and Symmetries
Link NOC:Theoretical Mechanics Lecture 9 - Velocity Dependent Potentials, Non-holonomic Constraints
Link NOC:Theoretical Mechanics Lecture 10 - An Example: Hoop on a ramp
Link NOC:Theoretical Mechanics Lecture 11 - Phase Space
Link NOC:Theoretical Mechanics Lecture 12 - Legendre Transforms
Link NOC:Theoretical Mechanics Lecture 13 - Hamilton's Equations
Link NOC:Theoretical Mechanics Lecture 14 - Conservation Laws, Routh's procedure
Link NOC:Theoretical Mechanics Lecture 15 - An Example:Bead on Spinning Ring
Link NOC:Theoretical Mechanics Lecture 16 - Canonical Transformations
Link NOC:Theoretical Mechanics Lecture 17 - Symplectic Condition
Link NOC:Theoretical Mechanics Lecture 18 - Canonical Invariants, Harmonic Oscillator
Link NOC:Theoretical Mechanics Lecture 19 - Poisson Bracket Formulation
Link NOC:Theoretical Mechanics Lecture 20 - Infinitesimal Canonical Transformations
Link NOC:Theoretical Mechanics Lecture 21 - Symmetry Groups of Mechanical Systems
Link NOC:Theoretical Mechanics Lecture 22 - Hamilton Jacobi Theory
Link NOC:Theoretical Mechanics Lecture 23 - Action-Angle Variables
Link NOC:Theoretical Mechanics Lecture 24 - Separation of Variables and Examples
Link NOC:Theoretical Mechanics Lecture 25 - Continuous Systems and Fields
Link NOC:Theoretical Mechanics Lecture 26 - The Stress-Energy Tensor
Link NOC:Theoretical Mechanics Lecture 27 - Hamiltonian Formulation
Link Nuclear Physics: Fundamentals and Applications Lecture 1 - Brief Overview of the course
Link Nuclear Physics: Fundamentals and Applications Lecture 2 - Nuclear Size
Link Nuclear Physics: Fundamentals and Applications Lecture 3 - Nuclear Size (Continued...)
Link Nuclear Physics: Fundamentals and Applications Lecture 4 - Nuclear Size (Continued...)
Link Nuclear Physics: Fundamentals and Applications Lecture 5 - Semi empirical Mass Formula
Link Nuclear Physics: Fundamentals and Applications Lecture 6 - Semi empirical Mass Formula (Continued...)
Link Nuclear Physics: Fundamentals and Applications Lecture 7 - Semi empirical Mass Formula (Continued...)
Link Nuclear Physics: Fundamentals and Applications Lecture 8 - Semi empirical Mass Formula (Continued...)
Link Nuclear Physics: Fundamentals and Applications Lecture 9 - Semi empirical Mass Formula (Continued...)
Link Nuclear Physics: Fundamentals and Applications Lecture 10 - How are Neutron stars bound
Link Nuclear Physics: Fundamentals and Applications Lecture 11 - Deuteron
Link Nuclear Physics: Fundamentals and Applications Lecture 12 - Deuteron (Continued...)
Link Nuclear Physics: Fundamentals and Applications Lecture 13 - Deuteron (Continued...)
Link Nuclear Physics: Fundamentals and Applications Lecture 14 - Scattering of nucleons
Link Nuclear Physics: Fundamentals and Applications Lecture 15 - Low energy n-p scattering
Link Nuclear Physics: Fundamentals and Applications Lecture 16 - Theories of nuclear forces
Link Nuclear Physics: Fundamentals and Applications Lecture 17 - Shell model
Link Nuclear Physics: Fundamentals and Applications Lecture 18 - Shell model (Continued...)
Link Nuclear Physics: Fundamentals and Applications Lecture 19 - Shell model (Continued...)
Link Nuclear Physics: Fundamentals and Applications Lecture 20 - Shell model (Continued...)
Link Nuclear Physics: Fundamentals and Applications Lecture 21 - Shell model (Continued...)
Link Nuclear Physics: Fundamentals and Applications Lecture 22 - Collective models
Link Nuclear Physics: Fundamentals and Applications Lecture 23 - Vibrational and Rotational levels
Link Nuclear Physics: Fundamentals and Applications Lecture 24 - Radioactivity, Alpha Decay
Link Nuclear Physics: Fundamentals and Applications Lecture 25 - Alpha decay (Continued...)
Link Nuclear Physics: Fundamentals and Applications Lecture 26 - Beta decay
Link Nuclear Physics: Fundamentals and Applications Lecture 27 - Beta decay (Continued...)
Link Nuclear Physics: Fundamentals and Applications Lecture 28 - Beta decay (Continued...)
Link Nuclear Physics: Fundamentals and Applications Lecture 29 - Gamma decay
Link Nuclear Physics: Fundamentals and Applications Lecture 30 - Nuclear Reactions
Link Nuclear Physics: Fundamentals and Applications Lecture 31 - Nuclear reaction (Continued...)
Link Nuclear Physics: Fundamentals and Applications Lecture 32 - Nuclear reaction (Continued...)
Link Nuclear Physics: Fundamentals and Applications Lecture 33 - Nuclear Fission basics
Link Nuclear Physics: Fundamentals and Applications Lecture 34 - Nuclear fission of uranium
Link Nuclear Physics: Fundamentals and Applications Lecture 35 - Nuclear Fission Reactor
Link Nuclear Physics: Fundamentals and Applications Lecture 36 - Nuclear Energy Programme of India
Link Nuclear Physics: Fundamentals and Applications Lecture 37 - Nuclear Fusion
Link Nuclear Physics: Fundamentals and Applications Lecture 38 - Nuclear fusion (Continued...)
Link Nuclear Physics: Fundamentals and Applications Lecture 39 - Thermonuclear fusion reactors
Link Nuclear Physics: Fundamentals and Applications Lecture 40 - Fusion reactions in Stars and stellar neutrinos
Link Nuclear Physics: Fundamentals and Applications Lecture 41 - Nucleosynthesis of elements in Stars
Link Nuclear Physics: Fundamentals and Applications Lecture 42 - Mossbauer Spectroscopy
Link Nuclear Physics: Fundamentals and Applications Lecture 43 - RBS, PIXE, NAA, Summary
Link NOC:Introduction to Electromagnetism Lecture 1 - Coloumb's Law
Link NOC:Introduction to Electromagnetism Lecture 2 - Coloumb's Force due to several Point charges
Link NOC:Introduction to Electromagnetism Lecture 3 - Force due to distribution of Charges
Link NOC:Introduction to Electromagnetism Lecture 4 - What is an Electric Field?
Link NOC:Introduction to Electromagnetism Lecture 5 - Electric Field due to a Charged Distribution
Link NOC:Introduction to Electromagnetism Lecture 6 - Helmholtz's Theorem for Electric Field
Link NOC:Introduction to Electromagnetism Lecture 7 - Divergence of a Field
Link NOC:Introduction to Electromagnetism Lecture 8 - Divergence of Electric Field & Gauss's Law
Link NOC:Introduction to Electromagnetism Lecture 9 - Curl Of a Field - I
Link NOC:Introduction to Electromagnetism Lecture 10 - Curl of a Field - II & Stokes' Theorem
Link NOC:Introduction to Electromagnetism Lecture 11 - Line surface area & volume elements in Cartesian & Cylindrical Coordinates
Link NOC:Introduction to Electromagnetism Lecture 12 - Line surface area & volume elements in Spherical Polar Coordinates
Link NOC:Introduction to Electromagnetism Lecture 13 - Examples of application of the divergence and stokes' theorems
Link NOC:Introduction to Electromagnetism Lecture 14 - Electrostatic Potential
Link NOC:Introduction to Electromagnetism Lecture 15 - Electric field as the gradient of electrostatic potential
Link NOC:Introduction to Electromagnetism Lecture 16 - Laplace's and Poisson's equations for electrostatic potential
Link NOC:Introduction to Electromagnetism Lecture 17 - Elecrostatic potential due to a charge distribution - I; a line charge of finite length
Link NOC:Introduction to Electromagnetism Lecture 18 - Elecrostatic potential due to a charge distribution - II;a ring and a spherical shell of charge
Link NOC:Introduction to Electromagnetism Lecture 19 - Uniqueness of the solution of Laplace's and Poisson's equations
Link NOC:Introduction to Electromagnetism Lecture 20 - Method of images I: point charge in front of a grounded metallic plane - I
Link NOC:Introduction to Electromagnetism Lecture 21 - Method of imagesII: point charge in front of a grounded metallic plane and grounded metal sphere
Link NOC:Introduction to Electromagnetism Lecture 22 - Laplaces equations in some other physical phenomena
Link NOC:Introduction to Electromagnetism Lecture 23 - Energy of a charge distribution - I
Link NOC:Introduction to Electromagnetism Lecture 24 - Energy of a charge distribution - II An example
Link NOC:Introduction to Electromagnetism Lecture 25 - Energy of a charge distribution - III Energy density in terms of electric field
Link NOC:Introduction to Electromagnetism Lecture 26 - Electric field and potential in a conductor
Link NOC:Introduction to Electromagnetism Lecture 27 - Reciprocity theorem for conductors - I
Link NOC:Introduction to Electromagnetism Lecture 28 - Reciprocity theorem for conductors - II
Link NOC:Introduction to Electromagnetism Lecture 29 - Electric polarization and bound charges - I
Link NOC:Introduction to Electromagnetism Lecture 30 - Electric polarization and bound charges - II
Link NOC:Introduction to Electromagnetism Lecture 31 - Electric Displacement
Link NOC:Introduction to Electromagnetism Lecture 32 - Elecrostatics in presence of Dielectric Materials - I
Link NOC:Introduction to Electromagnetism Lecture 33 - Elecrostatics in presence of Dielectric Materials - II
Link NOC:Introduction to Electromagnetism Lecture 34 - Introduction to Magnetostatics; The BiO-Savart law
Link NOC:Introduction to Electromagnetism Lecture 35 - Divergence and curl of Magnetic Field
Link NOC:Introduction to Electromagnetism Lecture 36 - Amperes law for Magnetic Fields
Link NOC:Introduction to Electromagnetism Lecture 37 - Vector Potential for Magnetic Fields
Link NOC:Introduction to Electromagnetism Lecture 38 - Calculation of Vector Potential for a given magnetic field
Link NOC:Introduction to Electromagnetism Lecture 39 - Equation for the Vector Potentialin terms of current density
Link NOC:Introduction to Electromagnetism Lecture 40 - Vector potential from Current Densities - I
Link NOC:Introduction to Electromagnetism Lecture 41 - Vector potential from Current Densities - II
Link NOC:Introduction to Electromagnetism Lecture 42 - Magnetic Materials - I
Link NOC:Introduction to Electromagnetism Lecture 43 - Magnetic Materials - II Bound Current Densities
Link NOC:Introduction to Electromagnetism Lecture 44 - The Auxiliary Field - H
Link NOC:Introduction to Electromagnetism Lecture 45 - Solving for Magnetic Field of a magnet - I
Link NOC:Introduction to Electromagnetism Lecture 46 - Solving for Magnetic Field of a magnet in presence of Magnetic Materials
Link NOC:Introduction to Electromagnetism Lecture 47 - Faradays Law
Link NOC:Introduction to Electromagnetism Lecture 48 - Induced Electric field due to changing Magnetic Field
Link NOC:Introduction to Electromagnetism Lecture 49 - Demonstrations on faradays law, Lenzs law and Nonconservative nature of Induced electric field
Link NOC:Introduction to Electromagnetism Lecture 50 - Energy stord in a magnetic Field-I
Link NOC:Introduction to Electromagnetism Lecture 51 - Energy stord in a magnetic Field-I;solved examples
Link NOC:Introduction to Electromagnetism Lecture 52 - Displacement Current
Link NOC:Introduction to Electromagnetism Lecture 53 - Quasistatic approximation
Link NOC:Introduction to Electromagnetism Lecture 54 - Energy transport by electromagnetic fields; The Poynting Vector
Link NOC:Introduction to Electromagnetism Lecture 55 - The Poynting Vector;solved examples
Link NOC:Introduction to Electromagnetism Lecture 56 - Linear Momentum and Angular Momentum carried by Electromagnetic Fields
Link NOC:Introduction to Electromagnetism Lecture 57
Link NOC:Introduction to Electromagnetism Lecture 58
Link NOC:Introduction to Electromagnetism Lecture 59
Link NOC:Introduction to Electromagnetism Lecture 60
Link NOC:Introduction to Electromagnetism Lecture 61
Link NOC:Introduction to Electromagnetism Lecture 62
Link NOC:Introduction to Electromagnetism Lecture 63
Link NOC:Introduction to Electromagnetism Lecture 64
Link NOC:Introduction to Electromagnetism Lecture 65
Link NOC:Introduction to Electromagnetism Lecture 66 - Solution Assignment 1 - Problems 1 to 3
Link NOC:Introduction to Electromagnetism Lecture 67 - Solution Assignment 1 - Problems 4 to 9
Link NOC:Introduction to Electromagnetism Lecture 68 - Solution Assignment 2 - Problems 1 to 4
Link NOC:Introduction to Electromagnetism Lecture 69 - Solution Assignment 2 - Problems 5 to 11
Link NOC:Introduction to Electromagnetism Lecture 70 - Solution Assignment 3 - Problems 1 to 5
Link NOC:Introduction to Electromagnetism Lecture 71 - Solution Assignment 3 - Problems 6 to 10
Link NOC:Introduction to Electromagnetism Lecture 72 - Solution Assignment 4- Problems 1 to 5
Link NOC:Introduction to Electromagnetism Lecture 73 - Solution Assignment 4- Problems 6 to 10
Link NOC:Introduction to Electromagnetism Lecture 74 - Solution Assignment 5- Problems 6 to 11
Link NOC:Introduction to Electromagnetism Lecture 75 - Solution Assignment 5- Problems 1to 5
Link NOC:Introduction to Electromagnetism Lecture 76 - Solution Assignment 6- Problems 1 to 4
Link NOC:Introduction to Electromagnetism Lecture 77 - Solution Assignment 6- Problems 5 to 8
Link NOC:Introduction to Electromagnetism Lecture 78 - Solution Problem Set 7
Link NOC:Engineering Mechanics Lecture 1 - Introduction to Vectors
Link NOC:Engineering Mechanics Lecture 2 - Addition and subtraction of vectors
Link NOC:Engineering Mechanics Lecture 3 - Multiplying vectors
Link NOC:Engineering Mechanics Lecture 4 - Introduction to vectors: solved examples - I
Link NOC:Engineering Mechanics Lecture 5 - Transformation of vectors under rotation
Link NOC:Engineering Mechanics Lecture 6 - Vector products and their geometric interpretation
Link NOC:Engineering Mechanics Lecture 7 - Vector Product: Kronecker Delta and Levi-Civita symbols - I
Link NOC:Engineering Mechanics Lecture 8 - Vector Product: Kronecker Delta and Levi-Civita symbols - II
Link NOC:Engineering Mechanics Lecture 9 - Introduction to vectors: solved examples - II
Link NOC:Engineering Mechanics Lecture 10 - Equilibrium of rigid bodies – Forces and torques
Link NOC:Engineering Mechanics Lecture 11 - Calculating torques and couple moments - I
Link NOC:Engineering Mechanics Lecture 12 - Calculating torques and couple moments - II
Link NOC:Engineering Mechanics Lecture 13 - Finding a force and a couple equivalent to an applied force
Link NOC:Engineering Mechanics Lecture 14 - Different elements and associated forces and torques - I
Link NOC:Engineering Mechanics Lecture 15 - Different elements and associated forces and torques - II
Link NOC:Engineering Mechanics Lecture 16 - Solved examples; equilibrium of bodies – I
Link NOC:Engineering Mechanics Lecture 17 - Solved examples; equilibrium of bodies – II
Link NOC:Engineering Mechanics Lecture 18 - Forces in different geometric configuration
Link NOC:Engineering Mechanics Lecture 19 - Plane trusses I - building a truss and condition for it to be statically determinate
Link NOC:Engineering Mechanics Lecture 20 - Plane trusses II - calculating forces in a simple truss and different types of trusses
Link NOC:Engineering Mechanics Lecture 21 - Plane trusses III - calculating forces in a simple truss by method of joints
Link NOC:Engineering Mechanics Lecture 22 - Plane trusses IV- Solved examples for calculating forces in a simple truss by method of joints
Link NOC:Engineering Mechanics Lecture 23 - Plane trusses V - Solved examples for calculating forces in a simple truss by method of joints
Link NOC:Engineering Mechanics Lecture 24 - Plane trusses VI - method of sections for calculating forces in a simple truss
Link NOC:Engineering Mechanics Lecture 25 - Dry friction I - introduction with an example
Link NOC:Engineering Mechanics Lecture 26 - Dry friction II - a solved example
Link NOC:Engineering Mechanics Lecture 27 - Dry friction III - Dry thrust bearing and belt friction with demonstration
Link NOC:Engineering Mechanics Lecture 28 - Dry friction IV - Screw friction and rolling friction
Link NOC:Engineering Mechanics Lecture 29 - Dry friction V - Solved examples
Link NOC:Engineering Mechanics Lecture 30 - Properties of plane surfaces I - First moment and centroid of an area
Link NOC:Engineering Mechanics Lecture 31 - Properties of plane surfaces II - Centroid of an area made by joining several plane surfaces
Link NOC:Engineering Mechanics Lecture 32 - Properties of plane surfaces III - Centroid of a distributed force and its relation with centre of gravity
Link NOC:Engineering Mechanics Lecture 33 - Properties of plane surfaces IV - solved examples of calculation of first moment and centroid of distributed forces
Link NOC:Engineering Mechanics Lecture 34 - Properties of plane surfaces V- Second moment and product of an area and radius of gyration
Link NOC:Engineering Mechanics Lecture 35 - Properties of plane surfaces VI - Parallel axis transfer theorem for second moment and product of an area
Link NOC:Engineering Mechanics Lecture 36 - Properties of plane surfaces VII - transformation of second moment and product of an area under rotation of coordinate axes
Link NOC:Engineering Mechanics Lecture 37 - Properties of plane surfaces VIII - second moment and product of an area, solved examples
Link NOC:Engineering Mechanics Lecture 38 - Method of virtual work I - degrees of freedom, constraints and constraint forces
Link NOC:Engineering Mechanics Lecture 39 - Method of virtual work II - virtual displacement, virtual work and equilibrium condition in terms of virtual work
Link NOC:Engineering Mechanics Lecture 40 - Method of virtual work III - solved examples
Link NOC:Engineering Mechanics Lecture 41 - Motion of a particle in a plane in terms of planar polar coordinates
Link NOC:Engineering Mechanics Lecture 42 - Planar polar coordinates: solved examples
Link NOC:Engineering Mechanics Lecture 43 - Description of motion in cylindrical and spherical coordinate systems
Link NOC:Engineering Mechanics Lecture 44 - Using planar polar, cylindrical and spherical coordinate systems: solved examples
Link NOC:Engineering Mechanics Lecture 45 - Motion with constraints, constraint forces and free body diagram
Link NOC:Engineering Mechanics Lecture 46 - Motion with constraints – solved examples
Link NOC:Engineering Mechanics Lecture 47 - Motion with dry friction – solved examples
Link NOC:Engineering Mechanics Lecture 48 - Motion with drag – solved examples
Link NOC:Engineering Mechanics Lecture 49 - Equation of motion in terms of linear momentum and the principle of conservation of linear momentum
Link NOC:Engineering Mechanics Lecture 50 - Linear momentum and centre of mass
Link NOC:Engineering Mechanics Lecture 51 - Momentum transfer, impulse and force due to a stream of particles hitting an object
Link NOC:Engineering Mechanics Lecture 52 - Momentum and the variable mass problem
Link NOC:Engineering Mechanics Lecture 53 - Linear momentum – solved examples
Link NOC:Engineering Mechanics Lecture 54 - Work and energy I - work energy theorem; conservative and non-conservative force fields
Link NOC:Engineering Mechanics Lecture 55 - Work and energy II - Definition of potential energy for conservative forces; total mechanical energy and the principle of conservation of energy
Link NOC:Engineering Mechanics Lecture 56 - Work and energy III - Two solved examples using conservation principles
Link NOC:Engineering Mechanics Lecture 57 - Work and energy IV – Further discussion on potential energy
Link NOC:Engineering Mechanics Lecture 58 - Work and energy V - Solved examples
Link NOC:Engineering Mechanics Lecture 59 - Work and energy VI – Applying conservation principles to solve a collision problem
Link NOC:Engineering Mechanics Lecture 60 - Work and energy VII - Solved examples
Link NOC:Engineering Mechanics Lecture 61 - Rigid body motion I - degrees of freedom and number of variables required to describe motion of a rigid body
Link NOC:Engineering Mechanics Lecture 62 - Rigid body motion II - Equation of motion for a single particle in terms of angular momentum and torque; motion of a conical pendulum
Link NOC:Engineering Mechanics Lecture 63 - Rigid body motion III - Conservation of angular momentum; angular momentum for a collection of particles
Link NOC:Engineering Mechanics Lecture 64 - Rigid body motion IV - applying angular momentum conservation, a solved example
Link NOC:Engineering Mechanics Lecture 65 - Rigid body motion V (fixed axis rotation) - some demonstrations of conservation of angular momentum about fixed axis
Link NOC:Engineering Mechanics Lecture 66 - Rigid body motion VI (fixed axis rotation) - Some more demonstrations and related problems
Link NOC:Engineering Mechanics Lecture 67 - Rigid body motion VII (fixed axis rotation) - Kinetic energy and moment of inertia for fixed axis rotation and some solved examples
Link NOC:Engineering Mechanics Lecture 68 - Rigid body motion VIII (fixed axis rotation) - solved examples for calculating moment of inertia and conservation of angular momentum
Link NOC:Engineering Mechanics Lecture 69 - Rigid body motion IX (fixed axis rotation) - solved examples
Link NOC:Engineering Mechanics Lecture 70 - Rigid body motion X - rotation and translation with axis moving parallel to itself
Link NOC:Engineering Mechanics Lecture 71 - Rigid body motion XI - solved examples for rotation and translation with axis moving parallel to itself
Link NOC:Engineering Mechanics Lecture 72 - Rigid-body dynamics XII - Some demonstrations on general motion of rigid bodies
Link NOC:Engineering Mechanics Lecture 73 - Rigid-body dynamics XIII - Infinitesimal angles as vector quantities and change of a vector when rotated by an infinitesimal angle
Link NOC:Engineering Mechanics Lecture 74 - Rigid-body dynamics XIV - Angular velocity and the rate of change of a rotating vector; relating change in angular velocity to an applied torque
Link NOC:Engineering Mechanics Lecture 75 - Rigid-body dynamics XV - Relationship between angular momentum and angular velocity – the moment of inertia tensor and the principal axes
Link NOC:Engineering Mechanics Lecture 76 - Rigid-body dynamics XVI - Solved examples
Link NOC:Engineering Mechanics Lecture 77 - Rigid body motion XVII – A review of the relation between angular momentum and angular velocity, moment of inertia tensor and the principal axes Edit Lesson
Link NOC:Engineering Mechanics Lecture 78 - Rigid body motion XVIII- Solved examples for calculating rate of change of angular momentum and torque when angular velocity and angular momentum are not parallel
Link NOC:Engineering Mechanics Lecture 79 - Rigid body dynamics XIX - understanding demonstrations shown earlier using equation of motion
Link NOC:Engineering Mechanics Lecture 80 - Rigid body dynamics XX - understanding demonstrations shown earlier using equation of motion (Euler equations)
Link NOC:Engineering Mechanics Lecture 81 - Rigid body dynamics XXI - Euler equations, solved examples
Link NOC:Engineering Mechanics Lecture 82 - Simple harmonic motion I - expanding potential energy about the equilibrium point and the corresponding force
Link NOC:Engineering Mechanics Lecture 83 - Simple harmonic motion II - solving the equation of motion with given initial conditions
Link NOC:Engineering Mechanics Lecture 84 - Simple harmonic motion III - solved examples
Link NOC:Engineering Mechanics Lecture 85 - Simple harmonic motion IV - representing simple harmonic motion on a phasor diagram; energy of an oscillator
Link NOC:Engineering Mechanics Lecture 86 - Simple harmonic motion V - solved examples
Link NOC:Engineering Mechanics Lecture 87 - Simple harmonic motion VI - solving the equation of motion with constant friction in the system
Link NOC:Engineering Mechanics Lecture 88 - Simple harmonic motion VII - harmonic oscillator with velocity-dependent damping (heavy damping)
Link NOC:Engineering Mechanics Lecture 89 - Simple harmonic motion VIII - harmonic oscillator with velocity-dependent damping (critical damping)
Link NOC:Engineering Mechanics Lecture 90 - Simple harmonic motion IX - solved examples
Link NOC:Engineering Mechanics Lecture 91 - Simple harmonic motion X - harmonic oscillator with velocity-dependent damping (light damping)
Link NOC:Engineering Mechanics Lecture 92 - Simple harmonic motion XI - solved examples
Link NOC:Engineering Mechanics Lecture 93 - Simple harmonic motion XII - oscillations of an un-damped harmonic oscillator subjected to an oscillatory force
Link NOC:Engineering Mechanics Lecture 94 - Simple harmonic motion XIII - oscillations of a forced damped harmonic oscillator - I
Link NOC:Engineering Mechanics Lecture 95 - Simple harmonic oscillator XIV - oscillations of a forced damped harmonic oscillator - II
Link NOC:Engineering Mechanics Lecture 96 - Simple harmonic oscillator XV - Energy and power in a forced damped harmonic oscillator
Link NOC:Engineering Mechanics Lecture 97 - Simple harmonic oscillator XVI - Solved examples
Link NOC:Engineering Mechanics Lecture 98 - Equation of motion in a uniformly accelerating frame
Link NOC:Engineering Mechanics Lecture 99 - Motion described in a uniformly accelerating frame; solved examples - I
Link NOC:Engineering Mechanics Lecture 100 - Motion described in a uniformly accelerating frame; solved examples - II
Link NOC:Computational Science and Engineering Using Python Lecture 1 - Lecture 1 - About Computers
Link NOC:Computational Science and Engineering Using Python Lecture 2 - Lecture 2 - Python: Variables and Assignments
Link NOC:Computational Science and Engineering Using Python Lecture 3 - Lecture 3 - Python: Numpy arrays
Link NOC:Computational Science and Engineering Using Python Lecture 4 - Lecture 4 - Python: Control structures
Link NOC:Computational Science and Engineering Using Python Lecture 5 - Lecture 5A - Python packages; Programming
Link NOC:Computational Science and Engineering Using Python Lecture 6 - Lecture 5B - Some suggestions on programming
Link NOC:Computational Science and Engineering Using Python Lecture 7 - Lecture 6 - Plotting in Python
Link NOC:Computational Science and Engineering Using Python Lecture 8 - Lecture 7 - Errors and Nondimensionalization
Link NOC:Computational Science and Engineering Using Python Lecture 9 - Lecture 8 - Data I/O and Mayavi
Link NOC:Computational Science and Engineering Using Python Lecture 10 - Lecture 9 - Lagrange interpolation
Link NOC:Computational Science and Engineering Using Python Lecture 11 - Lecture 10 - Interpolation II: 2D, splines
Link NOC:Computational Science and Engineering Using Python Lecture 12 - Lecture 11 - Integration I: Newton-Cotes
Link NOC:Computational Science and Engineering Using Python Lecture 13 - Lecture 12 - Integration II: Gaussian quadrature
Link NOC:Computational Science and Engineering Using Python Lecture 14 - Lecture 13 - Gaussian quadrature continued
Link NOC:Computational Science and Engineering Using Python Lecture 15 - Lecture 14 - Numerical Differentiation
Link NOC:Computational Science and Engineering Using Python Lecture 16 - Lecture 15 - ODE solvers
Link NOC:Computational Science and Engineering Using Python Lecture 17 - Lecture 16 - ODE solvers continued
Link NOC:Computational Science and Engineering Using Python Lecture 18 - Lecture 17 - Fourier transform
Link NOC:Computational Science and Engineering Using Python Lecture 19 - Lecture 18 - PDE solver: Diffusion equation in spectral method
Link NOC:Computational Science and Engineering Using Python Lecture 20 - Lecture 19A - PDE solver: Diffusion equation using finite difference
Link NOC:Computational Science and Engineering Using Python Lecture 21 - Lecture 19B - PDE solver: Wave equation using finite difference
Link NOC:Computational Science and Engineering Using Python Lecture 22 - Lecture 20 - Linear algebra: Ax = b solver
Link NOC:Computational Science and Engineering Using Python Lecture 23 - Lecture 21 - Summary
Link NOC:Introductory Quantum Mechanics Lecture 1 - Black Body Radiation I - Relevant Definitions and Black Body as cavity
Link NOC:Introductory Quantum Mechanics Lecture 2 - Black Body Radiation II - Intensity of radiation in terms of energy density
Link NOC:Introductory Quantum Mechanics Lecture 3 - Black Body Radiation III - Spectral energy density and radiation pressure inside a black body radiation
Link NOC:Introductory Quantum Mechanics Lecture 4 - Black Body Radiation IV - Stephen's Boltzman law
Link NOC:Introductory Quantum Mechanics Lecture 5 - Black Body Radiation V - Wein's Displacement law and analysis for spectral density
Link NOC:Introductory Quantum Mechanics Lecture 6 - Black Body Radiation VI - Wein's distribution law and rayleigh - Jeans distribution law
Link NOC:Introductory Quantum Mechanics Lecture 7 - Black Body Radiation VII - Quantum Hypothesis and plank's distribution Formula
Link NOC:Introductory Quantum Mechanics Lecture 8 - Radiation as a collection of particles called photons
Link NOC:Introductory Quantum Mechanics Lecture 9 - Quantum Hypothesis and specific heat of soilds
Link NOC:Introductory Quantum Mechanics Lecture 10 - Bohr's Model of hydrogen spectrum
Link NOC:Introductory Quantum Mechanics Lecture 11 - Wilson Sommerfeld quantum condition I - Harmonic oscillator and particle in a box
Link NOC:Introductory Quantum Mechanics Lecture 12 - Wilson Sommerfeld quantum condition II - Particle moving in a coulomb potential in a plane and related quantum numbers
Link NOC:Introductory Quantum Mechanics Lecture 13 - Wilson Sommerfeld quantum condition III - Particle moving in a coulomb potential in 3D and related quantum numbers
Link NOC:Introductory Quantum Mechanics Lecture 14 - Quantum conditions and atomic structure, electron spin and Pauli exclusion principle
Link NOC:Introductory Quantum Mechanics Lecture 15 - Interaction of atoms with radiation : Eienstien's A and B coefficients
Link NOC:Introductory Quantum Mechanics Lecture 16 - Stimulated emmision and amplification of light in a LASER
Link NOC:Introductory Quantum Mechanics Lecture 17 - Brief description of a LASER
Link NOC:Introductory Quantum Mechanics Lecture 18 - Introduction to the correspondence principle
Link NOC:Introductory Quantum Mechanics Lecture 19 - General nature of the correspondence principle
Link NOC:Introductory Quantum Mechanics Lecture 20 - Selection rules (for transitions) through the correspondence principle
Link NOC:Introductory Quantum Mechanics Lecture 21 - Applications of the correspondence principle : Einstiens A coefficient for the harmonic oscillator and the selection rules for atomic transitions
Link NOC:Introductory Quantum Mechanics Lecture 22 - Heisenberg's formulations of quantum mechanics : expressing kinetic variables as matrices
Link NOC:Introductory Quantum Mechanics Lecture 23 - Heisenberg's formulation of quantum mechanics : the quantum condition
Link NOC:Introductory Quantum Mechanics Lecture 24 - Heisenberg's formulation of the quantum mechanics : Application to harmonic oscillator
Link NOC:Introductory Quantum Mechanics Lecture 25 - Brief introduction to matrix mechanics and the quantum condition in matrix form
Link NOC:Introductory Quantum Mechanics Lecture 26 - Introduction to waves and wave equation
Link NOC:Introductory Quantum Mechanics Lecture 27 - Sationary waves eigen values and eigen functions
Link NOC:Introductory Quantum Mechanics Lecture 28 - Matter waves and their experimental detection
Link NOC:Introductory Quantum Mechanics Lecture 29 - Represenating a moving paticle by a wave packet
Link NOC:Introductory Quantum Mechanics Lecture 30 - Stationary-state Schrodinger equation and its solution for a particle in a box
Link NOC:Introductory Quantum Mechanics Lecture 31 - Solution of the stationary-state Schrodinger equation for a simple harmonic oscillator
Link NOC:Introductory Quantum Mechanics Lecture 32 - Equivalance of Heisenberg and the Schrodinger formulations : Mathematical preliminaries
Link NOC:Introductory Quantum Mechanics Lecture 33 - Equivalance of Heisenberg and Schrodinger formulations : The x and p operators and the quantum condition
Link NOC:Introductory Quantum Mechanics Lecture 34 - Born interpretation of the wavefunction and expectation values of x and p operators
Link NOC:Introductory Quantum Mechanics Lecture 35 - Uncertainty principle and its simple applications
Link NOC:Introductory Quantum Mechanics Lecture 36 - Time dependent Schrodinger equation the probability current density and the continuity equation for the probability density
Link NOC:Introductory Quantum Mechanics Lecture 37 - Ehrenfest theorem for the expectation values of x and p operators
Link NOC:Introductory Quantum Mechanics Lecture 38 - Solution of Schrodinger equation for a particle in one and two delta function potentials
Link NOC:Introductory Quantum Mechanics Lecture 39 - Solution of Schrodinger equation for a particle in a finite well
Link NOC:Introductory Quantum Mechanics Lecture 40 - Numerical solution of a one dimensional Schrodinger equation for bound states - I
Link NOC:Introductory Quantum Mechanics Lecture 41 - Numerical solution of a one dimensional Schrodinger equation for bound states - II
Link NOC:Introductory Quantum Mechanics Lecture 42 - Reflection and transmission of particles across a potential barrier
Link NOC:Introductory Quantum Mechanics Lecture 43 - Quantum-tunneling and its examples
Link NOC:Introductory Quantum Mechanics Lecture 44 - Solution of the Schrodinger for free paticles and periodic boundary conditions
Link NOC:Introductory Quantum Mechanics Lecture 45 - Electrons in a metal : Density of states and Fermi energy
Link NOC:Introductory Quantum Mechanics Lecture 46 - Schrodinger equation for particles in spherically symmetric potential, angular momentum operator
Link NOC:Introductory Quantum Mechanics Lecture 47 - Angular momentum operator and its eigenfunctions
Link NOC:Introductory Quantum Mechanics Lecture 48 - Equation for radial component of the wavefunction in spherically symmteric potentials and general properties of its solution
Link NOC:Introductory Quantum Mechanics Lecture 49 - Solution for radial component of the wavefunction for the hydrogen atom
Link NOC:Introductory Quantum Mechanics Lecture 50 - Numerical solution for the radial component of wavefunction for spherically symmetric potentials
Link NOC:Introductory Quantum Mechanics Lecture 51 - Solution of the Schrodinger equation for one dimensional periodic potential : Bloch's theorem
Link NOC:Introductory Quantum Mechanics Lecture 52 - Kroning-Penny model and energy bands
Link NOC:Introductory Quantum Mechanics Lecture 53 - Kroning-Penny model with periodic Dirac delta function and energy bands
Link NOC:Introductory Quantum Mechanics Lecture 54 - Discussion on bands
Link NOC:Introductory Quantum Mechanics Lecture 55 - Summary of the course
Link NOC:Introduction to Solid State Physics Lecture 1 - Introduction to Drude's theory of electrons in a metal - Part 1
Link NOC:Introduction to Solid State Physics Lecture 2 - Introduction to Drude's theory of electrons in a metal - Part 2
Link NOC:Introduction to Solid State Physics Lecture 3 - Postulates of Drude's theory
Link NOC:Introduction to Solid State Physics Lecture 4 - Calculating electrical conductivity of metal using Drude's theory of electrons in metal - Part 1
Link NOC:Introduction to Solid State Physics Lecture 5 - Calculating the electrical conductivity of metal using Drude's Model - Part 2
Link NOC:Introduction to Solid State Physics Lecture 6 - Introduction to Hall effect in Metals - Part 1
Link NOC:Introduction to Solid State Physics Lecture 7 - Introduction to Hall effect in metals - Part 2
Link NOC:Introduction to Solid State Physics Lecture 8 - Introduction to Hall effect in metals - Part 3
Link NOC:Introduction to Solid State Physics Lecture 9 - Understanding thermal conductivity of a metal using Drude's model - Part 1
Link NOC:Introduction to Solid State Physics Lecture 10 - Understanding thermal conductivity of a metal using Drude's model - Part 2
Link NOC:Introduction to Solid State Physics Lecture 11 - Introduction to Sommerfeld's Theory of electrons in a metal - Part 1
Link NOC:Introduction to Solid State Physics Lecture 12 - Introduction to Sommerfeld's Theory of electrons in a metal - Part 2
Link NOC:Introduction to Solid State Physics Lecture 13 - Introduction to Sommerfeld's Theory of electrons in a metal - Part 3
Link NOC:Introduction to Solid State Physics Lecture 14
Link NOC:Introduction to Solid State Physics Lecture 15
Link NOC:Introduction to Solid State Physics Lecture 16
Link NOC:Introduction to Solid State Physics Lecture 17
Link NOC:Introduction to Solid State Physics Lecture 18
Link NOC:Introduction to Solid State Physics Lecture 19 - Electronic Contribution to the Specific heat of a Solid - Part 1
Link NOC:Introduction to Solid State Physics Lecture 20 - Electronic Contribution to the Specific heat of a Solid - Part 2
Link NOC:Introduction to Solid State Physics Lecture 21 - Electronic Contribution to the Specific heat of a Solid - Part 3
Link NOC:Introduction to Solid State Physics Lecture 22 - Electronic Contribution to the Specific heat of a Solid - Part 4
Link NOC:Introduction to Solid State Physics Lecture 23 - Understanding Thermal conductivity of Metals
Link NOC:Introduction to Solid State Physics Lecture 24 - Introduction to Magnetism in Metal - Part 1
Link NOC:Introduction to Solid State Physics Lecture 25 - Introduction to Magnetism in Metal - Part 2
Link NOC:Introduction to Solid State Physics Lecture 26
Link NOC:Introduction to Solid State Physics Lecture 27 - Introduction to crystals and bonding in crystals
Link NOC:Introduction to Solid State Physics Lecture 28 - Understanding crystal structure using Bravais Lattice
Link NOC:Introduction to Solid State Physics Lecture 29 - Bravais Lattice Types - Part 1
Link NOC:Introduction to Solid State Physics Lecture 30 - Bravais Lattice Types - Part 2
Link NOC:Introduction to Solid State Physics Lecture 31 - Introduction to different crystal types - Part 1
Link NOC:Introduction to Solid State Physics Lecture 32 - Introduction to different crystal types - Part 2
Link NOC:Introduction to Solid State Physics Lecture 33 - Indexing crystal planes
Link NOC:Introduction to Solid State Physics Lecture 34 - Scattering of X rays from crystals - Part 1
Link NOC:Introduction to Solid State Physics Lecture 35 - Scattering of X rays from crystals - Part 2
Link NOC:Introduction to Solid State Physics Lecture 36 - Reciprocal lattice vectors - Part 1
Link NOC:Introduction to Solid State Physics Lecture 37 - Reciprocal lattice vectors - Part 2
Link NOC:Introduction to Solid State Physics Lecture 38 - Reciprocal lattice vectors and Laue's condition for diffraction of waves in crystals - Part 1
Link NOC:Introduction to Solid State Physics Lecture 39 - Reciprocal lattice vectors and Laue's condition for diffraction of waves in crystals - Part 2
Link NOC:Introduction to Solid State Physics Lecture 40 - Reciprocal lattice vectors, Laue's condition and Bragg's law for diffraction of waves by a crystal
Link NOC:Introduction to Solid State Physics Lecture 41 - Wave equation in a continuous medium and generalization to a discrete medium
Link NOC:Introduction to Solid State Physics Lecture 42 - Derivation of wave equation for motion of atoms in a crystal
Link NOC:Introduction to Solid State Physics Lecture 43 - Solution of the wave equation for a crystal and the relation between frequency ω and wavevector k
Link NOC:Introduction to Solid State Physics Lecture 44 - Group velocity of waves and speed of sound in a crystal
Link NOC:Introduction to Solid State Physics Lecture 45 - Waves in a crystal considering interaction among atoms beyond their nearest neighbours
Link NOC:Introduction to Solid State Physics Lecture 46 - Normal modes in a crystal : Phonons and their momenta and energy
Link NOC:Introduction to Solid State Physics Lecture 47 - Experimental determination of Phonon dispersion curves
Link NOC:Introduction to Solid State Physics Lecture 48 - Lattice with two atom basis: Optical Phonons
Link NOC:Introduction to Solid State Physics Lecture 49 - Displacement of the atoms for the acoustic and optical Phonons
Link NOC:Introduction to Solid State Physics Lecture 50 - Density of states of phonons
Link NOC:Introduction to Solid State Physics Lecture 51 - Calculating the density of states of Phonons: The Einstein's and the Debye's Models
Link NOC:Introduction to Solid State Physics Lecture 52 - Average energy of Phonons at Temperature T
Link NOC:Introduction to Solid State Physics Lecture 53 - Debye's Model of specific heat of crystals
Link NOC:Introduction to Solid State Physics Lecture 54 - Anharmonic effects in crystals: thermal expansion and Umkclapp processes
Link NOC:Introduction to Solid State Physics Lecture 55 - Going beyond free electron model: Periodic crystal potential and Bloch's theorem for the wavefunction
Link NOC:Introduction to Solid State Physics Lecture 56 - Applying perturbation theory to free electron wavefunctions and nearly free electron model
Link NOC:Introduction to Solid State Physics Lecture 57 - Applying perturbation theory to free electron wavefunctions and creation of energy gap at zone boundaries
Link NOC:Introduction to Solid State Physics Lecture 58 - Mixing of plane waves to get Bloch Wavefunction - I
Link NOC:Introduction to Solid State Physics Lecture 59 - Mixing of plane waves to get Bloch Wavefunction - II
Link NOC:Introduction to Solid State Physics Lecture 60 - Equivalence of wave vectors k and k+G and reduced zone scheme
Link NOC:Introduction to Solid State Physics Lecture 61 - Applying periodic boundary condition to Bloch wavefunction and counting the number of states
Link NOC:Introduction to Solid State Physics Lecture 62 - Band theory of metals, insulators and semiconductors
Link NOC:Introduction to Solid State Physics Lecture 63 - Kronig- Penney model
Link NOC:Introduction to Solid State Physics Lecture 64 - Bloch wavefunction as a linear combination of atomic orbitals: Tight Binding Model- I
Link NOC:Introduction to Solid State Physics Lecture 65 - Tight Binding Model - II
Link NOC:Introduction to Solid State Physics Lecture 66 - Semiclassical dynamics of a particle in a band and Bloch oscillations
Link NOC:Introduction to Solid State Physics Lecture 67 - Experimental observations of Bloch oscillations
Link NOC:Introduction to Solid State Physics Lecture 68 - Concept of hole as a current carrier in semiconductors - I
Link NOC:Introduction to Solid State Physics Lecture 69 - Concept of hole as a current carrier in semiconductors - II
Link NOC:Introduction to Solid State Physics Lecture 70 - Calculating carrier density in semiconductors - I
Link NOC:Introduction to Solid State Physics Lecture 71 - Calculating carrier density in semiconductors - II
Link NOC:Introduction to Solid State Physics Lecture 72 - Donor and acceptor energy levels in a semiconductor
Link NOC:Introduction to Solid State Physics Lecture 73 - charge carrier density in n-type and p-type semiconductors
Link NOC:Introduction to Solid State Physics Lecture 74 - Electrical conductivity and hall coefficient in semiconductors
Link NOC:Introduction to Solid State Physics Lecture 75 - Paramagnetism in solids I - Magnetic moment and Lande g factor for atoms
Link NOC:Introduction to Solid State Physics Lecture 76 - Paramagnetism in solids II - temperature dependence of paramagnetic susceptibility and Curie's Law
Link NOC:Introduction to Solid State Physics Lecture 77 - Hund's rule for calculating the total angular momentum J, orbital angular momentum L and spin angular momentum S for an atom
Link NOC:Introduction to Solid State Physics Lecture 78 - Examples of performing paramagnetic susceptibility calculations
Link NOC:Introduction to Solid State Physics Lecture 79 - Diamagnetism in Solids
Link NOC:Introduction to Solid State Physics Lecture 80 - Understanding quenching of orbital angular momentum in transition metal ions
Link NOC:Introduction to Solid State Physics Lecture 81 - Ferromagnetism in solids
Link NOC:Introduction to Solid State Physics Lecture 82 - Introduction to Meissner state of superconductors and levitation
Link NOC:Introduction to Solid State Physics Lecture 83 - Superconducting materials and Type-I and Type-II superconductors
Link NOC:Introduction to Solid State Physics Lecture 84 - London's equation for superconductors
Link NOC:Introduction to Solid State Physics Lecture 85 - Application of London's equation, behavior
Link NOC:Introduction to Solid State Physics Lecture 86 - A qualitative introduction to BCS theory of superconductivity
Link NOC:Introduction to Solid State Physics Lecture 87 - Josephson's effect in superconductors and tunneling current across barriers
Link NOC:Physics of Turbulence Lecture 1 - The turbulence problem
Link NOC:Physics of Turbulence Lecture 2 - Basic hydrodynamics - Governing equations
Link NOC:Physics of Turbulence Lecture 3 - Basic hydrodynamics - Vorticity
Link NOC:Physics of Turbulence Lecture 4 - Basic hydrodynamics - Quadratic quantities
Link NOC:Physics of Turbulence Lecture 5 - Basic hydrodynamics - Example problems
Link NOC:Physics of Turbulence Lecture 6 - Fourier space representation - Definitions
Link NOC:Physics of Turbulence Lecture 7 - Fourier space representation - Flow equations
Link NOC:Physics of Turbulence Lecture 8 - Fourier space representation - Kinetic energy
Link NOC:Physics of Turbulence Lecture 9 - Fourier space representation - Vorticity, Kinetic Helicity, and Enstrophy
Link NOC:Physics of Turbulence Lecture 10 - Fourier space representation - Examples
Link NOC:Physics of Turbulence Lecture 11 - Fourier space representation - Examples (Continued...)
Link NOC:Physics of Turbulence Lecture 12 - Craya-Herring Basis: Definitions
Link NOC:Physics of Turbulence Lecture 13 - Craya-Herring Basis: Equations of Motion for a Triad
Link NOC:Physics of Turbulence Lecture 14 - Craya-Herring Basis: Equations of Motion for an Anticlockwise Triad
Link NOC:Physics of Turbulence Lecture 15 - Thermal Instability
Link NOC:Physics of Turbulence Lecture 16 - Thermal Instabilities (Continued...)
Link NOC:Physics of Turbulence Lecture 17 - Rotating Convection: Instability and Patterns
Link NOC:Physics of Turbulence Lecture 18 - Magnetoconvection: Instability and Patterns
Link NOC:Physics of Turbulence Lecture 19 - Nonlinear Saturation: Lorenz Equation
Link NOC:Physics of Turbulence Lecture 20 - Patterns, Chaos, and Turbulence
Link NOC:Physics of Turbulence Lecture 21 - Energy Transfers: Mode-to-mode Energy Transfers
Link NOC:Physics of Turbulence Lecture 22 - Energy Transfers: Mode-to-mode Energy Transfers (Continued...)
Link NOC:Physics of Turbulence Lecture 23 - Energy Transfers: Examples
Link NOC:Physics of Turbulence Lecture 24 - Energy Transfers: Spectral Energy Flux and Shell-to-Shell Energy Transfer
Link NOC:Physics of Turbulence Lecture 25 - Energy Transfers: Fluid Simulations using Spectral Method
Link NOC:Physics of Turbulence Lecture 26 - Energy Transfers: Fluid Simulations - Dealiasing
Link NOC:Physics of Turbulence Lecture 27 - Kolmogorov's Theory: Energy Spectrum and Flux
Link NOC:Physics of Turbulence Lecture 28 - Kolmogorov's Theory: Insights and its Verification with Direct Numerical Simulation
Link NOC:Physics of Turbulence Lecture 29 - Kolmogorov's Theory: Spectrum and Flux in inertial-dissipation range
Link NOC:Physics of Turbulence Lecture 30 - Kolmogorov's four-fifth law: Isotropic Tensor and Correlations
Link NOC:Physics of Turbulence Lecture 31 - Kolmogorov's four-fifth law: Derivation
Link NOC:Physics of Turbulence Lecture 32 - Kolmogorov's four-fifth law: Derivation (Final steps)
Link NOC:Physics of Turbulence Lecture 33 - Enstrophy Spectrum and Flux
Link NOC:Physics of Turbulence Lecture 34 - Two-dimensional Turbulence
Link NOC:Physics of Turbulence Lecture 35 - Helical turbulence
Link NOC:Physics of Turbulence Lecture 36 - Flow with a scalar
Link NOC:Physics of Turbulence Lecture 37 - Passive scalar turbulence
Link NOC:Physics of Turbulence Lecture 38 - Stably stratified turbulence
Link NOC:Physics of Turbulence Lecture 39 - Turbulent thermal convection
Link NOC:Physics of Turbulence Lecture 40 - Flow with a vector
Link NOC:Physics of Turbulence Lecture 41 - MHD Turbulence: Formalism
Link NOC:Physics of Turbulence Lecture 42 - MHD Turbulence: Energy Transfers
Link NOC:Physics of Turbulence Lecture 43 - MHD Turbulence: Turbulence Models
Link NOC:Physics of Turbulence Lecture 44 - MHD Turbulence: Dynamo
Link Astrophysics and Cosmology Lecture 1 - Introduction
Link Astrophysics and Cosmology Lecture 2 - Keplers Law
Link Astrophysics and Cosmology Lecture 3 - The Solar System
Link Astrophysics and Cosmology Lecture 4 - The Solar System (Continued...)
Link Astrophysics and Cosmology Lecture 5 - Binary Systems
Link Astrophysics and Cosmology Lecture 6 - Binary Systems (Continued...)
Link Astrophysics and Cosmology Lecture 7 - Tidal Forces and the Earth Moon System
Link Astrophysics and Cosmology Lecture 8 - Fluid Mechanics
Link Astrophysics and Cosmology Lecture 9 - Hydrostatics and the Solar Wind
Link Astrophysics and Cosmology Lecture 10 - Radiative Transfer
Link Astrophysics and Cosmology Lecture 11 - Radiative Transfer (Continued...)
Link Astrophysics and Cosmology Lecture 12 - Thermal Radiation
Link Astrophysics and Cosmology Lecture 13 - Thermal Radiation and the Sun
Link Astrophysics and Cosmology Lecture 14 - Virial Theorem and Its Application to Stars
Link Astrophysics and Cosmology Lecture 15 - Stars: Magnitudes and the H-R Diagram
Link Astrophysics and Cosmology Lecture 16 - Stellar Physics - I
Link Astrophysics and Cosmology Lecture 17 - Stellar Physics - II
Link Astrophysics and Cosmology Lecture 18 - Stellar Physics - III
Link Astrophysics and Cosmology Lecture 19 - Stellar Physics - IV
Link Astrophysics and Cosmology Lecture 20 - Stellar Physics - V
Link Astrophysics and Cosmology Lecture 21 - White Dwarfs
Link Astrophysics and Cosmology Lecture 22 - White Dwarfs and Neutron Stars
Link Astrophysics and Cosmology Lecture 23 - Galaxies
Link Astrophysics and Cosmology Lecture 24 - Galaxies and the Expanding Universe
Link Astrophysics and Cosmology Lecture 25 - The Expanding Universe
Link Astrophysics and Cosmology Lecture 26 - Dynamics of the Expanding Universe
Link Astrophysics and Cosmology Lecture 27 - Dynamics of the Expanding Universe (Continued...)
Link Astrophysics and Cosmology Lecture 28 - The Expanding Universe and the Cosmological Metric
Link Astrophysics and Cosmology Lecture 29 - The Cosmological Space - Time
Link Astrophysics and Cosmology Lecture 30 - Distances
Link Astrophysics and Cosmology Lecture 31 - Distances (Continued...)
Link Astrophysics and Cosmology Lecture 32 - Distances and the Hubble Parameter
Link Astrophysics and Cosmology Lecture 33 - Distances, the Hubble Parameter and Dark Energy (Continued...)
Link Astrophysics and Cosmology Lecture 34 - CMBR and Thermal History
Link Astrophysics and Cosmology Lecture 35 - CMBR and Thermal History (Continued...1)
Link Astrophysics and Cosmology Lecture 36 - CMBR and Thermal History (Continued...2)
Link Astrophysics and Cosmology Lecture 37 - Thermal History, Expansion Rate and Neutrino Mass
Link Astrophysics and Cosmology Lecture 38 - Thermal History: Neutrino Mass, Nucleosynthesis
Link Astrophysics and Cosmology Lecture 39 - Big Bang Nucleosynthesis
Link Astrophysics and Cosmology Lecture 40 - Big Bang Nucleosynthesis (Continued...)
Link NOC:Mathematics Methods in Physics - I Lecture 1 - Set, Group, Field, Ring
Link NOC:Mathematics Methods in Physics - I Lecture 2 - Vector Space
Link NOC:Mathematics Methods in Physics - I Lecture 3 - Span, Linear combination of vectors
Link NOC:Mathematics Methods in Physics - I Lecture 4 - Linearly dependent and independent vector, Basis
Link NOC:Mathematics Methods in Physics - I Lecture 5 - Dual Space
Link NOC:Mathematics Methods in Physics - I Lecture 6 - Inner Product
Link NOC:Mathematics Methods in Physics - I Lecture 7 - Schwarz Inequality
Link NOC:Mathematics Methods in Physics - I Lecture 8 - Inner product space, Gram-Schmidt Ortho-normalization
Link NOC:Mathematics Methods in Physics - I Lecture 9 - Projection operator
Link NOC:Mathematics Methods in Physics - I Lecture 10 - Transformation of Basis
Link NOC:Mathematics Methods in Physics - I Lecture 11 - Transformation of Basis (Continued...)
Link NOC:Mathematics Methods in Physics - I Lecture 12 - Unitary transformation, Similarity Transformation
Link NOC:Mathematics Methods in Physics - I Lecture 13 - Eigen Value, Eigen Vectors
Link NOC:Mathematics Methods in Physics - I Lecture 14 - Normal Matrix
Link NOC:Mathematics Methods in Physics - I Lecture 15 - Diagonalization of a Matrix
Link NOC:Mathematics Methods in Physics - I Lecture 16 - Hermitian Matrix
Link NOC:Mathematics Methods in Physics - I Lecture 17 - Rank of a Matrix
Link NOC:Mathematics Methods in Physics - I Lecture 18 - Cayley - Hamilton Theorem, Function space
Link NOC:Mathematics Methods in Physics - I Lecture 19 - Metric Space, Linearly dependent - independent functions
Link NOC:Mathematics Methods in Physics - I Lecture 20 - Linearly dependent –independent functions (Continued...), Inner Product of functions
Link NOC:Mathematics Methods in Physics - I Lecture 21 - Orthogonal functions
Link NOC:Mathematics Methods in Physics - I Lecture 22 - Delta Function, Completeness
Link NOC:Mathematics Methods in Physics - I Lecture 23 - Fourier
Link NOC:Mathematics Methods in Physics - I Lecture 24 - Fourier Series (Continued...)
Link NOC:Mathematics Methods in Physics - I Lecture 25 - Parseval Theorem, Fourier Transform
Link NOC:Mathematics Methods in Physics - I Lecture 26 - Parseval Relation, Convolution Theorem
Link NOC:Mathematics Methods in Physics - I Lecture 27 - Polynomial space, Legendre Polynomial
Link NOC:Mathematics Methods in Physics - I Lecture 28 - Monomial Basis, Factorial Basis, Legendre Basis
Link NOC:Mathematics Methods in Physics - I Lecture 29 - Complex Numbers
Link NOC:Mathematics Methods in Physics - I Lecture 30 - Geometrical interpretation of complex numbers
Link NOC:Mathematics Methods in Physics - I Lecture 31 - de Moivre’s Theorem
Link NOC:Mathematics Methods in Physics - I Lecture 32 - Roots of a complex number
Link NOC:Mathematics Methods in Physics - I Lecture 33 - Set of complex no, Stereographic projection
Link NOC:Mathematics Methods in Physics - I Lecture 34 - Complex Function, Concept of Limit
Link NOC:Mathematics Methods in Physics - I Lecture 35 - Derivative of Complex Function, Cauchy-Riemann Equation
Link NOC:Mathematics Methods in Physics - I Lecture 36 - Analytic Function
Link NOC:Mathematics Methods in Physics - I Lecture 37 - Harmonic Conjugate
Link NOC:Mathematics Methods in Physics - I Lecture 38 - Polar form of Cauchy-Riemann Equation
Link NOC:Mathematics Methods in Physics - I Lecture 39 - Multi-valued function and Branches
Link NOC:Mathematics Methods in Physics - I Lecture 40 - Complex Line Integration, Contour, Regions
Link NOC:Mathematics Methods in Physics - I Lecture 41 - Complex Line Integration (Continued...)
Link NOC:Mathematics Methods in Physics - I Lecture 42 - Cauchy-Goursat Theorem
Link NOC:Mathematics Methods in Physics - I Lecture 43 - Application of Cauchy-Goursat Theorem
Link NOC:Mathematics Methods in Physics - I Lecture 44 - Cauchy’s Integral Formula
Link NOC:Mathematics Methods in Physics - I Lecture 45 - Cauchy’s Integral Formula (Continued...)
Link NOC:Mathematics Methods in Physics - I Lecture 46 - Series and Sequence
Link NOC:Mathematics Methods in Physics - I Lecture 47 - Series and Sequence (Continued...)
Link NOC:Mathematics Methods in Physics - I Lecture 48 - Circle and radius of convergence
Link NOC:Mathematics Methods in Physics - I Lecture 49 - Taylor Series
Link NOC:Mathematics Methods in Physics - I Lecture 50 - Classification of singularity
Link NOC:Mathematics Methods in Physics - I Lecture 51 - Laurent Series, Singularity
Link NOC:Mathematics Methods in Physics - I Lecture 52 - Laurent series expansion
Link NOC:Mathematics Methods in Physics - I Lecture 53 - Laurent series expansion (Continued...), Concept of Residue
Link NOC:Mathematics Methods in Physics - I Lecture 54 - Classification of Residue
Link NOC:Mathematics Methods in Physics - I Lecture 55 - Calculation of Residue for quotient from
Link NOC:Mathematics Methods in Physics - I Lecture 56 - Cauchy’s Residue Theorem
Link NOC:Mathematics Methods in Physics - I Lecture 57 - Cauchy’s Residue Theorem (Continued...)
Link NOC:Mathematics Methods in Physics - I Lecture 58 - Real Integration using Cauchy’s Residue Theorem
Link NOC:Mathematics Methods in Physics - I Lecture 59 - Real Integration using Cauchy’s Residue Theorem (Continued...)
Link NOC:Mathematics Methods in Physics - I Lecture 60 - Real Integration using Cauchy’s Residue Theorem (Continued...)
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 1
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 2
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 3
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 4
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 5
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 6 - Systems with variable mass - 3
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 7 - Systems with variable mass - 4
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 8 - Central force - 1
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 9 - Central force - 2
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 10 - Central force - 3
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 11 - Central force - 4
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 12 - Central force - 5
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 13 - Central force - 6
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 14 - Central force - 7
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 15 - Central force - 8
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 16 - Central force - 9
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 17 - Central force - 10
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 18 - Central force - 11
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 19 - Central force - 12
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 20 - Central force - 13
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 21 - Central force - 14
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 22 - Central force - 15
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 23 - Mooring Co-ordinate Systems - 1
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 24 - Mooring Co-ordinate Systems - 2
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 25 - Mooring Co-ordinate Systems - 3
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 26 - Mooring Co-ordinate Systems - 4
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 27 - Rigid body dynamics - 1
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 28 - Rigid body dynamics - 2
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 29 - Rigid body dynamics - 3
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 30 - Rigid body dynamics - 4
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 31 - Rigid body dynamics - 5
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 32 - Rigid body dynamics - 6
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 33 - Rigid body dynamics - 7
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 34 - Rigid body dynamics - 8
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 35 - Rigid body dynamics - 9
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 36 - Rigid body dynamics - 10
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 37 - Rigid body dynamics - 11
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 38 - Rigid body dynamics - 12
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 39 - Rigid body dynamics - 13
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 40 - Rigid body dynamics - 14
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 41 - Rigid body dynamics - 15
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 42 - Rigid body dynamics - 16
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 43 - Lagrangian Formulation - 1
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 44 - Lagrangian Formulation - 2
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 45 - Lagrangian Formulation - 3
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 46 - Lagrangian Formulation - 4
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 47 - Lagrangian Formulation - 5
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 48 - Lagrangian Formulation - 6
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 49 - Lagrangian Formulation - 7
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 50 - Lagrangian Formulation - 8
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 51 - Lagrangian Formulation - 9
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 52 - Lagrangian Formulation - 10
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 53 - Small oscillation - 1
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 54 - Small oscillation - 2
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 55 - Small oscillation - 3
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 56 - Small oscillation - 4
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 57 - Small oscillation - 5
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 58 - Small oscillation - 6
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 59 - Small oscillation - 7
Link NOC:Classical Mechanics - from Newtonian to Lagrangian Formulation Lecture 60 - Small oscillation - 8
Link NOC:Solid State Physics Lecture 1 - Atom to Solid Structure
Link NOC:Solid State Physics Lecture 2 - Atom to Solid Structure (Continued...)
Link NOC:Solid State Physics Lecture 3 - Structure of Solid
Link NOC:Solid State Physics Lecture 4 - Structure of Solid (Continued...)
Link NOC:Solid State Physics Lecture 5 - Crystal Structure
Link NOC:Solid State Physics Lecture 6 - Crystal Structure (Continued...)
Link NOC:Solid State Physics Lecture 7 - Crystal Structure (Continued...)
Link NOC:Solid State Physics Lecture 8 - Crystal Structure (Continued...)
Link NOC:Solid State Physics Lecture 9 - Crystal Structure (Continued...)
Link NOC:Solid State Physics Lecture 10 - Crystal Structure (Continued...)
Link NOC:Solid State Physics Lecture 11 - Crystal Structure (Continued...)
Link NOC:Solid State Physics Lecture 12 - Crystal Structure (Continued...)
Link NOC:Solid State Physics Lecture 13 - Crystal Structure (Continued...)
Link NOC:Solid State Physics Lecture 14 - Crystal Structure (Continued...)
Link NOC:Solid State Physics Lecture 15 - Crystal Structure (Continued...)
Link NOC:Solid State Physics Lecture 16 - Crystal Structure (Continued...)
Link NOC:Solid State Physics Lecture 17 - Crystal Structure (Continued...)
Link NOC:Solid State Physics Lecture 18 - X-ray Diffraction from Crystal
Link NOC:Solid State Physics Lecture 19 - X-ray Diffraction from Crystal (Continued...)
Link NOC:Solid State Physics Lecture 20 - X-ray Diffraction from Crystal (Continued...)
Link NOC:Solid State Physics Lecture 21 - X-ray Diffraction from Crystal (Continued...)
Link NOC:Solid State Physics Lecture 22 - X-ray Diffraction from Crystal (Continued...)
Link NOC:Solid State Physics Lecture 23 - X-ray Diffraction from Crystal (Continued...)
Link NOC:Solid State Physics Lecture 24 - X-ray Diffraction from Crystal (Continued...)
Link NOC:Solid State Physics Lecture 25 - Reciprocal Lattice
Link NOC:Solid State Physics Lecture 26 - Reciprocal Lattice (Continued...)
Link NOC:Solid State Physics Lecture 27 - Reciprocal Lattice (Continued...)
Link NOC:Solid State Physics Lecture 28 - Reciprocal Lattice (Continued...)
Link NOC:Solid State Physics Lecture 29 - Reciprocal Lattice (Continued...)
Link NOC:Solid State Physics Lecture 30 - Intensity of Bragg Diffraction
Link NOC:Solid State Physics Lecture 31 - Intensity of Bragg Diffraction (Continued...)
Link NOC:Solid State Physics Lecture 32 - Electrical Properties of Metal
Link NOC:Solid State Physics Lecture 33 - Electrical Properties of Metal (Continued...)
Link NOC:Solid State Physics Lecture 34 - Electrical Properties of Metal (Continued...)
Link NOC:Solid State Physics Lecture 35 - Electrical Properties of Metal (Continued...)
Link NOC:Solid State Physics Lecture 36 - Electrical Properties of Metal (Continued...)
Link NOC:Solid State Physics Lecture 37 - Electrical Properties of Metal (Continued...)
Link NOC:Solid State Physics Lecture 38 - Electrical Properties of Metal (Continued...)
Link NOC:Solid State Physics Lecture 39 - Electrical Properties of Metal (Continued...)
Link NOC:Solid State Physics Lecture 40 - Band Theory of Solids
Link NOC:Solid State Physics Lecture 41 - Band Theory of Solids (Continued...)
Link NOC:Solid State Physics Lecture 42 - Band Theory of Solids (Continued...)
Link NOC:Solid State Physics Lecture 43 - Band Theory of Solids (Continued...)
Link NOC:Solid State Physics Lecture 44 - Band Theory of Solids (Continued...)
Link NOC:Solid State Physics Lecture 45 - Band Theory of Solids (Continued...)
Link NOC:Solid State Physics Lecture 46 - Band Theory of Solids (Continued...)
Link NOC:Solid State Physics Lecture 47 - Physics of Semiconductor
Link NOC:Solid State Physics Lecture 48 - Physics of Semiconductor (Continued...)
Link NOC:Solid State Physics Lecture 49 - Physics of Semiconductor
Link NOC:Solid State Physics Lecture 50 - Electrical Conduction
Link NOC:Solid State Physics Lecture 51 - Electrical Conduction
Link NOC:Solid State Physics Lecture 52
Link NOC:Solid State Physics Lecture 53
Link NOC:Solid State Physics Lecture 54 - Thermal Properties of Solid (Continued...)
Link NOC:Solid State Physics Lecture 55 - Thermal Properties of Solid (Continued...)
Link NOC:Solid State Physics Lecture 56 - Thermal Properties of Solid (Continued...)
Link NOC:Solid State Physics Lecture 57 - Thermal Properties of Solid (Continued...)
Link NOC:Solid State Physics Lecture 58 - Magnetic Property of Solid
Link NOC:Solid State Physics Lecture 59 - Magnetic Property of Solid (Continued...)
Link NOC:Solid State Physics Lecture 60 - Magnetic Property of Solid (Continued...)
Link NOC:Solid State Physics Lecture 61 - Magnetic Property of Solid (Continued...)
Link NOC:Solid State Physics Lecture 62 - Magnetic Property of Solid (Continued...)
Link NOC:Solid State Physics Lecture 63 - Magnetic Property of Solid (Continued...)
Link NOC:Solid State Physics Lecture 64 - Magnetic Property of Solid (Continued...)
Link NOC:Solid State Physics Lecture 65 - Magnetic Property of Solid (Continued...)
Link NOC:Solid State Physics Lecture 66 - Magnetic Property of Solid (Continued...)
Link NOC:Solid State Physics Lecture 67 - Magnetic Property of Solid (Continued...)
Link NOC:Solid State Physics Lecture 68 - Magnetic Property of Solid (Continued...)
Link NOC:Solid State Physics Lecture 69 - Magnetic Property of Solid (Continued...)
Link NOC:Solid State Physics Lecture 70 - Magnetic Property of Solid (Continued...)
Link NOC:Solid State Physics Lecture 71 - Magnetic Property of Solids (Continued...)
Link NOC:Solid State Physics Lecture 72 - Dielectric Properties of Solid
Link NOC:Solid State Physics Lecture 73 - Dielectric Properties of Solid (Continued...)
Link NOC:Solid State Physics Lecture 74 - Dielectric Properties of Solid (Continued...)
Link NOC:Solid State Physics Lecture 75 - Superconductivity
Link NOC:Atomic and Molecular Physics Lecture 1 - Experimental observations and theoretical development in discovery of constituents of an atom
Link NOC:Atomic and Molecular Physics Lecture 2 - Experimental observations and theoretical development in discovery of constituents of an atom (Continued...)
Link NOC:Atomic and Molecular Physics Lecture 3 - Experimental observations and theoretical development in discovery of constituents of an atom (Continued...)
Link NOC:Atomic and Molecular Physics Lecture 4 - Experimental observations and theoretical development in discovery of constituents of an atom (Continued...:
Link NOC:Atomic and Molecular Physics Lecture 5 - Experimental observations and theoretical development in discovery of constituents of an atom (Continued...)
Link NOC:Atomic and Molecular Physics Lecture 6 - Structure of an atom
Link NOC:Atomic and Molecular Physics Lecture 7 - Structure of an atom
Link NOC:Atomic and Molecular Physics Lecture 8 - Structure of an atom (Continued...)
Link NOC:Atomic and Molecular Physics Lecture 9 - Atomic structure of an atom
Link NOC:Atomic and Molecular Physics Lecture 10 - Atomic structure of an atom
Link NOC:Atomic and Molecular Physics Lecture 11 - Structure of an atom
Link NOC:Atomic and Molecular Physics Lecture 12 - Atomic structure of an atom
Link NOC:Atomic and Molecular Physics Lecture 13 - Atomic structure of an atom
Link NOC:Atomic and Molecular Physics Lecture 14 - Structure of an atom
Link NOC:Atomic and Molecular Physics Lecture 15 - Structure of an atom
Link NOC:Atomic and Molecular Physics Lecture 16 - Structure of an atom
Link NOC:Atomic and Molecular Physics Lecture 17 - Structure of an atom
Link NOC:Atomic and Molecular Physics Lecture 18 - Structure of an atom
Link NOC:Atomic and Molecular Physics Lecture 19 - Structure of an atom
Link NOC:Atomic and Molecular Physics Lecture 20 - Structure of an atom
Link NOC:Atomic and Molecular Physics Lecture 21 - Atomic spectra
Link NOC:Atomic and Molecular Physics Lecture 22 - Atomic spectra
Link NOC:Atomic and Molecular Physics Lecture 23 - Multielectron atoms
Link NOC:Atomic and Molecular Physics Lecture 24 - Multielectron atoms (Continued...)
Link NOC:Atomic and Molecular Physics Lecture 25 - Multielectron atoms (Continued...)
Link NOC:Atomic and Molecular Physics Lecture 26 - Multielectron atoms (Continued...)
Link NOC:Atomic and Molecular Physics Lecture 27 - Quantum mechanical treatment
Link NOC:Atomic and Molecular Physics Lecture 28 - Quantum mechanical treatment (Continued...)
Link NOC:Atomic and Molecular Physics Lecture 29 - Quantum mechanical treatment of H-like atom
Link NOC:Atomic and Molecular Physics Lecture 30 - Quantum mechanical treatment of H-like atom (Continued...)
Link NOC:Atomic and Molecular Physics Lecture 31 - Quantum mechanical treatment of Hydrogen like atom
Link NOC:Atomic and Molecular Physics Lecture 32 - Quantum mechanical treatment of Hydrogen like atom (Continued...)
Link NOC:Atomic and Molecular Physics Lecture 33 - Quantum mechanical treatment of hydrogen like atom (Continued...)
Link NOC:Atomic and Molecular Physics Lecture 34 - Quantum mechanical treatment of hydrogen like atom (Continued...)
Link NOC:Atomic and Molecular Physics Lecture 35 - Quantum mechanical treatment of hydrogen like atom (Continued...)
Link NOC:Atomic and Molecular Physics Lecture 36 - Quantum Mechanical treatment of Hydrogen like atom (Continued...)
Link NOC:Atomic and Molecular Physics Lecture 37 - Quantum Mechanical treatment of Hydrogen like atom (Continued...)
Link NOC:Atomic and Molecular Physics Lecture 38 - Hydrogen like atom in magnetic field
Link NOC:Atomic and Molecular Physics Lecture 39 - Hydrogen like atom in magnetic field (Continued...)
Link NOC:Atomic and Molecular Physics Lecture 40 - Hydrogen like atom in electric field
Link NOC:Atomic and Molecular Physics Lecture 41 - Physics of molecules
Link NOC:Atomic and Molecular Physics Lecture 42 - Rotation of a molecule
Link NOC:Atomic and Molecular Physics Lecture 43 - Rotation of a molecule (Continued...)
Link NOC:Atomic and Molecular Physics Lecture 44 - Rotation of a molecule (Continued...)
Link NOC:Atomic and Molecular Physics Lecture 45 - Rotation of a molecule (Continued...)
Link NOC:Atomic and Molecular Physics Lecture 46 - Vibration of a molecule
Link NOC:Atomic and Molecular Physics Lecture 47 - Vibration of a molecule (Continued...)
Link NOC:Atomic and Molecular Physics Lecture 48 - Vibration of a molecule (Continued...)
Link NOC:Atomic and Molecular Physics Lecture 49 - Vibration of a molecule (Continued...)
Link NOC:Atomic and Molecular Physics Lecture 50 - Vibration of a molecule (Continued...)
Link NOC:Atomic and Molecular Physics Lecture 51 - Electronic spectra of a molecule
Link NOC:Atomic and Molecular Physics Lecture 52 - Electronic spectra of a molecule (Continued...)
Link NOC:Atomic and Molecular Physics Lecture 53 - Electronic structure of molecules
Link NOC:Atomic and Molecular Physics Lecture 54 - Electronic structure of molecules (Continued...)
Link NOC:Atomic and Molecular Physics Lecture 55 - Electronic structure of a molecule
Link NOC:Atomic and Molecular Physics Lecture 56 - Atomic and Molecular Spectroscopy
Link NOC:Atomic and Molecular Physics Lecture 57 - Raman Spectroscopy
Link NOC:Atomic and Molecular Physics Lecture 58 - Raman Spectroscopy (Continued...)
Link NOC:Atomic and Molecular Physics Lecture 59 - Raman Spectroscopy (Continued...)
Link NOC:Atomic and Molecular Physics Lecture 60 - Resonance spectroscopy
Link NOC:Modern Optics Lecture 1 - Maxwells equations and electromagnetic waves
Link NOC:Modern Optics Lecture 2 - Maxwells equations and electromagnetic waves (Continued...)
Link NOC:Modern Optics Lecture 3 - Maxwells equations and electromagnetic waves (Continued...)
Link NOC:Modern Optics Lecture 4 - Maxwells equations and electromagnetic waves (Continued...)
Link NOC:Modern Optics Lecture 5 - Maxwells equations and electromagnetic waves (Continued...)
Link NOC:Modern Optics Lecture 6 - Maxwells equations and electromagnetic waves (Continued...)
Link NOC:Modern Optics Lecture 7 - Maxwells equations and electromagnetic waves (Continued...)
Link NOC:Modern Optics Lecture 8 - Wave propagation in anisotropic media
Link NOC:Modern Optics Lecture 9 - Wave propagation in anisotropic media (Continued...)
Link NOC:Modern Optics Lecture 10 - Wave propagation in anisotropic media (Continued...)
Link NOC:Modern Optics Lecture 11 - Wave propagation in anisotropic media (Continued...)
Link NOC:Modern Optics Lecture 12 - Wave propagation in anisotropic media (Continued...)
Link NOC:Modern Optics Lecture 13 - Wave propagation in layered structures
Link NOC:Modern Optics Lecture 14 - Wave propagation in layered structures (Continued...)
Link NOC:Modern Optics Lecture 15 - Wave propagation in layered structures (Continued...)
Link NOC:Modern Optics Lecture 16 - Wave propagation in layered structures (Continued...)
Link NOC:Modern Optics Lecture 17 - Wave propagation in layered structures (Continued...)
Link NOC:Modern Optics Lecture 18 - Waves in guided structures and modes
Link NOC:Modern Optics Lecture 19 - Waves in guided structures and modes (Continued...)
Link NOC:Modern Optics Lecture 20 - Waves in guided structures and modes (Continued...)
Link NOC:Modern Optics Lecture 21 - Waves in guided structures and modes (Continued...)
Link NOC:Modern Optics Lecture 22 - Waves in guided structures and modes (Continued...)
Link NOC:Modern Optics Lecture 23 - Waves in guided structures and modes (Continued...)
Link NOC:Modern Optics Lecture 24 - Coupling of waves and optical couplers
Link NOC:Modern Optics Lecture 25 - Coupling of waves and optical couplers (Continued...)
Link NOC:Modern Optics Lecture 26 - Coupling of waves and optical couplers (Continued...)
Link NOC:Modern Optics Lecture 27 - Coupling of waves and optical couplers (Continued...)
Link NOC:Modern Optics Lecture 28 - Coupling of waves and optical couplers (Continued...)
Link NOC:Modern Optics Lecture 29 - Electro-optic Effect
Link NOC:Modern Optics Lecture 30 - Electro-optic Effect (Continued...)
Link NOC:Modern Optics Lecture 31 - Electro-optic Effect (Continued...)
Link NOC:Modern Optics Lecture 32 - Electro-optic Effect (Continued...)
Link NOC:Modern Optics Lecture 33 - Electro-optic Effect (Continued...)
Link NOC:Modern Optics Lecture 34 - Electro-optic Modulators and Devices
Link NOC:Modern Optics Lecture 35 - Electro-optic Modulators and Devices (Continued...)
Link NOC:Modern Optics Lecture 36 - Electro-optic Modulators and Devices (Continued...)
Link NOC:Modern Optics Lecture 37 - Electro-optic Modulators and Devices (Continued...)
Link NOC:Modern Optics Lecture 38 - Electro-optic Modulators and Devices (Continued...)
Link NOC:Modern Optics Lecture 39 - Electro-optic Modulators and Devices (Continued...)
Link NOC:Modern Optics Lecture 40 - Electro-optic Modulators and Devices (Continued...)
Link NOC:Modern Optics Lecture 41 - Acousto-optic Effect
Link NOC:Modern Optics Lecture 42 - Acousto-optic Effect (Continued...)
Link NOC:Modern Optics Lecture 43 - Acousto-optic Effect (Continued...)
Link NOC:Modern Optics Lecture 44 - Acousto-optic Effect (Continued...)
Link NOC:Modern Optics Lecture 45 - Acousto-optic Effect (Continued...)
Link NOC:Modern Optics Lecture 46 - Acousto-optic Effect (Continued...)
Link NOC:Modern Optics Lecture 47 - Acousto-optic Effect (Continued...)
Link NOC:Modern Optics Lecture 48 - Acousto-optic Effect (Continued...)
Link NOC:Modern Optics Lecture 49 - Acousto-optic Effect (Continued...)
Link NOC:Modern Optics Lecture 50 - Acousto-optic Effect (Continued...)
Link NOC:Modern Optics Lecture 51 - Acousto-optic Effect (Continued...)
Link NOC:Modern Optics Lecture 52 - Acousto-optic Effect (Continued...)
Link NOC:Modern Optics Lecture 53 - Acousto-optic Effect (Continued...)
Link NOC:Modern Optics Lecture 54 - Acousto-optic Modulators and Devices
Link NOC:Modern Optics Lecture 55 - Acousto-optic Modulators and Devices (Continued...)
Link NOC:Modern Optics Lecture 56 - Acousto-optic Modulators and Devices (Continued...)
Link NOC:Modern Optics Lecture 57 - Acousto-optic Modulators and Devices (Continued...)
Link NOC:Modern Optics Lecture 58 - Magneto-optic Effect
Link NOC:Modern Optics Lecture 59 - Magneto-optic Effect (Continued...)
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 1 - Basic Linear Optics
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 2 - Basic Linear Optics (Continued...)
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 3 - Basic Linear Optics (Continued...)
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 4 - Basic Linear Optics (Continued...)
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 5 - Basic Linear Optics (Continued...)
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 6 - Basic Linear Optics (Continued...)
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 7 - Basic Linear Optics (Continued...)
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 8 - Basic Linear Optics (Continued...)
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 9 - Basic Linear Optics (Continued...)
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 10 - Nonlinear Optics : An Introduction
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 11 - Classical origin of optical nonlinearity
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 12 - Miller’s Rule
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 13 - Second Harmonic Generation (SHG)
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 14 - Optical Rectification, Linear electro-optic effect
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 15 - Sum and Difference frequency generation
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 16 - Nonlinear Maxwell’s equation
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 17 - Theory of SHG
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 18 - Phase matching
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 19 - Phase matching of SHG, Gain band width calculation
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 20 - Manley-Rowe Relation, Energy conservation in SHG,
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 21 - Birefringence phase-matching (BPM),Type I and Type II phase matching
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 22 - Type II phase matching, Symmetry in nonlinear susceptibility
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 23 - Kleinman’s Symmetry, Neumann’s Principle
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 24 - Neumann’s Principle (Continued...) Centrosymmetric system
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 25 - Matrix form : SHG, SFG, DFG , SHG in KDP Crystal
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 26 - SHG in KDP crystal, Calculation of deff
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 27 - SHG in LiNbO3
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 28 - Quasi phase matching (QPM)
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 29 - Quasi phase matching (QPM) (Continued...), Periodic d function
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 30 - 1st, 2nd, 3rd order QPM, SHG under depleted pump
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 31 - Realistic calculation of SHG, 3 wave interaction
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 32 - 3 wave interaction, Equation for pump, signal and idler wave, Non-collinear phase matching
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 33 - Manley-Rowe Relation (3 wave mixing), Parametric down conversion
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 34 - Parametric down conversion (Continued...), Optical Parametric Amplification (OPA)
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 35 - Optical Parametric Amplification (OPA), Difference frequency generation under OPA
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 36 - Sum frequency generation under OPA
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 37 - OPA under non-phase matching condition, Expression of gain
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 38 - Optical parametric Oscillator (OPO), Singly resonant oscillator
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 39 - Doubly Resonant Oscillator (DRO)
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 40 - Doubly Resonant Oscillator (DRO) (Continued...)
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 41 - 3rd order nonlinear effect
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 42 - Optical Kerr effect and Self-focusing, Symmetry in 3rd order susceptibility
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 43 - Symmetry in 3rd order susceptibility (Continued...), Self Phase Modulation (SPM)
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 44 - Self Phase Modulation (Continued...), Frequency Shift
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 45 - Third Harmonic Generation(3HG), Energy conservation
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 46 - Third Harmonic Generation (Continued...)
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 47 - Third Harmonic Generation (Continued...), Cross Phase Modulation (XPM)
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 48 - Cross Phase Modulation (Continued...), Nonlinear Absorption
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 49 - Four Wave Mixing
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 50 - Four Wave mixing (Continued...)
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 51 - Parametric Amplification under FWM
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 52 - Parametric Amplification under FWM (Continued...)
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 53 - Optical Phase Conjugation
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 54 - Raman Scattering
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 55 - Stimulated Raman Scattering
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 56 - Raman Amplification
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 57 - Raman Amplification (Continued...)
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 58 - Linear pulse propagation
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 59 - Nonlinear Pulse propagation
Link NOC:Introduction to Non-linear Optics and its Applications Lecture 60 - Optical Soliton
Link NOC:Upstream LNG Technology Lecture 1 - Introduction
Link NOC:Upstream LNG Technology Lecture 2 - Concentration
Link NOC:Upstream LNG Technology Lecture 3 - Sources and Process Overview of Natural Gas
Link NOC:Upstream LNG Technology Lecture 4 - Pure Component Phase Behavior
Link NOC:Upstream LNG Technology Lecture 5 - Mixture Phase Behavior
Link NOC:Upstream LNG Technology Lecture 6 - Phase Behaviour of Natural Gas
Link NOC:Upstream LNG Technology Lecture 7 - Dew Point and Bubble Point Calculations
Link NOC:Upstream LNG Technology Lecture 8 - Vapor Liquid Equilibrium
Link NOC:Upstream LNG Technology Lecture 9 - Problems on Vapor Pressure, Gibb's Phase Rule, Dew Point Bubble Point Temperatures
Link NOC:Upstream LNG Technology Lecture 10 - Thermophysical Properties of Natural Gas - I
Link NOC:Upstream LNG Technology Lecture 11 - Thermophysical Properties of Natural Gas - II
Link NOC:Upstream LNG Technology Lecture 12 - Thermodynamic and Chemical Properties
Link NOC:Upstream LNG Technology Lecture 13 - Combustion Properties
Link NOC:Upstream LNG Technology Lecture 14 - Flow in Natural Gas Systems
Link NOC:Upstream LNG Technology Lecture 15 - Flow Measurement In Natural Gas - I
Link NOC:Upstream LNG Technology Lecture 16 - Flow Measurement In Natural Gas - II
Link NOC:Upstream LNG Technology Lecture 17 - Temperature and Quality Measurement in Natural Gas Systems
Link NOC:Upstream LNG Technology Lecture 18 - Pressure measurement in natural gas systems
Link NOC:Upstream LNG Technology Lecture 19 - Tutorial on the estimation of thermophysical properties
Link NOC:Upstream LNG Technology Lecture 20 - Tutorial on the combustion and thermodynamic properties of natural gas
Link NOC:Upstream LNG Technology Lecture 21 - Tutorial on fluid mechanics
Link NOC:Upstream LNG Technology Lecture 22 - Tutorial on flow and pressure measurement in natural gas systems
Link NOC:Upstream LNG Technology Lecture 23 - Tutorial on temperature and quality measurement in natural gas
Link NOC:Upstream LNG Technology Lecture 24 - Heat transfer in natural gas systems
Link NOC:Upstream LNG Technology Lecture 25 - Tutorial on heat transfer in natural gas systems
Link NOC:Upstream LNG Technology Lecture 26 - Heat exchangers in natural gas systems
Link NOC:Upstream LNG Technology Lecture 27 - Analysis of heat exchangers in natural gas systems
Link NOC:Upstream LNG Technology Lecture 28 - Tutorial on heat exchanger analysis
Link NOC:Upstream LNG Technology Lecture 29 - Equillibrium vapour-liquid separation
Link NOC:Upstream LNG Technology Lecture 30 - Equillibrium in multicomponent systems
Link NOC:Upstream LNG Technology Lecture 31 - Separation by distillation
Link NOC:Upstream LNG Technology Lecture 32 - Design of distillation column
Link NOC:Upstream LNG Technology Lecture 33 - Equillibrium fluid solid separation
Link NOC:Upstream LNG Technology Lecture 34 - Membrane separation in natural gas systems
Link NOC:Upstream LNG Technology Lecture 35 - Estimation of water content in natural gas
Link NOC:Upstream LNG Technology Lecture 36 - Multistage single component equillibrium separation
Link NOC:Upstream LNG Technology Lecture 37 - Tutorial on vapour liquid separation
Link NOC:Upstream LNG Technology Lecture 38 - Tutorial on ideal binary distillation
Link NOC:Upstream LNG Technology Lecture 39 - Tutorial on equillibrium gas- solid separation
Link NOC:Upstream LNG Technology Lecture 40 - Tutorial on membrane gas separation
Link NOC:Upstream LNG Technology Lecture 41 - Dehydration of natural gas
Link NOC:Upstream LNG Technology Lecture 42 - Natural gas Processing - hydrate removal
Link NOC:Upstream LNG Technology Lecture 43 - Acid gas removal in natural gas system - I
Link NOC:Upstream LNG Technology Lecture 44 - Acid gas removal in natural gas system - II
Link NOC:Upstream LNG Technology Lecture 45 - Nitrogen removal in natural gas system - I
Link NOC:Upstream LNG Technology Lecture 46 - Nitrogen removal in natural gas system - II
Link NOC:Upstream LNG Technology Lecture 47 - Compression in natural gas systems
Link NOC:Upstream LNG Technology Lecture 48 - Compressors used in natural gas systems
Link NOC:Upstream LNG Technology Lecture 49 - Tutorial on hydrate removal
Link NOC:Upstream LNG Technology Lecture 50 - Multicomponent distillation column design: Approximate method
Link NOC:Upstream LNG Technology Lecture 51 - Sulfur recovery in natural gas systems - I
Link NOC:Upstream LNG Technology Lecture 52 - Tutorial on compression
Link NOC:Upstream LNG Technology Lecture 53 - Pigging
Link NOC:Upstream LNG Technology Lecture 54 - Sulfur recovery in natural gas systems - II
Link NOC:Upstream LNG Technology Lecture 55 - Trace components in natural gas
Link NOC:Upstream LNG Technology Lecture 56 - Helium recovery, upgradation and purification
Link NOC:Upstream LNG Technology Lecture 57 - Fundamentals of absorption and stripping for natural gas processing
Link NOC:Upstream LNG Technology Lecture 58 - Tutorial on absorption and stripping
Link NOC:Upstream LNG Technology Lecture 59 - Gas liquid separation in natural gas systems - I
Link NOC:Upstream LNG Technology Lecture 60 - Gas liquid separation in natural gas systems - II
Link NOC:Upstream LNG Technology Lecture 61 - Tutorial on equillibrium in multicomponent systems
Link NOC:Upstream LNG Technology Lecture 62 - Tutorial on multicomponent distillation - I
Link NOC:Upstream LNG Technology Lecture 63 - Tutorial on multicomponent distillation - II
Link NOC:Upstream LNG Technology Lecture 64 - Pumps in natural gas systems - I
Link NOC:Upstream LNG Technology Lecture 65 - Pumps in natural gas systems - II
Link NOC:Upstream LNG Technology Lecture 66 - Pumps in natural gas systems - III
Link NOC:Upstream LNG Technology Lecture 67 - Tutorial on pumps - I
Link NOC:Upstream LNG Technology Lecture 68 - Tutorial on pumps - II
Link NOC:Upstream LNG Technology Lecture 69 - Cryogenic refrigeration and liquefaction in natural gas systems - I
Link NOC:Upstream LNG Technology Lecture 70 - Cryogenic refrigeration and liquefaction in natural gas systems - II
Link NOC:Upstream LNG Technology Lecture 71 - Tutorial on refrigeration - I
Link NOC:Upstream LNG Technology Lecture 72 - Tutorial on refrigeration - II
Link NOC:Upstream LNG Technology Lecture 73 - Cryogenic refrigeration and liquefaction in natural gas systems - III
Link NOC:Upstream LNG Technology Lecture 74 - Cryogenic refrigeration and liquefaction in natural gas systems - IV
Link NOC:Upstream LNG Technology Lecture 75 - Cryogenic refrigeration and liquefaction in natural gas systems - V
Link NOC:Upstream LNG Technology Lecture 76 - Tutorial on refrigeration - III
Link NOC:Upstream LNG Technology Lecture 77 - Tutorial on refrigeration and liquefaction - IV
Link NOC:Upstream LNG Technology Lecture 78 - Tutorial on refrigeration and liquefaction - V
Link NOC:Upstream LNG Technology Lecture 79 - Hydrocarbon recovery in natural gas system - I
Link NOC:Upstream LNG Technology Lecture 80 - Hydrocarbon recovery in natural gas system - II
Link NOC:Upstream LNG Technology Lecture 81 - Hydrocarbon recovery in natural gas system - III
Link NOC:Upstream LNG Technology Lecture 82 - Tutorial on hydrocarbon recovery in natural gas
Link NOC:Upstream LNG Technology Lecture 83 - Piping in natural gas systems - I
Link NOC:Upstream LNG Technology Lecture 84 - Piping in natural gas systems - II
Link NOC:Upstream LNG Technology Lecture 85 - Tutorial on piping in natural gas systems - I
Link NOC:Upstream LNG Technology Lecture 86 - Tutorial on piping in natural gas systems - II
Link NOC:Experimental Physics-I Lecture 1 - Introduction
Link NOC:Experimental Physics-I Lecture 2 - Basic tools and apparatus
Link NOC:Experimental Physics-I Lecture 3 - Basic tools and apparatus (Continued...)
Link NOC:Experimental Physics-I Lecture 4 - Basic tools and apparatus (Continued...)
Link NOC:Experimental Physics-I Lecture 5 - Basic tools and apparatus (Continued...)
Link NOC:Experimental Physics-I Lecture 6 - Basic tools and apparatus (Continued...)
Link NOC:Experimental Physics-I Lecture 7 - Basic components
Link NOC:Experimental Physics-I Lecture 8 - Basic apparatus
Link NOC:Experimental Physics-I Lecture 9 - Basic apparatus (Continued...)
Link NOC:Experimental Physics-I Lecture 10 - Basic analysis
Link NOC:Experimental Physics-I Lecture 11 - Basics analysis (Continued...)
Link NOC:Experimental Physics-I Lecture 12 - Basics analysis (Continued...)
Link NOC:Experimental Physics-I Lecture 13 - Basics analysis (Continued...)
Link NOC:Experimental Physics-I Lecture 14 - Basics analysis (Continued...)
Link NOC:Experimental Physics-I Lecture 15 - Basics analysis (Continued...)
Link NOC:Experimental Physics-I Lecture 16 - Basics analysis (Continued...)
Link NOC:Experimental Physics-I Lecture 17 - Basics analysis (Continued...)
Link NOC:Experimental Physics-I Lecture 18 - Basics analysis (Continued...)
Link NOC:Experimental Physics-I Lecture 19 - Basics analysis (Continued...)
Link NOC:Experimental Physics-I Lecture 20 - Determination of Young's modulus
Link NOC:Experimental Physics-I Lecture 21 - Demonstration on the experiment of Young's modulus of mettalic bar and data collection
Link NOC:Experimental Physics-I Lecture 22 - Calculate the value of young's modulus of given metallic bar form the recorded datas
Link NOC:Experimental Physics-I Lecture 23 - Experimental demonstration to calculate the spring constant of a given spring
Link NOC:Experimental Physics-I Lecture 24 - Calculate the value of calculate the spring constant of a given spring form the recorded datas
Link NOC:Experimental Physics-I Lecture 25 - Theory regarding Moment of inertia of a flywheel
Link NOC:Experimental Physics-I Lecture 26 - Experimental demonstration to calculate the moment of inertia of a given flywheel
Link NOC:Experimental Physics-I Lecture 27 - How to calculate the value of moment of inertia of a flywheelform the recorded data
Link NOC:Experimental Physics-I Lecture 28 - Theory regarding surface tension of the liquid
Link NOC:Experimental Physics-I Lecture 29 - Demonstration on the experiment of surface tension and data collection
Link NOC:Experimental Physics-I Lecture 30 - How to calculate the value of surface tension of water from the recorded data
Link NOC:Experimental Physics-I Lecture 31 - Theory regarding viscosity of liquid
Link NOC:Experimental Physics-I Lecture 32 - Demonstration on the experiment of viscosity
Link NOC:Experimental Physics-I Lecture 33 - Data analysis of recorded data on viscosity
Link NOC:Experimental Physics-I Lecture 34 - Forced Oscillations Pohls pendulum
Link NOC:Experimental Physics-I Lecture 35 - Coupled Pendulum
Link NOC:Experimental Physics-I Lecture 36 - Demonstration on the experiment of compound pendulum
Link NOC:Experimental Physics-I Lecture 37 - Theory regarding compound pendulum has been discussed
Link NOC:Experimental Physics-I Lecture 38 - Experimental demonstration on the standing Waves on a String has been shown clearly how to determine the linear mass density of the string.
Link NOC:Experimental Physics-I Lecture 39 - Linear expansion of metal
Link NOC:Experimental Physics-I Lecture 40 - Expt. to study linear expansion
Link NOC:Experimental Physics-I Lecture 41 - Determine the coefficient of thermal conductivity of a bad conductor
Link NOC:Experimental Physics-I Lecture 42 - Determination of electrical equivalent of heat
Link NOC:Experimental Physics-I Lecture 43 - Determination of specific heat of the given solid metals using Dulong-Petit's law
Link NOC:Experimental Physics-I Lecture 44 - Determination of the calibration curve of a given (Type K chromel–alumel) thermocouple and hence determination of Seebeck coefficient
Link NOC:Experimental Physics-I Lecture 45 - Theorey and Demonstartion Platinum Resistance thermometer
Link NOC:Experimental Physics-I Lecture 46 - Experiment on Platinum Resistance thermometer
Link NOC:Experimental Physics-I Lecture 47 - To study the current-voltage relationship of an L-R circuit
Link NOC:Experimental Physics-I Lecture 48 - To study the variation in current and voltage in a series LCR circuit
Link NOC:Experimental Physics-I Lecture 49 - Sensitivity of Blastic Galvanometer
Link NOC:Experimental Physics-I Lecture 50 - Expt. for Sensitivity of Blastic Galvanometer
Link NOC:Experimental Physics-I Lecture 51 - Theory on RC Circuit
Link NOC:Experimental Physics-I Lecture 52 - Expt. on RC Circuit
Link NOC:Experimental Physics-I Lecture 53 - Theory regarding the magnetic field along the axis of a circular coil
Link NOC:Experimental Physics-I Lecture 54 - Experiment regarding the magnetic field along the axis of a circular coil
Link NOC:Experimental Physics-I Lecture 55 - Study the induced e.m.f of inductance coil
Link NOC:Experimental Physics-I Lecture 56 - Mutual inductance
Link NOC:Experimental Physics-I Lecture 57 - Theory regarding permeability of air
Link NOC:Experimental Physics-I Lecture 58 - Experiment to determination the permeability of air
Link NOC:Experimental Physics-I Lecture 59 - Devices around us
Link NOC:Experimental Physics-I Lecture 60 - Devices around us (Continued...)
Link NOC:Experimental Physics-II Lecture 1 - Introduction
Link NOC:Experimental Physics-II Lecture 2 - Summary of Experimental Physics - I
Link NOC:Experimental Physics-II Lecture 3 - Summary of Experimental Physics - I (Continued...)
Link NOC:Experimental Physics-II Lecture 4 - Summary of Experimental Physics - I (Continued...)
Link NOC:Experimental Physics-II Lecture 5 - Summary of Experimental Physics - I (Continued...)
Link NOC:Experimental Physics-II Lecture 6 - Basic analysis
Link NOC:Experimental Physics-II Lecture 7 - Basic analysis (Continued...)
Link NOC:Experimental Physics-II Lecture 8 - Basic components
Link NOC:Experimental Physics-II Lecture 9 - Basic components (Continued...)
Link NOC:Experimental Physics-II Lecture 10 - Basic components (Continued...)
Link NOC:Experimental Physics-II Lecture 11 - Basic idea on mirros and lenses and their applications
Link NOC:Experimental Physics-II Lecture 12 - Determination of focal length of concave mirror
Link NOC:Experimental Physics-II Lecture 13 - Determination of focal length of concave mirror (Continued...)
Link NOC:Experimental Physics-II Lecture 14 - Determination of focal length of convex mirror
Link NOC:Experimental Physics-II Lecture 15 - Determination of focal length of convex lens
Link NOC:Experimental Physics-II Lecture 16 - Determination of focal length of concave lens
Link NOC:Experimental Physics-II Lecture 17 - Determination of focal length of convex lens by diplacement method
Link NOC:Experimental Physics-II Lecture 18 - Applications of mirrors and lenses
Link NOC:Experimental Physics-II Lecture 19 - Determination of refractive index of liquid using travelling microscope
Link NOC:Experimental Physics-II Lecture 20 - Basic discussion on spectrometer and prism
Link NOC:Experimental Physics-II Lecture 21 - Basic discussion on spectrometer and prism (Continued...)
Link NOC:Experimental Physics-II Lecture 22 - Basic discussion on spectrometer and prism (Continued...)
Link NOC:Experimental Physics-II Lecture 23 - Schuster's method
Link NOC:Experimental Physics-II Lecture 24 - Discussion on angle of the prism, angular dispersion and dispersive power of given prism
Link NOC:Experimental Physics-II Lecture 25 - Determination of the angle of prism
Link NOC:Experimental Physics-II Lecture 26 - Determination of the angle of minimum deviation for a given prism and hence to determine the refractive index of the given prism
Link NOC:Experimental Physics-II Lecture 27 - Discussion on the angle of incidence and corresponding deviation of light through a prism and determination of the angle of minimum deviation for a given prism from the plot of the angle of incidence versus deviation.
Link NOC:Experimental Physics-II Lecture 28 - Determination of the angle of minimum deviation from (i-D) plot for a given prism and hence to determine the refractive index of the given prism.
Link NOC:Experimental Physics-II Lecture 29 - Determination of the calibration plot of deviation versus wavelength for a given prism and hence determination of the wavelength of the unknown light source using the calibration plot
Link NOC:Experimental Physics-II Lecture 30 - Determination of the dispersive power, Cauchy constant and resolving power of a given prism.
Link NOC:Experimental Physics-II Lecture 31 - Interference Phenomena
Link NOC:Experimental Physics-II Lecture 32 - Interference Phenomena (Continued...)
Link NOC:Experimental Physics-II Lecture 33 - Interference Phenomena (Continued...)
Link NOC:Experimental Physics-II Lecture 34 - Bi-prism
Link NOC:Experimental Physics-II Lecture 35 - Bi-prism (Continued...)
Link NOC:Experimental Physics-II Lecture 36 - Interference phenomena by Newton ring (Theory)
Link NOC:Experimental Physics-II Lecture 37 - Interference phenomena by Newton ring (Experiment)
Link NOC:Experimental Physics-II Lecture 38 - Michelson interferometer (Theory)
Link NOC:Experimental Physics-II Lecture 39 - Michelson interferometer (Experiment)
Link NOC:Experimental Physics-II Lecture 40 - Theory of diffraction
Link NOC:Experimental Physics-II Lecture 41 - Theory of diffraction (Continued...)
Link NOC:Experimental Physics-II Lecture 42 - Theory of diffraction (Continued...)
Link NOC:Experimental Physics-II Lecture 43 - Single slit diffraction
Link NOC:Experimental Physics-II Lecture 44 - Double slit diffraction
Link NOC:Experimental Physics-II Lecture 45 - Plane transmission grating
Link NOC:Experimental Physics-II Lecture 46 - Plane transmission grating (Continued...)
Link NOC:Experimental Physics-II Lecture 47 - Theory of polarization
Link NOC:Experimental Physics-II Lecture 48 - Theory of polarization (Continued...)
Link NOC:Experimental Physics-II Lecture 49 - Experiment for Verification of Malus law
Link NOC:Experimental Physics-II Lecture 50 - Experiment for brewester
Link NOC:Experimental Physics-II Lecture 51 - Experiment for Brewester angle
Link NOC:Experimental Physics-II Lecture 52 - Experiment on e-ray and o-ray
Link NOC:Experimental Physics-II Lecture 53 - Polarimeter
Link NOC:Experimental Physics-II Lecture 54 - Zone-plate Theory
Link NOC:Experimental Physics-II Lecture 55 - Zone-plate Experiment
Link NOC:Experimental Physics-II Lecture 56 - Theory of Photoelectric Effect
Link NOC:Experimental Physics-II Lecture 57 - Experiment on Photoelectric Effect
Link NOC:Experimental Physics-II Lecture 58 - Thomson experiment to determine the specific charge of an electron (e/m)
Link NOC:Experimental Physics-II Lecture 59 - Frank-Hertz Experiment
Link NOC:Experimental Physics-II Lecture 60 - Experiment on Rydberg constant
Link NOC:Experimental Physics-II Lecture 61 - Experiment on Rydberg constant (Continued...)
Link Special Topics in Atomic Physics Lecture 1 - Introductory lecture about this course
Link Special Topics in Atomic Physics Lecture 2 - Quantum Mechanics and Symmetry of the Hydrogen Atom
Link Special Topics in Atomic Physics Lecture 3 - Hydrogen atom: Rotational and Dynamical Symmetry of the 1/r Potential
Link Special Topics in Atomic Physics Lecture 4 - Hydrogen atom: Dynamical Symmetry of the 1/r Potential
Link Special Topics in Atomic Physics Lecture 5 - Degeneracy of the Hydrogen Atom: SO(4)
Link Special Topics in Atomic Physics Lecture 6 - Wavefunctions of the Hydrogen Atom
Link Special Topics in Atomic Physics Lecture 7 - Angular Momentum in Quantum Mechanics
Link Special Topics in Atomic Physics Lecture 8 - Angular Momentum in Quantum Mechanics: half-odd-integer and integer quantum numbers: SU(2) & SO(3)
Link Special Topics in Atomic Physics Lecture 9 - Angular Momentum in Quantum Mechanics: Addition Theorem for Spherical Harmonics - Coupling of Angular Momenta
Link Special Topics in Atomic Physics Lecture 10 - Angular Momentum in Quantum Mechanics Dimensionality of the Direct-Product (Composite) Vector Space CGC recursion relations
Link Special Topics in Atomic Physics Lecture 11 - Angular Momentum in Quantum Mechanics CGC matrix, Wigner D Rotation Matrix, Irreducible Tensor Operators
Link Special Topics in Atomic Physics Lecture 12 - Angular Momentum in Quantum Mechanics - more on ITO, and the Wigner-Eckart Theorem
Link Special Topics in Atomic Physics Lecture 13 - Angular Momentum in Quantum Mechanics Wigner-Eckart Theorem - 2
Link Special Topics in Atomic Physics Lecture 14 - Relativistic Quantum Mechanics of the Hydrogen Atom - 1
Link Special Topics in Atomic Physics Lecture 15 - Relativistic Quantum Mechanics of the Hydrogen Atom - 2
Link Special Topics in Atomic Physics Lecture 16 - Relativistic Quantum Mechanics of the Hydrogen Atom - PAULI Equation - Foldy - Wouthysen Transformations - 1
Link Special Topics in Atomic Physics Lecture 17 - Relativistic Quantum Mechanics of the Hydrogen Atom - Foldy - Wouthysen Transformations - 2
Link Special Topics in Atomic Physics Lecture 18 - Relativistic Quantum Mechanics of the Hydrogen Atom - Foldy - Wouthysen Transformations - 3
Link Special Topics in Atomic Physics Lecture 19 - Relativistic Quantum Mechanics of the Hydrogen Atom - Spherical Symmetry of the Coulomb Potential
Link Special Topics in Atomic Physics Lecture 20 - Hartree-Fock Self-Consistent Field formalism - 1
Link Special Topics in Atomic Physics Lecture 21 - Hartree-Fock Self-Consistent Field formalism - 2
Link Special Topics in Atomic Physics Lecture 22 - Hartree-Fock Self-Consistent Field formalism - 3
Link Special Topics in Atomic Physics Lecture 23 - Hartree-Fock Self-Consistent Field formalism - 4
Link Special Topics in Atomic Physics Lecture 24 - Hartree-Fock Self-Consistent Field formalism - 5
Link Special Topics in Atomic Physics Lecture 25 - Perturbative treatment of relativistic effects… Schrodinger's and Dirac QM
Link Special Topics in Atomic Physics Lecture 26 - Perturbative treatment of relativistic effects… Schrodinger's and Dirac QM
Link Special Topics in Atomic Physics Lecture 27 - Probing the atom - Collisions and Spectroscopy - boundary conditions - 1
Link Special Topics in Atomic Physics Lecture 28 - Atomic Probes - Collisions and Spectroscopy - boundary conditions - 2
Link Special Topics in Atomic Physics Lecture 29 - Atomic Probes - Collisions and Spectroscopy - Scattering phase shifts and boundary conditions
Link Special Topics in Atomic Physics Lecture 30 - Atomic Probes - Time reversal symmetry - applications in atomic collisions and photoionization processes
Link Special Topics in Atomic Physics Lecture 31 - Atomic Photoionization cross sections, angular distributions of photoelectrons - 1
Link Special Topics in Atomic Physics Lecture 32 - Atomic Photoionization cross sections, angular distributions of photoelectrons - 2
Link Special Topics in Atomic Physics Lecture 33 - Atomic Photoionization cross sections, angular distributions of photoelectrons - 3
Link Special Topics in Atomic Physics Lecture 34 - Atomic Photoionization cross sections, angular distributions of photoelectrons - 4
Link Special Topics in Atomic Physics Lecture 35 - Atomic Photoionization cross sections, angular distributions of photoelectrons Cooper Zare Formula
Link Special Topics in Atomic Physics Lecture 36 - Stark- Zeeman Spectroscopy - Stark effect
Link Special Topics in Atomic Physics Lecture 37 - Stark- Zeeman Spectroscopy - Stark effect on n=2 excited state of the H atom Zeeman effect
Link Special Topics in Atomic Physics Lecture 38 - Stark- Zeeman Spectroscopy - Normal, Anomalous Zeeman effect; Paschen- Back effect
Link Special Topics in Atomic Physics Lecture 39 - Stark- Zeeman Spectroscopy - Anomalous Zeeman effect
Link Special Topics in Atomic Physics Lecture 40 - Zeeman effect Fine structure, Hyperfine structure - Elemental, rudimentary introduction to Laser Cooling, BEC, Atomic Clock / Attosecond metrology
Link Classical Field Theory Lecture 1 - What is Classical Field Theory?
Link Classical Field Theory Lecture 2 - Symmetries and Invariances - I
Link Classical Field Theory Lecture 3 - Symmetries and Invariances - II
Link Classical Field Theory Lecture 4 - Group Theory in Physics - I
Link Classical Field Theory Lecture 5 - Group Theory in Physics - II
Link Classical Field Theory Lecture 6 - Finite Groups - I
Link Classical Field Theory Lecture 7 - Finite Groups - II
Link Classical Field Theory Lecture 8 - Basics of CFT - I
Link Classical Field Theory Lecture 9 - Basics of CFT - II
Link Classical Field Theory Lecture 10 - Basics of CFT - III
Link Classical Field Theory Lecture 11 - Green Functions - I
Link Classical Field Theory Lecture 12 - Green Functions - II
Link Classical Field Theory Lecture 13 - Noether's Theorem - I
Link Classical Field Theory Lecture 14 - Noether's Theorem - II
Link Classical Field Theory Lecture 15 - Kink Soliton
Link Classical Field Theory Lecture 16 - Hidden Symmetry
Link Classical Field Theory Lecture 17 - Local Symmetries
Link Classical Field Theory Lecture 18 - The Abelian Higgs model
Link Classical Field Theory Lecture 19 - Lie Algebras - I
Link Classical Field Theory Lecture 20 - Lie Algebras - II
Link Classical Field Theory Lecture 21 - Magnetic Vortices - I
Link Classical Field Theory Lecture 22 - Magnetic Vortices - II
Link Classical Field Theory Lecture 23 - Non-abelian gauge theories - I
Link Classical Field Theory Lecture 24 - Non-abelian gauge theories - II
Link Classical Field Theory Lecture 25 - Irreps of Lie algebras - I
Link Classical Field Theory Lecture 26 - Irreps of Lie algebras - II
Link Classical Field Theory Lecture 27 - The Standard Model - I
Link Classical Field Theory Lecture 28 - The Standard Model - II
Link Classical Field Theory Lecture 29 - Irreps of the Lorentz/Poincare algebras
Link Classical Field Theory Lecture 30 - The Dirac mononpole
Link Classical Field Theory Lecture 31 - The 't Hooft-Polaykov monopole
Link Classical Field Theory Lecture 32 - Revisiting Derrick’s Theorem
Link Classical Field Theory Lecture 33 - The Julia-Zee dyon
Link Classical Field Theory Lecture 34 - Instantons - I
Link Classical Field Theory Lecture 35 - Instantons - II
Link Classical Field Theory Lecture 36 - Instantons - III
Link Classical Field Theory Lecture 37 - Instantons - IV
Link Classical Field Theory Lecture 38 - Dualities
Link Classical Field Theory Lecture 39 - Geometrization of Field Theory
Link Topics in Nonlinear Dynamics Lecture 1 - Overview
Link Topics in Nonlinear Dynamics Lecture 2 - Critical points of a dynamical system
Link Topics in Nonlinear Dynamics Lecture 3 - Two-dimensional flows
Link Topics in Nonlinear Dynamics Lecture 4 - Stable and unstable manifolds
Link Topics in Nonlinear Dynamics Lecture 5 - Hamiltonian dynamics - Part I
Link Topics in Nonlinear Dynamics Lecture 6 - Hamiltonian dynamics - Part II
Link Topics in Nonlinear Dynamics Lecture 7 - Hamiltonian dynamics - Part III
Link Topics in Nonlinear Dynamics Lecture 8 - Hamiltonian dynamics - Part IV
Link Topics in Nonlinear Dynamics Lecture 9 - Hamiltonian dynamics - Part V
Link Topics in Nonlinear Dynamics Lecture 10 - Elementary bifurcations
Link Topics in Nonlinear Dynamics Lecture 11 - Limit cycles
Link Topics in Nonlinear Dynamics Lecture 12 - Poincar´e index
Link Topics in Nonlinear Dynamics Lecture 13 - Illustrative examples
Link Topics in Nonlinear Dynamics Lecture 14 - Quiz 1. Questions and answers
Link Topics in Nonlinear Dynamics Lecture 15 - Bead on a rotating hoop
Link Topics in Nonlinear Dynamics Lecture 16 - Types of dynamical behaviour
Link Topics in Nonlinear Dynamics Lecture 17 - Discrete time dynamics - Part I
Link Topics in Nonlinear Dynamics Lecture 18 - Discrete time dynamics - Part II
Link Topics in Nonlinear Dynamics Lecture 19 - Discrete time dynamics - Part III
Link Topics in Nonlinear Dynamics Lecture 20 - Discrete time dynamics - Part IV
Link Topics in Nonlinear Dynamics Lecture 21 - Coarse-grained dynamics in phase space - Part I
Link Topics in Nonlinear Dynamics Lecture 22 - Coarse-grained dynamics in phase space - Part II & Stochastic dynamics - Part I
Link Topics in Nonlinear Dynamics Lecture 23 - Stochastic dynamics - Part II
Link Topics in Nonlinear Dynamics Lecture 24 - Stochastic dynamics - Part III
Link Topics in Nonlinear Dynamics Lecture 25 - Coarse-grained dynamics in phase space - Part IV & Stochastic dynamics - Part IV
Link Topics in Nonlinear Dynamics Lecture 26 - Discrete time dynamics - Part V
Link Topics in Nonlinear Dynamics Lecture 27 - Quiz 2. Questions and answers
Link Topics in Nonlinear Dynamics Lecture 28 - Stochastic dynamics - Part V
Link Topics in Nonlinear Dynamics Lecture 29 - Stochastic dynamics - Part VI
Link Condensed Matter Physics Lecture 1 - Principles of Condensed Matter Physics
Link Condensed Matter Physics Lecture 2 - Symmetry in Perfect Solids
Link Condensed Matter Physics Lecture 3 - Symmetry in Perfect Solids (Continued...)
Link Condensed Matter Physics Lecture 4 - Symmetry in Perfect Solids - Worked Examples
Link Condensed Matter Physics Lecture 5 - Diffraction Methods For Crystal Structures
Link Condensed Matter Physics Lecture 6 - Diffraction Methods For Crystal Structures (Continued...)
Link Condensed Matter Physics Lecture 7 - Diffraction Methods For Crystal Structures - Worked Examples
Link Condensed Matter Physics Lecture 8 - Physical Properties of Crystals
Link Condensed Matter Physics Lecture 9 - Physical Properties of Crystals (Continued...)
Link Condensed Matter Physics Lecture 10 - Physical Properties of Crystals - Worked Examples
Link Condensed Matter Physics Lecture 11 - Cohesion in Solids
Link Condensed Matter Physics Lecture 12 - Cohesion in Solids - Worked Examples
Link Condensed Matter Physics Lecture 13 - The Free Electron Theory of Metals
Link Condensed Matter Physics Lecture 14 - The Free Electron Theory of Metals - Worked Examples
Link Condensed Matter Physics Lecture 15 - The Free Electron Theory of Metals - Electrical Conductivity
Link Condensed Matter Physics Lecture 16 - The Free Electron Theory of Metals - Electrical Conductivity - Worked Examples
Link Condensed Matter Physics Lecture 17 - Thermal Conductivity of Metals
Link Condensed Matter Physics Lecture 18 - Thermal Conductivity of Metals - Worked Examples
Link Condensed Matter Physics Lecture 19 - The Concept of Phonons
Link Condensed Matter Physics Lecture 20 - Debye Theory of Specific Heat, Lattice Vibrations
Link Condensed Matter Physics Lecture 21 - Debye Theory of Specific Heat, Lattice Vibrations - Worked Examples
Link Condensed Matter Physics Lecture 22 - Lattice Vibrations (Continued) Phonon thermal conductivity
Link Condensed Matter Physics Lecture 23 - Lattice Vibrations (Continued) Phonon Thermal Conductivity - Worked Examples
Link Condensed Matter Physics Lecture 24 - Anharmonicity and Thermal Expansion
Link Condensed Matter Physics Lecture 25 - Dielectric (Insulating) Solids
Link Condensed Matter Physics Lecture 26 - Dispersion and Absorption of Electromagnetic Waves in Dielectric Media, Ferro-and Antiferroelectrics
Link Condensed Matter Physics Lecture 27 - Optical Properties of Metals; Ionic Polarization in Alkali Halides; Piezoelectricity
Link Condensed Matter Physics Lecture 28 - Dielectric Solids - Worked Examples
Link Condensed Matter Physics Lecture 29 - Dia - and Paramagnetism
Link Condensed Matter Physics Lecture 30 - Paramagnetism of Transition Metal and Rare Earth Ions
Link Condensed Matter Physics Lecture 31 - Quenching of Orbital Angular Momentum; Ferromagnetism
Link Condensed Matter Physics Lecture 32 - Exchange Interactions, Magnetic Order, Neutron Diffraction
Link Condensed Matter Physics Lecture 33 - Hysteresis and Magnetic Domains; Spin Waves and Magnons
Link Condensed Matter Physics Lecture 34 - Magnetic Resonance
Link Condensed Matter Physics Lecture 35 - Magnetism and Magnetic Resonance - Worked Examples
Link Condensed Matter Physics Lecture 36 - Magnetism - Worked Examples (Continued...)
Link Condensed Matter Physics Lecture 37 - Pauli Paramagnetism and Landau Diamagnetism
Link Condensed Matter Physics Lecture 38 - Band Magnetism; Itinerant Electrons; Stoner Model
Link Condensed Matter Physics Lecture 39 - Superconductivity - Perfect Electrical Conductivity and Perfect Diamagnetism
Link Condensed Matter Physics Lecture 40 - Type I and Type II Superconductors
Link Condensed Matter Physics Lecture 41 - Ginsburg - Landau Theory, Flux Quantization
Link Condensed Matter Physics Lecture 42 - Cooper Pairs
Link Condensed Matter Physics Lecture 43 - Microscopic (BCS) Theory of Superconductivity
Link Condensed Matter Physics Lecture 44 - BCS Theory (Continued...): Josephson Tunneling: Quantum Interference
Link Condensed Matter Physics Lecture 45 - Josephson Effect (Continued...); High Temperature Superconductors
Link Condensed Matter Physics Lecture 46 - Superconductors - Worked Examples
Link Condensed Matter Physics Lecture 47 - Energy Bands in Solids
Link Condensed Matter Physics Lecture 48 - Electron Dynamics in a Periodic Solid
Link Condensed Matter Physics Lecture 49 - Semiconductors
Link Condensed Matter Physics Lecture 50 - Semiconductors (Continued...)
Link Condensed Matter Physics Lecture 51 - Semiconductors - Worked Examples
Link Condensed Matter Physics Lecture 52 - Defects in Solids - Point Defects
Link Condensed Matter Physics Lecture 53 - Point Defects in Solids - Worked Examples
Link Condensed Matter Physics Lecture 54 - Defects in Solids - Line and Surface Defects
Link Condensed Matter Physics Lecture 55 - Dislocations in Solids - Worked Examples
Link Condensed Matter Physics Lecture 56 - Quantum Fluids and Quantum Solids
Link Condensed Matter Physics Lecture 57 - Quantum Liquids and Quantum Solids - Worked Examples
Link Condensed Matter Physics Lecture 58 - Epilogue
Link Quantum Field Theory Lecture 1 - Introduction
Link Quantum Field Theory Lecture 2 - Introduction to Classical Field Theory
Link Quantum Field Theory Lecture 3 - Quantization of Real Scalar Field - I
Link Quantum Field Theory Lecture 4 - Quantization of Real Scalar Field - II
Link Quantum Field Theory Lecture 5 - Quantization of Real Scalar Field - III
Link Quantum Field Theory Lecture 6 - Quantization of Real Scalar Field - IV
Link Quantum Field Theory Lecture 7 - Quantization of Complex Scalar Field
Link Quantum Field Theory Lecture 8 - Interacting Field Theory - I
Link Quantum Field Theory Lecture 9 - Interacting Field Theory - II
Link Quantum Field Theory Lecture 10 - Interacting Field Theory - III
Link Quantum Field Theory Lecture 11 - Interacting Field Theory - IV
Link Quantum Field Theory Lecture 12 - Interacting Field Theory - V
Link Quantum Field Theory Lecture 13 - Interacting Field Theory - VI
Link Quantum Field Theory Lecture 14 - Interacting Field Theory - VII
Link Quantum Field Theory Lecture 15 - Quantuzation of Electromagnetic Field - I
Link Quantum Field Theory Lecture 16 - Quantuzation of Electromagnetic Field - II
Link Quantum Field Theory Lecture 17 - Fermion Quantization - I
Link Quantum Field Theory Lecture 18 - Fermion Quantization - II
Link Quantum Field Theory Lecture 19 - Fermion Quantization - III
Link Quantum Field Theory Lecture 20 - Fermion Quantization - IV
Link Quantum Field Theory Lecture 21 - Fermion Quantization - V
Link Quantum Field Theory Lecture 22 - Fermion Quantization - VI
Link Quantum Field Theory Lecture 23 - The S-Matrix Expansion in QED - I
Link Quantum Field Theory Lecture 24 - The S-Matrix Expansion in QED - II
Link Quantum Field Theory Lecture 25 - Feynman Rules in QED - I
Link Quantum Field Theory Lecture 26 - Feynman Rules in QED - II
Link Quantum Field Theory Lecture 27 - Compton Scattering - I
Link Quantum Field Theory Lecture 28 - Compton Scattering - II
Link Quantum Field Theory Lecture 29 - Compton Scattering - III
Link Quantum Field Theory Lecture 30 - Moller Scattering - I
Link Quantum Field Theory Lecture 31 - Moller Scattering - II
Link Quantum Field Theory Lecture 32 - Vertex Correction - I
Link Quantum Field Theory Lecture 33 - Vertex Correction - II
Link Quantum Field Theory Lecture 34 - Vertex Correction - III
Link Quantum Field Theory Lecture 35 - Vertex Correction - IV
Link Quantum Field Theory Lecture 36 - Electron Selfenergy
Link Quantum Field Theory Lecture 37 - Photon Selfenergy - I
Link Quantum Field Theory Lecture 38 - Photon Selfenergy - II
Link Quantum Mechanics I Lecture 1 - Quantum Mechanics – An Introduction
Link Quantum Mechanics I Lecture 2 - Linear Vector Spaces - I
Link Quantum Mechanics I Lecture 3 - Linear Vector Spaces - II: The two-level atom
Link Quantum Mechanics I Lecture 4 - Linear Vector Spaces - III: The three-level atom
Link Quantum Mechanics I Lecture 5 - Postulates of Quantum Mechanics - I
Link Quantum Mechanics I Lecture 6 - Postulates of Quantum Mechanics - II
Link Quantum Mechanics I Lecture 7 - The Uncertainty Principle
Link Quantum Mechanics I Lecture 8 - The Linear Harmonic Oscillator
Link Quantum Mechanics I Lecture 9 - Introducing Quantum Optics
Link Quantum Mechanics I Lecture 10 - An Interesting Quantum Superposition: The Coherent State
Link Quantum Mechanics I Lecture 11 - The Displacement and Squeezing Operators
Link Quantum Mechanics I Lecture 12 - Exercises in Finite Dimensional Linear Vector Spaces
Link Quantum Mechanics I Lecture 13 - Exercises on Angular Momentum Operators and their algebra
Link Quantum Mechanics I Lecture 14 - Exercises on Quantum Expectation Values
Link Quantum Mechanics I Lecture 15 - Composite Systems
Link Quantum Mechanics I Lecture 16 - The Quantum Beam Splitter
Link Quantum Mechanics I Lecture 17 - Addition of Angular Momenta - I
Link Quantum Mechanics I Lecture 18 - Addition of Angular Momenta - II
Link Quantum Mechanics I Lecture 19 - Addition of Angular Momenta - III
Link Quantum Mechanics I Lecture 20 - Infinite Dimensional Linear Vector Spaces
Link Quantum Mechanics I Lecture 21 - Square-Integrable Functions
Link Quantum Mechanics I Lecture 22 - Ingredients of Wave Mechanics
Link Quantum Mechanics I Lecture 23 - The Schrodinger equation
Link Quantum Mechanics I Lecture 24 - Wave Mechanics of the Simple Harmonic Oscillator
Link Quantum Mechanics I Lecture 25 - One-Dimensional Square Well Potential: The Bound State Problem
Link Quantum Mechanics I Lecture 26 - The Square Well and the Square Potential Barrier
Link Quantum Mechanics I Lecture 27 - The Particle in a one-dimensional Box
Link Quantum Mechanics I Lecture 28 - A Charged Particle in a Uniform Magnetic Field
Link Quantum Mechanics I Lecture 29 - The Wavefunction: Its Single-valuedness and its Phase
Link Quantum Mechanics I Lecture 30 - The Central Potential
Link Quantum Mechanics I Lecture 31 - The Spherical Harmonics
Link Quantum Mechanics I Lecture 32 - Central Potential: The Radial Equation
Link Quantum Mechanics I Lecture 33 - Illustrative Exercises - I
Link Quantum Mechanics I Lecture 34 - Illustrative Exercises - II
Link Quantum Mechanics I Lecture 35 - Ehrenfest's Theorem
Link Quantum Mechanics I Lecture 36 - Perturbation Theory - I
Link Quantum Mechanics I Lecture 37 - Perturbation Theory - II
Link Quantum Mechanics I Lecture 38 - Perturbation Theory - III
Link Quantum Mechanics I Lecture 39 - Perturbation Theory - IV
Link Quantum Mechanics I Lecture 40 - Time-dependent Hamiltonians
Link Quantum Mechanics I Lecture 41 - The Jaynes-Cummings model
Link Special Topics in Classical Mechanics Lecture 1 - Course Overview
Link Special Topics in Classical Mechanics Lecture 2 - Equations of Motion (i)
Link Special Topics in Classical Mechanics Lecture 3 - Equations of Motion (ii)
Link Special Topics in Classical Mechanics Lecture 4 - Equations of Motion (iii)
Link Special Topics in Classical Mechanics Lecture 5 - Equations of Motion (iv)
Link Special Topics in Classical Mechanics Lecture 6 - Equations of Motion (v)
Link Special Topics in Classical Mechanics Lecture 7 - Oscillators, Resonances, Waves (i)
Link Special Topics in Classical Mechanics Lecture 8 - Oscillators, Resonances, Waves (ii)
Link Special Topics in Classical Mechanics Lecture 9 - Oscillators, Resonances, Waves (iii)
Link Special Topics in Classical Mechanics Lecture 10 - Oscillators, Resonances, Waves (iv)
Link Special Topics in Classical Mechanics Lecture 11 - Polar Coordinates (i)
Link Special Topics in Classical Mechanics Lecture 12 - Polar Coordinates (ii)
Link Special Topics in Classical Mechanics Lecture 13 - Dynamical Symmetry in the Kepler Problem (i)
Link Special Topics in Classical Mechanics Lecture 14 - Dynamical Symmetry in the Kepler Problem (ii)
Link Special Topics in Classical Mechanics Lecture 15 - Real Effects of Pseudo-Forces (i)
Link Special Topics in Classical Mechanics Lecture 16 - Real Effects of Pseudo-Forces (ii)
Link Special Topics in Classical Mechanics Lecture 17 - Real Effects of Pseudo-Forces (iii)
Link Special Topics in Classical Mechanics Lecture 18 - Real Effects of Pseudo-Forces (iv)
Link Special Topics in Classical Mechanics Lecture 19 - Special Theory of Relativity (i)
Link Special Topics in Classical Mechanics Lecture 20 - Special Theory of Relativity (ii)
Link Special Topics in Classical Mechanics Lecture 21 - Special Theory of Relativity (iii)
Link Special Topics in Classical Mechanics Lecture 22 - Special Theory of Relativity (iv)
Link Special Topics in Classical Mechanics Lecture 23 - Potentials Gradients Fields (i)
Link Special Topics in Classical Mechanics Lecture 24 - Potentials Gradients Fields (ii)
Link Special Topics in Classical Mechanics Lecture 25 - Potentials Gradients Fields (iii)
Link Special Topics in Classical Mechanics Lecture 26 - Gauss Law Eq of continuity (i)
Link Special Topics in Classical Mechanics Lecture 27 - Gauss Law Eq of continuity (ii)
Link Special Topics in Classical Mechanics Lecture 28 - Gauss Law Eq of continuity (iii)
Link Special Topics in Classical Mechanics Lecture 29 - Fluid Flow Bernoulli Principle (i)
Link Special Topics in Classical Mechanics Lecture 30 - Fluid Flow Bernoulli Principle (ii)
Link Special Topics in Classical Mechanics Lecture 31 - Classical Electrodynamics (i)
Link Special Topics in Classical Mechanics Lecture 32 - Classical Electrodynamics (ii)
Link Special Topics in Classical Mechanics Lecture 33 - Classical Electrodynamics (iii)
Link Special Topics in Classical Mechanics Lecture 34 - Classical Electrodynamics (iv)
Link Special Topics in Classical Mechanics Lecture 35 - Chaotic Dynamical Systems (i)
Link Special Topics in Classical Mechanics Lecture 36 - Chaotic Dynamical Systems (ii)
Link Special Topics in Classical Mechanics Lecture 37 - Chaotic Dynamical Systems (iii)
Link Special Topics in Classical Mechanics Lecture 38 - Chaotic Dynamical Systems (iv)
Link Special Topics in Classical Mechanics Lecture 39 - Chaotic Dynamical Systems (v)
Link Special Topics in Classical Mechanics Lecture 40 - The Scope and Limitations of Classical Mechanics
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 1 - Introduction to the STiTACS course
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 2 - Quantum Theory of collisions
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 3 - Quantum Theory of collisions: optical Theorem
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 4 - Quantum Theory of collisions: Optical Theorem (Continued...)
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 5 - Quantum Theory of collisions: Differential scattering cross section
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 6 - Quantum Theory of collisions: Differential scattering cross section, Partial wave analysis
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 7 - Quantum Theory of collisions: Optical Theorem – Unitarity of the Scattering Operator
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 8 - Quantum Theory of collisions: Reciprocity Theorem, Phase shift analysis
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 9 - Quantum Theory of collisions: More on Phase shift analysis
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 10 - Quantum Theory of collisions: resonant condition in the l th partial wave.
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 11 - Quantum Theory of collisions: Levinson’s theorem
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 12 - Quantum Theory of collisions: Levinson’s theorem (Continued...)
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 13 - Many body theory, electron correlations
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 14 - Second Quantization Creation, Destruction and Number operators
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 15 - Many-particle Hamiltonian & Schrodinger Equation in 2nd Quantization
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 16 - Many-electron problem in quantum mechanics
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 17 - Hartree-Fock Self-Consistent-Field
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 18 - Exchange, Statistical, Fermi-Dirac correlations
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 19 - Limitations of the Hartree-Fock Self-Consistent-Field formalism
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 20 - Many-Body formalism, II Quantization
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 21 - Density fluctuations in an electron gas
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 22 - Bohm-Pines approach to Random Phase Approximation
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 23 - Bohm-Pines approach to Random Phase Approximation (Continued...)
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 24 - Bohm-Pines approach to Random Phase Approximation (Continued...)
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 25 - Schrodinger, Heisenberg and Dirac “pictures” of QM
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 26 - Dyson’s chronological operator
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 27 - Gell-Mann-Low Theorem
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 28 - Reyleigh-Schrodinger perturbation methods and adiabatic switching
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 29 - Feynman Diagrams
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 30 - I Order Feynman Diagrams
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 31 - II and higher order Feynman Diagrams
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 32 - Linear response of electron correlations
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 33 - Lippman Schwinger equation of potential scattering
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 34 - Born Approximation
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 35 - Coulomb scattering
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 36 - Scattering of partial waves
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 37 - Scattering at high energy
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 38 - Resonances in Quantum Collisions
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 39 - Breit-Wigner Resonances
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 40 - Fano parameterization of Breit-Wigner formula
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 41 - Discrete state embedded in the continuum
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 42 - Resonance life times
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 43 - Wigner-Eisenbud formalism of time-delay in scattering
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 44 - Photoionization and Photoelectron Angular Distributions
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 45 - Ionization and Excitation of Atoms by Fast Charged Particles
Link Special, Select Topics in the Theory of Atomic Collisions and Spectroscopy Lecture 46 - Photo-absorption by Free and Confined Atoms and Ions: Recent Developments
Link Selected Topics in Mathematical Physics Lecture 1 - Analytic functions of a complex variable - Part I
Link Selected Topics in Mathematical Physics Lecture 2 - Analytic functions of a complex variable - Part II
Link Selected Topics in Mathematical Physics Lecture 3 - Calculus of residues - Part I
Link Selected Topics in Mathematical Physics Lecture 4 - Calculus of residues - Part II
Link Selected Topics in Mathematical Physics Lecture 5 - Calculus of residues - Part III
Link Selected Topics in Mathematical Physics Lecture 6 - Calculus of residues - Part IV
Link Selected Topics in Mathematical Physics Lecture 7 - Linear response; dispersion relations - Part I
Link Selected Topics in Mathematical Physics Lecture 8 - Linear response; dispersion relations - Part II
Link Selected Topics in Mathematical Physics Lecture 9 - Analytic continuation and the gamma function - Part I
Link Selected Topics in Mathematical Physics Lecture 10 - Analytic continuation and the gamma function - Part II
Link Selected Topics in Mathematical Physics Lecture 11 - Möbius transformations - Part I
Link Selected Topics in Mathematical Physics Lecture 12 - Möbius transformations - Part II
Link Selected Topics in Mathematical Physics Lecture 13 - Möbius transformations - Part III
Link Selected Topics in Mathematical Physics Lecture 14 - Multivalued functions; integral representations - Part I
Link Selected Topics in Mathematical Physics Lecture 15 - Multivalued functions; integral representations - Part II
Link Selected Topics in Mathematical Physics Lecture 16 - Multivalued functions; integral representations - Part III
Link Selected Topics in Mathematical Physics Lecture 17 - Multivalued functions; integral representations - Part IV
Link Selected Topics in Mathematical Physics Lecture 18 - Laplace transforms - Part I
Link Selected Topics in Mathematical Physics Lecture 19 - Laplace transforms - Part II
Link Selected Topics in Mathematical Physics Lecture 20 - Fourier transforms - Part I
Link Selected Topics in Mathematical Physics Lecture 21 - Fourier transforms - Part II
Link Selected Topics in Mathematical Physics Lecture 22 - Fourier transforms - Part III
Link Selected Topics in Mathematical Physics Lecture 23 - Fundamental Green function forΔ2 - Part I
Link Selected Topics in Mathematical Physics Lecture 24 - Fundamental Green function forΔ2 - Part II
Link Selected Topics in Mathematical Physics Lecture 25 - The diffusion equation - Part I
Link Selected Topics in Mathematical Physics Lecture 26 - The diffusion equation - Part II
Link Selected Topics in Mathematical Physics Lecture 27 - The diffusion equation - Part III
Link Selected Topics in Mathematical Physics Lecture 28 - The diffusion equation - Part IV
Link Selected Topics in Mathematical Physics Lecture 29 - Green function for (Δ2 + k2); nonrelativistic scattering - Part I
Link Selected Topics in Mathematical Physics Lecture 30 - Green function for (Δ2 + k2); nonrelativistic scattering - Part II
Link Selected Topics in Mathematical Physics Lecture 31 - Green function for (Δ2 + k2); nonrelativistic scattering - Part III
Link Selected Topics in Mathematical Physics Lecture 32 - The wave equation - Part I
Link Selected Topics in Mathematical Physics Lecture 33 - The wave equation - Part II
Link Selected Topics in Mathematical Physics Lecture 34 - The rotation group and all that - Part I
Link Selected Topics in Mathematical Physics Lecture 35 - The rotation group and all that - Part II
Link Selected Topics in Mathematical Physics Lecture 36 - The rotation group and all that - Part III
Link Nuclear Reactors and Safety - An Introduction Lecture 1 - Energy Sources
Link Nuclear Reactors and Safety - An Introduction Lecture 2 - Nuclear Power Production Cycle
Link Nuclear Reactors and Safety - An Introduction Lecture 3 - Basic Physics of Nuclear Fission
Link Nuclear Reactors and Safety - An Introduction Lecture 4 - Basic Physics of Nuclear Fission (Continued...)
Link Nuclear Reactors and Safety - An Introduction Lecture 5 - Nuclear Reactors
Link Nuclear Reactors and Safety - An Introduction Lecture 6 - Reactors Generation
Link Nuclear Reactors and Safety - An Introduction Lecture 7 - Radiation Sources and Protection
Link Nuclear Reactors and Safety - An Introduction Lecture 8 - Biological Effects of Radiation
Link Nuclear Reactors and Safety - An Introduction Lecture 9 - Safety Principles
Link Nuclear Reactors and Safety - An Introduction Lecture 10 - Safety Principles (Continued...)
Link Nuclear Reactors and Safety - An Introduction Lecture 11 - Safety Approach
Link Nuclear Reactors and Safety - An Introduction Lecture 12 - Risk and Probabilistic safety analysis (PSA)
Link Nuclear Reactors and Safety - An Introduction Lecture 13 - History of Events in Nuclear Power Plants and Radiation facilities
Link Nuclear Reactors and Safety - An Introduction Lecture 14 - Other Events
Link Nuclear Reactors and Safety - An Introduction Lecture 15 - Validation and Dynamic Analysis
Link Nuclear Reactors and Safety - An Introduction Lecture 16 - Validation and Dynamic Analysis (Continued...)
Link Nuclear Reactors and Safety - An Introduction Lecture 17 - Quality Assurance
Link Nuclear Reactors and Safety - An Introduction Lecture 18 - Siting of Nuclear Plants
Link Nuclear Reactors and Safety - An Introduction Lecture 19 - Siting of Nuclear Plants (Continued...)
Link Nuclear Reactors and Safety - An Introduction Lecture 20 - Engineered Safety Systems
Link Nuclear Reactors and Safety - An Introduction Lecture 21 - Engineered Safety Systems (Continued...)
Link Nuclear Reactors and Safety - An Introduction Lecture 22 - Assessment of Radiological Consequences of Incidents
Link Nuclear Reactors and Safety - An Introduction Lecture 23 - Safety Regulation in India
Link Nuclear Reactors and Safety - An Introduction Lecture 24 - Safety Regulation in India (Continued...)
Link Nuclear Reactors and Safety - An Introduction Lecture 25 - Safety Regulation in India (Continued...)
Link Nuclear Reactors and Safety - An Introduction Lecture 26 - Safety Practices in Indian NPPs
Link Nuclear Reactors and Safety - An Introduction Lecture 27 - Safety Practices in Indian NPPs (Continued...)
Link Nuclear Reactors and Safety - An Introduction Lecture 28 - Safety Practices in Indian NPPs (Continued...)
Link Nuclear Reactors and Safety - An Introduction Lecture 29 - Passive Safety
Link Nuclear Reactors and Safety - An Introduction Lecture 30 - Passive Safety (Continued...)
Link Physical Applications of Stochastic Processes Lecture 1 - Discrete probability distributions - Part 1
Link Physical Applications of Stochastic Processes Lecture 2 - Discrete probability distributions - Part 2
Link Physical Applications of Stochastic Processes Lecture 3 - Continuous random variables
Link Physical Applications of Stochastic Processes Lecture 4 - Central Limit Theorem
Link Physical Applications of Stochastic Processes Lecture 5 - Stable distributions
Link Physical Applications of Stochastic Processes Lecture 6 - Stochastic processes
Link Physical Applications of Stochastic Processes Lecture 7 - Markov processes - Part 1
Link Physical Applications of Stochastic Processes Lecture 8 - Markov processes - Part 2
Link Physical Applications of Stochastic Processes Lecture 9 - Markov processes - Part 3
Link Physical Applications of Stochastic Processes Lecture 10 - Birth-and-death processes
Link Physical Applications of Stochastic Processes Lecture 11 - Continuous Markov processes
Link Physical Applications of Stochastic Processes Lecture 12 - Langevin dynamics - Part 1
Link Physical Applications of Stochastic Processes Lecture 13 - Langevin dynamics - Part 2
Link Physical Applications of Stochastic Processes Lecture 14 - Langevin dynamics - Part 3
Link Physical Applications of Stochastic Processes Lecture 15 - Langevin dynamics - Part 4
Link Physical Applications of Stochastic Processes Lecture 16 - Itˆo and Fokker-Planck equations for di?usion processes
Link Physical Applications of Stochastic Processes Lecture 17 - Level-crossing statistics of a continuous random process
Link Physical Applications of Stochastic Processes Lecture 18 - Diffusion of a charged particle in a magnetic field
Link Physical Applications of Stochastic Processes Lecture 19 - Power spectrum of noise
Link Physical Applications of Stochastic Processes Lecture 20 - Elements of linear response theory
Link Physical Applications of Stochastic Processes Lecture 21 - Random pulse sequences
Link Physical Applications of Stochastic Processes Lecture 22 - Dichotomous di?usion
Link Physical Applications of Stochastic Processes Lecture 23 - First passage time (Part 1)
Link Physical Applications of Stochastic Processes Lecture 24 - First passage time (Part 2)
Link Physical Applications of Stochastic Processes Lecture 25 - First passage and recurrence in Markov chains
Link Physical Applications of Stochastic Processes Lecture 26 - Recurrent and transient random walks
Link Physical Applications of Stochastic Processes Lecture 27 - Non-Markovian random walks
Link Physical Applications of Stochastic Processes Lecture 28 - Statistical aspects of deterministic dynamics (Part 1)
Link Physical Applications of Stochastic Processes Lecture 29 - Statistical aspects of deterministic dynamics (Part 2)
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 1 - The Nature of Physical Laws
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 2 - Fundamental Constants and Dimensional Analysis
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 3 - Dimensional analysis and scaling
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 4 - sketching Elementary Functions
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 5 - The fundamental forces of nature
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 6 - Scalars, Victors and All That
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 7 - Plane Polar Coordinates
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 8 - Vectors In a Plane, Scalars and Pseudoscalars
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 9 - Kinematics In a Plane
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 10 - Vectors in 3-Dimensional Space
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 11 - Vectors in 3-Dimensional space (Continued...)
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 12 - The Finite Rotation Formula, Polar Coordinates in 3-dimensions
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 13 - Cylindrical and Spherical polar coordinates
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 14 - Motion in a circle - Acceleration
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 15 - Newtons laws of motion
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 16 - Conservation Laws and Newtons Equations
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 17 - Conservation of Angular Momentum
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 18 - Two-Body Scattering
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 19 - Two-Body Collision Kinematics
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 20 - Conservative Forces - The Concept of a Potential
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 21 - Central Potential and Central Force
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 22 - The 2-Body Central Force Problem
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 23 - Keplers Laws of Planetary Motion
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 24 - Non-Inertial Forces (Pseudo-forces)
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 25 - More on the Kepler problem; Satellite motion
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 26 - Linear Elasticity of Solids
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 27 - Simple Harmonic Motion
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 28 - Some Physical Examples of Simple Harmonic Motion
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 29 - More on Simple Harmonic Motion
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 30 - Damped Simple Harmonic Motion
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 31 - Wave Motion - Travelling and Standing Waves
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 32 - Wave Motion - Wave Equation, General Solution
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 33 - Fluid Dynamics - Hydrostatic Equilibrium
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 34 - Fluid Dynamics - Equation of Continuity
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 35 - Fluid Flow - Bernoullis Principle
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 36 - Circulation and Vorticity
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 37 - What is Thermodynamics?
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 38 - The Classical Ideal Gas
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 39 - The Laws of Thermodynamics
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 40 - Specific Heat of an Ideal Gas
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 41 - Van der Waals Equation
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 42 - Phase Transitions
Link NOC:Mechanics, Heat Oscillations and Waves Lecture 43 - Summary
Link Nonequilibrium Statistical Mechanics Lecture 1 - Recapitulation of equilibrium statistical mechanics
Link Nonequilibrium Statistical Mechanics Lecture 2 - The Langevin model (Part 1)
Link Nonequilibrium Statistical Mechanics Lecture 3 - The Langevin model (Part 2)
Link Nonequilibrium Statistical Mechanics Lecture 4 - The Langevin model (Part 3)
Link Nonequilibrium Statistical Mechanics Lecture 5 - The Langevin model (Part 4)
Link Nonequilibrium Statistical Mechanics Lecture 6 - Linear response theory (Part 1)
Link Nonequilibrium Statistical Mechanics Lecture 7 - Linear response theory (Part 2)
Link Nonequilibrium Statistical Mechanics Lecture 8 - Linear response (Part 3)
Link Nonequilibrium Statistical Mechanics Lecture 9 - Linear response(Part 4)
Link Nonequilibrium Statistical Mechanics Lecture 10 - Linear response (Part 5)
Link Nonequilibrium Statistical Mechanics Lecture 11 - Linear response (Part 6)
Link Nonequilibrium Statistical Mechanics Lecture 12 - Linear response theory (Part 7)
Link Nonequilibrium Statistical Mechanics Lecture 13 - Quiz 1 - Questions and answers
Link Nonequilibrium Statistical Mechanics Lecture 14 - Linear response theory (Part 8)
Link Nonequilibrium Statistical Mechanics Lecture 15 - Linear response theory (Part 9)
Link Nonequilibrium Statistical Mechanics Lecture 16 - The dynamic mobility
Link Nonequilibrium Statistical Mechanics Lecture 17 - Fokker-Planck equations (Part 1)
Link Nonequilibrium Statistical Mechanics Lecture 18 - Fokker-Planck equations (Part 2)
Link Nonequilibrium Statistical Mechanics Lecture 19 - Fokker-Planck equations (Part 3)
Link Nonequilibrium Statistical Mechanics Lecture 20 - The generalized Langevin equation (Part 1)
Link Nonequilibrium Statistical Mechanics Lecture 21 - The generalized Langevin equation (Part 2)
Link Nonequilibrium Statistical Mechanics Lecture 22 - Diffusion in a magnetic field
Link Nonequilibrium Statistical Mechanics Lecture 23 - The Boltzmann equation for a dilute gas (Part 1)
Link Nonequilibrium Statistical Mechanics Lecture 24 - The Boltzmann equation for a dilute gas (Part 2)
Link Nonequilibrium Statistical Mechanics Lecture 25 - The Boltzmann equation for a dilute gas (Part 3)
Link Nonequilibrium Statistical Mechanics Lecture 26 - The Boltzmann equation for a dilute gas (Part 4)
Link Nonequilibrium Statistical Mechanics Lecture 27 - The Boltzmann equation for a dilute gas (Part 5)
Link Nonequilibrium Statistical Mechanics Lecture 28 - Quiz 2 - Questions and answers
Link Nonequilibrium Statistical Mechanics Lecture 29 - Critical phenomena (Part 1)
Link Nonequilibrium Statistical Mechanics Lecture 30 - Critical phenomena (Part 2)
Link Nonequilibrium Statistical Mechanics Lecture 31 - Critical phenomena (Part 3)
Link Nonequilibrium Statistical Mechanics Lecture 32 - Critical phenomena (Part 4)
Link Nonequilibrium Statistical Mechanics Lecture 33 - Critical phenomena (Part 5)
Link Nonequilibrium Statistical Mechanics Lecture 34 - Critical phenomena (Part 6)
Link Nonequilibrium Statistical Mechanics Lecture 35 - Critical phenomena (Part 7)
Link Nonequilibrium Statistical Mechanics Lecture 36 - The Wiener process (standard Brownian motion)
Link NOC:Statistical Mechanics Lecture 1 - Discrete Probability
Link NOC:Statistical Mechanics Lecture 2 - Continous Probability
Link NOC:Statistical Mechanics Lecture 3 - Characteristic Function
Link NOC:Statistical Mechanics Lecture 4 - Gausssian Distribution
Link NOC:Statistical Mechanics Lecture 5 - Binomial Distribution
Link NOC:Statistical Mechanics Lecture 6 - Poisson Distribution
Link NOC:Statistical Mechanics Lecture 7 - Central Limit Theorem
Link NOC:Statistical Mechanics Lecture 8 - Many Random Variables
Link NOC:Statistical Mechanics Lecture 9 - Entropy and Probability
Link NOC:Statistical Mechanics Lecture 10 - Entropy Maximization
Link NOC:Statistical Mechanics Lecture 11 - Transformation of Random Variables
Link NOC:Statistical Mechanics Lecture 12 - Tutorial
Link NOC:Statistical Mechanics Lecture 13 - Mathematical Preliminaries - 1
Link NOC:Statistical Mechanics Lecture 14 - Microcanonical Ensemble
Link NOC:Statistical Mechanics Lecture 15 - Two Level System (Microcanonical Ensemble)
Link NOC:Statistical Mechanics Lecture 16 - Classical Ideal Gas (Microcanonical Ensemble)
Link NOC:Statistical Mechanics Lecture 17 - Entropy of Mixing
Link NOC:Statistical Mechanics Lecture 18 - Canonical Ensemble
Link NOC:Statistical Mechanics Lecture 19 - Two Level System (Canonical Ensemble)
Link NOC:Statistical Mechanics Lecture 20 - Classical Ideal Gas (Canonical Ensemble)
Link NOC:Statistical Mechanics Lecture 21 - Gibbs Canonical Ensemble
Link NOC:Statistical Mechanics Lecture 22 - Classical Ideal Gas (Gibbs Canonical Ensemble)
Link NOC:Statistical Mechanics Lecture 23 - N Spins in a Uniform Magnetic Field
Link NOC:Statistical Mechanics Lecture 24 - Grand Canonical Ensemble
Link NOC:Statistical Mechanics Lecture 25 - Ideal Gas (Grand Canonical Ensemble)
Link NOC:Statistical Mechanics Lecture 26 - N Non - Interacting Spins in Constant Magnetic Field
Link NOC:Statistical Mechanics Lecture 27 - Qunatum Statistical Mechanics
Link NOC:Statistical Mechanics Lecture 28 - Statistics of Fermions and Bosons
Link NOC:Statistical Mechanics Lecture 29 - Quantum to Classical Correspondance
Link NOC:Statistical Mechanics Lecture 30 - Vibrations of Solid (Low Temperature)
Link NOC:Statistical Mechanics Lecture 31 - Vibrations of Solid (Continuation)
Link NOC:Statistical Mechanics Lecture 32 - Free Electrons(Fermi Gas) in a Metal
Link NOC:Statistical Mechanics Lecture 33 - Free Electrons(Fermi Gas) in a Metal (Continuation)
Link NOC:Statistical Mechanics Lecture 34 - Problem solving demo - Part 1
Link NOC:Statistical Mechanics Lecture 35 - Problem solving demo - Part 2
Link NOC:Computational Physics Lecture 1 - Introduction to Fortran - Part 1
Link NOC:Computational Physics Lecture 2 - Introduction to Fortran - Part 2
Link NOC:Computational Physics Lecture 3 - Introduction to Fortran - Part 3
Link NOC:Computational Physics Lecture 4 - Introduction to Fortran - Part 4
Link NOC:Computational Physics Lecture 5 - Introduction to Fortran - Part 5
Link NOC:Computational Physics Lecture 6 - Numerical Integration - Part 1
Link NOC:Computational Physics Lecture 7 - Numerical Integration - Part 2
Link NOC:Computational Physics Lecture 8 - Numerical Integration - Part 3
Link NOC:Computational Physics Lecture 9 - Numerical Integration - Part 4
Link NOC:Computational Physics Lecture 10 - Numerical Integration - Part 5
Link NOC:Computational Physics Lecture 11 - Numerical Integration - Part 6
Link NOC:Computational Physics Lecture 12 - Numerical Integration - Part 7
Link NOC:Computational Physics Lecture 13 - Numerical Integration - Part 8
Link NOC:Computational Physics Lecture 14 - Numerical Integration - Part 9
Link NOC:Computational Physics Lecture 15 - Numerical Integration - Part 10
Link NOC:Computational Physics Lecture 16 - Monte Carlo Simulation Introduction - Part 1
Link NOC:Computational Physics Lecture 17 - Monte Carlo Simulation Introduction - Part 2
Link NOC:Computational Physics Lecture 18 - Implementing the Ising model on computer
Link NOC:Computational Physics Lecture 19 - Periodic Boundary conditions and the Metropolis scheme
Link NOC:Computational Physics Lecture 20 - Testing the simulation and relaxation to equilibrium, finte size effects
Link NOC:Computational Physics Lecture 21 - Monte Carlo Simulation Analysis - Part 1
Link NOC:Computational Physics Lecture 22 - Monte Carlo Simulation Analysis - Part 2
Link NOC:Computational Physics Lecture 23 - Monte Carlo Simulation Analysis: Thermodynamic Quantities - Part 1
Link NOC:Computational Physics Lecture 24 - Monte Carlo Simulation Analysis: Thermodynamic Quantities - Part 2
Link NOC:Computational Physics Lecture 25 - Calculating T_c using Binders cumulant; Principle of detailed balance
Link NOC:Computational Physics Lecture 26 - Differential Equations Euler and Runge Kutta - Part 1
Link NOC:Computational Physics Lecture 27 - Differential Equations Euler and Runge Kutta - Part 2
Link NOC:Computational Physics Lecture 28 - Differential Coupled Equation Non Linear Equation - Part 1
Link NOC:Computational Physics Lecture 29 - Differential Coupled Equation Non Linear Equation - Part 2
Link NOC:Computational Physics Lecture 30 - Coupled Differential Equation Visualisation and Making Movie
Link NOC:Computational Physics Lecture 31 - Differential Equations With Specified Boundary Conditions - Part 1
Link NOC:Computational Physics Lecture 32 - Differential Equations With Specified Boundary Conditions - Part 2
Link NOC:Computational Physics Lecture 33 - Partial Differential equations - 1
Link NOC:Computational Physics Lecture 34 - Partial Differential equations - 2
Link NOC:Computational Physics Lecture 35 - Partial Differential equations - 3
Link NOC:Computational Physics Lecture 36 - Differential Equation for Quantum Mechanical Problems: Numerov Algorithm - 1
Link NOC:Computational Physics Lecture 37 - Differential Equation for Quantum Mechanical Problems: Numerov Algorithm - 2
Link NOC:Computational Physics Lecture 38 - Differential Equation for Quantum Mechanical Problems: Numerov Algorithm - 3
Link NOC:Computational Physics Lecture 39 - Differential Equation for Quantum Mechanical Problems: Numerov Algorithm - 4
Link NOC:Computational Physics Lecture 40 - Differential Equation for Quantum Mechanical Problems: Numerov Algorithm - 5
Link NOC:Computational Physics Lecture 41 - Differential Equation for Quantum Mechanical Problems: Variational principle - 1
Link NOC:Computational Physics Lecture 42 - Differential Equation for Quantum Mechanical Problems: Variational principle - 2
Link NOC:Computational Physics Lecture 43 - Differential Equation for Quantum Mechanical Problems: Variational principle - 3
Link NOC:Computational Physics Lecture 44 - Differential Equation for Quantum Mechanical Problems: Variational principle - 4
Link NOC:Computational Physics Lecture 45 - Differential Equation for Quantum Mechanical Problems: Variational principle - 5
Link NOC:Computational Physics Lecture 46 - Molecular Dynamics Introduction - Part 1
Link NOC:Computational Physics Lecture 47 - Molecular Dynamics Introduction - Part 2
Link NOC:Computational Physics Lecture 48 - Molecular Dynamics Details and Algorithm - Part 1
Link NOC:Computational Physics Lecture 49 - Molecular Dynamics Details and Algorithm - Part 2
Link NOC:Computational Physics Lecture 50 - Molecular Dynamics Details and Algorithm - Part 3
Link NOC:Computational Physics Lecture 51 - Molecular Dynamics Analysis - Part 1
Link NOC:Computational Physics Lecture 52 - Molecular Dynamics Analysis - Part 2
Link NOC:Computational Physics Lecture 53 - Molecular Dynamics Neighbours Lists - Part 1
Link NOC:Computational Physics Lecture 54 - Molecular Dynamics Neighbours Lists - Part 2
Link NOC:Computational Physics Lecture 55 - Molecular Dynamics: Calculation Of Themodynamics Quantities
Link NOC:Computational Physics Lecture 56 - Molecular Dynamics Diffusion Constant Calculation - Part 1
Link NOC:Computational Physics Lecture 57 - Molecular Dynamics Diffusion Constant Calculation - Part 2
Link NOC:Computational Physics Lecture 58 - Molecular Dynamics Diffusion Constant Calculation - Part 3
Link NOC:Waves and Oscillations Lecture 1 - Simple Harmonic Motion
Link NOC:Waves and Oscillations Lecture 2 - Superposition of Oscillations : Beats
Link NOC:Waves and Oscillations Lecture 3 - Superposition of Oscillations : Beats
Link NOC:Waves and Oscillations Lecture 4 - Superposition of Oscillations : Lissajous Figures
Link NOC:Waves and Oscillations Lecture 5 - Simple Harmonic Motion : Problems
Link NOC:Waves and Oscillations Lecture 6 - Damped oscillator - Part 1
Link NOC:Waves and Oscillations Lecture 7 - Damped oscillator - Part 2
Link NOC:Waves and Oscillations Lecture 8 - Damped oscillator and Q-factor
Link NOC:Waves and Oscillations Lecture 9 - Damped oscillator : Problems
Link NOC:Waves and Oscillations Lecture 10 - Forced oscillator - Part 1
Link NOC:Waves and Oscillations Lecture 11 - Forced oscillator - Part 2
Link NOC:Waves and Oscillations Lecture 12 - Resonances
Link NOC:Waves and Oscillations Lecture 13 - Q-factor of forced oscillator
Link NOC:Waves and Oscillations Lecture 14 - Applications of forced oscillator
Link NOC:Waves and Oscillations Lecture 15 - Forced Oscillator : Problems
Link NOC:Waves and Oscillations Lecture 16 - Coupled Oscillations - Part 1
Link NOC:Waves and Oscillations Lecture 17 - Coupled Oscillations - Part 2
Link NOC:Waves and Oscillations Lecture 18 - Solving for normal modes
Link NOC:Waves and Oscillations Lecture 19 - Coupled oscillations - More examples
Link NOC:Waves and Oscillations Lecture 20 - Coupled oscillator : Problems
Link NOC:Waves and Oscillations Lecture 21 - Coupled Oscillations of Loaded String
Link NOC:Waves and Oscillations Lecture 22 - Solutions for Loaded String
Link NOC:Waves and Oscillations Lecture 23 - Oscillations of Loaded String
Link NOC:Waves and Oscillations Lecture 24 - Continuum Limit of Loaded String
Link NOC:Waves and Oscillations Lecture 25 - Wave equation and its solutions
Link NOC:Waves and Oscillations Lecture 26 - Wave equation - impedance and velocities
Link NOC:Waves and Oscillations Lecture 27 - Standing waves
Link NOC:Waves and Oscillations Lecture 28 - Transverse waves in periodic structures
Link NOC:Waves and Oscillations Lecture 29 - Wave equation : Problems
Link NOC:Waves and Oscillations Lecture 30 - Reflection and transmission of waves
Link NOC:Waves and Oscillations Lecture 31 - Impedance matching
Link NOC:Waves and Oscillations Lecture 32 - Energy of vibrating string
Link NOC:Waves and Oscillations Lecture 33 - Dispersion of waves
Link NOC:Waves and Oscillations Lecture 34 - Bandwidth theorem and problems
Link NOC:Waves and Oscillations Lecture 35 - Longitudnal Waves and Speed of Sound
Link NOC:Waves and Oscillations Lecture 36 - Longitudnal Standing Waves
Link NOC:Waves and Oscillations Lecture 37 - Sound Intensity
Link NOC:Waves and Oscillations Lecture 38 - Longitudnal Waves: Problems
Link NOC:Waves and Oscillations Lecture 39 - Fourier Series - Part 1
Link NOC:Waves and Oscillations Lecture 40 - Fourier Series - Part 2
Link NOC:Waves and Oscillations Lecture 41 - Fourier Series and Energy of Vibrating String
Link NOC:Waves and Oscillations Lecture 42 - Frequency Spectrum and Fourier Transforms
Link NOC:Waves and Oscillations Lecture 43 - Fourier Series : Problems
Link NOC:Waves and Oscillations Lecture 44 - Waves in Optical Systems
Link NOC:Waves and Oscillations Lecture 45 - Waves in Optical Systems: Applying Fermat's Principle
Link NOC:Waves and Oscillations Lecture 46 - Waves in Optical Systems: Thin Lens
Link NOC:Waves and Oscillations Lecture 47 - Waves in Optical Systems: Matrix Method
Link NOC:Waves and Oscillations Lecture 48 - Waves in Optical Systems: Problems
Link NOC:Waves and Oscillations Lecture 49 - Interference: Part 1
Link NOC:Waves and Oscillations Lecture 50 - Interference: Newton's rings
Link NOC:Waves and Oscillations Lecture 51 - Michelson and Fabry-Perot Interferometers
Link NOC:Waves and Oscillations Lecture 52 - Young's Double Slit Experiment
Link NOC:Waves and Oscillations Lecture 53 - Diffraction
Link NOC:Waves and Oscillations Lecture 54 - Beyond Linear Oscillators: Non-linear Pendulum
Link NOC:Waves and Oscillations Lecture 55 - Beyond Linear Oscillators: Forced Oscillator
Link NOC:Waves and Oscillations Lecture 56 - Beyond Linear Oscillators: Chaotic Oscillator
Link NOC:Waves and Oscillations Lecture 57 - Beyond Linear Waves: Solitary Waves
Link NOC:Waves and Oscillations Lecture 58 - Waves in Quantum Mechanics and Summary
Link NOC:Fiber Optics Lecture 1 - Introduction
Link NOC:Fiber Optics Lecture 2 - Need for Optical Communication
Link NOC:Fiber Optics Lecture 3 - Salient Features of Optical Fiber - I
Link NOC:Fiber Optics Lecture 4 - Salient Features of Optical Fiber - II
Link NOC:Fiber Optics Lecture 5 - Optical Fiber Fabrication
Link NOC:Fiber Optics Lecture 6 - Transmission Characteristics - I
Link NOC:Fiber Optics Lecture 7 - Transmission Characteristics - II
Link NOC:Fiber Optics Lecture 8 - Transmission Characteristics - III
Link NOC:Fiber Optics Lecture 9 - Propagation in Infinitely Extended Dielectric
Link NOC:Fiber Optics Lecture 10 - EM Waves in Dielectrics
Link NOC:Fiber Optics Lecture 11 - Electromagnetic Analysis of Waveguides - I
Link NOC:Fiber Optics Lecture 12 - Electromagnetic Analysis of Waveguides - II
Link NOC:Fiber Optics Lecture 13 - Electromagnetic Analysis of Waveguides - III
Link NOC:Fiber Optics Lecture 14 - Electromagnetic Analysis of Waveguides - IV
Link NOC:Fiber Optics Lecture 15 - Electromagnetic Analysis of Waveguides - V
Link NOC:Fiber Optics Lecture 16 - Electromagnetic Analysis of Waveguides - VI
Link NOC:Fiber Optics Lecture 17 - Electromagnetic Analysis of Waveguides - VII
Link NOC:Fiber Optics Lecture 18 - Electromagnetic Analysis of Waveguides - VIII
Link NOC:Fiber Optics Lecture 19 - Optical Fiber Waveguide - I
Link NOC:Fiber Optics Lecture 20 - Optical Fiber Waveguide - II
Link NOC:Fiber Optics Lecture 21 - Optical Fiber Waveguide - III
Link NOC:Fiber Optics Lecture 22 - Optical Fiber Waveguide - IV
Link NOC:Fiber Optics Lecture 23 - Optical Fiber Waveguide - V
Link NOC:Fiber Optics Lecture 24 - Splice Loss
Link NOC:Fiber Optics Lecture 25 - Waveguide Dispersion - I
Link NOC:Fiber Optics Lecture 26 - Waveguide Dispersion - II
Link NOC:Fiber Optics Lecture 27 - Recap: Propagation Characteristics
Link NOC:Fiber Optics Lecture 28 - Optical Fiber Components and Devices - I
Link NOC:Fiber Optics Lecture 29 - Optical Fiber Components and Devices - II
Link NOC:Fiber Optics Lecture 30 - Optical Fiber Components and Devices - III
Link NOC:Fiber Optics Lecture 31 - Optical Fiber Components and Devices - IV
Link NOC:Fiber Optics Lecture 32 - Optical Fiber Components and Devices - V
Link NOC:Fiber Optics Lecture 33 - Optical Sources and Detectors - I
Link NOC:Fiber Optics Lecture 34 - Optical Sources and Detectors - II
Link NOC:Fiber Optics Lecture 35 - Optical Sources and Detectors - III
Link NOC:Fiber Optics Lecture 36 - Optical Sources and Detectors - IV
Link NOC:Fiber Optics Lecture 37 - Optical Sources and Detectors - V
Link NOC:Fiber Optics Lecture 38 - System Design Aspects
Link NOC:Fiber Optics Lecture 39 - Optical Fiber Measurements
Link NOC:Fiber Optics Lecture 40 - Summary and Recent Advances
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 1 - Energy and its Sources
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 2 - Introduction to Solar Energy
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 3 - Introduction of Quantum Mechanics in Solar Photovoltaics - I
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 4 - Introduction of Quantum Mechanics in Solar Photovoltaics - II
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 5 - Introduction of Quantum Mechanics in Solar Photovoltaics - III
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 6 - Band Theory
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 7 - Energy Band Diagram
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 8 - Charge Carrier Dynamics in Semiconductor
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 9 - P-N junction model and Diode working principle
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 10 - Current-Voltage Characteristics of Solar Cell
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 11 - Equivalent Circuits of Solar Cells, Fill Factor
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 12 - Fabrication Process of Semiconductor Grade Silicon
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 13 - Fabrication Process of Single crystalline Silicon
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 14 - Thin Film deposition Techniques
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 15 - Thin Film Solar Cells: Amorphous Silicon
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 16 - Photo Physics of Dye Sensitized Solar Cells
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 17 - Fabrication of Dye Sensitized Solar Cells
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 18 - Design of Novel dyes
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 19 - Design of Electrolytes
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 20 - Quantum Dot Solar Cells
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 21 - Fabrication of Organic Solar Cells
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 22 - Physics of Bulk Hetero Junction (BHJ) Solar Cells
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 23 - Photo Physics of Organic Solar Cells
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 24 - Morphology Optimization of Organic Solar Cells
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 25 - Perovskite Solar Cells
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 26 - Fabrication of Perovskite Solar Cells
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 27 - Photo Physics of Perovskite Solar Cells
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 28 - Stability in Perovskite Solar Cells
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 29 - Morphology Optimization of Perovskite Solar Cells
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 30 - Perovskite Single Crystal Solar Cells
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 31 - Photophysics in Perovskite Single Crystal Solar Cells
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 32 - Applicationss of Perovskite Single Crystal Solar Cells
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 33 - Organic Nano Particles Based Solar Cells
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 34 - Morphology Optimization in Organic Nanoparticle Based Solar Cells
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 35 - Multijunction Tandem Solar Cells
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 36 - Introduction to Characterization Techniques
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 37 - Vacuum Technology in Solar Photovoltaics
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 38 - Introduction of Pressure Gauges
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 39 - Electron Microscopy in Solar Photovoltaics
Link NOC:Solar Photovoltaics Fundamentals, Technology and Applications Lecture 40 - Impedance Spectroscopy
Link Relativistic Quantum Mechanics Lecture 1 - Introduction, The Klein-Gordon equation
Link Relativistic Quantum Mechanics Lecture 2 - Particles and antiparticles, Two component framework
Link Relativistic Quantum Mechanics Lecture 3 - Coupling to electromagnetism, Solution of the Coulomb problem
Link Relativistic Quantum Mechanics Lecture 4 - Bohr-Sommerfeld semiclassical solution of the Coulomb problem, The Dirac equation and the Clifford algebra
Link Relativistic Quantum Mechanics Lecture 5 - Dirac matrices, Covariant form of the Dirac equation, Equations of motion, Spin, Free particle solutions
Link Relativistic Quantum Mechanics Lecture 6 - Electromagnetic interactions, Gyromagnetic ratio
Link Relativistic Quantum Mechanics Lecture 7 - The Hydrogen atom problem, Symmetries, Parity, Separation of variables
Link Relativistic Quantum Mechanics Lecture 8 - The Frobenius method solution, Energy levels and wavefunctions
Link Relativistic Quantum Mechanics Lecture 9 - Non-relativistic reduction, The Foldy-Wouthuysen transformation
Link Relativistic Quantum Mechanics Lecture 10 - Interpretation of relativistic corrections, Reflection from a potential barrier
Link Relativistic Quantum Mechanics Lecture 11 - The Klein paradox, Pair creation process and examples
Link Relativistic Quantum Mechanics Lecture 12 - Zitterbewegung, Hole theory and antiparticles
Link Relativistic Quantum Mechanics Lecture 13 - Charge conjugation symmetry, Chirality, Projection operators, The Weyl equation
Link Relativistic Quantum Mechanics Lecture 14 - Weyl and Majorana representations of the Dirac equation, Unitary and antiunitary symmetries
Link Relativistic Quantum Mechanics Lecture 15 - Time reversal symmetry, The PCT invariance
Link Relativistic Quantum Mechanics Lecture 16 - Arrow of time and particle-antiparticle asymmetry, Band theory for graphene
Link Relativistic Quantum Mechanics Lecture 17 - Dirac equation structure of low energy graphene states, Relativistic signatures in graphene properties
Link Relativistic Quantum Mechanics Lecture 18 - Groups and symmetries, The Lorentz and Poincare groups
Link Relativistic Quantum Mechanics Lecture 19 - Group representations, generators and algebra, Translations, rotations and boosts
Link Relativistic Quantum Mechanics Lecture 20 - The spinor representation of SL(2,C), The spin-statistics theorem
Link Relativistic Quantum Mechanics Lecture 21 - Finite dimensional representations of the Lorentz group, Euclidean and Galilean groups
Link Relativistic Quantum Mechanics Lecture 22 - Classification of one particle states, The little group, Mass, spin and helicity
Link Relativistic Quantum Mechanics Lecture 23 - Massive and massless one particle states
Link Relativistic Quantum Mechanics Lecture 24 - P and T transformations, Lorentz covariance of spinors
Link Relativistic Quantum Mechanics Lecture 25 - Lorentz group classification of Dirac operators, Orthogonality and completeness of Dirac spinors, Projection operators
Link Relativistic Quantum Mechanics Lecture 26 - Propagator theory, Non-relativistic case and causality
Link Relativistic Quantum Mechanics Lecture 27 - Relativistic case, Particle and antiparticle contributions, Feynman prescription and the propagator
Link Relativistic Quantum Mechanics Lecture 28 - Interactions and formal perturbative theory, The S-matrix and Feynman diagrams
Link Relativistic Quantum Mechanics Lecture 29 - Trace theorems for products of Dirac matrices
Link Relativistic Quantum Mechanics Lecture 30 - Photons and the gauge symmetry
Link Relativistic Quantum Mechanics Lecture 31 - Abelian local gauge symmetry, The covariant derivative and invariants
Link Relativistic Quantum Mechanics Lecture 32 - Charge quantisation, Photon propagator, Current conservation and polarisations
Link Relativistic Quantum Mechanics Lecture 33 - Feynman rules for Quantum Electrodynamics, Nature of perturbative expansion
Link Relativistic Quantum Mechanics Lecture 34 - Dyson's analysis of the perturbation series, Singularities of the S-matrix, Elementary QED processes
Link Relativistic Quantum Mechanics Lecture 35 - The T-matrix, Coulomb scattering
Link Relativistic Quantum Mechanics Lecture 36 - Mott cross-section, Compton scattering
Link Relativistic Quantum Mechanics Lecture 37 - Klein-Nishina result for cross-section
Link Relativistic Quantum Mechanics Lecture 38 - Photon polarisation sums, Pair production through annihilation
Link Relativistic Quantum Mechanics Lecture 39 - Unpolarised and polarised cross-sections
Link Relativistic Quantum Mechanics Lecture 40 - Helicity properties, Bound state formation
Link Relativistic Quantum Mechanics Lecture 41 - Bound state decay, Non-relativistic potentials
Link Relativistic Quantum Mechanics Lecture 42 - Lagrangian formulation of QED, Divergences in Green's functions, Superficially divergent 1-loop diagrams and regularisation
Link Relativistic Quantum Mechanics Lecture 43 - Infrared divergences due to massless particles, Renormalisation and finite physical results
Link Relativistic Quantum Mechanics Lecture 44 - Symmetry constraints on Green's functions, Furry's theorem, Ward-Takahashi identity, Spontaneous breaking of gauge symmetry and superconductivity
Link Relativistic Quantum Mechanics Lecture 45 - Status of QED, Organisation of perturbative expansion, Precision tests
Link NOC:Control System Design Lecture 1 - Introduction
Link NOC:Control System Design Lecture 2 - Linear Systems
Link NOC:Control System Design Lecture 3 - Homogeneous linear time invariant ordinary differential equations
Link NOC:Control System Design Lecture 4 - In-homogeneous linear time invariant ordinary differential equations
Link NOC:Control System Design Lecture 5 - Fourier transforms - Part 1
Link NOC:Control System Design Lecture 6 - Fourier transforms - Part 2
Link NOC:Control System Design Lecture 7 - Laplace transforms - Part 1
Link NOC:Control System Design Lecture 8 - Laplace transforms - Part 2
Link NOC:Control System Design Lecture 9 - Introduction to feedback control - Part 1
Link NOC:Control System Design Lecture 10 - Introduction to feedback control - Part 2
Link NOC:Control System Design Lecture 11 - Nyquist stability theory - Part 1
Link NOC:Control System Design Lecture 12 - Nyquist stability theory - Part 2
Link NOC:Control System Design Lecture 13 - Nyquist stability theory - Part 3
Link NOC:Control System Design Lecture 14 - Bode plots
Link NOC:Control System Design Lecture 15 - Steps for performing control design - Part 1
Link NOC:Control System Design Lecture 16 - Steps for performing control design - Part 2
Link NOC:Control System Design Lecture 17 - General controllers - Part 1
Link NOC:Control System Design Lecture 18 - General controllers - Part 2
Link NOC:Control System Design Lecture 19 - General controllers - Part 3
Link NOC:Control System Design Lecture 20 - Bode plot-based control design - Part 1
Link NOC:Control System Design Lecture 21 - Bode plot-based control design - Part 2
Link NOC:Control System Design Lecture 22 - Introduction to root-locus
Link NOC:Control System Design Lecture 23 - Control system design using root-locus
Link NOC:Control System Design Lecture 24 - Control of systems with some known parameters - Part 1
Link NOC:Control System Design Lecture 25 - Control of systems with some known parameters - Part 2
Link NOC:Control System Design Lecture 26 - Limitations of 1-degree of freedom control
Link NOC:Control System Design Lecture 27 - Introduction to 2-degree of freedom control
Link NOC:Control System Design Lecture 28 - 2-Degree of freedom robust control design for plants with gain uncertainty - Part 1
Link NOC:Control System Design Lecture 29 - 2-Degree of freedom robust control design for plants with uncertain gain - Part 2
Link NOC:Control System Design Lecture 30 - 2-Degree of freedom robust control design for plants with uncertain pole
Link NOC:Control System Design Lecture 31 - 2-Degree of freedom robust control design for plants with multiple uncertainties in their structure
Link NOC:Control System Design Lecture 32 - Issues connected with 2-Degree of freedom control design using root-locus
Link NOC:Control System Design Lecture 33 - Introduction to Nichols plot
Link NOC:Control System Design Lecture 34 - Feedback control design using Nichols plot
Link NOC:Control System Design Lecture 35 - Robust control design using Quantitative feedback theory - Part 1
Link NOC:Control System Design Lecture 36 - Robust control design using Quantitative feedback theory - Part 2
Link NOC:Control System Design Lecture 37 - Tutorial on QFT Toolbox software - Part 1
Link NOC:Control System Design Lecture 38 - Tutorial on QFT Toolbox software - Part 2
Link NOC:Control System Design Lecture 39 - Tutorial on QFT Toolbox software - Part 3
Link NOC:Control System Design Lecture 40 - Fundamental properties of the loop gain - Part 1
Link NOC:Control System Design Lecture 41 - Fundamental properties of the loop gain - Part 2
Link NOC:Control System Design Lecture 42 - Ideal Bode Characteristic - Part 1
Link NOC:Control System Design Lecture 43 - Ideal Bode Characteristic - Part 2
Link NOC:Control System Design Lecture 44 - Introduction to nonminimum phase systems
Link NOC:Control System Design Lecture 45 - Fundamental properties of nonminimum phase systems - Part 1
Link NOC:Control System Design Lecture 46 - Fundamental properties of nonminimum phase systems - Part 2
Link NOC:Control System Design Lecture 47 - Fundamental properties of unstable systems
Link NOC:Control System Design Lecture 48 - Consequences of actuator bandwidth limitations while controlling unstable systems
Link NOC:Control System Design Lecture 49 - Describing functions - Part 1
Link NOC:Control System Design Lecture 50 - Describing functions - Part 2
Link Theory of Yarn Structures Lecture 1 - Fibers and Yarns : Terms, Definitions and Relations
Link Theory of Yarn Structures Lecture 2 - Fibers and Yarns : Terms, Definitions and Relations
Link Theory of Yarn Structures Lecture 3 - Compression of Fibrous Assemblies
Link Theory of Yarn Structures Lecture 4 - Compression of Fibrous Assemblies (Continued...)
Link Theory of Yarn Structures Lecture 5 - Pores Among Fibers
Link Theory of Yarn Structures Lecture 6 - Pores Among Fibers (Continued...)
Link Theory of Yarn Structures Lecture 7 - Orientation of Fibers
Link Theory of Yarn Structures Lecture 8 - Orientation of Fibers (Continued...)
Link Theory of Yarn Structures Lecture 9 - Mechanics of Parallel Fiber Bundles
Link Theory of Yarn Structures Lecture 10 - Mechanics of Parallel Fiber Bundles (Continued...)
Link Theory of Yarn Structures Lecture 11 - Modelling of Internal Yarn Geometry
Link Theory of Yarn Structures Lecture 12 - Modelling of Internal Yarn Geometry
Link Theory of Yarn Structures Lecture 13 - Relations Among Yarn Count T, Twist Z, Packing Density, And Diameter D
Link Theory of Yarn Structures Lecture 14 - Relations Among Yarn Count T, Twist Z, Packing Density, And Diameter D (Continued...)
Link Theory of Yarn Structures Lecture 15 - Relations Among Yarn Count T, Twist Z, Packing Density, And Diameter D (Continued...)
Link Theory of Yarn Structures Lecture 16 - Relations Among Yarn Count T, Twist Z, Packing Density, And Diameter D (Continued...)
Link Theory of Yarn Structures Lecture 17 - Bundle Theory of Yarn Unevenness
Link Theory of Yarn Structures Lecture 18 - Bundle Theory of Yarn Unevenness (Continued...)
Link Theory of Yarn Structures Lecture 19 - Yarn Strength as a Stochastic Process
Link Theory of Yarn Structures Lecture 20 - Yarn Strength as a Stochastic Process (Continued...)
Link NOC:Science of Clothing Comfort Lecture 1 - Science of Clothing Comfort-Outline
Link NOC:Science of Clothing Comfort Lecture 2 - Understanding Clothing and Clothing Comfort
Link NOC:Science of Clothing Comfort Lecture 3 - Understanding Clothing and Clothing Comfort (Continued...)
Link NOC:Science of Clothing Comfort Lecture 4 - Understanding Clothing and Clothing Comfort (Continued...)
Link NOC:Science of Clothing Comfort Lecture 5 - Psychology and Comfort
Link NOC:Science of Clothing Comfort Lecture 6 - Psychology and Comfort (Continued...)
Link NOC:Science of Clothing Comfort Lecture 7 - Psychology and Comfort (Continued...)
Link NOC:Science of Clothing Comfort Lecture 8 - Psychology and Comfort (Continued...)
Link NOC:Science of Clothing Comfort Lecture 9 - Neurophysiological Processes in Clothing Comfort
Link NOC:Science of Clothing Comfort Lecture 10 - Neurophysiological Processes in Clothing Comfort (Continued...)
Link NOC:Science of Clothing Comfort Lecture 11 - Neurophysiological Processes in Clothing Comfort (Continued...)
Link NOC:Science of Clothing Comfort Lecture 12 - Neurophysiological Processes in Clothing Comfort (Continued...)
Link NOC:Science of Clothing Comfort Lecture 13 - Neurophysiological Processes in Clothing Comfort (Continued...)
Link NOC:Science of Clothing Comfort Lecture 14 - Neurophysiological Processes in Clothing Comfort (Continued...)
Link NOC:Science of Clothing Comfort Lecture 15 - Tactile Aspects of Clothing Comfort
Link NOC:Science of Clothing Comfort Lecture 16 - Tactile Aspects of Clothing Comfort (Continued...)
Link NOC:Science of Clothing Comfort Lecture 17 - Tactile Aspects of Clothing Comfort (Continued...)
Link NOC:Science of Clothing Comfort Lecture 18 - Tactile Aspects of Clothing Comfort (Continued...)
Link NOC:Science of Clothing Comfort Lecture 19 - Understanding Clothing and Clothing Comfort (Continued...)
Link NOC:Science of Clothing Comfort Lecture 20 - Tactile Aspects of Clothing Comfort (Continued...)
Link NOC:Science of Clothing Comfort Lecture 21 - Tactile Aspects of Clothing Comfort (Continued...)
Link NOC:Science of Clothing Comfort Lecture 22 - Clothing Comfort Related to Thermal Transmission
Link NOC:Science of Clothing Comfort Lecture 23 - Clothing Comfort Related to Thermal Transmission (Continued...)
Link NOC:Science of Clothing Comfort Lecture 24 - Clothing Comfort Related to Thermal Transmission (Continued...)
Link NOC:Science of Clothing Comfort Lecture 25 - Clothing Comfort Related to Thermal Transmission (Continued...)
Link NOC:Science of Clothing Comfort Lecture 26 - Clothing Comfort Related to Thermal Transmission (Continued...)
Link NOC:Science of Clothing Comfort Lecture 27 - Clothing Comfort Related to Thermal Transmission (Continued...)
Link NOC:Science of Clothing Comfort Lecture 28 - Clothing Comfort Related to Thermal Transmission (Continued...)
Link NOC:Science of Clothing Comfort Lecture 29 - Moisture Transmission and Clothing Comfort
Link NOC:Science of Clothing Comfort Lecture 30 - Moisture Transmission and Clothing Comfort (Continued...)
Link NOC:Science of Clothing Comfort Lecture 31 - Moisture Transmission and Clothing Comfort (Continued...)
Link NOC:Science of Clothing Comfort Lecture 32 - Moisture Transmission and Clothing Comfort (Continued...)
Link NOC:Science of Clothing Comfort Lecture 33 - Moisture Transmission and Clothing Comfort (Continued...)
Link NOC:Science of Clothing Comfort Lecture 34 - Moisture Transmission and Clothing Comfort (Continued...)
Link NOC:Science of Clothing Comfort Lecture 35 - Moisture Transmission and Clothing Comfort (Continued...)
Link NOC:Science of Clothing Comfort Lecture 36 - Combined Heat and Mass Transmission and Clothing Comfort
Link NOC:Science of Clothing Comfort Lecture 37 - Combined Heat and Mass Transmission and Clothing Comfort (Continued...)
Link NOC:Science of Clothing Comfort Lecture 38 - Thermo-Physiological Comfort of Functional Clothing
Link NOC:Science of Clothing Comfort Lecture 39 - Garment Fit and Comfort
Link NOC:Science of Clothing Comfort Lecture 40 - Garment Fit and Comfort (Continued...)
Link NOC:Yarn Manufacture-I: Principle of Carding and Drawing Lecture 1 - Introduction
Link NOC:Yarn Manufacture-I: Principle of Carding and Drawing Lecture 2 - Card Feed Zone
Link NOC:Yarn Manufacture-I: Principle of Carding and Drawing Lecture 3 - Carding Zone
Link NOC:Yarn Manufacture-I: Principle of Carding and Drawing Lecture 4 - Analysis of flat action
Link NOC:Yarn Manufacture-I: Principle of Carding and Drawing Lecture 5 - Sliver Formation
Link NOC:Yarn Manufacture-I: Principle of Carding and Drawing Lecture 6 - Package Formation
Link NOC:Yarn Manufacture-I: Principle of Carding and Drawing Lecture 7 - Card Clothing
Link NOC:Yarn Manufacture-I: Principle of Carding and Drawing Lecture 8 - Card Setting, Draft, Production
Link NOC:Yarn Manufacture-I: Principle of Carding and Drawing Lecture 9 - Fibre Configuration and Neps in Card sliver
Link NOC:Yarn Manufacture-I: Principle of Carding and Drawing Lecture 10 - Carding Process
Link NOC:Yarn Manufacture-I: Principle of Carding and Drawing Lecture 11 - Numerical Problems and Solution
Link NOC:Yarn Manufacture-I: Principle of Carding and Drawing Lecture 12 - Introduction and Drafting principle
Link NOC:Yarn Manufacture-I: Principle of Carding and Drawing Lecture 13 - Design Features and operating principle of drawframe
Link NOC:Yarn Manufacture-I: Principle of Carding and Drawing Lecture 14 - Drafting Rolles, Web Condensation and Packaging
Link NOC:Yarn Manufacture-I: Principle of Carding and Drawing Lecture 15 - Drafting Roller Arranegement
Link NOC:Yarn Manufacture-I: Principle of Carding and Drawing Lecture 16 - Drafting Theory, Wave Fromation and Control
Link NOC:Yarn Manufacture-I: Principle of Carding and Drawing Lecture 17 - Drafting Force and Roller Slip
Link NOC:Yarn Manufacture-I: Principle of Carding and Drawing Lecture 18 - Significance of Process Parameters
Link NOC:Yarn Manufacture-I: Principle of Carding and Drawing Lecture 19 - Draft and production Calculation
Link NOC:Yarn Manufacture-I: Principle of Carding and Drawing Lecture 20 - Blending on Drawframe
Link NOC:Yarn Manufacture-I: Principle of Carding and Drawing Lecture 21 - Process Monitoring and Control
Link NOC:Yarn Manufacture-I: Principle of Carding and Drawing Lecture 22 - Drawframe Autoleveller
Link NOC:Yarn Manufacture-I: Principle of Carding and Drawing Lecture 23 - Card Autoleveller
Link NOC:Yarn Manufacture-I: Principle of Carding and Drawing Lecture 24 - Numericals on Drawing
Link NOC:Evaluations of Textile Materials Lecture 1 - Evaluation of Textile Materials - Outline
Link NOC:Evaluations of Textile Materials Lecture 2 - Evaluation of Textile Materials - Outline (Continued...)
Link NOC:Evaluations of Textile Materials Lecture 3 - Sampling Methods and Sample Size
Link NOC:Evaluations of Textile Materials Lecture 4 - Sampling Methods and Sample Size (Continued...)
Link NOC:Evaluations of Textile Materials Lecture 5 - Sampling Methods and Sample Size (Continued....)
Link NOC:Evaluations of Textile Materials Lecture 6 - Sampling Methods and Sample Size: Practical Statistics
Link NOC:Evaluations of Textile Materials Lecture 7 - Sampling Methods and Sample Size: Practical Statistics (Continued...)
Link NOC:Evaluations of Textile Materials Lecture 8 - Sampling Methods and Sample Size: Practical Statistics (Continued...)
Link NOC:Evaluations of Textile Materials Lecture 9 - Evaluation of Fibre Length
Link NOC:Evaluations of Textile Materials Lecture 10 - Evaluation of Fibre Length (Continued...)
Link NOC:Evaluations of Textile Materials Lecture 11 - Evaluation of Fibre Length (Continued...)
Link NOC:Evaluations of Textile Materials Lecture 12 - Evaluation of Fibre Fineness
Link NOC:Evaluations of Textile Materials Lecture 13 - Evaluation of Fibre Fineness - 1
Link NOC:Evaluations of Textile Materials Lecture 14 - Evaluation of Cotton Fibre Maturity
Link NOC:Evaluations of Textile Materials Lecture 15 - Evaluation of Cotton Fibre Properties: (HVI and AFIS)
Link NOC:Evaluations of Textile Materials Lecture 16 - Evaluation of Linear Density of Textile Materials
Link NOC:Evaluations of Textile Materials Lecture 17 - Evaluation of Linear Density of Textile Materials (Continued...)
Link NOC:Evaluations of Textile Materials Lecture 18 - Evaluation of Tensile Properties of Textile Materials
Link NOC:Evaluations of Textile Materials Lecture 19 - Evaluation of Tensile Properties of Textile Materials (Continued...)
Link NOC:Evaluations of Textile Materials Lecture 20 - Evaluation of Tensile Properties of Textile Materials-1 (Continued...)
Link NOC:Evaluations of Textile Materials Lecture 21 - Evaluation of Tensile Properties of Textile Materials-2 (Continued...)
Link NOC:Evaluations of Textile Materials Lecture 22 - Evaluation of Tensile Properties of Textile Materials-3 (Continued...)
Link NOC:Evaluations of Textile Materials Lecture 23 - Evaluation of Tensile Properties of Textile Materials-4 (Continued...)
Link NOC:Evaluations of Textile Materials Lecture 24 - Evaluation of Tensile Properties of Textile Materials-5 (Continued...)
Link NOC:Evaluations of Textile Materials Lecture 25 - Evaluation of Yarn and Fabric Hairiness
Link NOC:Evaluations of Textile Materials Lecture 26 - Evaluation of Yarn and Fabric Hairiness (Continued...)
Link NOC:Evaluations of Textile Materials Lecture 27 - Evaluation of Yarn Twist
Link NOC:Evaluations of Textile Materials Lecture 28 - Evaluation of Yarn Twist (Continued...)
Link NOC:Evaluations of Textile Materials Lecture 29 - Evaluation of Moisture in Textiles
Link NOC:Evaluations of Textile Materials Lecture 30 - Evaluation of Moisture in Textiles (Continued...)
Link NOC:Evaluations of Textile Materials Lecture 31 - Evaluation of Yarn Evenness
Link NOC:Evaluations of Textile Materials Lecture 32 - Evaluation of Yarn Evenness-1 (Continued...)
Link NOC:Evaluations of Textile Materials Lecture 33 - Evaluation of Yarn Evenness-2 (Continued...)
Link NOC:Evaluations of Textile Materials Lecture 34 - Evaluation of Yarn Evenness-3 (Continued...)
Link NOC:Evaluations of Textile Materials Lecture 35 - Evaluation of Yarn Evenness-3 (Continued...)
Link NOC:Evaluations of Textile Materials Lecture 36 - Evaluation of Yarn Evenness-4 (Continued...)
Link NOC:Evaluations of Textile Materials Lecture 37 - Evaluation of Bursting and Tear Strength of Fabrics
Link NOC:Evaluations of Textile Materials Lecture 38 - Evaluation of Pilling and Abrasion Properties of Fabrics
Link NOC:Evaluations of Textile Materials Lecture 39 - Evaluation of Low Stress Mechanical Properties of Textile Materials
Link NOC:Evaluations of Textile Materials Lecture 40 - Evaluation of Low Stress Mechanical Properties of Textile Materials (Continued...)
Link NOC:Testing of Functional and Technical Textiles Lecture 1 - Testing of Low Stress mechanical Properties of Textile Fabrics
Link NOC:Testing of Functional and Technical Textiles Lecture 2 - Testing of Low Stress mechanical Properties of Textile Fabrics (Continued...)
Link NOC:Testing of Functional and Technical Textiles Lecture 3 - Testing of Low Stress mechanical Properties of Textile Fabrics (Continued...)
Link NOC:Testing of Functional and Technical Textiles Lecture 4 - Testing of Transmission Characteristics of Textile Fabrics
Link NOC:Testing of Functional and Technical Textiles Lecture 5 - Testing of Transmission Characteristics of Textile Fabrics (Continued...)
Link NOC:Testing of Functional and Technical Textiles Lecture 6 - Testing of Transmission Characteristics of Textile Fabrics (Continued...)
Link NOC:Testing of Functional and Technical Textiles Lecture 7 - Testing of Transmission Characteristics of Textile Fabrics (Continued...)
Link NOC:Testing of Functional and Technical Textiles Lecture 8 - Testing of Transmission Characteristics of Textile Fabrics (Continued...)
Link NOC:Testing of Functional and Technical Textiles Lecture 9 - Testing of Transmission Characteristics of Textile Fabrics (Continued...)
Link NOC:Testing of Functional and Technical Textiles Lecture 10 - Testing of Fibre Reinforced Composite Materials
Link NOC:Testing of Functional and Technical Textiles Lecture 11 - Testing of Fibre Reinforced Composite Materials (Continued...)
Link NOC:Testing of Functional and Technical Textiles Lecture 12 - Testing of Fibre Reinforced Composite Materials (Continued...)
Link NOC:Testing of Functional and Technical Textiles Lecture 13 - Testing of Fibre Reinforced Composite Materials (Continued...)
Link NOC:Testing of Functional and Technical Textiles Lecture 14 - Testing of Fibre Reinforced Composite Materials (Continued...)
Link NOC:Testing of Functional and Technical Textiles Lecture 15 - Testing of Fibre Fabrics
Link NOC:Testing of Functional and Technical Textiles Lecture 16 - Testing of Fibre Fabrics (Continued...)
Link NOC:Testing of Functional and Technical Textiles Lecture 17 - Testing of Fibre Fabrics (Continued...)
Link NOC:Testing of Functional and Technical Textiles Lecture 18 - Testing of Geotextiles
Link NOC:Testing of Functional and Technical Textiles Lecture 19 - Testing of Geotextiles (Continued...)
Link NOC:Testing of Functional and Technical Textiles Lecture 20 - Testing of Geotextiles (Continued...)
Link NOC:Testing of Functional and Technical Textiles Lecture 21 - Testing of Ballistics Protective Clothing
Link NOC:Testing of Functional and Technical Textiles Lecture 22 - Testing of UV Radiation Protective Textiles
Link NOC:Testing of Functional and Technical Textiles Lecture 23 - Testing of Compression Bandages
Link NOC:Testing of Functional and Technical Textiles Lecture 24 - Testing of Electromagnetic Shielding Textiles
Link NOC:Theory of Yarn Structure Lecture 1 - The Building Block of Yarns
Link NOC:Theory of Yarn Structure Lecture 2 - The Building Block of Yarns (Continued...)
Link NOC:Theory of Yarn Structure Lecture 3 - Basic Characteristics of Yarns
Link NOC:Theory of Yarn Structure Lecture 4 - Basic Characteristics of Yarns (Continued...)
Link NOC:Theory of Yarn Structure Lecture 5 - Basic Characteristics of Yarns (Continued...)
Link NOC:Theory of Yarn Structure Lecture 6 - Relations Among Yarn Count, Twist, and Diameter
Link NOC:Theory of Yarn Structure Lecture 7 - Relations Among Yarn Count, Twist, and Diameter (Continued...)
Link NOC:Theory of Yarn Structure Lecture 8 - Helical Model of Fibers in Yarns
Link NOC:Theory of Yarn Structure Lecture 9 - Helical Model of Fibers in Yarns (Continued...)
Link NOC:Theory of Yarn Structure Lecture 10 - Helical Model of Fibers in Yarns (Continued...)
Link NOC:Theory of Yarn Structure Lecture 11 - Helical Model of Fibers in Yarns (Continued...)
Link NOC:Theory of Yarn Structure Lecture 12 - Mass Irregularity of Yarns
Link NOC:Theory of Yarn Structure Lecture 13 - Mass Irregularity of Yarns (Continued...)
Link NOC:Theory of Yarn Structure Lecture 14 - Mass Irregularity of Yarns (Continued...)
Link NOC:Theory of Yarn Structure Lecture 15 - Mass Irregularity of Yarns (Continued...)
Link NOC:Theory of Yarn Structure Lecture 16 - Radial Migration of Fibres in Yarns
Link NOC:Theory of Yarn Structure Lecture 17 - Radial Migration of Fibres in Yarns (Continued...)
Link NOC:Theory of Yarn Structure Lecture 18 - Radial Migration of Fibres in Yarns (Continued...)
Link NOC:Theory of Yarn Structure Lecture 19 - Yarn Shrinkage due to Washing
Link NOC:Theory of Yarn Structure Lecture 20 - Tensile Mechanics of Yarns
Link NOC:Theory of Yarn Structure Lecture 21 - Tensile Mechanics of Yarns (Continued...)
Link NOC:Theory of Yarn Structure Lecture 22 - Tensile Mechanics of Yarns (Continued...)
Link NOC:Theory of Yarn Structure Lecture 23 - Tensile Mechanics of Yarns (Continued...)
Link NOC:Theory of Yarn Structure Lecture 24 - Tensile Mechanics of Yarns (Continued...)
Link NOC:Advanced Textile Printing Technology Lecture 1 - Conventional Printing
Link NOC:Advanced Textile Printing Technology Lecture 2 - Colourants
Link NOC:Advanced Textile Printing Technology Lecture 3 - Dyes and pigments
Link NOC:Advanced Textile Printing Technology Lecture 4 - Thickeners
Link NOC:Advanced Textile Printing Technology Lecture 5 - Measurement of viscosity
Link NOC:Advanced Textile Printing Technology Lecture 6 - Discharge and resist printing
Link NOC:Advanced Textile Printing Technology Lecture 7 - Transfer Printing
Link NOC:Advanced Textile Printing Technology Lecture 8 - Sublimation Transfer Printing : Paper Printing
Link NOC:Advanced Textile Printing Technology Lecture 9 - Sublimation Transfer Printing : Dyes and inks
Link NOC:Advanced Textile Printing Technology Lecture 10 - Free path length and mechanism of transfer
Link NOC:Advanced Textile Printing Technology Lecture 11 - Transfer Printing Machines and Other Transfer Methods
Link NOC:Advanced Textile Printing Technology Lecture 12 - Introduction to Digital Textile Printing
Link NOC:Advanced Textile Printing Technology Lecture 13 - Revision and Doubt Clarification Session - 1
Link NOC:Advanced Textile Printing Technology Lecture 14 - Digital Textile Printing: Inkjet Technologies
Link NOC:Advanced Textile Printing Technology Lecture 15 - Inkjet Technologies: drop-on-demand
Link NOC:Advanced Textile Printing Technology Lecture 16 - Revision and Doubt Clarification Session - 2
Link NOC:Advanced Textile Printing Technology Lecture 17 - Inkjet Technologies: Machines
Link NOC:Advanced Textile Printing Technology Lecture 18 - Inkjet Printing
Link NOC:Advanced Textile Printing Technology Lecture 19 - Printing inks
Link NOC:Advanced Textile Printing Technology Lecture 20 - Water-based inks
Link NOC:Advanced Textile Printing Technology Lecture 21 - Water-based inks (Continued...)
Link NOC:Textured Yarn Technology Lecture 1 - Introduction to texturing
Link NOC:Textured Yarn Technology Lecture 2 - General principles involved in the manufacture of textured yarns
Link NOC:Textured Yarn Technology Lecture 3 - General principles involved in the manufacture of textured yarns (Continued...)
Link NOC:Textured Yarn Technology Lecture 4 - Bulked yarns
Link NOC:Textured Yarn Technology Lecture 5 - Mechanisms of setting and texturing
Link NOC:Textured Yarn Technology Lecture 6 - Thermo-mechanical texturing
Link NOC:Textured Yarn Technology Lecture 7 - Characterization and optimization
Link NOC:Textured Yarn Technology Lecture 8 - Influence of material and process parameters
Link NOC:Textured Yarn Technology Lecture 9 - Influence of process parameters
Link NOC:Textured Yarn Technology Lecture 10 - Influence of process parameters (Continued...)
Link NOC:Textured Yarn Technology Lecture 11 - Revision and clarification of doubts - Session 1
Link NOC:Textured Yarn Technology Lecture 12 - Influence of process parameters (Continued...)
Link NOC:Textured Yarn Technology Lecture 13 - Draw Texturing
Link NOC:Textured Yarn Technology Lecture 14 - Simultaneous draw texturing with POY
Link NOC:Textured Yarn Technology Lecture 15 - Draw Texturing (Continued...)
Link NOC:Textured Yarn Technology Lecture 16 - Draw Texturing Machines and Process Parameters
Link NOC:Textured Yarn Technology Lecture 17 - Draw Texturing : Effect of Process Parameters
Link NOC:Textured Yarn Technology Lecture 18 - Draw Texturing : Positorque System
Link NOC:Textured Yarn Technology Lecture 19 - Friction Draw Texturing
Link NOC:Textured Yarn Technology Lecture 20 - Friction Draw Texturing (Continued...)
Link NOC:Textured Yarn Technology Lecture 21 - Air-Jet Texturing
Link NOC:Textured Yarn Technology Lecture 22 - Air-Jet Texturing (Continued...)
Link NOC:Textured Yarn Technology Lecture 23 - Air-Jet Texturing (Continued...)
Link NOC:Textured Yarn Technology Lecture 24 - Air-Jet Texturing : Effect of Process parameters
Link NOC:Textured Yarn Technology Lecture 25 - Air-Jet Texturing : Effect of Water parameters
Link NOC:Textured Yarn Technology Lecture 26 - Air-Texturing Jets
Link NOC:Textured Yarn Technology Lecture 27 - Interlacement: need and jet design
Link NOC:Textured Yarn Technology Lecture 28 - Bulked continuous filament yarns
Link NOC:Textured Yarn Technology Lecture 29 - Hi-bulk yarns
Link NOC:Textured Yarn Technology Lecture 30 - Revision and Clarification of Doubts Session 2
Link NOC:Textured Yarn Technology Lecture 31 - Hi-bulk yarns (Continued...)
Link NOC:Textured Yarn Technology Lecture 32 - Texturing of spun yarns
Link NOC:Textured Yarn Technology Lecture 33 - Texturing of spun yarns (Continued...)
Link NOC:Textured Yarn Technology Lecture 34 - Solvent texturing
Link NOC:Textile Finishing Lecture 1 - Introduction to Finishing
Link NOC:Textile Finishing Lecture 2 - Wrinkle Resistant Finishing
Link NOC:Textile Finishing Lecture 3 - Wrinkle Resistant Finishing (Continued...)
Link NOC:Textile Finishing Lecture 4 - Wrinkle Resistant Finishing : Performance characteristics
Link NOC:Textile Finishing Lecture 5 - Catalysis and Catalysts
Link NOC:Textile Finishing Lecture 6 - Other Crosslinking agents
Link NOC:Textile Finishing Lecture 7 - Non-nitrogenous Agents
Link NOC:Textile Finishing Lecture 8 - Control of Formaldehyde Release
Link NOC:Textile Finishing Lecture 9 - Stiff and Soft Finishing
Link NOC:Textile Finishing Lecture 10 - Soft Finishing (Continued...)
Link NOC:Textile Finishing Lecture 11 - Soft Finishing (Continued...)
Link NOC:Textile Finishing Lecture 12 - Emulsion Softeners
Link NOC:Textile Finishing Lecture 13 - Water Proofing and Water Repellency
Link NOC:Textile Finishing Lecture 14 - Water Repellency (Continued...)
Link NOC:Textile Finishing Lecture 15 - Water Repellency (Continued...)
Link NOC:Textile Finishing Lecture 16 - Waterproof Breathable Textiles
Link NOC:Textile Finishing Lecture 17 - Soil Repellency and Soil Release
Link NOC:Textile Finishing Lecture 18 - Soil Release Finishing
Link NOC:Textile Finishing Lecture 19 - Fire Retardant Finishing
Link NOC:Textile Finishing Lecture 20 - Chemistry of Flame Retardants
Link NOC:Textile Finishing Lecture 21 - More Flame retardants and evaluation of fire retardancy
Link NOC:Textile Finishing Lecture 22 - Antimicrobial Finishing
Link NOC:Textile Finishing Lecture 23 - Finishing of Wool
Link NOC:Textile Finishing Lecture 24 - Shrink Resistant Wool
Link NOC:Textile Finishing Lecture 25 - Wool Setting
Link NOC:Textile Finishing Lecture 26 - Mothproofing of Wool
Link NOC:Textile Finishing Lecture 27 - Biopolishing
Link NOC:Textile Finishing Lecture 28 - Finishing of synthetics
Link NOC:Textile Finishing Lecture 29 - Finishing of synthetics : Antistatic Finish
Link NOC:Textile Finishing Lecture 30 - Low Liquor Application
Link NOC:Textile Finishing Lecture 31 - Waste heat recovery
Link NOC:Textile Finishing Lecture 32 - Principles of some Finishing machines
Link NOC:Principles of Combing, Roving preparation and Ring spinning Lecture 1 - Pre-combing operation - Part 1
Link NOC:Principles of Combing, Roving preparation and Ring spinning Lecture 2 - Pre-combing operation - Part 2
Link NOC:Principles of Combing, Roving preparation and Ring spinning Lecture 3 - Introduction to Comber - Part 1
Link NOC:Principles of Combing, Roving preparation and Ring spinning Lecture 4 - Introduction to Comber - Part 2
Link NOC:Principles of Combing, Roving preparation and Ring spinning Lecture 5 - Sequence of Operation
Link NOC:Principles of Combing, Roving preparation and Ring spinning Lecture 6 - Combing Mechanism
Link NOC:Principles of Combing, Roving preparation and Ring spinning Lecture 7 - Timing Diagram
Link NOC:Principles of Combing, Roving preparation and Ring spinning Lecture 8 - Sliver Formation
Link NOC:Principles of Combing, Roving preparation and Ring spinning Lecture 9 - Theoretical Aspects in Combing - Part 1
Link NOC:Principles of Combing, Roving preparation and Ring spinning Lecture 10 - Theoretical Aspects in Combing - Part 2
Link NOC:Principles of Combing, Roving preparation and Ring spinning Lecture 11 - Parameters Influencing Combing Performance
Link NOC:Principles of Combing, Roving preparation and Ring spinning Lecture 12 - Analysis of Drive
Link NOC:Principles of Combing, Roving preparation and Ring spinning Lecture 13 - Calculation of Process Performance Parameters
Link NOC:Principles of Combing, Roving preparation and Ring spinning Lecture 14 - Introduction, Working Principle and Creel
Link NOC:Principles of Combing, Roving preparation and Ring spinning Lecture 15 - Dxrafting Unit - Part 1
Link NOC:Principles of Combing, Roving preparation and Ring spinning Lecture 16 - Dxrafting Unit - Part 2
Link NOC:Principles of Combing, Roving preparation and Ring spinning Lecture 17 - Flyer Twisting
Link NOC:Principles of Combing, Roving preparation and Ring spinning Lecture 18 - Package Formation
Link NOC:Principles of Combing, Roving preparation and Ring spinning Lecture 19 - Bobbin Speed Regulation
Link NOC:Principles of Combing, Roving preparation and Ring spinning Lecture 20 - Building Motion and Drive Analysis
Link NOC:Principles of Combing, Roving preparation and Ring spinning Lecture 21 - Calculation for Change Gears amd Production
Link NOC:Principles of Combing, Roving preparation and Ring spinning Lecture 22 - Introduction and Working Principle
Link NOC:Principles of Combing, Roving preparation and Ring spinning Lecture 23 - Creel and Drafting Unit
Link NOC:Principles of Combing, Roving preparation and Ring spinning Lecture 24 - Twisting Process and Twisting Elements
Link NOC:Principles of Combing, Roving preparation and Ring spinning Lecture 25 - Bobbin Building
Link NOC:Principles of Combing, Roving preparation and Ring spinning Lecture 26 - Spinning Geometry
Link NOC:Principles of Combing, Roving preparation and Ring spinning Lecture 27 - Analysis of Forces on Traveller
Link NOC:Principles of Combing, Roving preparation and Ring spinning Lecture 28 - Analysis of Forces on Ballon
Link NOC:Principles of Combing, Roving preparation and Ring spinning Lecture 29 - Analysis of Drive, Production Calculation
Link NOC:Principles of Combing, Roving preparation and Ring spinning Lecture 30 - End Breaks
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 1 - Introduction to Kintting
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 2 - Knitting Glossary
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 3 - Loop Formation in Weft Knitting
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 4 - Lab Demo 1: Analysis of a Weft Knit Fabric
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 5 - Automation in Loop Formation
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 6 - Flat Bed Machine Needle/Cam Interaction
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 7 - Circular Knitting
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 8 - Single Bed Weft Knitting-Flat and Circular M/C
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 9 - Lab Demo 2: Single Flat Bed Machine
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 10 - Lab Demo 3: Single Bed Circular Machine
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 11 - Single Bed Weft Knitting Fabric Curling
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 12 - Weft Knitting Double Flat Beds
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 13 - Weft Knitting Double Circular Beds
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 14 - Weft Knitting V-Bed Machine
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 15 - Analysis of a Double Jersey Fabric
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 16 - Single and Double Jersey Construction
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 17 - Weft Knit Stiches - Loop, Tuck and Float
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 18 - Lab Demo 6 (Part 1) Knitting Notations
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 19 - Lab Demo 6 (Part 2) Knitting Notations
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 20 - Fabric Analysis - Influence of Loop Length
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 21 - Fabric Design - Float and Tuck Formation
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 22 - Fabric Analysis - Influence of Float and Tuck Stitches
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 23 - Fabric Analysis - Shrinkage (Relaxation)
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 24 - Fabric Analysis - Extensibility and Recovery
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 25 - Knitting Calculation - Yarn Selection
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 26 - Knitting Calculation - Production (Circular)
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 27 - Knitting Calculation - Production (Flat)
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 28 - Knitting Calculation - Fabric Calculations
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 29 - Knitting Calculation - Geometrical Modeling
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 30 - Knitting Calculation - Fabric Spirality in Single Jersy (Tubular)
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 31 - Advancement in Knitting Technology
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 32 - Knitting Designs Possibilities
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 33 - Knitting Designs Possibilities - 1
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 34 - Design Software
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 35 - Weft Knitting- Revision
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 36 - Introduction to Warp Knitting
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 37 - Warp Knitting Technology- Loop Formation
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 38 - Swinging and Shogging Motions (Overlap and Underlap)
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 39 - Warp Knit - Structural Identification
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 40 - Warp Knit Fabric Notation - Lapping Diagram and Lapping Plan
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 41 - Warp Knit Structure - Design Principles
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 42 - Single Bar Warp Knit Constructions
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 43 - Double Bar Warp Knit Constructions
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 44 - Lapping Plan Execution - Pattern Disc and Pattern Drum
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 45 - Chain Links Arrangement - Single and Double Bar Constructions
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 46 - Warp Knits : Structure - Property Relationship
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 47 - Warp Knits : Multi-bar Structures and Double Bed Designs
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 48 - Weft and Warp Knitting - Summary
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 49 - Technical Applications of Knitting
Link NOC:Science and Technology of Weft and Warp Knitting Lecture 50 - Technical Applications of Knitting (Continued...)
Link Natural Dyes Lecture 1 - Natural Dyes
Link Natural Dyes Lecture 2 - Natural Dyes
Link Natural Dyes Lecture 3 - Natural Dyes
Link Natural Dyes Lecture 4 - Natural Dyes
Link Natural Dyes Lecture 5 - Natural Dyes
Link Natural Dyes Lecture 6 - Natural Dyes
Link Natural Dyes Lecture 7 - Natural Dyes
Link Natural Dyes Lecture 8 - Natural Dyes
Link Natural Dyes Lecture 9 - Natural Dyes
Link Natural Dyes Lecture 10 - Natural Dyes
Link Natural Dyes Lecture 11 - Natural Dyes
Link Natural Dyes Lecture 12 - Natural Dyes
Link Natural Dyes Lecture 13 - Natural Dyes
Link Natural Dyes Lecture 14 - Natural Dyes
Link Natural Dyes Lecture 15 - Natural Dyes
Link Natural Dyes Lecture 16 - Natural Dyes
Link Natural Dyes Lecture 17 - Natural Dyes
Link Natural Dyes Lecture 18 - Natural Dyes
Link Natural Dyes Lecture 19 - Natural Dyes
Link Natural Dyes Lecture 20 - Natural Dyes
Link Natural Dyes Lecture 21 - Natural Dyes
Link Natural Dyes Lecture 22 - Natural Dyes
Link Natural Dyes Lecture 23 - Natural Dyes
Link Natural Dyes Lecture 24 - Natural Dyes
Link Natural Dyes Lecture 25 - Natural Dyes
Link Natural Dyes Lecture 26 - Natural Dyes
Link Natural Dyes Lecture 27 - Natural Dyes
Link Natural Dyes Lecture 28 - Natural Dyes
Link Natural Dyes Lecture 29 - Natural Dyes
Link Natural Dyes Lecture 30 - Natural Dyes
Link Natural Dyes Lecture 31 - Natural Dyes
Link Natural Dyes Lecture 32 - Natural Dyes
Link Natural Dyes Lecture 33 - Natural Dyes
Link Natural Dyes Lecture 34 - Natural Dyes
Link Natural Dyes Lecture 35 - Natural Dyes
Link Natural Dyes Lecture 36 - Natural Dyes
Link Natural Dyes Lecture 37 - Natural Dyes
Link Natural Dyes Lecture 38 - Natural Dyes
Link Natural Dyes Lecture 39 - Natural Dyes
Link Natural Dyes Lecture 40 - Natural Dyes
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 1 - Introduction
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 2 - The Haar Wavelet
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 3 - The Haar Multiresolution Analysis
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 4 - Wavelets And Multirate Digital Signal Processing
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 5 - Equivalence - Functions And Sequences
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 6 - The Haar Filter Bank
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 7 - Haar Filter Bank Analysis And Synthesis
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 8 - Relating psi, phi and the Filters
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 9 - Iterating the filter bank from Psi, Phi
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 10 - Z-Domain Analysis Of Multirate Filter Bank
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 11 - Two Channel Filter Bank
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 12 - Perfect Reconstruction - Conjugate Quadrature
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 13 - Conjugate Quadrature Filters - Daubechies Family of MRA
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 14 - Daubechies' Filter Banks - Conjugate Quadrature Filters
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 15 - Time And Frequency Joint Perspective
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 16 - Ideal Time Frequency Behaviour
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 17 - The Uncertainty Principle
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 18 - Time Bandwidth Product Uncertainty
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 19 - Evaluating and Bounding squareroot t.squareroot omega
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 20 - The Time Frequency Plane & its Tilings
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 21 - Short time Fourier Transform & Wavelet Transform in General
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 22 - Reconstruction & Admissibility
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 23 - Admissibility in Detail Discretization of Scale
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 24 - Logarithmic Scale Discretization, Dyadic Discretization
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 25 - The Theorem of (DYADIC) Multiresolution Analysis
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 26 - Proof of the Theorem of (DYADIC) Multiresolution Analysis
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 27 - Introducing Variants of The Multiresolution Analysis Concept
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 28 - JPEG 2000 5/3 FilterBank & Spline MRA
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 29 - Orthogonal Multiresolution Analysis with Splines
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 30 - Building Piecewise Linear Scaling Function, Wavelet
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 31 - The Wave Packet Transform
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 32 - Nobel Identities & The Haar Wave Packet Transform
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 33 - The Lattice Structure for Orthogonal Filter Banks
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 34 - Constructing the Lattice & its Variants
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 35 - The Lifting Structure & Polyphase Matrices
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 36 - The Polyphase Approach - The Modulation Approach
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 37 - Modulation Analysis and The 3-Band Filter Bank, Applications
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 38 - The Applications *Data Mining, *Face Recognition
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 39 - Proof that a non-zero function can not be both time and band-limited
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 40 - M-Band Filter Banks and Looking Ahead
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 41 - Tutorial -Session 1
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 42 - Student's Presentation
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 43 - Tutorial on Uncertainty Product
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 44 - Tutorial on Two band Filter Bank
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 45 - Tutorial -Frequency Domain Analysis of Two band Filter Bank
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 46 - Zoom in and Zoom out using Wavelet Transform
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 47 - More Thoughts on Wavelets : Zooming In
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 48 - Towards selecting Wavelets through vanishing moments
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 49 - In Search of Scaling Coefficients
Link Adv. Digital Signal Processing - Multirate and wavelets Lecture 50 - Wavelet Applications
Link Advanced Optical Communication Lecture 1 - Introduction
Link Advanced Optical Communication Lecture 2 - Basics of Light
Link Advanced Optical Communication Lecture 3 - Ray Model - I
Link Advanced Optical Communication Lecture 4 - Ray Model - II
Link Advanced Optical Communication Lecture 5 - Wave Model - I
Link Advanced Optical Communication Lecture 6 - Wave Model - II
Link Advanced Optical Communication Lecture 7 - Wave Model - III
Link Advanced Optical Communication Lecture 8 - Signal Distortion - I
Link Advanced Optical Communication Lecture 9 - Signal Distortion - II
Link Advanced Optical Communication Lecture 10 - Signal Distortion - III
Link Advanced Optical Communication Lecture 11 - Practical issues in Implementation of Fiber link
Link Advanced Optical Communication Lecture 12 - Optical Sources
Link Advanced Optical Communication Lecture 13 - Light Emitting Diodes - I
Link Advanced Optical Communication Lecture 14 - Light Emitting Diodes - II
Link Advanced Optical Communication Lecture 15 - Laser - I
Link Advanced Optical Communication Lecture 16 - Laser - II
Link Advanced Optical Communication Lecture 17 - Laser - III
Link Advanced Optical Communication Lecture 18 - Laser - IV
Link Advanced Optical Communication Lecture 19 - Laser - V + Photon Detector
Link Advanced Optical Communication Lecture 20 - Photo Diodes and Detector Noise
Link Advanced Optical Communication Lecture 21 - Photo Detector
Link Advanced Optical Communication Lecture 22 - Optical Receivers - I
Link Advanced Optical Communication Lecture 23 - Optical Receivers - II
Link Advanced Optical Communication Lecture 24 - Receiver Sensitivity Degradation
Link Advanced Optical Communication Lecture 25 - Fiber Optic Link Design
Link Advanced Optical Communication Lecture 26 - Wavelength Division Multiplexed Systems
Link Advanced Optical Communication Lecture 27 - EDFA
Link Advanced Optical Communication Lecture 28 - Integrated Optics - I
Link Advanced Optical Communication Lecture 29 - Integrated Optics - II
Link Advanced Optical Communication Lecture 30 - Tutorials - I
Link Advanced Optical Communication Lecture 31 - Tutorials - II
Link Advanced Optical Communication Lecture 32 - Introduction to Non-Linear Fiber Optics
Link Advanced Optical Communication Lecture 33 - Non-linear Schrodinger Equation
Link Advanced Optical Communication Lecture 34 - Group Velocity Dispersion (GVD)
Link Advanced Optical Communication Lecture 35 - Self Phase Modulation (SPM)
Link Advanced Optical Communication Lecture 36 - Solitonic Communication
Link Advanced Optical Communication Lecture 37 - Raman Amplifier
Link Advanced Optical Communication Lecture 38 - Cross Phase Modulation and four wave mixing
Link Advanced Optical Communication Lecture 39 - Laboratory Experiments - I
Link Advanced Optical Communication Lecture 40 - Laboratory Experiments - II
Link Advanced Optical Communication Lecture 41 - Laboratory Experiments - III
Link Advanced VLSI Design Lecture 1 - Historical Perspective and Future Trends in CMOS VLSI Circuit and System Design - Part I
Link Advanced VLSI Design Lecture 2 - Historical Perspective and Future Trends in CMOS VLSI Circuit and System Design - Part II
Link Advanced VLSI Design Lecture 3 - Logical Effort - A way of Designing Fast CMOS Circuits - Part I
Link Advanced VLSI Design Lecture 4 - Logical Effort - A way of Designing Fast CMOS Circuits - Part II
Link Advanced VLSI Design Lecture 5 - Logical Effort - A way of Designing Fast CMOS Circuits - Part III
Link Advanced VLSI Design Lecture 6 - Power Estimation and Control in CMOS VLSI circuits - Part I
Link Advanced VLSI Design Lecture 7 - Power Estimation and Control in CMOS VLSI circuits - Part II
Link Advanced VLSI Design Lecture 8 - Low Power Design Techniques - Part I
Link Advanced VLSI Design Lecture 9 - Low Power Design Techniques - Part II
Link Advanced VLSI Design Lecture 10 - Arithmetic Implementation Strategies for VLSI - Part I
Link Advanced VLSI Design Lecture 11 - Arithmetic Implementation Strategies for VLSI - Part II
Link Advanced VLSI Design Lecture 12 - Arithmetic Implementation Strategies for VLSI - Part III
Link Advanced VLSI Design Lecture 13 - Arithmetic Implementation Strategies for VLSI - Part IV
Link Advanced VLSI Design Lecture 14 - Interconnect aware design: Impact of scaling, buffer insertion and inductive peaking
Link Advanced VLSI Design Lecture 15 - Interconnect aware design: Low swing and Current mode signaling
Link Advanced VLSI Design Lecture 16 - Interconnect aware design: capacitively coupled interconnects
Link Advanced VLSI Design Lecture 17 - Introduction to Hardware Description Languages
Link Advanced VLSI Design Lecture 18 - Managing concurrency and time in Hardware Description Languages
Link Advanced VLSI Design Lecture 19 - Introduction to VHDL
Link Advanced VLSI Design Lecture 20 - Basic Components in VHDL
Link Advanced VLSI Design Lecture 21 - Structural Description in VHDL
Link Advanced VLSI Design Lecture 22 - Behavioral Description in VHDL
Link Advanced VLSI Design Lecture 23 - Introduction to Verilog
Link Advanced VLSI Design Lecture 24 - FSM + datapath (GCD example)
Link Advanced VLSI Design Lecture 25 - FSM + datapath (Continued...)
Link Advanced VLSI Design Lecture 26 - Single Cycle MMIPS
Link Advanced VLSI Design Lecture 27 - Multicycle MMIPS
Link Advanced VLSI Design Lecture 28 - Multicycle MMIPS – FSM
Link Advanced VLSI Design Lecture 29 - Brief Overview of Basic VLSI Design Automation Concepts
Link Advanced VLSI Design Lecture 30 - Netlist and System Partitioning
Link Advanced VLSI Design Lecture 31 - Timing Analysis in the context of Physical Design Automation
Link Advanced VLSI Design Lecture 32 - Placement algorithm
Link Advanced VLSI Design Lecture 33 - Introduction to VLSI Testing
Link Advanced VLSI Design Lecture 34 - VLSI Test Basics - I
Link Advanced VLSI Design Lecture 35 - VLSI Test Basics - II
Link Advanced VLSI Design Lecture 36 - VLSI Testing: Automatic Test Pattern Generation
Link Advanced VLSI Design Lecture 37 - VLSI Testing: Design for Test (DFT)
Link Advanced VLSI Design Lecture 38 - VLSI Testing: Built-In Self-Test (BIST)
Link Advanced VLSI Design Lecture 39 - VLSI Design Verification: An Introduction
Link Advanced VLSI Design Lecture 40 - VLSI Design Verification: An Introduction
Link Advanced VLSI Design Lecture 41 - VLSI Design Verification: Equivalence/Model Checking
Link Advanced VLSI Design Lecture 42 - VLSI Design Verification: Model Checking
Link Broadband Networks: Concepts and Technology Lecture 1 - Introduction to Broadband Networks
Link Broadband Networks: Concepts and Technology Lecture 2 - Qos in Packet Switching and ATM
Link Broadband Networks: Concepts and Technology Lecture 3 - ATM Networks
Link Broadband Networks: Concepts and Technology Lecture 4 - Effective Bandwidth - I
Link Broadband Networks: Concepts and Technology Lecture 5 - Effective Bandwidth - II
Link Broadband Networks: Concepts and Technology Lecture 6 - Traffic Descriptor in ATM
Link Broadband Networks: Concepts and Technology Lecture 7 - Calculus for QOS - I
Link Broadband Networks: Concepts and Technology Lecture 8 - Calculus For Qos - II
Link Broadband Networks: Concepts and Technology Lecture 9 - Packet Scheduling Algorithm Introduction
Link Broadband Networks: Concepts and Technology Lecture 10 - Fluid Fair Queueing and Weighted Fair Queueing
Link Broadband Networks: Concepts and Technology Lecture 11 - Virtual Time In Scheduling
Link Broadband Networks: Concepts and Technology Lecture 12 - Fairness of WFO and SCFO Scheduling Algorithms
Link Broadband Networks: Concepts and Technology Lecture 13 - Rate Proportional Servers
Link Broadband Networks: Concepts and Technology Lecture 14 - Latency Rate Servers - I
Link Broadband Networks: Concepts and Technology Lecture 15 - Latency Rate Servers - II And Delay Bounds
Link Broadband Networks: Concepts and Technology Lecture 16 - QOS In Best Effort Internet
Link Broadband Networks: Concepts and Technology Lecture 17 - TCP Congestion Control
Link Broadband Networks: Concepts and Technology Lecture 18 - Analysis of TCP
Link Broadband Networks: Concepts and Technology Lecture 19 - TCP Throughput
Link Broadband Networks: Concepts and Technology Lecture 20 - Buffer Management
Link Broadband Networks: Concepts and Technology Lecture 21 - IP Addressing Scheme
Link Broadband Networks: Concepts and Technology Lecture 22 - IP Addressing Lookup And Packet Classification
Link Broadband Networks: Concepts and Technology Lecture 23 - IP Over ATM
Link Broadband Networks: Concepts and Technology Lecture 24 - Multiple Label Switching (MPLS)
Link Broadband Networks: Concepts and Technology Lecture 25 - MPLS and Traffic Engineering
Link Broadband Networks: Concepts and Technology Lecture 26 - Optical Network and MPLS
Link Broadband Networks: Concepts and Technology Lecture 27 - Integrated Service Internet (IntServ) and RSVP
Link Broadband Networks: Concepts and Technology Lecture 28 - Differentiated Services Internet
Link Broadband Networks: Concepts and Technology Lecture 29 - Voice over IP
Link Broadband Networks: Concepts and Technology Lecture 30 - RTP
Link Broadband Networks: Concepts and Technology Lecture 31 - Metro Ethernet Access Networks
Link Broadband Networks: Concepts and Technology Lecture 32 - Metro Ethernet Access Networks
Link Digital Communication Lecture 1 - Introduction to Digital Communication
Link Digital Communication Lecture 2 - Sampling
Link Digital Communication Lecture 3 - Quantization, PCM and Delta Modulation
Link Digital Communication Lecture 4 - Probability and Random Processes (Part-1)
Link Digital Communication Lecture 5 - Probability and Random Processes (Part-2)
Link Digital Communication Lecture 6 - Channels and their Models (Part-1)
Link Digital Communication Lecture 7 - Channels and their Models (Part-2)
Link Digital Communication Lecture 8 - Information Theory (Part-1)
Link Digital Communication Lecture 9 - Information Theory (Part-2)
Link Digital Communication Lecture 10 - Bandpass Signal Representation (Part-1)
Link Digital Communication Lecture 11 - Bandpass Signal Representation (Part-2)
Link Digital Communication Lecture 12 - Digital Modulation Techniques (Part-1)
Link Digital Communication Lecture 13 - Digital Modulation Techniques (Part-2)
Link Digital Communication Lecture 14 - Digital Modulation Techniques (Part-3)
Link Digital Communication Lecture 15 - Digital Modulation Techniques (Part-4)
Link Digital Communication Lecture 16 - Digital Modulation Techniques (Part-5)
Link Digital Communication Lecture 17 - Digital Modulation Techniques (Part-6)
Link Digital Communication Lecture 18 - Digital Modulation Techniques (Part-7)
Link Digital Communication Lecture 19 - Digital Modulation Techniques (Part-8)
Link Digital Communication Lecture 20 - Digital Modulation Techniques (Part-9)
Link Digital Communication Lecture 21 - Digital Modulation Techniques (Part-10)
Link Digital Communication Lecture 22 - Probability of Error Calculation
Link Digital Communication Lecture 23 - Calculation of Probability of Error
Link Digital Communication Lecture 24 - Calculation of Probability of Error
Link Digital Communication Lecture 25 - Equalizers
Link Digital Communication Lecture 26 - Source Coding (Part-1)
Link Digital Communication Lecture 27 - Source Coding (Part-2)
Link Digital Communication Lecture 28 - Source Coding (Part-3)
Link Digital Communication Lecture 29 - Source Coding (Part-4)
Link Digital Communication Lecture 30 - Channel Coding
Link Digital Communication Lecture 31 - Fundamentals of OFDM
Link Digital Communication Lecture 32 - Conclusion
Link Information Theory and Coding Lecture 1 - Introduction to Information Theory and Coding
Link Information Theory and Coding Lecture 2 - Definition of Information Measure and Entropy
Link Information Theory and Coding Lecture 3 - Extention of An Information Source and Markov Source
Link Information Theory and Coding Lecture 4 - Adjoint of An Information Source, Joint and Conditional Information Measure
Link Information Theory and Coding Lecture 5 - Properties of Joint and Conditional Information Measures and A Morkov Source
Link Information Theory and Coding Lecture 6 - Asymptotic Properties of Entropy and Problem Solving in Entropy
Link Information Theory and Coding Lecture 7 - Block Code and its Properties
Link Information Theory and Coding Lecture 8 - Instantaneous Code and Its Properties
Link Information Theory and Coding Lecture 9 - Kraft-Mcmillan Equality and Compact Codes
Link Information Theory and Coding Lecture 10 - Shannon's First Theorem
Link Information Theory and Coding Lecture 11 - Coding Strategies and Introduction to Huffman Coding
Link Information Theory and Coding Lecture 12 - Huffman Coding and Proof of Its Optamality
Link Information Theory and Coding Lecture 13 - Competitive Optamality of The Shannon Code
Link Information Theory and Coding Lecture 14 - Non-Binary Huffman Code and Other Codes
Link Information Theory and Coding Lecture 15 - Adaptive Huffman Coding - Part-I
Link Information Theory and Coding Lecture 16 - Adaptive Huffman Coding - Part-II
Link Information Theory and Coding Lecture 17 - Shannon-Fano-Elias Coding and Introduction to Arithmetic Coding
Link Information Theory and Coding Lecture 18 - Arithmetic Coding - Part-I
Link Information Theory and Coding Lecture 19 - Arithmetic Coding - Part-II
Link Information Theory and Coding Lecture 20 - Introdution to Information Channels
Link Information Theory and Coding Lecture 21 - Equivocation and Mutual Information
Link Information Theory and Coding Lecture 22 - Properties of Different Information Channels
Link Information Theory and Coding Lecture 23 - Reduction of Information Channels
Link Information Theory and Coding Lecture 24 - Properties of Mutual Information and Introdution to Channel Capacity
Link Information Theory and Coding Lecture 25 - Calculation of Channel Capacity for Different Information Channels
Link Information Theory and Coding Lecture 26 - Shannon's Second Theorem
Link Information Theory and Coding Lecture 27 - Discussion On Error Free Communication Over Noisy Channel
Link Information Theory and Coding Lecture 28 - Error Free Communication Over A Binary Symmetric Channel and Introdution to Continous Sources and Channels
Link Information Theory and Coding Lecture 29 - Differential Entropy and Evaluation of Mutual Information for Continuous Sources and Channels
Link Information Theory and Coding Lecture 30 - Channel Capacity of A BandLimited Continuous Channel
Link Information Theory and Coding Lecture 31 - Introduction to Rate-Distortion Theory
Link Information Theory and Coding Lecture 32 - Definition and Properties of Rate-Distortion Functions
Link Information Theory and Coding Lecture 33 - Calculation of Rate-Distortion Functions
Link Information Theory and Coding Lecture 34 - Computational Approach for Calculation of Rate-Distortion Functions
Link Information Theory and Coding Lecture 35 - Introdution to Quantization
Link Information Theory and Coding Lecture 36 - Lloyd-Max Quantizer
Link Information Theory and Coding Lecture 37 - Companded Quantization
Link Information Theory and Coding Lecture 38 - Variable Length Coding and Problem Solving in Quantizer Design
Link Information Theory and Coding Lecture 39 - Vector Quantization
Link Information Theory and Coding Lecture 40 - Transform Coding - Part-I
Link Information Theory and Coding Lecture 41 - Transform Coding - Part-II
Link Transmission Lines and EM Waves Lecture 1 - Introduction to EM waves and various techniques of communication
Link Transmission Lines and EM Waves Lecture 2 - Equations of Voltage and Current on TX line
Link Transmission Lines and EM Waves Lecture 3 - Propagation constant, Characteristic impedance and reflection coefficient
Link Transmission Lines and EM Waves Lecture 4 - Impedance Transformation
Link Transmission Lines and EM Waves Lecture 5 - Loss-less and Low loss Transmission line and VSWR
Link Transmission Lines and EM Waves Lecture 6 - Power transfer on TX line
Link Transmission Lines and EM Waves Lecture 7 - Smith Chart
Link Transmission Lines and EM Waves Lecture 8 - Admittance Smith Chart
Link Transmission Lines and EM Waves Lecture 9 - Experimental setup for transmission line measurements
Link Transmission Lines and EM Waves Lecture 10 - Applications of transmission lines
Link Transmission Lines and EM Waves Lecture 11 - Applications of transmission lines-II
Link Transmission Lines and EM Waves Lecture 12 - Impedance Matching
Link Transmission Lines and EM Waves Lecture 13 - Lossy Transmission Line
Link Transmission Lines and EM Waves Lecture 14 - Problems on Transmission line
Link Transmission Lines and EM Waves Lecture 15 - Types of transmission line
Link Transmission Lines and EM Waves Lecture 16 - Basics of Vectors
Link Transmission Lines and EM Waves Lecture 17 - Vector calculus
Link Transmission Lines and EM Waves Lecture 18 - Basic laws of Electromagnetics
Link Transmission Lines and EM Waves Lecture 19 - Maxwell\\\'s Equations
Link Transmission Lines and EM Waves Lecture 20 - Boundary conditions at Media Interface
Link Transmission Lines and EM Waves Lecture 21 - Uniform plane wave
Link Transmission Lines and EM Waves Lecture 22 - Propagation of wave
Link Transmission Lines and EM Waves Lecture 23 - Wave polarization
Link Transmission Lines and EM Waves Lecture 24 - Pioncere\\\'s Sphere
Link Transmission Lines and EM Waves Lecture 25 - Wave propagation in conducting medium
Link Transmission Lines and EM Waves Lecture 26 - Wave propagation and phase velocity
Link Transmission Lines and EM Waves Lecture 27 - Power flow and Poynting vector
Link Transmission Lines and EM Waves Lecture 28 - Surface current and power loss in a conductor
Link Transmission Lines and EM Waves Lecture 29 - Plane wave in arbitary direction
Link Transmission Lines and EM Waves Lecture 30 - Plane wave at dielectric interface
Link Transmission Lines and EM Waves Lecture 31 - Reflection and refraction at media interface
Link Transmission Lines and EM Waves Lecture 32 - Total internal reflection
Link Transmission Lines and EM Waves Lecture 33 - Polarization at media interface
Link Transmission Lines and EM Waves Lecture 34 - Reflection from a conducting boundary
Link Transmission Lines and EM Waves Lecture 35 - Parallel plane waveguide
Link Transmission Lines and EM Waves Lecture 36 - Wave propagation in parallel plane waveguide
Link Transmission Lines and EM Waves Lecture 37 - Analysis of waveguide general approach
Link Transmission Lines and EM Waves Lecture 38 - Rectangular waveguide
Link Transmission Lines and EM Waves Lecture 39 - Modal propagation in rectangular waveguide
Link Transmission Lines and EM Waves Lecture 40 - Surface currents on the waveguide walls
Link Transmission Lines and EM Waves Lecture 41 - Field visualization and Attenuation in waveguide
Link Transmission Lines and EM Waves Lecture 42 - Attenuation in waveguide continued
Link Transmission Lines and EM Waves Lecture 43 - Radiation (Antenna)
Link Transmission Lines and EM Waves Lecture 44 - Solution for potential function
Link Transmission Lines and EM Waves Lecture 45 - Radiation form the Hertz dipole
Link Transmission Lines and EM Waves Lecture 46 - Power radiated by hertz dipole
Link Transmission Lines and EM Waves Lecture 47 - Thin linear antenna
Link Transmission Lines and EM Waves Lecture 48 - Radiation Parameters of antenna
Link Transmission Lines and EM Waves Lecture 49 - Receiving antenna
Link Transmission Lines and EM Waves Lecture 50 - Monopole and Dipole antenna
Link Transmission Lines and EM Waves Lecture 51 - Fourier transform relation between current and radiation pattern
Link Transmission Lines and EM Waves Lecture 52 - Antenna arrays
Link Transmission Lines and EM Waves Lecture 53 - Uniform Linear array
Link Transmission Lines and EM Waves Lecture 54 - Uniform Linear array continued
Link Transmission Lines and EM Waves Lecture 55 - Synthesis of array
Link Transmission Lines and EM Waves Lecture 56 - Binomial array and general array synthesis
Link Transmission Lines and EM Waves Lecture 57 - Problems on uniform plane wave
Link Transmission Lines and EM Waves Lecture 58 - Problems on uniform plane wave in a meduim
Link Transmission Lines and EM Waves Lecture 59 - Problems on waveguides
Link Transmission Lines and EM Waves Lecture 60 - Problems on Antennas and radiation
Link CMOS Analog VLSI Design Lecture 1 - Introduction to CMOS Analog VLSI Design
Link CMOS Analog VLSI Design Lecture 2 - Introduction to CMOS Analog VLSI Design (Continued...)
Link CMOS Analog VLSI Design Lecture 3 - MOS Fundamentals
Link CMOS Analog VLSI Design Lecture 4 - MOS Fundamentals (Continued...)
Link CMOS Analog VLSI Design Lecture 5 - Basic of MOS Amplifier (Part-1)
Link CMOS Analog VLSI Design Lecture 6 - Basic of MOS Amplifier (Part-2)
Link CMOS Analog VLSI Design Lecture 7 - Basic of MOS Amplifier (Part-3)
Link CMOS Analog VLSI Design Lecture 8 - Cascode Amplifier
Link CMOS Analog VLSI Design Lecture 9 - Types of MOSFET Amplifier
Link CMOS Analog VLSI Design Lecture 10 - Types of MOSFET Amplifier
Link CMOS Analog VLSI Design Lecture 11 - Differential Amplifier
Link CMOS Analog VLSI Design Lecture 12 - Differential Amplifier
Link CMOS Analog VLSI Design Lecture 13 - Current Sources
Link CMOS Analog VLSI Design Lecture 14 - Current Sources
Link CMOS Analog VLSI Design Lecture 15 - Current Sources
Link CMOS Analog VLSI Design Lecture 16 - Frequency Response of Amplifier
Link CMOS Analog VLSI Design Lecture 17 - Basic of CMOS OPAMP
Link CMOS Analog VLSI Design Lecture 18 - OPAMP Design Issues
Link CMOS Analog VLSI Design Lecture 19 - OPAMP Design
Link CMOS Analog VLSI Design Lecture 20 - OPMAP Design
Link CMOS Analog VLSI Design Lecture 21 - Operational Transconductance Amplifier
Link CMOS Analog VLSI Design Lecture 22 - OTA Operation Transconductance Amplifier and Application
Link CMOS Analog VLSI Design Lecture 23 - Fully Differential Amplifier and Noise
Link CMOS Analog VLSI Design Lecture 24 - Noise
Link CMOS Analog VLSI Design Lecture 25 - Noise (Continued...)
Link CMOS Analog VLSI Design Lecture 26 - Layout of Analog Circuit
Link CMOS Analog VLSI Design Lecture 27 - Oscillators
Link CMOS Analog VLSI Design Lecture 28 - Oscillators (Continued...)
Link CMOS Analog VLSI Design Lecture 29 - Oscillators (Continued...)
Link Analog Circuits Lecture 1 - Introduction to Analog Circuits - An Overview
Link Analog Circuits Lecture 2 - Two Parts of Review of Analog Filter Approximation
Link Analog Circuits Lecture 3 - BJT Small Signal Model
Link Analog Circuits Lecture 4 - BJT Small Signal Model [Continuation from Lecture 3]
Link Analog Circuits Lecture 5 - MOS Circuit Model
Link Analog Circuits Lecture 6 - Biasing of Circuits
Link Analog Circuits Lecture 7 - Amplifiers
Link Analog Circuits Lecture 8 - MOS Amplifiers
Link Analog Circuits Lecture 9 - Cascode Amplifier
Link Analog Circuits Lecture 10 - Frequency Response of Amplifier
Link Analog Circuits Lecture 11 - Frequency Response of Amplifier
Link Analog Circuits Lecture 12 - Frequency Response of Amplifier
Link Analog Circuits Lecture 13 - Frequency Response of Amplifier
Link Analog Circuits Lecture 14 - Differential Amplifier
Link Analog Circuits Lecture 15 - Differential Amplifier
Link Analog Circuits Lecture 16 - Differential Amplifier
Link Analog Circuits Lecture 17 - Feedback Theory
Link Analog Circuits Lecture 18 - Feedback Theory
Link Analog Circuits Lecture 19 - OPAMP Circuits
Link Analog Circuits Lecture 20 - OPAMP Circuits
Link Analog Circuits Lecture 21 - Active RC Filters
Link Analog Circuits Lecture 22 - Active Filters
Link Analog Circuits Lecture 23 - Oscillators
Link Analog Circuits Lecture 24 - Oscillators
Link Analog Circuits Lecture 25 - DAC/ADC
Link NOC:Microwave Integrated Circuits Lecture 1 - Introduction
Link NOC:Microwave Integrated Circuits Lecture 2 - Reflection Coefficient, VSWR, Smith Chart
Link NOC:Microwave Integrated Circuits Lecture 3 - Reflection Coefficient, VSWR
Link NOC:Microwave Integrated Circuits Lecture 4 - Smith Chart
Link NOC:Microwave Integrated Circuits Lecture 5 - Application of the Smith Chart
Link NOC:Microwave Integrated Circuits Lecture 6 - Microwave Components
Link NOC:Microwave Integrated Circuits Lecture 7 - Broadband Impedance Matching
Link NOC:Microwave Integrated Circuits Lecture 8 - Multi-section transformer
Link NOC:Microwave Integrated Circuits Lecture 9 - Maximally flat (binomial) transformer, Chebyshev transformer
Link NOC:Microwave Integrated Circuits Lecture 10 - Non-uniform transmission line (Tapers)
Link NOC:Microwave Integrated Circuits Lecture 11 - Scattering Parameters
Link NOC:Microwave Integrated Circuits Lecture 12 - Properties of Scattering Parameters
Link NOC:Microwave Integrated Circuits Lecture 13 - Properties of Scattering Parameters (Continued...)
Link NOC:Microwave Integrated Circuits Lecture 14 - Signal flow graph, ABCD parameters
Link NOC:Microwave Integrated Circuits Lecture 15 - 1 and 2 Port passive Components
Link NOC:Microwave Integrated Circuits Lecture 16 - 3 Port Microwave Components
Link NOC:Microwave Integrated Circuits Lecture 17 - Couplers
Link NOC:Microwave Integrated Circuits Lecture 18 - Coupled Line Couplers
Link NOC:Microwave Integrated Circuits Lecture 19 - Resonators and narrow band filters
Link NOC:Microwave Integrated Circuits Lecture 20 - Narrow-band filters
Link NOC:Microwave Integrated Circuits Lecture 21 - Filter design: Image parameter method, Insertion loss method
Link NOC:Microwave Integrated Circuits Lecture 22 - Filter synthesis, Kuroda’s Identity
Link NOC:Microwave Integrated Circuits Lecture 23 - Impedance Matching Circuits for Amplifiers
Link NOC:Microwave Integrated Circuits Lecture 24 - Microstrip Matching (Continued...), Masons Rule, Power Gain Equations
Link NOC:Microwave Integrated Circuits Lecture 25 - Amplifier Gain Stability
Link NOC:Microwave Integrated Circuits Lecture 26 - Amplifier Gain Stability (Continued...)
Link NOC:Microwave Integrated Circuits Lecture 27 - Gain Circles
Link NOC:Microwave Integrated Circuits Lecture 28 - Gain Circles (Continued...)
Link NOC:Microwave Integrated Circuits Lecture 29 - Noise
Link NOC:Microwave Integrated Circuits Lecture 30 - Noise Figure Circles (Continued...)
Link NOC:Microwave Integrated Circuits Lecture 31 - DC Bias
Link NOC:Microwave Integrated Circuits Lecture 32 - Amplifier Classes, Frequency Compensation
Link NOC:Microwave Integrated Circuits Lecture 33 - Linearity
Link NOC:Microwave Integrated Circuits Lecture 34 - Oscillator Design
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 1 - Introduction
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 2 - Origin of wavelets
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 3 - Haar wavelet
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 4 - Dyadic wavelet
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 5 - Dilates and translates of Haar wavelet
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 6 - L2 norm of a function
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 7 - Piecewise constant representation of a function
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 8 - Ladder of subspaces
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 9 - Scaling function of Haar wavelet
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 10 - Demonstration: Piecewise constant approximation of functions
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 11 - Vector representation of sequences
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 12 - Properties of norm
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 13 - Parsevals theorem
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 14 - Equivalence of functions and sequences
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 15 - Angle between Functions and their Decomposition
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 16 - Additional Information on Direct-Sum
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 17 - Introduction to filter banks
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 18 - Haar Analysis filter bank in Z-domain
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 19 - Haar Synthesis filter bank in Z-domain
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 20 - Moving from Z-domain to frequency domain
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 21 - Frequency Response of Haar Analysis Low pass Filter bank
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 22 - Frequency Response of Haar Analysis High pass Filter bank
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 23 - Ideal Two-band Filter bank
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 24 - Disqualification of Ideal Filter bank
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 25 - Realizable Two-band Filter bank
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 26 - Demonstration: DWT of images
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 27 - Relating Fourier transform of scaling function to filter bank
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 28 - Fourier transform of scaling function
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 29 - Construction of scaling and wavelet functions from filter bank
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 30 - Demonstration: Constructing scaling and wavelet functions.
Link NOC:Foundations of Wavelets and Multirate Digital Signal Processing Lecture 31 - Conclusive Remarks and Future Prospects
Link RF Integrated Circuits Lecture 1 - RF system basic architectures
Link RF Integrated Circuits Lecture 2 - Transmission media reflection
Link RF Integrated Circuits Lecture 3 - Maximum power transfer
Link RF Integrated Circuits Lecture 4 - Parallel RLC tank
Link RF Integrated Circuits Lecture 5 - Matching
Link RF Integrated Circuits Lecture 6 - Other matching networks
Link RF Integrated Circuits Lecture 7 - Resistors capacitors
Link RF Integrated Circuits Lecture 8 - Inductors
Link RF Integrated Circuits Lecture 9 - Inductors and wires
Link RF Integrated Circuits Lecture 10 - Wires
Link RF Integrated Circuits Lecture 11 - Transmission lines
Link RF Integrated Circuits Lecture 12 - Device review
Link RF Integrated Circuits Lecture 13 - MOS capacitances
Link RF Integrated Circuits Lecture 14 - Bandwidth estimation constants
Link RF Integrated Circuits Lecture 15 - Bandwidth estimation constants (Continued.)
Link RF Integrated Circuits Lecture 16 - Bandwidth estimation using short circuit
Link RF Integrated Circuits Lecture 17 - Bandwidth groupdelay and peaking
Link RF Integrated Circuits Lecture 18 - Shunt series amplifier
Link RF Integrated Circuits Lecture 19 - Shunt series amplifier (Continued.)
Link RF Integrated Circuits Lecture 20 - Various noise sources
Link RF Integrated Circuits Lecture 21 - Noise in a mosfet
Link RF Integrated Circuits Lecture 22 - Motivation first cut design
Link RF Integrated Circuits Lecture 23 - Motivation first cut design (Continued.)
Link RF Integrated Circuits Lecture 24 - Noise other possible topologies
Link RF Integrated Circuits Lecture 25 - Multiplier Fundamentals
Link RF Integrated Circuits Lecture 26 - Mixer non idealties
Link RF Integrated Circuits Lecture 27 - Mixer non idealties (Continued.)
Link RF Integrated Circuits Lecture 28 - A tank based oscillators
Link RF Integrated Circuits Lecture 29 - Phase noise in oscillators
Link RF Integrated Circuits Lecture 30 - Other oscillators topologies
Link RF Integrated Circuits Lecture 31 - Phase locked loop basics
Link RF Integrated Circuits Lecture 32 - Charge pump
Link RF Integrated Circuits Lecture 33 - Pll dynamics integer
Link RF Integrated Circuits Lecture 34 - Spurious frequencies fractional and synthesis
Link RF Integrated Circuits Lecture 35 - Fractional spurs
Link RF Integrated Circuits Lecture 36 - Delta and sigma modulation
Link RF Integrated Circuits Lecture 37 - Class abc power amplifiers
Link RF Integrated Circuits Lecture 38 - Class bcd power amplifiers
Link RF Integrated Circuits Lecture 39 - Class cd pwm amplifiers
Link RF Integrated Circuits Lecture 40 - Course summary and conclusion
Link Communication Engineering Lecture 1 - Introduction to Communication Engineering
Link Communication Engineering Lecture 2 - Communication channel
Link Communication Engineering Lecture 3 - Brief Review of Signal and Systems
Link Communication Engineering Lecture 4 - The Hilbert Transform
Link Communication Engineering Lecture 5 - Analytic Representation of band pass Signals
Link Communication Engineering Lecture 6 - Fundamentals of Analog Signal Transmission
Link Communication Engineering Lecture 7 - Analog Modulation of Carriers
Link Communication Engineering Lecture 8 - Amplitude Modulation
Link Communication Engineering Lecture 9 - Amplitude Modulation
Link Communication Engineering Lecture 10 - Single Sideband Modulation
Link Communication Engineering Lecture 11 - Suppressed Sideband Modulation
Link Communication Engineering Lecture 12 - VSB Modulation - Superhet Receiver
Link Communication Engineering Lecture 13 - Superhet Receiver etc
Link Communication Engineering Lecture 14 - Practical Mixers-Effects of Tonal
Link Communication Engineering Lecture 15 - Angle Modulation
Link Communication Engineering Lecture 16 - Angle Modulation
Link Communication Engineering Lecture 17 - Generation of FM Signals
Link Communication Engineering Lecture 18 - FM Generation and Detection
Link Communication Engineering Lecture 19 - Demodulation of Angle Modulated Signals
Link Communication Engineering Lecture 20 - Demodulation of Angle Modulated Signals
Link Communication Engineering Lecture 21 - Demodulation of Angle Modulated Signals
Link Communication Engineering Lecture 22 - Feedback Demodulators - phase locked loop
Link Communication Engineering Lecture 23 - The Phase Locked Loop
Link Communication Engineering Lecture 24 - Frequency Compressive Feedback Demodulator
Link Communication Engineering Lecture 25 - FM Receivers
Link Communication Engineering Lecture 26 - TV Transmission
Link Communication Engineering Lecture 27 - Review of Probability Theory and Random Process
Link Communication Engineering Lecture 28 - Review of Probability Theory and Random Variables
Link Communication Engineering Lecture 29 - Random Processes
Link Communication Engineering Lecture 30 - Random Processes
Link Communication Engineering Lecture 31 - Random Processes
Link Communication Engineering Lecture 32 - Gaussian Random Processes
Link Communication Engineering Lecture 33 - Behaviour of Communication System
Link Communication Engineering Lecture 34 - Performance of AM Systems in Noise
Link Communication Engineering Lecture 35 - Noise in AM and Angle Modulation Systems
Link Communication Engineering Lecture 36 - Noise in Phase and Frequency Modulation systems
Link Communication Engineering Lecture 37 - Noise in Angle Modulation
Link Communication Engineering Lecture 38 - Pre emphasis - De emphasis
Link Communication Engineering Lecture 39 - Pulse Modulation Schemes - PWM and PPM
Link Communication Engineering Lecture 40 - Data Modulation
Link Communication Engineering Lecture 41 - Pulse Code Modulation
Link Digital Signal Processing Lecture 1 - Digital Signal Processing Introduction
Link Digital Signal Processing Lecture 2 - Digital Signal Processing Introduction (Continued.)
Link Digital Signal Processing Lecture 3 - Digital Systems
Link Digital Signal Processing Lecture 4 - Characterization Description, Testing of Digital Systems
Link Digital Signal Processing Lecture 5 - LTI Systems Step & Impulse Responses, Convolution
Link Digital Signal Processing Lecture 6 - Inverse Systems, Stability, FIR & IIR
Link Digital Signal Processing Lecture 7 - FIR & IIR; Recursive & Non Recursive
Link Digital Signal Processing Lecture 8 - Discrete Time Fourier Transform
Link Digital Signal Processing Lecture 9 - Discrete Fourier Transform (DFT)
Link Digital Signal Processing Lecture 10 - DFT (Continued.)
Link Digital Signal Processing Lecture 11 - DFT (Continued.) Introduction to Z Transform
Link Digital Signal Processing Lecture 12 - Z Transform
Link Digital Signal Processing Lecture 13 - Z Transform (Continued.)
Link Digital Signal Processing Lecture 14 - Discrete Time Systems in the Frequency Domain
Link Digital Signal Processing Lecture 15 - Simple Digital Filters
Link Digital Signal Processing Lecture 16 - All Pass Filters, Com.Filters
Link Digital Signal Processing Lecture 17 - Linear Phase filters, Complementary Transfer Fn
Link Digital Signal Processing Lecture 18 - Compensatory Transfer Functions, (Continued.)
Link Digital Signal Processing Lecture 19 - Test for Stability using All Pass Functions
Link Digital Signal Processing Lecture 20 - Digital Processing of Continuous Time Signals
Link Digital Signal Processing Lecture 21 - Problem Solving Session: FT, DFT, & Z Transforms
Link Digital Signal Processing Lecture 22 - Problem Solving Session: FT, DFT, & Z Transforms
Link Digital Signal Processing Lecture 23 - Analog Filter Design
Link Digital Signal Processing Lecture 24 - Analog Chebyshev LPF Design
Link Digital Signal Processing Lecture 25 - Analog Filter Design (Continued.): Transformations
Link Digital Signal Processing Lecture 26 - Analog frequency Transformation
Link Digital Signal Processing Lecture 27 - Problem Solving Session on Discrete Time System
Link Digital Signal Processing Lecture 28 - Digital Filter Structures
Link Digital Signal Processing Lecture 29 - IIR Realizations
Link Digital Signal Processing Lecture 30 - All Pass Realizations
Link Digital Signal Processing Lecture 31 - Lattice Synthesis (Continued.)
Link Digital Signal Processing Lecture 32 - FIR Lattice Synthesis
Link Digital Signal Processing Lecture 33 - FIR Lattice (Continued.) and Digital Filter Design
Link Digital Signal Processing Lecture 34 - IIR Filter Design
Link Digital Signal Processing Lecture 35 - IIR Design by Bilinear Transformation
Link Digital Signal Processing Lecture 36 - IIR Design Examples
Link Digital Signal Processing Lecture 37 - Digital to Digital Frequency Transformation
Link Digital Signal Processing Lecture 38 - FIR Design
Link Digital Signal Processing Lecture 39 - FIR Digital Filter Design by Windowing
Link Digital Signal Processing Lecture 40 - FIR Design by Windowing & Frequency Sampling
Link Digital Signal Processing Lecture 41 - Solving Problems on DSP Structures
Link Digital Signal Processing Lecture 42 - FIR Design by Frequency Sampling
Link Digital Signal Processing Lecture 43 - FIR Design by Frequency Sampling (Continued.)
Link Wireless Communication Lecture 1 - Motivation and Introduction
Link Wireless Communication Lecture 2 - Types of Wireless communication
Link Wireless Communication Lecture 3 - The modern wireless Communication Systems
Link Wireless Communication Lecture 4 - The cellular concept - System Design issues
Link Wireless Communication Lecture 5 - Cell capacity and reuse
Link Wireless Communication Lecture 6 - Interference and System capacity
Link Wireless Communication Lecture 7 - Improving coverage and system capacity
Link Wireless Communication Lecture 8 - Mobile Radio Propagation
Link Wireless Communication Lecture 9 - Mobile Radio Propagation (Continued.)
Link Wireless Communication Lecture 10 - Mobile Radio Propagation (Continued.)
Link Wireless Communication Lecture 11 - Mobile Radio Propagation (Continued.)
Link Wireless Communication Lecture 12 - Mobile Radio Propagation (Continued.)
Link Wireless Communication Lecture 13 - Mobile Radio Propagation (Continued.)
Link Wireless Communication Lecture 14 - Mobile Radio Propagation II
Link Wireless Communication Lecture 15 - Mobile Radio Propagation II (Continued.)
Link Wireless Communication Lecture 16 - Mobile Radio Propagation II (Continued.)
Link Wireless Communication Lecture 17 - Mobile Radio Propagation II (Continued.)
Link Wireless Communication Lecture 18 - Mobile Radio Propagation II (Continued.)
Link Wireless Communication Lecture 19 - Mobile Radio Propagation II (Continued.)
Link Wireless Communication Lecture 20 - Mobile Radio Propagation II (Continued.)
Link Wireless Communication Lecture 21 - Modulation Techniques for Mobile Communication
Link Wireless Communication Lecture 22 - Modulation Techniques (Continued.)
Link Wireless Communication Lecture 23 - Modulation Techniques (Continued.)
Link Wireless Communication Lecture 24 - Modulation Techniques (Continued.)
Link Wireless Communication Lecture 25 - Modulation Techniques (Continued.)
Link Wireless Communication Lecture 26 - Modulation Techniques (Continued.)
Link Wireless Communication Lecture 27 - Modulation Techniques (Continued.)
Link Wireless Communication Lecture 28 - Equalization and Diversity Techniques
Link Wireless Communication Lecture 29 - Equalization and Diversity Techniques (Continued.)
Link Wireless Communication Lecture 30 - Equalization and Diversity Techniques (Continued.)
Link Wireless Communication Lecture 31 - Equalization and Diversity Techniques (Continued.)
Link Wireless Communication Lecture 32 - Coding Techniques for Mobile Communications
Link Wireless Communication Lecture 33 - Coding Techniques for Mobile Communications (Continued.)
Link Wireless Communication Lecture 34 - Coding Techniques for Mobile Communications (Continued.)
Link Wireless Communication Lecture 35 - Coding Techniques for Mobile Communications (Continued.)
Link Wireless Communication Lecture 36 - Wireless Networks
Link Wireless Communication Lecture 37 - GSM and CDMA
Link Wireless Communication Lecture 38 - GSM and CDMA (Continued.)
Link Basic Electronics Lecture 1 - Semiconductor materials
Link Basic Electronics Lecture 2 - PN Junction Diodes
Link Basic Electronics Lecture 3 - Diode Equivalent Circuits
Link Basic Electronics Lecture 4 - Diode Rectifier Circuits
Link Basic Electronics Lecture 5 - Zener Diode and Applications
Link Basic Electronics Lecture 6 - Clipping and Clamping Circuits
Link Basic Electronics Lecture 7 - Transistor Operation - Part-1
Link Basic Electronics Lecture 8 - Transistor Operation - Part-2
Link Basic Electronics Lecture 9 - Biasing the BJT - Part-1
Link Basic Electronics Lecture 10 - Biasing the BJT - Part-2
Link Basic Electronics Lecture 11 - BJT Small Signal Analysis
Link Basic Electronics Lecture 12 - BJT Amplifier - Part-1
Link Basic Electronics Lecture 13 - BJT Amplifier - Part-2
Link Basic Electronics Lecture 14 - Frequency Response of BJT Analysis - Part-1
Link Basic Electronics Lecture 15 - Bipolar Junction Transistors
Link Basic Electronics Lecture 16 - Transistor as a Switch
Link Basic Electronics Lecture 17 - MOSFET - Part-1
Link Basic Electronics Lecture 18 - MOSFET - Part-2
Link Basic Electronics Lecture 19 - MOSFET under dc operation
Link Basic Electronics Lecture 20 - Mosfet as an Amplifier
Link Basic Electronics Lecture 21 - Small signal model of MOSFET - Part-1
Link Basic Electronics Lecture 22 - Small signal model of MOSFET - Part-2
Link Basic Electronics Lecture 23 - High Frequency model of mosfet
Link Basic Electronics Lecture 24 - Junction Field Effect Transistor
Link Basic Electronics Lecture 25 - Operational Amplifier Introduction
Link Basic Electronics Lecture 26 - Ideal Op-Amp
Link Basic Electronics Lecture 27 - Op-Amp applications Part-1
Link Basic Electronics Lecture 28 - Op-Amp Applications Part-2
Link Basic Electronics Lecture 29 - Op-Amp Applications Part-3
Link Basic Electronics Lecture 30 - The practical Op-Amp
Link Basic Electronics Lecture 31 - Positive feedback and oscillation
Link Basic Electronics Lecture 32 - Comparator
Link Basic Electronics Lecture 33 - Large Signal Amplifiers
Link Basic Electronics Lecture 34 - Transformer Couple Power Amplifier
Link Basic Electronics Lecture 35 - Class AB Operations of Power Amplifier
Link Basic Electronics Lecture 36 - Power BJTs
Link Basic Electronics Lecture 37 - Regulated Power Supply
Link Basic Electronics Lecture 38 - Four Layered Diode
Link Basic Electronics Lecture 39 - Silicon Control Rectifier
Link Basic Electronics Lecture 40 - SCR Applications
Link NOC:VLSI Design Verification and Test Lecture 1 - Introduction - Part 1
Link NOC:VLSI Design Verification and Test Lecture 2 - Introduction - Part 2
Link NOC:VLSI Design Verification and Test Lecture 3 - Overview of VLSI Design Flow
Link NOC:VLSI Design Verification and Test Lecture 4 - High Level Synthesis Overview - Part 1
Link NOC:VLSI Design Verification and Test Lecture 5 - High Level Synthesis Overview - Part 2
Link NOC:VLSI Design Verification and Test Lecture 6 - Scheduling in HLS - Part 1
Link NOC:VLSI Design Verification and Test Lecture 7 - Scheduling in HLS - Part 2
Link NOC:VLSI Design Verification and Test Lecture 8 - Scheduling in HLS - Part 3
Link NOC:VLSI Design Verification and Test Lecture 9 - Scheduling in HLS - Part 4
Link NOC:VLSI Design Verification and Test Lecture 10 - Scheduling in HLS - Part 5
Link NOC:VLSI Design Verification and Test Lecture 11 - Scheduling in HLS - Part 6
Link NOC:VLSI Design Verification and Test Lecture 12 - Scheduling in HLS - Part 7
Link NOC:VLSI Design Verification and Test Lecture 13 - Resource Sharing and Binding in HLS - Part 1
Link NOC:VLSI Design Verification and Test Lecture 14 - Resource Sharing and Binding in HLS - Part 2
Link NOC:VLSI Design Verification and Test Lecture 15 - Resource Sharing and Binding in HLS - Part 3
Link NOC:VLSI Design Verification and Test Lecture 16 - Resource Sharing and Binding in HLS - Part 4
Link NOC:VLSI Design Verification and Test Lecture 17 - Resource Sharing and Binding in HLS - Part 5
Link NOC:VLSI Design Verification and Test Lecture 18 - Resource Sharing and Binding in HLS - Part 6
Link NOC:VLSI Design Verification and Test Lecture 19 - Resource Sharing and Binding in HLS - Part 7
Link NOC:VLSI Design Verification and Test Lecture 20 - Logic Synthesis - Part 1
Link NOC:VLSI Design Verification and Test Lecture 21 - Logic Synthesis - Part 2
Link NOC:VLSI Design Verification and Test Lecture 22 - Logic Synthesis - Part 3
Link NOC:VLSI Design Verification and Test Lecture 23 - Physical Design - Part 1
Link NOC:VLSI Design Verification and Test Lecture 24 - Physical Design - Part 2
Link NOC:VLSI Design Verification and Test Lecture 25 - Physical Design - Part 3
Link NOC:VLSI Design Verification and Test Lecture 26 - Introduction to formal methods for design verification
Link NOC:VLSI Design Verification and Test Lecture 27 - Temporal Logic: Introduction and Basic Operations on Temporal Logic
Link NOC:VLSI Design Verification and Test Lecture 28 - Syntax and Semantics of CLT
Link NOC:VLSI Design Verification and Test Lecture 29 - Syntax and semantics of CTL (Continued...)
Link NOC:VLSI Design Verification and Test Lecture 30 - Equivalences between CTL Formulas
Link NOC:VLSI Design Verification and Test Lecture 31 - Introduction to Model Checking
Link NOC:VLSI Design Verification and Test Lecture 32 - Model checking Algorithms
Link NOC:VLSI Design Verification and Test Lecture 33 - Model checking Algorithms (Continued...)
Link NOC:VLSI Design Verification and Test Lecture 34 - Model Checking with Fairness
Link NOC:VLSI Design Verification and Test Lecture 35 - Binary Decision Diagram: Introduction and Construction
Link NOC:VLSI Design Verification and Test Lecture 36 - Ordered Binary Decision Diagram (OBDD)
Link NOC:VLSI Design Verification and Test Lecture 37 - Operation On OBDD
Link NOC:VLSI Design Verification and Test Lecture 38 - OBDD for State Transition Systems E
Link NOC:VLSI Design Verification and Test Lecture 39 - Symbolic Model Checking
Link NOC:VLSI Design Verification and Test Lecture 40 - Introduction to Digital VLSI Testing
Link NOC:VLSI Design Verification and Test Lecture 41 - Functional and Structural Testing
Link NOC:VLSI Design Verification and Test Lecture 42 - Fault Equivalence
Link NOC:VLSI Design Verification and Test Lecture 43 - Fault Simulation - I
Link NOC:VLSI Design Verification and Test Lecture 44 - Fault Simulation - II
Link NOC:VLSI Design Verification and Test Lecture 45 - Fault Simulation - III
Link NOC:VLSI Design Verification and Test Lecture 46 - Testability Measures (SCOAP)
Link NOC:VLSI Design Verification and Test Lecture 47 - Introduction to Automatic Test Pattern Generation (ATPG) and ATPG Algebras
Link NOC:VLSI Design Verification and Test Lecture 48 - D-Algorithm - I
Link NOC:VLSI Design Verification and Test Lecture 49 - D-Algorithm - II
Link NOC:VLSI Design Verification and Test Lecture 50 - ATPG for Synchronous Sequential Circuits
Link NOC:VLSI Design Verification and Test Lecture 51 - Scan Chain based Sequential Circuit Testing - I
Link NOC:VLSI Design Verification and Test Lecture 52 - Scan Chain based Sequential Circuit Testing - II
Link NOC:VLSI Design Verification and Test Lecture 53 - BIST - I
Link NOC:VLSI Design Verification and Test Lecture 54 - BIST - II
Link Signals and Systems Lecture 1
Link Signals and Systems Lecture 2
Link Signals and Systems Lecture 3
Link Signals and Systems Lecture 4
Link Signals and Systems Lecture 5
Link Signals and Systems Lecture 6
Link Signals and Systems Lecture 7
Link Signals and Systems Lecture 8
Link Signals and Systems Lecture 9
Link Signals and Systems Lecture 10
Link Signals and Systems Lecture 11
Link Signals and Systems Lecture 12
Link Signals and Systems Lecture 13
Link Signals and Systems Lecture 14
Link Signals and Systems Lecture 15
Link Signals and Systems Lecture 16
Link Signals and Systems Lecture 17
Link Signals and Systems Lecture 18
Link Signals and Systems Lecture 19
Link Signals and Systems Lecture 20
Link Signals and Systems Lecture 21
Link Signals and Systems Lecture 22
Link Signals and Systems Lecture 23
Link Signals and Systems Lecture 24
Link Signals and Systems Lecture 25
Link Signals and Systems Lecture 26
Link Signals and Systems Lecture 27
Link Signals and Systems Lecture 28
Link Signals and Systems Lecture 29
Link Signals and Systems Lecture 30
Link Signals and Systems Lecture 31
Link Signals and Systems Lecture 32
Link Signals and Systems Lecture 33
Link Signals and Systems Lecture 34
Link Signals and Systems Lecture 35
Link Signals and Systems Lecture 36
Link Signals and Systems Lecture 37
Link Signals and Systems Lecture 38
Link Signals and Systems Lecture 39
Link Signals and Systems Lecture 40
Link Signals and Systems Lecture 41
Link Signals and Systems Lecture 42
Link Signals and Systems Lecture 43
Link Signals and Systems Lecture 44
Link Signals and Systems Lecture 45
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 1 - Introduction to 3G/4G Standards
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 2 - Wireless Channel and Fading
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 3 - Rayleigh Fading and BER of Wired Communication
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 4 - BER for Wireless Communication
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 5 - Introduction to Diversity
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 6 - Multi-antenna Maximal Ratio Combiner
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 7 - BER with Diversity
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 8 - Spatial Diversity and Diversity Order
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 9 - Wireless Channel and Delay Spread
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 10 - Coherence Bandwidth of the Wireless Channel
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 11 - ISI and Doppler in Wireless Communications
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 12 - Doppler Spectrum and Jakes Model
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 13 - Introduction to CDMA, Spread Spectrum and LFSR
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 14 - Generation and Properties of PN Sequences
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 15 - Correlation of PN Sequences and Jammer Margin
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 16 - CDMA Advantages and RAKE Receiver
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 17 - Multi-User CDMA Downlink Part I
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 18 - Multi-User CDMA Downlink Part II
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 19 - Multi-User CDMA Uplink and Asynchronous CDMA
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 20 - CDMA Near-Far Problem and Introduction to MIMO
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 21 - MIMO System Model and Zero-Forcing Receiver
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 22 - MIMO MMSE Receiver and Introduction to SVD
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 23 - SVD Based Optimal MIMO Transmission and Capacity
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 24 - SVD Based Optimal MIMO Transmission and Capacity
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 25 - OSTBCs and Introduction to V-BLAST Receiver
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 26 - V-BLAST (Continued) and MIMO Beamforming
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 27 - Introduction to OFDM and Multi-Carrier Modulation
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 28 - IFFT Sampling for OFDM
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 29 - OFDM Schematic and Cyclic Prefix
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 30 - OFDM Based Parallelization and OFDM Example
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 31 - OFDM Example (Continued) and Introduction to MIMO-OFDM
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 32 - MIMO-OFDM (Continued)
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 33 - Impact of Carrier Frequency Offset (CFO) in OFDM
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 34 - PAPR in OFDM Systems and Introduction to SC-FDMA
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 35 - SC-FDMA (Continued) and Introduction of Wireless Propagation Models
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 36 - Ground Reflection and Okumura Models
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 37 - Hata Model and Log Normal Shadowing
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 38 - Link Budget Analysis
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 39 - Introduction to Teletraffic Theory
Link Advanced 3G and 4G Wireless Mobile Communications Lecture 40 - Cellular Traffic Modeling and Blocking Probability
Link Digital Switching Lecture 1 - Digital Switching
Link Digital Switching Lecture 2 - Digital Switching
Link Digital Switching Lecture 3 - Digital Switching
Link Digital Switching Lecture 4 - Digital Switching
Link Digital Switching Lecture 5 - Digital Switching
Link Digital Switching Lecture 6 - Digital Switching
Link Digital Switching Lecture 7 - Digital Switching
Link Digital Switching Lecture 8 - Digital Switching
Link Digital Switching Lecture 9 - Digital Switching
Link Digital Switching Lecture 10 - Digital Switching
Link Digital Switching Lecture 11 - Digital Switching
Link Digital Switching Lecture 12 - Digital Switching
Link Digital Switching Lecture 13 - Digital Switching
Link Digital Switching Lecture 14 - Digital Switching
Link Digital Switching Lecture 15 - Digital Switching
Link Digital Switching Lecture 16 - Digital Switching
Link Digital Switching Lecture 17 - Digital Switching
Link Digital Switching Lecture 18 - Digital Switching
Link Digital Switching Lecture 19 - Digital Switching
Link Digital Switching Lecture 20 - Digital Switching
Link Digital Switching Lecture 21 - Digital Switching
Link Digital Switching Lecture 22 - Digital Switching
Link Digital Switching Lecture 23 - Digital Switching
Link Digital Switching Lecture 24 - Digital Switching
Link Digital Switching Lecture 25 - Digital Switching
Link Digital Switching Lecture 26 - Digital Switching
Link Digital Switching Lecture 27 - Digital Switching
Link Digital Switching Lecture 28 - Digital Switching
Link Digital Switching Lecture 29 - Digital Switching
Link Digital Switching Lecture 30 - Digital Switching
Link Digital Switching Lecture 31 - Digital Switching
Link Digital Switching Lecture 32 - Digital Switching
Link Digital Switching Lecture 33 - Digital Switching
Link Digital Switching Lecture 34 - Digital Switching
Link Digital Switching Lecture 35 - Digital Switching
Link Digital Switching Lecture 36 - Digital Switching
Link Digital Switching Lecture 37 - Digital Switching
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 1 - Evolution of Wireless Communication Technologies
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 2 - Modeling Wireless Channel
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 3 - Wireless Fading Channel Model
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 4 - Fading Channel Distribution
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 5 - Rayleigh Fading Channel
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 6 - Bit Error Rate (BER) Performance
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 7 - Bit Error Rate (BER) of AWGN Channels
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 8 - Bit Error Rate of Rayleigh Fading Wireless Channel
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 9 - Exact BER Expression for Rayleigh Fading Wireless Channel
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 10 - Deep Fade Analysis of Wireless Communication
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 11 - Principle of Diversity
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 12 - Multiple Antenna Diversity
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 13 - Maximal-Ratio Combining
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 14 - BER of Multiple Antenna Wireless Systems
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 15 - Approximate BER for Multiple Antenna Wireless System
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 16 - Examples for BER of Wireless Communication
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 17 - Deep Fade in Multi Antenna Systems
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 18 - Intuition for Deep Fade in Multi-Antenna System
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 19 - Definition of Diversity Order
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 20 - Max Delay Spread
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 21 - RMS Delay Spread
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 22 - Delay Spread and Inter Symbol Interference
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 23 - Coherence Bandwidth of Wireless Channel
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 24 - Mobility and Doppler Effect in Wireless Channels
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 25 - Imapact of Doppler Effect on Wireless Channel
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 26 - Introduction to Code Division Multiple Access (CDMA)
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 27 - Chip Time and Bandwidth Expansion in CDMA
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 28 - Code Generation for CDMA
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 29 - CDMA Codes: Properties of PN Sequences
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 30 - BER of CDMA Systems
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 31 - Analysis of Multi-user CDMA
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 32 - Multipath Diversity in CDMA Systems
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 33 - Near-Far Problem in CDMA
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 34 - Multiple Input Multiple Output (MIMO) Systems
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 35 - Examples of MIMO Systems
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 36 - MIMO Receivers
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 37 - BER Performance of ZF Receiver
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 38 - Transmit Beamforming in MISO Systems
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 39 - Alamouti Code and Space-Time Block Codes
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 40 - BER of Alamouti Coded System
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 41 - Singular Value Decomposition (SVD)
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 42 - SVD in MIMO
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 43 - Capacity of MIMO Wireless Systems
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 44 - SVD based MIMO Transmission
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 45 - Orthogonal Frequency Division Multiplexing (OFDM)
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 46 - Transmission in Multicarrier Systems
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 47 - FFT/IFFT Processing in OFDM
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 48 - Cyclic Prefix in OFDM Systems
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 49 - Schematic Represntation of OFDM Transmitter and Receiver
Link NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications Lecture 50 - BER Performance of OFDM Systems
Link NOC:Probability and Random Variables, Processes for Wireless Communications Lecture 1 - Basics - Sample Space and Events
Link NOC:Probability and Random Variables, Processes for Wireless Communications Lecture 2 - Axioms of Probability
Link NOC:Probability and Random Variables, Processes for Wireless Communications Lecture 3 - Conditional Probability - Mary-PAM Example
Link NOC:Probability and Random Variables, Processes for Wireless Communications Lecture 4 - Independent Events - Mary-PAM Example
Link NOC:Probability and Random Variables, Processes for Wireless Communications Lecture 5 - Independent Events - Block Transmission Example
Link NOC:Probability and Random Variables, Processes for Wireless Communications Lecture 6 - Independent Events - Multiantenna Fading Example
Link NOC:Probability and Random Variables, Processes for Wireless Communications Lecture 7 - Bayes Theorem and Aposteriori Probabilities
Link NOC:Probability and Random Variables, Processes for Wireless Communications Lecture 8 - Maximum Aposteriori Probability (MAP) Receiver
Link NOC:Probability and Random Variables, Processes for Wireless Communications Lecture 9 - Random Variables, Probability Density Function (PDF)
Link NOC:Probability and Random Variables, Processes for Wireless Communications Lecture 10 - Application: Power of Fading Wireless Channel
Link NOC:Probability and Random Variables, Processes for Wireless Communications Lecture 11 - Mean, Variance of Random Variables
Link NOC:Probability and Random Variables, Processes for Wireless Communications Lecture 12 - Application: Average Delay and RMS Delay Spread of Wireless Channel
Link NOC:Probability and Random Variables, Processes for Wireless Communications Lecture 13 - Transformation of Random Variables and Rayleigh Fading Wireless Channel
Link NOC:Probability and Random Variables, Processes for Wireless Communications Lecture 14 - Gaussian Random Variable and Linear Transformation
Link NOC:Probability and Random Variables, Processes for Wireless Communications Lecture 15 - Special Case: IID Gaussian Random Variables
Link NOC:Probability and Random Variables, Processes for Wireless Communications Lecture 16 - Application: Array Processing and Array Gain with Uniform Linear Arrays
Link NOC:Probability and Random Variables, Processes for Wireless Communications Lecture 17 - Random Processes and Wide Sense Stationarity (WSS)
Link NOC:Probability and Random Variables, Processes for Wireless Communications Lecture 18 - WSS Example Narrowband Wireless Signal with Random Phase
Link NOC:Probability and Random Variables, Processes for Wireless Communications Lecture 19 - Power Spectral Density (PSD) for WSS Random Process
Link NOC:Probability and Random Variables, Processes for Wireless Communications Lecture 20 - PSD Application in Wireless Bandwidth Required for Signal Transmission
Link NOC:Probability and Random Variables, Processes for Wireless Communications Lecture 21 - Transmission of WSS Random Process Through LTI System
Link NOC:Probability and Random Variables, Processes for Wireless Communications Lecture 22 - Special Random Processes Gaussian Process and White Noise AWGN Communication Channel
Link NOC:Probability and Random Variables, Processes for Wireless Communications Lecture 23 - Gaussian Process Through LTI System Example: WGN Through RC Low Pass Fillter Not Started
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 1 - Basics - Sensor Network and Noisy Observation Model
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 2 - Likelihood Function and Maximum Likelihood (ML) Estimate
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 3 - Properties of Maximum Likelihood (ML) Estimate – Mean and Unbiasedness
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 4 - Properties of Maximum Likelihood (ML) Estimate – Variance and Spread Around Mean
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 5 - Reliability of the Maximum Likelihood (ML) Estimate – Number of Samples Required
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 6 - Estimation of Complex Parameters – Symmetric Zero Mean Complex Gaussian Noise
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 7 - Wireless Fading Channel Estimation – Pilot Symbols and Likelihood Function
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 8 - Wireless Fading Channel Estimation – Pilot Training based Maximum Likelihood ML Estimate
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 9 - Wireless Fading Channel Estimation – Mean and Variance of Pilot Training Based Maximum Likelihood
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 10 - Example – Wireless Fading Channel Estimation for Downlink Mobile Communication
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 11 - Cramer Rao Bound (CRB) for Parameter Estimation
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 12 - Cramer Rao Bound CRB Example – Wireless Sensor Network
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 13 - Vector Parameter Estimation – System Model for Multi Antenna Downlink Channel Estimation
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 14 - Likelihood Function and Least Squares Cost Function for Vector Parameter Estimation
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 15 - Least Squares Cost Function for Vector Parameter Estimation Vector Derivative Gradient
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 16 - Least Squares Solution Maximum Likelihood ML Estimate Pseudo Inverse
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 17 - Properties of Least Squares Estimate – Mean Covariance and Distribution
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 18 - Least Squares Multi Antenna Downlink Maximum Likelihood Channel Estimation
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 19 - Multiple Input Multiple Output MIMO Channel Estimation – Least Squares Maximum Likelihood ML
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 20 - Example – Least Squares Multiple Input Multiple Output MIMO Channel Estimation
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 21 - Channel Equalization and Inter Symbol Interference ISI Model
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 22 - Least Squares based Zero Forcing Channel Equalizer
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 23 - Example of ISI Channel and Least Squares based Zero Forcing
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 24 - Equalization and Approximation Error for Zero Forcing Channel Equalizer
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 25 - Example Equalization and Approximation Error for Zero Forcing Channel Equalizer
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 26 - Introduction to Orthogonal Frequency Division Multiplexing OFDM – Cyclic Prefix CP and Circular Convolution
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 27 - Introduction to Orthogonal Frequency Division Multiplexing OFDM – FFT at Receiver and Flat Fading
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 28 - Channel Estimation Across Each Subcarrier in Orthogonal Frequency Division Multiplexing OFDM
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 29 - Example Orthogonal Frequency Division Mulltiplexing OFDM – Transmission of Samples with Cyclic Prefix
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 30 - Example Orthogonal Frequency Division Mulltiplexing OFDM – FFT at Receiver and Channel Estimation
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 31 - Comb Type Pilot CTP Based Orthogonal Frequency Division Multiplexing OFDM Channel Estimation
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 32 - Comb Type Pilot CTP Based Orthogonal Frequency Division Multiplexing OFDM Channel Estimation
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 33 - Example Comb Type Pilot CTP Based Orthogonal Frequency Division Multiplexing OFDM Channel
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 34 - Frequency Domain Equalization FDE for Inter Symbol Interference ISI Removal in Wireless System
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 35 - Example Frequency Domain Equalization FDE for Inter Symbol Interference ISI Removal in Wireless Channels
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 36 - Example Frequency Domain Equalization FDE for Inter Symbol Interference ISI Removal in Wireless Channels
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 37 - Introduction to Sequential Estimation – Application in Wireless Channel Estimation
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 38 - Sequential Estimation of Wireless Channel Coefficient – Estimate and Variance Update Equation
Link NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks Lecture 39 - Example Sequential Estimation of Wireless Channel Coefficient
Link NOC:Error Control Coding - An Introduction to Convolutional Codes Lecture 1 - Introduction to Error Coding - I
Link NOC:Error Control Coding - An Introduction to Convolutional Codes Lecture 2 - Introduction to Error Coding - II
Link NOC:Error Control Coding - An Introduction to Convolutional Codes Lecture 3 - Introduction to Error Control Coding - III
Link NOC:Error Control Coding - An Introduction to Convolutional Codes Lecture 4 - Introduction to Convolutional Codes - I: Encoding
Link NOC:Error Control Coding - An Introduction to Convolutional Codes Lecture 5 - Introduction to Convolutional Codes - II: State Diagram, Trellis Diagram
Link NOC:Error Control Coding - An Introduction to Convolutional Codes Lecture 6 - Convolutional Codes: Classification, Realization
Link NOC:Error Control Coding - An Introduction to Convolutional Codes Lecture 7 - Convolutional Codes:Distance Properties
Link NOC:Error Control Coding - An Introduction to Convolutional Codes Lecture 8 - Decoding of Convolutional Codes - I: Viterbi Algorithm
Link NOC:Error Control Coding - An Introduction to Convolutional Codes Lecture 9 - Decoding of Convolutional Codes - II: BCJR Algorithm
Link NOC:Error Control Coding - An Introduction to Convolutional Codes Lecture 10 - Problem Solving Session - I
Link NOC:Error Control Coding - An Introduction to Convolutional Codes Lecture 11 - Problem Solving Session - II
Link NOC:Error Control Coding - An Introduction to Convolutional Codes Lecture 12 - Performance Bounds for Convolutional Codes
Link NOC:Error Control Coding - An Introduction to Convolutional Codes Lecture 13 - Turbo Codes
Link NOC:Error Control Coding - An Introduction to Convolutional Codes Lecture 14 - Turbo Decoding
Link NOC:Error Control Coding - An Introduction to Convolutional Codes Lecture 15 - Convergence of Turbo Codes
Link NOC:Error Control Coding - An Introduction to Convolutional Codes Lecture 16 - Applications of Convolutional Codes
Link NOC:Error Control Coding - An Introduction to Convolutional Codes Lecture 17 - Problem Solving Sessions - III
Link NOC:Error Control Coding - An Introduction to Linear Block code Lecture 1 - Introduction to Error Control Coding - I
Link NOC:Error Control Coding - An Introduction to Linear Block code Lecture 2 - Introduction to Error Control Coding - II
Link NOC:Error Control Coding - An Introduction to Linear Block code Lecture 3 - Introduction to Error Control Coding - III
Link NOC:Error Control Coding - An Introduction to Linear Block code Lecture 4 - Introduction to Linear Block Codes, Generator Matrix and Parity Check Matrix
Link NOC:Error Control Coding - An Introduction to Linear Block code Lecture 5 - Syndrome, Error Correction and Error Detection
Link NOC:Error Control Coding - An Introduction to Linear Block code Lecture 6 - Problem Solving Session - I
Link NOC:Error Control Coding - An Introduction to Linear Block code Lecture 7 - Decoding of Linear Block Codes
Link NOC:Error Control Coding - An Introduction to Linear Block code Lecture 8 - Distance Properties of Linear Block Codes - I
Link NOC:Error Control Coding - An Introduction to Linear Block code Lecture 9 - Distance Properties of Linear Block Codes - II
Link NOC:Error Control Coding - An Introduction to Linear Block code Lecture 10 - Problem Solving Session - II
Link NOC:Error Control Coding - An Introduction to Linear Block code Lecture 11 - Some Simple Linear Block Codes - I
Link NOC:Error Control Coding - An Introduction to Linear Block code Lecture 12 - Some Simple Linear Block Codes - II: Reed Muller Codes
Link NOC:Error Control Coding - An Introduction to Linear Block code Lecture 13 - Bounds on the Size of a Code
Link NOC:Error Control Coding - An Introduction to Linear Block code Lecture 14 - Problem Solving Session - III
Link NOC:Error Control Coding - An Introduction to Linear Block code Lecture 15 - Low Density Parity Check Codes
Link NOC:Error Control Coding - An Introduction to Linear Block code Lecture 16 - Decoding of Low Density Parity Check Codes - I
Link NOC:Error Control Coding - An Introduction to Linear Block code Lecture 17 - Decoding of Low Density Parity Check Codes - II: Belief Propagation Algorithm
Link NOC:Error Control Coding - An Introduction to Linear Block code Lecture 18 - Applications of Linear Block Codes
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 1 - Basics – Introduction to Bayesian Minimum Mean Squared Error
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 2 - Optimal Bayesian Minimum Mean Squared Error (MMSE) Estimate
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 3 - Derivation of Minimum Mean Squared Error MMSE Estimate for Gaussian Parameter – Part I
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 4 - Derivation of Minimum Mean Squared Error MMSE Estimate for Gaussian Parameter – Part II
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 5 - Derivation of Minimum Mean Squared Error (MMSE) Estimate for Gaussian Parameter – Non-Zero Mean and Vector Parameter / Observation
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 6 - Minimum Mean Squared Error MMSE Estimation Application – Wireless Sensor Network
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 7 - Simplification and Example of Minimum Mean Squared Error MMSE Estimate for Wireless Sensor Networks
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 8 - Minimum Mean Squared Error MMSE Estimation Application – Wireless Fading Channel Estimation
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 9 - Simplification and Example of Minimum Mean Squared Error MMSE Estimate for Wireless Fading Channel
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 10 - Minimum Mean Squared Error MMSE for Wireless Sensor Network WSN – Derivation and Example
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 11 - Reliability of Minimum Mean Squared Error MMSE Estimate – Part I
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 12 - Reliability of Minimum Mean Squared Error MMSE Estimate – Part II
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 13 - Minimum Mean Squared Error MMSE for Wireless Fading Channel Estimation – Derivation
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 14 - Minimum Mean Squared Error (MMSE) for Wireless Fading Channel Estimation – Example and Properties of Complex Channel Coefficient Estimate
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 15 - Linear Minimum Mean Squared Error LMMSE Estimate Derivation – Part I
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 16 - Linear Minimum Mean Squared Error LMMSE Estimate Derivation – Part II
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 17 - Vector Parameter Estimation – System Model for Multi-Antenna Downlink Channel Estimation
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 18 - Linear Minimum Mean Squared Error LMMSE Estimate for Multi Antenna Downlink Wireless Channel - Part I
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 19 - Linear Minimum Mean Squared Error LMMSE Estimate for Multi Antenna Downlink Wireless Channel - Part II
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 20 - Example of Linear Minimum Mean Squared Error LMMSE Estimation for Multi Antenna Downlink Wireless Channel
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 21 - Derivation and Example of Error Covariance of Multi Antenna LMMSE Channel Estimation
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 22 - System Model for Multiple Input Multiple Output MIMO Downlink Wireless Channel Estimation
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 23 - Channel/ Noise Statistics for Multiple-Input Multiple-Output (MIMO) Downlink Wireless Channel Estimation
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 24 - LMMSE/ MMSE Estimation for Multiple-Input Multiple-Output(MIMO) Downlink Wireless Channel Estimation
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 25 - Example of LMMSE/ MMSE Estimation for Multiple-Input Multiple-Output (MIMO) Downlink Wireless Channel Estimation
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 26 - Introduction and system model for equalization
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 27 - Linear Minimum Mean Square Error (LMMSE) Channel Equalization
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 28 - Error for LMMSE Channel Equalizer and Example of LMMSE Channel Equalization
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 29 - Example of Linear Minimum Mean Square Error (LMMSE) Channel Equalization
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 30 - Introduction and system model for OFDM
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 31 - System model for OFDMl, IFFT/ FFT Operations
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 32 - LMMSE Estimation for OFDM
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 33 - Estimate and Error variance of LMMSE Estimate
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 34 - Example of OFDM
Link NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks Lecture 35 - Example of LMMSE estimate and Error variance for OFDM
Link NOC:Optical communications Lecture 1 - Overview of Fiber-optic communications
Link NOC:Optical communications Lecture 2 - Optical Transmitter - I
Link NOC:Optical communications Lecture 3 - Optical Transmitter - I (Continued...)
Link NOC:Optical communications Lecture 4 - Optical Transmitter - II
Link NOC:Optical communications Lecture 5 - Optical Transmitter - II (Continued...)
Link NOC:Optical communications Lecture 6 - Intensity modulation
Link NOC:Optical communications Lecture 7 - Review of Signals and Representations - I
Link NOC:Optical communications Lecture 8 - Review of Signals and Representations - II
Link NOC:Optical communications Lecture 9 - Digital Modulation - I
Link NOC:Optical communications Lecture 10 - Review of Signals and Representations - III
Link NOC:Optical communications Lecture 11 - Review of Signals and Representations - IV
Link NOC:Optical communications Lecture 12 - Digital Modulation - II
Link NOC:Optical communications Lecture 13 - Digital Modulation - II (Continued...)
Link NOC:Optical communications Lecture 14 - Digital Modulation - III
Link NOC:Optical communications Lecture 15 - Optical receivers - I
Link NOC:Optical communications Lecture 16 - Optical receivers - II
Link NOC:Optical communications Lecture 17 - Optical Modulator : Physical Structure
Link NOC:Optical communications Lecture 18 - Propagation of Electromagnetic wave
Link NOC:Optical communications Lecture 19 - Review of EM Theory
Link NOC:Optical communications Lecture 20 - Reflection of Waves
Link NOC:Optical communications Lecture 21 - Optical fiber - I
Link NOC:Optical communications Lecture 22 - Optical fiber - II
Link NOC:Optical communications Lecture 23 - Modes in Optical fiber - I
Link NOC:Optical communications Lecture 24 - Modes in Optical fiber - I (Continued...)
Link NOC:Optical communications Lecture 25 - Modes in Optical fiber - II
Link NOC:Optical communications Lecture 26 - Dispersion in Fibers
Link NOC:Optical communications Lecture 27 - Dispersion in Fibers (Continued...)
Link NOC:Optical communications Lecture 28 - Wrapping up fiber parameters
Link NOC:Optical communications Lecture 29 - System Design - I
Link NOC:Optical communications Lecture 30 - Passive WDM components - I
Link NOC:Optical communications Lecture 31 - Passive WDM components - II
Link NOC:Optical communications Lecture 32 - Detection of light
Link NOC:Optical communications Lecture 33 - Detection of light (Continued...)
Link NOC:Optical communications Lecture 34 - Response time and Noise in Detectors
Link NOC:Optical communications Lecture 35 - Noise in photodiodes - I Edit Lesson
Link NOC:Optical communications Lecture 36 - Noise in photodiodes - II
Link NOC:Optical communications Lecture 37 - Light sources - I
Link NOC:Optical communications Lecture 38 - Light sources - II Edit Lesson
Link NOC:Optical communications Lecture 39 - Semiconductor laser diodes
Link NOC:Optical communications Lecture 40 - Optical communication:Pulse shape and BW
Link NOC:Optical communications Lecture 41 - Power spectral density
Link NOC:Optical communications Lecture 42 - Power spectral density (Continued...)
Link NOC:Optical communications Lecture 43 - Advantage of coherent receiver
Link NOC:Optical communications Lecture 44 - Dispersion induced limitations
Link NOC:Optical communications Lecture 45 - Optical amplifiers - I
Link NOC:Optical communications Lecture 46 - Optical amplifiers - II
Link NOC:Optical communications Lecture 47 - Noise in optical amplifiers
Link NOC:Optical communications Lecture 48 - Noise in optical amplifiers (Continued...)
Link NOC:Optical communications Lecture 49 - ASE induced limitations
Link NOC:Optical communications Lecture 50 - Determining BER in OOK system
Link NOC:Optical communications Lecture 51 - BER determination
Link NOC:Optical communications Lecture 52 - Eye diagram and Higher modulation techniques Edit Lesson
Link NOC:Optical communications Lecture 53 - Higher modulation techniques (Continued...)
Link NOC:Optical communications Lecture 54 - Optical OFDM
Link NOC:Digital Switching-I Lecture 1 - Introduction to Telephony and Networks
Link NOC:Digital Switching-I Lecture 2 - Strowger Automatic Exchange
Link NOC:Digital Switching-I Lecture 3 - Crossbar Switching
Link NOC:Digital Switching-I Lecture 4 - Logic Circuit for Crosspoint Operation
Link NOC:Digital Switching-I Lecture 5 - Introduction to Multistage Interconnection Networks
Link NOC:Digital Switching-I Lecture 6 - Blocking probability of crossbar switches
Link NOC:Digital Switching-I Lecture 7 - Call congestion and time congestio
Link NOC:Digital Switching-I Lecture 8 - Clos network
Link NOC:Digital Switching-I Lecture 9 - Lee's approximation
Link NOC:Digital Switching-I Lecture 10 - Karnaugh's approximation
Link NOC:Digital Switching-I Lecture 11 - Time switch
Link NOC:Digital Switching-I Lecture 12 - Time switch and Clos network
Link NOC:Digital Switching-I Lecture 13 - TST switch, Strictly Non-blocking network, Rearrangeably non-blocking network
Link NOC:Digital Switching-I Lecture 14 - Paull's Matrix
Link NOC:Digital Switching-I Lecture 15 - f-way multicasting
Link NOC:Digital Switching-I Lecture 16 - Strictly sense non blocking multicasting switch
Link NOC:Digital Switching-I Lecture 17 - Rearrangeably non blocking networks
Link NOC:Digital Switching-I Lecture 18 - Slepian Duguid theorem, Paull's theorem
Link NOC:Digital Switching-I Lecture 19 - Paull's matrix for rearrangeabbly non blocking networks
Link NOC:Digital Switching-I Lecture 20 - Recursive construction; Crosspoint complexity for rearrangebly and strictly non-blocking networks
Link NOC:Digital Switching-I Lecture 21 - Cantor network
Link NOC:Digital Switching-I Lecture 22 - Wide-sense non blocking network
Link NOC:Digital Switching-I Lecture 23 - Example of wide -sense non-blocking switch
Link NOC:Digital Switching-I Lecture 24 - Packet Switching
Link NOC:Digital Switching-I Lecture 25 - Buffering strategies
Link NOC:Digital Switching-I Lecture 26 - Output Queued Switch
Link NOC:Digital Switching-I Lecture 27 - Input Queued Switch
Link NOC:Digital Switching-I Lecture 28 - Banyan Network, Delta Network
Link NOC:Digital Switching-I Lecture 29 - Shufflenet as Delta network
Link NOC:Digital Switching-I Lecture 30 - Performance analysis of crossbar and delta network
Link NOC:Digital Switching-I Lecture 31 - Properties of Delta Network
Link NOC:Digital Switching-I Lecture 32 - Buffered and Unbuffered Delta network
Link NOC:Digital Switching-I Lecture 33 - Analysis of Buffered Delta Network - 1 of 3
Link NOC:Digital Switching-I Lecture 34 - Analysis of Buffered Delta Network - 2 of 3
Link NOC:Digital Switching-I Lecture 35 - Analysis of Buffered Delta Network - 3 of 3
Link NOC:An Introduction to Information Theory Lecture 1 - Introduction
Link NOC:An Introduction to Information Theory Lecture 2 - Measure of Information
Link NOC:An Introduction to Information Theory Lecture 3 - Information Inequalities
Link NOC:An Introduction to Information Theory Lecture 4 - Problem solving session - I
Link NOC:An Introduction to Information Theory Lecture 5 - Block to Variable Length Coding - I : Prefix-free code
Link NOC:An Introduction to Information Theory Lecture 6 - Block to Variable Length Coding - II : Bounds on Optimal Code Length
Link NOC:An Introduction to Information Theory Lecture 7 - Block to Variable Length Coding - III : Huffman Coding
Link NOC:An Introduction to Information Theory Lecture 8 - Variable to block length coding
Link NOC:An Introduction to Information Theory Lecture 9 - The asymptotic equipartition property
Link NOC:An Introduction to Information Theory Lecture 10 - Block to block coding of DMS
Link NOC:An Introduction to Information Theory Lecture 11 - Problem solving session - II
Link NOC:An Introduction to Information Theory Lecture 12 - Universal Source Coding - I : Lempel-Ziv Algorithm-LZ77
Link NOC:An Introduction to Information Theory Lecture 13 - Universal source coding - II : Lempel-Ziv Welch Algorithm (LZW)
Link NOC:An Introduction to Information Theory Lecture 14 - Coding of sources with memory
Link NOC:An Introduction to Information Theory Lecture 15 - Channel Capacity
Link NOC:An Introduction to Information Theory Lecture 16 - Joint typical sequences
Link NOC:An Introduction to Information Theory Lecture 17 - Noisy channel coding theorem
Link NOC:An Introduction to Information Theory Lecture 18 - Differential entropy
Link NOC:An Introduction to Information Theory Lecture 19 - Gaussian channel
Link NOC:An Introduction to Information Theory Lecture 20 - Parallel Gaussian channel
Link NOC:An Introduction to Information Theory Lecture 21 - Problem solving session - III
Link NOC:An Introduction to Information Theory Lecture 22 - Rate distortion theory
Link NOC:An Introduction to Information Theory Lecture 23 - Blahut-Arimoto Algorithm
Link NOC:An Introduction to Information Theory Lecture 24 - Problem solving session - IV
Link Adaptive Signal Processing Lecture 1 - Introduction to Adaptive Filters
Link Adaptive Signal Processing Lecture 2 - Introduction to Stochastic Processes
Link Adaptive Signal Processing Lecture 3 - Stochastic Processes
Link Adaptive Signal Processing Lecture 4 - Correlation Structure
Link Adaptive Signal Processing Lecture 5 - FIR Wiener Filter (Real)
Link Adaptive Signal Processing Lecture 6 - Steepest Descent Technique
Link Adaptive Signal Processing Lecture 7 - LMS Algorithm
Link Adaptive Signal Processing Lecture 8 - Convergence Analysis
Link Adaptive Signal Processing Lecture 9 - Convergence Analysis (Mean Square)
Link Adaptive Signal Processing Lecture 10 - Convergence Analysis (Mean Square)
Link Adaptive Signal Processing Lecture 11 - Misadjustment and Excess MSE
Link Adaptive Signal Processing Lecture 12 - Misadjustment and Excess MSE
Link Adaptive Signal Processing Lecture 13 - Sign LMS Algorithm
Link Adaptive Signal Processing Lecture 14 - Block LMS Algorithm
Link Adaptive Signal Processing Lecture 15 - Fast Implementation of Block LMS Algorithm
Link Adaptive Signal Processing Lecture 16 - Fast Implementation of Block LMS Algorithm
Link Adaptive Signal Processing Lecture 17 - Vector Space Treatment to Random Variables
Link Adaptive Signal Processing Lecture 18 - Vector Space Treatment to Random Variables
Link Adaptive Signal Processing Lecture 19 - Orthogonalization and Orthogonal Projection
Link Adaptive Signal Processing Lecture 20 - Orthogonal Decomposition of Signal Subspaces
Link Adaptive Signal Processing Lecture 21 - Introduction to Linear Prediction
Link Adaptive Signal Processing Lecture 22 - Lattice Filter
Link Adaptive Signal Processing Lecture 23 - Lattice Recursions
Link Adaptive Signal Processing Lecture 24 - Lattice as Optimal Filter
Link Adaptive Signal Processing Lecture 25 - Linear Prediction and Autoregressive Modeling
Link Adaptive Signal Processing Lecture 26 - Gradient Adaptive Lattice
Link Adaptive Signal Processing Lecture 27 - Gradient Adaptive Lattice
Link Adaptive Signal Processing Lecture 28 - Introduction to Recursive Least Squares
Link Adaptive Signal Processing Lecture 29 - RLS Approach to Adaptive Filters
Link Adaptive Signal Processing Lecture 30 - RLS Adaptive Lattice
Link Adaptive Signal Processing Lecture 31 - RLS Lattice Recursions
Link Adaptive Signal Processing Lecture 32 - RLS Lattice Recursions
Link Adaptive Signal Processing Lecture 33 - RLS Lattice Algorithm
Link Adaptive Signal Processing Lecture 34 - RLS Using QR Decomposition
Link Adaptive Signal Processing Lecture 35 - Givens Rotation
Link Adaptive Signal Processing Lecture 36 - Givens Rotation and QR Decomposition
Link Adaptive Signal Processing Lecture 37 - Systolic Implementation
Link Adaptive Signal Processing Lecture 38 - Systolic Implementation
Link Adaptive Signal Processing Lecture 39 - Singular Value Decomposition
Link Adaptive Signal Processing Lecture 40 - Singular Value Decomposition
Link Adaptive Signal Processing Lecture 41 - Singular Value Decomposition
Link Digital Computer Organization Lecture 1 - Introduction to Digital Computer Organization
Link Digital Computer Organization Lecture 2 - CPU Design - I
Link Digital Computer Organization Lecture 3 - CPU Design - II
Link Digital Computer Organization Lecture 4 - CPU Design Tirning and Control
Link Digital Computer Organization Lecture 5 - Micro programmed Control - I
Link Digital Computer Organization Lecture 6 - Micro programmed Control - II
Link Digital Computer Organization Lecture 7 - Pipeline Concept - I
Link Digital Computer Organization Lecture 8 - Pipeline Concept - II
Link Digital Computer Organization Lecture 9 - Pipeline Concept - III
Link Digital Computer Organization Lecture 10 - Pipeline CPU - I
Link Digital Computer Organization Lecture 11 - Pipeline CPU - II
Link Digital Computer Organization Lecture 12 - Pipeline CPU - III
Link Digital Computer Organization Lecture 13 - Memory Organization - I
Link Digital Computer Organization Lecture 14 - Memory Organization - II
Link Digital Computer Organization Lecture 15 - Memory Organization - III
Link Digital Computer Organization Lecture 16 - Memory Organization - IV
Link Digital Computer Organization Lecture 17 - Memory Organization - V
Link Digital Computer Organization Lecture 18 - Cache Memory Architecture
Link Digital Computer Organization Lecture 19 - Cache Memory Architecture RAM Architecture
Link Digital Computer Organization Lecture 20 - RAM Architecture
Link Digital Computer Organization Lecture 21 - DAM Architecture-1
Link Digital Computer Organization Lecture 22 - DAM Architecture Buffer Cache
Link Digital Computer Organization Lecture 23 - Buffer Cache
Link Digital Computer Organization Lecture 24 - Secondary Storage Organization - I
Link Digital Computer Organization Lecture 25 - Secondary Storage Organization - II
Link Digital Computer Organization Lecture 26 - Secondary Storage Organization - III
Link Digital Computer Organization Lecture 27 - I/O Subsystem Organization
Link Digital Computer Organization Lecture 28 - Error Detection and Correction
Link Digital Image Processing Lecture 1 - Introduction
Link Digital Image Processing Lecture 2 - Image Digitization - I
Link Digital Image Processing Lecture 3 - Image Digitization - II
Link Digital Image Processing Lecture 4 - Pixels Relationships - I
Link Digital Image Processing Lecture 5 - Pixels Relationships - II
Link Digital Image Processing Lecture 6 - Basic Transformations
Link Digital Image Processing Lecture 7 - Camera Model and Imaging Geometry
Link Digital Image Processing Lecture 8 - Camera Calibration and Stereo Imaging
Link Digital Image Processing Lecture 9 - Interpolation and Resampling
Link Digital Image Processing Lecture 10 - Image Interpolation - II
Link Digital Image Processing Lecture 11 - Image Interpolation - I
Link Digital Image Processing Lecture 12 - Image Transformation - II
Link Digital Image Processing Lecture 13 - Fourier Transformation - I
Link Digital Image Processing Lecture 14 - Fourier Transformation - II
Link Digital Image Processing Lecture 15 - Discrete Cosine Transform
Link Digital Image Processing Lecture 16 - K-L Transform
Link Digital Image Processing Lecture 17 - Image Enhancement
Link Digital Image Processing Lecture 18 - Image Enhancement
Link Digital Image Processing Lecture 19 - Image Enhancement
Link Digital Image Processing Lecture 20 - Image Enhancement
Link Digital Image Processing Lecture 21 - Image Enhancement Frequency
Link Digital Image Processing Lecture 22 - Image Restoration - I
Link Digital Image Processing Lecture 23 - Image Restoration - II
Link Digital Image Processing Lecture 24 - Image Restoration - III
Link Digital Image Processing Lecture 25 - Image Registration
Link Digital Image Processing Lecture 26 - Colour Image Processing - I
Link Digital Image Processing Lecture 27 - Colour Image Processing - II
Link Digital Image Processing Lecture 28 - Colour Image Processing - III
Link Digital Image Processing Lecture 29 - Image Segmentation - I
Link Digital Image Processing Lecture 30 - Image Segmentation - II
Link Digital Image Processing Lecture 31 - Image Segmentation - III
Link Digital Image Processing Lecture 32 - Image Segmentation - IV
Link Digital Image Processing Lecture 33 - Mathematical Morphology - I
Link Digital Image Processing Lecture 34 - Mathematical Morphology - II
Link Digital Image Processing Lecture 35 - Mathematical Morphology - III
Link Digital Image Processing Lecture 36 - Mathematical Morphology - IV
Link Digital Image Processing Lecture 37 - Object Representation and Description - I
Link Digital Image Processing Lecture 38 - Object Representation and Description - II
Link Digital Image Processing Lecture 39 - Object Representation and Description - III
Link Digital Image Processing Lecture 40 - Object Recognition
Link Digital Systems Design Lecture 1 - Introduction to Digital Systems Design
Link Digital Systems Design Lecture 2 - Introduction
Link Digital Systems Design Lecture 3 - Digital Logic - I
Link Digital Systems Design Lecture 4 - Digital Logic - II
Link Digital Systems Design Lecture 5 - Digital Logic - III
Link Digital Systems Design Lecture 6 - Boolean Algebra
Link Digital Systems Design Lecture 7 - Boolean Algebra
Link Digital Systems Design Lecture 8 - Boolean Function Minimization
Link Digital Systems Design Lecture 9 - Boolean Function Minimization
Link Digital Systems Design Lecture 10 - Boolean Function Minimization
Link Digital Systems Design Lecture 11 - Hazzard Covers by K - Map
Link Digital Systems Design Lecture 12 - Combinational Circuit Design
Link Digital Systems Design Lecture 13 - Design of ADDER Circuits
Link Digital Systems Design Lecture 14 - Design of Subtractor Circuits
Link Digital Systems Design Lecture 15 - Digital of Common Digital Elements
Link Digital Systems Design Lecture 16 - Design of Complex Combinational Circuits
Link Digital Systems Design Lecture 17 - Design of Combinational Circuits
Link Digital Systems Design Lecture 18 - Combinational Logic Problem Design
Link Digital Systems Design Lecture 19 - Combinational Logic Design
Link Digital Systems Design Lecture 20 - Logic Design with PLA
Link Digital Systems Design Lecture 21 - Synchronous Sequential Circuit Design
Link Digital Systems Design Lecture 22 - Design of Sequential Modules
Link Digital Systems Design Lecture 23 - Design of Registers and Counter
Link Digital Systems Design Lecture 24 - Finite State Machine Design
Link Digital Systems Design Lecture 25 - Finite State Machine Design and Optimization
Link Digital Systems Design Lecture 26 - Programmable Logic Devices
Link Digital Systems Design Lecture 27 - Programmable Logic Devices
Link Digital Systems Design Lecture 28 - Programmable Logic Devices
Link Digital Systems Design Lecture 29 - Design of Arithmetic Circuits
Link Digital Systems Design Lecture 30 - Design of Arithmetic Circuits
Link Digital Systems Design Lecture 31 - Design of Memory Circuits
Link Digital Systems Design Lecture 32 - Algorithmic State Machines Chart
Link Digital Systems Design Lecture 33 - Design of Computer Instruction Set and the CPU
Link Digital Systems Design Lecture 34 - Design of Computer Instruction Set and the CPU
Link Digital Systems Design Lecture 35 - Design of Computer Instruction Set and the CPU
Link Digital Systems Design Lecture 36 - Design of Computer Instruction Set and the CPU
Link Digital Systems Design Lecture 37 - Design of Computer Instruction Set and the CPU
Link Digital Systems Design Lecture 38 - Design of Computer Instruction Set and the CPU
Link Digital Systems Design Lecture 39 - Design of a Micro Programmed CPU
Link Digital Systems Design Lecture 40 - Digital System Design Current State of the Art
Link Digital Voice and Picture Communication Lecture 1 - Introduction
Link Digital Voice and Picture Communication Lecture 2 - Speech Production Model
Link Digital Voice and Picture Communication Lecture 3 - Speech Coding : Objectives and Requirements
Link Digital Voice and Picture Communication Lecture 4 - Quantizers for Speech Signal
Link Digital Voice and Picture Communication Lecture 5 - mew - Law and Optimum Quantizer
Link Digital Voice and Picture Communication Lecture 6 - Adaptive Quantizer
Link Digital Voice and Picture Communication Lecture 7 - Differential Quantization
Link Digital Voice and Picture Communication Lecture 8 - LDM and ADM
Link Digital Voice and Picture Communication Lecture 9 - Differential PCM and Adaptive Prediction
Link Digital Voice and Picture Communication Lecture 10 - Linear Prediction of Speech
Link Digital Voice and Picture Communication Lecture 11 - Computational Aspects of LPC parameters
Link Digital Voice and Picture Communication Lecture 12 - Cholesky Decomposition
Link Digital Voice and Picture Communication Lecture 13 - Lattice Formulation of LPC Coefficient
Link Digital Voice and Picture Communication Lecture 14 - Linear Predictive Synthesizer
Link Digital Voice and Picture Communication Lecture 15 - LPC Vocoder
Link Digital Voice and Picture Communication Lecture 16 - Introduction to Image and Video Coding
Link Digital Voice and Picture Communication Lecture 17 - Lossy Image Compression : DCT
Link Digital Voice and Picture Communication Lecture 18 - DCT Quantization and Limitations
Link Digital Voice and Picture Communication Lecture 19 - Theory of Wavelets
Link Digital Voice and Picture Communication Lecture 20 - Discrete Wavelet Transforms
Link Digital Voice and Picture Communication Lecture 21 - DWT on the Images and its Encoding
Link Digital Voice and Picture Communication Lecture 22 - Embedded Zero Tree Wavelet Encoding
Link Digital Voice and Picture Communication Lecture 23 - Video Coding : Basic Building Blocks
Link Digital Voice and Picture Communication Lecture 24 - Motion Estimate Techniques
Link Digital Voice and Picture Communication Lecture 25 - Fast Motion Estimation Techniques
Link Digital Voice and Picture Communication Lecture 26 - Video Coding Standards
Link Digital Voice and Picture Communication Lecture 27 - Advanced Coding Aspects
Link Digital Voice and Picture Communication Lecture 28 - Audio Coding: Basic Concepts
Link Digital Voice and Picture Communication Lecture 29 - Audio Coding AC - 3
Link Digital Voice and Picture Communication Lecture 30 - AC -3 Decoder
Link Digital Voice and Picture Communication Lecture 31 - MPEG - 1 Audio Coding
Link Digital Voice and Picture Communication Lecture 32 - Introduction to VoIP
Link Digital Voice and Picture Communication Lecture 33 - VoIP Signaling : H.323 Protocol
Link Digital Voice and Picture Communication Lecture 34 - H.323 Call Controls and Enhancements
Link Digital Voice and Picture Communication Lecture 35 - Interworking with PSTN Limitations and Solution
Link Digital Voice and Picture Communication Lecture 36 - Multiplexing Schemes
Link Digital Voice and Picture Communication Lecture 37 - H.323:Multiplexing:Header Compression and BW
Link Digital Voice and Picture Communication Lecture 38 - ISDN Video Conferencing
Link Digital Voice and Picture Communication Lecture 39 - Video Conferencing : SIP Protocol
Link Digital Voice and Picture Communication Lecture 40 - 4G Multimedia Conferencing
Link MEMS and Microsystems Lecture 1 - Introduction to MEMS & Microsystems
Link MEMS and Microsystems Lecture 2 - Introduction to Microsensors
Link MEMS and Microsystems Lecture 3 - Evaluation of MEMS, Microsensors, Market Survey
Link MEMS and Microsystems Lecture 4 - Application of MEMS
Link MEMS and Microsystems Lecture 5 - MEMS Materials
Link MEMS and Microsystems Lecture 6 - MEMS Materials Properties
Link MEMS and Microsystems Lecture 7 - MEMS Materials Properties (Continued...)
Link MEMS and Microsystems Lecture 8 - Microelectronic Technology for MEMS - II
Link MEMS and Microsystems Lecture 9 - Microelectronic Technology for MEMS - III
Link MEMS and Microsystems Lecture 10 - Micromachining Technology for MEMS
Link MEMS and Microsystems Lecture 11 - Micromachining Process
Link MEMS and Microsystems Lecture 12 - Etch Stop Techniques and Microstructure
Link MEMS and Microsystems Lecture 13 - Surface and Quartz Micromachining
Link MEMS and Microsystems Lecture 14 - Fabrication of Micromachined Microstructure
Link MEMS and Microsystems Lecture 15 - Microstereolithography
Link MEMS and Microsystems Lecture 16 - MEMS Microsensors Thermal
Link MEMS and Microsystems Lecture 17 - Micromachined Microsensors Mechanical
Link MEMS and Microsystems Lecture 18 - MEMS Pressure and Flow Sensor
Link MEMS and Microsystems Lecture 19 - Micromachined Flow Sensors
Link MEMS and Microsystems Lecture 20 - MEMS Inertial Sensors
Link MEMS and Microsystems Lecture 21 - Micromachined Microaccelerometers for MEMS
Link MEMS and Microsystems Lecture 22 - MEMS Accelerometers for Avionics
Link MEMS and Microsystems Lecture 23 - Temperature Drift and Damping Analysis
Link MEMS and Microsystems Lecture 24 - Piezoresistive Accelerometer Technology
Link MEMS and Microsystems Lecture 25 - MEMS Capacitive Accelerometer
Link MEMS and Microsystems Lecture 26 - MEMS Capacitive Accelerometer Process
Link MEMS and Microsystems Lecture 27 - MEMS Gyro Sensor
Link MEMS and Microsystems Lecture 28 - MEMS for Space Application
Link MEMS and Microsystems Lecture 29 - Polymer MEMS & Carbon Nano Tubes CNT
Link MEMS and Microsystems Lecture 30 - Wafer Bonding & Packaging of MEMS
Link MEMS and Microsystems Lecture 31 - Interface Electronics for MEMS
Link MEMS and Microsystems Lecture 32 - MEMS for Biomedical Applications (Bio-MEMS)
Link Neural Networks and Applications Lecture 1 - Introduction to Artificial Neural Networks
Link Neural Networks and Applications Lecture 2 - Artificial Neuron Model and Linear Regression
Link Neural Networks and Applications Lecture 3 - Gradient Descent Algorithm
Link Neural Networks and Applications Lecture 4 - Nonlinear Activation Units and Learning Mechanisms
Link Neural Networks and Applications Lecture 5 - Learning Mechanisms-Hebbian, Competitive, Boltzmann
Link Neural Networks and Applications Lecture 6 - Associative memory
Link Neural Networks and Applications Lecture 7 - Associative Memory Model
Link Neural Networks and Applications Lecture 8 - Condition for Perfect Recall in Associative Memory
Link Neural Networks and Applications Lecture 9 - Statistical Aspects of Learning
Link Neural Networks and Applications Lecture 10 - V.C. Dimensions: Typical Examples
Link Neural Networks and Applications Lecture 11 - Importance of V.C. Dimensions Structural Risk Minimization
Link Neural Networks and Applications Lecture 12 - Single-Layer Perceptions
Link Neural Networks and Applications Lecture 13 - Unconstrained Optimization: Gauss-Newton's Method
Link Neural Networks and Applications Lecture 14 - Linear Least Squares Filters
Link Neural Networks and Applications Lecture 15 - Least Mean Squares Algorithm
Link Neural Networks and Applications Lecture 16 - Perceptron Convergence Theorem
Link Neural Networks and Applications Lecture 17 - Bayes Classifier & Perceptron: An Analogy
Link Neural Networks and Applications Lecture 18 - Bayes Classifier for Gaussian Distribution
Link Neural Networks and Applications Lecture 19 - Back Propagation Algorithm
Link Neural Networks and Applications Lecture 20 - Practical Consideration in Back Propagation Algorithm
Link Neural Networks and Applications Lecture 21 - Solution of Non-Linearly Separable Problems Using MLP
Link Neural Networks and Applications Lecture 22 - Heuristics For Back-Propagation
Link Neural Networks and Applications Lecture 23 - Multi-Class Classification Using Multi-layered Perceptrons
Link Neural Networks and Applications Lecture 24 - Radial Basis Function Networks: Cover's Theorem
Link Neural Networks and Applications Lecture 25 - Radial Basis Function Networks: Separability & Interpolation
Link Neural Networks and Applications Lecture 26 - Posed Surface Reconstruction
Link Neural Networks and Applications Lecture 27 - Solution of Regularization Equation: Greens Function
Link Neural Networks and Applications Lecture 28 - Use of Greens Function in Regularization Networks
Link Neural Networks and Applications Lecture 29 - Regularization Networks and Generalized RBF
Link Neural Networks and Applications Lecture 30 - Comparison Between MLP and RBF
Link Neural Networks and Applications Lecture 31 - Learning Mechanisms in RBF
Link Neural Networks and Applications Lecture 32 - Introduction to Principal Components and Analysis
Link Neural Networks and Applications Lecture 33 - Dimensionality reduction Using PCA
Link Neural Networks and Applications Lecture 34 - Hebbian-Based Principal Component Analysis
Link Neural Networks and Applications Lecture 35 - Introduction to Self Organizing Maps
Link Neural Networks and Applications Lecture 36 - Cooperative and Adaptive Processes in SOM
Link Neural Networks and Applications Lecture 37 - Vector-Quantization Using SOM
Link Probability and Random Processes Lecture 1 - Introduction to the Theory of Probability
Link Probability and Random Processes Lecture 2 - Axioms of Probability
Link Probability and Random Processes Lecture 3 - Axioms of Probability (Continued.)
Link Probability and Random Processes Lecture 4 - Introduction to Random Variables
Link Probability and Random Processes Lecture 5 - Probability Distributions and Density Functions
Link Probability and Random Processes Lecture 6 - Conditional Distribution and Density Functions
Link Probability and Random Processes Lecture 7 - Function of a Random Variable
Link Probability and Random Processes Lecture 8 - Function of a Random Variable (Continued.)
Link Probability and Random Processes Lecture 9 - Mean and Variance of a Random Variable
Link Probability and Random Processes Lecture 10 - Moments
Link Probability and Random Processes Lecture 11 - Characteristic Function
Link Probability and Random Processes Lecture 12 - Two Random Variables
Link Probability and Random Processes Lecture 13 - Function of Two Random Variables
Link Probability and Random Processes Lecture 14 - Function of Two Random Variables (Continued.)
Link Probability and Random Processes Lecture 15 - Correlation Covariance and Related Innver
Link Probability and Random Processes Lecture 16 - Vector Space of Random Variables
Link Probability and Random Processes Lecture 17 - Joint Moments
Link Probability and Random Processes Lecture 18 - Joint Characteristic Functions
Link Probability and Random Processes Lecture 19 - Joint Conditional Densities
Link Probability and Random Processes Lecture 20 - Joint Conditional Densities (Continued.)
Link Probability and Random Processes Lecture 21 - Sequences of Random Variables
Link Probability and Random Processes Lecture 22 - Sequences of Random Variables (Continued.)
Link Probability and Random Processes Lecture 23 - Correlation Matrices and their Properties
Link Probability and Random Processes Lecture 24 - Correlation Matrices and their Properties
Link Probability and Random Processes Lecture 25 - Conditional Densities of Random Vectors
Link Probability and Random Processes Lecture 26 - Characteristic Functions and Normality
Link Probability and Random Processes Lecture 27 - Tchebycheff Inequality and Estimation of an Unknown Parameter
Link Probability and Random Processes Lecture 28 - Central Limit Theorem
Link Probability and Random Processes Lecture 29 - Introduction to Stochastic Process
Link Probability and Random Processes Lecture 30 - Stationary Processes
Link Probability and Random Processes Lecture 31 - Cyclostationary Processes
Link Probability and Random Processes Lecture 32 - System with Random Process at Input
Link Probability and Random Processes Lecture 33 - Ergodic Processes
Link Probability and Random Processes Lecture 34 - Introduction to Spectral Analysis
Link Probability and Random Processes Lecture 35 - Spectral Analysis (Continued.)
Link Probability and Random Processes Lecture 36 - Spectrum Estimation - Non Parametric Methods
Link Probability and Random Processes Lecture 37 - Spectrum Estimation - Parametric Methods
Link Probability and Random Processes Lecture 38 - Autoregressive Modeling and Linear Prediction
Link Probability and Random Processes Lecture 39 - Linear Mean Square Estimation - Wiener (FIR)
Link Probability and Random Processes Lecture 40 - Adaptive Filtering - LMS Algorithm
Link Pattern Recognition and Application Lecture 1 - Introduction
Link Pattern Recognition and Application Lecture 2 - Feature Extraction - I
Link Pattern Recognition and Application Lecture 3 - Feature Extraction - II
Link Pattern Recognition and Application Lecture 4 - Feature Extraction - III
Link Pattern Recognition and Application Lecture 5 - Bayes Decision Theory
Link Pattern Recognition and Application Lecture 6 - Bayes Decision Theory (Continued.)
Link Pattern Recognition and Application Lecture 7 - Normal Density and Discriminant Function
Link Pattern Recognition and Application Lecture 8 - Normal Density and Discriminant Function (Continued.)
Link Pattern Recognition and Application Lecture 9 - Bayes Decision Theory - Binary Features
Link Pattern Recognition and Application Lecture 10 - Maximum Likelihood Estimation
Link Pattern Recognition and Application Lecture 11 - Probability Density Estimation
Link Pattern Recognition and Application Lecture 12 - Probability Density Estimation (Continued.)
Link Pattern Recognition and Application Lecture 13 - Probability Density Estimation (Continued.)
Link Pattern Recognition and Application Lecture 14 - Probability Density Estimation (Continued.)
Link Pattern Recognition and Application Lecture 15 - Probability Density Estimation (Continued.)
Link Pattern Recognition and Application Lecture 16 - Dimensionality Problem
Link Pattern Recognition and Application Lecture 17 - Multiple Discriminant Analysis
Link Pattern Recognition and Application Lecture 18 - Multiple Discriminant Analysis (Tutorial)
Link Pattern Recognition and Application Lecture 19 - Multiple Discriminant Analysis (Tutorial)
Link Pattern Recognition and Application Lecture 20 - Perceptron Criterion
Link Pattern Recognition and Application Lecture 21 - Perceptron Criterion (Continued.)
Link Pattern Recognition and Application Lecture 22 - MSE Criterion
Link Pattern Recognition and Application Lecture 23 - Linear Discriminator (Tutorial)
Link Pattern Recognition and Application Lecture 24 - Neural Networks for Pattern Recognition
Link Pattern Recognition and Application Lecture 25 - Neural Networks for Pattern Recognition (Continued.)
Link Pattern Recognition and Application Lecture 26 - Neural Networks for Pattern Recognition (Continued.)
Link Pattern Recognition and Application Lecture 27 - RBF Neural Network
Link Pattern Recognition and Application Lecture 28 - RBF Neural Network (Continued.)
Link Pattern Recognition and Application Lecture 29 - Support Vector Machine
Link Pattern Recognition and Application Lecture 30 - Hyperbox Classifier
Link Pattern Recognition and Application Lecture 31 - Hyperbox Classifier (Continued.)
Link Pattern Recognition and Application Lecture 32 - Fuzzy Min Max Neural Network for Pattern Recognition
Link Pattern Recognition and Application Lecture 33 - Reflex Fuzzy Min Max Neural Network
Link Pattern Recognition and Application Lecture 34 - Unsupervised Learning - Clustering
Link Pattern Recognition and Application Lecture 35 - Clustering (Continued.)
Link Pattern Recognition and Application Lecture 36 - Clustering using minimal spanning tree
Link Pattern Recognition and Application Lecture 37 - Temporal Pattern recognition
Link Pattern Recognition and Application Lecture 38 - Hidden Markov Model
Link Pattern Recognition and Application Lecture 39 - Hidden Markov Model (Continued.)
Link Pattern Recognition and Application Lecture 40 - Hidden Markov Model (Continued.)
Link NOC:Basic Tools of Microwave Engineering Lecture 1 - Challenges of Microwave Design
Link NOC:Basic Tools of Microwave Engineering Lecture 2 - Introduction to the 1st tool : Smith Chart
Link NOC:Basic Tools of Microwave Engineering Lecture 3 - Measurement of Unknown Impedance
Link NOC:Basic Tools of Microwave Engineering Lecture 4 - Application of Smith Chart for finding unknown impedance in laboratory
Link NOC:Basic Tools of Microwave Engineering Lecture 5 - Problem Solving using Smith Chart
Link NOC:Basic Tools of Microwave Engineering Lecture 6 - Need of Impedance Matching at Microwave Frequency
Link NOC:Basic Tools of Microwave Engineering Lecture 7 - Lumped Element Based Impedance Matching Network Design by Smith Chart
Link NOC:Basic Tools of Microwave Engineering Lecture 8 - Distributed Impedance Matching Design by Smith Chart
Link NOC:Basic Tools of Microwave Engineering Lecture 9 - Broadband Impedance Matching Network Design
Link NOC:Basic Tools of Microwave Engineering Lecture 10 - Tutorial 2: Impedance Matching Network Design by Smith Chart
Link NOC:Basic Tools of Microwave Engineering Lecture 11 - Voltage and Current at Microwave Frequency
Link NOC:Basic Tools of Microwave Engineering Lecture 12 - Scattering Parameter : the Second Tool
Link NOC:Basic Tools of Microwave Engineering Lecture 13 - Properties of Scattering Parameter
Link NOC:Basic Tools of Microwave Engineering Lecture 14 - Network Analyser
Link NOC:Basic Tools of Microwave Engineering Lecture 15 - Tutorial 3: Problem Solving on Equivalent Voltage and Current in Waveguide and on scattering parameters
Link NOC:Basic Tools of Microwave Engineering Lecture 16 - Radiation between S-Parameters and Transmission Parameters
Link NOC:Basic Tools of Microwave Engineering Lecture 17 - Scattering Parameters of Coupler and Magic Tee
Link NOC:Basic Tools of Microwave Engineering Lecture 18 - Signal Flow Graph
Link NOC:Basic Tools of Microwave Engineering Lecture 19 - Understanding Network Analyser Calibration with the help of Signal Flow Graph
Link NOC:Basic Tools of Microwave Engineering Lecture 20 - Tutorial 4: Problem Solving Related to S-Parameters and Signal Flow Graph
Link NOC:Basic Building Blocks of Microwave Engineering Lecture 1 - Concept of Mode
Link NOC:Basic Building Blocks of Microwave Engineering Lecture 2 - Mathematical Model of Modes
Link NOC:Basic Building Blocks of Microwave Engineering Lecture 3 - Mathematical Model of TEM Mode
Link NOC:Basic Building Blocks of Microwave Engineering Lecture 4 - Mathematical Model of TE and TM Mode and Impedance Concept
Link NOC:Basic Building Blocks of Microwave Engineering Lecture 5 - Losses Associated with Microwave Transmission
Link NOC:Basic Building Blocks of Microwave Engineering Lecture 6 - Coaxial Line
Link NOC:Basic Building Blocks of Microwave Engineering Lecture 7 - Rectangular Waveguide
Link NOC:Basic Building Blocks of Microwave Engineering Lecture 8 - Circular Waveguide
Link NOC:Basic Building Blocks of Microwave Engineering Lecture 9 - Planar Transmission Line
Link NOC:Basic Building Blocks of Microwave Engineering Lecture 10 - Coaxial Connectors
Link NOC:Basic Building Blocks of Microwave Engineering Lecture 11 - 3 Port Microwave Power Divider/Combiner - Part I
Link NOC:Basic Building Blocks of Microwave Engineering Lecture 12 - 3 Port Microwave Power Divider/Combiner - Part II
Link NOC:Basic Building Blocks of Microwave Engineering Lecture 13 - 4 Port Microwave Power Divider/Combiner
Link NOC:Basic Building Blocks of Microwave Engineering Lecture 14 - Microwave Resonator
Link NOC:Basic Building Blocks of Microwave Engineering Lecture 15 - Microwave Attenuuators
Link NOC:Basic Building Blocks of Microwave Engineering Lecture 16 - Microwave Detector and Switching Diodes
Link NOC:Basic Building Blocks of Microwave Engineering Lecture 17 - Microwave Tubes : Part I Edit Lesson
Link NOC:Basic Building Blocks of Microwave Engineering Lecture 18 - Microwave Tubes : Part II and Amplifiers
Link NOC:Basic Building Blocks of Microwave Engineering Lecture 19 - Microwave Solid State Diode Oscillator and Amplifier
Link NOC:Basic Building Blocks of Microwave Engineering Lecture 20 - Microwave Transistors
Link NOC:Satellite Communication Systems Lecture 1 - Introduction
Link NOC:Satellite Communication Systems Lecture 2 - Orbit - 1
Link NOC:Satellite Communication Systems Lecture 3 - Orbit - 2
Link NOC:Satellite Communication Systems Lecture 4 - Orbit - 3
Link NOC:Satellite Communication Systems Lecture 5 - Orbit - 4
Link NOC:Satellite Communication Systems Lecture 6 - Space Segment - 1
Link NOC:Satellite Communication Systems Lecture 7 - Space Segment - 2
Link NOC:Satellite Communication Systems Lecture 8 - Space Segment - 3
Link NOC:Satellite Communication Systems Lecture 9 - Space Segment - 4
Link NOC:Satellite Communication Systems Lecture 10 - Space Segment - 5
Link NOC:Satellite Communication Systems Lecture 11 - Link Budget - 1
Link NOC:Satellite Communication Systems Lecture 12 - Link Budget - 2
Link NOC:Satellite Communication Systems Lecture 13 - Link Budget - 3
Link NOC:Satellite Communication Systems Lecture 14 - Link Budget - 4
Link NOC:Satellite Communication Systems Lecture 15 - Link Budget - 5
Link NOC:Satellite Communication Systems Lecture 16 - Link Budget - 6
Link NOC:Satellite Communication Systems Lecture 17 - Link Budget - 7
Link NOC:Satellite Communication Systems Lecture 18 - Link Budget - 8
Link NOC:Satellite Communication Systems Lecture 19 - Propagation - 1
Link NOC:Satellite Communication Systems Lecture 20 - Propagation - 2
Link NOC:Satellite Communication Systems Lecture 21 - Propagation - 3
Link NOC:Satellite Communication Systems Lecture 22 - Ground Segment - 1
Link NOC:Satellite Communication Systems Lecture 23 - Ground Segment - 2
Link NOC:Satellite Communication Systems Lecture 24 - Ground Segment - 3
Link NOC:Satellite Communication Systems Lecture 25 - Ground Segment - 4
Link NOC:Satellite Communication Systems Lecture 26 - Multiple Access - 1
Link NOC:Satellite Communication Systems Lecture 27 - Multiple Access - 2
Link NOC:Satellite Communication Systems Lecture 28 - Multiple Access - 3
Link NOC:Satellite Communication Systems Lecture 29 - Multiple Access - 4
Link NOC:Satellite Communication Systems Lecture 30 - Multiple Access - 5
Link NOC:Satellite Communication Systems Lecture 31 - Nonlinearity - I
Link NOC:Satellite Communication Systems Lecture 32 - Nonlinearity - II
Link NOC:Satellite Communication Systems Lecture 33 - Nonlinearity - III
Link NOC:Satellite Communication Systems Lecture 34 - Synchronisation - I
Link NOC:Satellite Communication Systems Lecture 35 - Synchronisation - II
Link NOC:Satellite Communication Systems Lecture 36 - Effect on Higher Layer - I
Link NOC:Satellite Communication Systems Lecture 37 - Effect on Higher Layer - II
Link NOC:Satellite Communication Systems Lecture 38 - Effect on Higher Layer - III
Link NOC:Satellite Communication Systems Lecture 39 - Satellite Navigation - I
Link NOC:Satellite Communication Systems Lecture 40 - Satellite Navigation - II
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 1 - Evolution of Wireless Communication Systems 1G - 5G
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 2 - Elements of Wireless Communication System
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 3 - Overview of MIMO Communication Systems
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 4 - Layered View of Transmitter and Receiver : Introduction to the Channel
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 5 - Wireless Channel Models - I
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 6 - Large Scale Propagation Models Path Loss
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 7 - Large Scale Propagation Models Path Loss and Shadowing
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 8 - Small Scale Propagation Multipath Model
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 9 - Small Scale Propagation Frequency Flat Fading
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 10 - Small Scale Propagation Envelope Distribution
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 11 - Small Scale Propagation Received Signal Correlation
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 12 - Small Scale Propagation Received Signal Correlation (Continued...)
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 13 - Coherence Time
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 14 - Doppler Spectrum
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 15 - Frequency Selective Fading
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 16 - Frequency Selective Fading - II
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 17 - FSF-Coherence Bandwidth, Delay Doppeler Characteristics
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 18 - Spatial Channel Characteristics - I
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 19 - Expression of MIMO Channel
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 20 - MIMO Channel Characteristics
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 21 - Statistical Properties of H
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 22 - Important Results from Linear Algebra
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 23 - Spatial Diversity
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 24 - Selection Combining
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 25 - Maximal Ratio Combining
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 26 - Problem of Error in MRC
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 27 - Diversity Gain and Transmit MRC
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 28 - Transmit Diversity without Channel known at Tx
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 29 - MIMO Transmit Diversity - 1
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 30 - MIMO Diversity - 2
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 31 - Fundamentals of Information Theory - I
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 32 - Fundamentals of Information Theory - II
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 33 - Fundamentals of Information Theory - III
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 34 - Fundamentals of Information Theory - IV
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 35 - Capacity of Deterministic MIMO Channels
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 36 - Capacity of Channel Unknown at Transmitter
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 37 - Capacity of Channel Known of Transmitter
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 38 - More on MIMO Channel Capacity
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 39 - Capacity of Random Channel
Link NOC:Fundamentals of MIMO Wireless Communication Lecture 40 - MIMO in Practice
Link NOC:Audio System Engineering Lecture 1 - Introduction
Link NOC:Audio System Engineering Lecture 2 - Fundamentals of Linear Vibrations Edit Lesson
Link NOC:Audio System Engineering Lecture 3 - Damped Oscillation and Forced Oscillation
Link NOC:Audio System Engineering Lecture 4 - Equivalent Electrical Circuits for Oscillation
Link NOC:Audio System Engineering Lecture 5 - Tutorial I
Link NOC:Audio System Engineering Lecture 6 - Acoustic Wave Equation
Link NOC:Audio System Engineering Lecture 7 - Acoustic Wave Equation (Continued...)
Link NOC:Audio System Engineering Lecture 8 - Acoustic Wave Equation (Continued...)
Link NOC:Audio System Engineering Lecture 9 - Spherical Waves Propagation
Link NOC:Audio System Engineering Lecture 10 - Perception at Sound
Link NOC:Audio System Engineering Lecture 11 - Sound Transmission
Link NOC:Audio System Engineering Lecture 12 - Sound Transmission (Continued...)
Link NOC:Audio System Engineering Lecture 13 - The Acoustic Environment
Link NOC:Audio System Engineering Lecture 14 - Room Acoustics - I
Link NOC:Audio System Engineering Lecture 15 - Room Acoustics - II
Link NOC:Audio System Engineering Lecture 16 - Large Room Acoustics and Small Room Acoustics
Link NOC:Audio System Engineering Lecture 17 - Large Room Acoustics and Small Room Acoustics (Continued...)
Link NOC:Audio System Engineering Lecture 18 - Auditorium Acoustics
Link NOC:Audio System Engineering Lecture 19 - Transduction - I
Link NOC:Audio System Engineering Lecture 20 - Transduction - II
Link NOC:Audio System Engineering Lecture 21 - Transduction - III
Link NOC:Audio System Engineering Lecture 22 - Microphone - I
Link NOC:Audio System Engineering Lecture 23 - Microphone Sensitivity
Link NOC:Audio System Engineering Lecture 24 - Loudspeaker
Link NOC:Discrete Time Signal Processing Lecture 1 - Introduction
Link NOC:Discrete Time Signal Processing Lecture 2 - Discrete Time Signals and Systems
Link NOC:Discrete Time Signal Processing Lecture 3 - Linear, Shift Invariant Systems
Link NOC:Discrete Time Signal Processing Lecture 4 - Properties of Discrete Convolution Causal and Stable Systems
Link NOC:Discrete Time Signal Processing Lecture 5 - Graphical Evaluation of Discrete Convolutions
Link NOC:Discrete Time Signal Processing Lecture 6 - Discrete Time Fourier Transform
Link NOC:Discrete Time Signal Processing Lecture 7 - Properties of DTFT
Link NOC:Discrete Time Signal Processing Lecture 8 - Dirac Comb and Sampling Analog Signals
Link NOC:Discrete Time Signal Processing Lecture 9 - Relation between DTFT and Analog Fourier Transform
Link NOC:Discrete Time Signal Processing Lecture 10 - Nyquist Interpolation Formula
Link NOC:Discrete Time Signal Processing Lecture 11 - Rational Systems
Link NOC:Discrete Time Signal Processing Lecture 12 - Properties of Rational Systems
Link NOC:Discrete Time Signal Processing Lecture 13 - Introduction to Z-transform
Link NOC:Discrete Time Signal Processing Lecture 14 - Properties of Z-transform
Link NOC:Discrete Time Signal Processing Lecture 15 - Properties of z-transform
Link NOC:Discrete Time Signal Processing Lecture 16 - Inverse z-transform
Link NOC:Discrete Time Signal Processing Lecture 17 - Introduction to DFT
Link NOC:Discrete Time Signal Processing Lecture 18 - Properties of DFT
Link NOC:Discrete Time Signal Processing Lecture 19 - Introduction to Interpretation of Circular Convolution
Link NOC:Discrete Time Signal Processing Lecture 20 - Graphically Interpretation of Circular Convolution
Link NOC:Discrete Time Signal Processing Lecture 21 - Zero Padding and Linear convolution Via DFT
Link NOC:Discrete Time Signal Processing Lecture 22 - Decimation and DFT of Decimated Sequences
Link NOC:Discrete Time Signal Processing Lecture 23 - Expension and Interpolation of Sequences
Link NOC:Discrete Time Signal Processing Lecture 24 - Factor-of-M Polyphase Decomposition of Sequences
Link NOC:Discrete Time Signal Processing Lecture 25 - Nobel Identifies
Link NOC:Discrete Time Signal Processing Lecture 26 - Efficient Decimator and Interpolator Structure
Link NOC:Discrete Time Signal Processing Lecture 27 - Linear Phase Filters
Link NOC:Discrete Time Signal Processing Lecture 28 - Properties of Linear Phase Filters
Link NOC:Discrete Time Signal Processing Lecture 29 - Structures for IIR Filters
Link NOC:Discrete Time Signal Processing Lecture 30 - Structures for FIR Filters
Link NOC:Discrete Time Signal Processing Lecture 31 - Analog LTI Systems, Fourier and Laplace Transforms
Link NOC:Discrete Time Signal Processing Lecture 32 - Pole, Zero and Stability of of Analog Filters
Link NOC:Discrete Time Signal Processing Lecture 33 - Analog Filter Design Example Butterworth Lowpass Filter
Link NOC:Discrete Time Signal Processing Lecture 34 - IIR Filter Design by Implus Invariance Method
Link NOC:Discrete Time Signal Processing Lecture 35 - Design Filter Design from Analog Proptotype Filters by s-z Transformations
Link NOC:Discrete Time Signal Processing Lecture 36 - Bilinear Transformation
Link NOC:Discrete Time Signal Processing Lecture 37 - FIR Filter Design by Window
Link NOC:Discrete Time Signal Processing Lecture 38 - FFT: Decimation in Time
Link NOC:Discrete Time Signal Processing Lecture 39 - Complexity Analysis of FFT
Link NOC:Discrete Time Signal Processing Lecture 40 - Bit Reversal and FFT
Link NOC:Digital Image Processing Lecture 1 - Introduction to Digital Image Processing
Link NOC:Digital Image Processing Lecture 2 - Application of Digital Image Processing
Link NOC:Digital Image Processing Lecture 3 - Image Digitalization, Sampling Quantization and Display
Link NOC:Digital Image Processing Lecture 4 - Signal Reconstruction from Samples: Convolution Concept
Link NOC:Digital Image Processing Lecture 5 - Signal Reconstruction from Image
Link NOC:Digital Image Processing Lecture 6 - Quantizer Design
Link NOC:Digital Image Processing Lecture 7 - Relationship between Pixels
Link NOC:Digital Image Processing Lecture 8 - Relationship of Adjacency and Connected Components Labeling
Link NOC:Digital Image Processing Lecture 9 - Application of Distance Measures
Link NOC:Digital Image Processing Lecture 10 - Basic Transform
Link NOC:Digital Image Processing Lecture 11 - Image Formation - I
Link NOC:Digital Image Processing Lecture 12 - Image Formation - II
Link NOC:Digital Image Processing Lecture 13 - Image Geometry - I
Link NOC:Digital Image Processing Lecture 14 - Image Geometry - II
Link NOC:Digital Image Processing Lecture 15 - Stereo Imaging Model - II
Link NOC:Digital Image Processing Lecture 16 - Interpolation and Resampling
Link NOC:Digital Image Processing Lecture 17 - Interpolation Techniques
Link NOC:Digital Image Processing Lecture 18 - Interpolation with examples - I
Link NOC:Digital Image Processing Lecture 19 - Interpolation with Examples - II
Link NOC:Digital Image Processing Lecture 20 - Image Transformation - I Edit Lesson
Link NOC:Digital Image Processing Lecture 21 - Image Transformation - 2
Link NOC:Digital Image Processing Lecture 22 - Separable Transformation
Link NOC:Digital Image Processing Lecture 23 - Basis Images
Link NOC:Digital Image Processing Lecture 24 - Fourier Transformation
Link NOC:Digital Image Processing Lecture 25 - Properties of FT
Link NOC:Digital Image Processing Lecture 26 - FT Result Display - 2
Link NOC:Digital Image Processing Lecture 27 - Rotation Invariance Property
Link NOC:Digital Image Processing Lecture 28 - DCT and Walsh Transform
Link NOC:Digital Image Processing Lecture 29 - Handmard Transformation
Link NOC:Digital Image Processing Lecture 30 - Histogram Equalization and Specifications - I
Link NOC:Digital Image Processing Lecture 31 - KL-transform-2
Link NOC:Digital Image Processing Lecture 32 - Image Enhancement: Point Processing Techniques
Link NOC:Digital Image Processing Lecture 33 - Contrast Stretching Operation
Link NOC:Digital Image Processing Lecture 34 - Histogram Equalization and Specification - I
Link NOC:Digital Image Processing Lecture 35 - Histogram Equalization and Specification - II
Link NOC:Digital Image Processing Lecture 36 - Histogram Implementation - I
Link NOC:Digital Image Processing Lecture 37 - Histogram Implementation - II
Link NOC:Digital Image Processing Lecture 38 - Image Enhancement : Mask Processing Techniques - I
Link NOC:Digital Image Processing Lecture 39 - Image Enhancement : Mask Processing Techniques - II
Link NOC:Digital Image Processing Lecture 40 - Image Enhancement : Mask Processing Techniques - III
Link NOC:Digital Image Processing Lecture 41 - Frequency Domain Processing Techniques
Link NOC:Digital Image Processing Lecture 42 - Image Restoration Techniques - I
Link NOC:Digital Image Processing Lecture 43 - Image Restoration Techniques - II
Link NOC:Digital Image Processing Lecture 44 - Estimation of Degradation Model and Restoration Techniques - I
Link NOC:Digital Image Processing Lecture 45 - Estimation of Degradation Model and Restoration Techniques - II
Link NOC:Digital Image Processing Lecture 46 - Other Restoration Techniques - I
Link NOC:Digital Image Processing Lecture 47 - Other Restoration Techniques - II
Link NOC:Digital Image Processing Lecture 48 - Image Registration - I
Link NOC:Digital Image Processing Lecture 49 - Image Registration - II
Link NOC:Digital Image Processing Lecture 50 - Colour Image Processing : Colour Fundamentals
Link NOC:Digital Image Processing Lecture 51 - Colour Model
Link NOC:Digital Image Processing Lecture 52 - Conversion of one color model to another - I
Link NOC:Digital Image Processing Lecture 53 - Conversion of one color model to another - II
Link NOC:Digital Image Processing Lecture 54 - Pseudo color image processing
Link NOC:Digital Image Processing Lecture 55 - Full color image processing
Link NOC:Digital Image Processing Lecture 56 - Different Approaches for Image Segmentation
Link NOC:Digital Image Processing Lecture 57 - Image Segmentation : Global Processing (Hough Transform)
Link NOC:Digital Image Processing Lecture 58 - Region based Segmentation Operation. Thresholding Techniques
Link NOC:Digital Image Processing Lecture 59 - Region Splitting and Merging Technique Edit Lesson
Link NOC:Spread Spectrum Communications and Jamming Lecture 1 - Introduction to Spread Spectrum Communication
Link NOC:Spread Spectrum Communications and Jamming Lecture 2 - Direct Sequence Spread Spectrum System
Link NOC:Spread Spectrum Communications and Jamming Lecture 3 - Performance Analysis of DSSS
Link NOC:Spread Spectrum Communications and Jamming Lecture 4 - Concept of Jamming Margin
Link NOC:Spread Spectrum Communications and Jamming Lecture 5 - Frequency Hopping Spread Spectrum System
Link NOC:Spread Spectrum Communications and Jamming Lecture 6 - Tutorial-1
Link NOC:Spread Spectrum Communications and Jamming Lecture 7 - Slow and Fast Frequency Hopping
Link NOC:Spread Spectrum Communications and Jamming Lecture 8 - Hybrid Spread Spectrum System and Time Hopped SSS
Link NOC:Spread Spectrum Communications and Jamming Lecture 9 - Spread Sequences and Waveforms
Link NOC:Spread Spectrum Communications and Jamming Lecture 10 - Generation Mechanism of ML Sequence
Link NOC:Spread Spectrum Communications and Jamming Lecture 11 - Properties of Spread Spectrum Sequences
Link NOC:Spread Spectrum Communications and Jamming Lecture 12 - Tutorial-2
Link NOC:Spread Spectrum Communications and Jamming Lecture 13 - Power Spectral Density of ML Sequence
Link NOC:Spread Spectrum Communications and Jamming Lecture 14 - Walsh Hadamard Code and Properties
Link NOC:Spread Spectrum Communications and Jamming Lecture 15 - Generation Mechanism and Properties of OVSF and Barker Codes
Link NOC:Spread Spectrum Communications and Jamming Lecture 16 - Generation Mechanism and Properties of Gold and Kasami Codes
Link NOC:Spread Spectrum Communications and Jamming Lecture 17 - Performance Analysis of DSSS in Presence of Tone Jamming
Link NOC:Spread Spectrum Communications and Jamming Lecture 18 - Performance Analysis During Generation Tone Jamming
Link NOC:Spread Spectrum Communications and Jamming Lecture 19 - Performance Analysis in Presence of Gaussian Interference
Link NOC:Spread Spectrum Communications and Jamming Lecture 20 - Performance Analysis of a Quaternary System
Link NOC:Spread Spectrum Communications and Jamming Lecture 21 - Despreading with Matched Filter
Link NOC:Spread Spectrum Communications and Jamming Lecture 22 - Noncoherent Systems
Link NOC:Spread Spectrum Communications and Jamming Lecture 23 - Tutorial - III
Link NOC:Spread Spectrum Communications and Jamming Lecture 24 - Galois Field Mathematics
Link NOC:Spread Spectrum Communications and Jamming Lecture 25 - Galois Field Mathematics (Continued...)
Link NOC:Spread Spectrum Communications and Jamming Lecture 26 - Galois Field Mathematics (Continued...)
Link NOC:Spread Spectrum Communications and Jamming Lecture 27 - Polynomials over Binary Field
Link NOC:Spread Spectrum Communications and Jamming Lecture 28 - Long Nonlinear Sequence Generation
Link NOC:Spread Spectrum Communications and Jamming Lecture 29 - Rejection of Narrowband Interference
Link NOC:Spread Spectrum Communications and Jamming Lecture 30 - Narrow Band Interference Cancellation by Transform Domain Processing
Link NOC:Spread Spectrum Communications and Jamming Lecture 31 - PN Code Acquisition Fundamentals
Link NOC:Spread Spectrum Communications and Jamming Lecture 32 - Performance Analysis of PN Code Acquisition System - Part I
Link NOC:Spread Spectrum Communications and Jamming Lecture 33 - Performance Analysis of PN Code Acquisition System - Part II
Link NOC:Spread Spectrum Communications and Jamming Lecture 34 - Tutorial - IV
Link NOC:Spread Spectrum Communications and Jamming Lecture 35 - Rapid Acquisition Using Matched Filter - Part I
Link NOC:Spread Spectrum Communications and Jamming Lecture 36 - Rapid Acquisition Using Matched Filter - Part II
Link NOC:Spread Spectrum Communications and Jamming Lecture 37 - Active Search Acquisition for FFH/MFSK Signals
Link NOC:Spread Spectrum Communications and Jamming Lecture 38 - Active Search Code Acquisiton for FFH/MFSK Analysis
Link NOC:Spread Spectrum Communications and Jamming Lecture 39 - Detection Probability Analysis of Code Acquisition for FFH / MFSK
Link NOC:Spread Spectrum Communications and Jamming Lecture 40 - Tutorial - V
Link NOC:Spread Spectrum Communications and Jamming Lecture 41 - DSSS Tracking
Link NOC:Spread Spectrum Communications and Jamming Lecture 42 - FHSS Synchronization Method - I
Link NOC:Spread Spectrum Communications and Jamming Lecture 43 - FHSS Synchronization Method - II
Link NOC:Spread Spectrum Communications and Jamming Lecture 44 - FHSS Synchronization Method - III
Link NOC:Spread Spectrum Communications and Jamming Lecture 45 - FHSS Tracking
Link NOC:Spread Spectrum Communications and Jamming Lecture 46 - Tutorial - VI
Link NOC:Spread Spectrum Communications and Jamming Lecture 47 - Concept of Fading for Wireless Communications
Link NOC:Spread Spectrum Communications and Jamming Lecture 48 - Diversity for Fading Channels
Link NOC:Spread Spectrum Communications and Jamming Lecture 49 - Rake Receiver
Link NOC:Spread Spectrum Communications and Jamming Lecture 50 - Performance Analysis of Rake Receiver
Link NOC:Spread Spectrum Communications and Jamming Lecture 51 - Spread Spectrum Multiple Access
Link NOC:Spread Spectrum Communications and Jamming Lecture 52 - Tutorial - VII
Link NOC:Spread Spectrum Communications and Jamming Lecture 53 - Introduction to CDMA
Link NOC:Spread Spectrum Communications and Jamming Lecture 54 - Interference Handling Mechanism in CDMA Networks
Link NOC:Spread Spectrum Communications and Jamming Lecture 55 - Interference Handling by Soft Handover
Link NOC:Spread Spectrum Communications and Jamming Lecture 56 - Interference Handling by Smart Antenna
Link NOC:Spread Spectrum Communications and Jamming Lecture 57 - Multiuser Detection and Interference Cancellation
Link NOC:Spread Spectrum Communications and Jamming Lecture 58 - Tutorial - VIII
Link NOC:Spread Spectrum Communications and Jamming Lecture 59 - Multiuser Detection - Part I
Link NOC:Spread Spectrum Communications and Jamming Lecture 60 - Multiuser Detection - Part II
Link NOC:Spread Spectrum Communications and Jamming Lecture 61 - MUD - Probability of Error
Link NOC:Spread Spectrum Communications and Jamming Lecture 62 - IS95 and CDMA - Part I
Link NOC:Spread Spectrum Communications and Jamming Lecture 63 - IS95 and CDMA - Part II
Link NOC:Spread Spectrum Communications and Jamming Lecture 64 - Tutorial - IX
Link NOC:Spread Spectrum Communications and Jamming Lecture 65 - WCDMA and UMTS - Part I
Link NOC:Spread Spectrum Communications and Jamming Lecture 66 - WCDMA and UMTS - Part II
Link NOC:Spread Spectrum Communications and Jamming Lecture 67 - LPI Communications
Link NOC:Spread Spectrum Communications and Jamming Lecture 68 - Radiometer
Link NOC:Spread Spectrum Communications and Jamming Lecture 69 - Interceptor Detectors
Link NOC:Digital VLSI Testing Lecture 1 - Introduction
Link NOC:Digital VLSI Testing Lecture 2 - Introduction (Continued...)
Link NOC:Digital VLSI Testing Lecture 3 - Introduction (Continued...)
Link NOC:Digital VLSI Testing Lecture 4 - Introduction (Continued...)
Link NOC:Digital VLSI Testing Lecture 5 - DFT
Link NOC:Digital VLSI Testing Lecture 6 - DFT (Continued...)
Link NOC:Digital VLSI Testing Lecture 7 - DFT (Continued...)
Link NOC:Digital VLSI Testing Lecture 8 - DFT (Continued...)
Link NOC:Digital VLSI Testing Lecture 9 - DFT (Continued...)
Link NOC:Digital VLSI Testing Lecture 10 - DFT (Continued...)
Link NOC:Digital VLSI Testing Lecture 11 - Logic and Fault Simulation
Link NOC:Digital VLSI Testing Lecture 12 - Logic and Fault Simulation (Continued...)
Link NOC:Digital VLSI Testing Lecture 13 - Logic and Fault Simulation (Continued...)
Link NOC:Digital VLSI Testing Lecture 14 - Logic and Fault Simulation (Continued...)
Link NOC:Digital VLSI Testing Lecture 15 - Logic and Fault Simulation (Continued...)
Link NOC:Digital VLSI Testing Lecture 16 - Logic and Fault Simulation (Continued...)
Link NOC:Digital VLSI Testing Lecture 17 - Test Generation
Link NOC:Digital VLSI Testing Lecture 18 - Test Generation (Continued...)
Link NOC:Digital VLSI Testing Lecture 19 - Test Generation (Continued...)
Link NOC:Digital VLSI Testing Lecture 20 - Test Generation (Continued...)
Link NOC:Digital VLSI Testing Lecture 21 - Test Generation (Continued...)
Link NOC:Digital VLSI Testing Lecture 22 - Test Generation (Continued...)
Link NOC:Digital VLSI Testing Lecture 23 - Test Generation (Continued...)
Link NOC:Digital VLSI Testing Lecture 24 - Logic BIST
Link NOC:Digital VLSI Testing Lecture 25 - Logic BIST (Continued...)
Link NOC:Digital VLSI Testing Lecture 26 - Logic BIST (Continued...)
Link NOC:Digital VLSI Testing Lecture 27 - Logic BIST (Continued...)
Link NOC:Digital VLSI Testing Lecture 28 - Test Compression
Link NOC:Digital VLSI Testing Lecture 29 - Test Compression (Continued...)
Link NOC:Digital VLSI Testing Lecture 30 - Test Compression (Continued...)
Link NOC:Digital VLSI Testing Lecture 31 - Test Compression (Continued...)
Link NOC:Digital VLSI Testing Lecture 32 - Low Power Testing
Link NOC:Digital VLSI Testing Lecture 33 - Low Power Testing (Continued...)
Link NOC:Digital VLSI Testing Lecture 34 - Low Power Testing (Continued...)
Link NOC:Digital VLSI Testing Lecture 35 - Low Power Testing (Continued...)
Link NOC:Digital VLSI Testing Lecture 36 - Low Power Testing (Continued...)
Link NOC:Digital VLSI Testing Lecture 37 - Thermal Aware Testing
Link NOC:Digital VLSI Testing Lecture 38 - Thermal Aware Testing (Continued...)
Link NOC:Digital VLSI Testing Lecture 39 - Thermal Aware Testing (Continued...)
Link NOC:Digital VLSI Testing Lecture 40 - Boundary Scan
Link NOC:Digital VLSI Testing Lecture 41 - Boundary Scan (Continued...)
Link NOC:Digital VLSI Testing Lecture 42 - Boundary Scan (Continued...)
Link NOC:Digital VLSI Testing Lecture 43 - Boundary Scan (Continued...)
Link NOC:Digital VLSI Testing Lecture 44 - Boundary Scan (Continued...)
Link NOC:Digital VLSI Testing Lecture 45 - System/Network - On - Chip Test
Link NOC:Digital VLSI Testing Lecture 46 - System/Network - On - Chip Test (Continued...)
Link NOC:Digital VLSI Testing Lecture 47 - System/Network - On - Chip Test (Continued...)
Link NOC:Digital VLSI Testing Lecture 48 - System/Network - On - Chip Test (Continued...)
Link NOC:Digital VLSI Testing Lecture 49 - System/Network - On - Chip Test (Continued...)
Link NOC:Digital VLSI Testing Lecture 50 - System/Network - On - Chip Test (Continued...)
Link NOC:Digital VLSI Testing Lecture 51 - System/Network - On - Chip Test (Continued...)
Link NOC:Digital VLSI Testing Lecture 52 - System/Network - On - Chip Test (Continued...)
Link NOC:Digital VLSI Testing Lecture 53 - System/Network - On - Chip Test (Continued...)
Link NOC:Digital VLSI Testing Lecture 54 - System/Network - On - Chip Test (Continued...)
Link NOC:Digital VLSI Testing Lecture 55 - System/Network - On - Chip Test (Continued...)
Link NOC:Digital VLSI Testing Lecture 56 - System/Network - On - Chip Test (Continued...)
Link NOC:Digital VLSI Testing Lecture 57 - Memory Testing
Link NOC:Digital VLSI Testing Lecture 58 - Memory Testing (Continued...)
Link NOC:Digital VLSI Testing Lecture 59 - Memory Testing (Continued...)
Link NOC:Digital VLSI Testing Lecture 60 - Memory Testing (Continued...)
Link NOC:Design Principles of RF and Microwave Filters and Amplifiers Lecture 1 - Image Impedance based RF filter design
Link NOC:Design Principles of RF and Microwave Filters and Amplifiers Lecture 2 - Concept of Image impedance and Propagation Constant
Link NOC:Design Principles of RF and Microwave Filters and Amplifiers Lecture 3 - Symmetrical lossless network description for filter design
Link NOC:Design Principles of RF and Microwave Filters and Amplifiers Lecture 4 - Constant k prototype filter design
Link NOC:Design Principles of RF and Microwave Filters and Amplifiers Lecture 5 - m-derived prototype filter design
Link NOC:Design Principles of RF and Microwave Filters and Amplifiers Lecture 6 - Introduction to Insertion loss based Microwave Filter Design
Link NOC:Design Principles of RF and Microwave Filters and Amplifiers Lecture 7 - Prototype low pass filter design
Link NOC:Design Principles of RF and Microwave Filters and Amplifiers Lecture 8 - Filter transformation
Link NOC:Design Principles of RF and Microwave Filters and Amplifiers Lecture 9 - Microwave Filter implementation
Link NOC:Design Principles of RF and Microwave Filters and Amplifiers Lecture 10 - Tutorial an Insertion Loss based Microwave Filter design
Link NOC:Design Principles of RF and Microwave Filters and Amplifiers Lecture 11 - Gain Definitions of Microwave Amplifiers
Link NOC:Design Principles of RF and Microwave Filters and Amplifiers Lecture 12 - Stability Analysis of Microwave Amplifiers
Link NOC:Design Principles of RF and Microwave Filters and Amplifiers Lecture 13 - Conditional stability enforcement for Microwave Amplifier
Link NOC:Design Principles of RF and Microwave Filters and Amplifiers Lecture 14 - Amplifier design of maximising transducer gain
Link NOC:Design Principles of RF and Microwave Filters and Amplifiers Lecture 15 - Amplifier design for specified gain
Link NOC:Design Principles of RF and Microwave Filters and Amplifiers Lecture 16 - Amplifier design for specified noise performance
Link NOC:Design Principles of RF and Microwave Filters and Amplifiers Lecture 17 - Broadband Amplifier Design
Link NOC:Design Principles of RF and Microwave Filters and Amplifiers Lecture 18 - Quantitative Characterisation of Nonlinearity for Large Signal Amplifier
Link NOC:Design Principles of RF and Microwave Filters and Amplifiers Lecture 19 - Quantitative Characterisation of Nonlinearity for Large Signal Amplifier (Continued...)
Link NOC:Design Principles of RF and Microwave Filters and Amplifiers Lecture 20 - Measurement of Nonlinearity
Link NOC:Millimeter Wave Technology Lecture 1 - Introduction to Millimeter-Wave Technology
Link NOC:Millimeter Wave Technology Lecture 2 - Introduction to Millimeter-Wave Technology (Continued...)
Link NOC:Millimeter Wave Technology Lecture 3 - Introduction to Millimeter-Wave Technology (Continued...)
Link NOC:Millimeter Wave Technology Lecture 4 - Introduction to Millimeter-Wave Technology (Continued...)
Link NOC:Millimeter Wave Technology Lecture 5 - Introduction to Millimeter-Wave Technology (Continued...)
Link NOC:Millimeter Wave Technology Lecture 6 - Guiding Structures
Link NOC:Millimeter Wave Technology Lecture 7 - Guiding Structures (Continued...)
Link NOC:Millimeter Wave Technology Lecture 8 - Guiding Structures (Continued...)
Link NOC:Millimeter Wave Technology Lecture 9 - Guiding Structures (Continued...)
Link NOC:Millimeter Wave Technology Lecture 10 - Guiding Structures (Continued...)
Link NOC:Millimeter Wave Technology Lecture 11 - Guiding Structures (Continued...)
Link NOC:Millimeter Wave Technology Lecture 12 - Guiding Structures (Continued...)
Link NOC:Millimeter Wave Technology Lecture 13 - Guiding Structures (Continued...)
Link NOC:Millimeter Wave Technology Lecture 14 - Guiding Structures (Continued...)
Link NOC:Millimeter Wave Technology Lecture 15 - Guiding Structures (Continued...)
Link NOC:Millimeter Wave Technology Lecture 16 - Antennas at MM-Wave Frequencies
Link NOC:Millimeter Wave Technology Lecture 17 - Antennas at MM-Wave Frequencies (Continued...)
Link NOC:Millimeter Wave Technology Lecture 18 - Antennas at MM-Wave Frequencies (Continued...)
Link NOC:Millimeter Wave Technology Lecture 19 - Antennas at MM-Wave Frequencies (Continued...)
Link NOC:Millimeter Wave Technology Lecture 20 - Antennas at MM-WaveFrequencies (Continued...)
Link NOC:Millimeter Wave Technology Lecture 21 - Passive Components
Link NOC:Millimeter Wave Technology Lecture 22 - Passive Components (Continued...)
Link NOC:Millimeter Wave Technology Lecture 23 - Passive Components (Continued...)
Link NOC:Millimeter Wave Technology Lecture 24 - Passive Components (Continued...)
Link NOC:Millimeter Wave Technology Lecture 25 - Passive Components (Continued...)
Link NOC:Millimeter Wave Technology Lecture 26 - Active Devices
Link NOC:Millimeter Wave Technology Lecture 27 - Active Devices (Continued...)
Link NOC:Millimeter Wave Technology Lecture 28 - Active Devices (Continued...)
Link NOC:Millimeter Wave Technology Lecture 29 - Active Devices (Continued...)
Link NOC:Millimeter Wave Technology Lecture 30 - Active Devices (Continued...)
Link NOC:Millimeter Wave Technology Lecture 31 - Noise and Link Budget
Link NOC:Millimeter Wave Technology Lecture 32 - Noise and Link Budget (Continued...)
Link NOC:Millimeter Wave Technology Lecture 33 - Noise and Link Budget (Continued...)
Link NOC:Millimeter Wave Technology Lecture 34 - Noise and Link Budget (Continued...)
Link NOC:Millimeter Wave Technology Lecture 35 - Noise and Link Budget (Continued...)
Link NOC:Millimeter Wave Technology Lecture 36 - Millimeter-Wave Systems
Link NOC:Millimeter Wave Technology Lecture 37 - Millimeter-Wave Systems (Continued...)
Link NOC:Millimeter Wave Technology Lecture 38 - Millimeter-Wave Systems (Continued...)
Link NOC:Millimeter Wave Technology Lecture 39 - Millimeter-Wave Systems (Continued...)
Link NOC:Millimeter Wave Technology Lecture 40 - Millimeter-Wave Systems (Continued...)
Link NOC:Power System Analysis Lecture 1 - Structure of Power Systems and Few other Aspects - I
Link NOC:Power System Analysis Lecture 2 - Structure of Power Systems and Few other Aspects - II
Link NOC:Power System Analysis Lecture 3 - Structure of Power Systems and Few other Aspects - III
Link NOC:Power System Analysis Lecture 4 - Resistance and Inductance
Link NOC:Power System Analysis Lecture 5 - Resistance and Inductance (Continued...)
Link NOC:Power System Analysis Lecture 6 - Resistance and Inductance (Continued...)
Link NOC:Power System Analysis Lecture 7 - Resistance and Inductance (Continued...)
Link NOC:Power System Analysis Lecture 8 - Resistance and Inductance (Continued...)
Link NOC:Power System Analysis Lecture 9 - Resistance and Inductance (Continued...)
Link NOC:Power System Analysis Lecture 10 - Resistance and Inductance (Continued...)
Link NOC:Power System Analysis Lecture 11 - Capacitance of Transmisson Lines
Link NOC:Power System Analysis Lecture 12 - Capacitance of Transmisson Lines (Continued...)
Link NOC:Power System Analysis Lecture 13 - Capacitance of Transmisson Lines (Continued...)
Link NOC:Power System Analysis Lecture 14 - Capacitance of Transmisson Lines (Continued...)
Link NOC:Power System Analysis Lecture 15 - Power System Components and per-unit system
Link NOC:Power System Analysis Lecture 16 - Power System Components and per-unit system (Continued...)
Link NOC:Power System Analysis Lecture 17 - Power System Components and per-unit system (Continued...)
Link NOC:Power System Analysis Lecture 18 - Power System Components and per-unit system (Continued...)
Link NOC:Power System Analysis Lecture 19 - Power System Components and per-unit system (Continued...)
Link NOC:Power System Analysis Lecture 20 - Power System Components and per-unit system (Continued...)
Link NOC:Power System Analysis Lecture 21 - Characteristic and performance of transmission lines
Link NOC:Power System Analysis Lecture 22 - Characteristic and performance of transmission lines (Continued...)
Link NOC:Power System Analysis Lecture 23 - Characteristic and performance of transmission lines (Continued...)
Link NOC:Power System Analysis Lecture 24 - Characteristic and performance of transmission lines (Continued...)
Link NOC:Power System Analysis Lecture 25 - Characteristic and performance of transmission lines (Continued...)
Link NOC:Power System Analysis Lecture 26 - Load flow studies
Link NOC:Power System Analysis Lecture 27 - Load flow studies (Continued...)
Link NOC:Power System Analysis Lecture 28 - Load flow studies (Continued...)
Link NOC:Power System Analysis Lecture 29 - Load flow studies (Continued...)
Link NOC:Power System Analysis Lecture 30 - Load flow studies (Continued...)
Link NOC:Power System Analysis Lecture 31
Link NOC:Power System Analysis Lecture 32
Link NOC:Power System Analysis Lecture 33
Link NOC:Power System Analysis Lecture 34
Link NOC:Power System Analysis Lecture 35
Link NOC:Power System Analysis Lecture 36 - Load flow studies (Continued...)
Link NOC:Power System Analysis Lecture 37 - Optimal system operation
Link NOC:Power System Analysis Lecture 38 - Optimal system operation (Continued...)
Link NOC:Power System Analysis Lecture 39 - Optimal system operation (Continued...)
Link NOC:Power System Analysis Lecture 40 - Optimal system operation (Continued...)
Link NOC:Power System Analysis Lecture 41 - Optimal system operation (Continued...)
Link NOC:Power System Analysis Lecture 42 - Optimal system operation (Continued...)
Link NOC:Power System Analysis Lecture 43 - Optimal system operation (Continued...)
Link NOC:Power System Analysis Lecture 44 - Optimal system operation (Continued...)
Link NOC:Power System Analysis Lecture 45 - Three phase fault studies
Link NOC:Power System Analysis Lecture 46 - Three phase fault studies (Continued...)
Link NOC:Power System Analysis Lecture 47 - Three phase fault studies (Continued...)
Link NOC:Power System Analysis Lecture 48 - Three phase fault studies (Continued...)
Link NOC:Power System Analysis Lecture 49 - Symmetrical components
Link NOC:Power System Analysis Lecture 50 - Symmetrical components (Continued...)
Link NOC:Power System Analysis Lecture 51 - Symmetrical components (Continued...)
Link NOC:Power System Analysis Lecture 52 - Symmetrical components (Continued...)
Link NOC:Power System Analysis Lecture 53 - Symmetrical components (Continued...)
Link NOC:Power System Analysis Lecture 54 - Symmetrical components (Continued...)
Link NOC:Power System Analysis Lecture 55 - Power system stability>
Link NOC:Power System Analysis Lecture 56 - Power system stability (Continued...)
Link NOC:Power System Analysis Lecture 57 - Power system stability (Continued...)
Link NOC:Power System Analysis Lecture 58 - Power system stability (Continued...)
Link NOC:Power System Analysis Lecture 59 - Power system stability (Continued...)
Link NOC:Power System Analysis Lecture 60 - Power system stability (Continued...)
Link NOC:Analog Communication Lecture 1 - Fourier Series
Link NOC:Analog Communication Lecture 2 - Fourier Series (Continued...)
Link NOC:Analog Communication Lecture 3 - Fourier Series (Continued...)
Link NOC:Analog Communication Lecture 4 - Fourier Series (Continued...)
Link NOC:Analog Communication Lecture 5 - Fourier Series (Continued...)
Link NOC:Analog Communication Lecture 6 - Fourier Series (Continued...)
Link NOC:Analog Communication Lecture 7 - Fourier Series (Continued...)
Link NOC:Analog Communication Lecture 8 - Fourier Transform
Link NOC:Analog Communication Lecture 9 - Fourier Transform (Continued...)
Link NOC:Analog Communication Lecture 10 - Fourier Transform (Continued...)
Link NOC:Analog Communication Lecture 11 - Fourier Transform (Continued...)
Link NOC:Analog Communication Lecture 12 - Energy Spectral Density
Link NOC:Analog Communication Lecture 13 - Power Spectral Density
Link NOC:Analog Communication Lecture 14 - PSD of Random Signal
Link NOC:Analog Communication Lecture 15 - Amplitude Modulation
Link NOC:Analog Communication Lecture 16 - Amplitude Modulation (Continued...)
Link NOC:Analog Communication Lecture 17 - Amplitude Modulation (Continued...)
Link NOC:Analog Communication Lecture 18 - Amplitude Modulation (Continued...)
Link NOC:Analog Communication Lecture 19 - SSB - SC
Link NOC:Analog Communication Lecture 20 - SSB - SC (Continued...)
Link NOC:Analog Communication Lecture 21 - VSB-SC
Link NOC:Analog Communication Lecture 22 - VSB-SC (Continued...)
Link NOC:Analog Communication Lecture 23 - Effect of Carrier Synchronization
Link NOC:Analog Communication Lecture 24 - Comparison of Different Modulation Technique
Link NOC:Analog Communication Lecture 25 - PLL
Link NOC:Analog Communication Lecture 26 - PLL (Continued...)
Link NOC:Analog Communication Lecture 27 - PLL (Continued...)
Link NOC:Analog Communication Lecture 28 - PLL (Continued...) and LTI
Link NOC:Analog Communication Lecture 29 - Dispersion
Link NOC:Analog Communication Lecture 30 - Channel Nonlinearities and Multipath Effects
Link NOC:Analog Communication Lecture 31 - Probability Theory
Link NOC:Analog Communication Lecture 32 - Probability Theory (Continued...)
Link NOC:Analog Communication Lecture 33 - Probability Theory (Continued...)
Link NOC:Analog Communication Lecture 34 - Probability Theory (Continued...)
Link NOC:Analog Communication Lecture 35 - Probability Theory (Continued...)
Link NOC:Analog Communication Lecture 36 - Probability Theory (Continued...)
Link NOC:Analog Communication Lecture 37 - Probability Theory (Continued...)
Link NOC:Analog Communication Lecture 38 - Random Process
Link NOC:Analog Communication Lecture 39 - Random Process (Continued...)
Link NOC:Analog Communication Lecture 40 - Random Process (Continued...)
Link NOC:Analog Communication Lecture 41 - Random Process (Continued...)
Link NOC:Analog Communication Lecture 42 - Random Process (Continued...)
Link NOC:Analog Communication Lecture 43 - Random Process (Continued...)
Link NOC:Analog Communication Lecture 44 - Noise Analysis - DSB-SC
Link NOC:Analog Communication Lecture 45 - Noise Analysis - AM
Link NOC:Analog Communication Lecture 46 - Noise Analysis - SSB-SC
Link NOC:Analog Communication Lecture 47 - Frequency Modulation
Link NOC:Analog Communication Lecture 48 - Frequency Modulation (Continued...)
Link NOC:Analog Communication Lecture 49 - Frequency Modulation (Continued...)
Link NOC:Analog Communication Lecture 50 - Frequency Modulation (Continued...)
Link NOC:Analog Communication Lecture 51 - Frequency Modulation (Continued...)
Link NOC:Analog Communication Lecture 52 - Frequency Modulation (Continued...)
Link NOC:Analog Communication Lecture 53 - FM Noise Analysis
Link NOC:Analog Communication Lecture 54 - FM Noise Analysis (Continued...)
Link NOC:Analog Communication Lecture 55 - FM Noise Analysis (Continued...)>
Link NOC:Analog Communication Lecture 56 - Sampling Theorem
Link NOC:Analog Communication Lecture 57 - Sampling Theorem (Continued...)
Link NOC:Analog Communication Lecture 58 - FDM Vs TDM
Link NOC:Analog Communication Lecture 59 - Flat Top Vs Natural Sampling
Link NOC:Analog Communication Lecture 60 - Pulse Coded Modulation
Link NOC:Modern Digital Communication Techniques Lecture 1 - Introduction of Digital Communication System
Link NOC:Modern Digital Communication Techniques Lecture 2 - Introduction of Digital Communication System (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 3 - Introduction of Digital Communication System (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 4 - Introduction of Digital Communication System (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 5 - Introduction of Digital Communication System (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 6 - Source Coding
Link NOC:Modern Digital Communication Techniques Lecture 7 - Source Coding (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 8 - Source Coding (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 9 - Source Coding (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 10 - Source Coding (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 11 - Source Coding (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 12 - Source Coding (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 13 - Source Coding (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 14 - Source Coding (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 15 - Analog to Digital Conversion
Link NOC:Modern Digital Communication Techniques Lecture 16 - Analog to Digital Conversion (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 17 - Characterization of Signals and Systems
Link NOC:Modern Digital Communication Techniques Lecture 18 - Characterization of Signals and Systems (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 19 - Characterization of Signals and Systems (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 20 - Characterization of Signals and Systems (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 21 - Characterization of Signals and Systems (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 22 - Characterization of Signals and Systems (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 23 - Characterization of Signals and Systems (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 24 - Memoryless Modulation
Link NOC:Modern Digital Communication Techniques Lecture 25 - Memoryless Modulation (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 26 - Memoryless Modulation (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 27 - Memoryless Modulation (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 28 - Memoryless Modulation (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 29 - Memoryless Modulation (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 30 - Memoryless Modulation (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 31 - Memoryless Modulation (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 32 - Memoryless Modulation (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 33 - With Memory Modulation
Link NOC:Modern Digital Communication Techniques Lecture 34 - With Memory Modulation (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 35 - With Memory Modulation (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 36 - With Memory Modulation (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 37 - With Memory Modulation (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 38 - With Memory Modulation (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 39 - With Memory Modulation (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 40 - Optimum Receivers for AWGN
Link NOC:Modern Digital Communication Techniques Lecture 41 - Optimum Receivers for AWGN (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 42 - Optimum Receivers for AWGN (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 43 - Optimum Receivers for AWGN (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 44 - Optimum Receivers for AWGN (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 45 - Optimum Receivers for AWGN (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 46 - Performance of Digital Modulation Techniques
Link NOC:Modern Digital Communication Techniques Lecture 47 - Performance of Digital Modulation Techniques (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 48 - Performance of Digital Modulation Techniques (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 49 - Performance of Digital Modulation Techniques (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 50 - Performance of Digital Modulation Techniques (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 51 - Performance of Digital Modulation Techniques (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 52 - Performance of Digital Modulation Techniques (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 53 - Channel Estimation and Equalization
Link NOC:Modern Digital Communication Techniques Lecture 54 - Channel Estimation and Equalization (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 55 - Channel Estimation and Equalization (Continued...)>
Link NOC:Modern Digital Communication Techniques Lecture 56 - Channel Estimation and Equalization (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 57 - Synchronization Techniques
Link NOC:Modern Digital Communication Techniques Lecture 58 - Synchronization Techniques (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 59 - Synchronization Techniques (Continued...)
Link NOC:Modern Digital Communication Techniques Lecture 60 - Synchronization Techniques (Continued...)
Link NOC:Digital Speech Processing Lecture 1
Link NOC:Digital Speech Processing Lecture 2
Link NOC:Digital Speech Processing Lecture 3
Link NOC:Digital Speech Processing Lecture 4
Link NOC:Digital Speech Processing Lecture 5
Link NOC:Digital Speech Processing Lecture 6
Link NOC:Digital Speech Processing Lecture 7
Link NOC:Digital Speech Processing Lecture 8
Link NOC:Digital Speech Processing Lecture 9
Link NOC:Digital Speech Processing Lecture 10
Link NOC:Digital Speech Processing Lecture 11
Link NOC:Digital Speech Processing Lecture 12
Link NOC:Digital Speech Processing Lecture 13
Link NOC:Digital Speech Processing Lecture 14
Link NOC:Digital Speech Processing Lecture 15
Link NOC:Digital Speech Processing Lecture 16 - Human Auditory System
Link NOC:Digital Speech Processing Lecture 17
Link NOC:Digital Speech Processing Lecture 18
Link NOC:Digital Speech Processing Lecture 19 - Time Domain Methods in Speech Processing
Link NOC:Digital Speech Processing Lecture 20
Link NOC:Digital Speech Processing Lecture 21 - Introduction to Liner Prediction
Link NOC:Digital Speech Processing Lecture 22 - Autocorrelation Method of LPC analysis
Link NOC:Digital Speech Processing Lecture 23 - Autocorrelation Method of LPC analysis (Continued...)
Link NOC:Digital Speech Processing Lecture 24 - Lattice Formulations of Linear Prediction
Link NOC:Digital Speech Processing Lecture 25 - Lattice Formulations of Linear Prediction (Continued...)
Link NOC:Digital Speech Processing Lecture 26
Link NOC:Digital Speech Processing Lecture 27
Link NOC:Digital Speech Processing Lecture 28
Link NOC:Digital Speech Processing Lecture 29
Link NOC:Digital Speech Processing Lecture 30
Link NOC:Digital Speech Processing Lecture 31 - Segmental and Supra-segmental features of speech signal
Link NOC:Digital Speech Processing Lecture 32 - Cepstral Transform Coefficients (CC) Parameters extraction
Link NOC:Digital Speech Processing Lecture 33 - Mel Frequency Cepstral Coefficients
Link NOC:Digital Speech Processing Lecture 34 - MFCC features vector
Link NOC:Digital Speech Processing Lecture 35 - Fundamental Frequency (F0) Detection of speech signal
Link NOC:Digital Speech Processing Lecture 36 - Frequency Domain Fundamental Frequency Detection Algorithms
Link NOC:Digital Speech Processing Lecture 37 - Text to Speech Synthesis
Link NOC:Digital Speech Processing Lecture 38 - Text to Speech Synthesis (Continued...)
Link NOC:Digital Speech Processing Lecture 39 - Automatic Speech Recognition
Link NOC:Digital Speech Processing Lecture 40 - Statistical Modeling of Automatic Speech Recognition
Link NOC:Digital Speech Processing Lecture 41 - Speech based Technology Development for e-learning
Link NOC:Digital Speech Processing Lecture 42 - Prosody Modeling
Link NOC:Digital Speech Processing Lecture 43 - Fundamental frequency countur modeling
Link NOC:Digital Speech Processing Lecture 44 - Fundamental frequency contour modeling (Continued...)
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 1 - Basic Analog Design Part I
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 2 - Basic Analog Design Part I (Continued...)
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 3 - Basic Analog Design Part II
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 4 - Basic Analog Design Part II (Continued...)
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 5 - Basic Analog Design Part III
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 6 - Basic Analog Design Part III (Continued...)
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 7 - Basic Analog Design Part III (Continued...)
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 8 - Basic Analog Design Part III (Continued...)
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 9 - Basic Analog Design Part III (Continued...)
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 10 - Basic Analog Design Part III (Continued...)
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 11
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 12
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 13
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 14
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 15
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 16
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 17
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 18
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 19
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 20
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 21
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 22
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 23
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 24
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 25
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 26
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 27
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 28
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 29
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 30
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 31
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 32
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 33
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 34
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 35
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 36
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 37
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 38
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 39
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 40
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 41
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 42
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 43
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 44
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 45
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 46
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 47
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 48
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 49
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 50
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 51
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 52
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 53
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 54
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 55
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 56
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 57
Link NOC:Analog Circuits and Systems through SPICE Simulation Lecture 58
Link Analog IC Design Lecture 1 - Course introduction; Negative feedback control
Link Analog IC Design Lecture 2 - Negative feedback amplifier
Link Analog IC Design Lecture 3 - Step response, sinusoidal steady state response
Link Analog IC Design Lecture 4 - Loop gain and unity loop gain frequency; Opamp
Link Analog IC Design Lecture 5 - Opamp realization using controlled sources; Delay in the loop
Link Analog IC Design Lecture 6 - Negative feedback amplifier with ideal delay-small delays
Link Analog IC Design Lecture 7 - Negative feedback amplifier with ideal delay-large delays
Link Analog IC Design Lecture 8 - Negative feedback amplifier with parasitic poles and zeros
Link Analog IC Design Lecture 9 - Negative feedback amplifier with parasitic poles and zeros; Nyquist criterion
Link Analog IC Design Lecture 10 - Nyquist criterion; Phase margin
Link Analog IC Design Lecture 11 - Phase margin
Link Analog IC Design Lecture 12 - Single stage opamp realization
Link Analog IC Design Lecture 13 - Two stage miller compensated opamp
Link Analog IC Design Lecture 14 - Two stage miller compensated opamp
Link Analog IC Design Lecture 15 - Two and three stage miller compensated opamps; Feedforward compensated opamp
Link Analog IC Design Lecture 16 - Feedforward compensated opamp
Link Analog IC Design Lecture 17 - Feedforward compensated opamp
Link Analog IC Design Lecture 18 - Feedforward compensated opamp; typical opamp data sheet
Link Analog IC Design Lecture 19 - Opamp offset and CMRR; Transimpedance amplifier using an opamp
Link Analog IC Design Lecture 20 - Components available in a CMOS process
Link Analog IC Design Lecture 21 - MOS transistors-basics
Link Analog IC Design Lecture 22 - MOS transistors-parasitics, mismatch
Link Analog IC Design Lecture 23 - MOS transistors-mismatch, speed
Link Analog IC Design Lecture 24 - Noise in resistors
Link Analog IC Design Lecture 25 - Noise in MOS transistors; Input and output referred noise
Link Analog IC Design Lecture 26 - Noise scaling; Basic amplifier stages-Common source, common gate
Link Analog IC Design Lecture 27 - Basic amplifier stages-Common drain; Frequency response of amplifiers
Link Analog IC Design Lecture 28 - Common source amplifier frequency response; Differential amplifier
Link Analog IC Design Lecture 29 - Differential and common mode half circuits; Differential pair with active load
Link Analog IC Design Lecture 30 - Differential pair with current mirror load
Link Analog IC Design Lecture 31 - Single stage opamp characteristics
Link Analog IC Design Lecture 32 - Opamp with single and dual supplies; Single stage opamp tradeoffs
Link Analog IC Design Lecture 33 - Telescopic cascode opamp
Link Analog IC Design Lecture 34 - Telescopic cascode opamp; Folded cascode opamp
Link Analog IC Design Lecture 35 - Folded cascode opamp
Link Analog IC Design Lecture 36 - Two stage opamp
Link Analog IC Design Lecture 37 - Two stage opamp; Three stage and triple cascode opamps
Link Analog IC Design Lecture 38 - Common mode rejection ratio; Example
Link Analog IC Design Lecture 39 - Fully differential circuits
Link Analog IC Design Lecture 40 - Fully differential single stage opamp
Link Analog IC Design Lecture 41 - Common mode feedback
Link Analog IC Design Lecture 42 - Fully differential single stage opamp
Link Analog IC Design Lecture 43 - Fully differential two stage opamp; Fully differential versus pseudo-differential
Link Analog IC Design Lecture 44 - Circuit simulators and analyses
Link Analog IC Design Lecture 45 - Phase locked loop as frequency multiplier
Link Analog IC Design Lecture 46 - Phase domain model
Link Analog IC Design Lecture 47 - Type I PLL transfer function and reference feedthrough
Link Analog IC Design Lecture 48 - Type II PLL
Link Analog IC Design Lecture 49 - Type II PLL transfer functions; Implementation
Link Analog IC Design Lecture 50 - Type II PLL-extra poles; Random noise in a PLL
Link Analog IC Design Lecture 51 - Oscillator phase noise
Link Analog IC Design Lecture 52 - PLL phase noise; LC and ring Oscillators
Link Analog IC Design Lecture 53 - Generating PTAT and constant MOS gm bias currents
Link Analog IC Design Lecture 54 - Reducing supply sensitivity; Bandgap voltage reference
Link Analog IC Design Lecture 55 - Fractional bandgap reference; Low dropout regulator
Link Analog IC Design Lecture 56 - Low dropout regulators; Continuous-time active filters
Link Analog IC Design Lecture 57 - Continuous-time active filters
Link Analog IC Design Lecture 58 - Continuous-time active filters
Link Analog IC Design Lecture 59 - Discrete-time active filters
Link Analog IC Design Lecture 60 - Transistor sizing in practice; Course summary
Link Coding Theory Lecture 1 - Introduction to Linear Block Codes
Link Coding Theory Lecture 2 - Properties of Linear Block Codes
Link Coding Theory Lecture 3 - Dual of Linear Block Codes
Link Coding Theory Lecture 4 - Minimum Distance of Codes
Link Coding Theory Lecture 5 - Operations on Codes
Link Coding Theory Lecture 6 - Bounds on Code Parameters
Link Coding Theory Lecture 7 - Optimal Decoders
Link Coding Theory Lecture 8 - Syndrome Decoder, Basics of Finite Fields
Link Coding Theory Lecture 9 - Constructions of Finite Fields
Link Coding Theory Lecture 10 - Computations in Finite Fields
Link Coding Theory Lecture 11 - Codes over Finite Fields, Minimal Polynomials
Link Coding Theory Lecture 12 - BCH Codes
Link Coding Theory Lecture 13 - BCH and RS Codes I
Link Coding Theory Lecture 14 - BCH and RS Codes II
Link Coding Theory Lecture 15 - Decoding BCH Codes
Link Coding Theory Lecture 16 - Decoding RS Codes
Link Coding Theory Lecture 17 - Coded Modulation and Soft Decision Decoding
Link Coding Theory Lecture 18 - Optimal Decoders for BPSK and AWGN
Link Coding Theory Lecture 19 - Bitwise Map Decoder for BPSK over AWGN
Link Coding Theory Lecture 20 - Bitwise Map Decoder from the Dual Code
Link Coding Theory Lecture 21 - Simulating Coded Modulation
Link Coding Theory Lecture 22 - Union Bound, Introduction to LDPC Codes
Link Coding Theory Lecture 23 - LDPC Codes
Link Coding Theory Lecture 24 - Message Passing, Density Evolution Analysis
Link Coding Theory Lecture 25 - Thresholds of LDPC Codes
Link Coding Theory Lecture 26 - Irregular LDPC Codes
Link Coding Theory Lecture 27 - Optimized Irregular LDPC Codes, Soft Message Passing Decoders
Link Coding Theory Lecture 28 - Density Evolution for Soft Message Passing Decoding of LDPC Codes
Link Coding Theory Lecture 29 - LDPC Codes in Practice
Link Coding Theory Lecture 30 - Introduction to Convolutional Codes
Link Coding Theory Lecture 31 - Viterbi Decoding of Convolutional Codes
Link Coding Theory Lecture 32 - Union Bound, Recursive Convolutional Encoders
Link Coding Theory Lecture 33 - Convolutional Codes in Practice
Link Coding Theory Lecture 34 - BCJR Decoder
Link Coding Theory Lecture 35 - BCJR & Max-Log-MAP Decoder, Introduction to Turbo Codes
Link Coding Theory Lecture 36 - Turbo Decoder
Link Coding Theory Lecture 37 - Turbo Codes in Practice
Link Coding Theory Lecture 38 - Modern Codes
Link Semiconductor Device Modeling Lecture 1
Link Semiconductor Device Modeling Lecture 2
Link Semiconductor Device Modeling Lecture 3
Link Semiconductor Device Modeling Lecture 4
Link Semiconductor Device Modeling Lecture 5
Link Semiconductor Device Modeling Lecture 6
Link Semiconductor Device Modeling Lecture 7
Link Semiconductor Device Modeling Lecture 8
Link Semiconductor Device Modeling Lecture 9
Link Semiconductor Device Modeling Lecture 10
Link Semiconductor Device Modeling Lecture 11
Link Semiconductor Device Modeling Lecture 12
Link Semiconductor Device Modeling Lecture 13
Link Semiconductor Device Modeling Lecture 14
Link Semiconductor Device Modeling Lecture 15
Link Semiconductor Device Modeling Lecture 16
Link Semiconductor Device Modeling Lecture 17
Link Semiconductor Device Modeling Lecture 18
Link Semiconductor Device Modeling Lecture 19
Link Semiconductor Device Modeling Lecture 20
Link Semiconductor Device Modeling Lecture 21
Link Semiconductor Device Modeling Lecture 22
Link Semiconductor Device Modeling Lecture 23
Link Semiconductor Device Modeling Lecture 24
Link Semiconductor Device Modeling Lecture 25
Link Semiconductor Device Modeling Lecture 26
Link Semiconductor Device Modeling Lecture 27
Link Semiconductor Device Modeling Lecture 28
Link Semiconductor Device Modeling Lecture 29
Link Semiconductor Device Modeling Lecture 30
Link Semiconductor Device Modeling Lecture 31
Link Semiconductor Device Modeling Lecture 32
Link Semiconductor Device Modeling Lecture 33
Link Semiconductor Device Modeling Lecture 34
Link Semiconductor Device Modeling Lecture 35
Link Semiconductor Device Modeling Lecture 36
Link Semiconductor Device Modeling Lecture 37
Link Semiconductor Device Modeling Lecture 38
Link Semiconductor Device Modeling Lecture 39
Link Semiconductor Device Modeling Lecture 40
Link Semiconductor Device Modeling Lecture 41
Link Semiconductor Device Modeling Lecture 42
Link Semiconductor Device Modeling Lecture 43
Link Semiconductor Device Modeling Lecture 44
Link Semiconductor Device Modeling Lecture 45
Link Semiconductor Device Modeling Lecture 46
Link Semiconductor Device Modeling Lecture 47
Link Semiconductor Device Modeling Lecture 48
Link Semiconductor Device Modeling Lecture 49
Link Semiconductor Device Modeling Lecture 50
Link Semiconductor Device Modeling Lecture 51
Link Semiconductor Device Modeling Lecture 52
Link Semiconductor Device Modeling Lecture 53
Link Semiconductor Device Modeling Lecture 54
Link Semiconductor Device Modeling Lecture 55
Link Semiconductor Device Modeling Lecture 56
Link Semiconductor Device Modeling Lecture 57
Link VLSI Data Conversion Circuits Lecture 1 - Introduction to Data Conversion
Link VLSI Data Conversion Circuits Lecture 2 - Sampling-1
Link VLSI Data Conversion Circuits Lecture 3 - Sampling-2
Link VLSI Data Conversion Circuits Lecture 4 - Nonidealities in Samples
Link VLSI Data Conversion Circuits Lecture 5 - Noise due to Sampling
Link VLSI Data Conversion Circuits Lecture 6 - Distortion in a Sampling Switch
Link VLSI Data Conversion Circuits Lecture 7 - Gate Boosted Switches-1
Link VLSI Data Conversion Circuits Lecture 8 - Gate Boosted Switches-2
Link VLSI Data Conversion Circuits Lecture 9 - Charge Injection
Link VLSI Data Conversion Circuits Lecture 10 - S/H Characterization-1
Link VLSI Data Conversion Circuits Lecture 11 - S/H Characterization-2
Link VLSI Data Conversion Circuits Lecture 12 - FFTs and Leakage
Link VLSI Data Conversion Circuits Lecture 13 - Spectral Windows-1
Link VLSI Data Conversion Circuits Lecture 14 - Spectral Windows-2
Link VLSI Data Conversion Circuits Lecture 15 - ADC/DAC Definition
Link VLSI Data Conversion Circuits Lecture 16 - Quantization Noise-1
Link VLSI Data Conversion Circuits Lecture 17 - Quantization Noise-2
Link VLSI Data Conversion Circuits Lecture 18 - Over Sampling and Noise Shaping
Link VLSI Data Conversion Circuits Lecture 19 - Delta-Sigma Modulation-1
Link VLSI Data Conversion Circuits Lecture 20 - Delta-Sigma Modulation-2
Link VLSI Data Conversion Circuits Lecture 21 - Linearized Analysis
Link VLSI Data Conversion Circuits Lecture 22 - Stability of Delta Sigma Modulators
Link VLSI Data Conversion Circuits Lecture 23 - High Order DSMs
Link VLSI Data Conversion Circuits Lecture 24 - NTF Design and Tradeoffs
Link VLSI Data Conversion Circuits Lecture 25 - Single bit Modulators
Link VLSI Data Conversion Circuits Lecture 26 - Loop Filter Architectures
Link VLSI Data Conversion Circuits Lecture 27 - Continous-time Delta Sigma Modulation
Link VLSI Data Conversion Circuits Lecture 28 - Implicit Antialiasing
Link VLSI Data Conversion Circuits Lecture 29 - Modulators with NRZ and Impulsive DACs
Link VLSI Data Conversion Circuits Lecture 30 - High Order CTDSMs
Link VLSI Data Conversion Circuits Lecture 31 - CTDM Design
Link VLSI Data Conversion Circuits Lecture 32 - Excess Loop Delay (ELD)
Link VLSI Data Conversion Circuits Lecture 33 - ELD Compensation
Link VLSI Data Conversion Circuits Lecture 34 - Effect of Clock Jitter on CTDSMs-1
Link VLSI Data Conversion Circuits Lecture 35 - Effect of Clock Jitter on CTDSMs-2
Link VLSI Data Conversion Circuits Lecture 36 - Dynamic Range Scaling
Link VLSI Data Conversion Circuits Lecture 37 - Simulation of CTDSMs
Link VLSI Data Conversion Circuits Lecture 38 - Integrator Design-1
Link VLSI Data Conversion Circuits Lecture 39 - Integrator Design-2
Link VLSI Data Conversion Circuits Lecture 40 - Flash ADC Design
Link VLSI Data Conversion Circuits Lecture 41 - Latches and Metastability
Link VLSI Data Conversion Circuits Lecture 42 - Offset in a Latch-1
Link VLSI Data Conversion Circuits Lecture 43 - Offset in a Latch-2 Auto Zeroing
Link VLSI Data Conversion Circuits Lecture 44 - Auto Zeroing-2
Link VLSI Data Conversion Circuits Lecture 45 - Auto Zeroing-3
Link VLSI Data Conversion Circuits Lecture 46 - Auto Zeroing in flash ADCs
Link VLSI Data Conversion Circuits Lecture 47 - Flash ADCs Case Study
Link VLSI Data Conversion Circuits Lecture 48 - Flash ADC Case Study
Link VLSI Data Conversion Circuits Lecture 49 - Flash ADC in a Delta Sigma Loop
Link VLSI Data Conversion Circuits Lecture 50 - DAC Basics
Link VLSI Data Conversion Circuits Lecture 51 - Binary and Themometer DACs
Link VLSI Data Conversion Circuits Lecture 52 - Segmented DACs
Link VLSI Data Conversion Circuits Lecture 53 - Optimal DAC Segmentation
Link VLSI Data Conversion Circuits Lecture 54 - DAC Nonlinearities
Link VLSI Data Conversion Circuits Lecture 55 - Current Steering DACs-1
Link VLSI Data Conversion Circuits Lecture 56 - Current Steering DACs-2
Link VLSI Data Conversion Circuits Lecture 57 - DAC Mismatches in DSMs
Link VLSI Data Conversion Circuits Lecture 58 - Calibration and Randomization
Link VLSI Data Conversion Circuits Lecture 59 - Dynamic Element Matching-1
Link VLSI Data Conversion Circuits Lecture 60 - Dynamic Element Matching-2
Link Digital Circuits and Systems Lecture 1 - Introduction To Digital Circuits
Link Digital Circuits and Systems Lecture 2 - Introduction To Digital Circuits
Link Digital Circuits and Systems Lecture 3 - Combinational Logic Basics
Link Digital Circuits and Systems Lecture 4 - Combinational Circuits
Link Digital Circuits and Systems Lecture 5 - Logic Simplification
Link Digital Circuits and Systems Lecture 6 - Karnaugh Maps And Implicants
Link Digital Circuits and Systems Lecture 7 - Logic Minimization Using Karnaugh Maps
Link Digital Circuits and Systems Lecture 8 - Karnaugh Map Minimization Using Maxterms
Link Digital Circuits and Systems Lecture 9 - Code Converters
Link Digital Circuits and Systems Lecture 10 - Parity Generators And Display Decoder
Link Digital Circuits and Systems Lecture 11 - Arithmetic Circuits
Link Digital Circuits and Systems Lecture 12 - Carry Look Ahead Adders
Link Digital Circuits and Systems Lecture 13 - Subtractors
Link Digital Circuits and Systems Lecture 14 - 2?'S Complement Subtractor and BCD Adder
Link Digital Circuits and Systems Lecture 15 - Array Multiplier
Link Digital Circuits and Systems Lecture 16 - Introduction to Sequential Circuits
Link Digital Circuits and Systems Lecture 17 - S-R, J-K and D Flip Flops
Link Digital Circuits and Systems Lecture 18 - J-K and T Flip Flops
Link Digital Circuits and Systems Lecture 19 - Triggering Mechanisms of Flip Flops and Counters
Link Digital Circuits and Systems Lecture 20 - Up/Down Counters
Link Digital Circuits and Systems Lecture 21 - Shift Registers
Link Digital Circuits and Systems Lecture 22 - Application of shift Registers
Link Digital Circuits and Systems Lecture 23 - State Machines
Link Digital Circuits and Systems Lecture 24 - Design of Synchronous Sequential Circuits
Link Digital Circuits and Systems Lecture 25 - Design using J-K Flip Flop
Link Digital Circuits and Systems Lecture 26 - Mealy and Moore Circuits
Link Digital Circuits and Systems Lecture 27 - Pattern Detector
Link Digital Circuits and Systems Lecture 28 - MSI and LSI Based Design
Link Digital Circuits and Systems Lecture 29 - Multiplexer Based Design
Link Digital Circuits and Systems Lecture 30 - Encoders and Decoders
Link Digital Circuits and Systems Lecture 31 - Programmable Logic Devices
Link Digital Circuits and Systems Lecture 32 - Design using Programmable Logic Devices
Link Digital Circuits and Systems Lecture 33 - Design using Programmable Logic Devices (Continued)
Link Digital Circuits and Systems Lecture 34 - MSI and LSI based Implementation of Sequential Circuits
Link Digital Circuits and Systems Lecture 35 - MSI and LSI based Implementation of Sequential Circuits (Continued)
Link Digital Circuits and Systems Lecture 36 - Design of circuits using MSI sequential blocks
Link Digital Circuits and Systems Lecture 37 - System Design Example
Link Digital Circuits and Systems Lecture 38 - System Design Example (Continued)
Link Digital Circuits and Systems Lecture 39 - System Design using the concept of controllers
Link Digital Circuits and Systems Lecture 40 - System Design using the concept of controllers (Continued)
Link Electronics for Analog Signal Processing - I Lecture 1 - Introduction
Link Electronics for Analog Signal Processing - I Lecture 2 - Diode
Link Electronics for Analog Signal Processing - I Lecture 3 - Diode characteristics
Link Electronics for Analog Signal Processing - I Lecture 4 - Rectifier
Link Electronics for Analog Signal Processing - I Lecture 5 - Voltage Multiplier
Link Electronics for Analog Signal Processing - I Lecture 6 - Full Wave Rectifier and Peak Detector
Link Electronics for Analog Signal Processing - I Lecture 7 - Diode as a GATE
Link Electronics for Analog Signal Processing - I Lecture 8 - Analog GATE
Link Electronics for Analog Signal Processing - I Lecture 9 - Small Signal Analysis of Diode Circuit
Link Electronics for Analog Signal Processing - I Lecture 10 - Zener Regulator and Voltage Regulator
Link Electronics for Analog Signal Processing - I Lecture 11 - Varactor Diode
Link Electronics for Analog Signal Processing - I Lecture 12 - Amplifiers
Link Electronics for Analog Signal Processing - I Lecture 13 - Cascading of Amplifiers
Link Electronics for Analog Signal Processing - I Lecture 14 - Cascading of Amplifiers
Link Electronics for Analog Signal Processing - I Lecture 15 - h and g Parameters
Link Electronics for Analog Signal Processing - I Lecture 16 - Two Port Analysis
Link Electronics for Analog Signal Processing - I Lecture 17 - Amplifier Applications
Link Electronics for Analog Signal Processing - I Lecture 18 - Frequency Limitations Of An Amplifier
Link Electronics for Analog Signal Processing - I Lecture 19 - Distortion In Amplifiers
Link Electronics for Analog Signal Processing - I Lecture 20 - Bipolar Junction Transistor
Link Electronics for Analog Signal Processing - I Lecture 21 - Transistor (BJT) Inverter
Link Electronics for Analog Signal Processing - I Lecture 22 - Transistor Biasing
Link Electronics for Analog Signal Processing - I Lecture 23 - Stable Way of Biasing
Link Electronics for Analog Signal Processing - I Lecture 24 - Common Emitter Amplifiers
Link Electronics for Analog Signal Processing - I Lecture 25 - Transistor Biasing Using Single Supply
Link Electronics for Analog Signal Processing - I Lecture 26 - Metal Oxide Semiconductor
Link Electronics for Analog Signal Processing - I Lecture 27 - Construction of a MOSFET
Link Electronics for Analog Signal Processing - I Lecture 28 - Varieties of MOSFETS and JFETS
Link Electronics for Analog Signal Processing - I Lecture 29 - Characteristics of MOSFET
Link Electronics for Analog Signal Processing - I Lecture 30 - Cascading Amplifiers
Link Electronics for Analog Signal Processing - I Lecture 31 - Cascading (Direct Coupling)
Link Electronics for Analog Signal Processing - I Lecture 32 - The Differential Amplifiers
Link Electronics for Analog Signal Processing - I Lecture 33 - BJT Differential Amplifiers
Link Electronics for Analog Signal Processing - I Lecture 34 - MOSFET Differential Amplifiers
Link Electronics for Analog Signal Processing - I Lecture 35 - Cascading Differential Amplifiers
Link Electronics for Analog Signal Processing - I Lecture 36 - Current Source and Current Sink
Link Electronics for Analog Signal Processing - I Lecture 37 - NMOS Inverters and CMOS Inverters
Link Electronics for Analog Signal Processing - I Lecture 38 - Active Components used in Electronics
Link Electronics for Analog Signal Processing - II Lecture 1 - Feedback Theory
Link Electronics for Analog Signal Processing - II Lecture 2 - Negative Feedback
Link Electronics for Analog Signal Processing - II Lecture 3 - Negative Feedback
Link Electronics for Analog Signal Processing - II Lecture 4 - Y-Feedback
Link Electronics for Analog Signal Processing - II Lecture 5 - h and g Negative Feedback
Link Electronics for Analog Signal Processing - II Lecture 6 - g Feedback with Mosfet
Link Electronics for Analog Signal Processing - II Lecture 7 - Operational Amplifier in Negative Feedback
Link Electronics for Analog Signal Processing - II Lecture 8 - Operational Amplifier in Negative Feedback
Link Electronics for Analog Signal Processing - II Lecture 9 - Positive Feedback (Regenerative)
Link Electronics for Analog Signal Processing - II Lecture 10 - Experimental Demonstration
Link Electronics for Analog Signal Processing - II Lecture 11 - Instrumentation Amplifiers
Link Electronics for Analog Signal Processing - II Lecture 12 - Active Filters
Link Electronics for Analog Signal Processing - II Lecture 13 - Simulation of Harmonic Oscillators
Link Electronics for Analog Signal Processing - II Lecture 14 - Oscillators
Link Electronics for Analog Signal Processing - II Lecture 15 - Oscillators
Link Electronics for Analog Signal Processing - II Lecture 16 - Frequency Compensation in Negative Feedback
Link Electronics for Analog Signal Processing - II Lecture 17 - Frequency Compensation
Link Electronics for Analog Signal Processing - II Lecture 18 - Wideband (video) Amplifiers
Link Electronics for Analog Signal Processing - II Lecture 19 - Wideband Amplifiers
Link Electronics for Analog Signal Processing - II Lecture 20 - ICs For Video And Tuned Amplifier Applications
Link Electronics for Analog Signal Processing - II Lecture 21 - Power Amplifier
Link Electronics for Analog Signal Processing - II Lecture 22 - Power Amplifier
Link Electronics for Analog Signal Processing - II Lecture 23 - Class B and C Power Amplifiers
Link Electronics for Analog Signal Processing - II Lecture 24 - Class-B Power Amplifier Load and Drive
Link Electronics for Analog Signal Processing - II Lecture 25 - Control Circuits
Link Electronics for Analog Signal Processing - II Lecture 26 - Voltage Regulators
Link Electronics for Analog Signal Processing - II Lecture 27 - Voltage Regulators
Link Electronics for Analog Signal Processing - II Lecture 28 - Voltage Regulators
Link Electronics for Analog Signal Processing - II Lecture 29 - Convertors
Link Electronics for Analog Signal Processing - II Lecture 30 - Analog Multipliers (Modems & Mixers)
Link Electronics for Analog Signal Processing - II Lecture 31 - Log-Antilog Multipliers
Link Electronics for Analog Signal Processing - II Lecture 32 - Multipliers
Link Electronics for Analog Signal Processing - II Lecture 33 - Multipliers
Link Electronics for Analog Signal Processing - II Lecture 34 - AGC/AVC
Link Electronics for Analog Signal Processing - II Lecture 35 - AGC/AVC
Link Electronics for Analog Signal Processing - II Lecture 36 - Experimental Demonstration
Link Electronics for Analog Signal Processing - II Lecture 37 - PLL (Phase Locked Loop)
Link Electronics for Analog Signal Processing - II Lecture 38 - PLL (Phase Locked Loop)
Link Electronics for Analog Signal Processing - II Lecture 39 - Lock Range Capture Range and FSK and FM
Link High Speed Devices and Circuits Lecture 1 - Introduction to Basic concepts
Link High Speed Devices and Circuits Lecture 2 - Requirements for high speed circuits, devices and materials
Link High Speed Devices and Circuits Lecture 3 - Classification and properties of semiconductor devices
Link High Speed Devices and Circuits Lecture 4 - Ternary compound semiconductors and their applications
Link High Speed Devices and Circuits Lecture 5 - Ternary compound semiconductors and their applications (Continued.)
Link High Speed Devices and Circuits Lecture 6 - Crystal structures in GaAs
Link High Speed Devices and Circuits Lecture 7 - Dopants and impurities in GaAs and InP
Link High Speed Devices and Circuits Lecture 8 - Brief Overview of GaAs Technology for High Speed Devices
Link High Speed Devices and Circuits Lecture 9 - Epitaxial Techniques for GaAs and high speed devices
Link High Speed Devices and Circuits Lecture 10 - MBE and LPE for GaAs Epitoxy
Link High Speed Devices and Circuits Lecture 11 - GaAs and InP devices for Microelectronics
Link High Speed Devices and Circuits Lecture 12 - Metal Semiconductor contacts for MESFET
Link High Speed Devices and Circuits Lecture 13 - Metal Semiconductor contacts for MESFET (Continued.)
Link High Speed Devices and Circuits Lecture 14 - Metal Semiconductor contacts for MESFET (Continued.)
Link High Speed Devices and Circuits Lecture 15 - Ohmic contacts on semiconductors
Link High Speed Devices and Circuits Lecture 16 - Fermi level pinning, I V characteristics of Schottky Barrier Diodes
Link High Speed Devices and Circuits Lecture 17 - Schottky Barrier Diodes I V characteristics of Non idealities -1
Link High Speed Devices and Circuits Lecture 18 - Schottky Barrier Diodes I V characteristics of Non idealities -1
Link High Speed Devices and Circuits Lecture 19 - Causes of Non idealities in the Schottky Barrier Diodes (I V characteristics)
Link High Speed Devices and Circuits Lecture 20 - MESFET operations and I V characteristics
Link High Speed Devices and Circuits Lecture 21 - MESFET I V characteristics Shockley's Model
Link High Speed Devices and Circuits Lecture 22 - MESFET Shockley's Model and velocity saturation effect
Link High Speed Devices and Circuits Lecture 23 - MESFET velocity saturation effect on drain current saturation
Link High Speed Devices and Circuits Lecture 24 - MESFET : Drain current saturation Ids due to velocity saturation
Link High Speed Devices and Circuits Lecture 25 - MESFET : Effects of channel length and gate length on IDS and gm
Link High Speed Devices and Circuits Lecture 26 - MESFET : Effects of velocity saturation and velocity field characteristics
Link High Speed Devices and Circuits Lecture 27 - MESFET : Effects of velocity field characteristics - Overshoot effects
Link High Speed Devices and Circuits Lecture 28 - MESFET : Velocity overshoot effect and self aligned MESFET SAINT
Link High Speed Devices and Circuits Lecture 29 - Self Aligned MESFET SAINT Threshold Voltage and Sub Threshold current
Link High Speed Devices and Circuits Lecture 30 - Hetero junctions
Link High Speed Devices and Circuits Lecture 31 - Hetero junctions and high electron Mobility Transistor (HEMT)
Link High Speed Devices and Circuits Lecture 32 - Hetero junctions and high electron Mobility Transistor (HEMT) (Continued.)
Link High Speed Devices and Circuits Lecture 33 - High Electron Mobility Transistor
Link High Speed Devices and Circuits Lecture 34 - HEMT off voltage, I-V characteristics and trans conductance
Link High Speed Devices and Circuits Lecture 35 - I-V characteristics and trans conductance and optimization
Link High Speed Devices and Circuits Lecture 36 - Indium phosphide based HEMT
Link High Speed Devices and Circuits Lecture 37 - Pseudomorphic HEMT and Hetrojunction Bipolar Transistors
Link High Speed Devices and Circuits Lecture 38 - Hetero junction Bipolar Transistors (HBT)
Link High Speed Devices and Circuits Lecture 39 - Hetero junction Bipolar Transistors (HBT) (Continued.)
Link High Speed Devices and Circuits Lecture 40 - Hetero junction Bipolar Transistors (HBT) (Continued.)
Link High Speed Devices and Circuits Lecture 41 - Hetero junction Bipolar Transistors (HBT) (Continued.)
Link Solid State Devices Lecture 1 - Introduction on Solid State Devices
Link Solid State Devices Lecture 2 - Evolution and Uniqueness of Semiconductor
Link Solid State Devices Lecture 3 - Equilibrium Carrier Concentration
Link Solid State Devices Lecture 4 - Equilibrium Carrier Concentration
Link Solid State Devices Lecture 5 - Equilibrium Carrier Concentration
Link Solid State Devices Lecture 6 - Equilibrium Carrier Concentration
Link Solid State Devices Lecture 7 - Equilibrium Carrier Concentration
Link Solid State Devices Lecture 8 - Equilibrium Carrier Concentration
Link Solid State Devices Lecture 9 - Equilibrium Carrier Concentration
Link Solid State Devices Lecture 10 - Equilibrium Carrier Concentration
Link Solid State Devices Lecture 11 - Equilibrium Carrier Concentration
Link Solid State Devices Lecture 12 - Carrier Transport
Link Solid State Devices Lecture 13 - Carrier Transport (Continued.)
Link Solid State Devices Lecture 14 - Carrier Transport (Continued.)
Link Solid State Devices Lecture 15 - Excess Carriers
Link Solid State Devices Lecture 16 - Excess Carriers (Continued.)
Link Solid State Devices Lecture 17 - Procedure for Device Analysis
Link Solid State Devices Lecture 18 - Procedure for Device Analysis (Continued.)
Link Solid State Devices Lecture 19 - PN Junction
Link Solid State Devices Lecture 20 - PN Junction (Continued.)
Link Solid State Devices Lecture 21 - PN Junction (Continued.)
Link Solid State Devices Lecture 22 - PN Junction (Continued.)
Link Solid State Devices Lecture 23 - PN Junction (Continued.)
Link Solid State Devices Lecture 24 - PN Junction (Continued.)
Link Solid State Devices Lecture 25 - PN Junction (Continued.)
Link Solid State Devices Lecture 26 - Bipolar Junction Transistor
Link Solid State Devices Lecture 27 - Bipolar Junction Transistor (Continued.)
Link Solid State Devices Lecture 28 - Bipolar Junction Transistor (Continued.)
Link Solid State Devices Lecture 29 - Bipolar Junction Transistor (Continued.)
Link Solid State Devices Lecture 30 - Bipolar Junction Transistor (Continued.)
Link Solid State Devices Lecture 31 - Bipolar Junction Transistor (Continued.)
Link Solid State Devices Lecture 32 - Bipolar Junction Transistor (Continued.)
Link Solid State Devices Lecture 33 - Metal-Oxide-Semiconductor (MOS) Junction
Link Solid State Devices Lecture 34 - Metal-Oxide-Semiconductor (MOS) Junction (Continued.)
Link Solid State Devices Lecture 35 - Metal-Oxide-Semiconductor (MOS) Junction (Continued.)
Link Solid State Devices Lecture 36 - Metal-Oxide-Semiconductor (MOS) Junction (Continued.)
Link Solid State Devices Lecture 37 - Metal-Oxide-Semiconductor (MOS) Junction (Continued.)
Link Solid State Devices Lecture 38 - MOS Field Effect Transistor
Link Solid State Devices Lecture 39 - MOS Field Effect Transistor (Continued.)
Link Solid State Devices Lecture 40 - MOS Field Effect Transistor (Continued.)
Link Solid State Devices Lecture 41 - MOS Field Effect Transistor (Continued.)
Link Solid State Devices Lecture 42 - The Final Lecture - Conclusion
Link VLSI Circuits Lecture 1 - Introduction to VLSI Design
Link VLSI Circuits Lecture 2 - Combinational Circuit Design
Link VLSI Circuits Lecture 3 - Programmable Logic Devices
Link VLSI Circuits Lecture 4 - Programmable Array Logic
Link VLSI Circuits Lecture 5 - Review of Flip-Flops
Link VLSI Circuits Lecture 6 - Sequential Circuits
Link VLSI Circuits Lecture 7 - Sequential Circuit Design
Link VLSI Circuits Lecture 8 - MSI Implementation of Sequential Circuits
Link VLSI Circuits Lecture 9 - Design of Sequential Circuits using One Hot Controller
Link VLSI Circuits Lecture 10 - Verilog Modeling of Combinational Circuits
Link VLSI Circuits Lecture 11 - Modeling of Verilog Sequential Circuits - Core Statements
Link VLSI Circuits Lecture 12 - Modeling of Verilog Sequential Circuits - Core Statements(Continued.)
Link VLSI Circuits Lecture 13 - RTL Coding Guidelines
Link VLSI Circuits Lecture 14 - Coding Organization - Complete Realization
Link VLSI Circuits Lecture 15 - Coding Organization - Complete Realization (Continued.)
Link VLSI Circuits Lecture 16 - Writing a Test Bench
Link VLSI Circuits Lecture 17 - System Design using ASM Chart
Link VLSI Circuits Lecture 18 - Example of System Design using ASM Chart
Link VLSI Circuits Lecture 19 - Examples of System Design using Sequential Circuits
Link VLSI Circuits Lecture 20 - Examples of System Design using Sequential Circuits (Continued.)
Link VLSI Circuits Lecture 21 - Microprogrammed Design
Link VLSI Circuits Lecture 22 - Microprogrammed Design (Continued.)
Link VLSI Circuits Lecture 23 - Design Flow of VLSI Circuits
Link VLSI Circuits Lecture 24 - Simulation of Combinational Circuits
Link VLSI Circuits Lecture 25 - Simulation of Combinational and Sequential Circuits
Link VLSI Circuits Lecture 26 - Analysis of Waveforms using Modelsim
Link VLSI Circuits Lecture 27 - Analysis of Waveforms using Modelsim (Continued.)
Link VLSI Circuits Lecture 28 - ModelSim Simulation Tool
Link VLSI Circuits Lecture 29 - Synthesis Tool
Link VLSI Circuits Lecture 30 - Synthesis Tool (Continued.)
Link VLSI Circuits Lecture 31 - Synplify Tool - Schematic Circuit Diagram View
Link VLSI Circuits Lecture 32 - Technology View using Synplify Tool
Link VLSI Circuits Lecture 33 - Synopsys Full and Parallel Cases
Link VLSI Circuits Lecture 34 - Xilinx Place & Route Tool
Link VLSI Circuits Lecture 35 - Xilinx Place & Route Tool (Continued.)
Link VLSI Circuits Lecture 36 - PCI Arbiter Design using ASM Chart
Link VLSI Circuits Lecture 37 - Design of Memories - ROM
Link VLSI Circuits Lecture 38 - Design of Memories- RAM
Link VLSI Circuits Lecture 39 - Design of External RAM
Link VLSI Circuits Lecture 40 - Design of Arithmetic Circuits
Link VLSI Circuits Lecture 41 - Design of Arithmetic Circuits (Continued.)
Link VLSI Circuits Lecture 42 - Design of Arithmetic Circuits (Continued.)
Link VLSI Circuits Lecture 43 - System Design Examples
Link VLSI Circuits Lecture 44 - System Design Examples (Continued.)
Link VLSI Circuits Lecture 45 - System Design Examples (Continued.)
Link VLSI Circuits Lecture 46 - System Design Examples (Continued.)
Link VLSI Circuits Lecture 47 - System Design Examples (Continued.)
Link VLSI Circuits Lecture 48 - System Design Examples using FPGA Board
Link VLSI Circuits Lecture 49 - System Design Examples using FPGA Board (Continued.)
Link VLSI Circuits Lecture 50 - Advanced Features of Xilinx Project Navigator
Link VLSI Circuits Lecture 51 - System Design Examples using FPGA Board (Continued.)
Link VLSI Circuits Lecture 52 - System Design Examples using FPGA Board (Continued.)
Link VLSI Circuits Lecture 53 - System Design Examples using FPGA Board (Continued.)
Link VLSI Circuits Lecture 54 - System Design Examples using FPGA Board (Continued.)
Link VLSI Circuits Lecture 55 - Project Design Suggested for FPGA/ASIC Implementations
Link VLSI Technology Lecture 1 - Introduction on VLSI Design
Link VLSI Technology Lecture 2 - Bipolar Junction Transistor Fabrication
Link VLSI Technology Lecture 3 - MOSFET Fabrication for IC
Link VLSI Technology Lecture 4 - Crystal Structure of Si
Link VLSI Technology Lecture 5 - Crystal Structure (Continued.)
Link VLSI Technology Lecture 6 - Defects in Crystal + Crystal growth
Link VLSI Technology Lecture 7 - Crystal growth Contd + Epitaxy I
Link VLSI Technology Lecture 8 - Epitaxy II - Vapour phase Epitaxy
Link VLSI Technology Lecture 9 - Epitaxy III - Doping during Epitaxy
Link VLSI Technology Lecture 10 - Molecular beam Epitaxy
Link VLSI Technology Lecture 11 - Oxidation I - Kinetics of Oxidation
Link VLSI Technology Lecture 12 - Oxidation II - Oxidation rate constants
Link VLSI Technology Lecture 13 - Oxidation III - Dopant Redistribution
Link VLSI Technology Lecture 14 - Oxidation IV - Oxide Charges
Link VLSI Technology Lecture 15 - Diffusion I - Theory of Diffusion
Link VLSI Technology Lecture 16 - Diffusion II - Infinite Source
Link VLSI Technology Lecture 17 - Diffusion III - Actual Doping Profiles
Link VLSI Technology Lecture 18 - Diffusion IV - Diffusion Systems
Link VLSI Technology Lecture 19 - Ion - Implantation Process
Link VLSI Technology Lecture 20 - Ion - Implantation Process
Link VLSI Technology Lecture 21 - Annealing of Damages
Link VLSI Technology Lecture 22 - Masking during Implantation
Link VLSI Technology Lecture 23 - Lithography - I
Link VLSI Technology Lecture 24 - Lithography - II
Link VLSI Technology Lecture 25 - Wet Chemical Etching
Link VLSI Technology Lecture 26 - Dry Etching
Link VLSI Technology Lecture 27 - Plasma Etching Systems
Link VLSI Technology Lecture 28 - Etching of Si,Sio2,SiN and other materials
Link VLSI Technology Lecture 29 - Plasma Deposition Process
Link VLSI Technology Lecture 30 - Metallization - I
Link VLSI Technology Lecture 31 - Problems in Aluminium Metal contacts
Link VLSI Technology Lecture 32 - IC BJT - From junction isolation to LOCOS
Link VLSI Technology Lecture 33 - Problems in LOCOS + Trench isolation
Link VLSI Technology Lecture 34 - More about BJT Fabrication and Realization
Link VLSI Technology Lecture 35 - Circuits + Transistors in ECL Circuits
Link VLSI Technology Lecture 36 - MOSFET I - Metal gate vs. Self-aligned Poly-gate
Link VLSI Technology Lecture 37 - MOSFET II Tailoring of Device Parameters
Link VLSI Technology Lecture 38 - CMOS Technology
Link VLSI Technology Lecture 39 - Latch - up in CMOS
Link VLSI Technology Lecture 40 - BICMOS Technology
Link Basic Electrical Circuits Lecture 1 - Introduction to the course;Current and Voltage;Kirchhoff's Current and Voltage laws
Link Basic Electrical Circuits Lecture 2 - Electrical circuit elements: Voltage and current sources; R, C, L; Voltage sources in series; Example of superposition
Link Basic Electrical Circuits Lecture 3 - Elements in series and parallel; Superposition in linear circuits
Link Basic Electrical Circuits Lecture 4 - Controlled sources; Determining the characteristics of a two terminal element; Realizing a resistor using a VCCS or a CCVS
Link Basic Electrical Circuits Lecture 5 - Nodal analysis of a network with conductances and current sources; Setting up the equations; Conductance matrix; Superposition
Link Basic Electrical Circuits Lecture 6 - Circuit analysis; Number of KCL and KVL equations in a circuit; Nodal analysis of a network with conductances and current sources; Setting up the equations; Conductance matrix;
Link Basic Electrical Circuits Lecture 7 - Nodal analysis with voltage sources and controlled sources; Brief introduction to modified nodal analysis; Use of supernode to solve circuits with voltage sources; Superposition theorem
Link Basic Electrical Circuits Lecture 8 - Mesh analysis of a circuit with resistors and voltage sources; Comparison with nodal analysis; Mesh analysis of circuits with current sources-supermesh
Link Basic Electrical Circuits Lecture 9 - Choice of nodal versus mesh analysis; Circuit theorems: Pushing a voltage source through a node, splitting a current source, substitution theorem, superposition
Link Basic Electrical Circuits Lecture 10 - Thevenin and Norton (theorem and) equivalent circuits; Power conservation in a circuit
Link Basic Electrical Circuits Lecture 11 - Tellegen's theorem; Reciprocity theorem
Link Basic Electrical Circuits Lecture 12 - Compensation Theorem; Two ports
Link Basic Electrical Circuits Lecture 13 - Two port parameters-y parameters
Link Basic Electrical Circuits Lecture 14 - Two port parameters(z, h, and g); Reciprocal two ports
Link Basic Electrical Circuits Lecture 15 - Opamp, ideal opamp circuits, non-inverting and inverting amplifiers; Ensuring that the opamp has negative feedback
Link Basic Electrical Circuits Lecture 16 - RC circuit natural response; First order differential equation
Link Basic Electrical Circuits Lecture 17 - RC (first-order) circuit, complete response with step inputs; Transient(natural) and steady state(forced) responses; Zero-state and zero-input responses
Link Basic Electrical Circuits Lecture 18 - Step response of RC circuit with loops of voltage sources and capacitors; RL circuits; RLC circuits
Link Basic Electrical Circuits Lecture 19 - Second order(RLC circuit) natural response; Series and prallel RLC circuits; Differential equation-characteristic equation and solutions; Forced response of a second order circuit
Link Basic Electrical Circuits Lecture 20 - General formulation of second order(RLC circuit) natural response; Natural frequency and damping/quality factor; Series/parallel RLC circuits; R, L, C in sinusoidal steady state
Link Basic Electrical Circuits Lecture 21 - Sinusoidal steady state response of RC and RLC circuits
Link NOC:Basic Electrical Circuits Lecture 1 - Preliminaries
Link NOC:Basic Electrical Circuits Lecture 2 - Current
Link NOC:Basic Electrical Circuits Lecture 3 - Voltage
Link NOC:Basic Electrical Circuits Lecture 4 - Electrical elements and circuits
Link NOC:Basic Electrical Circuits Lecture 5 - Kirchhoff's current law (KCL)
Link NOC:Basic Electrical Circuits Lecture 6 - Kirchhoff's Voltage law (KVL)
Link NOC:Basic Electrical Circuits Lecture 7 - Voltage Source
Link NOC:Basic Electrical Circuits Lecture 8 - Current Source
Link NOC:Basic Electrical Circuits Lecture 9 - Resistor
Link NOC:Basic Electrical Circuits Lecture 10 - Capacitor
Link NOC:Basic Electrical Circuits Lecture 11 - Inductor
Link NOC:Basic Electrical Circuits Lecture 12 - Mutual Inductor
Link NOC:Basic Electrical Circuits Lecture 13 - Linearity of Elements
Link NOC:Basic Electrical Circuits Lecture 14 - Solutions to the assignment on units 1 and 2
Link NOC:Basic Electrical Circuits Lecture 15 - Series connection-Voltage sources in series
Link NOC:Basic Electrical Circuits Lecture 16 - Series connection of R, L, C, current source
Link NOC:Basic Electrical Circuits Lecture 17 - Elements in parallel
Link NOC:Basic Electrical Circuits Lecture 18 - Current source in series with an element; Voltage source in parallel with an element
Link NOC:Basic Electrical Circuits Lecture 19 - Extreme cases: Open and short circuits
Link NOC:Basic Electrical Circuits Lecture 20 - Summary
Link NOC:Basic Electrical Circuits Lecture 21 - Voltage controlled voltage source (VCVS)
Link NOC:Basic Electrical Circuits Lecture 22 - Voltage controlled current source (VCCS)
Link NOC:Basic Electrical Circuits Lecture 23 - Current controlled voltage source (CCVS)
Link NOC:Basic Electrical Circuits Lecture 24 - Current controlled current source (CCCS)
Link NOC:Basic Electrical Circuits Lecture 25 - Realizing a resistance using a VCCS or CCCS
Link NOC:Basic Electrical Circuits Lecture 26 - Scaling an element's value using controlled sources
Link NOC:Basic Electrical Circuits Lecture 27 - Example calculation
Link NOC:Basic Electrical Circuits Lecture 28 - Solution to the assignment on units 3 and 4
Link NOC:Basic Electrical Circuits Lecture 29 - Power and energy absorbed by electrical elements
Link NOC:Basic Electrical Circuits Lecture 30 - Power and energy in a resistor
Link NOC:Basic Electrical Circuits Lecture 31 - Power and energy in a capacitor
Link NOC:Basic Electrical Circuits Lecture 32 - Power and energy in an inductor
Link NOC:Basic Electrical Circuits Lecture 33 - Power and energy in a voltage source
Link NOC:Basic Electrical Circuits Lecture 34 - Power and energy in a current source
Link NOC:Basic Electrical Circuits Lecture 35 - Goals of circuit analysis
Link NOC:Basic Electrical Circuits Lecture 36 - Number of independent KCL equations
Link NOC:Basic Electrical Circuits Lecture 37 - Number of independent KVL equations and branch relationships
Link NOC:Basic Electrical Circuits Lecture 38 - Analysis of circuits with a single independent source
Link NOC:Basic Electrical Circuits Lecture 39 - Analysis of circuits with multiple independent sources using superposition
Link NOC:Basic Electrical Circuits Lecture 40 - Superposition: Example
Link NOC:Basic Electrical Circuits Lecture 41 - Solution to the assignment on units 5 and 6
Link NOC:Basic Electrical Circuits Lecture 42 - What is nodal analysis
Link NOC:Basic Electrical Circuits Lecture 43 - Setting up nodal analysis equations
Link NOC:Basic Electrical Circuits Lecture 44 - Structure of the conductance matrix
Link NOC:Basic Electrical Circuits Lecture 45 - How elements appear in the nodal analysis formulation
Link NOC:Basic Electrical Circuits Lecture 46 - Completely solving the circuit starting from nodal analysis
Link NOC:Basic Electrical Circuits Lecture 47 - Nodal analysis example
Link NOC:Basic Electrical Circuits Lecture 48 - Matrix inversion basics
Link NOC:Basic Electrical Circuits Lecture 49 - Nodal analysis with independent voltage sources
Link NOC:Basic Electrical Circuits Lecture 50 - Supernode for nodal analysis with independent voltage sources
Link NOC:Basic Electrical Circuits Lecture 51 - Nodal analysis with VCCS
Link NOC:Basic Electrical Circuits Lecture 52 - Nodal analysis with VCVS
Link NOC:Basic Electrical Circuits Lecture 53 - Nodal analysis with CCVS
Link NOC:Basic Electrical Circuits Lecture 54 - Nodal analysis with CCCS
Link NOC:Basic Electrical Circuits Lecture 55 - Nodal analysis summary
Link NOC:Basic Electrical Circuits Lecture 56 - Solution to the assignment on units 7 and 8
Link NOC:Basic Electrical Circuits Lecture 57 - Planar circuits
Link NOC:Basic Electrical Circuits Lecture 58 - Mesh currents and their relationship to branch currents
Link NOC:Basic Electrical Circuits Lecture 59 - Mesh analysis
Link NOC:Basic Electrical Circuits Lecture 60 - Mesh analysis with independent current sources-Supermesh
Link NOC:Basic Electrical Circuits Lecture 61 - Mesh analysis with current controlled voltage sources
Link NOC:Basic Electrical Circuits Lecture 62 - Mesh analysis with current controlled current sources
Link NOC:Basic Electrical Circuits Lecture 63 - Mesh analysis using voltage controlled sources
Link NOC:Basic Electrical Circuits Lecture 64 - Nodal analysis versus Mesh analysis
Link NOC:Basic Electrical Circuits Lecture 65 - Superposition theorem
Link NOC:Basic Electrical Circuits Lecture 66 - Pushing a voltage source through a node
Link NOC:Basic Electrical Circuits Lecture 67 - Splitting a current source
Link NOC:Basic Electrical Circuits Lecture 68 - Substitution theorem: Current source
Link NOC:Basic Electrical Circuits Lecture 69 - Substitution theorem: Voltage source
Link NOC:Basic Electrical Circuits Lecture 70 - Substituting a voltage or current source with a resistor
Link NOC:Basic Electrical Circuits Lecture 71 - Solutions
Link NOC:Basic Electrical Circuits Lecture 72 - Extensions to Superposition and Substitution theorem
Link NOC:Basic Electrical Circuits Lecture 73 - Thevenin's theorem
Link NOC:Basic Electrical Circuits Lecture 74 - Worked out example: Thevenin's theorem
Link NOC:Basic Electrical Circuits Lecture 75 - Norton's theorem
Link NOC:Basic Electrical Circuits Lecture 76 - Worked out example: Norton's theorem
Link NOC:Basic Electrical Circuits Lecture 77 - Maximum power transfer theorem
Link NOC:Basic Electrical Circuits Lecture 78 - Preliminaries.
Link NOC:Basic Electrical Circuits Lecture 79 - Two port parameters
Link NOC:Basic Electrical Circuits Lecture 80 - y parameters
Link NOC:Basic Electrical Circuits Lecture 81 - y parameters: Examples
Link NOC:Basic Electrical Circuits Lecture 82 - Solutions.
Link NOC:Basic Electrical Circuits Lecture 83 - z parameters
Link NOC:Basic Electrical Circuits Lecture 84 - z parameters: Examples
Link NOC:Basic Electrical Circuits Lecture 85 - h parameters
Link NOC:Basic Electrical Circuits Lecture 86 - h parameters: Examples
Link NOC:Basic Electrical Circuits Lecture 87 - g parameters
Link NOC:Basic Electrical Circuits Lecture 88 - g parameters: Examples
Link NOC:Basic Electrical Circuits Lecture 89 - Calculations with a two-port element
Link NOC:Basic Electrical Circuits Lecture 90 - Calculations with a two-port element.
Link NOC:Basic Electrical Circuits Lecture 91 - Degenerate cases
Link NOC:Basic Electrical Circuits Lecture 92 - Relationships between different two-port parameters
Link NOC:Basic Electrical Circuits Lecture 93 - Equivalent circuit representation for two ports
Link NOC:Basic Electrical Circuits Lecture 94 - Reciprocity
Link NOC:Basic Electrical Circuits Lecture 95 - Proof of reciprocity of resistive two-ports
Link NOC:Basic Electrical Circuits Lecture 96 - Proof for 4-terminal two-ports
Link NOC:Basic Electrical Circuits Lecture 97 - Reciprocity in terms of different two-port parameters
Link NOC:Basic Electrical Circuits Lecture 98 - Reciprocity in circuits containing controlled sources
Link NOC:Basic Electrical Circuits Lecture 99 - Examples
Link NOC:Basic Electrical Circuits Lecture 100 - Solutions..
Link NOC:Basic Electrical Circuits Lecture 101 - Feedback amplifier using an opamp
Link NOC:Basic Electrical Circuits Lecture 102 - Ideal opamp
Link NOC:Basic Electrical Circuits Lecture 103 - Negative feedback around the opamp
Link NOC:Basic Electrical Circuits Lecture 104 - Finding opamp signs for negative feedback
Link NOC:Basic Electrical Circuits Lecture 105 - Example: Determining opamp sign for negative feedback
Link NOC:Basic Electrical Circuits Lecture 106 - Analysis of circuits with opamps
Link NOC:Basic Electrical Circuits Lecture 107 - Inverting amplifier
Link NOC:Basic Electrical Circuits Lecture 108 - Summing amplifier
Link NOC:Basic Electrical Circuits Lecture 109 - Instrumentation amplifier
Link NOC:Basic Electrical Circuits Lecture 110 - Negative resistance and Miller effect
Link NOC:Basic Electrical Circuits Lecture 111 - Finding opamp signs for negative feedback-circuits with multiple opamps
Link NOC:Basic Electrical Circuits Lecture 112 - Opamp supply voltages and saturation
Link NOC:Basic Electrical Circuits Lecture 113 - KCL with an opamp and supply currents
Link NOC:Basic Electrical Circuits Lecture 114 - Solutions...
Link NOC:Basic Electrical Circuits Lecture 115 - Circuits with storage elements (capacitors and inductors)
Link NOC:Basic Electrical Circuits Lecture 116 - First order circuit with zero input-natural response
Link NOC:Basic Electrical Circuits Lecture 117 - First order RC circuit with zero input-Example
Link NOC:Basic Electrical Circuits Lecture 118 - First order circuit with a constant input
Link NOC:Basic Electrical Circuits Lecture 119 - General form of the first order circuit response
Link NOC:Basic Electrical Circuits Lecture 120 - First order RC circuit with a constant input-Example
Link NOC:Basic Electrical Circuits Lecture 121 - First order circuit with piecewise constant input
Link NOC:Basic Electrical Circuits Lecture 122 - First order circuit with piecewise constant input-Example
Link NOC:Basic Electrical Circuits Lecture 123 - First order circuit-Response of arbitrary circuit variables
Link NOC:Basic Electrical Circuits Lecture 124 - Summary: Computing first order circuit response
Link NOC:Basic Electrical Circuits Lecture 125 - Does a capacitor block DC?
Link NOC:Basic Electrical Circuits Lecture 126 - Finding the order of a circuit
Link NOC:Basic Electrical Circuits Lecture 127 - First order RC circuits with discontinuous capacitor voltages
Link NOC:Basic Electrical Circuits Lecture 128 - Summary: Computing first order circuit response with discontinuities
Link NOC:Basic Electrical Circuits Lecture 129 - First order RL circuits
Link NOC:Basic Electrical Circuits Lecture 130 - First order RL circuit with discontinuous inductor current-Example
Link NOC:Basic Electrical Circuits Lecture 131 - First order RC circuit with an exponential input
Link NOC:Basic Electrical Circuits Lecture 132 - First order RC response to its own natural response
Link NOC:Basic Electrical Circuits Lecture 133 - First order RC response to a sinusoidal input
Link NOC:Basic Electrical Circuits Lecture 134 - First order RC response to a sinusoidal input-via the complex exponential
Link NOC:Basic Electrical Circuits Lecture 135 - Summary: Linear circuit response to sinusoidal input via the complex exponential
Link NOC:Basic Electrical Circuits Lecture 136 - Three methods of calculating the sinusoidal steady state response
Link NOC:Basic Electrical Circuits Lecture 137 - Calculating the total response including initial conditions
Link NOC:Basic Electrical Circuits Lecture 138 - Why are sinusoids used in measurement?
Link NOC:Basic Electrical Circuits Lecture 139 - Second order system natural response
Link NOC:Basic Electrical Circuits Lecture 140 - Second order system as a cascade of two first order systems
Link NOC:Basic Electrical Circuits Lecture 141 - Second order system natural response-critically damped and underdamped
Link NOC:Basic Electrical Circuits Lecture 142 - Generalized form of a second order system
Link NOC:Basic Electrical Circuits Lecture 143 - Numerical example
Link NOC:Basic Electrical Circuits Lecture 144 - Series and parallel RLC circuits
Link NOC:Basic Electrical Circuits Lecture 145 - Forced response of a second order system
Link NOC:Basic Electrical Circuits Lecture 146 - Steady state response calculation and Phasors
Link NOC:Basic Electrical Circuits Lecture 147 - Phasors (Continued...)
Link NOC:Basic Electrical Circuits Lecture 148 - Magnitude and Phase plots
Link NOC:Basic Electrical Circuits Lecture 149 - Magnitude and phase plotes of a second order system
Link NOC:Basic Electrical Circuits Lecture 150 - Maximum power transfer and Conjugate matching
Link Advanced Logic Synthesis Lecture 1 - MOS Transistor
Link Advanced Logic Synthesis Lecture 2 - MOS Transistor - Detailed Study
Link Advanced Logic Synthesis Lecture 3 - Combinational Circuits and layout
Link Advanced Logic Synthesis Lecture 4 - Delay
Link Advanced Logic Synthesis Lecture 5 - Sequential Circuits
Link Advanced Logic Synthesis Lecture 6 - Logical Effort
Link Advanced Logic Synthesis Lecture 7 - Circuit Families
Link Advanced Logic Synthesis Lecture 8 - Lab-01
Link Advanced Logic Synthesis Lecture 9 - Lab-02
Link Advanced Logic Synthesis Lecture 10 - Lab-03
Link Advanced Logic Synthesis Lecture 11 - Lab-04
Link Advanced Logic Synthesis Lecture 12 - Introduction to Synthesis
Link Advanced Logic Synthesis Lecture 13 - Libraries
Link Advanced Logic Synthesis Lecture 14 - RTL Coding for Synthesis
Link Advanced Logic Synthesis Lecture 15 - Reading Design in DC
Link Advanced Logic Synthesis Lecture 16 - Design Environment
Link Advanced Logic Synthesis Lecture 17 - Design Constraints
Link Advanced Logic Synthesis Lecture 18 - Compile Flow and stratergies
Link Advanced Logic Synthesis Lecture 19 - Analysis and Reporting
Link Advanced Logic Synthesis Lecture 20 - Lab-05
Link Advanced Logic Synthesis Lecture 21 - Advanced Synthesis Techniques
Link Advanced Logic Synthesis Lecture 22 - Datapath Extraction Guidelines
Link Advanced Logic Synthesis Lecture 23 - Power - Methodology and Analysis
Link Advanced Logic Synthesis Lecture 24 - Lab-06
Link Advanced Logic Synthesis Lecture 25 - Lab-07
Link Advanced Logic Synthesis Lecture 26 - Lab-08
Link Advanced Logic Synthesis Lecture 27 - Lab-09
Link Advanced Logic Synthesis Lecture 28 - Static Timing Analysis - Concepts and Flow
Link Advanced Logic Synthesis Lecture 29 - Interconnects and Delay calculation
Link Advanced Logic Synthesis Lecture 30 - Clock and Exceptions
Link Advanced Logic Synthesis Lecture 31 - On Chip Variation
Link Advanced Logic Synthesis Lecture 32 - Introduction to Crosstalk
Link Advanced Logic Synthesis Lecture 33 - Gaussian / Normal Distribution
Link Advanced Logic Synthesis Lecture 34 - Equivalence Checking / Formal Verification
Link ARM Based Development Lecture 1 - Types of computer Architectures, ISA's and ARM History
Link ARM Based Development Lecture 2 - Embedded System Software and Hardware, stack implementation in ARM, Endianness, condition codes
Link ARM Based Development Lecture 3 - Processor core VS CPU core, ARM7TDMI Interface signals, Memory Interface, Bus Cycle types, Register set, Operational Modes
Link ARM Based Development Lecture 4 - Instruction Format, ARM Core Data Flow Model, ARM 3 stage Pipeline, ARM family attribute comparision
Link ARM Based Development Lecture 5 - ARM 5 stage Pipeline, Pipeline Hazards, Data forwarding - a hardware solution
Link ARM Based Development Lecture 6 - ARM ISA and Processor Variants, Different Types of Instructions, ARM Instruction set, data processing instructions
Link ARM Based Development Lecture 7 - Shift Operations, shift Operations using RS lower byte, Immediate value encoding
Link ARM Based Development Lecture 8 - Dataprocessing Instructions
Link ARM Based Development Lecture 9 - Addressing Mode-1, Addressing Mode-2
Link ARM Based Development Lecture 10 - Addressing Mode-2, LDR/STR, Addressing mode-3 with examples
Link ARM Based Development Lecture 11 - Instruction Timing, Addressing Mode-4 with Examples
Link ARM Based Development Lecture 12 - Swap Instructions, Swap Register related Instructions, Loading Constants
Link ARM Based Development Lecture 13 - Program Control Flow, Control Flow Instructions, B & BL instructions, BX instruction
Link ARM Based Development Lecture 14 - Interrupts and Exceptions, Exception Handlers, Reset Handling
Link ARM Based Development Lecture 15 - Aborts, software Interrupt Instruction, undefined instruction exception
Link ARM Based Development Lecture 16 - Interrupt Latency, Multiply Instructions, Instruction set examples
Link ARM Based Development Lecture 17 - Thumb state, Thumb Programmers model, Thumb Implementation, Thumb Applications
Link ARM Based Development Lecture 18 - Thumb Instructions, Interrupt processing
Link ARM Based Development Lecture 19 - Interrupt Handelling schemes, Examples of Interrupt Handlers
Link ARM Based Development Lecture 20 - Coprocessors
Link ARM Based Development Lecture 21 - Coprocessor Instructions, data Processing Instruction, data transfers, register transfers
Link ARM Based Development Lecture 22 - Number representations, floating point representation
Link ARM Based Development Lecture 23 - Flynn's Taxonomy, SIMD and Vector Processors, Vector Floating Point Processor (VFP), VFP and ARM interactions, An example vector operation
Link ARM Based Development Lecture 24 - Memory Technologies, Need for memory Hierarchy, Hierarchical Memory Organization, Virtual Memory
Link ARM Based Development Lecture 25 - Cache Memory, Mapping Functions
Link ARM Based Development Lecture 26 - Cache Design, Unified or split cache, multiple level of caches, ARM cache features, coprocessor 15 for system control
Link ARM Based Development Lecture 27 - Processes, Memory Map, Protected Systems, ARM systems with MPU, memory Protection Unit (MPU)
Link ARM Based Development Lecture 28 - Physical Vs Virtual Memory, Paging, Segmentation
Link ARM Based Development Lecture 29 - MMU Advantage, virtual memory translation, Multitasking with MMU, MMU organization, Tightly coupled Memory (TCM)
Link ARM Based Development Lecture 30 - ARM Development Environment, Arm Procedure Call Standard (APCS),
Link ARM Based Development Lecture 31 - Example C program
Link ARM Based Development Lecture 32 - Embedded software Development, Image structure, linker inputs and outputs, memory map, application startup
Link ARM Based Development Lecture 33 - AMBA Overview, Typical AMAB Based Microcontroller, AHB bus features, AHB Bus transfers, APB bus transfers, APB bridge
Link ARM Based Development Lecture 34 - DMA, Peripherals, Programming Peripherals in ARM
Link ARM Based Development Lecture 35 - DMA:Direct Memory Access
Link ARM Based Development Lecture 36 - Protocols (I2c, SPI), UART, GPIO
Link ARM Based Development Lecture 37 - ARM ISAs, ARMv5, ARMv6, ARM v7, big.little technology, ARMv8
Link Embedded Software Testing Lecture 1 - Embedded Systems Basics Session 1
Link Embedded Software Testing Lecture 2 - Embedded Systems Basics Session 1 (Continued...)
Link Embedded Software Testing Lecture 3 - Prerequistics for Embedded Systems Testing
Link Embedded Software Testing Lecture 4 - Test Case Designa and procedures
Link Embedded Software Testing Lecture 5 - Test Standards
Link Embedded Software Testing Lecture 6 - Depicting Levels of Testing
Link Embedded Software Testing Lecture 7 - Depicting Levels of Testing (Continued...)
Link Embedded Software Testing Lecture 8 - Software Life Cycle
Link Embedded Software Testing Lecture 9 - Embedded V-Model Life Cycle
Link Embedded Software Testing Lecture 10 - Embedded V-Model Life Cycle (Continued...)
Link Embedded Software Testing Lecture 11 - Master Test Planning
Link Embedded Software Testing Lecture 12 - Dynamic Testing
Link Embedded Software Testing Lecture 13 - Black Box Testing
Link Embedded Software Testing Lecture 14 - Black Box Testing (Continued...)
Link Embedded Software Testing Lecture 15 - Black Box Testing (Continued...)
Link Embedded Software Testing Lecture 16 - Black Box Testing (Continued...)
Link Embedded Software Testing Lecture 17 - Model based Design Introduction
Link Embedded Software Testing Lecture 18 - Dynamic Testing
Link Embedded Software Testing Lecture 19 - Dynamic Testing (Continued...)
Link Embedded Software Testing Lecture 20 - White Box Testing
Link Embedded Software Testing Lecture 21 - White Box Testing (Continued...)
Link Embedded Software Testing Lecture 22 - Grey-box testing
Link Embedded Software Testing Lecture 23 - Static Testing
Link Embedded Software Testing Lecture 24 - Static Analysis
Link Embedded Software Testing Lecture 25 - Static Analysis (Continued...)
Link Embedded Software Testing Lecture 26 - Static Analysis (Continued...)
Link Embedded Software Testing Lecture 27 - Test Metrics
Link Embedded Software Testing Lecture 28 - Software Testing Metrics
Link Embedded Software Testing Lecture 29 - Integration Test Strategy
Link Embedded Software Testing Lecture 30 - Integration Tests Environment
Link Embedded Software Testing Lecture 31 - Use Case Diagram
Link Embedded Software Testing Lecture 32 - Depicting Levels of Testing (Continued...)
Link Embedded Software Testing Lecture 33 - Configure Management Elements
Link Embedded Software Testing Lecture 34 - SCM Activities
Link Embedded Software Testing Lecture 35 - Test Management Tool
Link Embedded Software Testing Lecture 36 - SCM Activities (Continued...)
Link Embedded Software Testing Lecture 37 - Overview Lecture 1
Link Embedded Software Testing Lecture 38 - Unit Testing
Link Embedded Software Testing Lecture 39 - Unit Testing (Continued...)
Link Embedded Software Testing Lecture 40 - Understading C++
Link Embedded Software Testing Lecture 41 - Unit Testing (Continued...)
Link Embedded Software Testing Lecture 42 - Level Testing
Link Embedded Software Testing Lecture 43 - Identify Test Cases
Link Embedded Software Testing Lecture 44 - Test Link Work Flow
Link Linux Programming and Scripting Lecture 1 - Linux Basics - I
Link Linux Programming and Scripting Lecture 2 - Linux Basics - II
Link Linux Programming and Scripting Lecture 3 - Linux Basics - III
Link Linux Programming and Scripting Lecture 4 - Linux Basics - IV
Link Linux Programming and Scripting Lecture 5 - Linux Networking - I
Link Linux Programming and Scripting Lecture 6 - Linux Networking - II
Link Linux Programming and Scripting Lecture 7 - File Transfer Protocol
Link Linux Programming and Scripting Lecture 8 - Domain Name System
Link Linux Programming and Scripting Lecture 9 - DNS (Continued...)
Link Linux Programming and Scripting Lecture 10 - DFS
Link Linux Programming and Scripting Lecture 11 - AFS and NIS
Link Linux Programming and Scripting Lecture 12 - PERL 1
Link Linux Programming and Scripting Lecture 13 - PERL 2
Link Linux Programming and Scripting Lecture 14 - PERL 3
Link Linux Programming and Scripting Lecture 15 - PERL 4
Link Linux Programming and Scripting Lecture 16 - PERL 5
Link Linux Programming and Scripting Lecture 17 - PERL 6
Link Linux Programming and Scripting Lecture 18 - PERL 7
Link Linux Programming and Scripting Lecture 19 - PERL 8
Link Linux Programming and Scripting Lecture 20 - PERL 9
Link Linux Programming and Scripting Lecture 21 - Using sort
Link Linux Programming and Scripting Lecture 22 - PERL 10
Link Linux Programming and Scripting Lecture 23 - Programming Using Tcl/Tk - I
Link Linux Programming and Scripting Lecture 24 - Programming Using Tcl/Tk - II
Link Linux Programming and Scripting Lecture 25 - Programming Using Tcl/Tk - III
Link Linux Programming and Scripting Lecture 26 - More about Procedures
Link Linux Programming and Scripting Lecture 27 - TCP, Ports and Sockets
Link Linux Programming and Scripting Lecture 28 - I/O and Processes
Link Linux Programming and Scripting Lecture 29 - Bindings
Link Linux Programming and Scripting Lecture 30 - Programming Using Tcl/Tk - IV
Link Linux Programming and Scripting Lecture 31 - Furniture Arranger
Link Linux Programming and Scripting Lecture 32 - Bindtags
Link Linux Programming and Scripting Lecture 33 - Tcl in Synopsys Tools
Link Linux Programming and Scripting Lecture 34 - Python Programming
Link Linux Programming and Scripting Lecture 35 - Scope
Link Linux Programming and Scripting Lecture 36 - Iteration
Link Linux Programming and Scripting Lecture 37 - More about Regexps
Link Linux Programming and Scripting Lecture 38 - Advanced Functions
Link Linux Programming and Scripting Lecture 39 - Exception Handling
Link Linux Programming and Scripting Lecture 40 - Examples of file Parsing
Link Linux Programming and Scripting Lecture 41 - Program on If Statement
Link Linux Programming and Scripting Lecture 42 - Program on Lists
Link Linux Programming and Scripting Lecture 43 - Makefiles
Link NOC:Digital Circuits and Systems Lecture 1 - Introduction
Link NOC:Digital Circuits and Systems Lecture 2 - Basic Boolean Logic
Link NOC:Digital Circuits and Systems Lecture 3 - Boolean Theorems
Link NOC:Digital Circuits and Systems Lecture 4 - Definitions, SoP and Pos
Link NOC:Digital Circuits and Systems Lecture 5 - Algebraic Minimization Examples
Link NOC:Digital Circuits and Systems Lecture 6 - Introduction to Verilog
Link NOC:Digital Circuits and Systems Lecture 7 - Universality, Rearranging Truth Tables
Link NOC:Digital Circuits and Systems Lecture 8 - Karnaugh Maps
Link NOC:Digital Circuits and Systems Lecture 9 - K-Map Minimization
Link NOC:Digital Circuits and Systems Lecture 10 - K-Map with Don't cares
Link NOC:Digital Circuits and Systems Lecture 11 - Multiple Output Functions
Link NOC:Digital Circuits and Systems Lecture 12 - Number Systems
Link NOC:Digital Circuits and Systems Lecture 13 - Encoders and Decoders
Link NOC:Digital Circuits and Systems Lecture 14 - Multiplexers
Link NOC:Digital Circuits and Systems Lecture 15 - Multiplexer based Circuit Design
Link NOC:Digital Circuits and Systems Lecture 16 - Verilog
Link NOC:Digital Circuits and Systems Lecture 17 - Compiling and Running Verilog - A Demonstration
Link NOC:Digital Circuits and Systems Lecture 18 - Sequential Elements
Link NOC:Digital Circuits and Systems Lecture 19 - Gated Latches
Link NOC:Digital Circuits and Systems Lecture 20 - Flipflops
Link NOC:Digital Circuits and Systems Lecture 21 - Verilog - Assign Statement and Instantiation
Link NOC:Digital Circuits and Systems Lecture 22 - Sequential Circuits
Link NOC:Digital Circuits and Systems Lecture 23 - CMOS+Electrical Properties
Link NOC:Digital Circuits and Systems Lecture 24 - Delays
Link NOC:Digital Circuits and Systems Lecture 25 - Sequential Element Delays
Link NOC:Digital Circuits and Systems Lecture 26 - More Sequential Circuits
Link NOC:Digital Circuits and Systems Lecture 27 - Introduction to State Machines
Link NOC:Digital Circuits and Systems Lecture 28 - Always Statement in Verilog
Link NOC:Digital Circuits and Systems Lecture 29 - Sequential Logic Synthesis
Link NOC:Digital Circuits and Systems Lecture 30 - FSM Design Problems
Link NOC:Digital Circuits and Systems Lecture 31 - State Minimization
Link NOC:Digital Circuits and Systems Lecture 32 - State Assignment
Link NOC:Digital Circuits and Systems Lecture 33 - Timing Sequential Circuits
Link NOC:Digital Circuits and Systems Lecture 34 - Verilog Styles + Sequential Elements
Link NOC:Digital Circuits and Systems Lecture 35 - GCD Algorithm
Link NOC:Digital Circuits and Systems Lecture 36 - GCD Machines Datapath
Link NOC:Digital Circuits and Systems Lecture 37 - GCD State Machine
Link NOC:Digital Circuits and Systems Lecture 38 - GCD Top Level Module
Link NOC:Digital Circuits and Systems Lecture 39 - Datapath in Verilog
Link NOC:Digital Circuits and Systems Lecture 40 - Datapath Elements in Verilog
Link NOC:Digital Circuits and Systems Lecture 41 - FSM in Verilog
Link NOC:Digital Circuits and Systems Lecture 42 - Putting it all together
Link NOC:Digital Circuits and Systems Lecture 43 - Pipelining
Link NOC:Digital Circuits and Systems Lecture 44 - K-stage Pipeline
Link NOC:Digital Circuits and Systems Lecture 45 - Interleaving and Parallelism
Link NOC:Digital Circuits and Systems Lecture 46 - Blocking and Non-blocking Statements
Link NOC:Digital Circuits and Systems Lecture 47 - Modeling Circuits with Pipelining
Link NOC:Digital Circuits and Systems Lecture 48 - Signed Number Representation
Link NOC:Digital Circuits and Systems Lecture 49 - Signed Number Addition
Link NOC:Digital Circuits and Systems Lecture 50 - Adder/Subtracter
Link NOC:Digital Circuits and Systems Lecture 51 - Fast Adders
Link NOC:Digital Circuits and Systems Lecture 52 - Multiplication
Link NOC:Digital Circuits and Systems Lecture 53 - Closing
Link NOC:Networks and Systems Lecture 1 - Functions in circuits - constant and sinusoidal functions
Link NOC:Networks and Systems Lecture 2 - Functions in circuits - Exponential function
Link NOC:Networks and Systems Lecture 3 - Complex numbers and other topics
Link NOC:Networks and Systems Lecture 4 - Systems, Signals, Networks
Link NOC:Networks and Systems Lecture 5 - Representation and Classification of Systems
Link NOC:Networks and Systems Lecture 6 - Linear systems
Link NOC:Networks and Systems Lecture 7 - Time-invariance and causality
Link NOC:Networks and Systems Lecture 8 - Signals, Elementary continuous signals
Link NOC:Networks and Systems Lecture 9 - Complex frequencies of signals
Link NOC:Networks and Systems Lecture 10 - Discontinuous signals - step, ramp
Link NOC:Networks and Systems Lecture 11 - Unit impulse or delta function
Link NOC:Networks and Systems Lecture 12 - Basic discrete-time signals
Link NOC:Networks and Systems Lecture 13 - Examples of Signals
Link NOC:Networks and Systems Lecture 14 - Introduction to Systems, Complementary Functions, Initial Conditions
Link NOC:Networks and Systems Lecture 15 - Special initial conditions
Link NOC:Networks and Systems Lecture 16 - Characterization of a linear system
Link NOC:Networks and Systems Lecture 17 - Impulse Response
Link NOC:Networks and Systems Lecture 18 - Evaluating the Convolution Integral
Link NOC:Networks and Systems Lecture 19 - Worked-out Problems
Link NOC:Networks and Systems Lecture 20 - Introduction and Motivation
Link NOC:Networks and Systems Lecture 21 - Evaluating Fourier series coefficients
Link NOC:Networks and Systems Lecture 22 - Symmetry conditions
Link NOC:Networks and Systems Lecture 23 - Symmetry Condition Examples
Link NOC:Networks and Systems Lecture 24 - Application to Network Analysis
Link NOC:Networks and Systems Lecture 25 - Exponential Fourier Series
Link NOC:Networks and Systems Lecture 26 - Frequency Spectrum
Link NOC:Networks and Systems Lecture 27 - Examples
Link NOC:Networks and Systems Lecture 28 - Signal Power and Related Ideas
Link NOC:Networks and Systems Lecture 29 - Convergence of Fourier Series
Link NOC:Networks and Systems Lecture 30 - Week 1 Solutions
Link NOC:Networks and Systems Lecture 31 - Hints for Assignment 2
Link NOC:Networks and Systems Lecture 32 - Hints for Assignment 3
Link NOC:Networks and Systems Lecture 33 - Additional Properties of Fourier Series
Link NOC:Networks and Systems Lecture 34 - Exercises on Fourier Series
Link NOC:Networks and Systems Lecture 35 - Lab Demo
Link NOC:Networks and Systems Lecture 36 - From Fourier Series to Fourier Transform
Link NOC:Networks and Systems Lecture 37 - Continuous Time Fourier Transform
Link NOC:Networks and Systems Lecture 38 - Fourier Transform Examples
Link NOC:Networks and Systems Lecture 39 - Examples and Some Properties of Fourier Transform
Link NOC:Networks and Systems Lecture 40 - Properties of Fourier Transform (contd.)
Link NOC:Networks and Systems Lecture 41 - More Fourier Transform Properties
Link NOC:Networks and Systems Lecture 42 - Energy Considerations
Link NOC:Networks and Systems Lecture 43 - Energy Considerations II
Link NOC:Networks and Systems Lecture 44 - Helpful Relationships for Inverse Fourier Transform
Link NOC:Networks and Systems Lecture 45 - Fourier transform of signals that are not absolutely integrable
Link NOC:Networks and Systems Lecture 46 - Fourier Transform of Periodic Signals, Unit Step and Signum Function
Link NOC:Networks and Systems Lecture 47 - Truncated Sine wave and Convolution properties
Link NOC:Networks and Systems Lecture 48 - Integration in Time domain
Link NOC:Networks and Systems Lecture 49 - Application of continuous-time Fourier transform to system analysis
Link NOC:Networks and Systems Lecture 50 - Comments about transient analysis
Link NOC:Networks and Systems Lecture 51 - Sampling Theorem and Exercises on Fourier Transforms
Link NOC:Networks and Systems Lecture 52 - Introduction to Laplace Transform
Link NOC:Networks and Systems Lecture 53 - Laplace transforms of important functions
Link NOC:Networks and Systems Lecture 54 - Recap, Poles / Zeros and Laplace Transform Notation
Link NOC:Networks and Systems Lecture 55 - Properties: Linearity, differentiation in the time domain
Link NOC:Networks and Systems Lecture 56 - Application and properties of Laplace transform
Link NOC:Networks and Systems Lecture 57 - More properties of Laplace transform: Shift in frequency domain
Link NOC:Networks and Systems Lecture 58 - More properties of Laplace transform
Link NOC:Networks and Systems Lecture 59 - Properties: Division by `t, Initial value theorem, Final value theorem
Link NOC:Networks and Systems Lecture 60 - Properties: Convolution in time domain
Link NOC:Networks and Systems Lecture 61 - Complex convolution and periodic functions
Link NOC:Networks and Systems Lecture 62 - Examples of Laplace transform
Link NOC:Networks and Systems Lecture 63 - Laplace transform examples
Link NOC:Networks and Systems Lecture 64 - Inverse Laplace transform
Link NOC:Networks and Systems Lecture 65 - Partial fractions: general case
Link NOC:Networks and Systems Lecture 66 - Inverse Laplace Transform and Contour Integration
Link NOC:Networks and Systems Lecture 67 - Relating Fourier and Laplace Transform
Link NOC:Networks and Systems Lecture 68 - Exercises
Link NOC:Networks and Systems Lecture 69 - Applications of Laplace transform to network transients
Link NOC:Networks and Systems Lecture 70 - Laplace transform for resistor and system analysis
Link NOC:Networks and Systems Lecture 71 - Laplace transform method for mutual inductance
Link NOC:Networks and Systems Lecture 72 - Mutual Inductance Continued
Link NOC:Networks and Systems Lecture 73 - Examples and Advantages of L-transform
Link NOC:Networks and Systems Lecture 74 - General LTI systems and more about H(s)
Link NOC:Networks and Systems Lecture 75 - Many facets of the system function (contd)
Link NOC:Networks and Systems Lecture 76 - Frequency response and stability
Link NOC:Networks and Systems Lecture 77 - Full circuit example
Link NOC:Networks and Systems Lecture 78 - Exercises
Link Circuits for Analog System Design Lecture 1 - Transistor Amplifier
Link Circuits for Analog System Design Lecture 2 - Transistor Op-amp and Transistor Based Voltage Regulator
Link Circuits for Analog System Design Lecture 3 - Some applications of transistor - I
Link Circuits for Analog System Design Lecture 4 - Some applications of transistor - II
Link Circuits for Analog System Design Lecture 5 - Transformer design & Heat sink design
Link Circuits for Analog System Design Lecture 6 - Op-amp Based Linear Voltage Regulator
Link Circuits for Analog System Design Lecture 7 - Short circuit protection for linear power supply
Link Circuits for Analog System Design Lecture 8 - Temperature indicator design using Op-amp
Link Circuits for Analog System Design Lecture 9 - On & off Temperature controller design
Link Circuits for Analog System Design Lecture 10 - Proportional Temperature Controller Design
Link Circuits for Analog System Design Lecture 11 - PID - Temperature Controller Design
Link Circuits for Analog System Design Lecture 12 - Heater Drive for Various Temperature Controllers
Link Circuits for Analog System Design Lecture 13 - Short Circuit Protection of Power MOSFET
Link Circuits for Analog System Design Lecture 14 - Error budgeting for temperature Indicator
Link Circuits for Analog System Design Lecture 15 - PID Temperature Controllers with Error Budgeting
Link Circuits for Analog System Design Lecture 16 - Error Budgeting for Constant Current Sources
Link Circuits for Analog System Design Lecture 17 - Error Budgeting for Thermo Couple Amplifier
Link Circuits for Analog System Design Lecture 18 - Error Budgeting for Op amp Circuits
Link Circuits for Analog System Design Lecture 19 - Gain Error Calculation in Op amp Circuits
Link Circuits for Analog System Design Lecture 20 - Input Resistance Calculations for Op amp
Link Circuits for Analog System Design Lecture 21 - Output Resistance Calculations for Op amp
Link Circuits for Analog System Design Lecture 22 - Error Budgeting for Different Circuits
Link Circuits for Analog System Design Lecture 23 - 4-20 mA current Transmitter design
Link Circuits for Analog System Design Lecture 24 - Error budgeting for 4-20mA Current Transmitters
Link Circuits for Analog System Design Lecture 25 - LVDT Based Current Transmitters
Link Circuits for Analog System Design Lecture 26 - Constant Current Source Design
Link Circuits for Analog System Design Lecture 27 - 4-20 MA Based Temperature Transmitter
Link Circuits for Analog System Design Lecture 28 - 3-Wire Current Transmitter
Link Circuits for Analog System Design Lecture 29 - Various Resistance Measurement Techniques
Link Circuits for Analog System Design Lecture 30 - Ratio Transformer Technique to Measure Resistance and capacitance
Link Circuits for Analog System Design Lecture 31 - Capacitive Sensor Circuit Design Examples
Link Circuits for Analog System Design Lecture 32 - Capacitive Sensor Circuit With High Impedance Amplifier
Link Circuits for Analog System Design Lecture 33 - AC- applications of the Op-Amp and Lock in Amplifier Design
Link Circuits for Analog System Design Lecture 34 - Design of lock in Amplifier Circuit with example
Link Circuits for Analog System Design Lecture 35 - Dual Slopes ADC – Design Examples
Link Circuits for Analog System Design Lecture 36 - Dual Slope ADC and Successor approximation ADC
Link Circuits for Analog System Design Lecture 37 - MC based ADC
Link Circuits for Analog System Design Lecture 38 - Digital to analog Converter design and working, Flash ADC
Link Circuits for Analog System Design Lecture 39 - Flash ADC and ADC Converter errors
Link Circuits for Analog System Design Lecture 40 - Sigma delta ADC working Principle
Link Digital System design with PLDs and FPGAs Lecture 1 - Course Contents, Objective
Link Digital System design with PLDs and FPGAs Lecture 2 - Revision of Prerequisite
Link Digital System design with PLDs and FPGAs Lecture 3 - Design of Synchronous Sequential Circuits
Link Digital System design with PLDs and FPGAs Lecture 4 - Analysis of Synchronous Sequential Circuits
Link Digital System design with PLDs and FPGAs Lecture 5 - Top-down Design
Link Digital System design with PLDs and FPGAs Lecture 6 - Controller Design
Link Digital System design with PLDs and FPGAs Lecture 7 - Control algorithm and State diagram
Link Digital System design with PLDs and FPGAs Lecture 8 - Case study 1
Link Digital System design with PLDs and FPGAs Lecture 9 - FSM issues 1
Link Digital System design with PLDs and FPGAs Lecture 10 - FSM Issues 2
Link Digital System design with PLDs and FPGAs Lecture 11 - FSM Issues 3
Link Digital System design with PLDs and FPGAs Lecture 12 - FSM Issues 4
Link Digital System design with PLDs and FPGAs Lecture 13 - FSM Issues 5
Link Digital System design with PLDs and FPGAs Lecture 14 - Synchronization 1
Link Digital System design with PLDs and FPGAs Lecture 15 - Synchronization 2
Link Digital System design with PLDs and FPGAs Lecture 16 - Case study 2
Link Digital System design with PLDs and FPGAs Lecture 17 - Case study on FPGA Board
Link Digital System design with PLDs and FPGAs Lecture 18 - Entity, Architecture and Operators
Link Digital System design with PLDs and FPGAs Lecture 19 - Concurrency, Data flow and Behavioural models
Link Digital System design with PLDs and FPGAs Lecture 20 - Structural Model, Simulation
Link Digital System design with PLDs and FPGAs Lecture 21 - Simulating Concurrency
Link Digital System design with PLDs and FPGAs Lecture 22 - Classes and Data types
Link Digital System design with PLDs and FPGAs Lecture 23 - Concurrent statements and Sequential statements
Link Digital System design with PLDs and FPGAs Lecture 24 - Sequential statements and Loops
Link Digital System design with PLDs and FPGAs Lecture 25 - Modelling flip-flops, Registers
Link Digital System design with PLDs and FPGAs Lecture 26 - Synthesis of Sequential circuits
Link Digital System design with PLDs and FPGAs Lecture 27 - Libraries and Packages
Link Digital System design with PLDs and FPGAs Lecture 28 - Operators, Delay modelling
Link Digital System design with PLDs and FPGAs Lecture 29 - Delay modelling
Link Digital System design with PLDs and FPGAs Lecture 30 - VHDL Examples
Link Digital System design with PLDs and FPGAs Lecture 31 - VHDL coding of FSM
Link Digital System design with PLDs and FPGAs Lecture 32 - VHDL Test bench
Link Digital System design with PLDs and FPGAs Lecture 33 - VHDL Examples, FSM Clock
Link Digital System design with PLDs and FPGAs Lecture 34 - Evolution of PLDs
Link Digital System design with PLDs and FPGAs Lecture 35 - Simple PLDs
Link Digital System design with PLDs and FPGAs Lecture 36 - Simple PLDs: Fitting
Link Digital System design with PLDs and FPGAs Lecture 37 - Complex PLDs
Link Digital System design with PLDs and FPGAs Lecture 38 - FPGA Introduction
Link Digital System design with PLDs and FPGAs Lecture 39 - FPGA Interconnection, Design Methodology
Link Digital System design with PLDs and FPGAs Lecture 40 - Xilinx Virtex FPGA’s CLB
Link Digital System design with PLDs and FPGAs Lecture 41 - Xilinx Virtex Resource Mapping, IO Block
Link Digital System design with PLDs and FPGAs Lecture 42 - Xilinx Virtex Clock Tree
Link Digital System design with PLDs and FPGAs Lecture 43 - FPGA Configuration
Link Digital System design with PLDs and FPGAs Lecture 44 - Altera and Actel FPGAs
Link Error Correcting Codes Lecture 1 - Course Overview & Basics
Link Error Correcting Codes Lecture 2 - Example Codes and their Parameters
Link Error Correcting Codes Lecture 3 - Mathematical Preliminaries: Groups
Link Error Correcting Codes Lecture 4 - Subgroups and Equivalence Relations
Link Error Correcting Codes Lecture 5 - Cosets, Rings & Fields
Link Error Correcting Codes Lecture 6 - Vector Spaces, Linear Independence and Basis
Link Error Correcting Codes Lecture 7 - Linear Codes, & Linear independence
Link Error Correcting Codes Lecture 8 - Spanning & Basis
Link Error Correcting Codes Lecture 9 - The Dual Code
Link Error Correcting Codes Lecture 10 - Systematic Generator Matrix
Link Error Correcting Codes Lecture 11 - Minimum Distance of a Linear Code
Link Error Correcting Codes Lecture 12 - Bounds on the size of a Code
Link Error Correcting Codes Lecture 13 - Asymptotic Bounds
Link Error Correcting Codes Lecture 14 - Standard Array Decoding
Link Error Correcting Codes Lecture 15 - Performance Analysis of the SAD
Link Error Correcting Codes Lecture 16 - State and Trellis
Link Error Correcting Codes Lecture 17 - The Viterbi Decoder
Link Error Correcting Codes Lecture 18 - Catastrophic Error Propagation
Link Error Correcting Codes Lecture 19 - Path Enumeration
Link Error Correcting Codes Lecture 20 - Viterbi Decoder over the AWGN Channel
Link Error Correcting Codes Lecture 21 - Generalized Distributive Law
Link Error Correcting Codes Lecture 22 - The MPF Problem
Link Error Correcting Codes Lecture 23 - Further Examples of the MPF Problem
Link Error Correcting Codes Lecture 24 - Junction Trees
Link Error Correcting Codes Lecture 25 - Example of Junction Tree Construction
Link Error Correcting Codes Lecture 26 - Message passing on the Junction tree
Link Error Correcting Codes Lecture 27 - GDL Approach to Decoding Convolutional Codes
Link Error Correcting Codes Lecture 28 - ML Code-Symbol Decoding of the Convolutional Code
Link Error Correcting Codes Lecture 29 - LDPC Codes
Link Error Correcting Codes Lecture 30 - LDPC Code Terminology
Link Error Correcting Codes Lecture 31 - Gallager Decoding Algorithm A
Link Error Correcting Codes Lecture 32 - BP Decoding of LDPC Codes
Link Error Correcting Codes Lecture 33 - BP Decoding (Continued)
Link Error Correcting Codes Lecture 34 - Density Evolution under BP decoding
Link Error Correcting Codes Lecture 35 - Convergence & Concentration Theorem - LDPC Codes
Link Error Correcting Codes Lecture 36 - A Construction for Finite Fields
Link Error Correcting Codes Lecture 37 - Finite Fields: A Deductive Approach
Link Error Correcting Codes Lecture 38 - Deductive Approach to Finite Fields
Link Error Correcting Codes Lecture 39 - Subfields of a Finite field
Link Error Correcting Codes Lecture 40 - Transform Approach to Cyclic Codes
Link Error Correcting Codes Lecture 41 - Estimating the Parameters of a Cyclic Code
Link Error Correcting Codes Lecture 42 - Decoding Cyclic Codes
Link Nanoelectronics: Devices and Materials Lecture 1 - Introduction to Nanoelectronics
Link Nanoelectronics: Devices and Materials Lecture 2 - CMOS Scaling Theory
Link Nanoelectronics: Devices and Materials Lecture 3 - Short Channel Effects
Link Nanoelectronics: Devices and Materials Lecture 4 - Subthreshold Conduction
Link Nanoelectronics: Devices and Materials Lecture 5 - Drain Induced Barrier Lowering
Link Nanoelectronics: Devices and Materials Lecture 6 - Channel and Source / Drain Engineering
Link Nanoelectronics: Devices and Materials Lecture 7 - CMOS Process Flow
Link Nanoelectronics: Devices and Materials Lecture 8 - Gate oxide scaling and reliability
Link Nanoelectronics: Devices and Materials Lecture 9 - High-k gate dielectrics
Link Nanoelectronics: Devices and Materials Lecture 10 - Metal gate transistor
Link Nanoelectronics: Devices and Materials Lecture 11 - Industrial CMOS Technology
Link Nanoelectronics: Devices and Materials Lecture 12 - Ideal MOS C-V Characteristics
Link Nanoelectronics: Devices and Materials Lecture 13 - Effect of non idealities on C-V
Link Nanoelectronics: Devices and Materials Lecture 14 - MOS Parameter Extraction from C-V Characteristics
Link Nanoelectronics: Devices and Materials Lecture 15 - MOS Parameter Extraction from I-V Characteristics
Link Nanoelectronics: Devices and Materials Lecture 16 - MOSFET Analysis, sub-threshold swing “S”
Link Nanoelectronics: Devices and Materials Lecture 17 - Interface state density effects on “S”. Short Channel Effects (SCE) and Drain Induced Barrier Lowering (DIBL)
Link Nanoelectronics: Devices and Materials Lecture 18 - Velocity Saturation, Ballistic transport, and Velocity Overshoot Effects and Injection Velocity
Link Nanoelectronics: Devices and Materials Lecture 19 - SOI Technology and comparisons with Bulk Silicon CMOS technology
Link Nanoelectronics: Devices and Materials Lecture 20 - SOI MOSFET structures, Partially Depleted (PD)and Fully Depleted (FD) SOIMOSFETs
Link Nanoelectronics: Devices and Materials Lecture 21 - FD SOI MOSFET: Operation Modes and Threshold Voltages and Electric Fields
Link Nanoelectronics: Devices and Materials Lecture 22 - Sub-threshold Slope & SCE suppression in FD SOI MOSFET, Volume Inversion and Ultra thin (UTFD) SOI MOSFET and quantization Effect, FINFET
Link Nanoelectronics: Devices and Materials Lecture 23 - Need for MS contact Source/Drain Junction in Nano scale MOSFETs
Link Nanoelectronics: Devices and Materials Lecture 24 - Rectifying and Ohmic contacts and challenges in MS unction source drain MOSFET Technology
Link Nanoelectronics: Devices and Materials Lecture 25 - Effect of Interface states and Fermi level pinning on MS contacts on Si and passivation techniques for MS S/D MOSFETS
Link Nanoelectronics: Devices and Materials Lecture 26 - Germanium as an alternate to silicon for high performance MOSFETs and the challenges in Germanium Technology
Link Nanoelectronics: Devices and Materials Lecture 27 - Germanium MOSFT technology and recent results on surface passivated Ge MOSFETS
Link Nanoelectronics: Devices and Materials Lecture 28 - Compound semiconductors and hetero junction FETsfor high performance
Link Nanoelectronics: Devices and Materials Lecture 29 - GaAs MESFETs: Enhancement and depletion types. Velocity Overshoot effcts in GaAs MESFETs
Link Nanoelectronics: Devices and Materials Lecture 30 - Hetero-junctions and High Electron Mobility Transistors (HEMT)
Link Nanoelectronics: Devices and Materials Lecture 31 - Introduction to Nanomaterials
Link Nanoelectronics: Devices and Materials Lecture 32 - Basic Principles of Quantum Mechanics
Link Nanoelectronics: Devices and Materials Lecture 33 - Basic Principles of Quantum Mechanics (Continued...)
Link Nanoelectronics: Devices and Materials Lecture 34 - Energy bands in crystalline solids
Link Nanoelectronics: Devices and Materials Lecture 35 - Quantum structures and devices
Link Nanoelectronics: Devices and Materials Lecture 36 - Crystal growth and nanocrystals
Link Nanoelectronics: Devices and Materials Lecture 37 - Nanocrystals and nanostructured thin films
Link Nanoelectronics: Devices and Materials Lecture 38 - Nanowires and other nanostructures
Link Nanoelectronics: Devices and Materials Lecture 39 - Carbon Nanostructures and CVD
Link Nanoelectronics: Devices and Materials Lecture 40 - Atomic layer deposition (ALD)
Link Nanoelectronics: Devices and Materials Lecture 41 - Characterisation of nanomaterials
Link Pattern Recognition Lecture 1 - Introduction to Statistical Pattern Recognition
Link Pattern Recognition Lecture 2 - Overview of Pattern Classifiers
Link Pattern Recognition Lecture 3 - The Bayes Classifier for minimizing Risk
Link Pattern Recognition Lecture 4 - Estimating Bayes Error; Minimax and Neymann-Pearson classifiers
Link Pattern Recognition Lecture 5 - Implementing Bayes Classifier; Estimation of Class Conditional Densities
Link Pattern Recognition Lecture 6 - Maximum Likelihood estimation of different densities
Link Pattern Recognition Lecture 7 - Bayesian estimation of parameters of density functions, MAP estimates
Link Pattern Recognition Lecture 8 - Bayesian Estimation examples; the exponential family of densities and ML estimates
Link Pattern Recognition Lecture 9 - Sufficient Statistics; Recursive formulation of ML and Bayesian estimates
Link Pattern Recognition Lecture 10 - Mixture Densities, ML estimation and EM algorithm
Link Pattern Recognition Lecture 11 - Convergence of EM algorithm; overview of Nonparametric density estimation
Link Pattern Recognition Lecture 12 - Convergence of EM algorithm, Overview of Nonparametric density estimation
Link Pattern Recognition Lecture 13 - Nonparametric estimation, Parzen Windows, nearest neighbour methods
Link Pattern Recognition Lecture 14 - Linear Discriminant Functions; Perceptron -- Learning Algorithm and convergence proof
Link Pattern Recognition Lecture 15 - Linear Least Squares Regression; LMS algorithm
Link Pattern Recognition Lecture 16 - AdaLinE and LMS algorithm; General nonliner least-squares regression
Link Pattern Recognition Lecture 17 - Logistic Regression; Statistics of least squares method; Regularized Least Squares
Link Pattern Recognition Lecture 18 - Fisher Linear Discriminant
Link Pattern Recognition Lecture 19 - Linear Discriminant functions for multi-class case; multi-class logistic regression
Link Pattern Recognition Lecture 20 - Learning and Generalization; PAC learning framework
Link Pattern Recognition Lecture 21 - Overview of Statistical Learning Theory; Empirical Risk Minimization
Link Pattern Recognition Lecture 22 - Consistency of Empirical Risk Minimization
Link Pattern Recognition Lecture 23 - Consistency of Empirical Risk Minimization; VC-Dimension
Link Pattern Recognition Lecture 24 - Complexity of Learning problems and VC-Dimension
Link Pattern Recognition Lecture 25 - VC-Dimension Examples; VC-Dimension of hyperplanes
Link Pattern Recognition Lecture 26 - Overview of Artificial Neural Networks
Link Pattern Recognition Lecture 27 - Multilayer Feedforward Neural networks with Sigmoidal activation functions;
Link Pattern Recognition Lecture 28 - Backpropagation Algorithm; Representational abilities of feedforward networks
Link Pattern Recognition Lecture 29 - Feedforward networks for Classification and Regression; Backpropagation in Practice
Link Pattern Recognition Lecture 30 - Radial Basis Function Networks; Gaussian RBF networks
Link Pattern Recognition Lecture 31 - Learning Weights in RBF networks; K-means clustering algorithm
Link Pattern Recognition Lecture 32 - Support Vector Machines -- Introduction, obtaining the optimal hyperplane
Link Pattern Recognition Lecture 33 - SVM formulation with slack variables; nonlinear SVM classifiers
Link Pattern Recognition Lecture 34 - Kernel Functions for nonlinear SVMs; Mercer and positive definite Kernels
Link Pattern Recognition Lecture 35 - Support Vector Regression and ?-insensitive Loss function, examples of SVM learning
Link Pattern Recognition Lecture 36 - Overview of SMO and other algorithms for SVM; ?-SVM and ?-SVR; SVM as a risk minimizer
Link Pattern Recognition Lecture 37 - Positive Definite Kernels; RKHS; Representer Theorem
Link Pattern Recognition Lecture 38 - Feature Selection and Dimensionality Reduction; Principal Component Analysis
Link Pattern Recognition Lecture 39 - No Free Lunch Theorem; Model selection and model estimation; Bias-variance trade-off
Link Pattern Recognition Lecture 40 - Assessing Learnt classifiers; Cross Validation;
Link Pattern Recognition Lecture 41 - Bootstrap, Bagging and Boosting; Classifier Ensembles; AdaBoost
Link Pattern Recognition Lecture 42 - Risk minimization view of AdaBoost
Link Analog Circuits and Systems 1 Lecture 1 - Introduction to Sensors, Signals and Systems
Link Analog Circuits and Systems 1 Lecture 2 - Role of Analog Signal Processing in Electronic Products - Part I
Link Analog Circuits and Systems 1 Lecture 3 - Role of Analog Signal Processing in Electronic Products - Part II
Link Analog Circuits and Systems 1 Lecture 4 - Analog Signal Processing using One Port Networks
Link Analog Circuits and Systems 1 Lecture 5 - Analog Signal Processing using One Port Networks, Passive Two Ports and Ideal amplifiers
Link Analog Circuits and Systems 1 Lecture 6 - Synthesis of Amplifiers using Nullators and Norators
Link Analog Circuits and Systems 1 Lecture 7 - Passive Electronic Devices for Analog Signal Processing
Link Analog Circuits and Systems 1 Lecture 8 - Active Devices for Analog Signal Processing Systems
Link Analog Circuits and Systems 1 Lecture 9 - Electronic Devices for Analog Circuits - Part I
Link Analog Circuits and Systems 1 Lecture 10 - Electronic Devices for Analog Circuits - Part II
Link Analog Circuits and Systems 1 Lecture 11 - Feedback in Systems
Link Analog Circuits and Systems 1 Lecture 12 - Static Charecteristic of Feedback Systems
Link Analog Circuits and Systems 1 Lecture 13 - Dynamic Behaviour of Feedback Systems - Part I
Link Analog Circuits and Systems 1 Lecture 14 - Dynamic Behavior of Feedback Systems - Part II
Link Analog Circuits and Systems 1 Lecture 15 - Design of Feedback Amplifiers - Part I
Link Analog Circuits and Systems 1 Lecture 16 - Design of Feedback Amplifiers - Part II
Link Analog Circuits and Systems 1 Lecture 17 - Design of Feedback Amplifiers and Instrumentation Amplifiers
Link Analog Circuits and Systems 1 Lecture 18 - Instrumentation Amplifiers, Integrators and Differentiators
Link Analog Circuits and Systems 1 Lecture 19 - Non-linear Analog Signal Processing
Link Analog Circuits and Systems 1 Lecture 20 - DC Voltage Regulators
Link Analog Circuits and Systems 1 Lecture 21 - Filters - Approximations to ideal filter functions
Link Analog Circuits and Systems 1 Lecture 22 - Passive Filters - Part I
Link Analog Circuits and Systems 1 Lecture 23 - Passive Filters - Part II
Link Analog Circuits and Systems 1 Lecture 24 - Active Filters - Part I
Link Analog Circuits and Systems 1 Lecture 25 - Active Filters - Part II
Link Analog Circuits and Systems 1 Lecture 26 - Active Filters: Q-enhancement
Link Analog Circuits and Systems 1 Lecture 27 - State Space Filters
Link Analog Circuits and Systems 1 Lecture 28 - Universal Active Filter - Effect of Active Device GB
Link Analog Circuits and Systems 1 Lecture 29 - State-Space Filters (Tuning of Filters)
Link Analog Circuits and Systems 1 Lecture 30 - Automatic Tuning of Filters (PLL) and Review of Filter Design
Link Analog Circuits and Systems 1 Lecture 31 - Waveform Generation
Link Analog Circuits and Systems 1 Lecture 32 - LC Oscillator - Effect of Non-idealities
Link Analog Circuits and Systems 1 Lecture 33 - Transconductor based Oscillator
Link Analog Circuits and Systems 1 Lecture 34 - Regenerative Comparators and Non-Sinusoidal Oscillators
Link Analog Circuits and Systems 1 Lecture 35 - Non-Sinusoidal Oscillators and VCO (FM & FSK Generators)
Link Analog Circuits and Systems 1 Lecture 36 - Phase and Frequency Followers
Link Analog Circuits and Systems 1 Lecture 37 - Frequency Locked Loop (Popularly known as PLL)
Link Analog Circuits and Systems 1 Lecture 38 - Design of PLL and FLL
Link Analog Circuits and Systems 1 Lecture 39 - Analog System Design
Link NOC:Design and Simulation of DC-DC converters using Open Source Tools Lecture 1 - System Overview
Link NOC:Design and Simulation of DC-DC converters using Open Source Tools Lecture 2 - Understanding Rectifier with C-filter
Link NOC:Design and Simulation of DC-DC converters using Open Source Tools Lecture 3 - Setting up gEDA, ngSpice and Octave
Link NOC:Design and Simulation of DC-DC converters using Open Source Tools Lecture 4 - Simulation walk-through : Rectifier C-filter example
Link NOC:Design and Simulation of DC-DC converters using Open Source Tools Lecture 5 - Designing the rectifier capacitor filter circuit
Link NOC:Design and Simulation of DC-DC converters using Open Source Tools Lecture 6 - Startup surge limiting
Link NOC:Design and Simulation of DC-DC converters using Open Source Tools Lecture 7 - DC-DC converter concepts
Link NOC:Design and Simulation of DC-DC converters using Open Source Tools Lecture 8 - Buck, Boost and Buck-Boost Converters
Link NOC:Design and Simulation of DC-DC converters using Open Source Tools Lecture 9 - Simulation Example of Buck Converter
Link NOC:Design and Simulation of DC-DC converters using Open Source Tools Lecture 10 - Understanding Buck Converter
Link NOC:Design and Simulation of DC-DC converters using Open Source Tools Lecture 11 - Understanding Boost and Buck-Boost
Link NOC:Design and Simulation of DC-DC converters using Open Source Tools Lecture 12 - Forward Converter Topology
Link NOC:Design and Simulation of DC-DC converters using Open Source Tools Lecture 13 - Waveforms and Design
Link NOC:Design and Simulation of DC-DC converters using Open Source Tools Lecture 14 - Simulation of Forward Converter
Link NOC:Design and Simulation of DC-DC converters using Open Source Tools Lecture 15 - Forward Converter with Lossless Core Reset
Link NOC:Design and Simulation of DC-DC converters using Open Source Tools Lecture 16 - Transformer Design
Link NOC:Design and Simulation of DC-DC converters using Open Source Tools Lecture 17 - Inductor Design
Link NOC:Design and Simulation of DC-DC converters using Open Source Tools Lecture 18 - Flyback Converter Topology
Link NOC:Design and Simulation of DC-DC converters using Open Source Tools Lecture 19 - Pushpull Converter
Link NOC:Design and Simulation of DC-DC converters using Open Source Tools Lecture 20 - Half and Full Bridge Converters
Link NOC:Design and Simulation of DC-DC converters using Open Source Tools Lecture 21 - Close Loop Operation of Converters
Link NOC:Design and Simulation of DC-DC converters using Open Source Tools Lecture 22 - Simulation examples
Link NOC:Design and Simulation of DC-DC converters using Open Source Tools Lecture 23 - Multi-Output Converters
Link NOC:Design and Simulation of DC-DC converters using Open Source Tools Lecture 24 - Concluding Remarks
Link NOC:Enclosure Design of Electronics Equipment Lecture 1 - Enclosure design for Electronics Equipment Introduction
Link NOC:Enclosure Design of Electronics Equipment Lecture 2 - Aspects and features that are non electrical and are essential to Electronic Product Realisation
Link NOC:Enclosure Design of Electronics Equipment Lecture 3 - Enclosure Design in electronic equipment
Link NOC:Enclosure Design of Electronics Equipment Lecture 4 - Design as applied to small electronics products and projects
Link NOC:Enclosure Design of Electronics Equipment Lecture 5 - Sketching in design for communication
Link NOC:Enclosure Design of Electronics Equipment Lecture 6 - Sketching as a tool with example and exercise
Link NOC:Enclosure Design of Electronics Equipment Lecture 7 - Sketching Part 2
Link NOC:Enclosure Design of Electronics Equipment Lecture 8 - Enclosures to Product design
Link NOC:Enclosure Design of Electronics Equipment Lecture 9 - Examples of product enclosures ID_PD
Link NOC:Enclosure Design of Electronics Equipment Lecture 10 - Enclosures with detailing: Examples
Link NOC:Enclosure Design of Electronics Equipment Lecture 11 - Alternate Designs in an everyday item
Link NOC:Enclosure Design of Electronics Equipment Lecture 12 - Sheet metal in small equipment (PSU)
Link NOC:Enclosure Design of Electronics Equipment Lecture 13 - Layouts and Materials of small equipment
Link NOC:Enclosure Design of Electronics Equipment Lecture 14 - Materials used for construction
Link NOC:Enclosure Design of Electronics Equipment Lecture 15 - Materials choice
Link NOC:Enclosure Design of Electronics Equipment Lecture 16 - Aluminium for common equipment
Link NOC:Enclosure Design of Electronics Equipment Lecture 17 - Use of Aluminium extrusions
Link NOC:Enclosure Design of Electronics Equipment Lecture 18 - Application of Sheet metal
Link NOC:Enclosure Design of Electronics Equipment Lecture 19 - Sheet Metal bending
Link NOC:Enclosure Design of Electronics Equipment Lecture 20 - Development of enclosures for bending
Link NOC:Enclosure Design of Electronics Equipment Lecture 21 - Video of Fabrication
Link NOC:Enclosure Design of Electronics Equipment Lecture 22 - What can be done in the lab Bending
Link NOC:Enclosure Design of Electronics Equipment Lecture 23 - Issues in bending and folding
Link NOC:Enclosure Design of Electronics Equipment Lecture 24 - Making a quick model
Link NOC:Enclosure Design of Electronics Equipment Lecture 25 - Detailing in plastic
Link NOC:Enclosure Design of Electronics Equipment Lecture 26 - Fabricating with flat plastic
Link NOC:Enclosure Design of Electronics Equipment Lecture 27 - Video in ID Lab
Link NOC:Enclosure Design of Electronics Equipment Lecture 28 - Off the shelf enclosures
Link NOC:Enclosure Design of Electronics Equipment Lecture 29 - Ready made enclosures
Link NOC:Enclosure Design of Electronics Equipment Lecture 30 - Application documentation and Selection
Link NOC:Enclosure Design of Electronics Equipment Lecture 31 - Index of protection, Safety
Link NOC:Enclosure Design of Electronics Equipment Lecture 32 - NEMA and related
Link NOC:Enclosure Design of Electronics Equipment Lecture 33 - Testing for IP class
Link NOC:Enclosure Design of Electronics Equipment Lecture 34 - Sealed Enclosures Video
Link NOC:Enclosure Design of Electronics Equipment Lecture 35 - Public utility boxes
Link NOC:Enclosure Design of Electronics Equipment Lecture 36 - EMI Sealing
Link NOC:Enclosure Design of Electronics Equipment Lecture 37 - Sealed Enclosures 2
Link NOC:Enclosure Design of Electronics Equipment Lecture 38 - Gasketing practice
Link NOC:Enclosure Design of Electronics Equipment Lecture 39 - Gasketing Basics
Link NOC:Enclosure Design of Electronics Equipment Lecture 40 - Off the shelf Aluminum enclosures
Link NOC:Enclosure Design of Electronics Equipment Lecture 41 - Understanding
Link NOC:Enclosure Design of Electronics Equipment Lecture 42 - Heat sink enclosures
Link NOC:Enclosure Design of Electronics Equipment Lecture 43 - Detailing of Built in Heat sink boxes
Link NOC:Enclosure Design of Electronics Equipment Lecture 44 - Connector basics
Link NOC:Enclosure Design of Electronics Equipment Lecture 45 - Connectors - Part 2
Link NOC:Enclosure Design of Electronics Equipment Lecture 46 - Common connectors
Link NOC:Enclosure Design of Electronics Equipment Lecture 47 - Connectors (multi way) and CoAx
Link NOC:Enclosure Design of Electronics Equipment Lecture 48 - MIL C connectors
Link NOC:Enclosure Design of Electronics Equipment Lecture 49 - CAD in Layout Drawing
Link NOC:Enclosure Design of Electronics Equipment Lecture 50 - Types of CAD
Link NOC:Enclosure Design of Electronics Equipment Lecture 51 - CAD for enclosure Design
Link NOC:Enclosure Design of Electronics Equipment Lecture 52 - Egpt layout with CAD
Link NOC:Enclosure Design of Electronics Equipment Lecture 53 - CAD sample Example
Link NOC:Enclosure Design of Electronics Equipment Lecture 54 - CAD Layout
Link NOC:Enclosure Design of Electronics Equipment Lecture 55 - Detailing with CAD
Link NOC:Enclosure Design of Electronics Equipment Lecture 56 - Integrating Products with CAD
Link NOC:Enclosure Design of Electronics Equipment Lecture 57 - Product Detailing
Link NOC:Enclosure Design of Electronics Equipment Lecture 58 - Components CAD Physical Models
Link NOC:Enclosure Design of Electronics Equipment Lecture 59 - Sheet Metal and Plastic common details
Link NOC:Enclosure Design of Electronics Equipment Lecture 60 - Sample of Simple Organic Shapes
Link NOC:Enclosure Design of Electronics Equipment Lecture 61 - Conclusion
Link NOC:Design of Photovoltaic Systems Lecture 1 - A historical perspective
Link NOC:Design of Photovoltaic Systems Lecture 2 - PV cell characteristics and equivalent circuit
Link NOC:Design of Photovoltaic Systems Lecture 3 - Model of PV cell
Link NOC:Design of Photovoltaic Systems Lecture 4 - Short Circuit, Open Circuit and peak power parameters
Link NOC:Design of Photovoltaic Systems Lecture 5 - Datasheet study
Link NOC:Design of Photovoltaic Systems Lecture 6 - Cell efficiency
Link NOC:Design of Photovoltaic Systems Lecture 7 - Effect of temperature
Link NOC:Design of Photovoltaic Systems Lecture 8 - Temperature effect calculation example
Link NOC:Design of Photovoltaic Systems Lecture 9 - Fill factor
Link NOC:Design of Photovoltaic Systems Lecture 10 - PV cell simulation
Link NOC:Design of Photovoltaic Systems Lecture 11 - Identical cells in series
Link NOC:Design of Photovoltaic Systems Lecture 12 - Load line
Link NOC:Design of Photovoltaic Systems Lecture 13 - Non-identical cells in series
Link NOC:Design of Photovoltaic Systems Lecture 14 - Protecting cells in series
Link NOC:Design of Photovoltaic Systems Lecture 15 - Interconnecting modules in series
Link NOC:Design of Photovoltaic Systems Lecture 16 - Simulation of cells in series
Link NOC:Design of Photovoltaic Systems Lecture 17 - Identical cells in parallel
Link NOC:Design of Photovoltaic Systems Lecture 18 - Non-identical cells in parallel
Link NOC:Design of Photovoltaic Systems Lecture 19 - Protecting cells in parallel
Link NOC:Design of Photovoltaic Systems Lecture 20 - Interconnecting modules
Link NOC:Design of Photovoltaic Systems Lecture 21 - Simulation of cells in parallel
Link NOC:Design of Photovoltaic Systems Lecture 22 - Practicals - Measuring i-v characteristics
Link NOC:Design of Photovoltaic Systems Lecture 23 - Practicals - PV source emulation
Link NOC:Design of Photovoltaic Systems Lecture 24 - Introduction
Link NOC:Design of Photovoltaic Systems Lecture 25 - Insolation and irradiance
Link NOC:Design of Photovoltaic Systems Lecture 26 - Insolation variation with time of day
Link NOC:Design of Photovoltaic Systems Lecture 27 - Earth centric viewpoint and declination
Link NOC:Design of Photovoltaic Systems Lecture 28 - Solar geometry
Link NOC:Design of Photovoltaic Systems Lecture 29 - Insolation on a horizontal flat plate
Link NOC:Design of Photovoltaic Systems Lecture 30 - Energy on a horizontal flat plate
Link NOC:Design of Photovoltaic Systems Lecture 31 - Sunrise and sunset hour angles
Link NOC:Design of Photovoltaic Systems Lecture 32 - Examples
Link NOC:Design of Photovoltaic Systems Lecture 33 - Energy on a tilted flat plate
Link NOC:Design of Photovoltaic Systems Lecture 34 - Energy plots in octave
Link NOC:Design of Photovoltaic Systems Lecture 35 - Atmospheric effects
Link NOC:Design of Photovoltaic Systems Lecture 36 - Airmass
Link NOC:Design of Photovoltaic Systems Lecture 37 - Energy with atmospheric effects
Link NOC:Design of Photovoltaic Systems Lecture 38 - Clearness index
Link NOC:Design of Photovoltaic Systems Lecture 39 - Clearness index and energy scripts in Octave
Link NOC:Design of Photovoltaic Systems Lecture 40 - Sizing PV for applications without batteries
Link NOC:Design of Photovoltaic Systems Lecture 41 - Sizing PV Examples
Link NOC:Design of Photovoltaic Systems Lecture 42 - Batteries - intro
Link NOC:Design of Photovoltaic Systems Lecture 43 - Batteries - Capacity
Link NOC:Design of Photovoltaic Systems Lecture 44 - Batteries - C-rate
Link NOC:Design of Photovoltaic Systems Lecture 45 - Batteries - Efficiency
Link NOC:Design of Photovoltaic Systems Lecture 46 - Batteries - Energy and power densities
Link NOC:Design of Photovoltaic Systems Lecture 47 - Batteries - Comparison
Link NOC:Design of Photovoltaic Systems Lecture 48 - Battery selection
Link NOC:Design of Photovoltaic Systems Lecture 49 - Other energy storage methods
Link NOC:Design of Photovoltaic Systems Lecture 50 - PV system design - Load profile
Link NOC:Design of Photovoltaic Systems Lecture 51 - PV system design - Days of autonomy and recharge
Link NOC:Design of Photovoltaic Systems Lecture 52 - PV system design - Battery size
Link NOC:Design of Photovoltaic Systems Lecture 53 - PV system design - PV array size
Link NOC:Design of Photovoltaic Systems Lecture 54 - Design toolbox in octave
Link NOC:Design of Photovoltaic Systems Lecture 55 - MPPT concept>
Link NOC:Design of Photovoltaic Systems Lecture 56 - Input impedance of DC-DC converters - Boost converter
Link NOC:Design of Photovoltaic Systems Lecture 57 - Input impedance of DC-DC converters - Buck converter
Link NOC:Design of Photovoltaic Systems Lecture 58 - Input impedance of DC-DC converters - Buck-Boost converter
Link NOC:Design of Photovoltaic Systems Lecture 59 - Input impedance of DC-DC converters - PV module in SPICE
Link NOC:Design of Photovoltaic Systems Lecture 60 - Input impedance of DC-DC converters -Simulation - PV and DC-DC interface
Link NOC:Design of Photovoltaic Systems Lecture 61 - Impedance control methods
Link NOC:Design of Photovoltaic Systems Lecture 62 - Impedance control methods- Reference cell - voltage scaling
Link NOC:Design of Photovoltaic Systems Lecture 63 - Impedance control methods- Reference cell - current scaling
Link NOC:Design of Photovoltaic Systems Lecture 64 - Impedance control methods- Reference cell - Sampling method
Link NOC:Design of Photovoltaic Systems Lecture 65 - Impedance control methods- Reference cell - Power slope method 1
Link NOC:Design of Photovoltaic Systems Lecture 66 - Impedance control methods- Reference cell - Power slope method 2
Link NOC:Design of Photovoltaic Systems Lecture 67 - Impedance control methods- Reference cell - Hill climbing method
Link NOC:Design of Photovoltaic Systems Lecture 68 - Practical points - Housekeeping power supply
Link NOC:Design of Photovoltaic Systems Lecture 69 - Practical points - Gate driver
Link NOC:Design of Photovoltaic Systems Lecture 70 - Practical points - MPPT for non-resistive loads
Link NOC:Design of Photovoltaic Systems Lecture 71 - Simulation - MPPT
Link NOC:Design of Photovoltaic Systems Lecture 72 - Direct PV-battery connection
Link NOC:Design of Photovoltaic Systems Lecture 73 - Charge controller
Link NOC:Design of Photovoltaic Systems Lecture 74 - Battery charger - Understanding current control
Link NOC:Design of Photovoltaic Systems Lecture 75 - Battery charger - slope compensation
Link NOC:Design of Photovoltaic Systems Lecture 76 - Battery charger - simulation of current control
Link NOC:Design of Photovoltaic Systems Lecture 77 - Batteries in series - charge equalisation
Link NOC:Design of Photovoltaic Systems Lecture 78 - Batteries in parallel
Link NOC:Design of Photovoltaic Systems Lecture 79 - Peltier device - principle
Link NOC:Design of Photovoltaic Systems Lecture 80 - Peltier element - datasheet
Link NOC:Design of Photovoltaic Systems Lecture 81 - Peltier cooling
Link NOC:Design of Photovoltaic Systems Lecture 82 - Thermal aspects
Link NOC:Design of Photovoltaic Systems Lecture 83 - Thermal aspects - Conduction
Link NOC:Design of Photovoltaic Systems Lecture 84 - Thermal aspects - Convection
Link NOC:Design of Photovoltaic Systems Lecture 85 - Thermal aspects - A peltier refrigeration example
Link NOC:Design of Photovoltaic Systems Lecture 86 - Thermal aspects - Radiation and mass transport
Link NOC:Design of Photovoltaic Systems Lecture 87 - Demo of Peltier cooling
Link NOC:Design of Photovoltaic Systems Lecture 88 - Water pumping principle
Link NOC:Design of Photovoltaic Systems Lecture 89 - Hydraulic energy and power
Link NOC:Design of Photovoltaic Systems Lecture 90 - Total dynamic head
Link NOC:Design of Photovoltaic Systems Lecture 91 - Numerical solution - Colebrook formula
Link NOC:Design of Photovoltaic Systems Lecture 92 - Octave script for head calculation
Link NOC:Design of Photovoltaic Systems Lecture 93 - PV and Water Pumping Examples
Link NOC:Design of Photovoltaic Systems Lecture 94 - Octave script for hydraulic power
Link NOC:Design of Photovoltaic Systems Lecture 95 - Centrifugal pump
Link NOC:Design of Photovoltaic Systems Lecture 96 - Reciprocating pump
Link NOC:Design of Photovoltaic Systems Lecture 97 - PV power
Link NOC:Design of Photovoltaic Systems Lecture 98 - Pumped hydro application
Link NOC:Design of Photovoltaic Systems Lecture 99 - Grid connection principle
Link NOC:Design of Photovoltaic Systems Lecture 100 - PV to grid topologies Part-I
Link NOC:Design of Photovoltaic Systems Lecture 101 - PV to grid topologies Part-II
Link NOC:Design of Photovoltaic Systems Lecture 102 - PV to grid topologies Part-III
Link NOC:Design of Photovoltaic Systems Lecture 103 - 3ph d-q controlled grid connection intro
Link NOC:Design of Photovoltaic Systems Lecture 104 - 3ph d-q controlled grid connection dq-axis theory
Link NOC:Design of Photovoltaic Systems Lecture 105 - 3ph d-q controlled grid connection AC to DC transformations
Link NOC:Design of Photovoltaic Systems Lecture 106 - 3ph d-q controlled grid connection DC to AC transformations
Link NOC:Design of Photovoltaic Systems Lecture 107 - 3ph d-q controlled grid connection Complete 3ph grid connection
Link NOC:Design of Photovoltaic Systems Lecture 108 - 1ph d-q controlled grid connection
Link NOC:Design of Photovoltaic Systems Lecture 109 - 3ph PV-Grid interface example
Link NOC:Design of Photovoltaic Systems Lecture 110 - SVPWM - discrete implementation
Link NOC:Design of Photovoltaic Systems Lecture 111 - SVPWM - analog implementation
Link NOC:Design of Photovoltaic Systems Lecture 112 - Application of integrated magnetics
Link NOC:Design of Photovoltaic Systems Lecture 113 - Life cycle Costing Growth models
Link NOC:Design of Photovoltaic Systems Lecture 114 - Life cycle Costing Growth model examples
Link NOC:Design of Photovoltaic Systems Lecture 115 - Life cycle Costing Annual payment and present worth factor
Link NOC:Design of Photovoltaic Systems Lecture 116 - Life cycle Costing LCC with example - 1
Link NOC:Design of Photovoltaic Systems Lecture 117 - Life cycle Costing LCC example - 2
Link NOC:Design of Photovoltaic Systems Lecture 118 - Life cycle Costing LCC example - 3
Link NOC:Photonic Integrated Circuits Lecture 1 - Introduction to Photonic Integrated Circuits
Link NOC:Photonic Integrated Circuits Lecture 2 - Optical Waveguide Theory - Symmetric Waveguides
Link NOC:Photonic Integrated Circuits Lecture 3 - Optical Waveguide Theory - Asymmetric Waveguides
Link NOC:Photonic Integrated Circuits Lecture 4 - Vector Modes
Link NOC:Photonic Integrated Circuits Lecture 5 - Channel Waveguide
Link NOC:Photonic Integrated Circuits Lecture 6 - Directional Coupler and Coupled Mode Theory
Link NOC:Photonic Integrated Circuits Lecture 7 - Passive Devices and Beam Propagation Method
Link NOC:Photonic Integrated Circuits Lecture 8 - Dynamic Devices
Link NOC:Photonic Integrated Circuits Lecture 9 - Integrated optical Systems and Applications
Link NOC:Photonic Integrated Circuits Lecture 10 - Fabrication and Characterisation
Link NOC:Photonic Integrated Circuits Lecture 11 - MOEMS
Link NOC:Photonic Integrated Circuits Lecture 12 - Ring Resonators
Link NOC:Photonic Integrated Circuits Lecture 13 - Photonic Band Gap Devices
Link NOC:Photonic Integrated Circuits Lecture 14 - Lecture Summary
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 1 - Introduction to Nanotechnology
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 2 - Introduction to Nanotechnology (Continued...)
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 3 - Synthetic Methodologies
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 4 - Synthetic Methodologies (Continued...)
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 5 - Synthetic Methodologies (Continued...)
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 6 - Synthetic Methodologies (Continued...)
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 7 - Synthetic Methodologies (Continued...)
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 8 - Synthetic Methodologies (Continued...)
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 9 - Template Methods - I
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 10 - Template Methods - II
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 11 - Spray Pyrolysis
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 12 - V-L-S Method
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 13 - Lithography - I
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 14 - Lithography - II
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 15 - Fullerences and Carbon Nanotubes - I
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 16 - Fullerences and Carbon Nanotubes - II
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 17 - Fullerences and Carbon Nanotubes - III
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 18 - Metal and Metal Oxide Nanowires - I
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 19 - Metal and Metal Oxide Nanowires - II
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 20 - Metal and Metal Oxide Nanowires - III
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 21 - Self Assembly of Nanostructures - I
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 22 - Self Assembly of Nanostructures - II
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 23 - Self Assembly of Nanostructures - III
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 24 - Core Shell Nanostructures - I
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 25 - Core Shell Nanostructures - II
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 26 - Core Shell Nanostructures - III
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 27 - Nanocomposites - I
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 28 - Nanocomposites - II
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 29 - Photocatalysis - I
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 30 - Photocatalysis - II
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 31 - Photocatalysis - III
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 32 - Dielectric Properties - I
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 33 - Dielectric Properties - II
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 34 - Magnetic Properties - I
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 35 - Magnetic Properties - II
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 36 - Magnetic Properties - III
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 37 - Optical Properties - I
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 38 - Optical Properties - II
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 39 - Mechanical Properties
Link Nano structured materials-synthesis, properties, self assembly and applications Lecture 40 - Concluding Lecture
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 1 - Introduction to Nanomaterials
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 2 - Introduction to Nanomaterials
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 3 - Introduction to Nanomaterials
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 4 - Introduction to Nanomaterials
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 5 - Introduction to Nanomaterials
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 6 - Introduction to Nanomaterials
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 7 - Introduction to Nanomaterials
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 8 - Introduction to Nanomaterials
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 9 - Introduction to Nanomaterials
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 10 - Introduction to Nanomaterials
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 11 - Surface Effects and Physical properties of nanomaterials
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 12 - Surface Effects and Physical properties of nanomaterials
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 13 - Surface Effects and Physical properties of nanomaterials
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 14 - Surface Effects and Physical properties of nanomaterials
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 15 - Surface Effects and Physical properties of nanomaterials
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 16 - Defect Structure & Mechanical Behaviour of Nanomaterials
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 17 - Defect Structure & Mechanical Behaviour of Nanomaterials
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 18 - Defect Structure & Mechanical Behaviour of Nanomaterials
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 19 - Defect Structure & Mechanical Behaviour of Nanomaterials
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 20 - Defect Structure & Mechanical Behaviour of Nanomaterials
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 21 - Electrical, Magnetic and Optical Properties of Nanomaterials
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 22 - Electrical, Magnetic and Optical Properties of Nanomaterials
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 23 - Electrical, Magnetic and Optical Properties of Nanomaterials
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 24 - Electrical, Magnetic and Optical Properties of Nanomaterials
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 25 - Electrical, Magnetic and Optical Properties of Nanomaterials
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 26 - Atomic Bonding
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 27 - Overview of Nano structures and Nano materials
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 28 - Carbon Nanostructures
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 29 - Multi-Scale Hierarchy
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 30 - Self Assembly
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 31 - Nanomaterials in Nature: Bone
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 32 - Surfaces and Interfaces
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 33 - Non-wetting
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 34 - Nanomaterials Science and Nanomanufacturing
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 35 - Surface Adsorption Isotherms (Langmuir/Bet)
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 36 - Reciprocal Lattice
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 37 - Transmission Electron Microscopy
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 38 - Transmission Electron Microscopy
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 39 - Auger Electron Spectroscopy
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 40 - X-Ray Photoelectron Spectroscopy (XPS)
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 41 - Electron Energy Loss Spectroscopy (EELS)
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 42 - Deformation Behavior of Nanomaterials
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 43 - Fracture and Creep
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 44 - Nanomechanics
Link Nanostructures and Nanomaterials: Characterization and Properties Lecture 45 - Nanotribology
Link Introduction to Atmospheric Science Lecture 1 - Introduction
Link Introduction to Atmospheric Science Lecture 2 - Atmosphere-A brief survey (Pressure, Temperature and Chemical composition)
Link Introduction to Atmospheric Science Lecture 3 - Atmosphere-A brief survey (Continued...) (Vertical structure of the atmosphere)
Link Introduction to Atmospheric Science Lecture 4 - Vertical structure of atmosphere (Continued...) and The Earth system - Oceans
Link Introduction to Atmospheric Science Lecture 5 - The Earth system - Oceans (Continued...) and Marine biosphere
Link Introduction to Atmospheric Science Lecture 6 - The Earth system - Hydrological cycle
Link Introduction to Atmospheric Science Lecture 7 - The Earth system - Hydrological cycle (Continued...) and Carbon cycle
Link Introduction to Atmospheric Science Lecture 8 - The Earth system - Carbon cycle (Continued...), and Carbon in the oceans Earth's crust
Link Introduction to Atmospheric Science Lecture 9 - The Earth system - Carbon in the oceans Earth's crust
Link Introduction to Atmospheric Science Lecture 10 - Atmospheric Thermodynamics- Introduction
Link Introduction to Atmospheric Science Lecture 11 - The hydrostatic equation
Link Introduction to Atmospheric Science Lecture 12 - Hypsometric equation and pressure at sea level
Link Introduction to Atmospheric Science Lecture 13 - Basic Thermodynamics
Link Introduction to Atmospheric Science Lecture 14 - Concept of air parcel and dry adiabatic lapse rate
Link Introduction to Atmospheric Science Lecture 15 - Potential temperature
Link Introduction to Atmospheric Science Lecture 16 - Skew-T ln-P chart
Link Introduction to Atmospheric Science Lecture 17 - Problems using Skew-T ln-P chart
Link Introduction to Atmospheric Science Lecture 18 - Problems using Skew-T ln-P chart (Continued...)
Link Introduction to Atmospheric Science Lecture 19 - Problems using Skew-T ln-P chart (Continued...)
Link Introduction to Atmospheric Science Lecture 20 - Lifting Condensation Level (LCL)
Link Introduction to Atmospheric Science Lecture 21 - Lifting Condensation Level (LCL) (Continued...)
Link Introduction to Atmospheric Science Lecture 22 - Saturated Adiabatic and Psuedo-adiabatic processes
Link Introduction to Atmospheric Science Lecture 23 - Equivalent potential temperature and wet bulb potential temperature
Link Introduction to Atmospheric Science Lecture 24 - Normand's rule - Chinook winds
Link Introduction to Atmospheric Science Lecture 25 - Problems on Chinook wind and static stability
Link Introduction to Atmospheric Science Lecture 26 - Static stability-Brunt-Visala frequency
Link Introduction to Atmospheric Science Lecture 27 - Conditional and convective instability
Link Introduction to Atmospheric Science Lecture 28 - Static stability - Problems using radiosonde data and skew T ln P chart
Link Introduction to Atmospheric Science Lecture 29 - The second law of thermodynamics – Clausius Clapeyron relation
Link Introduction to Atmospheric Science Lecture 30 - Clausius Clapeyron relation (Continued...)
Link Introduction to Atmospheric Science Lecture 31 - Atmospheric radiation – Radiation laws
Link Introduction to Atmospheric Science Lecture 32 - Planck's distribution and Inverse square law
Link Introduction to Atmospheric Science Lecture 33 - Physics of scattering, emmision and absorption
Link Introduction to Atmospheric Science Lecture 34 - Physics of scattering, emmision and absorption (Continued...)
Link Introduction to Atmospheric Science Lecture 35 - Radiative Transfer Equation – Derivation
Link Introduction to Atmospheric Science Lecture 36 - Radiative Transfer Equation (Continued...)
Link Introduction to Atmospheric Science Lecture 37 - Radiative heating profiles of the atmosphere
Link Introduction to Atmospheric Science Lecture 38 - Climate Dynamics – Introduction
Link Introduction to Atmospheric Science Lecture 39 - Climate sensitivity and feedback
Link Introduction to Atmospheric Science Lecture 40 - Climate change
Link Introduction to Atmospheric Science Lecture 41 - Atmospheric dynamics
Link Radiation Heat Transfer Lecture 1 - Introduction
Link Radiation Heat Transfer Lecture 2 - Blackbody radiation
Link Radiation Heat Transfer Lecture 3 - Properties of real surfaces
Link Radiation Heat Transfer Lecture 4 - Spectral and directional variations
Link Radiation Heat Transfer Lecture 5 - Shape factor
Link Radiation Heat Transfer Lecture 6 - Triangular enclosure
Link Radiation Heat Transfer Lecture 7 - Evaluation of shape factors
Link Radiation Heat Transfer Lecture 8 - Radiation in enclosures
Link Radiation Heat Transfer Lecture 9 - Electrical analogy
Link Radiation Heat Transfer Lecture 10 - Applications
Link Radiation Heat Transfer Lecture 11 - Non-gray enclosures
Link Radiation Heat Transfer Lecture 12 - Enclosure with Specular surfaces
Link Radiation Heat Transfer Lecture 13 - Integral method for enclosures
Link Radiation Heat Transfer Lecture 14 - Introduction to gas radiation
Link Radiation Heat Transfer Lecture 15 - Plane parallel model
Link Radiation Heat Transfer Lecture 16 - Diffusion approximation
Link Radiation Heat Transfer Lecture 17 - Radiative equilibrium
Link Radiation Heat Transfer Lecture 18 - Optically thick limit
Link Radiation Heat Transfer Lecture 19 - Radiation spectroscopy
Link Radiation Heat Transfer Lecture 20 - Isothermal gas emissivity
Link Radiation Heat Transfer Lecture 21 - Band models
Link Radiation Heat Transfer Lecture 22 - Total Emissivity method
Link Radiation Heat Transfer Lecture 23 - Isothermal gas enclosures
Link Radiation Heat Transfer Lecture 24 - Well-stirred furnace model
Link Radiation Heat Transfer Lecture 25 - Gas radiation in complex enclosures
Link Radiation Heat Transfer Lecture 26 - Interaction between radiation and other modes of heat transfer
Link Radiation Heat Transfer Lecture 27 - Radiation heat transfer during flow over flat plate
Link Radiation Heat Transfer Lecture 28 - Radiation and Climate
Link Radiation Heat Transfer Lecture 29 - Radiative-convective equilibrium
Link Radiation Heat Transfer Lecture 30 - Radiative equilibrium with scattering
Link Radiation Heat Transfer Lecture 31 - Radiation measurement
Link Radiation Heat Transfer Lecture 32 - Radiation with internal heat source
Link Radiation Heat Transfer Lecture 33 - Particle scattering
Link Radiation Heat Transfer Lecture 34 - Scattering in the atmosphere
Link Radiation Heat Transfer Lecture 35 - Non-isotropic scattering
Link Radiation Heat Transfer Lecture 36 - Approximate methods in scattering : 1
Link Radiation Heat Transfer Lecture 37 - Approximate methods in scattering : 2
Link Radiation Heat Transfer Lecture 38 - Monte Carlo method
Link The monsoon and its variability Lecture 1 - Preamble and Introduction to the Indian Monsoon
Link The monsoon and its variability Lecture 2 - Nature of the variability of the Indian Monsoon
Link The monsoon and its variability Lecture 3 - Monsoon variability through the eye in the sky, seasonal variation of the surface wind and pressure
Link The monsoon and its variability Lecture 4 - Background about the atmosphere and rotating systems
Link The monsoon and its variability Lecture 5 - Rainfall and clouds over the tropics
Link The monsoon and its variability Lecture 6 - Organization of clouds over mesoscale, synoptic scale and planetary scales
Link The monsoon and its variability Lecture 7 - The Indian monsoon: is it a gigantic land-sea breeze?
Link The monsoon and its variability Lecture 8 - Monsoons and the seasonal variation of tropical circulation and rainfall
Link The monsoon and its variability Lecture 9 - Evolution of the ideas about the basic system responsible for the Indian monsoon - Part 1
Link The monsoon and its variability Lecture 10 - Evolution of the ideas about the basic system responsible for the Indian monsoon - Part 2
Link The monsoon and its variability Lecture 11 - Tropical Convergence Zones and the Indian monsoon - Part 1
Link The monsoon and its variability Lecture 12 - Tropical Convergence Zones and the Indian monsoon - Part 2
Link The monsoon and its variability Lecture 13 - Variability of organized convection over the tropical oceans
Link The monsoon and its variability Lecture 14 - Heat lows and the TCZ
Link The monsoon and its variability Lecture 15 - Monsoonal regions of the world
Link The monsoon and its variability Lecture 16 - Seasonal transitions - Part 1 : spring to summer transition
Link The monsoon and its variability Lecture 17 - Seasonal transitions - Part 2 : spring to summer transition
Link The monsoon and its variability Lecture 18 - Seasonal transitions - Part 3 : Advance and retreat of the summer monsoon
Link The monsoon and its variability Lecture 19 - Climatic clusters of the Indian region
Link The monsoon and its variability Lecture 20 - Active-weak spells and breaks in the monsoon - Part 1
Link The monsoon and its variability Lecture 21 - Active-weak spells and breaks in the monsoon - Part 2
Link The monsoon and its variability Lecture 22 - Intraseasonal variation and intraseasonal oscillations
Link The monsoon and its variability Lecture 23 - The tropical oceans
Link The monsoon and its variability Lecture 24 - El Nino Southern Oscillation (ENSO) - Part 1
Link The monsoon and its variability Lecture 25 - El Nino Southern Oscillation (ENSO) - Part 2
Link The monsoon and its variability Lecture 26 - El Nino Southern Oscillation (ENSO) - Part 3
Link The monsoon and its variability Lecture 27 - El Nino Southern Oscillation (ENSO) - Part 4
Link The monsoon and its variability Lecture 28 - El Nino Southern Oscillation (ENSO) - Part 5
Link The monsoon and its variability Lecture 29 - El Nino Southern Oscillation (ENSO) - Part 6
Link The monsoon and its variability Lecture 30 - Indian Ocean and the monsoon - Part 1
Link The monsoon and its variability Lecture 31 - Indian Ocean and the monsoon - Part 2
Link The monsoon and its variability Lecture 32 - Indian Ocean Dipole - Part 1
Link The monsoon and its variability Lecture 33 - Indian Ocean Dipole - Part 2
Link The monsoon and its variability Lecture 34 - Interannual variation of the Indian summer Monsoon rainfall: Links to events over the Pacific and Equatorial Indian Ocean
Link The monsoon and its variability Lecture 35 - Monsoon Variability and Agriculture - Part 1
Link The monsoon and its variability Lecture 36 - Monsoon Variability and Agriculture - Part 2
Link The monsoon and its variability Lecture 37 - Monsoon Variability and Agriculture - Part 3
Link The monsoon and its variability Lecture 38 - Monsoon Variability and Agriculture - Part 4
Link The monsoon and its variability Lecture 39 - Indian Summer Monsoon, GDP and Agriculture
Link The monsoon and its variability Lecture 40 - Monsoon Prediction - Part 1
Link The monsoon and its variability Lecture 41 - Monsoon Prediction - Part 2
Link The monsoon and its variability Lecture 42 - Concluding Remarks
Link Introduction to Japanese Language and Culture Lecture 1 - Introduction to Japanese scripts
Link Introduction to Japanese Language and Culture Lecture 2 - Jiko shoukai (Self introduction)
Link Introduction to Japanese Language and Culture Lecture 3 - Dochira kara desu ka ( Where are you from?)
Link Introduction to Japanese Language and Culture Lecture 4 - Senmon wa nan desu ka (What is your specialization?)
Link Introduction to Japanese Language and Culture Lecture 5 - Kore wa hon desu (This is a book)
Link Introduction to Japanese Language and Culture Lecture 6 - Ikura desu ka (How much is it?)
Link Introduction to Japanese Language and Culture Lecture 7 - Ima nan-ji desu ka (What is the time now?)
Link Introduction to Japanese Language and Culture Lecture 8 - Kaigi wa roku-ji-han kara desu (The meeting is from 6:30)
Link Introduction to Japanese Language and Culture Lecture 9 - Ashita Tokyo e ikimasu. (I will go to Tokyo tomorrow)
Link Introduction to Japanese Language and Culture Lecture 10 - Watashi wa mainichi roku-ji ni okimasu (I wake up at 6’oclock everyday)
Link Introduction to Japanese Language and Culture Lecture 11 - Itsu Kanpur e kimashita ka (When did you come to Kanpur?)
Link Introduction to Japanese Language and Culture Lecture 12 - Y?binkyoku wa asoko ni arimasu (The post office is over there)
Link Introduction to Japanese Language and Culture Lecture 13 - Rao san wa doko ni imasu ka (Where is Mr. Rao?)
Link Introduction to Japanese Language and Culture Lecture 14 - Pikuniku e ikimash? (Let’s go for a picnic)
Link Introduction to Japanese Language and Culture Lecture 15 - Kesa pan to tamago o tabemashita (I ate eggs and bread for breakfast)
Link Introduction to Japanese Language and Culture Lecture 16 - Depa-to no tonari no biru wa gink? desu (The building next to the department store is the bank)
Link Introduction to Japanese Language and Culture Lecture 17 - Taj hoteru wa ookii hoteru desu(Hotel Taj is a big hotel)
Link Introduction to Japanese Language and Culture Lecture 18 - Hoteru de nani o tabemashita ka (What did you eat at the hotel?)
Link Introduction to Japanese Language and Culture Lecture 19 - Tokyo wa ?kikute kirei desu (Tokyo is big and beautiful)
Link Introduction to Japanese Language and Culture Lecture 20 - Ko-hi- wa oishiku arimasen(Coffee is not tasty)
Link Introduction to Japanese Language and Culture Lecture 21 - Hantai kotoba (Opposites)
Link Introduction to Japanese Language and Culture Lecture 22 - Watashi wa mainichi miruku o nomimasu (I drink milk everyday)
Link Introduction to Japanese Language and Culture Lecture 23 - Watashi wa oniisan ni kamera o moratta(I received a camera from my brother)
Link Introduction to Japanese Language and Culture Lecture 24 - Nani o tabetai desu ka(What do you want to eat?)
Link Introduction to Japanese Language and Culture Lecture 25 - Nani o sashiagemasu ka (Giving and Receiving)
Link Introduction to Japanese Language and Culture Lecture 26 - Sensei wa watashi ni hon o kuremashita (My teacher gave me a book)
Link Introduction to Japanese Language and Culture Lecture 27 - Chotto matte kudasai ( Just a minute please)
Link Introduction to Japanese Language and Culture Lecture 28 - Ke-ki o tabete mite kudasai ( Eat and see how is the cake)
Link Introduction to Japanese Language and Culture Lecture 29 - Nani o shite imasu ka(What are you doing?)
Link Introduction to Japanese Language and Culture Lecture 30 - Tokyo ni sunde imasu ( I live in Tokyo)
Link Introduction to Japanese Language and Culture Lecture 31 - Kanji ga kakemasu (I can write Kanji)
Link Introduction to Japanese Language and Culture Lecture 32 - Im?to wa ningy? o hoshigatte imasu (My sister wants a doll)
Link Introduction to Japanese Language and Culture Lecture 33 - Aisukuri-mu ga ke-ki yori suki desu (I like ice-cream more than cakes)
Link Introduction to Japanese Language and Culture Lecture 34 - Kutsu o kai ni ikimasu ( I am going to buy shoes)
Link Introduction to Japanese Language and Culture Lecture 35 - Ashita motto atsuku narimasu (It is going to become very hot tomorrow)
Link Introduction to Japanese Language and Culture Lecture 36 - Rainen Tokyo e iku to omoimasu (I think I will go to Tokyo next year)
Link Introduction to Japanese Language and Culture Lecture 37 - Pen de kaite mo ii desu ka(Is it alright to write in pen?)
Link Introduction to Japanese Language and Culture Lecture 38 - Comprehensions and Expressions
Link Introduction to Japanese Language and Culture Lecture 39 - Basic Kanji
Link Introduction to Japanese Language and Culture Lecture 40 - Basic Kanji
Link Astronomy in Ancient, Medieval and Early Telescopic Era of India Lecture 1 - Introduction
Link Astronomy in Ancient, Medieval and Early Telescopic Era of India Lecture 2 - Pre Siddhantic Astronomy
Link Astronomy in Ancient, Medieval and Early Telescopic Era of India Lecture 3 - Siddhantic Astronomy
Link Astronomy in Ancient, Medieval and Early Telescopic Era of India Lecture 4 - Astronomy in Medieval India
Link Astronomy in Ancient, Medieval and Early Telescopic Era of India Lecture 5 - Introduction to Telescopic Astronomy and Concluding remarks
Link NOC:Stress Management Lecture 1 - What is Stress
Link NOC:Stress Management Lecture 2 - Sources of stress
Link NOC:Stress Management Lecture 3 - Types of Stress
Link NOC:Stress Management Lecture 4 - Personality Factors and Stress
Link NOC:Stress Management Lecture 5 - Stress and the College Student
Link NOC:Stress Management Lecture 6 - Stress and Nervous System
Link NOC:Stress Management Lecture 7 - Hypothalamic-Pituitary-Adrenal (HPA) Axis
Link NOC:Stress Management Lecture 8 - Effect of Stress on Immune System
Link NOC:Stress Management Lecture 9 - Health Risk Associated with Chronic Stress
Link NOC:Stress Management Lecture 10 - Stress and Major Psychiatric Disorders
Link NOC:Stress Management Lecture 11 - Understanding your stress level
Link NOC:Stress Management Lecture 12 - Role of Personality Pattern, Self Esteem, Locus of Control
Link NOC:Stress Management Lecture 13 - Role of Thoughts Beliefs and Emotions - I
Link NOC:Stress Management Lecture 14 - Role of Thoughts Beliefs and Emotions - II
Link NOC:Stress Management Lecture 15 - Life Situation Intrapersonal : (Assertiveness, Time Management)
Link NOC:Stress Management Lecture 16 - Developing Cognitive Coping Skills
Link NOC:Stress Management Lecture 17 - Autogenic Training, Imagery and Progressive Relaxation
Link NOC:Stress Management Lecture 18 - Other Relaxation Techniques
Link NOC:Stress Management Lecture 19 - Exercise and Health
Link NOC:Stress Management Lecture 20 - DIY Strategies Stress Management
Link NOC:Outcome Based Pedagogic Principles for Effective Teaching Lecture 1 - Introduction to Need of 21st Century Education
Link NOC:Outcome Based Pedagogic Principles for Effective Teaching Lecture 2 - Accreditation
Link NOC:Outcome Based Pedagogic Principles for Effective Teaching Lecture 3 - Outcome based Learning
Link NOC:Outcome Based Pedagogic Principles for Effective Teaching Lecture 4 - Approach to Design Outcome based Learning
Link NOC:Outcome Based Pedagogic Principles for Effective Teaching Lecture 5 - Approach to Design Outcome based Learning (Continued...)
Link NOC:Outcome Based Pedagogic Principles for Effective Teaching Lecture 6 - Instructional Design for Active Learning
Link NOC:Outcome Based Pedagogic Principles for Effective Teaching Lecture 7
Link NOC:Outcome Based Pedagogic Principles for Effective Teaching Lecture 8
Link NOC:Outcome Based Pedagogic Principles for Effective Teaching Lecture 9
Link NOC:Outcome Based Pedagogic Principles for Effective Teaching Lecture 10
Link NOC:Outcome Based Pedagogic Principles for Effective Teaching Lecture 11
Link NOC:Outcome Based Pedagogic Principles for Effective Teaching Lecture 12
Link NOC:Outcome Based Pedagogic Principles for Effective Teaching Lecture 13
Link NOC:Outcome Based Pedagogic Principles for Effective Teaching Lecture 14
Link NOC:Outcome Based Pedagogic Principles for Effective Teaching Lecture 15
Link NOC:Outcome Based Pedagogic Principles for Effective Teaching Lecture 16
Link NOC:Outcome Based Pedagogic Principles for Effective Teaching Lecture 17
Link NOC:Outcome Based Pedagogic Principles for Effective Teaching Lecture 18
Link NOC:Outcome Based Pedagogic Principles for Effective Teaching Lecture 19
Link NOC:Outcome Based Pedagogic Principles for Effective Teaching Lecture 20
Link Ayurvedic Inheritance of India Lecture 1 - Roots of Ayurveda
Link Ayurvedic Inheritance of India Lecture 2 - Traditional Medicine in Buddhist India
Link Ayurvedic Inheritance of India Lecture 3 - Period of Systematization
Link Ayurvedic Inheritance of India Lecture 4 - Philosophical ideas in Ayurveda
Link Ayurvedic Inheritance of India Lecture 5 - Human Body in Health
Link Ayurvedic Inheritance of India Lecture 6 - Human Body in Disease
Link Ayurvedic Inheritance of India Lecture 7 - Food and Drinks
Link Ayurvedic Inheritance of India Lecture 8 - Code for Healthy Living
Link Ayurvedic Inheritance of India Lecture 9 - Diseases
Link Ayurvedic Inheritance of India Lecture 10 - Diagnosis and Prognosis
Link Ayurvedic Inheritance of India Lecture 11 - Medical Treatment of Diseases
Link Ayurvedic Inheritance of India Lecture 12 - Materia Medica
Link Ayurvedic Inheritance of India Lecture 13 - Surgical Treatment of Diseases
Link Ayurvedic Inheritance of India Lecture 14 - Surgical Instruments
Link Ayurvedic Inheritance of India Lecture 15 - Treatment of fractures; some surgical procedures
Link Ayurvedic Inheritance of India Lecture 16 - Principles and methods of rejuvenation: enhancement of sexual potency and fertility
Link Ayurvedic Inheritance of India Lecture 17 - Selection of Students: Oath at initiation: Process of Training
Link Ayurvedic Inheritance of India Lecture 18 - A Science Initiative in Ayurveda (ASIIA)
Link Ayurvedic Inheritance of India Lecture 19 - Ayurvedic Biology: Illustrative Studies
Link Ayurvedic Inheritance of India Lecture 20 - Conclusion: An Ayurvedic View of Life
Link NOC:Introduction to Research Lecture 1 - Insight into research
Link NOC:Introduction to Research Lecture 2 - Role of Guide and Student
Link NOC:Introduction to Research Lecture 3 - Art of Re-Search
Link NOC:Introduction to Research Lecture 4 - Persistent small steps towards success
Link NOC:Introduction to Research Lecture 5 - Overview of research
Link NOC:Introduction to Research Lecture 6 - Overview of Literature Survey
Link NOC:Introduction to Research Lecture 7 - Literature Survey using Web of Science
Link NOC:Introduction to Research Lecture 8 - Literature Survey using Scopus
Link NOC:Introduction to Research Lecture 9 - Writing Up
Link NOC:Introduction to Research Lecture 10 - Tutorial on using BibTeX with LaTeX to add references to a document
Link NOC:Introduction to Research Lecture 11 - Tutorial on using Microsoft Word with Bibliographic Sources
Link NOC:Introduction to Research Lecture 12 - Tutorial on using Microsoft Word with endnote entries
Link NOC:Introduction to Research Lecture 13 - Experimental skills
Link NOC:Introduction to Research Lecture 14 - Data analysis - Part 1
Link NOC:Introduction to Research Lecture 15 - Data analysis - Part 2
Link NOC:Introduction to Research Lecture 16 - Modelling skills - Part 1
Link NOC:Introduction to Research Lecture 17 - Modelling skills - Part 2
Link NOC:Introduction to Research Lecture 18 - Safety in laboratory
Link NOC:Introduction to Research Lecture 19 - How to make Technical presentation
Link NOC:Introduction to Research Lecture 20 - Technical Writing
Link NOC:Introduction to Research Lecture 21 - Creativity in research - Part 1
Link NOC:Introduction to Research Lecture 22 - Creativity in research - Part 2
Link NOC:Introduction to Research Lecture 23 - Creativity in Research - Part 3
Link NOC:Introduction to Research Lecture 24 - Group discussion on Ethics in Research
Link NOC:Introduction to Research Lecture 25 - Intellectual property - Part 1
Link NOC:Introduction to Research Lecture 26 - Intellectual property - Part 2
Link NOC:Introduction to Research Lecture 27 - DOE Part 1
Link NOC:Introduction to Research Lecture 28 - DOE part 2
Link NOC:Introduction to Research Lecture 29 - DOE part 3
Link NOC:Introduction to Research Lecture 30 - DOE part 4
Link NOC:Introduction to Research Lecture 31 - DOE part 5
Link NOC:Introduction to Research Lecture 32 - Research in Applied Mechanics
Link NOC:Introduction to Research Lecture 33 - Research in Chemical Engineering
Link NOC:Introduction to Research Lecture 34 - Research in Civil Engineering
Link NOC:Introduction to Research Lecture 35 - Research in Computer Science and Engineering
Link NOC:Introduction to Research Lecture 36 - Research in Engineering Design
Link NOC:Introduction to Research Lecture 37 - Research in Humanities and Social Sciences
Link NOC:Introduction to Research Lecture 38 - Research in Mechanical Engineering
Link NOC:Introduction to Research Lecture 39 - Research in Metallurgical and Materials Engineering
Link NOC:Introduction to Research Lecture 40 - Research in Ocean Engineering
Link NOC:Introduction to Research Lecture 41 - Research in Management Studies
Link NOC:Introduction to Research Lecture 42 - Research in Aerospace Engineering
Link NOC:Introduction to Research Lecture 43 - Research in Biotechnology
Link NOC:Introduction to Research Lecture 44 - Research in Chemistry
Link NOC:Introduction to Research Lecture 45 - Research in Electrical Engineering
Link NOC:Introduction to Research Lecture 46 - Research in Mathematics
Link NOC:Introduction to Research Lecture 47 - Research in Physics
Link NOC:Introduction to Research Lecture 48 - Discussion with Research Scholars
Link NOC:Biology for engineers and other non-biologists Lecture 1 - Introduction
Link NOC:Biology for engineers and other non-biologists Lecture 2 - Origin of Life
Link NOC:Biology for engineers and other non-biologists Lecture 3 - Evolution
Link NOC:Biology for engineers and other non-biologists Lecture 4 - Cells
Link NOC:Biology for engineers and other non-biologists Lecture 5 - Biomolecules: Lipids
Link NOC:Biology for engineers and other non-biologists Lecture 6 - Biomolecules: Carbohydrates, Water
Link NOC:Biology for engineers and other non-biologists Lecture 7 - Biomolecules: Amino acids, Proteins
Link NOC:Biology for engineers and other non-biologists Lecture 8 - Biomolecules: Enzymes
Link NOC:Biology for engineers and other non-biologists Lecture 9 - Biomolecules: Nucleotides
Link NOC:Biology for engineers and other non-biologists Lecture 10 - Cell structure and function – Prokaryotes
Link NOC:Biology for engineers and other non-biologists Lecture 11 - Cell structure and function – Eukaryotes
Link NOC:Biology for engineers and other non-biologists Lecture 12 - Cell cycle
Link NOC:Biology for engineers and other non-biologists Lecture 13 - Cell division – mitosis
Link NOC:Biology for engineers and other non-biologists Lecture 14 - Cell division – meiosis
Link NOC:Biology for engineers and other non-biologists Lecture 15 - Culture growth
Link NOC:Biology for engineers and other non-biologists Lecture 16 - Mendelian genetics: Genetic disorders
Link NOC:Biology for engineers and other non-biologists Lecture 17 - Mendelian genetics: Mendelian inheritance principles
Link NOC:Biology for engineers and other non-biologists Lecture 18 - Mendelian genetics: Pedigree analysis
Link NOC:Biology for engineers and other non-biologists Lecture 19 - Mendelian genetics: Non-Mendelian inheritance
Link NOC:Biology for engineers and other non-biologists Lecture 20 - DNA replication
Link NOC:Biology for engineers and other non-biologists Lecture 21 - Transcription
Link NOC:Biology for engineers and other non-biologists Lecture 22 - Translation
Link NOC:Digital and the Everyday - from Codes to Cloud Lecture 1 - Introduction to the Course
Link NOC:Digital and the Everyday - from Codes to Cloud Lecture 2 - Introduction to the Winter School
Link NOC:Digital and the Everyday - from Codes to Cloud Lecture 3 - Socio-algorithmic processes and the Everyday - Part 1
Link NOC:Digital and the Everyday - from Codes to Cloud Lecture 4 - Socio-algorithmic processes and the Everyday - Part 2
Link NOC:Digital and the Everyday - from Codes to Cloud Lecture 5 - Socio-algorithmic processes and the Everyday - Part 3
Link NOC:Digital and the Everyday - from Codes to Cloud Lecture 6 - Data Protection and Privacy Regulation in the Digital Era - Part 1
Link NOC:Digital and the Everyday - from Codes to Cloud Lecture 7 - Data Protection and Privacy Regulation in the Digital Era - Part 2
Link NOC:Digital and the Everyday - from Codes to Cloud Lecture 8 - Data Protection and Privacy Regulation in the Digital Era - Part 3
Link NOC:Digital and the Everyday - from Codes to Cloud Lecture 9 - Data-driven Identities - Part 1
Link NOC:Digital and the Everyday - from Codes to Cloud Lecture 10 - Data-driven Identities - Part 2
Link NOC:Digital and the Everyday - from Codes to Cloud Lecture 11 - Data-driven Identities - Part 3
Link NOC:Digital and the Everyday - from Codes to Cloud Lecture 12 - Promises and Challenges of e-Health - Part 1
Link NOC:Digital and the Everyday - from Codes to Cloud Lecture 13 - Promises and Challenges of e-Health - Part 2
Link NOC:Digital and the Everyday - from Codes to Cloud Lecture 14 - Promises and Challenges of e-Health - Part 3
Link NOC:Digital and the Everyday - from Codes to Cloud Lecture 15 - Digital Finance - Part 1
Link NOC:Digital and the Everyday - from Codes to Cloud Lecture 16 - Digital Finance - Part 2
Link NOC:Digital and the Everyday - from Codes to Cloud Lecture 17 - Digital and our everyday interactions with the state - Part 1
Link NOC:Digital and the Everyday - from Codes to Cloud Lecture 18 - Digital and our everyday interactions with the state - Part 2
Link NOC:Digital and the Everyday - from Codes to Cloud Lecture 19 - Digital and our everyday interactions with the state - Part 3
Link NOC:Digital and the Everyday - from Codes to Cloud Lecture 20 - Creating a Machine Zone through Affected Feedback: Leisure and Entertainment on Social Media - Part 1
Link NOC:Digital and the Everyday - from Codes to Cloud Lecture 21 - Creating a Machine Zone through Affected Feedback: Leisure and Entertainment on Social Media - Part 2
Link NOC:Digital and the Everyday - from Codes to Cloud Lecture 22 - Creating a Machine Zone through Affected Feedback: Leisure and Entertainment on Social Media - Part 3
Link NOC:Effective Engineering Teaching in Practice Lecture 1 - Introduction to the course
Link NOC:Effective Engineering Teaching in Practice Lecture 2 - An Inexperienced Engineering Teacher’s View
Link NOC:Effective Engineering Teaching in Practice Lecture 3 - From traditional lecturing to helping students learn - 1
Link NOC:Effective Engineering Teaching in Practice Lecture 4 - From traditional lecturing to helping students learn - 2
Link NOC:Effective Engineering Teaching in Practice Lecture 5 - Better learning (Bloom's Taxonomy)
Link NOC:Effective Engineering Teaching in Practice Lecture 6 - Problem based learning (PBL) and Problem Solving - Part 1
Link NOC:Effective Engineering Teaching in Practice Lecture 7 - Problem based learning (PBL) and Problem Solving - Part 2
Link NOC:Effective Engineering Teaching in Practice Lecture 8 - Writing Learning Outcomes for a Course
Link NOC:Effective Engineering Teaching in Practice Lecture 9 - Active Learning
Link NOC:Effective Engineering Teaching in Practice Lecture 10 - Coorperative Group Learning
Link NOC:Effective Engineering Teaching in Practice Lecture 11 - Flipped Classroom
Link NOC:Effective Engineering Teaching in Practice Lecture 12 - Effective Laboratory Courses
Link NOC:Effective Engineering Teaching in Practice Lecture 13 - Assessment - Part 1
Link NOC:Effective Engineering Teaching in Practice Lecture 14 - Assessment - Part 2
Link NOC:Effective Engineering Teaching in Practice Lecture 15 - How can we use research in education? - Part A1
Link NOC:Effective Engineering Teaching in Practice Lecture 16 - How can we use research in education? - Part A2
Link NOC:Effective Engineering Teaching in Practice Lecture 17 - The Class, as a Whole - Part A3
Link NOC:Effective Engineering Teaching in Practice Lecture 18 - Psychological Type (Orientation) and Learning - Part B
Link NOC:Effective Engineering Teaching in Practice Lecture 19 - Cognitive Development Theories – Two Main Examples - Part C
Link NOC:Effective Engineering Teaching in Practice Lecture 20 - Learning Theories - Part D
Link NOC:Effective Engineering Teaching in Practice Lecture 21 - Feedback and Reflection - Part 1
Link NOC:Effective Engineering Teaching in Practice Lecture 22 - Feedback and Reflection - Part 2
Link NOC:Effective Engineering Teaching in Practice Lecture 23 - Feedback and Reflection - Part 3
Link NOC:Effective Engineering Teaching in Practice Lecture 24 - Live Session 1
Link NOC:Effective Engineering Teaching in Practice Lecture 25 - Live Session 2
Link NOC:Virtual Reality Engineering Lecture 1 - Course mechanics
Link NOC:Virtual Reality Engineering Lecture 2 - Goals and VR definitions
Link NOC:Virtual Reality Engineering Lecture 3 - Historical perspective
Link NOC:Virtual Reality Engineering Lecture 4 - Birds-eye view (general)
Link NOC:Virtual Reality Engineering Lecture 5 - Birds-eye view (general) (Continued...)
Link NOC:Virtual Reality Engineering Lecture 6 - Birds-eye view (hardware)
Link NOC:Virtual Reality Engineering Lecture 7 - Birds-eye view (software)
Link NOC:Virtual Reality Engineering Lecture 8 - Birds-eye view (sensation and perception)
Link NOC:Virtual Reality Engineering Lecture 9 - Geometric modeling
Link NOC:Virtual Reality Engineering Lecture 10 - Transforming models
Link NOC:Virtual Reality Engineering Lecture 11 - Matrix algebra and 2D rotations
Link NOC:Virtual Reality Engineering Lecture 12 - 3D rotations and yaw, pitch, and roll
Link NOC:Virtual Reality Engineering Lecture 13 - 3D rotations and yaw, pitch, and roll (Continued...)
Link NOC:Virtual Reality Engineering Lecture 14 - Axis-angle representations
Link NOC:Virtual Reality Engineering Lecture 15 - Quaternions
Link NOC:Virtual Reality Engineering Lecture 16 - Converting and multiplying rotations
Link NOC:Virtual Reality Engineering Lecture 17 - Converting and multiplying rotations (Continued...)
Link NOC:Virtual Reality Engineering Lecture 18 - Homogeneous transforms
Link NOC:Virtual Reality Engineering Lecture 19 - The chain of viewing transforms
Link NOC:Virtual Reality Engineering Lecture 20 - Eye transforms
Link NOC:Virtual Reality Engineering Lecture 21 - Eye transforms (Continued...)
Link NOC:Virtual Reality Engineering Lecture 22 - Canonical view transform
Link NOC:Virtual Reality Engineering Lecture 23 - Viewport transform
Link NOC:Virtual Reality Engineering Lecture 24 - Viewport transform (Continued...)
Link NOC:Virtual Reality Engineering Lecture 25 - Three interpretations of light
Link NOC:Virtual Reality Engineering Lecture 26 - Refraction
Link NOC:Virtual Reality Engineering Lecture 27 - Simple lenses
Link NOC:Virtual Reality Engineering Lecture 28 - Diopters
Link NOC:Virtual Reality Engineering Lecture 29 - Imaging properties of lenses
Link NOC:Virtual Reality Engineering Lecture 30 - Lens aberrations
Link NOC:Virtual Reality Engineering Lecture 31 - Optical system of eyes
Link NOC:Virtual Reality Engineering Lecture 32 - Photoreceptors
Link NOC:Virtual Reality Engineering Lecture 33 - Sufficient resolution for VR
Link NOC:Virtual Reality Engineering Lecture 34 - Light intensity
Link NOC:Virtual Reality Engineering Lecture 35 - Eye movements
Link NOC:Virtual Reality Engineering Lecture 36 - Eye movements (Continued...)
Link NOC:Virtual Reality Engineering Lecture 37 - Eye movement issues for VR
Link NOC:Virtual Reality Engineering Lecture 38 - Neuroscience of vision
Link NOC:Virtual Reality Engineering Lecture 39 - Three Psychophysical Laws
Link NOC:Virtual Reality Engineering Lecture 40 - Sensation and Perception
Link NOC:Virtual Reality Engineering Lecture 41 - Psychophysics of Visual Perception
Link NOC:Virtual Reality Engineering Lecture 42 - Gamma Encoding
Link NOC:Virtual Reality Engineering Lecture 43 - Limiting Resolution
Link NOC:Virtual Reality Engineering Lecture 44 - Depth perception
Link NOC:Virtual Reality Engineering Lecture 45 - Depth perception (Continued...)
Link NOC:Virtual Reality Engineering Lecture 46 - Motion perception from Visual Systtem
Link NOC:Virtual Reality Engineering Lecture 47 - Frame rates and displays
Link NOC:Virtual Reality Engineering Lecture 48 - Frame rates and displays (Continued...)
Link NOC:Virtual Reality Engineering Lecture 49 - Psyohophysics of Depth Perception
Link NOC:Virtual Reality Engineering Lecture 50 - Overview
Link NOC:Virtual Reality Engineering Lecture 51 - Orientation tracking
Link NOC:Virtual Reality Engineering Lecture 52 - Tilt drift correction
Link NOC:Virtual Reality Engineering Lecture 53 - Yaw drift correction
Link NOC:Virtual Reality Engineering Lecture 54 - Tracking with a camera
Link NOC:Virtual Reality Engineering Lecture 55 - Perspective n-point problem
Link NOC:Virtual Reality Engineering Lecture 56 - Filtering
Link NOC:Virtual Reality Engineering Lecture 57 - Lighthouse approach
Link NOC:Virtual Reality Engineering Lecture 58 - Visual Rendering-Overview
Link NOC:Virtual Reality Engineering Lecture 59 - Visual Rendering-overview (Continued...)
Link NOC:Virtual Reality Engineering Lecture 60 - Shading models
Link NOC:Virtual Reality Engineering Lecture 61 - Rasterization
Link NOC:Virtual Reality Engineering Lecture 62 - Pixel shading
Link NOC:Virtual Reality Engineering Lecture 63 - VR-specific problems
Link NOC:Virtual Reality Engineering Lecture 64 - Distortion shading
Link NOC:Virtual Reality Engineering Lecture 65 - Post-rendering image warp
Link NOC:Virtual Reality Engineering Lecture 66 - Why Haptics?
Link NOC:Virtual Reality Engineering Lecture 67 - What is Haptics?
Link NOC:Virtual Reality Engineering Lecture 68 - Branches of Haptics
Link NOC:Virtual Reality Engineering Lecture 69 - Human Haptics - Tactile System
Link NOC:Virtual Reality Engineering Lecture 70 - Kinesthetic System
Link NOC:Virtual Reality Engineering Lecture 71 - Motor System
Link NOC:Virtual Reality Engineering Lecture 72 - Haptic Devices and Interfaces - Kinesthetic Devices
Link NOC:Virtual Reality Engineering Lecture 73 - Haptic Devices and Interfaces - Tactile Devices
Link NOC:Virtual Reality Engineering Lecture 74 - Physics and Physiology
Link NOC:Virtual Reality Engineering Lecture 75 - Auditory perception
Link NOC:Virtual Reality Engineering Lecture 76 - Auditory localization
Link NOC:Virtual Reality Engineering Lecture 77 - Rendering
Link NOC:Virtual Reality Engineering Lecture 78 - Spatialization and display
Link NOC:Virtual Reality Engineering Lecture 79 - Combining other senses
Link NOC:Virtual Reality Engineering Lecture 80 - Interfaces -overview
Link NOC:Virtual Reality Engineering Lecture 81 - Evaluation of VR Systems
Link NOC:Virtual Reality Engineering Lecture 82 - Social interaction
Link NOC:Virtual Reality Engineering Lecture 83 - System control
Link NOC:Virtual Reality Engineering Lecture 84 - Manipulation
Link NOC:Virtual Reality Engineering Lecture 85 - Locomotion
Link NOC:Virtual Reality Engineering Lecture 86 - Principles of Perception
Link NOC:Virtual Reality Engineering Lecture 87 - Introduction to Kalman Filter
Link NOC:Virtual Reality Engineering Lecture 88 - Introduction to Extended Kalman Filter
Link NOC:Virtual Reality Engineering Lecture 89 - Grand Challenges in VR/AR
Link NOC:Virtual Reality Engineering Lecture 90 - Ultimate VR/AR System
Link NOC:Non-Conventional Energy Resources Lecture 1 - Renewable Energy Technologies
Link NOC:Non-Conventional Energy Resources Lecture 2 - Energy Usage by Humans - Estimate of Impact on Atmosphere
Link NOC:Non-Conventional Energy Resources Lecture 3 - Conventional Sources of Energy
Link NOC:Non-Conventional Energy Resources Lecture 4 - Non-Conventional Sources of Energy - An Overview
Link NOC:Non-Conventional Energy Resources Lecture 5 - Energy consumption
Link NOC:Non-Conventional Energy Resources Lecture 6 - Details of Energy usage in each sector
Link NOC:Non-Conventional Energy Resources Lecture 7 - Consequences of Energy consumption
Link NOC:Non-Conventional Energy Resources Lecture 8 - Solar Energy incident on Earth, Solar Spectrum
Link NOC:Non-Conventional Energy Resources Lecture 9 - The Solar Energy Budget
Link NOC:Non-Conventional Energy Resources Lecture 10 - Electromagnetic Radiation - The Solar Spectrum
Link NOC:Non-Conventional Energy Resources Lecture 11 - Solar flat plate collector
Link NOC:Non-Conventional Energy Resources Lecture 12 - Solar Radiator
Link NOC:Non-Conventional Energy Resources Lecture 13 - Solar Energy - The Semiconductor
Link NOC:Non-Conventional Energy Resources Lecture 14 - Solar energy - The p-n junction
Link NOC:Non-Conventional Energy Resources Lecture 15 - Solar Cell - Growing the single crystal and making the p-n junction
Link NOC:Non-Conventional Energy Resources Lecture 16 - Solar Energy - Interaction of p-n junction with radiation
Link NOC:Non-Conventional Energy Resources Lecture 17 - Solar Energy - Solar cell characteristics and usage
Link NOC:Non-Conventional Energy Resources Lecture 18 - Solar Energy - Solar cell construction
Link NOC:Non-Conventional Energy Resources Lecture 19 - Solar Energy - Solar Photocatalysis
Link NOC:Non-Conventional Energy Resources Lecture 20 - Wind Energy - Overview
Link NOC:Non-Conventional Energy Resources Lecture 21 - Wind Energy - Energy Considerations
Link NOC:Non-Conventional Energy Resources Lecture 22 - Wind Energy - Efficiency
Link NOC:Non-Conventional Energy Resources Lecture 23 - Wind Energy - Parts and Materials
Link NOC:Non-Conventional Energy Resources Lecture 24 - Wind Energy - Design Considerations
Link NOC:Non-Conventional Energy Resources Lecture 25 - Ocean Thermal Energy - Conversion (OTEC)
Link NOC:Non-Conventional Energy Resources Lecture 26 - Geothermal Energy
Link NOC:Non-Conventional Energy Resources Lecture 27 - Geothermal Energy Technological aspects
Link NOC:Non-Conventional Energy Resources Lecture 28 - Biomass Usage and Issues
Link NOC:Non-Conventional Energy Resources Lecture 29 - Battery Basics
Link NOC:Non-Conventional Energy Resources Lecture 30 - Battery Testing and Performance
Link NOC:Non-Conventional Energy Resources Lecture 31 - Lithium ion Batteries
Link NOC:Non-Conventional Energy Resources Lecture 32 - Common Battery Structures and Types
Link NOC:Non-Conventional Energy Resources Lecture 33 - Types of Fuel Cells
Link NOC:Non-Conventional Energy Resources Lecture 34 - Fuel Processing for PEM Fuel Cells
Link NOC:Non-Conventional Energy Resources Lecture 35 - Fuel Cells : Concept to Product
Link NOC:Non-Conventional Energy Resources Lecture 36 - Characterization of Electrochemical Devices
Link NOC:Non-Conventional Energy Resources Lecture 37 - Fuel Cells : Parts and Assembly
Link NOC:Non-Conventional Energy Resources Lecture 38 - Supercapacitors
Link NOC:Non-Conventional Energy Resources Lecture 39 - Flywheels
Link NOC:Non-Conventional Energy Resources Lecture 40 - Magnetohydrodynamic Power Generation
Link NOC:Introduction to Remote Sensing Lecture 1 - What is satellite based remote sensing?
Link NOC:Introduction to Remote Sensing Lecture 2 - Development of remote sensing technology and advantages
Link NOC:Introduction to Remote Sensing Lecture 3 - Different platforms of remote sensing.
Link NOC:Introduction to Remote Sensing Lecture 4 - Electromagnetic Spectrum, solar reflection and thermal emission
Link NOC:Introduction to Remote Sensing Lecture 5 - Interaction of EM radiation with atmosphere including atmosheric scattering, absorbtion and emission
Link NOC:Introduction to Remote Sensing Lecture 6 - Interaction machanism of EM radiation with ground and spectral response curve
Link NOC:Introduction to Remote Sensing Lecture 7 - Principles of image interpretation
Link NOC:Introduction to Remote Sensing Lecture 8 - Multi-spectral scanners and imaging devices
Link NOC:Introduction to Remote Sensing Lecture 9 - Salient characteristics of Landsat, IRS, Cartosat, Resourcesat sensors
Link NOC:Introduction to Remote Sensing Lecture 10 - Image characteristics and different resolutions in Remote Sensing
Link NOC:Introduction to Remote Sensing Lecture 11 - Image interpretation of different geological landforms, rock types and structures
Link NOC:Introduction to Remote Sensing Lecture 12 - Remote Sensing Integration with GIS and GPS
Link NOC:Introduction to Remote Sensing Lecture 13 - Geo-referencing Technique
Link NOC:Introduction to Remote Sensing Lecture 14 - Basic Image Enhancement Techniques
Link NOC:Introduction to Remote Sensing Lecture 15 - Spatial Filtering, Band ratio and Principal Component Analysis techniques
Link NOC:Introduction to Remote Sensing Lecture 16 - Image Classification Techniques
Link NOC:Introduction to Remote Sensing Lecture 17 - InSAR Techniques in its applications
Link NOC:Introduction to Remote Sensing Lecture 18 - Hyperspectral Remote Sensing
Link NOC:Introduction to Remote Sensing Lecture 19 - Integrated applications of RS and GIS in groundwater studies
Link NOC:Introduction to Remote Sensing Lecture 20 - Limitations of Remote Sensing Techniques
Link Applied Mechanics Lecture 1 - Preliminary Concepts
Link Applied Mechanics Lecture 2 - Vector Analysis
Link Applied Mechanics Lecture 3 - Analysis of Forces
Link Applied Mechanics Lecture 4 - Analysis of Equilibrium
Link Applied Mechanics Lecture 5 - Structural Mechanics - Part-1
Link Applied Mechanics Lecture 6 - Structural Mechanics - Part-2
Link Applied Mechanics Lecture 7 - Friction and its Applications - Part-1
Link Applied Mechanics Lecture 8 - Friction and its Applications - Part-2
Link Applied Mechanics Lecture 9 - Friction and its Applications - Part-3
Link Applied Mechanics Lecture 10 - Properties of Surfaces - Part-1
Link Applied Mechanics Lecture 11 - Properties of Surfaces - Part-2
Link Applied Mechanics Lecture 12 - Properties of Surfaces - Part-3
Link Applied Mechanics Lecture 13 - Moments and Products of Inertia
Link Applied Mechanics Lecture 14 - Methods of Virtual Work and Potential Energy - Part-1
Link Applied Mechanics Lecture 15 - Methods of Virtual Work and Potential Energy - Part-2
Link Applied Mechanics Lecture 16 - Stability of Equilibrium
Link Management Science I Lecture 1 - Introduction
Link Management Science I Lecture 2 - Motivation
Link Management Science I Lecture 3 - Management
Link Management Science I Lecture 4 - Work Ethics
Link Management Science I Lecture 5 - Comparison Between Theories
Link Management Science I Lecture 6 - Job Enrichment
Link Management Science I Lecture 7 - Team Building and Participation
Link Management Science I Lecture 8 - Other Leadership Styles
Link Management Science I Lecture 9 - Empowerment
Link Management Science I Lecture 10 - Barriers to Communication
Link Management Science I Lecture 11 - Issues in Leadership
Link Management Science I Lecture 12 - Participation Management and Team Working Part - 1
Link Management Science I Lecture 13 - Participation Management and Team Working Part - 2
Link Management Science I Lecture 14 - Participation Management and Team Working Part - 3
Link Management Science I Lecture 15 - Participative Management and Team Working Part - 5
Link Management Science I Lecture 16 - Organizations
Link Management Science I Lecture 17 - Some Management Concepts - Part - 1
Link Management Science I Lecture 18 - Some Management Concepts - Part - 2
Link Management Science I Lecture 19 - Some Management Concepts - Part - 3
Link Management Science I Lecture 20 - Diversity at Work Place and Management Issues
Link Management Science I Lecture 21 - Industrial Relations and Conflict Management - Part - 1
Link Management Science I Lecture 22 - Industrial Relations and Conflict Management - Part - 2
Link Management Science I Lecture 23 - Selection and Training of Employees
Link Management Science I Lecture 24 - Performance Management - Part - 1
Link Management Science I Lecture 25 - Performance Management - Part - 2
Link Management Science I Lecture 26 - Performance Management - Part - 3
Link Management Science I Lecture 27 - Management Research: Some Methodological Issues-Part-2
Link Management Science I Lecture 28 - Corporate Social Responsibilities
Link Management Science I Lecture 29 - Women, Work and Organizations: Management Perspective - Part - 1
Link Management Science I Lecture 30 - Women, Work and Organizations: Management Perspective - Part - 2
Link Management Science I Lecture 31 - Selection, Recruitment and Training
Link Management Science I Lecture 32 - Management of Change in Organization
Link Management Science I Lecture 33 - Organizational Development
Link Management Science I Lecture 34 - Values, Ethics and Corporate Social Responsibilities - Part - 1
Link Management Science I Lecture 35 - Values, Ethics and Corporate Social Responsibilities - Part - 2
Link Management Science I Lecture 36 - Management: Now and Beyond - Part - 1
Link Management Science I Lecture 37 - Management: Now and Beyond - Part - 2
Link Management Science I Lecture 38 - Management: Now and Beyond - Part - 3
Link Management Science I Lecture 39 - Conclusions
Link Materials Science Lecture 1 - Introduction
Link Materials Science Lecture 2 - Internal Energy Enthalpy
Link Materials Science Lecture 3 - Crystal Geometry
Link Materials Science Lecture 4 - Crystal Geometry
Link Materials Science Lecture 5 - Crystal Geometry
Link Materials Science Lecture 6 - Crystal Structure
Link Materials Science Lecture 7 - Close Packing of Spheres of Equal Size
Link Materials Science Lecture 8 - Structure of Solid Materials
Link Materials Science Lecture 9 - Non Crystalline Solids
Link Materials Science Lecture 10 - Polymers (Continued)
Link Materials Science Lecture 11 - Crystal Imperfections
Link Materials Science Lecture 12 - Crystal Imperfections
Link Materials Science Lecture 13 - Crystal Imperfections
Link Materials Science Lecture 14 - Crystal Imperfections
Link Materials Science Lecture 15 - Crystal Imperfections
Link Materials Science Lecture 16 - Phase Diagrams
Link Materials Science Lecture 17 - Phase Diagrams
Link Materials Science Lecture 18 - Phase Diagrams
Link Materials Science Lecture 19 - Diffusion in Solids
Link Materials Science Lecture 20 - Diffusion in Solids
Link Materials Science Lecture 21 - Phase Transformations
Link Materials Science Lecture 22 - Phase Transformations
Link Materials Science Lecture 23 - Phase Transformations
Link Materials Science Lecture 24 - Transformations in Steels: Eutectoid Steel
Link Materials Science Lecture 25 - Phase Transformations; Precipitation Hardening
Link Materials Science Lecture 26 - Mechanical Behaviour of Materials
Link Materials Science Lecture 27 - Plastic Deformation
Link Materials Science Lecture 28 - Plastic Deformation
Link Materials Science Lecture 29 - Plastic Deformation
Link Materials Science Lecture 30 - Strengthening Mechanisms Creep
Link Materials Science Lecture 31 - Fracture
Link Materials Science Lecture 32 - Conductors and Resistors
Link Materials Science Lecture 33 - Conductors and Resistors
Link Materials Science Lecture 34 - Superconductors
Link Materials Science Lecture 35 - Superconductors
Link Materials Science Lecture 36 - Semiconductors
Link Numerical Methods and Computation Lecture 1 - Errors in Computation and Numerical Instability
Link Numerical Methods and Computation Lecture 2 - Solution of Nonlinear Algebraic Equations - Part 1
Link Numerical Methods and Computation Lecture 3 - Solution of Nonlinear Algebraic Equations - Part 2
Link Numerical Methods and Computation Lecture 4 - Solution of Nonlinear Algebraic Equations - Part 3
Link Numerical Methods and Computation Lecture 5 - Solution of Nonlinear Algebraic Equations - Part 4
Link Numerical Methods and Computation Lecture 6 - Solution of Nonlinear Algebraic Equations - Part 5
Link Numerical Methods and Computation Lecture 7 - Solution of Nonlinear Algebraic Equations - Part 6
Link Numerical Methods and Computation Lecture 8 - Solution of Nonlinear Algebraic Equations - Part 7
Link Numerical Methods and Computation Lecture 9 - Solution of Nonlinear Algebraic Equations - Part 8
Link Numerical Methods and Computation Lecture 10 - Solution of Nonlinear Algebraic Equations - Part 9
Link Numerical Methods and Computation Lecture 11 - Solution of a System of Linear Algebraic Equations - Part 1
Link Numerical Methods and Computation Lecture 12 - Solution of a System of Linear Algebraic Equations - Part 2
Link Numerical Methods and Computation Lecture 13 - Solution of a System of Linear Algebraic Equations - Part 3
Link Numerical Methods and Computation Lecture 14 - Solution of a System of Linear Algebraic Equations - Part 4
Link Numerical Methods and Computation Lecture 15 - Solution of a System of Linear Algebraic Equations - Part 5
Link Numerical Methods and Computation Lecture 16 - Solution of a System of Linear Algebraic Equations - Part 6
Link Numerical Methods and Computation Lecture 17 - Solution of a System of Linear Algebraic Equations - Part 7
Link Numerical Methods and Computation Lecture 18 - Solution of a System of Linear Algebraic Equations - Part 8
Link Numerical Methods and Computation Lecture 19 - Solution of a System of Linear Algebraic Equations - Part 9
Link Numerical Methods and Computation Lecture 20 - Solution of a System of Linear Algebraic Equations - Part 10
Link Numerical Methods and Computation Lecture 21 - Solution of a System of Linear Algebraic Equations - Part 11
Link Numerical Methods and Computation Lecture 22 - Solution of a System of Linear Algebraic Equations - Part 12
Link Numerical Methods and Computation Lecture 23 - Solution of a System of Linear Algebraic Equations - Part 13
Link Numerical Methods and Computation Lecture 24 - Solution of a System of Linear Algebraic Equations - Part 14
Link Numerical Methods and Computation Lecture 25 - Interpolation and Approximation - Part 1
Link Numerical Methods and Computation Lecture 26 - Interpolation and Approximation - Part 2
Link Numerical Methods and Computation Lecture 27 - Interpolation and Approximation - Part 3
Link Numerical Methods and Computation Lecture 28 - Interpolation and Approximation - Part 4
Link Numerical Methods and Computation Lecture 29 - Interpolation and Approximation - Part 5
Link Numerical Methods and Computation Lecture 30 - Interpolation and Approximation - Part 6
Link Numerical Methods and Computation Lecture 31 - Interpolation and Approximation - Part 7
Link Numerical Methods and Computation Lecture 32 - Interpolation and Approximation - Part 8
Link Numerical Methods and Computation Lecture 33 - Interpolation and Approximation - Part 9
Link Numerical Methods and Computation Lecture 34 - Numerical Differentiation and Integration - Part 1
Link Numerical Methods and Computation Lecture 35 - Numerical Differentiation and Integration - Part 2
Link Numerical Methods and Computation Lecture 36 - Numerical Differentiation and Integration - Part 3
Link Numerical Methods and Computation Lecture 37 - Numerical Differentiation and Integration - Part 4
Link Numerical Methods and Computation Lecture 38 - Numerical Differentiation and Integration - Part 5
Link Numerical Methods and Computation Lecture 39 - Numerical Differentiation and Integration - Part 6
Link Numerical Methods and Computation Lecture 40 - Numerical Differentiation and Integration - Part 7
Link Numerical Methods and Computation Lecture 41 - Numerical Differentiation and Integration - Part 8
Link Engineering Mechanics Lecture 1 - Engineering Mechanics
Link Engineering Mechanics Lecture 2 - Equilibrium - I
Link Engineering Mechanics Lecture 3 - Equilibrium - II
Link Engineering Mechanics Lecture 4 - Equilibrium - III
Link Engineering Mechanics Lecture 5 - Plan Trusses - I
Link Engineering Mechanics Lecture 6 - Plan Trusses - II
Link Engineering Mechanics Lecture 7 - Friction
Link Engineering Mechanics Lecture 8 - Properties of Surfaces - I
Link Engineering Mechanics Lecture 9 - Properties of Surfaces - II
Link Engineering Mechanics Lecture 10 - Properties of Surfaces - III
Link Engineering Mechanics Lecture 11 - Method of Virtual Work
Link Engineering Mechanics Lecture 12 - Motion of Particles Planar Polar Coordinates
Link Engineering Mechanics Lecture 13 - Motion With Constraints
Link Engineering Mechanics Lecture 14 - Motion of Particle With Friction
Link Engineering Mechanics Lecture 15 - Motion of Particles With Drag
Link Engineering Mechanics Lecture 16 - Momentum
Link Engineering Mechanics Lecture 17 - Work and Energy - I
Link Engineering Mechanics Lecture 18 - Work and Energy - II
Link Engineering Mechanics Lecture 19 - Work and Energy - III
Link Engineering Mechanics Lecture 20 - Work and Energy - IV
Link Engineering Mechanics Lecture 21 - Rotational Motion - I
Link Engineering Mechanics Lecture 22 - Rotational Motion - II
Link Engineering Mechanics Lecture 23 - Rotational Motion - III
Link Engineering Mechanics Lecture 24 - Rotational Motion - IV
Link Engineering Mechanics Lecture 25 - Rotational Motion - V
Link Engineering Mechanics Lecture 26 - Rotational Motion - VI
Link Engineering Mechanics Lecture 27 - Simple Harmonic Motion - I
Link Engineering Mechanics Lecture 28 - Simple Harmonic Motion - II
Link Engineering Mechanics Lecture 29 - Simple Harmonic Motion - III
Link Engineering Mechanics Lecture 30 - Motion in Uniformly Accelerating Frames
Link Engineering Mechanics Lecture 31 - Motion In Rotating Frame
Link Engineering Physics II Module - 1 lecture - 1
Link Engineering Physics II Module - 1 lecture - 2
Link Engineering Physics II Module - 1 lecture - 3
Link Engineering Physics II Module - 1 lecture - 4
Link Engineering Physics II Module - 2 lecture - 1
Link Engineering Physics II Module - 2 lecture - 2
Link Engineering Physics II Module - 2 lecture - 3
Link Engineering Physics II Module - 2 lecture - 4
Link Engineering Physics II Module - 2 lecture - 5
Link Engineering Physics II Module - 3 lecture - 1
Link Engineering Physics II Module - 3 lecture - 2
Link Engineering Physics II Module - 3 lecture - 3
Link Engineering Physics II Module - 3 lecture - 4
Link Engineering Physics II Module - 3 lecture - 5 (Lecture Missing)
Link Engineering Physics II Module - 3 lecture - 6
Link Engineering Physics II Module - 3 lecture - 7
Link Engineering Physics II Module - 3 lecture - 8
Link Engineering Physics II Module - 4 lecture - 1
Link Engineering Physics II Module - 4 lecture - 2
Link Engineering Physics II Module - 4 lecture - 3
Link Engineering Physics II Module - 4 lecture - 4
Link Engineering Physics II Module - 4 lecture - 5
Link Engineering Physics II Module - 4 lecture - 6
Link Engineering Physics II Module - 4 lecture - 7
Link Engineering Physics II Module - 4 lecture - 8
Link Engineering Physics II Module - 4 lecture - 9
Link Engineering Physics II Module - 4 lecture - 10
Link Engineering Physics II Module - 4 lecture - 11
Link Engineering Physics II Module - 4 lecture - 12
Link Mathematics I Lecture 1 - Real Number
Link Mathematics I Lecture 2 - Sequences I
Link Mathematics I Lecture 3 - Sequences II
Link Mathematics I Lecture 4 - Sequences III
Link Mathematics I Lecture 5 - Continuous Function
Link Mathematics I Lecture 6 - Properties of Continuous Function
Link Mathematics I Lecture 7 - Uniform Continuity
Link Mathematics I Lecture 8 - Differentiable Functions
Link Mathematics I Lecture 9 - Mean Value Theorem
Link Mathematics I Lecture 10 - Maxima - Minima
Link Mathematics I Lecture 11 - Taylor's Theorem
Link Mathematics I Lecture 12 - Curve Sketching
Link Mathematics I Lecture 13 - Infinite Series I
Link Mathematics I Lecture 14 - Infinite Series II
Link Mathematics I Lecture 15 - Tests of Convergence
Link Mathematics I Lecture 16 - Power Series
Link Mathematics I Lecture 17 - Riemann Integral
Link Mathematics I Lecture 18 - Riemann Integrable Functions
Link Mathematics I Lecture 19 - Applications of Riemann Integral
Link Mathematics I Lecture 20 - Length of a curve
Link Mathematics I Lecture 21 - Line Integrals
Link Mathematics I Lecture 22 - Functions of Several Variables
Link Mathematics I Lecture 23 - Differentiation
Link Mathematics I Lecture 24 - Derivatives
Link Mathematics I Lecture 25 - Mean Value Theorem
Link Mathematics I Lecture 26 - Maxima Minima
Link Mathematics I Lecture 27 - Method of Lagrange Multipliers
Link Mathematics I Lecture 28 - Multiple Integrals
Link Mathematics I Lecture 29 - Surface Integrals
Link Mathematics I Lecture 30 - Green's Theorem
Link Mathematics I Lecture 31 - Stokes Theorem
Link Mathematics I Lecture 32 - Gauss Divergence Theorem
Link Human Resource Management-I Lecture 1 - Nature and Scope of HRM
Link Human Resource Management-I Lecture 2 - Analysing and Designing Job - I
Link Human Resource Management-I Lecture 3 - Analysing and Designing Job - II
Link Human Resource Management-I Lecture 4 - Human Resource Planning - I
Link Human Resource Management-I Lecture 5 - Human Resource Planning - II
Link Human Resource Management-I Lecture 6 - Recruitment and Selection
Link Human Resource Management-I Lecture 7 - Performance Evaluation and Appraisal - I
Link Human Resource Management-I Lecture 8 - Performance Evaluation and Appraisal (Continued...)
Link Human Resource Management-I Lecture 9 - Training and Development
Link Human Resource Management-I Lecture 10 - Employee Welfare
Link Human Resource Management-I Lecture 11 - Safety, Health, Environment
Link Human Resource Management-I Lecture 12 - Industrial Relations
Link Human Resource Management-I Lecture 13 - Total Quality Management
Link Human Resource Management-I Lecture 14 - Organization Culture
Link Human Resource Management-I Lecture 15 - Change Management - Part - I
Link Human Resource Management-I Lecture 16 - Change Management - Part - II
Link Human Resource Management-I Lecture 17 - Wage and Salary Administration
Link Human Resource Management-I Lecture 18 - Career Planning - Part - I
Link Human Resource Management-I Lecture 19 - Career Planning - Part - II
Link Human Resource Management-I Lecture 20 - Contemporary Issues in HRM - I
Link Human Resource Management-I Lecture 21 - Contemporary Issues in HRM - II
Link Human Resource Management-I Lecture 22 - Contemporary Issues in HRM - III
Link Leadership Lecture 1 - Introduction to Leadership: Functions
Link Leadership Lecture 2 - Leadership Roles: Leaders Vs Managers: Theories
Link Leadership Lecture 3 - Leadership Styles: Effective Vs Successful Managers
Link Leadership Lecture 4 - Leadership Behaviour: Emergence: Leadership and Trust
Link Leadership Lecture 5 - Leadership Styles: Adaptation-Studies/Case: From Sindhi to Siddhi (Part-I)
Link Leadership Lecture 6 - Case: From Sindhi to Siddhi (Part-II) Transformation Leadership
Link Leadership Lecture 7 - Leadership Skills: Leadership and Management
Link Leadership Lecture 8 - Competencies and Skills of Leaders: Issues in Organizational Leadership
Link Leadership Lecture 9 - Case: The DVC Story-A First Person Account - Leadership in Action (Part-I)
Link Leadership Lecture 10 - Case: The DVC Story-A First Person Account- Leadership in Action (Part-II)
Link Leadership Lecture 11 - Case: Rai Bahadur Mohan Singh Oberoi (Part-I) Issues in Institution Building
Link Leadership Lecture 12 - Case: Rai Bahadur Mohan Singh Oberoi (Part-II)
Link Leadership Lecture 13 - Case: Self Regulation-The Key to Institution Building - Framework of Institution Building
Link Management Information System Lecture 1 - Introduction - I
Link Management Information System Lecture 2 - Introduction - II
Link Management Information System Lecture 3 - Introduction - III
Link Management Information System Lecture 4 - Concept of Information - I
Link Management Information System Lecture 5 - Concept of Information - II
Link Management Information System Lecture 6 - Decision Making Process
Link Management Information System Lecture 7 - Impact of IS on Management - I
Link Management Information System Lecture 8 - Impact of IS on Management - II
Link Management Information System Lecture 9 - Hardware Software Overview - I
Link Management Information System Lecture 10 - Hardware Software Overview - II
Link Management Information System Lecture 11 - Knowledge Management
Link Management Information System Lecture 12 - Learning Organization
Link Management Information System Lecture 13 - Decision Analysis - I
Link Management Information System Lecture 14 - Decision Analysis - II
Link Management Information System Lecture 15 - Decision Analysis - III
Link Management Information System Lecture 16 - Data Flow Diagrams - I
Link Management Information System Lecture 17 - Data Flow Diagrams - II
Link Management Information System Lecture 18 - Data Flow Diagrams - III
Link Management Information System Lecture 19 - Data Flow Diagrams - IV
Link Management Information System Lecture 20 - System Design - I
Link Management Information System Lecture 21 - System Design - II
Link Management Information System Lecture 22 - DBMS - I
Link Management Information System Lecture 23 - DBMS - II
Link Management Information System Lecture 24 - DBMS - III
Link Management Information System Lecture 25 - DBMS - IV
Link Management Information System Lecture 26 - DBMS - V
Link Management Information System Lecture 27 - OOAD - I
Link Management Information System Lecture 28 - OOAD - II
Link Management Information System Lecture 29 - OOAD - III
Link Physics I - Oscillations and Waves Lecture 1 - Simple Harmonic Oscillators
Link Physics I - Oscillations and Waves Lecture 2 - Damped Oscillator - I
Link Physics I - Oscillations and Waves Lecture 3 - Damped Oscillator - II
Link Physics I - Oscillations and Waves Lecture 4 - Oscillator With External Forcing - I
Link Physics I - Oscillations and Waves Lecture 5 - Oscillator With External Forcing
Link Physics I - Oscillations and Waves Lecture 6 - Resonance
Link Physics I - Oscillations and Waves Lecture 7 - Coupled Oscillations
Link Physics I - Oscillations and Waves Lecture 8 - Sinusoidal Plane Waves - I
Link Physics I - Oscillations and Waves Lecture 9 - Electromagnetic waves - I
Link Physics I - Oscillations and Waves Lecture 10 - Electromagnetic Waves - II
Link Physics I - Oscillations and Waves Lecture 11 - The Vector Nature of Electromagnetic Waves
Link Physics I - Oscillations and Waves Lecture 12 - The Electromagnetic Spectrum
Link Physics I - Oscillations and Waves Lecture 13 - The Electromagnetic Spectrum - II
Link Physics I - Oscillations and Waves Lecture 14 - Interference - I
Link Physics I - Oscillations and Waves Lecture 15 - Interference - II
Link Physics I - Oscillations and Waves Lecture 16 - Interference - III
Link Physics I - Oscillations and Waves Lecture 17 - Interference - IV
Link Physics I - Oscillations and Waves Lecture 18 - Coherence
Link Physics I - Oscillations and Waves Lecture 19 - Coherence
Link Physics I - Oscillations and Waves Lecture 20 - Diffraction - I
Link Physics I - Oscillations and Waves Lecture 21 - Diffraction - II
Link Physics I - Oscillations and Waves Lecture 22 - Diffraction - III
Link Physics I - Oscillations and Waves Lecture 23 - Diffraction - IV
Link Physics I - Oscillations and Waves Lecture 24 - X-Ray Diffraction
Link Physics I - Oscillations and Waves Lecture 25 - Beats
Link Physics I - Oscillations and Waves Lecture 26 - The Wave Equation
Link Physics I - Oscillations and Waves Lecture 27 - Solving the Wave Equation
Link Physics I - Oscillations and Waves Lecture 28 - Waves
Link Physics I - Oscillations and Waves Lecture 29 - Standing Waves
Link Physics I - Oscillations and Waves Lecture 30 - Standing Waves
Link Physics I - Oscillations and Waves Lecture 31 - Polarization
Link Physics I - Oscillations and Waves Lecture 32 - Compton Effect
Link Physics I - Oscillations and Waves Lecture 33 - Wave - Particle Duality
Link Physics I - Oscillations and Waves Lecture 34 - Wave - Particle Duality
Link Physics I - Oscillations and Waves Lecture 35 - Probability Amplitude
Link Physics I - Oscillations and Waves Lecture 36 - Probability
Link Physics I - Oscillations and Waves Lecture 37 - Schrodinger Wave Equation
Link Physics I - Oscillations and Waves Lecture 38 - Measurements
Link Physics I - Oscillations and Waves Lecture 39 - Particle in a Potential
Link Physics I - Oscillations and Waves Lecture 40 - Potential Well
Link Physics I - Oscillations and Waves Lecture 41 - Potential Well
Link Physics I - Oscillations and Waves Lecture 42 - Potential Well
Link Physics I - Oscillations and Waves Lecture 43 - Quantum Tunneling
Link Physics I - Oscillations and Waves Lecture 44 - Quantum Tunneling
Link Strategic Management Lecture 1 - Strategy: Philosophy;Competition;Competitive Advantage - Part - I
Link Strategic Management Lecture 2 - Strategy: Philosophy;Competition;Competitive Advantage - Part - II
Link Strategic Management Lecture 3 - Case Study - Group Presentation on Case - I (Baddi`s Solvent)
Link Strategic Management Lecture 4 - Case Study - Group Presentation on Case - II
Link Strategic Management Lecture 5 - Case Study - Group Presentation on Case - III
Link Strategic Management Lecture 6 - Case Study - Group Presentation on Case - IV Form
Link Strategic Management Lecture 7 - Strategy: Implementation in Organizations
Link Strategic Management Lecture 8 - Strategy: Design: Process: Managing Strategic Change
Link Strategic Management Lecture 9 - Case Study: The House of Tata
Link Strategic Management Lecture 10 - Case Study: The House of Tata
Link Strategic Management Lecture 11 - Group Presentation - II
Link Basic Electronics and Lab Lecture 1 - Introduction to Basic Electronics
Link Basic Electronics and Lab Lecture 2 - Electronic Devices 1
Link Basic Electronics and Lab Lecture 3 - Electronics Devices II Resistor in series and parallel
Link Basic Electronics and Lab Lecture 4 - Some Useful Laws in Basic Electronics
Link Basic Electronics and Lab Lecture 5 - Some Useful Theorems in Basic Electronics
Link Basic Electronics and Lab Lecture 6 - Semi Conductor Diodes
Link Basic Electronics and Lab Lecture 7 - Applications of Diodes
Link Basic Electronics and Lab Lecture 8 - Wave Shaping using Diodes
Link Basic Electronics and Lab Lecture 9 - Zener Diode Characteristics
Link Basic Electronics and Lab Lecture 10 - Transistors
Link Basic Electronics and Lab Lecture 11 - Transistor Biasing - Common Emitter Circuits, Fixed Bias, Collector to base Bias
Link Basic Electronics and Lab Lecture 12 - Transistor Biasing - Emitter Current Bias, Thermal Stability (RC Coupled Amplifier)
Link Basic Electronics and Lab Lecture 13 - Basic Characteristic of an Amplifier - Simple Transistor model, Common emitter Amplifier
Link Basic Electronics and Lab Lecture 14 - Hybrid Equivalent Circuit, H-Parameters
Link Basic Electronics and Lab Lecture 15 - Circuit Analysis using H-Parameters
Link Basic Electronics and Lab Lecture 16 - Frequency Response of Amplifiers
Link Basic Electronics and Lab Lecture 17 - Frequency Analysis
Link Basic Electronics and Lab Lecture 18 - Power Amplifiers
Link Basic Electronics and Lab Lecture 19 - Differential Amplifiers Circuit
Link Basic Electronics and Lab Lecture 20 - Integrated Chip
Link Basic Electronics and Lab Lecture 21 - Typical Characteristic of Operation Amplifier
Link Basic Electronics and Lab Lecture 22 - Four Types of Feed Back
Link Basic Electronics and Lab Lecture 23 - Four Types of Feed Back
Link Basic Electronics and Lab Lecture 24 - Mathematical Operations
Link Basic Electronics and Lab Lecture 25 - Mathematical Operations
Link Basic Electronics and Lab Lecture 26 - Mathematical Operations
Link Basic Electronics and Lab Lecture 27 - Characteristics of Operation Amplifier
Link Basic Electronics and Lab Lecture 28 - Characteristics of Operation Amplifier
Link Basic Electronics and Lab Lecture 29 - Characteristics of Operation Amplifier
Link Basic Electronics and Lab Lecture 30 - Inverter/Non-Inverter Circuits
Link Basic Electronics and Lab Lecture 31 - Applications of Op Amps
Link Basic Electronics and Lab Lecture 32 - Non-Linear Op Amp circuits
Link Basic Electronics and Lab Lecture 33 - Applications of Op Amps
Link Basic Electronics and Lab Lecture 34 - Active Diode Circuits
Link Basic Electronics and Lab Lecture 35 - Oscillators
Link Basic Electronics and Lab Lecture 36 - Logarithmic and Anti-Logarithmic Amplifier
Link Basic Electronics and Lab Lecture 37 - Filters
Link Basic Electronics and Lab Lecture 38 - Unit Junction Transistor
Link Basic Electronics and Lab Lecture 39 - Silicon Controlled Rectifier
Link Basic Electronics and Lab Lecture 40 - Field Effect Transistor
Link Classical Physics Lecture 1 - Introduction
Link Classical Physics Lecture 2 - Newtonian mechanics
Link Classical Physics Lecture 3 - Dynamics in phase space
Link Classical Physics Lecture 4 - Linear dynamical systems
Link Classical Physics Lecture 5 - Autonomous dynamical systems (Part 1)
Link Classical Physics Lecture 6 - Autonomous dynamical systems (Part 2)
Link Classical Physics Lecture 7 - Lagrangian formalism
Link Classical Physics Lecture 8 - Summary of classical electromagnetism
Link Classical Physics Lecture 9 - Charged particle in an electromagnetic field
Link Classical Physics Lecture 10 - Hamiltonian dynamics (Part 1)
Link Classical Physics Lecture 11 - Hamiltonian dynamics (Part 2)
Link Classical Physics Lecture 12 - Hamiltonian dynamics (Part 3)
Link Classical Physics Lecture 13 - Dynamical symmetry (Part 1)
Link Classical Physics Lecture 14 - Dynamical symmetry (Part 2)
Link Classical Physics Lecture 15 - Randomness in phase space; chaos
Link Classical Physics Lecture 16 - Discrete-time dynamics: maps (Part 1)
Link Classical Physics Lecture 17 - Discrete-time dynamics: maps (Part 2)
Link Classical Physics Lecture 18 - Problems and solutions (Part 1)
Link Classical Physics Lecture 19 - Problems and solutions (Part 2)
Link Classical Physics Lecture 20 - Classical statistical mechanics: Introduction
Link Classical Physics Lecture 21 - Some probability distributions; isolated system
Link Classical Physics Lecture 22 - The microcanonical emsemble
Link Classical Physics Lecture 23 - Thermodynamics
Link Classical Physics Lecture 24 - The canonical ensemble
Link Classical Physics Lecture 25 - Connection between statistical mechanics and ther-modynamics
Link Classical Physics Lecture 26 - Probability distributions
Link Classical Physics Lecture 27 - Probability distributions (concld.). Phase transitions (Part 1)
Link Classical Physics Lecture 28 - Phase transitions (Part 2)
Link Classical Physics Lecture 29 - Phase transitions (Part 3)
Link Classical Physics Lecture 30 - Phase transitions (Part 4); misc. topics
Link Classical Physics Lecture 31 - Problems and solutions (Part 3)
Link Classical Physics Lecture 32 - Continuous groups in physics (Part 1)
Link Classical Physics Lecture 33 - Continuous groups in physics (Part 2)
Link Classical Physics Lecture 34 - Continuous groups in physics (Part 3)
Link Classical Physics Lecture 35 - Noether's Theorem. Special Relativity (Part 1)
Link Classical Physics Lecture 36 - Special Relativity (Part 2)
Link Classical Physics Lecture 37 - Special Relativity (Part 3)
Link Classical Physics Lecture 38 - Special Relativity (Part 4)
Link Engineering Chemistry I Lecture 1 - Introduction to Chemistry & Quantum Chemical Mechanics
Link Engineering Chemistry I Lecture 2 - Particle in a box (one and two dimensions)
Link Engineering Chemistry I Lecture 3 - Particle in a box (One and Two Dimensions) Continued
Link Engineering Chemistry I Lecture 4 - Harmonic Oscillator and Molecular Vibration
Link Engineering Chemistry I Lecture 5 - Harmonic Oscillator (Continued)
Link Engineering Chemistry I Lecture 6 - Hydrogen Atom - Radial Solution
Link Engineering Chemistry I Lecture 7 - Hydrogen Atom Part III Angular Solutions
Link Engineering Chemistry I Lecture 8 - Hydrogen Atom - Angular Solutions (Continued)
Link Engineering Chemistry I Lecture 9 - Hydrogen Atom - Angular Solutions (Continued)
Link Engineering Chemistry I Lecture 10 - Oppenheimer Approximation and Superposition
Link Numerical Methods and Programing Lecture 1 - Programing Basics
Link Numerical Methods and Programing Lecture 2 - Introduction to Pointers
Link Numerical Methods and Programing Lecture 3 - Pointers And Arrays
Link Numerical Methods and Programing Lecture 4 - External Functions and Argument Passing
Link Numerical Methods and Programing Lecture 5 - Representation of Numbers
Link Numerical Methods and Programing Lecture 6 - Numerical Error
Link Numerical Methods and Programing Lecture 7 - Error Propagation and Stability
Link Numerical Methods and Programing Lecture 8 - Polynomial Interpolation-1
Link Numerical Methods and Programing Lecture 9 - Polynomial Interpolation-2
Link Numerical Methods and Programing Lecture 10 - Error In Interpolation Polynomial
Link Numerical Methods and Programing Lecture 11 - Polynomial Interpolation
Link Numerical Methods and Programing Lecture 12 - Cubic Spline Interpolation
Link Numerical Methods and Programing Lecture 13 - Data Fitting : Linear Fit
Link Numerical Methods and Programing Lecture 14 - Data Fitting : Linear Fit
Link Numerical Methods and Programing Lecture 15 - Data Fitting : Non Linear Fit
Link Numerical Methods and Programing Lecture 16 - Matrix Elimination and Solution
Link Numerical Methods and Programing Lecture 17 - Solution To Linear Equations
Link Numerical Methods and Programing Lecture 18 - Matrix Elimination
Link Numerical Methods and Programing Lecture 19 - Eigen Values of A Matrix
Link Numerical Methods and Programing Lecture 20 - Eigen Values And Eigen Vectors
Link Numerical Methods and Programing Lecture 21 - Solving NonLinear Equations
Link Numerical Methods and Programing Lecture 22 - Solving NonLinear Equations Newton Raphson Method
Link Numerical Methods and Programing Lecture 23 - Methods For Solving NonLinear Equations
Link Numerical Methods and Programing Lecture 24 - System of NonLinear Equations
Link Numerical Methods and Programing Lecture 25 - Numerical Derivations
Link Numerical Methods and Programing Lecture 26 - High order Derivatives From Difference Formula
Link Numerical Methods and Programing Lecture 27 - Numerical Integration - Basic Rules
Link Numerical Methods and Programing Lecture 28 - Comparison of Different Basic Rules
Link Numerical Methods and Programing Lecture 29 - Gaussian Rules
Link Numerical Methods and Programing Lecture 30 - Comparison of Gaussian Rules
Link Numerical Methods and Programing Lecture 31 - Solving Ordinary Differential Equations
Link Numerical Methods and Programing Lecture 32 - Solving ordinary differential equations
Link Numerical Methods and Programing Lecture 33 - Adaptive step size Runge Kutta scheme
Link Numerical Methods and Programing Lecture 34 - Partial Differential Equations
Link Numerical Methods and Programing Lecture 35 - Explicit and Implicit Methods
Link Numerical Methods and Programing Lecture 36 - The Crank - Nicholson Scheme For Two Spatial
Link Numerical Methods and Programing Lecture 37 - Fourier Transforms
Link Numerical Methods and Programing Lecture 38 - Fast Fourier Transforms
Link Quantum Physics Lecture 1 - Introduction to Quantum Physics;Heisenberg's uncertainty principle
Link Quantum Physics Lecture 2 - Introduction to linear vector spaces
Link Quantum Physics Lecture 3 - Characteristics of linear vector spaces
Link Quantum Physics Lecture 4 - Functions in a linear vector space
Link Quantum Physics Lecture 5 - Linear operations in a linear vector space and their eigenvalues
Link Quantum Physics Lecture 6 - Classical Vs Quantum Mechanics
Link Quantum Physics Lecture 7 - Quantum Physics
Link Quantum Physics Lecture 8 - Quantum Physics
Link Quantum Physics Lecture 9 - Quantum Physics
Link Quantum Physics Lecture 10 - Quantum Physics
Link Quantum Physics Lecture 11 - Quantum Physics
Link Quantum Physics Lecture 12 - Quantum Physics
Link Quantum Physics Lecture 13 - Quantum Physics
Link Quantum Physics Lecture 14 - Quantum Physics
Link Quantum Physics Lecture 15 - Quantum Physics
Link Quantum Physics Lecture 16 - Quantum Physics
Link Quantum Physics Lecture 17 - Quantum Physics
Link Quantum Physics Lecture 18 - Quantum Physics
Link Quantum Physics Lecture 19 - Quantum Physics
Link Quantum Physics Lecture 20 - Quantum Physics
Link Quantum Physics Lecture 21 - Quantum Physics
Link Quantum Physics Lecture 22 - Quantum Physics
Link Quantum Physics Lecture 23 - Quantum Physics
Link Quantum Physics Lecture 24 - Quantum Physics
Link Quantum Physics Lecture 25 - Quantum Physics
Link Quantum Physics Lecture 26 - Quantum Physics
Link Quantum Physics Lecture 27 - Quantum Physics
Link Quantum Physics Lecture 28 - Quantum Physics
Link Quantum Physics Lecture 29 - Quantum Physics
Link Quantum Physics Lecture 30 - Quantum Physics
Link Quantum Physics Lecture 31 - Quantum Physics
Link Engineering Physics I Lecture 1 - Introduction
Link Engineering Physics I Lecture 2 - Malus law & Superposition of ways
Link Engineering Physics I Lecture 3 - Double Refraction
Link Engineering Physics I Lecture 4 - Interference of polarized light
Link Engineering Physics I Lecture 5 - Optical Activity
Link Engineering Physics I Lecture 6 - Introduction
Link Engineering Physics I Lecture 7 - Stationary Waves & Reflection, Refraction and Diffraction
Link Engineering Physics I Lecture 8 - Ultrasonics
Link Engineering Physics I Lecture 9 - Acoustics of Buildings - Part I
Link Engineering Physics I Lecture 10 - Acoustics of Buildings - Part II
Link Engineering Physics I Lecture 11 - Interference of light Part-1
Link Engineering Physics I Lecture 12 - Interference of light Part-2
Link Engineering Physics I Lecture 13 - Interference of light Part-3
Link Engineering Physics I Lecture 14 - Interference by Division of Wave front
Link Engineering Physics I Lecture 15 - Interference by Division of Amplitude
Link Engineering Physics I Lecture 16 - Coherence and Application of Interference
Link Engineering Physics I Lecture 17 - Diffraction Part-1
Link Engineering Physics I Lecture 18 - Diffraction Part-2
Link Engineering Physics I Lecture 19 - Diffraction Part-3
Link Engineering Physics I Lecture 20 - Diffraction by a circular aperture
Link Engineering Physics I Lecture 21 - Kinetic theory of gases - Part-1
Link Engineering Physics I Lecture 22 - Kinetic theory of gases - Part-2
Link Engineering Physics I Lecture 23 - Maxwellian distribution law of velocity - Part-1
Link Engineering Physics I Lecture 24 - Maxwellian distribution law of velocity - Part-2
Link Engineering Physics I Lecture 25 - Maxwellian distribution law of velocity - Part-3
Link Engineering Physics I Lecture 26 - Vanderwaal's equation of states - Part-1
Link Engineering Physics I Lecture 27 - Vanderwaal's equation of states - Part-2
Link Engineering Physics I Lecture 28 - Vanderwaal's equation of states - Part-3
Link Engineering Physics I Lecture 29 - Fluid Mechanics - Part-1
Link Engineering Physics I Lecture 30 - Fluid Mechanics - Part-2
Link Engineering Physics I Lecture 31 - Introduction of special relativity
Link Engineering Physics I Lecture 32 - Consequences of special relativity-1
Link Engineering Physics I Lecture 33 - Consequences of special relativity-2
Link Engineering Physics I Lecture 34 - Consequences of special relativity-3
Link Engineering Physics I Lecture 35 - Consequences of special relativity-4
Link Engineering Physics I Lecture 36 - Consequences of special relativity-5
Link Engineering Physics I Lecture 37 - Introduction
Link Engineering Physics I Lecture 38 - Image formation by lenses
Link Engineering Physics I Lecture 39 - Lens aberrations - Part I
Link Engineering Physics I Lecture 40 - Lens aberrations - Part II
Link Mathematics II Lecture 1 - Complex Integration
Link Mathematics II Lecture 2 - Contour Integration
Link Mathematics II Lecture 3 - Cauchy's Integral Theorem
Link Mathematics II Lecture 4 - Cauchy's Integral Formula
Link Mathematics II Lecture 5 - Application of Cauchy Integral Formula
Link Mathematics II Lecture 6 - Zeros, Singularities and Poles
Link Mathematics II Lecture 7 - Residue Integration Method
Link Mathematics II Lecture 8 - Residue Theorem
Link Mathematics II Lecture 9 - Evaluation of Real Integrals
Link Mathematics II Lecture 10 - Evaluation of Real Improper Integrals-1
Link Mathematics II Lecture 11 - Evaluation of Real Improper Integrals-2
Link Mathematics II Lecture 12 - Evaluation of Real Improper Integrals-3
Link Mathematics II Lecture 13 - Evaluation of Real Improper Integrals-4
Link Mathematics II Lecture 14 - Evaluation of Real Integrals - Revision
Link Mathematics II Lecture 15 - Matrix Algebra Part - 1
Link Mathematics II Lecture 16 - Matrix Algebra Part - 2
Link Mathematics II Lecture 17 - Determinants Part - 1
Link Mathematics II Lecture 18 - Determinants Part - 2
Link Mathematics II Lecture 19 - Solution of System Equation
Link Mathematics II Lecture 20 - Linear Algebra Part - 1
Link Mathematics II Lecture 21 - Linear Algebra part - 2
Link Mathematics II Lecture 22 - Linear Algebra Part - 3
Link Mathematics II Lecture 23 - Linear Algebra Part - 4
Link Mathematics II Lecture 24 - Inner Product
Link Mathematics II Lecture 25 - Linear Transformation Part - 1
Link Mathematics II Lecture 26 - Linear Transformation Part - 2
Link Mathematics II Lecture 27 - Eigenvalues Eigenvectors Part - 1
Link Mathematics II Lecture 28 - Eigenvalues Eigenvectors Part - 2
Link Mathematics II Lecture 29 - Quadratic Forms
Link Mathematics II Lecture 30 - Diagonalization Part - 1
Link Mathematics II Lecture 31 - Diagonalization Part - 2
Link Mathematics II Lecture 32 - Solution of System of Linear Equation
Link Mathematics II Lecture 33 - Functions of Complex Variables Part - 1
Link Mathematics II Lecture 34 - Functions of Complex Variables Part - 2
Link Mathematics II Lecture 35 - Taylor Series
Link Mathematics II Lecture 36 - Laurent Series
Link Mathematics II Lecture 37 - Rank of a Matrix
Link Mathematics II Lecture 38 - Complex Numbers Their Geometrical Representation
Link Mathematics III Lecture 1 - Solution of ODE of First Order and First Degree
Link Mathematics III Lecture 2 - Linear Differential Equations of the First Order
Link Mathematics III Lecture 3 - Approximate Solution of An Initial Value
Link Mathematics III Lecture 4 - Series Solution of Homogeneous Linear I
Link Mathematics III Lecture 5 - Series Solution of Homogeneous Linear II
Link Mathematics III Lecture 6 - Bessel Functions and Their Properties
Link Mathematics III Lecture 7 - Bessel Functions And Their Properties (Continued..)
Link Mathematics III Lecture 8 - Laplace Transformation
Link Mathematics III Lecture 9 - Laplace Transformation (Continued..)
Link Mathematics III Lecture 10 - Applications Of Laplace Transformation
Link Mathematics III Lecture 11 - Applications Of Laplace Transformation (Continued..)
Link Mathematics III Lecture 12 - One Dimensional Wave Equation
Link Mathematics III Lecture 13 - One Dimensional Heat Equation
Link Mathematics III Lecture 14 - Introduction to Differential Equation
Link Mathematics III Lecture 15 - First Order Differential Equations and Their Geometric Interpretation
Link Mathematics III Lecture 16 - Differential Equations of First Order Higher Degree
Link Mathematics III Lecture 17 - Linear Differential Equation of Second Order-Part - 1
Link Mathematics III Lecture 18 - Linear Differential equation of Second Order-Part - 2
Link Mathematics III Lecture 19 - Euler-Cauchy Theorem
Link Mathematics III Lecture 20 - Higher Order Linear Differential Equations
Link Mathematics III Lecture 21 - Higher Order Non homogeneous Linear Equations
Link Mathematics III Lecture 22 - Boundary Value Problems
Link Mathematics III Lecture 23 - Strum Liouville boundary Value Problem
Link Mathematics III Lecture 24 - Fourier Series-Part - 1
Link Mathematics III Lecture 25 - Fourier Series-Part - 2
Link Mathematics III Lecture 26 - Convergence of the Fourier Series
Link Mathematics III Lecture 27 - Fourier Integrals
Link Mathematics III Lecture 28 - Fourier Transforms
Link Mathematics III Lecture 29 - Partial Differential Equation
Link Mathematics III Lecture 30 - First Order Partial Differential Equation
Link Mathematics III Lecture 31 - Second Order Partial Differential Equations - I
Link Mathematics III Lecture 32 - Second Order Partial Differential Equations - II
Link Mathematics III Lecture 33 - Solution of One Dimensional Wave Equation
Link Mathematics III Lecture 34 - Solution of HomogeneousNon Homogeneous Equations
Link Mathematics III Lecture 35 - Fourier Integral Transform Method for Heat Equation
Link Mathematics III Lecture 36 - Three Dimensional Laplace Equation
Link Mathematics III Lecture 37 - Solution of Drichlet Problem
Link Mathematics III Lecture 38 - Numerical Method for Laplace Poisson equation
Link Mathematics III Lecture 39 - ADI Method for Laplace and Poisson Equation
Link Concept of Management and Evolution of Management Thought Lecture 1 - Introduction - Concept of Management
Link Concept of Management and Evolution of Management Thought Lecture 2 - Lecture 2
Link Concept of Management and Evolution of Management Thought Lecture 3 - Management By Objectives
Link Concept of Management and Evolution of Management Thought Lecture 4 - Organizing & Organization
Link Concept of Management and Evolution of Management Thought Lecture 5 - Organizing - II
Link Concept of Management and Evolution of Management Thought Lecture 6 - Coordinating
Link Concept of Management and Evolution of Management Thought Lecture 7 - Communication - I
Link Concept of Management and Evolution of Management Thought Lecture 8 - Communication - II
Link Concept of Management and Evolution of Management Thought Lecture 9 - Leadership
Link Concept of Management and Evolution of Management Thought Lecture 10 - Controlling
Link Concept of Management and Evolution of Management Thought Lecture 11 - Motivation and Organization Culture
Link Concept of Management and Evolution of Management Thought Lecture 12 - Japanese Management
Link Concept of Management and Evolution of Management Thought Lecture 13 - Comparison of Japanese and American Management
Link Concept of Management and Evolution of Management Thought Lecture 14 - Managerial Functions in International Business
Link Concept of Management and Evolution of Management Thought Lecture 15 - Marketing Functions: Channels of Distribution
Link Concept of Management and Evolution of Management Thought Lecture 16 - Management and Society
Link Concept of Management and Evolution of Management Thought Lecture 17 - Social Responsibility and Ethics - II
Link Concept of Management and Evolution of Management Thought Lecture 18 - Functions of Personnel Management
Link Concept of Management and Evolution of Management Thought Lecture 19 - Manpower Planning
Link Concept of Management and Evolution of Management Thought Lecture 20 - Selection - I
Link Concept of Management and Evolution of Management Thought Lecture 21 - Selection - II
Link Concept of Management and Evolution of Management Thought Lecture 22 - Performance Appraisal - I
Link Concept of Management and Evolution of Management Thought Lecture 23 - Performance Appraisal - II
Link Concept of Management and Evolution of Management Thought Lecture 24 - Training and Development - I
Link Concept of Management and Evolution of Management Thought Lecture 25 - Training and Development - II
Link Concept of Management and Evolution of Management Thought Lecture 26 - Job Design and Payment Systems - I
Link Concept of Management and Evolution of Management Thought Lecture 27 - Job Design and Compensation Systems
Link Concept of Management and Evolution of Management Thought Lecture 28 - Organizational Development - I
Link Concept of Management and Evolution of Management Thought Lecture 29 - Organizational Development - II
Link Concept of Management and Evolution of Management Thought Lecture 30 - Organization Theory - I
Link Concept of Management and Evolution of Management Thought Lecture 31 - Organization Theory - II
Link Concept of Management and Evolution of Management Thought Lecture 32 - Group Dynamics - I
Link Concept of Management and Evolution of Management Thought Lecture 33 - Group Dynamics - II
Link Concept of Management and Evolution of Management Thought Lecture 34 - Group Dynamics - III
Link Concept of Management and Evolution of Management Thought Lecture 35 - Conflict Management - I
Link Concept of Management and Evolution of Management Thought Lecture 36 - Conflict Management - II
Link Concept of Management and Evolution of Management Thought Lecture 37 - Managing Creativity and Innovation
Link Concept of Management and Evolution of Management Thought Lecture 38 - Creativity and Managing Innovation Process - II
Link Concept of Management and Evolution of Management Thought Lecture 39 - Stress Management - I
Link Concept of Management and Evolution of Management Thought Lecture 40 - Stress Management - II
Link Fundamentals of Environmental Pollution and Control Lecture 1 - State of the Environment
Link Fundamentals of Environmental Pollution and Control Lecture 2 - Environmental Movement
Link Fundamentals of Environmental Pollution and Control Lecture 3 - Definitions of Environmental Terms
Link Fundamentals of Environmental Pollution and Control Lecture 4 - Water Pollutants
Link Fundamentals of Environmental Pollution and Control Lecture 5 - Water Pollutants (Continued...)
Link Fundamentals of Environmental Pollution and Control Lecture 6 - Water Pollution Modelling-Surface Water
Link Fundamentals of Environmental Pollution and Control Lecture 7 - Water Pollution Modelling-Surface Water(Continued...)
Link Fundamentals of Environmental Pollution and Control Lecture 8 - BOD Modelling - Part 1
Link Fundamentals of Environmental Pollution and Control Lecture 9 - BOD Modelling - Part 2
Link Fundamentals of Environmental Pollution and Control Lecture 10 - Oxygen Demanding Waste in Streams - Part 1
Link Fundamentals of Environmental Pollution and Control Lecture 11 - Oxygen Demanding Waste in Streams - Part 2
Link Fundamentals of Environmental Pollution and Control Lecture 12 - Ground Water and its Contamination
Link Fundamentals of Environmental Pollution and Control Lecture 13 - Ground Water and its Contamination (Continued...)
Link Fundamentals of Environmental Pollution and Control Lecture 14 - Ground Water and its Contamination (Continued...)
Link Fundamentals of Environmental Pollution and Control Lecture 15 - Waste Water Treatment
Link Fundamentals of Environmental Pollution and Control Lecture 16 - Wastewater Treatment (Continued...)
Link Fundamentals of Environmental Pollution and Control Lecture 17 - Wastewater Treatment (Continued...)
Link Fundamentals of Environmental Pollution and Control Lecture 18 - Chemical Treatment
Link Fundamentals of Environmental Pollution and Control Lecture 19 - Wetland Treatment and Bio-Technology Applications
Link Fundamentals of Environmental Pollution and Control Lecture 20 - Introduction to Soil
Link Fundamentals of Environmental Pollution and Control Lecture 21 - Parameters to Soil for Vegetative Growth
Link Fundamentals of Environmental Pollution and Control Lecture 22 - Parameters to Soil for Vegetative Growth (Continued...)
Link Fundamentals of Environmental Pollution and Control Lecture 23 - Soil Acidity
Link Fundamentals of Environmental Pollution and Control Lecture 24 - Soil Erosion
Link Fundamentals of Environmental Pollution and Control Lecture 25 - Mechanical Soil Erosion Control
Link Fundamentals of Environmental Pollution and Control Lecture 26 - Soil Erosion Prediction
Link Fundamentals of Environmental Pollution and Control Lecture 27 - Universal Soil Loss Equation
Link Fundamentals of Environmental Pollution and Control Lecture 28 - Air Pollutants
Link Fundamentals of Environmental Pollution and Control Lecture 29 - Health Effects of Air Pollutants - Part 1
Link Fundamentals of Environmental Pollution and Control Lecture 30 - Health Effects of Air Pollutants - Part 2
Link Fundamentals of Environmental Pollution and Control Lecture 31 - Air Pollutants and Meteorology - Part 1
Link Fundamentals of Environmental Pollution and Control Lecture 32 - Air Pollutants and Meteorology - Part 2
Link Fundamentals of Environmental Pollution and Control Lecture 33 - The Point-Source Gaussian Plume Model
Link Fundamentals of Environmental Pollution and Control Lecture 34 - Ground Level Concentration
Link Fundamentals of Environmental Pollution and Control Lecture 35 - Emission Control
Link Fundamentals of Environmental Pollution and Control Lecture 36 - EIA, EMP & EA
Link NOC:Drilling and Blasting Technology Lecture 1 - Introduction to Drilling Technology
Link NOC:Drilling and Blasting Technology Lecture 2 - Introduction to Blasting Technology
Link NOC:Drilling and Blasting Technology Lecture 3 - Rock Formation
Link NOC:Drilling and Blasting Technology Lecture 4 - Rock Formation (Continued...)
Link NOC:Drilling and Blasting Technology Lecture 5 - Rock Formation (Continued...)
Link NOC:Drilling and Blasting Technology Lecture 6 - Rock Properties and Testing - 1
Link NOC:Drilling and Blasting Technology Lecture 7 - Rock Properties and Testing - 2
Link NOC:Drilling and Blasting Technology Lecture 8 - Drilling Mechanism
Link NOC:Drilling and Blasting Technology Lecture 9 - Drillability of Rock
Link NOC:Drilling and Blasting Technology Lecture 10 - Drilling Machines - 1
Link NOC:Drilling and Blasting Technology Lecture 11 - Drilling Machines - 2
Link NOC:Drilling and Blasting Technology Lecture 12 - Drilling Pattern - 1
Link NOC:Drilling and Blasting Technology Lecture 13 - Drilling Pattern - 2
Link NOC:Drilling and Blasting Technology Lecture 14 - Special Drilling Methods - I
Link NOC:Drilling and Blasting Technology Lecture 15 - Special Drilling Methods - II
Link NOC:Drilling and Blasting Technology Lecture 16 - Explosives - 1
Link NOC:Drilling and Blasting Technology Lecture 17 - Explosives - 2
Link NOC:Drilling and Blasting Technology Lecture 18 - Explosives accessories - 1
Link NOC:Drilling and Blasting Technology Lecture 19 - Explosives accessories - 2
Link NOC:Drilling and Blasting Technology Lecture 20 - Explosives accessories - 3
Link NOC:Drilling and Blasting Technology Lecture 21 - Explosives properties - 1
Link NOC:Drilling and Blasting Technology Lecture 22 - Explosives properties - 2
Link NOC:Drilling and Blasting Technology Lecture 23 - Explosives properties - 3
Link NOC:Drilling and Blasting Technology Lecture 24 - Basics of blasting - 1
Link NOC:Drilling and Blasting Technology Lecture 25 - Basics of blasting - 2
Link NOC:Drilling and Blasting Technology Lecture 26 - Explosive storage and transportation - 1
Link NOC:Drilling and Blasting Technology Lecture 27 - Explosive storage and transportation - 2
Link NOC:Drilling and Blasting Technology Lecture 28 - Surface blasting - 1
Link NOC:Drilling and Blasting Technology Lecture 29 - Surface blasting - 2
Link NOC:Drilling and Blasting Technology Lecture 30 - Surface blast design
Link NOC:Drilling and Blasting Technology Lecture 31 - Underground blast design - 1
Link NOC:Drilling and Blasting Technology Lecture 32 - Underground blast design - 2
Link NOC:Drilling and Blasting Technology Lecture 33 - Blasting results - 1
Link NOC:Drilling and Blasting Technology Lecture 34 - Blasting results - 2
Link NOC:Drilling and Blasting Technology Lecture 35 - Blasting results - 3
Link NOC:Drilling and Blasting Technology Lecture 36 - Blasting results - 4
Link NOC:Drilling and Blasting Technology Lecture 37 - Problems - 1
Link NOC:Drilling and Blasting Technology Lecture 38 - Problems - 2
Link NOC:Drilling and Blasting Technology Lecture 39 - Problems - 3
Link NOC:Drilling and Blasting Technology Lecture 40 - Problems - 4
Link NOC:Network Analysis for Mines and Mineral Engineering Lecture 1 - Introduction to Network Analysis
Link NOC:Network Analysis for Mines and Mineral Engineering Lecture 2 - Introduction to network and some terminology
Link NOC:Network Analysis for Mines and Mineral Engineering Lecture 3 - Construction of network
Link NOC:Network Analysis for Mines and Mineral Engineering Lecture 4 - Introduction to activity on node diagram and comparison with arrow diagram
Link NOC:Network Analysis for Mines and Mineral Engineering Lecture 5 - Rules of dummy job,redundancy and cycles
Link NOC:Network Analysis for Mines and Mineral Engineering Lecture 6 - Critical path and its calculation
Link NOC:Network Analysis for Mines and Mineral Engineering Lecture 7 - Algorithm for critical path early start and early finish times
Link NOC:Network Analysis for Mines and Mineral Engineering Lecture 8 - Late start and late finish times algorithm
Link NOC:Network Analysis for Mines and Mineral Engineering Lecture 9 - Understanding the slack
Link NOC:Network Analysis for Mines and Mineral Engineering Lecture 10 - Examples of slacks and calculation of AON network
Link NOC:Network Analysis for Mines and Mineral Engineering Lecture 11 - Project due dates and earliest completion time examples
Link NOC:Network Analysis for Mines and Mineral Engineering Lecture 12 - CPM model and cost modelling
Link NOC:Network Analysis for Mines and Mineral Engineering Lecture 13 - Lowest cost schedule and optimum schedule
Link NOC:Network Analysis for Mines and Mineral Engineering Lecture 14 - Crashing and stretching of jobs
Link NOC:Network Analysis for Mines and Mineral Engineering Lecture 15 - Crashing and stretching of jobs (Continued...)
Link NOC:Network Analysis for Mines and Mineral Engineering Lecture 16 - Introduction to PERT
Link NOC:Network Analysis for Mines and Mineral Engineering Lecture 17 - Expected length of critical path calculation with examples
Link NOC:Network Analysis for Mines and Mineral Engineering Lecture 18 - Probability of completion of a project
Link NOC:Network Analysis for Mines and Mineral Engineering Lecture 19 - Event oriented project management
Link NOC:Network Analysis for Mines and Mineral Engineering Lecture 20 - Algorithm and computer program
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 1 - Overview
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 2 - Introduction to Landscape
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 3 - Categories and Materials in Landscape
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 4 - Objective and Professional Scope of Landscape Design
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 5 - Objective and Professional Scope of Landscape Design (Continued...)
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 6 - Introduction to History of Landscape Design
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 7 - Introduction to History of Landscape Design (Continued...)
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 8 - Introduction to History of Landscape Design (Continued...)
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 9 - Introduction to History of Landscape Design (Continued...)
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 10 - Introduction to History of Landscape Design (Continued...)
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 11 - Introduction to History of Landscape Design (Continued...)
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 12 - Introduction to History of Landscape Design (Continued...)
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 13
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 14
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 15
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 16 - Behavioral Principle
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 17 - Behavioral Principle (Continued...)
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 18 - Behavioral Principle (Continued...)
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 19 - Behavioral Principle (Continued...)
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 20 - Behavioral Principle (Continued...)
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 21
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 22
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 23
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 24
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 25
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 26
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 27
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 28
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 29
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 30
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 31 - Landform Design
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 32 - Landform Design (Continued...)
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 33 - Landform Design (Continued...)
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 34 - Landform Design (Continued...)
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 35 - Landform Design (Continued...)
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 36 - Planting Design
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 37 - Planting Design (Continued...)
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 38 - Planting Design (Continued...)
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 39 - Planting Design (Continued...)
Link NOC:Landscape Architecture and Site Planning - Basic Fundamentals Lecture 40 - Planting Design (Continued...)
Link NOC:Architectural Conservation and Historic Preservation Lecture 1 - Introduction
Link NOC:Architectural Conservation and Historic Preservation Lecture 2 - Introduction (Continued...)
Link NOC:Architectural Conservation and Historic Preservation Lecture 3 - Need, Debate and Purpose
Link NOC:Architectural Conservation and Historic Preservation Lecture 4 - Heritage Significance and Values
Link NOC:Architectural Conservation and Historic Preservation Lecture 5 - Heritage Significance and Values (Continued...)
Link NOC:Architectural Conservation and Historic Preservation Lecture 6 - Assessing Heritage Values and Significance
Link NOC:Architectural Conservation and Historic Preservation Lecture 7 - Heritage Values and Significance (Continued...)
Link NOC:Architectural Conservation and Historic Preservation Lecture 8 - Assessing Heritage Significance Concept and Process
Link NOC:Architectural Conservation and Historic Preservation Lecture 9 - Assessing Heritage Significance Concept and Process (Continued...)
Link NOC:Architectural Conservation and Historic Preservation Lecture 10 - Divergent Approaches for Managing and Rehabilitating Heritage Properties : Degrees of Intervention
Link NOC:Architectural Conservation and Historic Preservation Lecture 11 - Divergent Approaches for Managing and Rehabilitating Heritage Properties : Degrees of Intervention (Continued...)
Link NOC:Architectural Conservation and Historic Preservation Lecture 12 - Divergent Approaches for Managing and Rehabilitating Heritage Properties : Degrees of Intervention (Continued...)
Link NOC:Architectural Conservation and Historic Preservation Lecture 13 - Ethics of Conservation
Link NOC:Architectural Conservation and Historic Preservation Lecture 14 - Evolution of Heritage Conservation
Link NOC:Architectural Conservation and Historic Preservation Lecture 15 - Evolution of Heritage Conservation (Continued...)
Link NOC:Architectural Conservation and Historic Preservation Lecture 16 - World Heritage Sites - Part 1
Link NOC:Architectural Conservation and Historic Preservation Lecture 17 - World heritage Sites - Part 2
Link NOC:Architectural Conservation and Historic Preservation Lecture 18 - World Heritage Sites - Part 3
Link NOC:Architectural Conservation and Historic Preservation Lecture 19 - World Heritage Sites - Part 4
Link NOC:Architectural Conservation and Historic Preservation Lecture 20 - World Heritage Sites - Part 5
Link NOC:Architectural Conservation and Historic Preservation Lecture 21 - Causes of decay in cultural property - Part 1
Link NOC:Architectural Conservation and Historic Preservation Lecture 22 - Causes of decay - Part 2
Link NOC:Architectural Conservation and Historic Preservation Lecture 23 - Causes of decay - Part 3
Link NOC:Architectural Conservation and Historic Preservation Lecture 24 - Causes of decay - Part 4
Link NOC:Architectural Conservation and Historic Preservation Lecture 25 - Documenting heritage properties
Link NOC:Architectural Conservation and Historic Preservation Lecture 26 - Documenting Heritage Properties : A Demonstration Example
Link NOC:Architectural Conservation and Historic Preservation Lecture 27 - Investigation and Conservation of Historic Structures : Case Study 1
Link NOC:Architectural Conservation and Historic Preservation Lecture 28 - Investigation and Conservation of Historic Structures : Case Study 2 (Part a)
Link NOC:Architectural Conservation and Historic Preservation Lecture 29 - Investigation and Conservation of Historic Structures : Case Study 2 (Part b)
Link NOC:Architectural Conservation and Historic Preservation Lecture 30 - Conservation of Historic Structures : Maintenance and Repair
Link NOC:Architectural Conservation and Historic Preservation Lecture 31 - Conservation of Historic Structures : Maintenance and Repair (Continued...)
Link NOC:Architectural Conservation and Historic Preservation Lecture 32 - Historic Cities and Heritage Areas
Link NOC:Architectural Conservation and Historic Preservation Lecture 33 - Historic Cities and Heritage Areas (Continued...)
Link NOC:Architectural Conservation and Historic Preservation Lecture 34 - Historic Cities and Heritage Areas (Continued...)
Link NOC:Architectural Conservation and Historic Preservation Lecture 35 - Historic Cities and Heritage Areas (Continued...)
Link NOC:Architectural Conservation and Historic Preservation Lecture 36 - Historic Cities and Heritage Zones - India
Link NOC:Architectural Conservation and Historic Preservation Lecture 37 - Historic Areas and Heritage Zones - India (Continued...)
Link NOC:Architectural Conservation and Historic Preservation Lecture 38 - New Buildings in Historic Settings
Link NOC:Architectural Conservation and Historic Preservation Lecture 39 - Heritage Impact Assessment in Historic Settings
Link NOC:Architectural Conservation and Historic Preservation Lecture 40 - Adaptive Reuse
Link NOC:Architectural Conservation and Historic Preservation Lecture 41 - Legislative and Organizational Policies for India
Link NOC:Architectural Conservation and Historic Preservation Lecture 42 - Heritage Regulations and Role of Voluntary Organisations
Link NOC:Architectural Conservation and Historic Preservation Lecture 43 - Heritage Conservation - Issues and Potentials: Heritage tourism, sustainability and way forward
Link NOC:Architectural Acoustics Lecture 1 - Introduction and Historical Overview
Link NOC:Architectural Acoustics Lecture 2 - Introduction to Acoustical Physics
Link NOC:Architectural Acoustics Lecture 3 - Frequency and Octave
Link NOC:Architectural Acoustics Lecture 4 - Sound Pressure and Intensity Levels
Link NOC:Architectural Acoustics Lecture 5 - Near and Far Field Propagation and Loudness
Link NOC:Architectural Acoustics Lecture 6 - Room Acoustics - I
Link NOC:Architectural Acoustics Lecture 7 - Room Acoustics - II
Link NOC:Architectural Acoustics Lecture 8 - Indoor Acoustics, Reflection and Absorption
Link NOC:Architectural Acoustics Lecture 9 - Concept of Reverberation
Link NOC:Architectural Acoustics Lecture 10 - Application of Reverberation Time
Link NOC:Architectural Acoustics Lecture 11 - Introduction to Acoustical Absorbers
Link NOC:Architectural Acoustics Lecture 12 - Panel Absorbers and Resonators
Link NOC:Architectural Acoustics Lecture 13 - Absorption in spaces of different volumes
Link NOC:Architectural Acoustics Lecture 14 - Acoustical Absorbers
Link NOC:Architectural Acoustics Lecture 15 - Reverberation time and Intelligibility
Link NOC:Architectural Acoustics Lecture 16 - Acoustical Criteria and Space Design
Link NOC:Architectural Acoustics Lecture 17 - Acoustical Criteria and Space Design (Continued...)
Link NOC:Architectural Acoustics Lecture 18 - Acoustical Criteria and Space Design (Continued...)
Link NOC:Architectural Acoustics Lecture 19 - Acoustical Criteria and Space Design (Continued...)
Link NOC:Architectural Acoustics Lecture 20 - Acoustical Criteria and Space Design (Continued...)
Link NOC:Architectural Acoustics Lecture 21 - Introduction to Auditorium Design
Link NOC:Architectural Acoustics Lecture 22 - Introduction to Auditorium Design (Continued...)
Link NOC:Architectural Acoustics Lecture 23 - Introduction to Auditorium Design (Continued...)
Link NOC:Architectural Acoustics Lecture 24 - Introduction to Auditorium Design Balcony and ceiling design
Link NOC:Architectural Acoustics Lecture 25 - Introduction to Auditorium Design: Some Examples
Link NOC:Architectural Acoustics Lecture 26 - Electro Acoustics - I
Link NOC:Architectural Acoustics Lecture 27 - Electro Acoustics - II
Link NOC:Architectural Acoustics Lecture 28 - Meteorological conditions and propagation of sound
Link NOC:Architectural Acoustics Lecture 29 - Topography and sound propagation Historical contexts
Link NOC:Architectural Acoustics Lecture 30 - Open air Theatre considerations
Link NOC:Architectural Acoustics Lecture 31 - Air Borne Sound Transmission
Link NOC:Architectural Acoustics Lecture 32 - Air Borne Sound Transmission (Continued...)
Link NOC:Architectural Acoustics Lecture 33 - Air Borne Sound Transmission (Continued...)
Link NOC:Architectural Acoustics Lecture 34 - Structure Borne Sound Transmission
Link NOC:Architectural Acoustics Lecture 35 - Structure Borne Sound Transmission (Continued...)
Link NOC:Architectural Acoustics Lecture 36 - Environmental Acoustics - I
Link NOC:Architectural Acoustics Lecture 37 - Environmental Acoustics - II
Link NOC:Architectural Acoustics Lecture 38 - Urban Noise Control: Planning Consideration - I
Link NOC:Architectural Acoustics Lecture 39 - Urban Noise Control: Planning Consideration - II
Link NOC:Architectural Acoustics Lecture 40 - Urban Noise Control: Architectural Consideration
Link NOC:Introduction to History of Architecture in India Lecture 1 - Early Architecture
Link NOC:Introduction to History of Architecture in India Lecture 2 - Buddhist and Early Temple Architecture
Link NOC:Introduction to History of Architecture in India Lecture 3 - Sacrificial Altars and Divine Shelters
Link NOC:Introduction to History of Architecture in India Lecture 4 - The Great Temple
Link NOC:Introduction to History of Architecture in India Lecture 5 - Week-1 Review
Link NOC:Introduction to History of Architecture in India Lecture 6 - Delhi Sultanate
Link NOC:Introduction to History of Architecture in India Lecture 7 - Regional Sultanas
Link NOC:Introduction to History of Architecture in India Lecture 8 - Temple and Mosque
Link NOC:Introduction to History of Architecture in India Lecture 9 - Daulatabad Fort
Link NOC:Introduction to History of Architecture in India Lecture 10 - Week-2 Review
Link NOC:Introduction to History of Architecture in India Lecture 11 - Mughal Architecture - Part 1
Link NOC:Introduction to History of Architecture in India Lecture 12 - Mughal Architecture - Part 2
Link NOC:Introduction to History of Architecture in India Lecture 13 - Imbrication of Sultanate and Maratha Architecture
Link NOC:Introduction to History of Architecture in India Lecture 14 - Maratha Temple
Link NOC:Introduction to History of Architecture in India Lecture 15 - Week-3 Review
Link NOC:Introduction to History of Architecture in India Lecture 16 - Princely States of India
Link NOC:Introduction to History of Architecture in India Lecture 17 - Colonial Architecture In India
Link NOC:Introduction to History of Architecture in India Lecture 18 - International, Art Deco, Modern
Link NOC:Introduction to History of Architecture in India Lecture 19 - Architecture Today Commerce and Creativity
Link NOC:Introduction to History of Architecture in India Lecture 20 - Week-4 Review
Link NOC:Housing Policy and Planning Lecture 1 - Introduction to Housing
Link NOC:Housing Policy and Planning Lecture 2 - Housing Classifications
Link NOC:Housing Policy and Planning Lecture 3 - Housing Situation
Link NOC:Housing Policy and Planning Lecture 4 - Policy and Public intervention - 1
Link NOC:Housing Policy and Planning Lecture 5 - Policy and Public intervention - 2
Link NOC:Housing Policy and Planning Lecture 6 - Urban Reform
Link NOC:Housing Policy and Planning Lecture 7 - Housing Policy
Link NOC:Housing Policy and Planning Lecture 8 - Legal and Institutional Framework for Housing
Link NOC:Housing Policy and Planning Lecture 9 - Land for Housing - 1
Link NOC:Housing Policy and Planning Lecture 10 - Land for Housing - 2
Link NOC:Housing Policy and Planning Lecture 11 - Affordability and Housing Finance
Link NOC:Housing Policy and Planning Lecture 12 - Technology Systems in Housing Delivery - 1
Link NOC:Housing Policy and Planning Lecture 13 - Technology Systems in Housing Delivery - 2
Link NOC:Housing Policy and Planning Lecture 14 - Housing for All Mission (PMAY) and Technology Sub-mission
Link NOC:Housing Policy and Planning Lecture 15 - Summing up of Part-1 (Policy) and Introduction to Housing Planning
Link NOC:Housing Policy and Planning Lecture 16 - Urban and Regional Planning - 1
Link NOC:Housing Policy and Planning Lecture 17 - Urban and Regional Planning - 2
Link NOC:Housing Policy and Planning Lecture 18 - Development Controls
Link NOC:Housing Policy and Planning Lecture 19 - Housing Infrastructure and Services-1: Transport and Roads
Link NOC:Housing Policy and Planning Lecture 20 - Housing Infrastructure and Services-2: Drainage, Sanitation, Electricity and SWM
Link NOC:Housing Policy and Planning Lecture 21 - Housing Infrastructure and Services-3: Social Infrastructure and Facilities
Link NOC:Housing Policy and Planning Lecture 22 - Housing Strategy for City-1: An overview
Link NOC:Housing Policy and Planning Lecture 23 - Housing Strategy for City-2: Dealing with Core City Housing
Link NOC:Housing Policy and Planning Lecture 24 - Housing Strategy for City-3: Dealing with New Housing Areas
Link NOC:Housing Policy and Planning Lecture 25 - Planning for Plotted Housing
Link NOC:Housing Policy and Planning Lecture 26 - Planning for Group Housing
Link NOC:Housing Policy and Planning Lecture 27 - Community Development in Housing
Link NOC:Housing Policy and Planning Lecture 28 - Cooperative Housing
Link NOC:Housing Policy and Planning Lecture 29 - Institutional and rental housing
Link NOC:Housing Policy and Planning Lecture 30 - Working Person’s hostel and Serviced Apartments
Link NOC:Housing Policy and Planning Lecture 31 - Informal Housing Typologies
Link NOC:Housing Policy and Planning Lecture 32 - Approaches in Improving Slums and Squatters
Link NOC:Housing Policy and Planning Lecture 33 - Urban Village and Unauthorized Construction
Link NOC:Housing Policy and Planning Lecture 34 - Pavement Dwellers and Night Shelters
Link NOC:Housing Policy and Planning Lecture 35 - Old Age Home
Link NOC:Housing Policy and Planning Lecture 36 - Disaster Resistant Housing
Link NOC:Housing Policy and Planning Lecture 37 - Housing and Real Estate Development
Link NOC:Housing Policy and Planning Lecture 38 - Housing Management
Link NOC:Housing Policy and Planning Lecture 39 - Housing: Action Plan
Link NOC:Housing Policy and Planning Lecture 40 - Course Summary and Conclusion
Link NOC:Visual Communication Design for Digital Media Lecture 1 - Introduction to Visual Communication Design for Digital Media
Link NOC:Visual Communication Design for Digital Media Lecture 2 - Elements of Design - Part 1
Link NOC:Visual Communication Design for Digital Media Lecture 3 - Elements of Design - Part 2
Link NOC:Visual Communication Design for Digital Media Lecture 4 - Principles of Design - Part 1
Link NOC:Visual Communication Design for Digital Media Lecture 5 - Principles of Design - Part 2
Link NOC:Visual Communication Design for Digital Media Lecture 6 - Types of digital media technology — an overview of the field
Link NOC:Visual Communication Design for Digital Media Lecture 7 - Typography - 1
Link NOC:Visual Communication Design for Digital Media Lecture 8 - Typography - 2
Link NOC:Visual Communication Design for Digital Media Lecture 9 - Semiotics - 1
Link NOC:Visual Communication Design for Digital Media Lecture 10 - Semiotics - 2
Link NOC:Visual Communication Design for Digital Media Lecture 11 - Visual perception
Link NOC:Visual Communication Design for Digital Media Lecture 12 - Contemporary Visual Language - 1
Link NOC:Visual Communication Design for Digital Media Lecture 13 - Contemporary Visual Language - 2
Link NOC:Visual Communication Design for Digital Media Lecture 14 - Technology Advancements in Digital Media
Link NOC:Visual Communication Design for Digital Media Lecture 15 - Visual Design Methodology - 1_Generic Design
Link NOC:Visual Communication Design for Digital Media Lecture 16 - Visual Design Methodology - 2_Generic Design
Link NOC:Visual Communication Design for Digital Media Lecture 17 - Visual Design Methodology - 3_Animation
Link NOC:Visual Communication Design for Digital Media Lecture 18 - Visual Design Methodology - 4_web design
Link NOC:Visual Communication Design for Digital Media Lecture 19 - Visual Design Methodology - 5_graphic-design
Link NOC:Visual Communication Design for Digital Media Lecture 20 - Case Studies of Visual Design on Digital Paradigm
Link NOC:Culturally Responsive Built Environments Lecture 1 - A Place
Link NOC:Culturally Responsive Built Environments Lecture 2 - Place and Identity
Link NOC:Culturally Responsive Built Environments Lecture 3 - Habitus - A Sense of Place
Link NOC:Culturally Responsive Built Environments Lecture 4 - A Home - Introduction to Vernacular Architecture
Link NOC:Culturally Responsive Built Environments Lecture 5 - The New Vernacular
Link NOC:Culturally Responsive Built Environments Lecture 6 - Understanding Vernacular - Towards Anthropology
Link NOC:Culturally Responsive Built Environments Lecture 7 - Understanding Rock Shelters
Link NOC:Culturally Responsive Built Environments Lecture 8 - The Ecological and Sacred Dimension
Link NOC:Culturally Responsive Built Environments Lecture 9 - Winter Landscape and Urbanism
Link NOC:Culturally Responsive Built Environments Lecture 10 - Winter Cities: Design for 'ALL' Perspective
Link NOC:Culturally Responsive Built Environments Lecture 11 - Power in Built Form
Link NOC:Culturally Responsive Built Environments Lecture 12 - Spatial Analysis: Know-how power mediates in Built Form
Link NOC:Culturally Responsive Built Environments Lecture 13 - The Forbidden Space
Link NOC:Culturally Responsive Built Environments Lecture 14 - Religious Architecture: A Continuum of Meaning
Link NOC:Culturally Responsive Built Environments Lecture 15 - Understanding Construction Workers' Housing
Link NOC:Culturally Responsive Built Environments Lecture 16 - Culture and Disasters - Towards Method and Framework
Link NOC:Culturally Responsive Built Environments Lecture 17 - Understanding Post Tsunami Response (Tamilnadu)
Link NOC:Culturally Responsive Built Environments Lecture 18 - Cultural Heritage: Reassembled
Link NOC:Culturally Responsive Built Environments Lecture 19 - Understanding the Cultural Context in Disasters and Development
Link NOC:Culturally Responsive Built Environments Lecture 20 - Culture, Climate Change Adaptation And Disaster Risk Reduction
Link NOC:Culturally Responsive Built Environments Lecture 21 - Conservation: Introduction
Link NOC:Culturally Responsive Built Environments Lecture 22 - Conservation: Principles
Link NOC:Culturally Responsive Built Environments Lecture 23 - Learning from Vernacular: Conservation Practices and Challenges
Link NOC:Culturally Responsive Built Environments Lecture 24 - Protection of the World Cultural and Natural Heritage
Link NOC:Culturally Responsive Built Environments Lecture 25 - Intangible Cultural Heritage
Link NOC:Culturally Responsive Built Environments Lecture 26 - City HRIDAY Plan of Badami
Link NOC:Culturally Responsive Built Environments Lecture 27 - Cultural planning Approaches
Link NOC:Culturally Responsive Built Environments Lecture 28 - Urban Transformations in Doha
Link NOC:Culturally Responsive Built Environments Lecture 29 - How The Other Half Builds?
Link NOC:Culturally Responsive Built Environments Lecture 30 - How To/Not To Relocate Slums?
Link NOC:Culturally Responsive Built Environments Lecture 31 - Stone- as a Vernacular Building material
Link NOC:Culturally Responsive Built Environments Lecture 32 - Timber as Vernacular Building material
Link NOC:Culturally Responsive Built Environments Lecture 33 - Timber Construction (A journey from Advanced to Vernacular)
Link NOC:Culturally Responsive Built Environments Lecture 34 - How To Study Vernacular Architecture?
Link NOC:Culturally Responsive Built Environments Lecture 35 - Architecture with out Architects
Link NOC:Culturally Responsive Built Environments Lecture 36 - Social Change in India (Sanskritisation)
Link NOC:Culturally Responsive Built Environments Lecture 37 - Social Change in India (Westernization)
Link NOC:Culturally Responsive Built Environments Lecture 38 - Social Change in India (Modernization- Globalization)
Link NOC:Culturally Responsive Built Environments Lecture 39 - Pluralism in Built Environment Education
Link NOC:Culturally Responsive Built Environments Lecture 40 - Summary and Conclusion
Link NOC:Contemporary Architecture and Design Lecture 1 - Introduction
Link NOC:Contemporary Architecture and Design Lecture 2 - World Architecture and Design History
Link NOC:Contemporary Architecture and Design Lecture 3 - Industrial Revolution and Beginning of Modern Era
Link NOC:Contemporary Architecture and Design Lecture 4 - Post Industrial Revolution: For the Machine Movement
Link NOC:Contemporary Architecture and Design Lecture 5 - Post Industrial Revolution: Against the Machine Movement - Art and Craft Movement and Art Nouveau - Part 1
Link NOC:Contemporary Architecture and Design Lecture 6 - Post Industrial Revolution: Against the Machine Movement - Art and Craft Movement and Art Nouveau - Part 2
Link NOC:Contemporary Architecture and Design Lecture 7 - Post Industrial Revolution: Against the Machine Movement - Art and Craft Movement and Art Nouveau - Part 3
Link NOC:Contemporary Architecture and Design Lecture 8 - Evolution and Timeline of Modern Architecture and Design
Link NOC:Contemporary Architecture and Design Lecture 9 - Phases of Modern Architecture - Bauhaus
Link NOC:Contemporary Architecture and Design Lecture 10 - Phases of Modern Architecture - De Stijl
Link NOC:Contemporary Architecture and Design Lecture 11 - Phases of Modern Architecture - Chicago School
Link NOC:Contemporary Architecture and Design Lecture 12 - Phases of Modern Architecture - Chicago and Prairie School
Link NOC:Contemporary Architecture and Design Lecture 13 - Phases of Modern Architecture - Prairie School
Link NOC:Contemporary Architecture and Design Lecture 14 - Phases of Modern Architecture - Organic - Part 1
Link NOC:Contemporary Architecture and Design Lecture 15 - Phases of Modern Architecture - Organic - Part 2
Link NOC:Contemporary Architecture and Design Lecture 16 - Phases of Modern Architecture - Art Deco - Part 1
Link NOC:Contemporary Architecture and Design Lecture 17 - Phases of Modern Architecture - Art Deco - Part 2
Link NOC:Contemporary Architecture and Design Lecture 18 - Phases of Modern Architecture - Internationalism - Part 1
Link NOC:Contemporary Architecture and Design Lecture 19 - Phases of Modern Architecture - Internationalism - Part 2
Link NOC:Contemporary Architecture and Design Lecture 20 - Phases of Modern Architecture - Expressionism
Link NOC:Contemporary Architecture and Design Lecture 21 - Phases of Modern Architecture - Monolithic Style
Link NOC:Contemporary Architecture and Design Lecture 22 - Phases of Modern Architecture - Tensile and Steel Structures - Part 1
Link NOC:Contemporary Architecture and Design Lecture 23 - Phases of Modern Architecture - Tensile and Steel Structures - Part 2
Link NOC:Contemporary Architecture and Design Lecture 24 - Phases of Modern Architecture - Brutalism
Link NOC:Contemporary Architecture and Design Lecture 25 - Phases of Modern Architecture - Metabolism
Link NOC:Contemporary Architecture and Design Lecture 26 - Phases of Modern Architecture - Brutalism and Metabolism in India
Link NOC:Contemporary Architecture and Design Lecture 27 - Phases of Modern Art - Part 1
Link NOC:Contemporary Architecture and Design Lecture 28 - Phases of Modern Art - Part 2
Link NOC:Contemporary Architecture and Design Lecture 29 - Phases of Post Modern Architecture - Part I
Link NOC:Contemporary Architecture and Design Lecture 30 - Phases of Post Modern Architecture - Part II
Link NOC:Contemporary Architecture and Design Lecture 31 - Phases of Post Modern Architecture - Historicism
Link NOC:Contemporary Architecture and Design Lecture 32 - Phases of Post Modern Architecture - High Tech
Link NOC:Contemporary Architecture and Design Lecture 33 - Phases of Post Modern Architecture - Neo Modern
Link NOC:Contemporary Architecture and Design Lecture 34 - Phases of Post Modern Architecture - Critical Regionalism
Link NOC:Contemporary Architecture and Design Lecture 35 - Phases of Post Modern Architecture - Memphis Milano
Link NOC:Contemporary Architecture and Design Lecture 36 - Phases of Post Modern Architecture - Deconstructivism - Part I
Link NOC:Contemporary Architecture and Design Lecture 37 - Phases of Post Modern Architecture - Deconstructivism - Part II
Link NOC:Contemporary Architecture and Design Lecture 38 - Phases of Post Modern Architecture - Pop Art
Link NOC:Contemporary Architecture and Design Lecture 39 - Evolution of Typography in Contemporary Era
Link NOC:Contemporary Architecture and Design Lecture 40 - Phases of Post Modern Architecture - Industrial Design
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 1 - Interior-Architecture: Definition and Understanding
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 2 - Craft: Definition and Understanding (Varied Perspectives on Art and Craft)
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 3 - Interior-Architecture and Craft and Technology: Establishing Inter-Relationships
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 4 - Interior-Architecture and Craft and Technology: Exploring Applications
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 5 - Summary and Discourse - I
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 6 - Interior-Architecture: Documenting Knowledge and Skills
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 7 - Traditional Knowledge Systems and the Ingenious skills of the communities
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 8 - Interior-Architecture: Documenting Materials; Tools and Techniques
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 9 - Traditional Knowledge Systems and the Indigenous materials; tools and techniques
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 10 - Summary and Discourse - II
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 11 - Creative and Cultural Industries: Understanding Definition; Significance and Scope
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 12 - Building Crafts: Definitions; Perspectives and Frameworks
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 13 - Building Crafts: Craft and Technology and its Role in Creating/Enhancing Interior-Architecture
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 14 - Building Crafts; Craft and Technology and its Role in Creating/Enhancing Interior-Architecture
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 15 - Summary and Discourse - III
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 16 - Best Studies related to the Craft Sector
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 17 - Case Studies from Gujarat
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 18 - Case Studies from Rajasthan
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 19 - Case Studies from Uttarakhand
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 20 - Summary and Discourse - IV
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 21 - Craft and Technology in Interior Architecture: Decoding Systems
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 22 - Craft and Technology in Interior Architecture; Decoding Systems
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 23 - Craft and Technology in Interior Architecture: Transformation through Time
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 24 - Craft and Technology in Interior Architecture; Transformation through Time
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 25 - Summary and Discourse - V
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 26 - Overview of the Craft Sector Today
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 27 - Craft Sector: Issues and Challenges
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 28 - Craft Sector: Policies and Reforms
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 29 - Craft Sector: Gaps
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 30 - Summary and Discourse - VI
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 31 - Continuity and Revival: Research and Documentation Perspective
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 32 - Continuity and Revival: Education and Training Perspective
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 33 - Continuity and Revival: Innovation and Development Perspective
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 34 - Continuity and Revival: Resource Building and Dissemination Perspective
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 35 - Summary and Discourse - VII
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 36 - Interventions: Process Based
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 37 - Interventions: Product / Design Based
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 38 - Interventions: Technology Based
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 39 - Interventions: Marketing / Management Based
Link NOC:Role of Craft and Technology in Interior-Architecture Lecture 40 - Summary and Discourse - VIII
Link NOC:Urban Governance and Development Management Lecture 1 - Introduction to Urbanisation
Link NOC:Urban Governance and Development Management Lecture 2 - Introduction to Urban Governance
Link NOC:Urban Governance and Development Management Lecture 3 - Constitutional Provision for Urban Local Governance
Link NOC:Urban Governance and Development Management Lecture 4 - Legislative Provisions
Link NOC:Urban Governance and Development Management Lecture 5 - Interfaces
Link NOC:Urban Governance and Development Management Lecture 6 - People & Community - 1
Link NOC:Urban Governance and Development Management Lecture 7 - People & Community - 2
Link NOC:Urban Governance and Development Management Lecture 8 - Land as Basic Resource
Link NOC:Urban Governance and Development Management Lecture 9 - Urban Environment and Ecology
Link NOC:Urban Governance and Development Management Lecture 10 - Distinctive Features of Non-Municipal Urban (NMU) and Nagar Panchayats
Link NOC:Urban Governance and Development Management Lecture 11 - Organisation Development
Link NOC:Urban Governance and Development Management Lecture 12 - Transparency and Accountability
Link NOC:Urban Governance and Development Management Lecture 13 - Capacity Building - 1
Link NOC:Urban Governance and Development Management Lecture 14 - Capacity Building - 2
Link NOC:Urban Governance and Development Management Lecture 15 - Improving Systems and Processes for Urban Governance
Link NOC:Urban Governance and Development Management Lecture 16 - Urban Reform and Managing Change - 1
Link NOC:Urban Governance and Development Management Lecture 17 - Urban Reform and Managing Change - 2
Link NOC:Urban Governance and Development Management Lecture 18 - Visioning for Cities
Link NOC:Urban Governance and Development Management Lecture 19 - Resolving Conflicts for Managing Change
Link NOC:Urban Governance and Development Management Lecture 20 - Leadership and Team Building
Link NOC:Urban Governance and Development Management Lecture 21 - Basic Concepts of Planning and Development
Link NOC:Urban Governance and Development Management Lecture 22 - Regional and Metropolitan Planning
Link NOC:Urban Governance and Development Management Lecture 23 - Urban Planning
Link NOC:Urban Governance and Development Management Lecture 24 - Urban Infrastructure and Services - 1
Link NOC:Urban Governance and Development Management Lecture 25 - Urban Infrastructure and Services - 2
Link NOC:Urban Governance and Development Management Lecture 26 - Overview of Municipal Finance
Link NOC:Urban Governance and Development Management Lecture 27 - Alternate Sources of Municipal Finance
Link NOC:Urban Governance and Development Management Lecture 28 - Municipal Accounts
Link NOC:Urban Governance and Development Management Lecture 29 - Value Capture Financing
Link NOC:Urban Governance and Development Management Lecture 30 - Public Private Partnership (PPP) in Urban Governance
Link NOC:Urban Governance and Development Management Lecture 31 - Housing Strategy for Cities
Link NOC:Urban Governance and Development Management Lecture 32 - Housing & Urban Poverty
Link NOC:Urban Governance and Development Management Lecture 33 - Real Estate Regulation and Development
Link NOC:Urban Governance and Development Management Lecture 34 - Urban Land Management
Link NOC:Urban Governance and Development Management Lecture 35 - Urban Risk and Disaster Management
Link NOC:Urban Governance and Development Management Lecture 36 - Managing Urban Environment - 1
Link NOC:Urban Governance and Development Management Lecture 37 - Managing Urban Environment - 2 (Mandates for Blue and Green Infrastructures)
Link NOC:Urban Governance and Development Management Lecture 38 - Traffic and Transportation Management - 1
Link NOC:Urban Governance and Development Management Lecture 39 - Traffic and Transportation Management - 2
Link NOC:Urban Governance and Development Management Lecture 40 - Designing Urban Public Spaces
Link NOC:Urban Governance and Development Management Lecture 41 - Centrally Sponsored Programmes and Schemes
Link NOC:Urban Governance and Development Management Lecture 42 - AMRUT
Link NOC:Urban Governance and Development Management Lecture 43 - Smart City: Concept and Mission
Link NOC:Urban Governance and Development Management Lecture 44 - Swachh Bharat Mission and HRIDAY
Link NOC:Urban Governance and Development Management Lecture 45 - PMAY and NULM
Link NOC:Urban Governance and Development Management Lecture 46 - Fundamentals of Project Planning
Link NOC:Urban Governance and Development Management Lecture 47 - Formulation of Projects
Link NOC:Urban Governance and Development Management Lecture 48 - Project Monitoring and Management
Link NOC:Urban Governance and Development Management Lecture 49 - Essentials of Infrastructure and Engineering Design
Link NOC:Urban Governance and Development Management Lecture 50 - Managing Trans-municipal and Large Projects
Link NOC:Urban Governance and Development Management Lecture 51 - Enhancing City Image
Link NOC:Urban Governance and Development Management Lecture 52 - Essential Competencies of City Managers
Link NOC:Urban Governance and Development Management Lecture 53 - Problem Solving and Decision Making
Link NOC:Urban Governance and Development Management Lecture 54 - Effective Negotiation
Link NOC:Urban Governance and Development Management Lecture 55 - Communication Skills
Link NOC:Urban Governance and Development Management Lecture 56 - Time Management
Link NOC:Urban Governance and Development Management Lecture 57 - Stress Management
Link NOC:Urban Governance and Development Management Lecture 58 - Best Practices in Urban Management
Link NOC:Urban Governance and Development Management Lecture 59 - Reflective Learning and Excellence
Link NOC:Urban Governance and Development Management Lecture 60 - Course Summary, Doubt Clearing and Further Reading
Link NOC:User Interface Design Lecture 1 - Introduction
Link NOC:User Interface Design Lecture 2 - User Interface Designer
Link NOC:User Interface Design Lecture 3 - Design methods - I
Link NOC:User Interface Design Lecture 4 - Design Methods - II
Link NOC:User Interface Design Lecture 5 - Human Factor in Interaction Design
Link NOC:User Interface Design Lecture 6 - User Research - I
Link NOC:User Interface Design Lecture 7 - User Research - II
Link NOC:User Interface Design Lecture 8 - Low Fidelity Design - I
Link NOC:User Interface Design Lecture 9 - Low Fidelity Design - II
Link NOC:User Interface Design Lecture 10 - High Fidelity Design
Link NOC:User Interface Design Lecture 11 - Visual Cognition
Link NOC:User Interface Design Lecture 12 - Contemporary Visual Language in Design - I
Link NOC:User Interface Design Lecture 13 - Contemporary Visual Language in Design - II
Link NOC:User Interface Design Lecture 14 - Usage of Typography in User Interface Design - I
Link NOC:User Interface Design Lecture 15 - Usage of Typography in User Interface Design - II
Link NOC:User Interface Design Lecture 16 - Design Semiotics and Visual Perception
Link NOC:User Interface Design Lecture 17 - Visual Communication Design
Link NOC:User Interface Design Lecture 18 - User Testing - I
Link NOC:User Interface Design Lecture 19 - User Testing - II
Link NOC:User Interface Design Lecture 20 - Contemporary Interface Design Technology
Link NOC:Disaster Recovery and Build Back Better Lecture 1 - Disaster risk: Hazards X Exposure X Vulnerability
Link NOC:Disaster Recovery and Build Back Better Lecture 2 - Disaster Recovery and Build Back Better: Risk Perception and Disaster Risk Preparedness - Part 1
Link NOC:Disaster Recovery and Build Back Better Lecture 3 - Risk Perception and Disaster Risk Preparedness - Part 2
Link NOC:Disaster Recovery and Build Back Better Lecture 4 - Build Back Better - People's Perspectives
Link NOC:Disaster Recovery and Build Back Better Lecture 5 - Architecture at Risk
Link NOC:Disaster Recovery and Build Back Better Lecture 6 - Culture, climate change adaptation and disaster risk reduction
Link NOC:Disaster Recovery and Build Back Better Lecture 7 - Ayutthaya at Risk
Link NOC:Disaster Recovery and Build Back Better Lecture 8 - Disaster vulnerability
Link NOC:Disaster Recovery and Build Back Better Lecture 9 - Cultural Heritage: Reassembled
Link NOC:Disaster Recovery and Build Back Better Lecture 10 - Rock shelters at risk
Link NOC:Disaster Recovery and Build Back Better Lecture 11 - The Built Environment Professions in Disaster Risk Reduction and Response
Link NOC:Disaster Recovery and Build Back Better Lecture 12 - Gadri discussions: social dimension of risk, health and DRM
Link NOC:Disaster Recovery and Build Back Better Lecture 13 - Community Participation in Disaster Risk Governance : Voices from Mumbai and Ghana
Link NOC:Disaster Recovery and Build Back Better Lecture 14 - Community Participation in Disaster Risk Governance : Insights From Mumbai
Link NOC:Disaster Recovery and Build Back Better Lecture 15 - Frameworks
Link NOC:Disaster Recovery and Build Back Better Lecture 16 - Disaster Preparedness from Cognitive and Heuristic Perspectives
Link NOC:Disaster Recovery and Build Back Better Lecture 17 - Information for Disaster Preparedness
Link NOC:Disaster Recovery and Build Back Better Lecture 18 - The Role of Social Networks in Disaster Preparedness
Link NOC:Disaster Recovery and Build Back Better Lecture 19 - Diffusion of Disaster Preparedness Technology : What Pioneers Contribute ?
Link NOC:Disaster Recovery and Build Back Better Lecture 20 - Cities and Climate Change: Adaptation and Mitigation
Link NOC:Disaster Recovery and Build Back Better Lecture 21 - Temporary Shelter Construction in India
Link NOC:Disaster Recovery and Build Back Better Lecture 22 - Temporary shelter construction in Kenya
Link NOC:Disaster Recovery and Build Back Better Lecture 23 - Build back better in Nepal recovery
Link NOC:Disaster Recovery and Build Back Better Lecture 24 - Lessons from Peru
Link NOC:Disaster Recovery and Build Back Better Lecture 25 - Progressive Housing in El Salvador
Link NOC:Disaster Recovery and Build Back Better Lecture 26 - Decentralizing (re)construction in Colombia
Link NOC:Disaster Recovery and Build Back Better Lecture 27 - Tsunami reconstruction in Tamilnadu - Part 1 (Approach)
Link NOC:Disaster Recovery and Build Back Better Lecture 28 - Tsunami reconstruction in Tamilnadu - Part 2 (Findings)
Link NOC:Disaster Recovery and Build Back Better Lecture 29 - Culture and (disaster)risk
Link NOC:Disaster Recovery and Build Back Better Lecture 30 - Cultural theory of risk
Link NOC:Disaster Recovery and Build Back Better Lecture 31 - Guidance to DRR
Link NOC:Disaster Recovery and Build Back Better Lecture 32 - Self-help housing in Turkey
Link NOC:Disaster Recovery and Build Back Better Lecture 33 - The Production of refugee place in time: Case of Tibetan refugees
Link NOC:Disaster Recovery and Build Back Better Lecture 34 - Assessments
Link NOC:Disaster Recovery and Build Back Better Lecture 35 - Designing culturally responsive built environment in disaster context
Link NOC:Disaster Recovery and Build Back Better Lecture 36 - Disaster Risk Communication
Link NOC:Disaster Recovery and Build Back Better Lecture 37 - CAM and CBDRM
Link NOC:Disaster Recovery and Build Back Better Lecture 38 - How to teach disaster recovery and built back better in-built environment education
Link NOC:Disaster Recovery and Build Back Better Lecture 39 - Source, Message and Receiver in Disaster Risk Communication
Link NOC:Disaster Recovery and Build Back Better Lecture 40 - Summary and Conclusion
Link NOC:Thermal Processing of Foods Lecture 1 - Food Microbiology: Microbial Growth and Concerns in Various Foods
Link NOC:Thermal Processing of Foods Lecture 2 - Blanching, Pasteurization, Ultra-pasteurization, Hot fill and UHT
Link NOC:Thermal Processing of Foods Lecture 3 - Thermal processing equipment
Link NOC:Thermal Processing of Foods Lecture 4 - Milk pasteurization
Link NOC:Thermal Processing of Foods Lecture 5 - Canning operations
Link NOC:Thermal Processing of Foods Lecture 6 - Temperature distribution and heat penetration
Link NOC:Thermal Processing of Foods Lecture 7 - Kinetics of reactions
Link NOC:Thermal Processing of Foods Lecture 8 - F value and process requirements
Link NOC:Thermal Processing of Foods Lecture 9 - Quality considerations and process optimization
Link NOC:Thermal Processing of Foods Lecture 10 - Shelf life studies
Link NOC:Thermal Processing of Foods Lecture 11 - Validation of heat processes
Link NOC:Thermal Processing of Foods Lecture 12 - Fundamentals of aseptic processing
Link NOC:Thermal Processing of Foods Lecture 13 - Aseptic equipment design
Link NOC:Thermal Processing of Foods Lecture 14 - Aseptic process design
Link NOC:Thermal Processing of Foods Lecture 15 - Microwave and radio frequency heating
Link NOC:Thermal Processing of Foods Lecture 16 - Ohmic heating
Link NOC:Thermal Processing of Foods Lecture 17 - Overview of non-thermal processing technologies
Link NOC:Thermal Processing of Foods Lecture 18 - Advanced separation processes
Link NOC:Thermal Processing of Foods Lecture 19 - High pressure dialysis, ultrafiltration and reverse osmosis
Link NOC:Thermal Processing of Foods Lecture 20 - Nanofiltration, electrodialysis and membrane separation
Link NOC:Thermal Processing of Foods Lecture 21 - Various types of heat exchangers for food process engineering
Link NOC:Thermal Processing of Foods Lecture 22 - Various types of driers for food process engineering
Link NOC:Thermal Processing of Foods Lecture 23 - Importance and applications of extrusion technology in food processing
Link NOC:Thermal Processing of Foods Lecture 24 - Changes of properties and functional components of extruded foods
Link NOC:Thermal Processing of Foods Lecture 25 - Food biosensors
Link NOC:Thermal Processing of Foods Lecture 26 - Types of functional foods: Probiotics and nutraceuticals
Link NOC:Thermal Processing of Foods Lecture 27 - Packaging considerations: Barrier and mechanical properties of food packaging materials
Link NOC:Thermal Processing of Foods Lecture 28 - Biocomposite/bionanocomposite materials for food packaging applications
Link NOC:Thermal Processing of Foods Lecture 29 - Sanitary components and requirements
Link NOC:Thermal Processing of Foods Lecture 30 - Regulatory considerations
Link NOC:Thermal Processing of Foods Lecture 31 - Special Lecture: Membrane Seperation
Link NOC:Basic Crop Production Practices (BCPP) Lecture 1 - Introduction
Link NOC:Basic Crop Production Practices (BCPP) Lecture 2 - Irrigation and irrigation needs
Link NOC:Basic Crop Production Practices (BCPP) Lecture 3 - Source of Irrigation
Link NOC:Basic Crop Production Practices (BCPP) Lecture 4 - Importance of crops and classification
Link NOC:Basic Crop Production Practices (BCPP) Lecture 5 - Crop rotation principle
Link NOC:Basic Crop Production Practices (BCPP) Lecture 6 - Importance of vegetable and classification
Link NOC:Basic Crop Production Practices (BCPP) Lecture 7 - Paddy crop production
Link NOC:Basic Crop Production Practices (BCPP) Lecture 8 - Sorghum crop production
Link NOC:Basic Crop Production Practices (BCPP) Lecture 9 - Pearl millet crop production
Link NOC:Basic Crop Production Practices (BCPP) Lecture 10 - Maize crop production
Link NOC:Basic Crop Production Practices (BCPP) Lecture 11 - Pigeon pea crop production
Link NOC:Basic Crop Production Practices (BCPP) Lecture 12 - Green gram crop production
Link NOC:Basic Crop Production Practices (BCPP) Lecture 13 - Black gram crop production
Link NOC:Basic Crop Production Practices (BCPP) Lecture 14 - Cowpea crop production
Link NOC:Basic Crop Production Practices (BCPP) Lecture 15 - Groundnut crop production
Link NOC:Basic Crop Production Practices (BCPP) Lecture 16 - Sesame crop production
Link NOC:Basic Crop Production Practices (BCPP) Lecture 17 - Soybean crop production
Link NOC:Basic Crop Production Practices (BCPP) Lecture 18 - Sunflower crop production
Link NOC:Basic Crop Production Practices (BCPP) Lecture 19 - Mango crop production
Link NOC:Basic Crop Production Practices (BCPP) Lecture 20 - Guava crop production
Link NOC:Basic Crop Production Practices (BCPP) Lecture 21 - Banana crop production
Link NOC:Basic Crop Production Practices (BCPP) Lecture 22 - Papaya crop production
Link NOC:Basic Crop Production Practices (BCPP) Lecture 23 - Tomato crop production
Link NOC:Basic Crop Production Practices (BCPP) Lecture 24 - Brinjal crop production
Link NOC:Basic Crop Production Practices (BCPP) Lecture 25 - Chili crop production
Link NOC:Basic Crop Production Practices (BCPP) Lecture 26 - Okra crop production
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 1 - Introduction
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 2 - Our Agriculture Practices and Lessons
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 3 - Climate and Scale of Change
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 4 - Course Corrections
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 5 - Modified Agriculture - Precision Agriculture
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 6 - Modififed Agriculture Practice - Climate Smart Agriculture
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 7 - Maps and Information in Practice
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 8 - Geographical Information System (GIS)
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 9 - Types of input
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 10 - Analysis - Map overlay
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 11 - Buffering and Perspective View
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 12 - GIS Type and Available GIS Softwares
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 13 - Village Cadastral Map and Property Card
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 14 - Cadastral Maps and Contents
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 15 - Creation of Cadastral Information Base
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 16 - Land Information System
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 17 - Creation of Village Boundary Based Basin Analysis
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 18 - Village Information System
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 19 - Needs and Weather Forecast
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 20 - Cloud Types and Rain Bearing Clouds
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 21 - Weather Satellites and Cloud Pattern Reading
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 22 - Rainfall and Supplementary Irrigation
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 23 - Synergistic Use
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 24 - Surface Rainfall - Run off Assessment and Model
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 25 - Soil and Water Assessment Tools (SWAT) Model
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 26 - Groundwater Availability
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 27 - Groundwater Potential Mapping
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 28 - Water Storage and Water Availability and Release
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 29 - Growth of Crop Area in Command Area and Impact Climate Change
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 30 - Impact of Climate on Agriculture
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 31 - Crop Water Requirement and Distribution Loss
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 32 - Village Agriculture and Other Water Demand and Supply Source
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 33 - Water Security Assessment
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 34 - Land Degradation: Soil Salinity
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 35 - Water Logging
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 36 - Water Balance Under Different Rainfall
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 37 - Drought and Characteristics
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 38 - Drought Vulnerability and Risk Assessment
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 39 - Monitoring and Warning
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 40 - Drought Monitoring: a global perspective
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 41 - Drought Risk and Vulnerability Assessment: a global perspective
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 42 - GIS in Sustainable Agriculture
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 43 - Assessment of Existing Water Storage Structures and Rehabilitation
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 44 - Sustainable Development and Agriculture: a confluence of pressures
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 45 - Climate Change and Drought: a global perspective
Link NOC:GIS in Ag-Essentials and Applications (GIS) Lecture 46 - GIS and Drought Management: a global perspective
Link NOC:Integrated Pest Management (IPM) Lecture 1 - Introduction
Link NOC:Integrated Pest Management (IPM) Lecture 2 - Insect, abundance and diversity
Link NOC:Integrated Pest Management (IPM) Lecture 3 - Insect classification based on economic importance
Link NOC:Integrated Pest Management (IPM) Lecture 4 - Pest, causes for outbreaks and categories
Link NOC:Integrated Pest Management (IPM) Lecture 5 - Pest, causes for outbreaks and categories (Continued...)
Link NOC:Integrated Pest Management (IPM) Lecture 6 - Pest surveillance and methods of sampling
Link NOC:Integrated Pest Management (IPM) Lecture 7 - Principles of Pest Management and History
Link NOC:Integrated Pest Management (IPM) Lecture 8 - IPM, Definition and Concepts
Link NOC:Integrated Pest Management (IPM) Lecture 9 - Ecological Methods of Pest Management - Legal and Cultural
Link NOC:Integrated Pest Management (IPM) Lecture 10 - Ecological Methods of Pest Management - Cultural (Continued...)
Link NOC:Integrated Pest Management (IPM) Lecture 11 - Ecological Methods of Pest Management - Cultural (Continued...)
Link NOC:Integrated Pest Management (IPM) Lecture 12 - Ecological Methods of Pest Management - Physical
Link NOC:Integrated Pest Management (IPM) Lecture 13 - Ecological Methods of Pest Management - Mechanical
Link NOC:Integrated Pest Management (IPM) Lecture 14 - Host Plant Resistance
Link NOC:Integrated Pest Management (IPM) Lecture 15 - Host Plant Resistance (Continued...)
Link NOC:Integrated Pest Management (IPM) Lecture 16 - Biological Control - Predators
Link NOC:Integrated Pest Management (IPM) Lecture 17 - Biological Control - Parasitoids
Link NOC:Integrated Pest Management (IPM) Lecture 18 - Biological Control - Microbes: Fungi, Bacteria and Viruses
Link NOC:Integrated Pest Management (IPM) Lecture 19 - Biological Control - Microbes: Entomopathogenic Nematodes
Link NOC:Integrated Pest Management (IPM) Lecture 20 - Pest management by modifying insect behaviour
Link NOC:Integrated Pest Management (IPM) Lecture 21 - Use of sex pheromones in pest management
Link NOC:Integrated Pest Management (IPM) Lecture 22 - Use of attractants and repellants in pest management
Link NOC:Integrated Pest Management (IPM) Lecture 23 - Pest management through radiation technology - Principles
Link NOC:Integrated Pest Management (IPM) Lecture 24 - Sterile Insect Technique - case studies
Link NOC:Integrated Pest Management (IPM) Lecture 25 - Pest management through botanicals
Link NOC:Integrated Pest Management (IPM) Lecture 26 - Pest management through botanicals (Continued...)
Link NOC:Integrated Pest Management (IPM) Lecture 27 - Chemical Control - History and classification
Link NOC:Integrated Pest Management (IPM) Lecture 28 - Mode of Action of different insecticide groups
Link NOC:Integrated Pest Management (IPM) Lecture 29 - Chemical Control - Considerations for Chemicals Integration
Link NOC:Integrated Pest Management (IPM) Lecture 30 - Insecticide Resistance and Management
Link NOC:Integrated Pest Management (IPM) Lecture 31 - Insecticide as component of IPM
Link NOC:Integrated Pest Management (IPM) Lecture 32 - Biotechnological Approaches in IPM
Link NOC:Integrated Pest Management (IPM) Lecture 33 - Agro-ecosystem Analysis
Link NOC:Integrated Pest Management (IPM) Lecture 34 - IPM in Paddy
Link NOC:Integrated Pest Management (IPM) Lecture 35 - IPM in Paddy (Continued...)
Link NOC:Integrated Pest Management (IPM) Lecture 36 - IPM in Pigeon pea
Link NOC:Integrated Pest Management (IPM) Lecture 37 - IPM in Pigeon pea (Continued...)
Link NOC:Integrated Pest Management (IPM) Lecture 38 - IPM in Groundnut
Link NOC:Integrated Pest Management (IPM) Lecture 39 - IPM in Mustard and Soyabean
Link NOC:Integrated Pest Management (IPM) Lecture 40 - IPM in Cotton
Link NOC:Integrated Pest Management (IPM) Lecture 41 - IPM in Cotton (Continued...)
Link NOC:Integrated Pest Management (IPM) Lecture 42 - IPM in Sugarcane
Link NOC:Integrated Pest Management (IPM) Lecture 43 - IPM in Sugarcane (Continued...)
Link NOC:Integrated Pest Management (IPM) Lecture 44 - IPM in Tomato
Link NOC:Integrated Pest Management (IPM) Lecture 45 - IPM in Cabbage
Link NOC:Integrated Pest Management (IPM) Lecture 46 - IPM in Mango
Link NOC:Integrated Pest Management (IPM) Lecture 47 - IPM in Grapes
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 1 - Introduction
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 2 - Relationship between Food, Nutrition and Health 1
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 3 - Relationship between Food, Nutrition and Health 2
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 4 - Digestion, absorption and utilization of Nutrients 1
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 5 - Digestion, absorption and utilization of Nutrients 2
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 6 - Recommended dietary allowances
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 7 - Carbohydrate
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 8 - Fiber
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 9 - Protein
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 10 - Protein - health significance
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 11 - Fat
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 12 - Energy 1
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 13 - Energy 2
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 14 - Energy 3
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 15 - Fat Soluble Vitamins 1
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 16 - Fat Soluble Vitamins 2
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 17 - Fat Soluble Vitamins 3
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 18 - Water Soluble Vitamins 1
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 19 - Water Soluble Vitamins 2
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 20 - Water soluble Vitamins 3
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 21 - Water soluble Vitamins 4
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 22 - Major minerals 1
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 23 - Major minerals 2
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 24 - Trace minerals 1
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 25 - Trace minerals 2
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 26 - Water
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 27 - Nutritional Disorders
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 28 - Balanced diet and food groups
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 29 - Food guide for selecting adequate diet, practical aspects of food selection
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 30 - Meal planning
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 31 - Other aspects affecting food selection
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 32 - Food sanitation and hygiene
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 33 - Water Purification
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 34 - Therapeutic adaptation of normal diet
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 35 - Principles of therapeutic diet
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 36 - Diet during fevers
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 37 - Diet in lung disease
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 38 - Diet in GI disorders – constipation
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 39 - Diet during diarrhoea
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 40 - Diet in disorders of liver
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 41 - Diseases of gall bladder
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 42 - Diet in Diabetes
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 43 - Diseases of Heart and blood vessels
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 44 - Diet for myocardial infarction
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 45 - Diet in kidney disorders
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 46 - Diet in renal failure
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 47 - Diet in cancer
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 48 - Diet in metabolic disorders
Link NOC:Nutrition, Therapeutics and Health (NM) Lecture 49 - Diet in stress, burns and surgery
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 1 - Introduction
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 2 - Basic aspects of Atmosphere, Climate, Weather
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 3 - Basic aspects of Rainfall and their application in crop production
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 4 - Basic aspects of Temperature and their application in crop production
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 5 - Basic aspects of Relative humidity, Cloud cover and their application in crop production
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 6 - Basic aspects of wind, wind direction and their application in crop production
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 7 - Three weather codes and crop production
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 8 - Crop production risks and their management
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 9 - Weather sensitive crops, stages and farm operations
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 10 - Crop-weather interactions and definition
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 11 - Crop-Weather Interactions: Wheat, Rice and Maize
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 12 - Crop-Weather Interactions: Sorghum, Groundnut and Pigeon pea
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 13 - Crop-Weather Interactions: Cotton and Sugarcane
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 14 - Crop-Weather Interactions: Sugarbeet and Chickpea
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 15 - Crop-Weather Interactions: Sunflower and Mustard
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 16 - Genesis of weather forecast in India and Abroad
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 17 - Types of weather forecast and details
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 18 - Types of weather forecast and details (Continued...)
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 19 - Simple methods of verification of weather forecast with real event
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 20 - Traditional knowledges on weather forecast and their validity
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 21 - Weather thumb rules and their validity
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 22 - Development and component of agro advisory for weather forecast
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 23 - Development and component of agro advisory for weather forecast (Continued...)
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 24 - Model agro advisories for selected five days weather forecast
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 25 - Mass communication mode of agro advisories and their effectiveness
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 26 - Discussion on weather forecast and agro advisory from different website
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 27 - Role of climate manager on farm management decision based on weather forecast at village level and assignment
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 28 - Development of selected weather window for issuing agro advisory - case study from Tamil Nadu
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 29 - Model of agro advisory for 54 selected weather window of Tamil Nadu for rice
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 30 - Response farming- a type of farm planning being practiced in Australia considering seasonal climate forecast
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 31 - Case study in India on the adoption of weather based crop production - Crop management
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 32 - Case study in India on the adoption of weather based crop production - Pest and disease management
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 33 - Case study in India on the adoption of weather based animal production
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 34 - Cost benefit analysis for the case study done on crop management
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 35 - Cost benefit analysis for the case study done on animal management
Link NOC:Weather Forecast in Agriculture and Agro-advisory (WF) Lecture 36 - Summary
Link NOC:ICT Basics Lecture 1 - Introduction
Link NOC:ICT Basics Lecture 2 - Highlights Week 0 and 1
Link NOC:ICT Basics Lecture 3 - What is ICT?
Link NOC:ICT Basics Lecture 4 - Architecture of a Computer
Link NOC:ICT Basics Lecture 5 - Architecture of a Phone
Link NOC:ICT Basics Lecture 6 - What is the Internet?
Link NOC:ICT Basics Lecture 7 - What is WWW?
Link NOC:ICT Basics Lecture 8 - Highlights Week 2
Link NOC:ICT Basics Lecture 9 - Phones, Smart Phones, Phablets, Tablets
Link NOC:ICT Basics Lecture 10 - Introduction to Android
Link NOC:ICT Basics Lecture 11 - Network Architectures - Part-1 (Introduction to Computer Networks)
Link NOC:ICT Basics Lecture 12 - Network Architectures - Part-2 (Overview of Network Architecture)
Link NOC:ICT Basics Lecture 13 - Network Architectures - Part-3 (Architecture of Internet)
Link NOC:ICT Basics Lecture 14 - Mobile Wireless Communications - Introduction (Module-1)
Link NOC:ICT Basics Lecture 15 - Mobile Wireless Communication (Module-2)
Link NOC:ICT Basics Lecture 16 - Highlights Week 3
Link NOC:ICT Basics Lecture 17 - Adaptive and Responsive Websites
Link NOC:ICT Basics Lecture 18 - Data management
Link NOC:ICT Basics Lecture 19 - Knowledge Representation
Link NOC:ICT Basics Lecture 20 - Knowledge Representation Techniques
Link NOC:ICT Basics Lecture 21 - Expert Systems
Link NOC:ICT Basics Lecture 22 - Highlights Week - 4
Link NOC:ICT Basics Lecture 23 - Speech Recognition
Link NOC:ICT Basics Lecture 24 - Speech Synthesis
Link NOC:ICT Basics Lecture 25 - Identity Management - Part 1
Link NOC:ICT Basics Lecture 26 - Identity Management - Part 2
Link NOC:ICT Basics Lecture 27 - Location Recognition - Part 1
Link NOC:ICT Basics Lecture 28 - Location Recognition - Part 2
Link NOC:ICT Basics Lecture 29 - Parameter Sensing
Link NOC:ICT Basics Lecture 30 - Highlights Week-5
Link NOC:ICT Basics Lecture 31 - Social Networking - Part 1
Link NOC:ICT Basics Lecture 32 - Social Networking - Part 2
Link NOC:ICT Basics Lecture 33 - Blogs
Link NOC:ICT Basics Lecture 34 - Facebook
Link NOC:ICT Basics Lecture 35 - Twitter
Link NOC:ICT Basics Lecture 36 - 3G WCDMA (Module- 3)
Link NOC:ICT Basics Lecture 37 - 4G Mobile Wireless WiMAX (Module-4)
Link NOC:ICT Basics Lecture 38 - Advanced Wireless Technologies (Module-5)
Link NOC:ICT Basics Lecture 39 - LTE, WLAN, Bluetooth and Future
Link NOC:ICT Basics Lecture 40 - Highlights Week-6
Link NOC:ICT Basics Lecture 41 - Introduction to Cloud Computing
Link NOC:ICT Basics Lecture 42 - Introduction to Cloud Services
Link NOC:ICT Basics Lecture 43 - Cloud Service Providers
Link NOC:ICT Basics Lecture 44 - GIS Application in Agriculture - Part 1
Link NOC:ICT Basics Lecture 45 - GIS Application in Agriculture - Part 2
Link NOC:Momentum Transfer in Process Engineering Lecture 1
Link NOC:Momentum Transfer in Process Engineering Lecture 2
Link NOC:Momentum Transfer in Process Engineering Lecture 3
Link NOC:Momentum Transfer in Process Engineering Lecture 4
Link NOC:Momentum Transfer in Process Engineering Lecture 5
Link NOC:Momentum Transfer in Process Engineering Lecture 6
Link NOC:Momentum Transfer in Process Engineering Lecture 7
Link NOC:Momentum Transfer in Process Engineering Lecture 8
Link NOC:Momentum Transfer in Process Engineering Lecture 9
Link NOC:Momentum Transfer in Process Engineering Lecture 10
Link NOC:Momentum Transfer in Process Engineering Lecture 11 - Application of Navier Stoke’s equation for finding out viscosity - Part 2
Link NOC:Momentum Transfer in Process Engineering Lecture 12 - Application of Navier Stoke’s equation for finding out viscosity - Part 3
Link NOC:Momentum Transfer in Process Engineering Lecture 13 - Flow through pipes
Link NOC:Momentum Transfer in Process Engineering Lecture 14 - Hagen-poiseuille equation from Navier stokes equation
Link NOC:Momentum Transfer in Process Engineering Lecture 15 - Fanning friction factor
Link NOC:Momentum Transfer in Process Engineering Lecture 16 - Moody’s chart
Link NOC:Momentum Transfer in Process Engineering Lecture 17 - Laminar and turbulent flow in a pipe
Link NOC:Momentum Transfer in Process Engineering Lecture 18 - Flow through flat and parallel plates
Link NOC:Momentum Transfer in Process Engineering Lecture 19 - Flow of film or film flow
Link NOC:Momentum Transfer in Process Engineering Lecture 20 - Problems and solution of falling film
Link NOC:Momentum Transfer in Process Engineering Lecture 21 - Flow through annulus - Part 1
Link NOC:Momentum Transfer in Process Engineering Lecture 22 - Flow through annulus - Part 2
Link NOC:Momentum Transfer in Process Engineering Lecture 23 - Stoke’s law
Link NOC:Momentum Transfer in Process Engineering Lecture 24 - Flow through flat plates or slits
Link NOC:Momentum Transfer in Process Engineering Lecture 25 - Problems and solution for flow through flat plates or slits
Link NOC:Momentum Transfer in Process Engineering Lecture 26 - Compressible fluid flow
Link NOC:Momentum Transfer in Process Engineering Lecture 27 - Flow through nozzle - I
Link NOC:Momentum Transfer in Process Engineering Lecture 28 - Flow through nozzle - II
Link NOC:Momentum Transfer in Process Engineering Lecture 29 - Flow through nozzle - problems and solutions
Link NOC:Momentum Transfer in Process Engineering Lecture 30 - Nozzle flow- problems and solutions
Link NOC:Momentum Transfer in Process Engineering Lecture 31 - Sonic velocity
Link NOC:Momentum Transfer in Process Engineering Lecture 32 - Sonic velocity - Mach number
Link NOC:Momentum Transfer in Process Engineering Lecture 33 - Variable fluid flow
Link NOC:Momentum Transfer in Process Engineering Lecture 34 - Variable fluid flow - problems and solutions
Link NOC:Momentum Transfer in Process Engineering Lecture 35 - Variable fluid flow - problems and solutions (Continued...)
Link NOC:Momentum Transfer in Process Engineering Lecture 36 - Pneumatic conveying
Link NOC:Momentum Transfer in Process Engineering Lecture 37 - Problem on Pneumatic conveying - Part 1
Link NOC:Momentum Transfer in Process Engineering Lecture 38 - Problem on Pneumatic conveying - Part 2
Link NOC:Momentum Transfer in Process Engineering Lecture 39 - Non Newtonian fluid flow - Part 1
Link NOC:Momentum Transfer in Process Engineering Lecture 40 - Non Newtonian fluid flow - Part 2
Link NOC:Momentum Transfer in Process Engineering Lecture 41 - Velocity profile for Non Newtonian fluid
Link NOC:Momentum Transfer in Process Engineering Lecture 42 - Average velocity for Non Newtonian fluid
Link NOC:Momentum Transfer in Process Engineering Lecture 43 - Problems and solution of Non Newtonian fluid - Part 1
Link NOC:Momentum Transfer in Process Engineering Lecture 44 - Problems and solution of Non Newtonian fluid - Part 2
Link NOC:Momentum Transfer in Process Engineering Lecture 45 - Flow of Non Newtonian fluid through slit
Link NOC:Momentum Transfer in Process Engineering Lecture 46 - Generalized coefficient of Reynolds number
Link NOC:Momentum Transfer in Process Engineering Lecture 47 - Flow through packed beds
Link NOC:Momentum Transfer in Process Engineering Lecture 48 - Ergun’s equation- derivation - Part 1
Link NOC:Momentum Transfer in Process Engineering Lecture 49 - Ergun’s equation- derivation - Part 2
Link NOC:Momentum Transfer in Process Engineering Lecture 50 - Solving problems on Ergun’s equation
Link NOC:Momentum Transfer in Process Engineering Lecture 51 - Solving problems on Ergun’s equation
Link NOC:Momentum Transfer in Process Engineering Lecture 52 - Fluidization
Link NOC:Momentum Transfer in Process Engineering Lecture 53 - Fluidized bed flow
Link NOC:Momentum Transfer in Process Engineering Lecture 54 - Problem of Fluidized bed condition - Part 1
Link NOC:Momentum Transfer in Process Engineering Lecture 55 - Problem of Fluidized bed condition - Part 2
Link NOC:Momentum Transfer in Process Engineering Lecture 56 - Problem and solution
Link NOC:Momentum Transfer in Process Engineering Lecture 57 - Problem and solution
Link NOC:Momentum Transfer in Process Engineering Lecture 58 - Problem and solution
Link NOC:Momentum Transfer in Process Engineering Lecture 59 - Problem and solution
Link NOC:Momentum Transfer in Process Engineering Lecture 60 - Problem and solution with comprehension of course
Link NOC:Farm Machinery Lecture 1 - Importance of Farm Machines in the Contest of Enhance Production, Multiple Cropping, Labour Scarcity etc.
Link NOC:Farm Machinery Lecture 2 - Ploughing and first opening of the soil, the design and component details
Link NOC:Farm Machinery Lecture 3 - Tractor, implement and soil force consideration for tillage implement design
Link NOC:Farm Machinery Lecture 4 - Tractor, implement and soil force consideration for tillage implement design
Link NOC:Farm Machinery Lecture 5 - Mechanics of rotavoator or rotary tillers
Link NOC:Farm Machinery Lecture 6 - Design of a tractor PTO operated rotavator
Link NOC:Farm Machinery Lecture 7 - Tractor implement hitching systems
Link NOC:Farm Machinery Lecture 8 - Mechanics of tractor implement hitch system and traction prediction models
Link NOC:Farm Machinery Lecture 9 - Laboratory class on traction and tire testing
Link NOC:Farm Machinery Lecture 10 - Combination tillage implements for efficient land preparation
Link NOC:Farm Machinery Lecture 11 - LASER guided land laveller
Link NOC:Farm Machinery Lecture 12 - Introduction of seeding operation
Link NOC:Farm Machinery Lecture 13 - Types of seed metering devices and their operation
Link NOC:Farm Machinery Lecture 14 - Types of fertilizer metering, furrow opening and soil covering devices
Link NOC:Farm Machinery Lecture 15 - Equipment for seeding and planting
Link NOC:Farm Machinery Lecture 16 - Equipment for precision planting
Link NOC:Farm Machinery Lecture 17 - Equipment for Paddy Transplanting
Link NOC:Farm Machinery Lecture 18 - Microcontroller based uniform seed rate application system
Link NOC:Farm Machinery Lecture 19 - GPS based automatic Variable rate fertilizer applicator
Link NOC:Farm Machinery Lecture 20 - Embedded GPS integrated Variable Rate Fertilizer Applicator
Link NOC:Farm Machinery Lecture 21 - Design of a seeding equipment - PART 1
Link NOC:Farm Machinery Lecture 22 - Design of a seeding equipment - PART 2
Link NOC:Farm Machinery Lecture 23 - Design of a seeding equipment - PART 3
Link NOC:Farm Machinery Lecture 24 - Design a tractor drawn seed drill for a 40 hp tractor - I
Link NOC:Farm Machinery Lecture 25 - Design a tractor drawn seed drill for a 40 hp tractor - II
Link NOC:Farm Machinery Lecture 26 - Testing of tractor operated seeding equipment
Link NOC:Farm Machinery Lecture 27
Link NOC:Farm Machinery Lecture 28
Link NOC:Farm Machinery Lecture 29
Link NOC:Farm Machinery Lecture 30
Link NOC:Farm Machinery Lecture 31
Link NOC:Farm Machinery Lecture 32 - Farm machines for interculture operation
Link NOC:Farm Machinery Lecture 33 - Performance of weeding blades of a push-pull weeder
Link NOC:Farm Machinery Lecture 34 - Advanced level machinery for inter and intra row weeding
Link NOC:Farm Machinery Lecture 35 - Tractor mounted contact type microcontroller based improved variable rate herbicide applicator
Link NOC:Farm Machinery Lecture 36 - Design of manually operated weeding equipment
Link NOC:Farm Machinery Lecture 37 - Plant protection equipment/machinery
Link NOC:Farm Machinery Lecture 38 - Selection and design of plant protection equipment/machinery
Link NOC:Farm Machinery Lecture 39 - Manually operated knapsack-cum-boom sprayer
Link NOC:Farm Machinery Lecture 40 - Performance evaluation of sprayer
Link NOC:Farm Machinery Lecture 41 - Testing and certification of spraying equipment
Link NOC:Farm Machinery Lecture 42 - Problems based on the design and selection of spraying equipment - I
Link NOC:Farm Machinery Lecture 43 - Problems based on the design and selection of spraying equipment - II
Link NOC:Farm Machinery Lecture 44 - Advanced level spraying equipment: Ultrasonic sensor based sprayer
Link NOC:Farm Machinery Lecture 45 - Advanced level spraying equipment: Drone assisted variable rate chemical application system and electrostatic sprayer
Link NOC:Farm Machinery Lecture 46 - Harvesting equipment
Link NOC:Farm Machinery Lecture 47 - Machines for harvesting cereal crops, root and fruit crops
Link NOC:Farm Machinery Lecture 48 - Combine Harvester
Link NOC:Farm Machinery Lecture 49 - Advanced technology approach for cotton harvesting
Link NOC:Farm Machinery Lecture 50 - hreshing operation and equipment
Link NOC:Farm Machinery Lecture 51 - Design of threshing equipment
Link NOC:Farm Machinery Lecture 52 - Performance evaluation and testing of thresher
Link NOC:Farm Machinery Lecture 53 - Conservation Agriculture
Link NOC:Farm Machinery Lecture 54 - Materials for construction of farm machinery
Link NOC:Farm Machinery Lecture 55 - Machinery for Land Drainage, Land Reclamation and Estate Maintenance Part - I
Link NOC:Farm Machinery Lecture 56 - Machinery for Land Drainage, Land Reclamation and Estate Maintenance Part - II
Link NOC:Farm Machinery Lecture 57 - Machinery for Land Drainage, Land Reclamation and Estate Maintenance Part - III
Link NOC:Farm Machinery Lecture 58 - Machinery Selection and Management - Part 1
Link NOC:Farm Machinery Lecture 59 - Machinery Selection and Management - Part 2
Link NOC:Farm Machinery Lecture 60 - Epilogue
Link NOC:Irrigation and Drainage Lecture 1 - Introduction
Link NOC:Irrigation and Drainage Lecture 2 - Soil Properties - I
Link NOC:Irrigation and Drainage Lecture 3 - Soil Properties - II
Link NOC:Irrigation and Drainage Lecture 4 - Soil Water
Link NOC:Irrigation and Drainage Lecture 5 - Tutorial - I
Link NOC:Irrigation and Drainage Lecture 6 - Field water balance
Link NOC:Irrigation and Drainage Lecture 7 - Evapotranspiration
Link NOC:Irrigation and Drainage Lecture 8 - Crop water requirement
Link NOC:Irrigation and Drainage Lecture 9 - Irrigation Scheduling
Link NOC:Irrigation and Drainage Lecture 10 - Tutorial
Link NOC:Irrigation and Drainage Lecture 11 - Irrigation Water Conveyance System
Link NOC:Irrigation and Drainage Lecture 12 - Irrigation Water Conveyance
Link NOC:Irrigation and Drainage Lecture 13 - Channel Design Structures
Link NOC:Irrigation and Drainage Lecture 14 - Measurement of Irrigation Water: Pipe
Link NOC:Irrigation and Drainage Lecture 15 - Tutorial
Link NOC:Irrigation and Drainage Lecture 16 - Water Application Methods
Link NOC:Irrigation and Drainage Lecture 17 - Surface Irrigation Hydraulics
Link NOC:Irrigation and Drainage Lecture 18 - Furrow Irrigation Hydraulics
Link NOC:Irrigation and Drainage Lecture 19 - Border Irrigation Design
Link NOC:Irrigation and Drainage Lecture 20 - Tutorial
Link NOC:Irrigation and Drainage Lecture 21 - Sprinkler Irrigation Design
Link NOC:Irrigation and Drainage Lecture 22 - Sprinkler Irrigation : Hydraulic Design
Link NOC:Irrigation and Drainage Lecture 23 - Drip Irrigation - I
Link NOC:Irrigation and Drainage Lecture 24 - Drip Irrigation Design
Link NOC:Irrigation and Drainage Lecture 25 - Tutorial (Week 5)
Link NOC:Irrigation and Drainage Lecture 26 - Irrigation Wells
Link NOC:Irrigation and Drainage Lecture 27 - Aquifer Properties
Link NOC:Irrigation and Drainage Lecture 28 - Well Hydraulics - 1
Link NOC:Irrigation and Drainage Lecture 29 - Well Hydraulics - 2
Link NOC:Irrigation and Drainage Lecture 30 - Tutorial
Link NOC:Irrigation and Drainage Lecture 31 - Introduction
Link NOC:Irrigation and Drainage Lecture 32 - Centrifugal Pump: Basics
Link NOC:Irrigation and Drainage Lecture 33 - Centrifugal Pumps: Power Requirement
Link NOC:Irrigation and Drainage Lecture 34 - Pump Characteristic Curves
Link NOC:Irrigation and Drainage Lecture 35 - Tutorial
Link NOC:Irrigation and Drainage Lecture 36 - Management of salt affected soils: Saline and alkali soils - 1
Link NOC:Irrigation and Drainage Lecture 37 - Management of salt affected soils: Saline and alkali soils - 1
Link NOC:Irrigation and Drainage Lecture 38 - Agricultural Drainage: Related Concepts
Link NOC:Irrigation and Drainage Lecture 39 - Agricultural Drainage: Introduction
Link NOC:Irrigation and Drainage Lecture 40 - Tutorial
Link NOC:Irrigation and Drainage Lecture 41 - Drainage System Components
Link NOC:Irrigation and Drainage Lecture 42 - Drainage System : Drain Pipe
Link NOC:Irrigation and Drainage Lecture 43 - Drainage System : Structures
Link NOC:Irrigation and Drainage Lecture 44 - Drainage System Design
Link NOC:Irrigation and Drainage Lecture 45 - Tutorial
Link NOC:Irrigation and Drainage Lecture 46 - Subsurface Drainage Design - 1
Link NOC:Irrigation and Drainage Lecture 47 - Subsurface Drainage Design - 2
Link NOC:Irrigation and Drainage Lecture 48 - Subsurface Drainage Design - 3
Link NOC:Irrigation and Drainage Lecture 49 - Subsurface Drainage Design - 4
Link NOC:Irrigation and Drainage Lecture 50 - Tutorial
Link NOC:Irrigation and Drainage Lecture 51 - Surface drainage system design - 1
Link NOC:Irrigation and Drainage Lecture 52 - Surface drainage system design - 2
Link NOC:Irrigation and Drainage Lecture 53 - Non-conventional drainage
Link NOC:Irrigation and Drainage Lecture 54 - Economics of drainage project
Link NOC:Irrigation and Drainage Lecture 55 - Tutorial
Link NOC:Irrigation and Drainage Lecture 56 - Case study of drainage system
Link NOC:Irrigation and Drainage Lecture 57 - Drainage Model
Link NOC:Irrigation and Drainage Lecture 58 - Irrigation Efficiency
Link NOC:Irrigation and Drainage Lecture 59 - Irrigation Economics
Link NOC:Irrigation and Drainage Lecture 60 - Irrigation model
Link NOC:Fundamentals of Food Process Engineering Lecture 1 - Importance Of Rheology In Food
Link NOC:Fundamentals of Food Process Engineering Lecture 2 - Food Rheology
Link NOC:Fundamentals of Food Process Engineering Lecture 3 - Food Rheology
Link NOC:Fundamentals of Food Process Engineering Lecture 4 - Food Rheology
Link NOC:Fundamentals of Food Process Engineering Lecture 5 - Food Rheology
Link NOC:Fundamentals of Food Process Engineering Lecture 6 - Measurements of Rheological Properties
Link NOC:Fundamentals of Food Process Engineering Lecture 7 - Measurements of Rheological Properties
Link NOC:Fundamentals of Food Process Engineering Lecture 8 - Rheological Properties of Viscoelastic Food
Link NOC:Fundamentals of Food Process Engineering Lecture 9 - Rheological Properties of Viscoelastic Food
Link NOC:Fundamentals of Food Process Engineering Lecture 10 - Rheological Properties of Viscoelastic Food
Link NOC:Fundamentals of Food Process Engineering Lecture 11 - Thermal Processing And Microbial Death Kinetics
Link NOC:Fundamentals of Food Process Engineering Lecture 12 - Thermal processing and microbial death kinetics
Link NOC:Fundamentals of Food Process Engineering Lecture 13 - Thermal processing and microbial death kinetics (Continued...)
Link NOC:Fundamentals of Food Process Engineering Lecture 14 - Thermal processing and microbial death kinetics (Continued...)
Link NOC:Fundamentals of Food Process Engineering Lecture 15 - Thermal processing and microbial death kinetics (Continued...)
Link NOC:Fundamentals of Food Process Engineering Lecture 16 - Evaporation and concentration
Link NOC:Fundamentals of Food Process Engineering Lecture 17 - Evaporation and concentration
Link NOC:Fundamentals of Food Process Engineering Lecture 18 - Evaporation and concentration
Link NOC:Fundamentals of Food Process Engineering Lecture 19 - Evaporation and concentration
Link NOC:Fundamentals of Food Process Engineering Lecture 20 - Evaporation and concentration
Link NOC:Fundamentals of Food Process Engineering Lecture 21 - Heat Exchangers
Link NOC:Fundamentals of Food Process Engineering Lecture 22 - Heat Exchangers
Link NOC:Fundamentals of Food Process Engineering Lecture 23 - Heat Exchangers
Link NOC:Fundamentals of Food Process Engineering Lecture 24 - Heat Exchangers
Link NOC:Fundamentals of Food Process Engineering Lecture 25 - Heat Exchangers
Link NOC:Fundamentals of Food Process Engineering Lecture 26 - Drying Technology
Link NOC:Fundamentals of Food Process Engineering Lecture 27 - Drying Technology
Link NOC:Fundamentals of Food Process Engineering Lecture 28 - Drying Technology
Link NOC:Fundamentals of Food Process Engineering Lecture 29 - Drying Technology
Link NOC:Fundamentals of Food Process Engineering Lecture 30 - Drying Technology
Link NOC:Fundamentals of Food Process Engineering Lecture 31 - Freezing and Freeze Drying
Link NOC:Fundamentals of Food Process Engineering Lecture 32 - Freezing and Freeze Drying
Link NOC:Fundamentals of Food Process Engineering Lecture 33 - Freezing and Freeze Drying
Link NOC:Fundamentals of Food Process Engineering Lecture 34 - Freezing and Freeze Drying
Link NOC:Fundamentals of Food Process Engineering Lecture 35 - Freezing and Freeze Drying
Link NOC:Fundamentals of Food Process Engineering Lecture 36 - Size Reduction
Link NOC:Fundamentals of Food Process Engineering Lecture 37 - Size Reduction (Continued...)
Link NOC:Fundamentals of Food Process Engineering Lecture 38 - Size Reduction (Continued...)
Link NOC:Fundamentals of Food Process Engineering Lecture 39 - Size Reduction (Continued...)
Link NOC:Fundamentals of Food Process Engineering Lecture 40 - Size Reduction (Continued...)
Link NOC:Fundamentals of Food Process Engineering Lecture 41 - Mechanical Separation Techniques
Link NOC:Fundamentals of Food Process Engineering Lecture 42 - Mechanical Separation Techniques
Link NOC:Fundamentals of Food Process Engineering Lecture 43 - Mechanical Separation Techniques
Link NOC:Fundamentals of Food Process Engineering Lecture 44 - Mechanical Separation Techniques
Link NOC:Fundamentals of Food Process Engineering Lecture 45 - Mechanical Separation Techniques
Link NOC:Fundamentals of Food Process Engineering Lecture 46 - Mixing and agitation
Link NOC:Fundamentals of Food Process Engineering Lecture 47 - Mixing and agitation (Continued...)
Link NOC:Fundamentals of Food Process Engineering Lecture 48 - Mixing and agitation (Continued...)
Link NOC:Fundamentals of Food Process Engineering Lecture 49 - Mixing and agitation (Continued...)
Link NOC:Fundamentals of Food Process Engineering Lecture 50 - Mixing and agitation (Continued...)
Link NOC:Fundamentals of Food Process Engineering Lecture 51 - Leaching and Extraction
Link NOC:Fundamentals of Food Process Engineering Lecture 52 - Leaching and Extraction (Continued...)
Link NOC:Fundamentals of Food Process Engineering Lecture 53 - Leaching and Extraction (Continued...)
Link NOC:Fundamentals of Food Process Engineering Lecture 54 - Leaching and Extraction (Continued...)
Link NOC:Fundamentals of Food Process Engineering Lecture 55 - Leaching and Extraction (Continued...)
Link NOC:Fundamentals of Food Process Engineering Lecture 56 - Non Thermal Processing
Link NOC:Fundamentals of Food Process Engineering Lecture 57 - Non Thermal Processing (Continued...)
Link NOC:Fundamentals of Food Process Engineering Lecture 58 - Non Thermal Processing (Continued...)
Link NOC:Fundamentals of Food Process Engineering Lecture 59 - Non Thermal Processing (Continued...)
Link NOC:Fundamentals of Food Process Engineering Lecture 60 - Non Thermal Processing (Continued...)
Link NOC:Soil and Water Conservation Engineering Lecture 1 - Introduction
Link NOC:Soil and Water Conservation Engineering Lecture 2 - Soilerosion causes and types
Link NOC:Soil and Water Conservation Engineering Lecture 3 - Factors affecting soil erosion and effects of soil erosion
Link NOC:Soil and Water Conservation Engineering Lecture 4 - Soil erosion - Mechanics
Link NOC:Soil and Water Conservation Engineering Lecture 5 - Water erosion control measures
Link NOC:Soil and Water Conservation Engineering Lecture 6 - Soil loss estimation
Link NOC:Soil and Water Conservation Engineering Lecture 7 - Erosivity and Erodibility
Link NOC:Soil and Water Conservation Engineering Lecture 8 - Modification in Universal soil loss equcation - Part I
Link NOC:Soil and Water Conservation Engineering Lecture 9 - Modification in Universal soil loss equcation - Part II
Link NOC:Soil and Water Conservation Engineering Lecture 10 - Soil loss measurement
Link NOC:Soil and Water Conservation Engineering Lecture 11 - Bunds - Introduction
Link NOC:Soil and Water Conservation Engineering Lecture 12 - Contour Bunds
Link NOC:Soil and Water Conservation Engineering Lecture 13 - Problems on Contour Bunds
Link NOC:Soil and Water Conservation Engineering Lecture 14 - Graded Bunds
Link NOC:Soil and Water Conservation Engineering Lecture 15 - Problems on Graded Bunds
Link NOC:Soil and Water Conservation Engineering Lecture 16 - Terrace - Introduction
Link NOC:Soil and Water Conservation Engineering Lecture 17 - Bench Terraces
Link NOC:Soil and Water Conservation Engineering Lecture 18 - Problems on Bench Terraces
Link NOC:Soil and Water Conservation Engineering Lecture 19 - Broad-base Terraces
Link NOC:Soil and Water Conservation Engineering Lecture 20 - Acoustical Criteria and Space Design (Continuied...)
Link NOC:Soil and Water Conservation Engineering Lecture 21 - Grassed Waterways
Link NOC:Soil and Water Conservation Engineering Lecture 22 - Problems on Grassed Waterways
Link NOC:Soil and Water Conservation Engineering Lecture 23 - Parabolic Grassed Waterways
Link NOC:Soil and Water Conservation Engineering Lecture 24 - GATE Questions on Various Topics Covered
Link NOC:Soil and Water Conservation Engineering Lecture 25 - Introduction-Gully Control Measures
Link NOC:Soil and Water Conservation Engineering Lecture 26 - Gully Control Measures (Permanent Structures)
Link NOC:Soil and Water Conservation Engineering Lecture 27 - Design Considerations- Permanent Gully Control Structures
Link NOC:Soil and Water Conservation Engineering Lecture 28 - Basics of Open Channel Hydraulics - 1
Link NOC:Soil and Water Conservation Engineering Lecture 29 - Basics of Open Channel Hydraulics - 2
Link NOC:Soil and Water Conservation Engineering Lecture 30 - Hydraulic Design of Drop Spillway
Link NOC:Soil and Water Conservation Engineering Lecture 31 - Hydraulic and Structural Design of Gully Control Structures of Drop Spillway
Link NOC:Soil and Water Conservation Engineering Lecture 32 - Hydraulic Design Components
Link NOC:Soil and Water Conservation Engineering Lecture 33 - Structural Design of Drop Spillway - 1
Link NOC:Soil and Water Conservation Engineering Lecture 34 - Structural Design of Drop Spillway - 2
Link NOC:Soil and Water Conservation Engineering Lecture 35 - Structural Design of Drop Spillway - 3
Link NOC:Soil and Water Conservation Engineering Lecture 36 - Structural Design of Drop Spillway - 4
Link NOC:Soil and Water Conservation Engineering Lecture 37 - GATE Question
Link NOC:Soil and Water Conservation Engineering Lecture 38 - Drop Inlet Spillway
Link NOC:Soil and Water Conservation Engineering Lecture 39 - Drop Inlet Spillway (Continued...)
Link NOC:Soil and Water Conservation Engineering Lecture 40 - Drop Inlet Spillway (Continued...)
Link NOC:Soil and Water Conservation Engineering Lecture 41 - Drop Inlet Spillway (Continued...)
Link NOC:Soil and Water Conservation Engineering Lecture 42 - Drop Inlet Spillway (Continued...)
Link NOC:Soil and Water Conservation Engineering Lecture 43 - Ogee Spillway
Link NOC:Soil and Water Conservation Engineering Lecture 44 - Chute Spillway
Link NOC:Soil and Water Conservation Engineering Lecture 45 - Chute Spillway Design - I
Link NOC:Soil and Water Conservation Engineering Lecture 46 - Chute Spillway Design - II
Link NOC:Soil and Water Conservation Engineering Lecture 47 - Energy Dissipation
Link NOC:Soil and Water Conservation Engineering Lecture 48 - Wind Erosion and Control Basics
Link NOC:Soil and Water Conservation Engineering Lecture 49 - Design of Wind Breaks
Link NOC:Soil and Water Conservation Engineering Lecture 50 - Design of Shelterbelts
Link NOC:Soil and Water Conservation Engineering Lecture 51 - Formation of Sand Dunes
Link NOC:Soil and Water Conservation Engineering Lecture 52 - Stabilization of Sand Dunes
Link NOC:Soil and Water Conservation Engineering Lecture 53 - Land Capability Classes
Link NOC:Soil and Water Conservation Engineering Lecture 54 - Improving Land Capability
Link NOC:Soil and Water Conservation Engineering Lecture 55 - Sediment and Its Transportation
Link NOC:Soil and Water Conservation Engineering Lecture 56 - Sediment Sampling
Link NOC:Dairy and Food Process and Products Technology Lecture 1 - Preamble of the Subject
Link NOC:Dairy and Food Process and Products Technology Lecture 2 - What is Food and Nutrients
Link NOC:Dairy and Food Process and Products Technology Lecture 3 - Nutritional Value of the Nutrients
Link NOC:Dairy and Food Process and Products Technology Lecture 4 - Best Way of Storage of Food Materials
Link NOC:Dairy and Food Process and Products Technology Lecture 5 - Preservation Techniques
Link NOC:Dairy and Food Process and Products Technology Lecture 6 - Temperature Quotient and Its Impact
Link NOC:Dairy and Food Process and Products Technology Lecture 7 - Food Additives
Link NOC:Dairy and Food Process and Products Technology Lecture 8 - Quality of Food
Link NOC:Dairy and Food Process and Products Technology Lecture 9 - Quality of Food (Continued...)
Link NOC:Dairy and Food Process and Products Technology Lecture 10 - Emerging Technology
Link NOC:Dairy and Food Process and Products Technology Lecture 11 - Emerging Technology (Continued...)
Link NOC:Dairy and Food Process and Products Technology Lecture 12 - Food Laws - Why?
Link NOC:Dairy and Food Process and Products Technology Lecture 13 - Food Laws of India
Link NOC:Dairy and Food Process and Products Technology Lecture 14 - Standards in India
Link NOC:Dairy and Food Process and Products Technology Lecture 15 - Hygiene and Other Controls in India
Link NOC:Dairy and Food Process and Products Technology Lecture 16 - Physico-Chemical Properties of Milk
Link NOC:Dairy and Food Process and Products Technology Lecture 17 - Milk - What is it
Link NOC:Dairy and Food Process and Products Technology Lecture 18 - Milk - How it looks?
Link NOC:Dairy and Food Process and Products Technology Lecture 19 - Milk - Constituents
Link NOC:Dairy and Food Process and Products Technology Lecture 20 - Constituents of Milk
Link NOC:Dairy and Food Process and Products Technology Lecture 21 - Milk Fat
Link NOC:Dairy and Food Process and Products Technology Lecture 22 - Milk Fat (Continued...)
Link NOC:Dairy and Food Process and Products Technology Lecture 23 - Milk Fat (Continued...)
Link NOC:Dairy and Food Process and Products Technology Lecture 24 - Milk Fat (Continued...)
Link NOC:Dairy and Food Process and Products Technology Lecture 25 - Protein
Link NOC:Dairy and Food Process and Products Technology Lecture 26 - Protein (Continued...)
Link NOC:Dairy and Food Process and Products Technology Lecture 27 - Amino Acids
Link NOC:Dairy and Food Process and Products Technology Lecture 28 - Amino Acids (Continued...)
Link NOC:Dairy and Food Process and Products Technology Lecture 29 - Milk Protein
Link NOC:Dairy and Food Process and Products Technology Lecture 30 - Casein Micelle
Link NOC:Dairy and Food Process and Products Technology Lecture 31 - Whey Protein
Link NOC:Dairy and Food Process and Products Technology Lecture 32 - Whey Protein (Continued...)
Link NOC:Dairy and Food Process and Products Technology Lecture 33 - Lactoferrin
Link NOC:Dairy and Food Process and Products Technology Lecture 34 - Carbohydrates in Milk
Link NOC:Dairy and Food Process and Products Technology Lecture 35 - Small Constituents of Milk
Link NOC:Dairy and Food Process and Products Technology Lecture 36 - Enzymes in Milk
Link NOC:Dairy and Food Process and Products Technology Lecture 37 - Chemical and Microbial Spoilage of Milk and Milk Products
Link NOC:Dairy and Food Process and Products Technology Lecture 38 - Extrinsic Factors for Microbial Growth
Link NOC:Dairy and Food Process and Products Technology Lecture 39 - Natural or Other Type of Spoilage
Link NOC:Dairy and Food Process and Products Technology Lecture 40 - Packaging
Link NOC:Dairy and Food Process and Products Technology Lecture 41 - Milk Pasteurization
Link NOC:Dairy and Food Process and Products Technology Lecture 42 - Thermal Death Time
Link NOC:Dairy and Food Process and Products Technology Lecture 43 - Pasteurization Effectiveness
Link NOC:Dairy and Food Process and Products Technology Lecture 44 - Milk Pasteurization and Homogenization
Link NOC:Dairy and Food Process and Products Technology Lecture 45 - Milk Pasteurization and Homogenization (Continued...)
Link NOC:Dairy and Food Process and Products Technology Lecture 46 - Milk Homogenization
Link NOC:Dairy and Food Process and Products Technology Lecture 47 - Milk Centrifugation
Link NOC:Dairy and Food Process and Products Technology Lecture 48 - Types of Available Milk
Link NOC:Dairy and Food Process and Products Technology Lecture 49 - Types of Available Milk in the Market
Link NOC:Dairy and Food Process and Products Technology Lecture 50 - New Technologies in Dairy Industries
Link NOC:Dairy and Food Process and Products Technology Lecture 51 - Cheese
Link NOC:Dairy and Food Process and Products Technology Lecture 52 - Chedder Cheese
Link NOC:Dairy and Food Process and Products Technology Lecture 53 - Ice Cream
Link NOC:Dairy and Food Process and Products Technology Lecture 54 - Process of Ice Cream Preparation
Link NOC:Dairy and Food Process and Products Technology Lecture 55 - Ice Cream Lolies
Link NOC:Dairy and Food Process and Products Technology Lecture 56 - Over Run and Calculation for Preparing Ice Cream Mix
Link NOC:Dairy and Food Process and Products Technology Lecture 57 - Transportation of Ice Cream vis a vis Frozen Foods
Link NOC:Dairy and Food Process and Products Technology Lecture 58 - Packaging of Food Materials
Link NOC:Dairy and Food Process and Products Technology Lecture 59 - Modified Atmosphere Packaging
Link NOC:Dairy and Food Process and Products Technology Lecture 60 - Flow Chart for Manufacturing Some Dairy and Food Products
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 1 - Organic Farming: Introduction and Status
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 2 - Organic Farming: Introduction and Status (Continued...)
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 3 - Organic Farming and its Components
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 4 - Organic Farming Concepts and Principles
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 5 - Organic Farming Concepts and Principles (Continued...)
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 6 - SWOT Analysis of Organic Farming
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 7 - Sustainable Agriculture
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 8 - Key Indicators of Sustainable Agriculture
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 9 - Organic Farming and Climate Change
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 10 - Organic Farming and Climate Change (Continued...)
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 11 - Principles of Compost Production
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 12 - Vermicompost Production Technology
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 13 - Vermicompost Production Technology (Continued...)
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 14 - Vermicompost Production Technology (Continued...)
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 15 - Enriched Vermicompost Production Technology
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 16 - Vermicompost Quality and Marketing
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 17 - Introduction to Pest and Disease Management
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 18 - Pest and Disease Management in Organic Farming
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 19 - Level C Pest and Disease Management
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 20 - Level C Pest and Disease Management (Continued...)
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 21 - Introduction to Organic Crop Management
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 22 - Introduction to Organic Crop Management (Continued...)
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 23 - Organic Vegetable Crop Management
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 24 - Organic Vegetable Crop Management (Cereals)
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 25 - Organic Vegetable Crop Management (Cereals) (Continued...)
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 26 - Organic Field Crop Management (Pulse and Oilseed Crop)
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 27 - Organic Plantation Crop Management
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 28 - Organic Meat Production
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 29 - Introduction on transition to organic crop production
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 30 - Crop planning and rotation design in organic system
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 31 - Crop planning and rotation design in organic system (Continued...)
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 32 - Integrated Farming System and Urban Agriculture
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 33 - Quality of Organic Food
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 34 - Natural Sources of Antioxidants for Health Defense
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 35 - Antioxidant Capacity of fruits and vegetables
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 36 - Organic Food and Human Health
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 37 - Organic Standard
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 38 - Organic Certification Process
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 39 - Operational Structure of Organic Certification
Link NOC:Organic Farming for Sustainable Agricultural Production Lecture 40 - Marketing of Organic Products
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 1 - Course Introduction; Food Constituents and Functions
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 2 - Quality and Safety Aspects of Food
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 3 - Factors Affecting Quality During Processing and Storage
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 4 - Role of Water in Food and its Shelf Life
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 5 - Gelatinization and Retrogradation of Starch
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 6 - Browning Reactions
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 7 - Food Proteins
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 8 - Principles of Food Preservation
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 9 - Traditional Food Preservation Technologies - Part 1
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 10 - Traditional Food Preservation Technologies - Part 2
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 11 - High Pressure Processing of Food - Part 1
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 12 - High Pressure Processing of Food - Part 2
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 13 - Membrane Technology - Part 1
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 14 - Membrane Technology - Part 2
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 15 - Food Irradiation - Part 1
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 16 - Food Irradiation - Part 2
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 17 - Microwave Heating
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 18 - Radio Frequency Drying
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 19 - Super Critical Fluid Extraction - Part 1
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 20 - Super Critical Fluid Extraction - Part 2
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 21 - Freeze Drying - Part 1
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 22 - Freeze Drying - Part 2
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 23 - Food Extrusion Technology - Part 1
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 24 - Food Extrusion Technology - Part 2
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 25 - Textured Vegetable Protein (TVP)
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 26 - Aseptic Processing and Packaging
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 27 - Hurdle Technology
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 28 - Natural Antimicrobials
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 29 - Food Lipids: Nature and Occurrence
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 30 - Extraction of Oil - Part 1
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 31 - Extraction of Oil - Part 2
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 32 - Refining of Oil - Part 1
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 33 - Refining of Oil - Part 2
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 34 - Modified Fats
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 35 - Rancidity
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 36 - Natural Antioxidants
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 37 - Microencapsulation - Part 1
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 38 - Microencapsulation - Part 2
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 39 - Food nanotechnology
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 40 - Respiration and Ripening
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 41 - Modified Atmospheric Storage (MAP)
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 42 - Active Packaging Technology
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 43 - Edible coating technology
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 44 - Multiproduct CA/MA Storage Unit
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 45 - Grain Storage
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 46 - Ozonation of Food Grains
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 47 - Hyper Spectral Imaging for Quality Analysis of Food Grains
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 48 - Non-Destructive Methods for Analysis of Grain Quality
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 49 - Detection of Spoilage in Grains using Biosensors
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 50 - Food Fortification
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 51 - Iron Fortified Rice (IFR)
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 52 - Nutri Dal and Fortified Noodles
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 53 - High Energy RTE Food Paste - Part 1
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 54 - High Energy RTE Food Paste - Part 2
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 55 - Functional Foods and Nutraceuticals
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 56 - Algae Based Health Foods
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 57 - Gluten Free Bread and Pasta
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 58 - Food Powder and Premixes
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 59 - GMP/GHP in Food Industry
Link NOC:Novel Technologies for Food Processing and Shelf Life Extension Lecture 60 - FCTL R&D and Course Summary
Link NOC:Soil Science and Technology Lecture 1 - Basic Overview of Soil
Link NOC:Soil Science and Technology Lecture 2 - Weathering and Soil Formation
Link NOC:Soil Science and Technology Lecture 3 - Weathering and Soil Formation (Continued...)
Link NOC:Soil Science and Technology Lecture 4 - Weathering and Soil Formation (Continued...)
Link NOC:Soil Science and Technology Lecture 5 - Weathering and Soil Formation (Continued...)
Link NOC:Soil Science and Technology Lecture 6 - Soil Taxonomy and Classification
Link NOC:Soil Science and Technology Lecture 7 - Soil Taxonomy and Classification (Continued...)
Link NOC:Soil Science and Technology Lecture 8 - Soil Taxonomy and Classification (Continued...)
Link NOC:Soil Science and Technology Lecture 9 - Soil Orders, Soil Colour and Texture
Link NOC:Soil Science and Technology Lecture 10 - Soil Texture and Structure
Link NOC:Soil Science and Technology Lecture 11 - Soil Tillage and Soil Density
Link NOC:Soil Science and Technology Lecture 12 - Soil Porosity and Consistency
Link NOC:Soil Science and Technology Lecture 13 - Soil Consistency and Soil Water
Link NOC:Soil Science and Technology Lecture 14 - Soil Water
Link NOC:Soil Science and Technology Lecture 15 - Tutorial
Link NOC:Soil Science and Technology Lecture 16 - Soil Water Movement
Link NOC:Soil Science and Technology Lecture 17 - Qualitative Description of Soil Wetness
Link NOC:Soil Science and Technology Lecture 18 - Soil Air
Link NOC:Soil Science and Technology Lecture 19 - Soil Temperature
Link NOC:Soil Science and Technology Lecture 20 - Tutorial
Link NOC:Soil Science and Technology Lecture 21 - Silicate Clays
Link NOC:Soil Science and Technology Lecture 22 - Silicate Clays (Continued...)
Link NOC:Soil Science and Technology Lecture 23 - Sources of Charges in Soil
Link NOC:Soil Science and Technology Lecture 24 - Cation Exchange Capacity (CEC)
Link NOC:Soil Science and Technology Lecture 25 - Sorption of Pesticides
Link NOC:Soil Science and Technology Lecture 26 - Diffuse Double Layer
Link NOC:Soil Science and Technology Lecture 27 - Adsorption Isotherms
Link NOC:Soil Science and Technology Lecture 28 - Soil Acidity
Link NOC:Soil Science and Technology Lecture 29 - Soil Salinity and Alkalining
Link NOC:Soil Science and Technology Lecture 30 - Submerged Soils
Link NOC:Soil Science and Technology Lecture 31 - Essential Plant Nutrients
Link NOC:Soil Science and Technology Lecture 32 - Soil N
Link NOC:Soil Science and Technology Lecture 33 - Biological N Fixation
Link NOC:Soil Science and Technology Lecture 34 - Soil P and K
Link NOC:Soil Science and Technology Lecture 35 - Fertilizers
Link NOC:Soil Science and Technology Lecture 36 - Soil Testing - I
Link NOC:Soil Science and Technology Lecture 37 - Soil Testing - II
Link NOC:Soil Science and Technology Lecture 38 - Soil Organic Matter
Link NOC:Soil Science and Technology Lecture 39 - Soil Organisms
Link NOC:Soil Science and Technology Lecture 40 - Compost
Link NOC:Soil Science and Technology Lecture 41 - Land Degradation and Soil Erosion
Link NOC:Soil Science and Technology Lecture 42 - Universal Soil Loss Equation
Link NOC:Soil Science and Technology Lecture 43 - Conservation Tillage
Link NOC:Soil Science and Technology Lecture 44 - Wind Erosion and Tillage Erosion
Link NOC:Soil Science and Technology Lecture 45 - Organic Pollutants in Soil
Link NOC:Soil Science and Technology Lecture 46 - Remediation of Organic Pollutant
Link NOC:Soil Science and Technology Lecture 47 - Toxic Inorganic Substances in Soil
Link NOC:Soil Science and Technology Lecture 48 - Removal of Toxic Inorganic Substances
Link NOC:Soil Science and Technology Lecture 49 - Soil Survey
Link NOC:Soil Science and Technology Lecture 50 - Remote Sensing in Soil Survey
Link NOC:Soil Science and Technology Lecture 51 - GIS and GPS
Link NOC:Soil Science and Technology Lecture 52 - Geostatistics
Link NOC:Soil Science and Technology Lecture 53 - Basics of VisNIR - DRS
Link NOC:Soil Science and Technology Lecture 54 - VisNIR-DRS Applications for Soil
Link NOC:Soil Science and Technology Lecture 55 - PXRF Soil Applications
Link NOC:Soil Science and Technology Lecture 56 - Basic Overview of DSM
Link NOC:Soil Science and Technology Lecture 57 - Modeling Continuous Variables
Link NOC:Soil Science and Technology Lecture 58 - Modeling Continuous Variables (Continued...)
Link NOC:Soil Science and Technology Lecture 59 - Modeling Categorical Variables
Link NOC:Soil Science and Technology Lecture 60 - Pedotransfer Functions and Uncertainty of DSM
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 1 - Fundamentals of Food Processing and Preservation
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 2 - Fundamentals of Food Processing and Preservation (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 3 - Preservation Techniques
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 4 - Fundamentals of Food Processing and Preservation (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 5 - Fundamentals of Food Processing and Preservation (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 6 - Fundamentals of Food Processing and Preservation why and how do food spoil
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 7 - One Dimentional Conduction Heat Transfer in Cortesian Coordinate
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 8 - One Dimentional Conduction Heat Transfer in Cortesian Coordinate (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 9 - One Dimentional Steady State Heat Conduction
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 10 - One Dimentional Steady State Heat Conduction (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 11 - One Dimensional Heat Transfer Through Cylinders
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 12 - One Dimensional Heat Transfer Through Cylinders (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 13 - One Dimensional Heat Transfer Through Cylinders (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 14 - One Dimensinal Heat Transfer
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 15 - Thermal Resistance
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 16 - Thermal contact Resistance and Finned Surface
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 17 - Finned Surface
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 18 - Finned Surface (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 19 - Finned Surface (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 20 - Heat Transfer in Finned Surfaces
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 21 - Transient Heat Transfer
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 22 - Transient Heat Transfer (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 23 - Transient Heat Transfer (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 24 - Transient Heat Transfer (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 25 - Heister Chart
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 26 - Heister Chart (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 27 - Heat Transfer by Convection
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 28 - Heat Transfer by Convection(Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 29 - Heat Transfer by Convection(Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 30 - Heat Transfer by Convection(Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 31 - Heat Transfer by Convection(Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 32 - Heat Transfer by Convection(Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 33 - Heat Transfer by Convection(Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 34 - Heat Transfer by Radiation
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 35 - Heat Transfer by Radiation (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 36 - Heat Transfer by Convection (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 37 - Heat Transfer by Radiation (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 38 - Heat Transfer by Radiation (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 39 - Boiling and Condensation
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 40 - Boiling (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 41 - Condensation
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 42 - Condensation (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 43 - Heat Exchangers
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 44 - Heat Exchangers (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 45 - Heat Exchangers (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 46 - Heat Exchangers (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 47 - Log mean Temperature Difference
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 48 - Heat Exchangers (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 49 - Heat Exchangers (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 50 - Heat Exchangers (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 51 - Heat Exchangers (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 52 - Heat Exchangers (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 53 - Heat Exchangers (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 54 - Thermal Death Reaction Kinecties
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 55 - Preservation by High Temparature Processing
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 56 - Preservation by High Temparature Processing (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 57 - Distillation
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 58 - Distillation (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 59 - Distillation (Continued...)
Link NOC:Thermal Operations in Food Process Engineering: Theory and Applications Lecture 60 - Drying and Multiple Effect Evaporator
Link NOC:Designing Learner-Centric MOOCs Lecture 1 - Perceptions of MOOC
Link NOC:Designing Learner-Centric MOOCs Lecture 2 - Learner Expectation
Link NOC:Designing Learner-Centric MOOCs Lecture 3 - Learner Engagement
Link NOC:Designing Learner-Centric MOOCs Lecture 4 - Course Introduction
Link NOC:Designing Learner-Centric MOOCs Lecture 5 - Evolution of MOOCs
Link NOC:Designing Learner-Centric MOOCs Lecture 6 - Known Challenges
Link NOC:Designing Learner-Centric MOOCs Lecture 7 - Why LCM?
Link NOC:Designing Learner-Centric MOOCs Lecture 8 - The LCM Model
Link NOC:Designing Learner-Centric MOOCs Lecture 9 - What is an LeD?
Link NOC:Designing Learner-Centric MOOCs Lecture 10 - Chunking a Lecture into LeD
Link NOC:Designing Learner-Centric MOOCs Lecture 11 - Introducing Reflection Spot
Link NOC:Designing Learner-Centric MOOCs Lecture 12 - Making Your Own LeD
Link NOC:Designing Learner-Centric MOOCs Lecture 13 - Dos and Dont's - Part 1
Link NOC:Designing Learner-Centric MOOCs Lecture 14 - Dos and Dont's - Part 2
Link NOC:Designing Learner-Centric MOOCs Lecture 15 - LeDs Takeaway
Link NOC:Designing Learner-Centric MOOCs Lecture 16 - What is an LbD?
Link NOC:Designing Learner-Centric MOOCs Lecture 17 - Creating LbDs
Link NOC:Designing Learner-Centric MOOCs Lecture 18 - Constructive Customized Feedback in LbDs
Link NOC:Designing Learner-Centric MOOCs Lecture 19 - Giving Feedback for Open Ended Questions
Link NOC:Designing Learner-Centric MOOCs Lecture 20 - Recommendations for effective LbDs
Link NOC:Designing Learner-Centric MOOCs Lecture 21 - What is an LxT?
Link NOC:Designing Learner-Centric MOOCs Lecture 22 - Creating LxTs
Link NOC:Designing Learner-Centric MOOCs Lecture 23 - Creating an Assimilation Quiz
Link NOC:Designing Learner-Centric MOOCs Lecture 24 - What is an LxI?
Link NOC:Designing Learner-Centric MOOCs Lecture 25 - Creating LxIs with Reflection Quiz
Link NOC:Designing Learner-Centric MOOCs Lecture 26 - Orchestrating your MOOC
Link NOC:Designing Learner-Centric MOOCs Lecture 27 - Orchestration Dynamics in LCM
Link NOC:Designing Learner-Centric MOOCs Lecture 28 - Assessment
Link NOC:Designing Learner-Centric MOOCs Lecture 29 - From Regular course to LCM
Link NOC:Designing Learner-Centric MOOCs Lecture 30 - Course Design in MOOC
Link NOC:Designing Learner-Centric MOOCs Lecture 31 - Maintaining Learner Connect
Link NOC:Designing Learner-Centric MOOCs Lecture 32 - Implementing the Learner-Centric Approach
Link NOC:Introduction to Learning Analytics Lecture 1 - Introduction to Learning Analytics
Link NOC:Introduction to Learning Analytics Lecture 2 - LA, EDM and Academic Analytics
Link NOC:Introduction to Learning Analytics Lecture 3 - Types of Learning Analytics - I
Link NOC:Introduction to Learning Analytics Lecture 4 - Types of Learning Analytics - II
Link NOC:Introduction to Learning Analytics Lecture 5 - Data Collection
Link NOC:Introduction to Learning Analytics Lecture 6 - Data Collection in TELE
Link NOC:Introduction to Learning Analytics Lecture 7 - Data collection in MOOC
Link NOC:Introduction to Learning Analytics Lecture 8 - Multichannel Data
Link NOC:Introduction to Learning Analytics Lecture 9 - Ethics and Data Privacy in LA
Link NOC:Introduction to Learning Analytics Lecture 10 - Descriptive Analytics
Link NOC:Introduction to Learning Analytics Lecture 11 - Data Visualization
Link NOC:Introduction to Learning Analytics Lecture 12 - YouTube Analytics Dashboard
Link NOC:Introduction to Learning Analytics Lecture 13 - MOOCs Analytics Dashboard
Link NOC:Introduction to Learning Analytics Lecture 14 - Predictive Analytics
Link NOC:Introduction to Learning Analytics Lecture 15 - Linear Regression
Link NOC:Introduction to Learning Analytics Lecture 16 - Weka demo and how to read the results
Link NOC:Introduction to Learning Analytics Lecture 17 - MOOC data for Course Project
Link NOC:Introduction to Learning Analytics Lecture 18 - Summary of the Course
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 1 - Course Preview
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 2 - Who Should Join this Course and Why?
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 3 - Course Format_Learner Centric MOOC (LCM)
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 4 - E Learning in STEM
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 5 - Challenges in e-learning
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 6 - What is Learner Centric Approach
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 7 - Instructional Design in e-learning
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 8 - ADDIE Process of Instructional Design
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 9 - Constructive alignment
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 10 - Implementing constructive alignment
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 11 - Promoting learner engagement with content
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 12 - Interactive video
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 13 - Learning by Doing (LbD)
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 14 - Articulation and Reflection
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 15 - Construct your Own Understanding
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 16 - Contextualized Learning
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 17 - Feedback
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 18 - Collaboration and Peer Learning
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 19 - Addressing Diversity
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 20 - Brief Recap and What’s Next?
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 21 - Selection and Analysis of Effective Technology
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 22 - Effective Integration of Technology
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 23 - Multimedia Principle and Contiguity Principle
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 24 - Modality Principle and Redundancy Principle
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 25 - Coherence Principle
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 26 - Segmenting and Personalization Principle
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 27 - Visual Communication Strategies for Developing e-Learning Content
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 28 - Closing
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 29 - Industry Perspective: Forms of E-Learning
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 30 - Industry Perspective: Integrating LC elements in E-content
Link NOC:Designing Learner-Centric e-Learning in STEM Disciplines Lecture 31 - Industry Perspective: E-learning Design Process
Link NOC:Sustainable and Affordable Sanitation Solutions for Small Towns: Policy, Planning and Practice Lecture 1 - Introduction to the Issue of Sanitation
Link NOC:Sustainable and Affordable Sanitation Solutions for Small Towns: Policy, Planning and Practice Lecture 2 - Overview of Sanitation in the country
Link NOC:Sustainable and Affordable Sanitation Solutions for Small Towns: Policy, Planning and Practice Lecture 3 - Centralised or Decentralised?
Link NOC:Sustainable and Affordable Sanitation Solutions for Small Towns: Policy, Planning and Practice Lecture 4 - Need for Participatory Planning
Link NOC:Sustainable and Affordable Sanitation Solutions for Small Towns: Policy, Planning and Practice Lecture 5 - Context setting for the Alappuzha Project
Link NOC:Sustainable and Affordable Sanitation Solutions for Small Towns: Policy, Planning and Practice Lecture 6 - Environmental Policy
Link NOC:Sustainable and Affordable Sanitation Solutions for Small Towns: Policy, Planning and Practice Lecture 7 - Environmental Impact Assessment 2006 and National Urban Sanitation Plan
Link NOC:Sustainable and Affordable Sanitation Solutions for Small Towns: Policy, Planning and Practice Lecture 8 - Environmental Governance - Challenges and Alternatives
Link NOC:Sustainable and Affordable Sanitation Solutions for Small Towns: Policy, Planning and Practice Lecture 9 - Municipal Solid Waste Management
Link NOC:Sustainable and Affordable Sanitation Solutions for Small Towns: Policy, Planning and Practice Lecture 10 - MSWM - Status, Policy, governance structure
Link NOC:Sustainable and Affordable Sanitation Solutions for Small Towns: Policy, Planning and Practice Lecture 11 - Integrated Municipal Solid Waste Management
Link NOC:Sustainable and Affordable Sanitation Solutions for Small Towns: Policy, Planning and Practice Lecture 12 - Plastic Waste Management
Link NOC:Sustainable and Affordable Sanitation Solutions for Small Towns: Policy, Planning and Practice Lecture 13 - Municipal Solid Waste Management in Alappuzha
Link NOC:Sustainable and Affordable Sanitation Solutions for Small Towns: Policy, Planning and Practice Lecture 14 - Liquid Waste Management - an Overview
Link NOC:Sustainable and Affordable Sanitation Solutions for Small Towns: Policy, Planning and Practice Lecture 15 - Introduction to Faecal Sludge Management
Link NOC:Sustainable and Affordable Sanitation Solutions for Small Towns: Policy, Planning and Practice Lecture 16 - Faecal Sludge Management for Alappuzha town
Link NOC:Sustainable and Affordable Sanitation Solutions for Small Towns: Policy, Planning and Practice Lecture 17 - Introduction to liquid waste treatment technologies
Link NOC:Sustainable and Affordable Sanitation Solutions for Small Towns: Policy, Planning and Practice Lecture 18 - Decentralized Waste Water Treatment system - An Introduction
Link NOC:Sustainable and Affordable Sanitation Solutions for Small Towns: Policy, Planning and Practice Lecture 19 - Case studies - Decentralised waste water treatment
Link NOC:Sustainable and Affordable Sanitation Solutions for Small Towns: Policy, Planning and Practice Lecture 20 - Decentralized waste water treatment systems plan for Alappuzha
Link NOC:Sustainable and Affordable Sanitation Solutions for Small Towns: Policy, Planning and Practice Lecture 21 - History of Sanitation in Alappuzha
Link NOC:Sustainable and Affordable Sanitation Solutions for Small Towns: Policy, Planning and Practice Lecture 22 - Organic waste management in Alappuzha
Link NOC:Sustainable and Affordable Sanitation Solutions for Small Towns: Policy, Planning and Practice Lecture 23 - Inorganic waste management - Role of Kudumbashree and Haritha Karma Sena
Link NOC:Sustainable and Affordable Sanitation Solutions for Small Towns: Policy, Planning and Practice Lecture 24 - Youth engagement for recaiming canals
Link NOC:Sustainable and Affordable Sanitation Solutions for Small Towns: Policy, Planning and Practice Lecture 25 - Significance of institution building in reclaiming canals
Link NOC:Fuzzy Logic and Neural Networks Lecture 1 - Introduction to Fuzzy Sets
Link NOC:Fuzzy Logic and Neural Networks Lecture 2 - Introduction to Fuzzy Sets (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 3 - Introduction to Fuzzy Sets (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 4 - Introduction to Fuzzy Sets (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 5 - Introduction to Fuzzy Sets (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 6 - Introduction to Fuzzy Sets (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 7 - Applications of Fuzzy Sets
Link NOC:Fuzzy Logic and Neural Networks Lecture 8 - Applications of Fuzzy Sets (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 9 - Applications of Fuzzy Sets (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 10 - Applications of Fuzzy Sets (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 11 - Applications of Fuzzy Sets (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 12 - Applications of Fuzzy Sets (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 13 - Applications of Fuzzy Sets (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 14 - Applications of Fuzzy Sets (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 15 - Applications of Fuzzy Sets (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 16 - Applications of Fuzzy Sets (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 17 - Optimizationof Fuzzy Reasoning and Clustering Tool
Link NOC:Fuzzy Logic and Neural Networks Lecture 18 - Optimizationof Fuzzy Reasoning and Clustering Tool (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 19 - Optimizationof Fuzzy Reasoning and Clustering Tool (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 20 - Optimizationof Fuzzy Reasoning and Clustering Tool (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 21 - Some Examples of Neural Networks
Link NOC:Fuzzy Logic and Neural Networks Lecture 22 - Some Examples of Neural Networks (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 23 - Some Examples of Neural Networks (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 24 - Some Examples of Neural Networks (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 25 - Some Examples of Neural Networks (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 26 - Some Examples of Neural Networks (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 27 - Some Examples of Neural Networks (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 28 - Some Examples of Neural Networks (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 29 - Some Examples of Neural Networks (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 30 - Some Examples of Neural Networks (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 31 - Optimal Designs of Neural Networks
Link NOC:Fuzzy Logic and Neural Networks Lecture 32 - Optimal Designs of Neural Networks (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 33 - Neuro-Fuzzy System
Link NOC:Fuzzy Logic and Neural Networks Lecture 34 - Neuro-Fuzzy System (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 35 - Neuro-Fuzzy System (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 36 - Neuro-Fuzzy System (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 37 - Concepts of Soft Computing and Expert Systems
Link NOC:Fuzzy Logic and Neural Networks Lecture 38 - Concepts of Soft Computing and Expert Systems (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 39 - A Few Applications
Link NOC:Fuzzy Logic and Neural Networks Lecture 40 - A Few Applications (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 41 - A Few Applications (Continued...)
Link NOC:Fuzzy Logic and Neural Networks Lecture 42 - A Few Applications (Continued...)
Link NOC:Entrepreneurship Essentials Lecture 1 - Introduction
Link NOC:Entrepreneurship Essentials Lecture 2 - Two Amazing and Inspiring Stories
Link NOC:Entrepreneurship Essentials Lecture 3 - Myths and Realities About Entrepreneurship
Link NOC:Entrepreneurship Essentials Lecture 4 - Entrepreneurial Qualities
Link NOC:Entrepreneurship Essentials Lecture 5 - Why Start-ups Fail
Link NOC:Entrepreneurship Essentials Lecture 6 - Vision, Mission and Entrepreneurial Qualities
Link NOC:Entrepreneurship Essentials Lecture 7 - Vision, Mission and Entrepreneurial Qualities (Continued...)
Link NOC:Entrepreneurship Essentials Lecture 8 - Value Proposition
Link NOC:Entrepreneurship Essentials Lecture 9 - Business Model generation - I
Link NOC:Entrepreneurship Essentials Lecture 10 - Business Model generation - II
Link NOC:Entrepreneurship Essentials Lecture 11 - Competitive Advantage
Link NOC:Entrepreneurship Essentials Lecture 12 - Lean Startup
Link NOC:Entrepreneurship Essentials Lecture 13 - Lean Startup (Continued...)
Link NOC:Entrepreneurship Essentials Lecture 14 - Balanced Founding Team and Early Recruits
Link NOC:Entrepreneurship Essentials Lecture 15 - Forms of Legal Entities
Link NOC:Entrepreneurship Essentials Lecture 16 - Marketing for Startups
Link NOC:Entrepreneurship Essentials Lecture 17 - Marketing for Startups (Continued...)
Link NOC:Entrepreneurship Essentials Lecture 18 - Marketing Research
Link NOC:Entrepreneurship Essentials Lecture 19 - Marketing Research (Continued...)
Link NOC:Entrepreneurship Essentials Lecture 20 - Marketing Research Example
Link NOC:Entrepreneurship Essentials Lecture 21 - Financial Statements
Link NOC:Entrepreneurship Essentials Lecture 22 - Financial Statements (Continued...)
Link NOC:Entrepreneurship Essentials Lecture 23 - Financial Statements (Continued...)
Link NOC:Entrepreneurship Essentials Lecture 24 - Financial Statements (Continued...)
Link NOC:Entrepreneurship Essentials Lecture 25 - Financial Statements (Continued...)
Link NOC:Entrepreneurship Essentials Lecture 26 - Financial Statements (Continued...)
Link NOC:Entrepreneurship Essentials Lecture 27 - Financial Statements (Continued...)
Link NOC:Entrepreneurship Essentials Lecture 28 - Break-Even Point (Cost Volume and Profit Analysis)
Link NOC:Entrepreneurship Essentials Lecture 29 - Break-Even Point (Cost Volume and Profit Analysis) (Continued...)
Link NOC:Entrepreneurship Essentials Lecture 30 - Break-Even Point (Cost Volume and Profit Analysis) (Continued...)
Link NOC:Entrepreneurship Essentials Lecture 31 - Writing Business Plan
Link NOC:Entrepreneurship Essentials Lecture 32 - Writing Business Plan (Continued...)
Link NOC:Entrepreneurship Essentials Lecture 33 - Funding your start up
Link NOC:Entrepreneurship Essentials Lecture 34 - Funding your start up (Continued...)
Link NOC:Entrepreneurship Essentials Lecture 35 - Funding your start up (Continued...)
Link NOC:Entrepreneurship Essentials Lecture 36 - Funding your start up (Continued...)
Link NOC:Entrepreneurship Essentials Lecture 37 - Funding your start up (Continued...)
Link NOC:Entrepreneurship Essentials Lecture 38 - How to Start a Startup
Link NOC:Entrepreneurship Essentials Lecture 39 - Go to Market Strategy
Link NOC:Entrepreneurship Essentials Lecture 40 - Innovation and Entrepreneurship
Link NOC:Entrepreneurship Essentials Lecture 41 - Innovation and Entrepreneurship (Continued...)
Link NOC:Entrepreneurship Essentials Lecture 42 - Innovation and Entrepreneurship (Continued...)
Link NOC:Entrepreneurship Essentials Lecture 43 - Dos and Don'ts
Link NOC:Roadmap for Patent Creation Lecture 1 - Roadmap for patent creation - Introduction
Link NOC:Roadmap for Patent Creation Lecture 2 - Roadmap for patent creation - Property and IP
Link NOC:Roadmap for Patent Creation Lecture 3 - Roadmap for patent creation - IPR
Link NOC:Roadmap for Patent Creation Lecture 4 - Roadmap for patent creation - IP and future areas
Link NOC:Roadmap for Patent Creation Lecture 5 - Roadmap for patent creation - Patent - Introduction
Link NOC:Roadmap for Patent Creation Lecture 6 - Patent searching and analysis
Link NOC:Roadmap for Patent Creation Lecture 7 - Patent-Definition
Link NOC:Roadmap for Patent Creation Lecture 8 - Novelty
Link NOC:Roadmap for Patent Creation Lecture 9 - Non obviousness
Link NOC:Roadmap for Patent Creation Lecture 10 - Industrial application
Link NOC:Roadmap for Patent Creation Lecture 11 - Parts of patent document
Link NOC:Roadmap for Patent Creation Lecture 12 - Terminologies and codes used in a patent document
Link NOC:Roadmap for Patent Creation Lecture 13 - How to read a patent ? - I
Link NOC:Roadmap for Patent Creation Lecture 14 - How to read a patent ? - II
Link NOC:Roadmap for Patent Creation Lecture 15 - How to read a patent ? - III
Link NOC:Roadmap for Patent Creation Lecture 16 - Roadmap for patent creation - IP identification tool
Link NOC:Roadmap for Patent Creation Lecture 17 - Roadmap for patent creation - Patentability tool
Link NOC:Roadmap for Patent Creation Lecture 18 - Roadmap for patent creation - IP audit framework
Link NOC:Roadmap for Patent Creation Lecture 19 - Roadmap for patent creation - Public patent databases
Link NOC:Roadmap for Patent Creation Lecture 20 - Roadmap for patent creation - Capsule version
Link NOC:Roadmap for Patent Creation Lecture 21 - Types of patent
Link NOC:Roadmap for Patent Creation Lecture 22 - Patent filing procedure in India
Link NOC:Roadmap for Patent Creation Lecture 23 - Patent timelines - India and PCT
Link NOC:Roadmap for Patent Creation Lecture 24 - Inventions not patent in India
Link NOC:Roadmap for Patent Creation Lecture 25 - Indicators for patentability
Link NOC:Roadmap for Patent Creation Lecture 26 - Use of patent database for research/project topic identification
Link NOC:Roadmap for Patent Creation Lecture 27 - Importance of laboratory notebook
Link NOC:Roadmap for Patent Creation Lecture 28 - In which technical category my invention falls - IPC
Link NOC:Roadmap for Patent Creation Lecture 29 - Patent - Statutory differences between India, Europe and USA
Link NOC:Roadmap for Patent Creation Lecture 30 - Identification of inventor and applicant and their rights
Link NOC:Roadmap for Patent Creation Lecture 31 - Developing your own IP system
Link NOC:Roadmap for Patent Creation Lecture 32 - When to publish and when to patent (confidentiality)
Link NOC:Roadmap for Patent Creation Lecture 33 - Statutory exceptions (anticipation)
Link NOC:Roadmap for Patent Creation Lecture 34 - Procedure for patent filing (Forms and fees)
Link NOC:Roadmap for Patent Creation Lecture 35 - Interaction with IP attorney (Initial drafting, FER reply and hearing)
Link NOC:Roadmap for Patent Creation Lecture 36 - Research/project planning
Link NOC:Roadmap for Patent Creation Lecture 37 - Post patent filing requirments
Link NOC:Roadmap for Patent Creation Lecture 38 - Patent commercialization
Link NOC:Roadmap for Patent Creation Lecture 39 - Capsule version
Link NOC:Accreditation and Outcome based Learning Lecture 1 - Introduction
Link NOC:Accreditation and Outcome based Learning Lecture 2 - Challenges and Needs of 21st Century Education
Link NOC:Accreditation and Outcome based Learning Lecture 3 - Accreditation
Link NOC:Accreditation and Outcome based Learning Lecture 4 - Accreditation (Continued...)
Link NOC:Accreditation and Outcome based Learning Lecture 5 - Outcome based Learning
Link NOC:Accreditation and Outcome based Learning Lecture 6 - Important Steps in Outcome based education
Link NOC:Accreditation and Outcome based Learning Lecture 7 - Introduction to Taxonomies of Learning and Cognitive Domains of Learning
Link NOC:Accreditation and Outcome based Learning Lecture 8 - Psychomotor Domain and Affective Domain of Learning
Link NOC:Accreditation and Outcome based Learning Lecture 9 - Instructional Objectives or Outcome
Link NOC:Accreditation and Outcome based Learning Lecture 10 - Need and Use of Instructional Objectives or Outcome
Link NOC:Accreditation and Outcome based Learning Lecture 11 - Example of Different Instructional Objectives or Outcome and their Cognitive Level
Link NOC:Accreditation and Outcome based Learning Lecture 12 - Outcome-based Curriculum Design
Link NOC:Accreditation and Outcome based Learning Lecture 13 - Outcome-based Curriculum Design (Continued...)
Link NOC:Accreditation and Outcome based Learning Lecture 14 - Outcome-based Curriculum Design software framework
Link NOC:Accreditation and Outcome based Learning Lecture 15 - Course outcome, Module outcome and lecture/unit outcome and teaching learning process
Link NOC:Accreditation and Outcome based Learning Lecture 16 - Mapping of outcome based curriculum with Graduate attribute
Link NOC:Accreditation and Outcome based Learning Lecture 17 - Introduction to Assessment and Evaluation
Link NOC:Accreditation and Outcome based Learning Lecture 18 - Formative Assessment and Summative Assessments
Link NOC:Accreditation and Outcome based Learning Lecture 19 - Test Item analysis
Link NOC:Accreditation and Outcome based Learning Lecture 20 - Test Item analysis (Continued...)
Link NOC:Accreditation and Outcome based Learning Lecture 21 - Evaluation Rubrics
Link NOC:Accreditation and Outcome based Learning Lecture 22 - Mission and Vision, Program Educational Objectives (PEOs), Program Outcome (PO) and their Consistency
Link NOC:Accreditation and Outcome based Learning Lecture 23 - Mapping of course outcome and Program Outcome
Link NOC:Accreditation and Outcome based Learning Lecture 24 - Attainment of Program outcome and course outcome
Link NOC:Accreditation and Outcome based Learning Lecture 25 - Calculation of direct attainment
Link NOC:Accreditation and Outcome based Learning Lecture 26 - Calculation of Indirect Attainment
Link NOC:Accreditation and Outcome based Learning Lecture 27 - Introduction to Tutored Video Instruction (TVI)
Link NOC:Accreditation and Outcome based Learning Lecture 28 - TVI Learning Improvement Data - as reported in literature
Link NOC:Accreditation and Outcome based Learning Lecture 29 - Use of TVI as ELNET-3L program
Link NOC:Accreditation and Outcome based Learning Lecture 30 - Lessons on Good Teaching from ELNET-3L
Link NOC:Accreditation and Outcome based Learning Lecture 31 - Evaluation of Teaching Quality
Link NOC:Accreditation and Outcome based Learning Lecture 32 - Evaluation of Teaching Quality - A Research Proposal
Link NOC:Accreditation and Outcome based Learning Lecture 33 - Evaluation of Teaching Quality - A Research Proposal (Continued...)
Link NOC:Accreditation and Outcome based Learning Lecture 34 - Evaluation of Teaching Quality - A Research Proposal (Continued...)
Link NOC:Accreditation and Outcome based Learning Lecture 35 - Assessment and Evaluation - to Improve Teaching
Link NOC:Accreditation and Outcome based Learning Lecture 36 - Item Analysis - Theory and Practice
Link NOC:Accreditation and Outcome based Learning Lecture 37 - Learning Styles and Learning Approaches
Link NOC:Accreditation and Outcome based Learning Lecture 38 - Good Teaching Attributes and Characteristics
Link NOC:Accreditation and Outcome based Learning Lecture 39 - Teacher Effectiveness Research
Link NOC:Accreditation and Outcome based Learning Lecture 40 - Teacher Effectiveness Research (Continued...)
Link NOC:Accreditation and Outcome based Learning Lecture 41 - Teaching Learning Process using Outcome based Education
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 1 - Sustainability Concepts - Innovations and Challenges
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 2 - Sustainability Concepts - Innovations and Challenges
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 3 - Basics and Sustainability Concepts and Evolution
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 4 - Engineering for Sustainability
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 5 - Life Cycle Thinking and Circular Economy
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 6 - Mass Concentration Units
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 7 - Partial Pressure Units
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 8 - Other Types of Units
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 9 - Units (Continued...), Qualitative and Quantitative Measurements
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 10 - Quantative Measurements Basics
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 11 - Ecology
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 12 - Energy Flow and Ecological Concepts
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 13 - Population
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 14 - Population, Consumption and Biodiversity
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 15 - Environmental Chemistry
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 16 - Mass Balance and Reactor Systems
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 17 - Mass Balance in Continuous Reactor / Continuous Stirred Tank Reactor (CSTR) and Plug Flow Reactor
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 18 - Plug Flow Reactor and Energy Flow
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 19 - Energy Balance and Earth Overshot Day
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 20 - Mass Transport Processes
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 21 - Oxygen Demand in Environmental Systems
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 22 - BOD Examples, Oxygen Levels in Surface Waters, COD
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 23 - Environmental Health Basics and SDGs
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 24 - Field Applications
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 25 - Nutrient Cycle
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 26 - Environmental Risk
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 27 - Risk Assessment Steps and EIA Introduction
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 28 - Environmental Risk Assessments with Concepts of EIA and LCA
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 29 - Environmental Risk Assessments with Concepts of EIA and LCA (Continued...)
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 30 - Environmental Risk Assessments with Concepts of EIA and LCA (Continued...)
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 31 - Water Quantity
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 32 - Water Availability and Usage
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 33 - Population Forecasting
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 34 - Water Quality
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 35 - Water Quality (Continued...)
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 36 - Plain Sedimentation
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 37 - Coagulation
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 38 - Review of Sedimentation and Rapid Sand Filtration
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 39 - Disinfection and Water Supply
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 40 - Water Treatment Plant Visit
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 41 - Wastewater collection and characterization
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 42 - Sewerage System and Sewage Characteristics
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 43 - BOD Concepts and Preliminary Treatment of Wastewater
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 44 - Wastewater Treatment - I
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 45 - Activated Sludge Process and Sludge Disposal
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 46 - Introduction to Solid Waste Management
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 47 - Introduction to Solid Waste Management (Continued...)
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 48 - Components of Solid Waste Management
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 49 - Collection and Treatment
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 50 - Waste Disposal and Summary
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 51 - Basics of Air Pollution Issues - Global and Local
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 52 - Air Pollutants and Air Pollution Index
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 53 - Global Warming and Climate Change
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 54 - Air Pollution Models
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 55 - SDGs, Noise and Soil Pollution
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 56 - Present Issues and Few Case Studies
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 57 - Case Study - Solid Waste Management
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 58 - Case Study - Industrial Pollution and Disasters
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 59 - Case Study - Global Food Waste Initiatives
Link NOC:Introduction to Environmental Engineering and Science - Fundamental and Sustainability Concepts Lecture 60 - Case Study - Global Food Waste and Resource Recovery
Link NOC:Neuroscience of Human Movement Lecture 0 - Neuroscience of Human Movement
Link NOC:Neuroscience of Human Movement Lecture 1 - Membrane Physiology - Part 1
Link NOC:Neuroscience of Human Movement Lecture 2 - Membrane Physiology - Part 2
Link NOC:Neuroscience of Human Movement Lecture 3 - Nernst Equation
Link NOC:Neuroscience of Human Movement Lecture 4 - Goldman Equation
Link NOC:Neuroscience of Human Movement Lecture 5 - Action Potential - Part 1
Link NOC:Neuroscience of Human Movement Lecture 6 - Action Potential - Part 2
Link NOC:Neuroscience of Human Movement Lecture 7 - Action Potential - Part 3
Link NOC:Neuroscience of Human Movement Lecture 8 - Action Potential - Part 4
Link NOC:Neuroscience of Human Movement Lecture 9 - Action Potential - Part 5
Link NOC:Neuroscience of Human Movement Lecture 10 - Review of Action Potential and Neurotransmitters
Link NOC:Neuroscience of Human Movement Lecture 11 - Neuromuscular Junction
Link NOC:Neuroscience of Human Movement Lecture 12 - Disorders of Neuromuscular Junction
Link NOC:Neuroscience of Human Movement Lecture 13 - Skeletal Muscles - Part 1
Link NOC:Neuroscience of Human Movement Lecture 14 - Skeletal Muscles - Part 2
Link NOC:Neuroscience of Human Movement Lecture 15 - Skeletal Muscles - Part 3
Link NOC:Neuroscience of Human Movement Lecture 16 - Skeletal Muscles - Part 4
Link NOC:Neuroscience of Human Movement Lecture 17 - Muscle force production
Link NOC:Neuroscience of Human Movement Lecture 18 - Motor Units - Part 1
Link NOC:Neuroscience of Human Movement Lecture 19 - Motor Units - Part 2
Link NOC:Neuroscience of Human Movement Lecture 20 - Motor Units - PIC and EMG
Link NOC:Neuroscience of Human Movement Lecture 21 - Receptors - Part 1
Link NOC:Neuroscience of Human Movement Lecture 22 - Receptors - Part 2
Link NOC:Neuroscience of Human Movement Lecture 23 - Spine and Spinal Cord
Link NOC:Neuroscience of Human Movement Lecture 24 - Excitation and Inhibition within Spinal Cord - Part 1
Link NOC:Neuroscience of Human Movement Lecture 25 - Excitation and Inhibition within Spinal Cord - Part 2
Link NOC:Neuroscience of Human Movement Lecture 26 - Monosynaptic Reflexes - Part 1
Link NOC:Neuroscience of Human Movement Lecture 27 - Monosynaptic Reflexes - Part 2
Link NOC:Neuroscience of Human Movement Lecture 28 - Monosynaptic Reflexes - Part 3
Link NOC:Neuroscience of Human Movement Lecture 29 - Oligosynaptic and Polysynaptic Reflexes - Part 1
Link NOC:Neuroscience of Human Movement Lecture 30 - Oligosynaptic and Polysynaptic Reflexes - Part 2
Link NOC:Neuroscience of Human Movement Lecture 31 - Pre-Programmed Reactions - Part 1
Link NOC:Neuroscience of Human Movement Lecture 32 - Pre-Programmed Reactions - Part 2
Link NOC:Neuroscience of Human Movement Lecture 33 - Spinal Cord Injuries and Central Pattern Generators
Link NOC:Neuroscience of Human Movement Lecture 34 - Animal Preparations for Neuroscience Experiments
Link NOC:Neuroscience of Human Movement Lecture 35 - Overview of motor control system
Link NOC:Neuroscience of Human Movement Lecture 36 - Terminology : Directional Terms and Planes (Primary Motor Cortex - Part - 1)
Link NOC:Neuroscience of Human Movement Lecture 37 - Primary Motor Cortex - Part 2
Link NOC:Neuroscience of Human Movement Lecture 38 - Primary Motor Cortex - Part 3
Link NOC:Neuroscience of Human Movement Lecture 39 - Primary Motor Cortex - Part 4
Link NOC:Neuroscience of Human Movement Lecture 40 - Primary Motor Cortex - Part 5
Link NOC:Neuroscience of Human Movement Lecture 41 - Primary Motor Cortex - Part 6
Link NOC:Neuroscience of Human Movement Lecture 42 - Primary Motor Cortex - Part 7
Link NOC:Neuroscience of Human Movement Lecture 43 - Primary Motor Cortex - Part 8
Link NOC:Neuroscience of Human Movement Lecture 44 - Primary Motor Cortex - Part 9
Link NOC:Neuroscience of Human Movement Lecture 45 - Primary Motor Cortex - Part 10
Link NOC:Neuroscience of Human Movement Lecture 46 - Primary Motor Cortex - Part 11
Link NOC:Neuroscience of Human Movement Lecture 47 - Primary Motor Cortex - Part 12
Link NOC:Neuroscience of Human Movement Lecture 48 - Primary Motor Cortex - Part 13
Link NOC:Neuroscience of Human Movement Lecture 49 - Primary Motor Cortex - Part 14
Link NOC:Neuroscience of Human Movement Lecture 50 - Primary Motor Cortex - Part 15
Link NOC:Neuroscience of Human Movement Lecture 51 - Cerebellum - Part 1
Link NOC:Neuroscience of Human Movement Lecture 52 - Cerebellum - Part 2
Link NOC:Neuroscience of Human Movement Lecture 53 - Cerebellum - Part 3
Link NOC:Neuroscience of Human Movement Lecture 54 - Cerebellum - Part 4
Link NOC:Neuroscience of Human Movement Lecture 55 - Cerebellum - Part 5
Link NOC:Neuroscience of Human Movement Lecture 56 - Cerebellum - Part 6
Link NOC:Neuroscience of Human Movement Lecture 57 - Cerebellum - Part 7
Link NOC:Neuroscience of Human Movement Lecture 58 - Cerebellum - Part 8
Link NOC:Neuroscience of Human Movement Lecture 59 - Cerebellum - Part 9
Link NOC:Neuroscience of Human Movement Lecture 60 - Cerebellum - Part 10
Link NOC:Neuroscience of Human Movement Lecture 61 - Cerebellum - Part 11
Link NOC:Neuroscience of Human Movement Lecture 62 - Cerebellum - Part 12
Link NOC:Neuroscience of Human Movement Lecture 63 - Basal Ganglia - Part 1
Link NOC:Neuroscience of Human Movement Lecture 64 - Basal Ganglia - Pathways
Link NOC:Neuroscience of Human Movement Lecture 65 - Basal Ganglia - Inputs
Link NOC:Neuroscience of Human Movement Lecture 66 - Basal Ganglia - Outputs
Link NOC:Neuroscience of Human Movement Lecture 67 - Basal Ganglia - Various Functions
Link NOC:Neuroscience of Human Movement Lecture 68 - Basal Ganglia - Motor Functions
Link NOC:Neuroscience of Human Movement Lecture 69 - Basal Ganglia - Motor Functions.
Link NOC:Neuroscience of Human Movement Lecture 70 - Basal Ganglia - Dopamine and Acetylcholine
Link NOC:Neuroscience of Human Movement Lecture 71 - Basal Ganglia - Disorders
Link NOC:Neuroscience of Human Movement Lecture 72 - Parkinson's Disease - Intro
Link NOC:Neuroscience of Human Movement Lecture 73 - Parkinson's Disease - Rate Model, Pathophysiology
Link NOC:Neuroscience of Human Movement Lecture 74 - Parkinson's Disease - Current therapeutic approaches and the future
Link NOC:Neuroscience of Human Movement Lecture 75 - Basal Ganglia - Various Disorders
Link NOC:Neuroscience of Human Movement Lecture 76 - Neuropsychiatric disorders due to BG dysfunction
Link NOC:Neuroscience of Human Movement Lecture 77 - Parietal and Premotor Cortex - Part 1
Link NOC:Neuroscience of Human Movement Lecture 78 - Parietal and Premotor Cortex - Part 2
Link NOC:Neuroscience of Human Movement Lecture 79 - Parietal and Premotor Cortex - Part 3
Link NOC:Neuroscience of Human Movement Lecture 80 - Parietal and Premotor Cortex - Part 4
Link NOC:Neuroscience of Human Movement Lecture 81 - Parietal and Premotor Cortex - Part 5
Link NOC:Neuroscience of Human Movement Lecture 82 - Parietal and Premotor Cortex - Part 6
Link NOC:Manage TB Lecture 1 - How is TB affecting public health Globally and Nationally
Link NOC:Manage TB Lecture 2 - Epidemiology of TB-Session - 1
Link NOC:Manage TB Lecture 3 - Epidemiology of TB-Session - 2
Link NOC:Manage TB Lecture 4 - Pathogenesis of TB-Session - 1
Link NOC:Manage TB Lecture 5 - Pathogenesis of TB-Session - 2
Link NOC:Manage TB Lecture 6 - Clinical manifestations of TB-Session - 1
Link NOC:Manage TB Lecture 7 - Clinical manifestations of TB-Session - 2
Link NOC:Manage TB Lecture 8 - Clinical manifestations of TB-Session - 3
Link NOC:Manage TB Lecture 9 - Bacteriological Diagnosis of Tuberculosis - Smear and Culture
Link NOC:Manage TB Lecture 10 - Demonstration of processing of sputum specimen for culture for diagnosis of tuberculosis
Link NOC:Manage TB Lecture 11 - Demonstration of sputum smear examination for diagnosis of tuberculosis
Link NOC:Manage TB Lecture 12 - Demonstration of solid culture method for diagnosis of tuberculosis
Link NOC:Manage TB Lecture 13 - Demonstration of liquid culture method for diagnosis of tuberculosis in sputum
Link NOC:Manage TB Lecture 14 - Phenotypic drug susceptibility testing in Tuberculosis
Link NOC:Manage TB Lecture 15 - Demonstration of drug susceptibility testing of first line anti-TB drugs by liquid culture
Link NOC:Manage TB Lecture 16 - Molecular Diagnosis of Tuberculosis-Session - 1
Link NOC:Manage TB Lecture 17 - Molecular Diagnosis of Tuberculosis-Session - 2
Link NOC:Manage TB Lecture 18 - Demonstration of Xpert MTB-RIF assay for diagnosis of tuberculosis from sputum specimens
Link NOC:Manage TB Lecture 19 - Demonstration of Line Probe Assay (LPA) (Direct detection of tuberculosis and resistance to isoniazid and rifampicin) in sputum
Link NOC:Manage TB Lecture 20 - Radiology in diagnosis of Tuberculosis-Session - 1
Link NOC:Manage TB Lecture 21 - Radiology in diagnosis of Tuberculosis-Session - 2
Link NOC:Manage TB Lecture 22 - Radiology in diagnosis of Tuberculosis-Session - 3
Link NOC:Manage TB Lecture 23 - Radiology in diagnosis of Tuberculosis-Session - 4
Link NOC:Manage TB Lecture 24 - Approach to diagnosis of Pulmonary TB
Link NOC:Manage TB Lecture 25 - Case Discussion-Approach to diagnosis of TB in a person with presumptive pulmonary TB
Link NOC:Manage TB Lecture 26 - Case Discussion-Approach to diagnosis of pulmonary TB in a patient with negative sputum smear for AFB
Link NOC:Manage TB Lecture 27 - Approach to diagnosis of Extra-pulmonary TB
Link NOC:Manage TB Lecture 28 - Case Discussion-Approach to diagnosis of TB in a person with swelling in the neck
Link NOC:Manage TB Lecture 29 - Case Discussion-Approach to diagnosis of TB spine
Link NOC:Manage TB Lecture 30 - Diagnosis of Childhood Tuberculosis-Session - 1
Link NOC:Manage TB Lecture 31 - Diagnosis of Childhood Tuberculosis-Session - 2
Link NOC:Manage TB Lecture 32 - Video demonstration of gastric fluid aspiration technique in a child
Link NOC:Manage TB Lecture 33 - Case Discussion-Approach to diagnosis of TB in a child with presumptive pulmonary TB
Link NOC:Manage TB Lecture 34 - Case Discussion-Approach to diagnosis of TB meningitis in a child
Link NOC:Manage TB Lecture 35 - Drugs for treating Tuberculosis and Principles of Chemotherapy-Session - 1
Link NOC:Manage TB Lecture 36 - Drugs for treating Tuberculosis and Principles of Chemotherapy-Session - 2
Link NOC:Manage TB Lecture 37 - Treatment of Drug Sensitive Pulmonary Tuberculosis
Link NOC:Manage TB Lecture 38 - Case discussion-Approach to treatment of drug sensitive TB
Link NOC:Manage TB Lecture 39 - Management of drug resistant Tuberculosis-Session - 1
Link NOC:Manage TB Lecture 40 - Management of drug resistant Tuberculosis-Session - 2
Link NOC:Manage TB Lecture 41 - Case discussion-Approach to treatment of Multi-drug resistant TB (MDR-TB)/ Extensively drug resistant TB (XDR-TB)
Link NOC:Manage TB Lecture 42 - Management of Extra-pulmonary Tuberculosis-Session - 1
Link NOC:Manage TB Lecture 43 - Management of Extra-pulmonary Tuberculosis-Session - 2
Link NOC:Manage TB Lecture 44 - Panel discussion-Practical difficulties in the management of Extra-pulmonary TB
Link NOC:Manage TB Lecture 45 - Management of patients with HIV-TB coinfection-Session - 1
Link NOC:Manage TB Lecture 46 - Management of patients with HIV-TB coinfection-Session - 2
Link NOC:Manage TB Lecture 47 - Case discussion-Approach to management of HIV-TB
Link NOC:Manage TB Lecture 48 - Management of TB in special situations
Link NOC:Manage TB Lecture 49 - Case discussion-Approach to management of TB in pregnancy
Link NOC:Manage TB Lecture 50 - Treatment of Pediatric Tuberculosis-Session - 1
Link NOC:Manage TB Lecture 51 - Treatment of Pediatric Tuberculosis-Session - 2
Link NOC:Manage TB Lecture 52 - Management of Adverse effects to anti-TB drugs-Session - 1
Link NOC:Manage TB Lecture 53 - Management of Adverse effects to anti-TB drugs-Session - 2
Link NOC:Manage TB Lecture 54 - Case discussion-Approach to management of jaundice during anti-TB treatment
Link NOC:Manage TB Lecture 55 - Case discussion-Approach to management of skin rashes during anti-TB treatment
Link NOC:Manage TB Lecture 56 - Non-tuberculous Mycobacteria- Diagnosis and Clinical management-Session - 1
Link NOC:Manage TB Lecture 57 - Non-tuberculous Mycobacteria - Diagnosis and Clinical Management Session - 2
Link NOC:Manage TB Lecture 58 - Newer Anti-TB drugs and regimens-Session - 1
Link NOC:Manage TB Lecture 59 - Newer Anti-TB drugs and regimens-Session - 2
Link NOC:Manage TB Lecture 60 - Management of Latent TB Infection-Session - 1
Link NOC:Manage TB Lecture 61 - Management of Latent TB Infection-Session - 2
Link NOC:Manage TB Lecture 62 - Airborne infection control in tuberculosis-Session - 1
Link NOC:Manage TB Lecture 63 - Airborne infection control in tuberculosis-Session - 2
Link NOC:Manage TB Lecture 64 - Vaccine for Tuberculosis-Session - 1
Link NOC:Manage TB Lecture 65 - Vaccine for Tuberculosis-Session - 2
Link NOC:Manage TB Lecture 66 - Services offered by Revised National TB Control Programme (RNTCP)-Session - 1
Link NOC:Manage TB Lecture 67 - Services offered by Revised National TB Control Programme (RNTCP)-Session - 2
Link NOC:Manage TB Lecture 68 - Services offered by Revised National TB Control Programme (RNTCP)-Session - 3
Link NOC:Manage TB Lecture 69 - Services offered by Revised National TB Control Programme (RNTCP)-Session - 4
Link NOC:Manage TB Lecture 70 - Tuberculosis notification-Session - 1
Link NOC:Manage TB Lecture 71 - Tuberculosis notification-Session - 2
Link NOC:Manage TB Lecture 72 - Addressing Social Barriers in Tuberculosis Control-Session - 1
Link NOC:Manage TB Lecture 73 - Addressing Social Barriers in Tuberculosis Control-Session - 2
Link NOC:Manage TB Lecture 74 - Standards for TB Care in India-Session - 1
Link NOC:Manage TB Lecture 75 - Standards for TB Care in India-Session - 2
Link NOC:Manage TB Lecture 76 - Global Tuberculosis Control Strategies
Link NOC:Ecology and Environment Lecture 1 - Sustainability
Link NOC:Ecology and Environment Lecture 2 - Dams
Link NOC:Ecology and Environment Lecture 3 - Dams
Link NOC:Ecology and Environment Lecture 4 - Adayar River
Link NOC:Ecology and Environment Lecture 5 - Adayar River
Link NOC:Ecology and Environment Lecture 6 - Urbanisation in Western Ghats and Biodiesel
Link NOC:Ecology and Environment Lecture 7 - Use And Throw Plastic
Link NOC:Ecology and Environment Lecture 8 - Nano Materials Information Technologhy
Link NOC:Ecology and Environment Lecture 9 - Definition of Health Risk
Link NOC:Ecology and Environment Lecture 10 - Transport Of Pollutants in the Environment
Link NOC:Ecology and Environment Lecture 11 - Assesment of Risk
Link NOC:Ecology and Environment Lecture 12 - Remediation and Liability
Link NOC:Ecology and Environment Lecture 13 - Remendiation and Liability
Link NOC:Ecology and Environment Lecture 14 - Life Cycle Analysis
Link NOC:Ecology and Environment Lecture 15 - Energy and Environment module - 1
Link NOC:Ecology and Environment Lecture 16 - Energy and Environment module - 2
Link NOC:Ecology and Environment Lecture 17 - Energy and Environment module - 3
Link NOC:Ecology and Environment Lecture 18 - Energy and Environment module - 4
Link NOC:Ecology and Environment Lecture 19 - Energy and Environment module - 5
Link NOC:Ecology and Environment Lecture 20 - Energy and Environment module - 6
Link NOC:Ecology and Environment Lecture 21 - Energy and Environment module - 7
Link NOC:Ecology and Environment Lecture 22 - Drinking Water Supply: Need and Challenges
Link NOC:Ecology and Environment Lecture 23 - Drinking Water Supply: Need and Challenges
Link NOC:Ecology and Environment Lecture 24 - Water Quality Standards And Philosophy of Water Treatment
Link NOC:Ecology and Environment Lecture 25 - Water Treatment: Point Of Use Filters
Link NOC:Ecology and Environment Lecture 26 - Wastewater Management in Developing Urban Environments: Indian Scenario
Link NOC:Ecology and Environment Lecture 27 - Wastewater Recycling: A Sustainable Option For Water Management
Link NOC:Ecology and Environment Lecture 28 - Sustainable Water Management In Urban Areas - Part 1
Link NOC:Ecology and Environment Lecture 29 - Sustainable Water Management In Urban Areas - Part 2
Link NOC:Ecology and Environment Lecture 30 - Ground Water Contamination
Link NOC:Ecology and Environment Lecture 31 - Groundwater - Sanitation Nexus
Link NOC:Ecology and Environment Lecture 32 - Chasing Sustainability - The Challenge - Part 1
Link NOC:Ecology and Environment Lecture 33 - Chasing Sustainability - The Challenge - Part 2
Link NOC:Ecology and Environment Lecture 34 - Devoloping Frame Works Of Action: Ethics - Part 1
Link NOC:Ecology and Environment Lecture 35 - Devoloping Frame Works Of Action: Ethics - Part 2
Link NOC:Ecology and Environment Lecture 36 - Social And sanitation
Link NOC:Ecology and Environment Lecture 37 - Promoting Policies For Eco-Productive Cities in the global House - Part 1
Link NOC:Ecology and Environment Lecture 38 - Promoting Policies For Eco-Productive Cities in the global House - Part 2
Link NOC:Ecology and Environment Lecture 39 - The need to study ecology
Link NOC:Ecology and Environment Lecture 40 - Ecosystem functions and services
Link NOC:Ecology and Environment Lecture 41 - What is studied in ecology?
Link NOC:Ecology and Environment Lecture 42 - Ecological footprint
Link NOC:Ecology and Environment Lecture 43 - Energy and Material flow in ecosystems and ecological efficiency
Link NOC:Ecology and Environment Lecture 44 - Energy flow, productivity and Biodiversity
Link NOC:Ecology and Environment Lecture 45 - Biodiversity, population and ecological principles
Link NOC:Current Regulatory Requirements for Conducting Clinical Trials in India Lecture 1 - C1 - L00
Link NOC:Current Regulatory Requirements for Conducting Clinical Trials in India Lecture 2 - C1 - Introduction Assorted Interviews
Link NOC:Current Regulatory Requirements for Conducting Clinical Trials in India Lecture 3 - C1 - L01
Link NOC:Current Regulatory Requirements for Conducting Clinical Trials in India Lecture 4 - C1 - L02
Link NOC:Current Regulatory Requirements for Conducting Clinical Trials in India Lecture 5 - C1 - L03
Link NOC:Current Regulatory Requirements for Conducting Clinical Trials in India Lecture 6 - C1 - L04
Link NOC:Current Regulatory Requirements for Conducting Clinical Trials in India Lecture 7 - C1 - L05
Link NOC:Current Regulatory Requirements for Conducting Clinical Trials in India Lecture 8 - C1 - L06
Link NOC:Current Regulatory Requirements for Conducting Clinical Trials in India Lecture 9 - C1 - L07
Link NOC:Current Regulatory Requirements for Conducting Clinical Trials in India Lecture 10 - C1 - L08
Link NOC:Current Regulatory Requirements for Conducting Clinical Trials in India Lecture 11 - C1 - L09
Link NOC:Current Regulatory Requirements for Conducting Clinical Trials in India Lecture 12 - C1 - L10A
Link NOC:Current Regulatory Requirements for Conducting Clinical Trials in India Lecture 13 - C1 - L10B
Link NOC:Regulatory Requirements for Medical Devices and IVD kits in India Lecture 1 - C2 - Introduction Assorted Interviews
Link NOC:Regulatory Requirements for Medical Devices and IVD kits in India Lecture 2 - C2 - L00
Link NOC:Regulatory Requirements for Medical Devices and IVD kits in India Lecture 3 - C2 - L01
Link NOC:Regulatory Requirements for Medical Devices and IVD kits in India Lecture 4 - C2 - L02
Link NOC:Regulatory Requirements for Medical Devices and IVD kits in India Lecture 5 - C2 - L03
Link NOC:Regulatory Requirements for Medical Devices and IVD kits in India Lecture 6 - C2 - L04
Link NOC:Regulatory Requirements for Medical Devices and IVD kits in India Lecture 7 - C2 - L05
Link NOC:Regulatory Requirements for Medical Devices and IVD kits in India Lecture 8 - C2 - L06
Link NOC:Regulatory Requirements for Medical Devices and IVD kits in India Lecture 9 - C2 - L07
Link NOC:Regulatory Requirements for Medical Devices and IVD kits in India Lecture 10 - C2 - L08
Link NOC:Regulatory Requirements for Medical Devices and IVD kits in India Lecture 11 - C2 - L09
Link NOC:Numerical Methods for Engineers Lecture 1 - Introduction
Link NOC:Numerical Methods for Engineers Lecture 2 - Overview of Learning Modules
Link NOC:Numerical Methods for Engineers Lecture 3 - Course Plan
Link NOC:Numerical Methods for Engineers Lecture 4 - Tutorial: Excel
Link NOC:Numerical Methods for Engineers Lecture 5 - Errors and Approximations
Link NOC:Numerical Methods for Engineers Lecture 6 - Truncation and Round-Off Errors
Link NOC:Numerical Methods for Engineers Lecture 7 - Binary Numbers: Introduction
Link NOC:Numerical Methods for Engineers Lecture 8 - Floating Point: Real numbers in decimal system
Link NOC:Numerical Methods for Engineers Lecture 9 - Floating Point in Binary system
Link NOC:Numerical Methods for Engineers Lecture 10 - Iterative Method
Link NOC:Numerical Methods for Engineers Lecture 11 - Direct Method
Link NOC:Numerical Methods for Engineers Lecture 12 - Sequential Method
Link NOC:Numerical Methods for Engineers Lecture 13 - Linear Algebra: Basics
Link NOC:Numerical Methods for Engineers Lecture 14 - Introduction to Linear Equations
Link NOC:Numerical Methods for Engineers Lecture 15 - Rank Condition for Solving Linear Equations
Link NOC:Numerical Methods for Engineers Lecture 16 - Motivating Gauss Elimination
Link NOC:Numerical Methods for Engineers Lecture 17 - Gauss Elimination
Link NOC:Numerical Methods for Engineers Lecture 18 - Tutorial Recap: Gauss Elimination
Link NOC:Numerical Methods for Engineers Lecture 19 - Back Substitution to find solution
Link NOC:Numerical Methods for Engineers Lecture 20 - Gauss Jordan and LU Decomposition
Link NOC:Numerical Methods for Engineers Lecture 21 - Partial Pivoting in Gauss Elimination
Link NOC:Numerical Methods for Engineers Lecture 22 - Analysis of Gauss Elimination
Link NOC:Numerical Methods for Engineers Lecture 23 - Tri-Diagonal Systems: Practical Relevance
Link NOC:Numerical Methods for Engineers Lecture 24 - Thomas Algorithm for Tri-Diagonal Systems
Link NOC:Numerical Methods for Engineers Lecture 25 - Gauss Siedel Method
Link NOC:Numerical Methods for Engineers Lecture 26 - Analysis of Gauss Siedel Method
Link NOC:Numerical Methods for Engineers Lecture 27 - Gauss Siedel vs. Jacobi Methods
Link NOC:Numerical Methods for Engineers Lecture 28 - Bonus: Example using MS Excel
Link NOC:Numerical Methods for Engineers Lecture 29 - Summary: Linear Equations
Link NOC:Numerical Methods for Engineers Lecture 30 - Introduction to Nonlinear Equations
Link NOC:Numerical Methods for Engineers Lecture 31 - Bisection Method
Link NOC:Numerical Methods for Engineers Lecture 32 - Analysis of Bisection Method
Link NOC:Numerical Methods for Engineers Lecture 33 - Bonus: Excel Solution for Bisection Method
Link NOC:Numerical Methods for Engineers Lecture 34 - Regula-Falsi Method
Link NOC:Numerical Methods for Engineers Lecture 35 - Bonus: Excel Solution for Regula-Falsi Method
Link NOC:Numerical Methods for Engineers Lecture 36 - Regula-Falsi vs. Secant Method
Link NOC:Numerical Methods for Engineers Lecture 37 - Bonus: Excel Solution for Secant Method
Link NOC:Numerical Methods for Engineers Lecture 38 - Some special cases
Link NOC:Numerical Methods for Engineers Lecture 39 - Fixed-Point Iteration
Link NOC:Numerical Methods for Engineers Lecture 40 - Newton-Raphson Method
Link NOC:Numerical Methods for Engineers Lecture 41 - Analysis of Fixed-Point Iteration
Link NOC:Numerical Methods for Engineers Lecture 42 - Analysis of Newton-Raphson
Link NOC:Numerical Methods for Engineers Lecture 43 - Problems with Newton-Raphson
Link NOC:Numerical Methods for Engineers Lecture 44 - Multi-Variable Fixed-Point Iteration
Link NOC:Numerical Methods for Engineers Lecture 45 - Multi-Variable Newton-Raphson
Link NOC:Numerical Methods for Engineers Lecture 46 - Out of Syllabus: Improvements to NR Methods
Link NOC:Numerical Methods for Engineers Lecture 47 - Out of Syllabus: Roots of a polynomial
Link NOC:Numerical Methods for Engineers Lecture 48 - Summary
Link NOC:Numerical Methods for Engineers Lecture 49 - Introduction: Regression and Interpolation
Link NOC:Numerical Methods for Engineers Lecture 50 - Linear Regression in One Variable
Link NOC:Numerical Methods for Engineers Lecture 51 - Recap: Formula for Linear Regression
Link NOC:Numerical Methods for Engineers Lecture 52 - Bonus: Linear Regression using MS-Excel
Link NOC:Numerical Methods for Engineers Lecture 53 - Linear Regression in Multiple Variables
Link NOC:Numerical Methods for Engineers Lecture 54 - Matrix Method for Multi-Linear Regression
Link NOC:Numerical Methods for Engineers Lecture 55 - Polynomial Regression
Link NOC:Numerical Methods for Engineers Lecture 56 - Functional Regression
Link NOC:Numerical Methods for Engineers Lecture 57 - Bonus: X-Y versus Y-X data (Using MS Excel)
Link NOC:Numerical Methods for Engineers Lecture 58 - Interpolation: Introduction and A Naïve Extension
Link NOC:Numerical Methods for Engineers Lecture 59 - Bonus: MS-Excel for Naïve Interpolation
Link NOC:Numerical Methods for Engineers Lecture 60 - Lagrange Interpolating Polynomials
Link NOC:Numerical Methods for Engineers Lecture 61 - Newton's Forward Difference Polynomial
Link NOC:Numerical Methods for Engineers Lecture 62 - Newton's Divided Differences: Derivation
Link NOC:Numerical Methods for Engineers Lecture 63 - Interpolation Examples
Link NOC:Numerical Methods for Engineers Lecture 64 - Bonus: MS-Excel for Newton's Polynomial
Link NOC:Numerical Methods for Engineers Lecture 65 - Summary: Regression and Interpolation
Link NOC:Numerical Methods for Engineers Lecture 66 - Numerical Differentiation: Introduction
Link NOC:Numerical Methods for Engineers Lecture 67 - Numerical Differentiation Formula and Analysis
Link NOC:Numerical Methods for Engineers Lecture 68 - Derivation using Method of undetermined coefficients
Link NOC:Numerical Methods for Engineers Lecture 69 - Three-point differentiation formulae
Link NOC:Numerical Methods for Engineers Lecture 70 - Bonus: Differentiation using MS-Excel
Link NOC:Numerical Methods for Engineers Lecture 71 - Truncation vs. Round-Off Errors
Link NOC:Numerical Methods for Engineers Lecture 72 - Numerical Differentiation Examples
Link NOC:Numerical Methods for Engineers Lecture 73 - Summary of Numerical Differentiation
Link NOC:Numerical Methods for Engineers Lecture 74 - Numerical Integration: Introduction
Link NOC:Numerical Methods for Engineers Lecture 75 - Trapezoidal rule and Derivation
Link NOC:Numerical Methods for Engineers Lecture 76 - Simpson's Rules for Integration
Link NOC:Numerical Methods for Engineers Lecture 77 - Bonus: MS-Excel for Numerical Integration
Link NOC:Numerical Methods for Engineers Lecture 78 - Error Analysis for Simpson's Rules
Link NOC:Numerical Methods for Engineers Lecture 79 - Numerical Integration Examples
Link NOC:Numerical Methods for Engineers Lecture 80 - Bonus: Integration using MS-Excel
Link NOC:Numerical Methods for Engineers Lecture 81 - Summary of Newton Cotes Formulae
Link NOC:Numerical Methods for Engineers Lecture 82 - Richardson's Extrapolation
Link NOC:Numerical Methods for Engineers Lecture 83 - Gauss Quadrature
Link NOC:Numerical Methods for Engineers Lecture 84 - Summary of Numerical Integration
Link NOC:Numerical Methods for Engineers Lecture 85 - Introduction to ODE-IVP
Link NOC:Numerical Methods for Engineers Lecture 86 - Motivation using an Example (Bonus)
Link NOC:Numerical Methods for Engineers Lecture 87 - Euler's Methods and Second-Order Methods
Link NOC:Numerical Methods for Engineers Lecture 88 - Second-Order Runge-Kutta Methods
Link NOC:Numerical Methods for Engineers Lecture 89 - Summary of RK-2
Link NOC:Numerical Methods for Engineers Lecture 90 - Higher order RK Methods
Link NOC:Numerical Methods for Engineers Lecture 91 - Bonus: ODE-IVP using MS-Excel
Link NOC:Numerical Methods for Engineers Lecture 92 - Bonus: RK-2 and RK-4 Methods using MS-Excel
Link NOC:Numerical Methods for Engineers Lecture 93 - Summary and Recap
Link NOC:Numerical Methods for Engineers Lecture 94 - Introduction to Predictor-Corrector Methods
Link NOC:Numerical Methods for Engineers Lecture 95 - Stability of Implicit Methods: Overview
Link NOC:Numerical Methods for Engineers Lecture 96 - Stability Analysis of Euler's Methods
Link NOC:Numerical Methods for Engineers Lecture 97 - Extension to multiple variables
Link NOC:Numerical Methods for Engineers Lecture 98 - Local vs. Global Truncation Errors
Link NOC:Numerical Methods for Engineers Lecture 99 - Richardson's Extrapolation
Link NOC:Numerical Methods for Engineers Lecture 100 - Stiff System of ODEs: Introduction
Link NOC:Numerical Methods for Engineers Lecture 101 - Adaptive Step-sizing
Link NOC:Numerical Methods for Engineers Lecture 102 - Adaptive step-sizing and Embedded Methods
Link NOC:Numerical Methods for Engineers Lecture 103 - Bonus: Errors and Extrapolation using MS-Excel
Link NOC:Numerical Methods for Engineers Lecture 104 - Summary and Recap (Weeks 10 and 11)
Link NOC:Numerical Methods for Engineers Lecture 105 - Introduction to ODE-BVP
Link NOC:Numerical Methods for Engineers Lecture 106 - Shooting Method: An Overview
Link NOC:Numerical Methods for Engineers Lecture 107 - Finite Difference Method: An Overview
Link NOC:Numerical Methods for Engineers Lecture 108 - Solution using Shooting Method
Link NOC:Numerical Methods for Engineers Lecture 109 - Algorithm for Shooting Method
Link NOC:Numerical Methods for Engineers Lecture 110 - Problems with Shooting Method
Link NOC:Numerical Methods for Engineers Lecture 111 - Solving ODE-BVP using Finite Difference Method
Link NOC:Numerical Methods for Engineers Lecture 112 - Microsoft Excel based Solution
Link NOC:Numerical Methods for Engineers Lecture 113 - Recap of Week-12 (ODE-BVP)
Link Basic Course in Biomedical Research Lecture 1 - Introduction to health research
Link Basic Course in Biomedical Research Lecture 2 - Formulating research question
Link Basic Course in Biomedical Research Lecture 3 - Literature review
Link Basic Course in Biomedical Research Lecture 4 - Measures of disease frequency
Link Basic Course in Biomedical Research Lecture 5 - Descriptive study designs
Link Basic Course in Biomedical Research Lecture 6 - Analytical study designs
Link Basic Course in Biomedical Research Lecture 7 - Experimental study designs: Clinical trials
Link Basic Course in Biomedical Research Lecture 8 - Validity of epidemiological studies
Link Basic Course in Biomedical Research Lecture 9 - Qualitative research methods: An overview
Link Basic Course in Biomedical Research Lecture 10 - Measurement of study variables
Link Basic Course in Biomedical Research Lecture 11 - Sampling methods
Link Basic Course in Biomedical Research Lecture 12 - Calculating sample size and power
Link Basic Course in Biomedical Research Lecture 13 - Selection of study population
Link Basic Course in Biomedical Research Lecture 14 - Study plan and project management
Link Basic Course in Biomedical Research Lecture 15 - Designing data collection tools
Link Basic Course in Biomedical Research Lecture 16 - Principles of data collection
Link Basic Course in Biomedical Research Lecture 17 - Data management
Link Basic Course in Biomedical Research Lecture 18 - Overview of data analysis
Link Basic Course in Biomedical Research Lecture 19 - Ethical framework for health research
Link Basic Course in Biomedical Research Lecture 20 - Conducting clinical trails
Link Basic Course in Biomedical Research Lecture 21 - Preparing a concept paper for research projects
Link Basic Course in Biomedical Research Lecture 22 - Elements of a protocol for research studies
Link NOC:Teaching and Learning in Engineering (TALE) Lecture 1 - Overview of TALE and Good Engineer
Link NOC:Teaching and Learning in Engineering (TALE) Lecture 2 - Education and Teaching
Link NOC:Teaching and Learning in Engineering (TALE) Lecture 3 - Learning, Instruction and Assessment
Link NOC:Teaching and Learning in Engineering (TALE) Lecture 4 - What is OBE?
Link NOC:Teaching and Learning in Engineering (TALE) Lecture 5 - Accreditation
Link NOC:Teaching and Learning in Engineering (TALE) Lecture 6 - Outcomes
Link NOC:Teaching and Learning in Engineering (TALE) Lecture 7 - Program Outcomes - 1
Link NOC:Teaching and Learning in Engineering (TALE) Lecture 8 - Program Outcomes - 2
Link NOC:Teaching and Learning in Engineering (TALE) Lecture 9 - Taxonomy of Learning
Link NOC:Teaching and Learning in Engineering (TALE) Lecture 10 - Cognitive Levels
Link NOC:Teaching and Learning in Engineering (TALE) Lecture 11 - General Categories of Knowledge
Link NOC:Teaching and Learning in Engineering (TALE) Lecture 12 - Metacognitive Knowledge
Link NOC:Teaching and Learning in Engineering (TALE) Lecture 13 - Vincenti Categories of Engineering Knowledge
Link NOC:Teaching and Learning in Engineering (TALE) Lecture 14 - Affective and Psychomotor Domains
Link NOC:Teaching and Learning in Engineering (TALE) Lecture 15 - Taxonomy Table
Link NOC:Teaching and Learning in Engineering (TALE) Lecture 16 - Course Outcomes - 1
Link NOC:Teaching and Learning in Engineering (TALE) Lecture 17 - Course Outcomes - 2
Link NOC:Teaching and Learning in Engineering (TALE) Lecture 18 - Course Outcomes - POs and PSOs
Link NOC:Teaching and Learning in Engineering (TALE) Lecture 19 - Attainment of COs
Link NOC:Teaching and Learning in Engineering (TALE) Lecture 20 - Attainment of POs and PSOs
Link NOC:Teaching and Learning in General Programs Lecture 1 - Teaching and Learning in General Programs (TALG)
Link NOC:Teaching and Learning in General Programs Lecture 2 - Education and Teaching
Link NOC:Teaching and Learning in General Programs Lecture 3 - Learning, Assessment and Instruction
Link NOC:Teaching and Learning in General Programs Lecture 4 - Outcome Based Education (OBE)
Link NOC:Teaching and Learning in General Programs Lecture 5 - Accreditation
Link NOC:Teaching and Learning in General Programs Lecture 6 - Program Outcomes
Link NOC:Teaching and Learning in General Programs Lecture 7 - POs and PSOs
Link NOC:Teaching and Learning in General Programs Lecture 8 - Taxonomy of Learning: Cognitive Levels - 1
Link NOC:Teaching and Learning in General Programs Lecture 9 - Taxonomy of Learning: Cognitive Levels - 2
Link NOC:Teaching and Learning in General Programs Lecture 10 - Taxonomy of Learning: Knowledge Categories
Link NOC:Teaching and Learning in General Programs Lecture 11 - Taxonomy of Learning: Metacognitive Knowledge
Link NOC:Teaching and Learning in General Programs Lecture 12 - Affective Domain
Link NOC:Teaching and Learning in General Programs Lecture 13 - Psychomotor Domain
Link NOC:Teaching and Learning in General Programs Lecture 14 - Taxonomy Tables
Link NOC:Teaching and Learning in General Programs Lecture 15 - Course Outcomes - 1
Link NOC:Teaching and Learning in General Programs Lecture 16 - Course Outcomes - 2
Link NOC:Teaching and Learning in General Programs Lecture 17 - Tagging the Course Outcomes
Link NOC:Teaching and Learning in General Programs Lecture 18 - Attainment of Course Outcomes
Link NOC:Teaching and Learning in General Programs Lecture 19 - Attainment of POs and PSOs
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 1 - Engineering Programs, NBA Accreditation and Engineering Courses
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 2 - Course Design
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 3 - ISD and ADDIE
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 4 - Analysis Phase - 1
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 5 - Analysis Phase - 2
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 6 - Design Phase
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 7 - Technology and Targets
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 8 - Assessment Pattern and Assessment Instruments
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 9 - Item Banks
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 10 - Development Phase
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 11 - Instruction Material and Learning Material
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 12 - Implement Phase - 1
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 13 - Implement Phase - 2
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 14 - Evaluate Phase
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 15 - Course Exit Survey
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 16 - Evaluating Laboratories and Electives
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 17 - Exit Surveys for Projects
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 18 - Summary Feedback
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 19 - Instruction: An Overview
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 20 - Instructional Situations
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 21 - How Brains Learn - 1
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 22 - How Brains Learn - 2
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 23 - How Brains Learn - 3
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 24 - Instructional Components - 1
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 25 - Instructional Components - 2
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 26 - Merrill’s Principles of Learning
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 27 - ID based on Merrill’s Principles
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 28 - Direct Approach to Instruction
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 29 - Project Based Approach to Instruction
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 30 - Problem Based Approach to Instruction
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 31 - Experiential Approach to Instruction
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 32 - Simulation Approach to Instruction
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 33 - Instruction for Design
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 34 - Instruction for Metacognitive Learning
Link NOC:TALE 2 - Course Design and Instruction of Engineering Courses Lecture 35 - So, what should a teacher do?
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 1 - Introduction to Graph Theory - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 2 - Introduction to Graph Theory - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 3 - Introduction to Graph Algorithms - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 4 - Introduction to Graph Algorithms - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 5 - Havel Hakimi Theorem - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 6 - Havel Hakimi Theorem - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 7 - Havel Hakimi Theorem - Part 3
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 8 - Graph Traversals - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 9 - Graph Traversals - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 10 - Topological Sort and Mengers Theorem - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 11 - Topological Sort and Mengers Theorem - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 12 - Topological Sort and Mengers Theorem - Part 3
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 13 - Hamiltonian Graphs - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 14 - Hamiltonian Graphs - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 15 - Shortest path Algorithms 1 - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 16 - Shortest path Algorithms 1 - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 17 - Shortest path Algorithms 1 - Part 3
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 18 - Shortest path Algorithms 1 - Part 4
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 19 - Matching in Graphs - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 20 - Matching in Graphs - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 21 - Some Graph Theoretic Puzzles - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 22 - Some Graph Theoretic Puzzles - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 23 - Network Flow Algorithms - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 24 - Network Flow Algorithms - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 25 - Network Flow Algorithms - Part 3
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 26 - Network Flow Algorithms - Part 4
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 27 - Network Flow Algorithms - Part 5
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 28 - Network Flow Algorithms - Part 6
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 29 - Network Flows - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 30 - Network Flows - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 31 - Network Flows - Part 3
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 32 - Network Flows - Part 4
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 33 - Turan’s and Madrur’s theorem - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 34 - Turan’s and Madrur’s theorem - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 35 - NP Computations - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 36 - NP Computations - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 37 - Spectral Graph Theory-I - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 38 - Spectral Graph Theory-I - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 39 - Spectral Graph Theory-I - Part 3
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 40 - NP Computations II - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 41 - NP Computations II - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 42 - Graph Coloring - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 43 - Graph Coloring - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 44 - Spectral Graph Theory-II - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 45 - Spectral Graph Theory-II - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 46 - NP Computations Reductions - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 47 - NP Computations Reductions - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 48 - NP Computations Reductions - Part 3
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 49 - Spectral Graph Theory-III - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 50 - Planar Graphs - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 51 - Planar Graphs - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 52 - NP Computations and Approximation Algorithms - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 53 - NP Computations and Approximation Algorithms - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 54 - Spectral Graph Theory-IV - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 55 - Spectral Graph Theory-IV - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 56 - Approximation Algorithms I - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 57 - Approximation Algorithms I - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 58 - Social Network Analysis - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 59 - Social Network Analysis - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 60 - Spectral Graph Theory-V - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 61 - Spectral Graph Theory-V - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 62 - Approximation Algorithms II - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 63 - Approximation Algorithms II - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 64 - Spectral Graph Theory-VI - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 65 - Spectral Graph Theory-VI - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 66 - RSA Crypto - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 67 - RSA Crypto - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 68 - Approximation Algorithms III - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 69 - Approximation Algorithms III - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 70 - Spectral Graph Theory-VII - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 71 - Spectral Graph Theory-VII - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 72 - Exact Exponential Algorithms - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 73 - Exact Exponential Algorithms - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 74 - Interconnection Networks - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 75 - Interconnection Networks - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 76 - Kernelization - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 77 - Kernelization - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 78 - Kernelization - Part 3
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 79 - Introduction to Parameterized Algorithms - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 80 - Introduction to Parameterized Algorithms - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 81 - Chardal Graphs - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 82 - Chardal Graphs - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 83 - Branching - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 84 - Branching - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 85 - Interval Graphs and Split Graphs - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 86 - Interval Graphs and Split Graphs - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 87 - Vertex cover linear vertex kernel using LP - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 88 - Vertex cover linear vertex kernel using LP - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 89 - Comparability Graphs - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 90 - Comparability Graphs - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 91 - Introduction to Randomized Algorithms and Karger's Min-cut Algorithm - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 92 - Introduction to Randomized Algorithms and Karger's Min-cut Algorithm - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 93 - Probability Methods to Ramsey Number - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 94 - Probability Methods to Ramsey Number - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 95 - Color Coding - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 96 - Color Coding - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 97 - Fast Min-cut Algorithm and its analysis - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 98 - Fast Min-cut Algorithm and its analysis - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 99 - Box Representations of Graphs - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 100 - Box Representations of Graphs - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 101 - Hardness for FPT - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 102 - Hardness for FPT - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms Lecture 103 - Application of min-cut Algorithm
Link ACM Summer School in Data Science Lecture 1 - Probability - Part 1
Link ACM Summer School in Data Science Lecture 2 - Probability - Part 2
Link ACM Summer School in Data Science Lecture 3 - Probability - Part 3
Link ACM Summer School in Data Science Lecture 4 - Math Foundation - Part 1
Link ACM Summer School in Data Science Lecture 5 - Math Foundation - Part 2
Link ACM Summer School in Data Science Lecture 6 - Math Foundation - Part 3
Link ACM Summer School in Data Science Lecture 7 - Math Foundation 2 - Part 1
Link ACM Summer School in Data Science Lecture 8 - Math Foundation 2 - Part 2
Link ACM Summer School in Data Science Lecture 9 - Math Foundation 2 - Part 3
Link ACM Summer School in Data Science Lecture 10 - Introduction to probability for Data science - Part 1
Link ACM Summer School in Data Science Lecture 11 - Introduction to probability for Data science - Part 2
Link ACM Summer School in Data Science Lecture 12 - Introduction to probability for Data science - Part 3
Link ACM Summer School in Data Science Lecture 13 - Introduction to Statistics for Data science - Part 1
Link ACM Summer School in Data Science Lecture 14 - Introduction to Statistics for Data science - Part 2
Link ACM Summer School in Data Science Lecture 15 - Introduction to Statistics for Data science - Part 3
Link ACM Summer School in Data Science Lecture 16 - Clustering I - Part 1
Link ACM Summer School in Data Science Lecture 17 - Clustering I - Part 2
Link ACM Summer School in Data Science Lecture 18 - Clustering I - Part 3
Link ACM Summer School in Data Science Lecture 19 - Clustering II - Part 1
Link ACM Summer School in Data Science Lecture 20 - Clustering II - Part 2
Link ACM Summer School in Data Science Lecture 21 - Clustering II - Part 3
Link ACM Summer School in Data Science Lecture 22 - Dimensionality Reduction - Part 1
Link ACM Summer School in Data Science Lecture 23 - Dimensionality Reduction - Part 2
Link ACM Summer School in Data Science Lecture 24 - Dimensionality Reduction - Part 3
Link ACM Summer School in Data Science Lecture 25 - Supervised Learning I - Part 1
Link ACM Summer School in Data Science Lecture 26 - Supervised Learning I - Part 2
Link ACM Summer School in Data Science Lecture 27 - Supervised Learning I - Part 3
Link ACM Summer School in Data Science Lecture 28 - Supervised Learning II - Part 1
Link ACM Summer School in Data Science Lecture 29 - Supervised Learning II - Part 2
Link ACM Summer School in Data Science Lecture 30 - Supervised Learning II - Part 3
Link ACM Summer School in Data Science Lecture 31 - Supervised Learning III - Part 1
Link ACM Summer School in Data Science Lecture 32 - Supervised Learning III - Part 2
Link ACM Summer School in Data Science Lecture 33 - Supervised Learning III - Part 3
Link ACM Summer School in Data Science Lecture 34 - Linear Models For Classification - Part 1
Link ACM Summer School in Data Science Lecture 35 - Linear Models For Classification - Part 2
Link ACM Summer School in Data Science Lecture 36 - Linear Models For Classification - Part 3
Link ACM Summer School in Data Science Lecture 37 - Tree Based Methods - Part 1
Link ACM Summer School in Data Science Lecture 38 - Tree Based Methods - Part 2
Link ACM Summer School in Data Science Lecture 39 - SVMs - Part 1
Link ACM Summer School in Data Science Lecture 40 - SVMs - Part 2
Link ACM Summer School in Data Science Lecture 41 - SVMs - Part 3
Link ACM Summer School in Data Science Lecture 42 - Ensemble Methods - Part 1
Link ACM Summer School in Data Science Lecture 43 - Ensemble Methods - Part 2
Link ACM Summer School in Data Science Lecture 44 - Ensemble Methods - Part 3
Link ACM Summer School in Data Science Lecture 45 - Learning Theory - Part 1
Link ACM Summer School in Data Science Lecture 46 - Learning Theory - Part 2
Link ACM Summer School in Data Science Lecture 47 - Introduction to Probabilistic Modeling - Part 1
Link ACM Summer School in Data Science Lecture 48 - Introduction to Probabilistic Modeling - Part 2
Link ACM Summer School in Data Science Lecture 49 - Introduction to Probabilistic Modeling - Part 3
Link ACM Summer School in Data Science Lecture 50 - Probabilistic/Bayesian Models for Regression - Part 1
Link ACM Summer School in Data Science Lecture 51 - Probabilistic/Bayesian Models for Regression - Part 2
Link ACM Summer School in Data Science Lecture 52 - Probabilistic/Bayesian Models for Regression - Part 3
Link ACM Summer School in Data Science Lecture 53 - Probabilistic Classification, Latent Variable Models - Part 1
Link ACM Summer School in Data Science Lecture 54 - Probabilistic Classification, Latent Variable Models - Part 2
Link ACM Summer School in Data Science Lecture 55 - Probabilistic Classification, Latent Variable Models - Part 3
Link ACM Summer School in Data Science Lecture 56 - Deep Learning I - Part 1
Link ACM Summer School in Data Science Lecture 57 - Deep Learning I - Part 2
Link ACM Summer School in Data Science Lecture 58 - Deep Learning I - Part 3
Link ACM Summer School in Data Science Lecture 59 - Deep Learning II - Part 1
Link ACM Summer School in Data Science Lecture 60 - Deep Learning II - Part 2
Link ACM Summer School in Data Science Lecture 61 - Deep Learning II - Part 3
Link ACM Summer School in Data Science Lecture 62 - Deep Learning III - Part 1
Link ACM Summer School in Data Science Lecture 63 - Deep Learning III - Part 2
Link ACM Summer School in Data Science Lecture 64 - Deep Learning III - Part 3
Link ACM Summer School in Data Science Lecture 65 - Reinforcement learning I - Part 1
Link ACM Summer School in Data Science Lecture 66 - Reinforcement learning I - Part 2
Link ACM Summer School in Data Science Lecture 67 - Reinforcement learning II - Part 1
Link ACM Summer School in Data Science Lecture 68 - Reinforcement learning II - Part 2
Link ACM Summer School in Data Science Lecture 69 - Map-Reduce and Spark - Part 1
Link ACM Summer School in Data Science Lecture 70 - Map-Reduce and Spark - Part 2
Link ACM Summer School in Data Science Lecture 71 - Map-Reduce and Spark - Part 3
Link ACM Summer School in Data Science Lecture 72 - Scalable Machine Learning - Part 1
Link ACM Summer School in Data Science Lecture 73 - Scalable Machine Learning - Part 2
Link Topics in Theoritical Computer Science Lecture 1 - Finite Automata
Link Topics in Theoritical Computer Science Lecture 2 - TMs, Halting Problems
Link Topics in Theoritical Computer Science Lecture 3 - Concurrency
Link Topics in Theoritical Computer Science Lecture 4 - Blockchain and Bitcoin
Link Topics in Theoritical Computer Science Lecture 5 - Complexity Theory
Link Topics in Theoritical Computer Science Lecture 6 - Lower Bounds, Dealing with NP hardness
Link Topics in Theoritical Computer Science Lecture 7 - Online and streaming algorithms
Link Topics in Theoritical Computer Science Lecture 8 - Zero Knowledge Proofs
Link Topics in Theoritical Computer Science Lecture 9 - Verification, Games
Link Researching Anglo-Indians in India and the Diaspora Lecture 1 - Keynote Address
Link Researching Anglo-Indians in India and the Diaspora Lecture 2 - A Synopsis of 'Two Cheers'
Link Researching Anglo-Indians in India and the Diaspora Lecture 3 - Higher Education Among Anglo-Indians
Link Researching Anglo-Indians in India and the Diaspora Lecture 4 - Perception of trust, risk and intimacy among elderly Anglo-Indians living in Tollygunge home in Kolkata
Link Researching Anglo-Indians in India and the Diaspora Lecture 5 - The Daunting Spirit and the Empowering Voice of Eunice De Souza
Link Researching Anglo-Indians in India and the Diaspora Lecture 6 - Origin Myth and Anglo-Indian Identity: Exploring the Representation of the History of the Origin of Anglo-Indian community in Hugh and Colleen Gantzers Lyndsale Raj
Link Researching Anglo-Indians in India and the Diaspora Lecture 7 - Keynote Address
Link Researching Anglo-Indians in India and the Diaspora Lecture 8 - Shame and Guilt in Alison McQueens The Secret Children
Link Researching Anglo-Indians in India and the Diaspora Lecture 9 - Re-visiting McCluskieganj: De-hyphenating the Anglo-Indian Consciousness through Vikas Kumar Jhas Novel
Link Researching Anglo-Indians in India and the Diaspora Lecture 10 - The Imaging of the Anglo-Indian Woman in Colonialist Literature
Link Researching Anglo-Indians in India and the Diaspora Lecture 11 - Expostulating Celluloid Stereotypes: Researching Anglo-Indian Representation in Malayalam Cinema
Link Researching Anglo-Indians in India and the Diaspora Lecture 12 - Chutney Mary: Rethinking AI Identity through their Culinary Consumption Culture
Link Researching Anglo-Indians in India and the Diaspora Lecture 13 - In Search of a New Home: Anglo-Indians in the Darjeeling Hills, 1900-1947
Link Researching Anglo-Indians in India and the Diaspora Lecture 14 - (Re)discovering Anglo-Indians of Visakhapatnam - An Overview
Link Researching Anglo-Indians in India and the Diaspora Lecture 15 - Genealogy of Sporting Culture through a Study of Anglo-Indian Institutions of Asansol
Link Researching Anglo-Indians in India and the Diaspora Lecture 16 - Keynote Address
Link Researching Anglo-Indians in India and the Diaspora Lecture 17 - Crowdsourcing as a Research Tool
Link Researching Anglo-Indians in India and the Diaspora Lecture 18 - Researching Community, Writing Cultures: Challenges and Opportunities
Link Researching Anglo-Indians in India and the Diaspora Lecture 19 - Revisiting the Anglo-Indian Community: Making and Unmaking of Anglo-Indian Identity in India
Link Researching Anglo-Indians in India and the Diaspora Lecture 20 - Minoritizing English: Anglo-Indians as a Linguistic Minority in India
Link Dravidian Temple Architecture and Construction Techniques Lecture 1 - Introduction to Dravidian Temple Architecture and Construction Techniques - Part 1
Link Dravidian Temple Architecture and Construction Techniques Lecture 2 - Introduction to Dravidian Temple Architecture and Construction Techniques - Part 2
Link Dravidian Temple Architecture and Construction Techniques Lecture 3 - Introduction to Dravidian Temple Architecture and Construction Techniques - Part 3
Link Dravidian Temple Architecture and Construction Techniques Lecture 4 - Introduction to Dravidian Temple Architecture and Construction Techniques - Part 4
Link Dravidian Temple Architecture and Construction Techniques Lecture 5 - Introduction to Dravidian Temple Architecture and Construction Techniques - Part 5
Link Dravidian Temple Architecture and Construction Techniques Lecture 6 - Naal Kurithal - Part 1
Link Dravidian Temple Architecture and Construction Techniques Lecture 7 - Naal Kurithal - Part 2
Link Dravidian Temple Architecture and Construction Techniques Lecture 8 - Naal Kurithal - Part 3
Link Dravidian Temple Architecture and Construction Techniques Lecture 9 - Naal Kurithal - Part 4
Link Dravidian Temple Architecture and Construction Techniques Lecture 10 - Naal Kurithal - Part 5
Link Dravidian Temple Architecture and Construction Techniques Lecture 11 - Naal Kurithal - Part 6
Link Dravidian Temple Architecture and Construction Techniques Lecture 12 - Ayadhi Calculations - Part 1
Link Dravidian Temple Architecture and Construction Techniques Lecture 13 - Ayadhi Calculations - Part 2
Link Dravidian Temple Architecture and Construction Techniques Lecture 14 - Ayadhi Calculations - Part 3
Link Dravidian Temple Architecture and Construction Techniques Lecture 15 - Ayadhi Calculations - Part 4
Link Dravidian Temple Architecture and Construction Techniques Lecture 16 - Ayadhi Calculations - Part 5
Link Dravidian Temple Architecture and Construction Techniques Lecture 17 - Ayadhi Calculations - Part 6
Link Dravidian Temple Architecture and Construction Techniques Lecture 18 - Ayadhi Calculations - Part 7
Link Dravidian Temple Architecture and Construction Techniques Lecture 19 - Ayadhi Calculations - Part 8
Link Dravidian Temple Architecture and Construction Techniques Lecture 20 - Ayadhi Calculations - Part 9
Link Dravidian Temple Architecture and Construction Techniques Lecture 21 - Ayadhi Calculations - Part 10
Link Dravidian Temple Architecture and Construction Techniques Lecture 22 - Ayadhi Calculations - Part 11
Link Dravidian Temple Architecture and Construction Techniques Lecture 23 - Alavukal - Part 1
Link Dravidian Temple Architecture and Construction Techniques Lecture 24 - Alavukal - Part 2
Link Dravidian Temple Architecture and Construction Techniques Lecture 25 - Alavukal - Part 3
Link Dravidian Temple Architecture and Construction Techniques Lecture 26 - Alavukal - Part 4
Link Dravidian Temple Architecture and Construction Techniques Lecture 27 - Alavukal - Part 5
Link Dravidian Temple Architecture and Construction Techniques Lecture 28 - Alavukal - Part 6
Link Dravidian Temple Architecture and Construction Techniques Lecture 29 - Dhisai Aridhal - Part 1
Link Dravidian Temple Architecture and Construction Techniques Lecture 30 - Dhisai Aridhal - Part 2
Link Dravidian Temple Architecture and Construction Techniques Lecture 31 - Dhisai Aridhal - Part 3
Link Dravidian Temple Architecture and Construction Techniques Lecture 32 - Dhisai Aridhal - Part 4
Link Dravidian Temple Architecture and Construction Techniques Lecture 33 - Dhisai Aridhal - Part 5
Link ACM Summer School in Data Science (Bangalore) Lecture 1 - Web Browser Security
Link ACM Summer School in Data Science (Bangalore) Lecture 2 - Trusted Computing
Link ACM Summer School in Data Science (Bangalore) Lecture 3 - Buffer Overflow Vulnerability and Protection Techineques
Link ACM Summer School in Data Science (Bangalore) Lecture 4 - Secure Software Engineering : Secure Design Principles and Coding Practices
Link ACM Summer School in Data Science (Bangalore) Lecture 5 - Challenges and Opportunities with Cloud Security
Link ACM Summer School in Data Science (Bangalore) Lecture 6 - Cognitive Security with Watson
Link ACM Summer School in Data Science (Bangalore) Lecture 7 - IBM MaaS360 Architecture Overview
Link ACM Summer School in Data Science (Bangalore) Lecture 8 - Unified Risk Management Approach
Link ACM Summer School in Data Science (Bangalore) Lecture 9 - Data Encryption and Post Quantum Cryptography (PQC)
Link ACM Summer School in Data Science (Bangalore) Lecture 10 - Network Security - I
Link ACM Summer School in Data Science (Bangalore) Lecture 11 - Network Security - II
Link ACM Summer School in Data Science (Bangalore) Lecture 12 - Network Security - III
Link ACM Summer School in Data Science (Bangalore) Lecture 13 - Network Security - IV
Link ACM Summer School in Data Science (Bangalore) Lecture 14 - Network Security - V
Link ACM Summer School in Data Science (Bangalore) Lecture 15 - Network Security - VI
Link ACM Summer School in Data Science (Bangalore) Lecture 16 - Security: Network and Transport Layers - I
Link ACM Summer School in Data Science (Bangalore) Lecture 17 - Security: Network and Transport Layers - II
Link ACM Summer School in Data Science (Bangalore) Lecture 18 - Security: Network and Transport Layers - III
Link ACM Summer School in Data Science (Bangalore) Lecture 19 - Security Gap Analysis - I
Link ACM Summer School in Data Science (Bangalore) Lecture 20 - Security Gap Analysis - II
Link ACM Summer School on Algorithmic Game Theory Lecture 1 - Introduction to Stable Matchings
Link ACM Summer School on Algorithmic Game Theory Lecture 2 - Men-Optimality of the Men-Proposing Gale-Shapley Algorithm
Link ACM Summer School on Algorithmic Game Theory Lecture 3 - GS: Cheating Strategies for Men
Link ACM Summer School on Algorithmic Game Theory Lecture 4 - GS: Cheating Strategies for Women
Link ACM Summer School on Algorithmic Game Theory Lecture 5 - The Hospital Residents Problem
Link ACM Summer School on Algorithmic Game Theory Lecture 6 - Popular Matchings in the stable marriage problem
Link ACM Summer School on Algorithmic Game Theory Lecture 7 - Popularity in the House Allocation Problem - 1
Link ACM Summer School on Algorithmic Game Theory Lecture 8 - Popularity in the House Allocation Problem - 2
Link ACM Summer School on Algorithmic Game Theory Lecture 9 - Strategic Behavior in Popular Matchings
Link ACM Summer School on Algorithmic Game Theory Lecture 10 - Stable Roommates: Matchings in the Non-bipartite Setting
Link ACM Summer School on Algorithmic Game Theory Lecture 11 - An Introduction to Voting
Link ACM Summer School on Algorithmic Game Theory Lecture 12 - The Game of Trust - Nicky Case's Interactive Essay
Link ACM Summer School on Algorithmic Game Theory Lecture 13 - Arrow's Theorem
Link ACM Summer School on Algorithmic Game Theory Lecture 14 - Gibbard-Satterethwaite Theorem
Link ACM Summer School on Algorithmic Game Theory Lecture 15 - Domain Restrictions and Multiwinner Elections
Link ACM Summer School on Algorithmic Game Theory Lecture 16 - Incentive Design in Crowdsourcing Applications
Link ACM Summer School on Algorithmic Game Theory Lecture 17 - Adversarial Approaches in Deep Learning - Part 1
Link ACM Summer School on Algorithmic Game Theory Lecture 18 - Adversarial Approaches in Deep Learning - Part 2
Link ACM Summer School on Algorithmic Game Theory Lecture 19 - Algorithmic for Computing Market Equilibrium
Link ACM Summer School on Algorithmic Game Theory Lecture 20 - Tournament Fixing and Superkings
Link ACM Summer School on Algorithmic Game Theory Lecture 21 - Tournament Fixing Parameterized by FAS
Link ACM Summer School on Algorithmic Game Theory Lecture 22 - Tournament Fixing with Bribery
Link ACM Summer School on Algorithmic Game Theory Lecture 23 - An Introduction to Cake-Cutting
Link ACM Summer School on Algorithmic Game Theory Lecture 24 - Two Algorithms for Finding Proportional Allocations
Link ACM Summer School on Algorithmic Game Theory Lecture 25 - Envy-Freenes and Approximate EF
Link ACM Summer School on Algorithmic Game Theory Lecture 26 - Sperner's Lemma and Applications
Link ACM Summer School on Algorithmic Game Theory Lecture 27 - Cake Cutting with a Secret Agent
Link ACM Summer School on Algorithmic Game Theory Lecture 28 - Fairness Notions for Indivisible Goods
Link ACM Summer School on Algorithmic Game Theory Lecture 29 - Computing EF1 Allocations: Cycle Trading and Round Robin
Link ACM Summer School on Algorithmic Game Theory Lecture 30 - An Introduction to Rent Division
Link ACM Summer School on Algorithmic Game Theory Lecture 31 - Rent Division and Maximum Weight Matchings
Link ACM Summer School on Algorithmic Game Theory Lecture 32 - Hall's Theorem and Maximin Share
Link ACM Summer School on Algorithmic Game Theory Lecture 33 - Probability Review - Part 1
Link ACM Summer School on Algorithmic Game Theory Lecture 34 - Probability Review - Part 2
Link ACM Summer School on Algorithmic Game Theory Lecture 35 - Predicting Election Outcomes
Link ACM Summer School on Algorithmic Game Theory Lecture 36 - Reservoir Sampling and Preference Elicitation
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 1 - Basic Graph theory and Graph Algorithms - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 2 - Basic Graph theory and Graph Algorithms - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 3 - Basic Graph theory and Graph Algorithms - Part 3
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 4 - Basic Graph theory and Graph Algorithms - Part 4
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 5 - Basic Graph theory and Graph Algorithms - Part 5
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 6 - Geometric Algorithms - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 7 - Geometric Algorithms - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 8 - Geometric Algorithms - Part 3
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 9 - Geometric Algorithms - Part 4
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 10 - Geometric Algorithms - Part 5
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 11 - Geometric Algorithms - Part 6
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 12 - Introduction to Computational Complexity,P,NP classes
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 13 - NPC Reductions through examples - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 14 - NPC Reductions through examples - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 15 - NPC Reductions through examples - 3SAT
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 16 - Subset Sum, Knapsack
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 17 - Directed Hamiltonian Path-NPC Reduction
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 18 - Introduction to LPnDuality theorem
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 19 - Design of Approx.algorithms using primal dual scheme - Hitting set
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 20 - Approx Vertex Cover
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 21 - Appox for Min Cost VC, Approx for Min cost Set Cover
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 22 - 2-factor approx for metric TSP, 1.5 Approx christofides Algo
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 23 - knapsack Approx, 1/2 - factor Approx, 1- ε Approx: FPTAS
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 24 - Perfect graphs,weak and strong perfect graph conjecture,line graphs,interval graphs
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 25 - α perfection of interval graphs,chordal graphs,expansion lemma, proof for weak perfect conjecture - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 26 - α perfection of interval graphs,chordal graphs,expansion lemma, proof for weak perfect conjecture - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 27 - Comparability graph, Permutation graphs, AT-free graphs, Trapezoidal graphs, Circular arc graphs, Boxicity and related concepts
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 28 - Fixed Parameter Algorithms, -VC, Cluster vertex deletion, - Branching
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 29 - Kernelization, -VC, CrownDecomposition, Feedback vertex set, Herative compression, Analysing branching algorithm - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 30 - Kernelization, -VC, CrownDecomposition, Feedback vertex set, Herative compression, Analysing branching algorithm - Part 2
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 31 - Kernelization, -VC, CrownDecomposition, Feedback vertex set, Herative compression, Analysing branching algorithm - Part 3
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 32 - Hardness in Parameterized Complexity - W - hard reductions Exponential algorithms - Part 1
Link ACM Summer School on Graph Theory and Graph Algorithms (Dr. N.S. Narayanaswamy) Lecture 33 - Hardness in Parameterized Complexity - W - hard reductions Exponential algorithms - Part 2
Link ACM Summer School on Compiler Design and Construction Lecture 1 - Lattice Theory - Part 1
Link ACM Summer School on Compiler Design and Construction Lecture 2 - Lattice Theory - Part 2
Link ACM Summer School on Compiler Design and Construction Lecture 3 - Lattice Theory - Part 3
Link ACM Summer School on Compiler Design and Construction Lecture 4 - Lattice Theory - Part 4
Link ACM Summer School on Compiler Design and Construction Lecture 5 - Lattice Theory - Part 5
Link ACM Summer School on Compiler Design and Construction Lecture 6 - Lattice Theory - Part 6
Link ACM Summer School on Compiler Design and Construction Lecture 7 - Lattice Theory - Part 7
Link ACM Summer School on Compiler Design and Construction Lecture 8 - Lattice Theory - Part 8
Link ACM Summer School on Compiler Design and Construction Lecture 9 - Lattice Theory - Part 9
Link ACM Summer School on Compiler Design and Construction Lecture 10 - Machine Dependent Optimizations - Part 1
Link ACM Summer School on Compiler Design and Construction Lecture 11 - Machine Dependent Optimizations - Part 2
Link ACM Summer School on Compiler Design and Construction Lecture 12 - Machine Dependent Optimizations - Part 3
Link ACM Summer School on Compiler Design and Construction Lecture 13 - Machine Dependent Optimizations - Part 4
Link ACM Summer School on Compiler Design and Construction Lecture 14 - Machine Dependent Optimizations - Part 5
Link ACM Summer School on Compiler Design and Construction Lecture 15 - Machine Dependent Optimizations - Part 6
Link ACM Summer School on Compiler Design and Construction Lecture 16 - Machine Dependent Optimizations - Part 7
Link ACM Summer School on Compiler Design and Construction Lecture 17 - Machine Dependent Optimizations - Part 8
Link ACM Summer School on Compiler Design and Construction Lecture 18 - Machine Dependent Optimizations - Part 9
Link ACM Summer School on Compiler Design and Construction Lecture 19 - Machine Dependent Optimizations - Part 10
Link ACM Summer School on Compiler Design and Construction Lecture 20 - Program Execution Environment - Part 1
Link ACM Summer School on Compiler Design and Construction Lecture 21 - Program Execution Environment - Part 2
Link ACM Summer School on Compiler Design and Construction Lecture 22 - Program Execution Environment - Part 3
Link ACM Summer School on Compiler Design and Construction Lecture 23 - Program Execution Environment - Part 4
Link ACM Summer School on Compiler Design and Construction Lecture 24 - Program Execution Environment - Part 5
Link ACM Summer School on Compiler Design and Construction Lecture 25 - Program Execution Environment - Part 6
Link ACM Summer School on Compiler Design and Construction Lecture 26 - Program Execution Environment - Part 7
Link ACM Summer School on Compiler Design and Construction Lecture 27 - Program Execution Environment - Part 8
Link ACM Summer School on Compiler Design and Construction Lecture 28 - Optimizing Virtual Function Calls
Link ACM Summer School on Compiler Design and Construction Lecture 29 - High Level Optimizations - Part 1
Link ACM Summer School on Compiler Design and Construction Lecture 30 - High Level Optimizations - Part 2
Link ACM Summer School on Compiler Design and Construction Lecture 31 - High Level Optimizations - Part 3
Link ACM Summer School on Compiler Design and Construction Lecture 32 - High Level Optimizations - Part 4
Link ACM Summer School on Compiler Design and Construction Lecture 33 - High Level Optimizations - Part 5
Link ACM Summer School on Compiler Design and Construction Lecture 34 - High Level Optimizations - Part 6
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 1 - Introduction to Computational Geometry
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 2 - Convex hull
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 3 - Quick hull
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 4 - Plane sweep algorithm
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 5 - Voronoi Diagram - I
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 6 - Convex Geometry - I
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 7 - Convex Geometry - II
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 8 - Incidence Geometry - I
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 9 - Incidence Geometry - II
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 10 - Plane sweep algorithm
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 11 - Polygon Triangulation
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 12 - Geometric and Abstract Simplicial Complexes
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 13 - Convex Polytopes and Polyhedra
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 14 - Art Gallery Theorem
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 15 - Smallest Enclosing Disc
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 16 - Point Hyperplane Duality
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 17 - Voronoi Diagrams and Delaunay triangulations - I
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 18 - Voronoi Diagrams and Delaunay triangulations - II
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 19 - Point Location
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 20 - Range Searching (KD Tree)
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 21 - Range Searching (Range Tree)
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 22 - Visibility Graph and motion planning
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 23 - Geometric Approximation: The Shifting Strategy, Hochbaum and Mass, 1984
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 24 - Application of incidence geometry in combinatorics
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 25 - Robot motion planning and visibility
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 26 - Reeb Graph Introduction and Morse Theory basics
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 27 - Reeb Graph Properties
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 28 - Reeb Graph Algorithms, Applications
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 29 - Arrangements - I
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 30 - Linear Programming
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 31 - Arrangements - II
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 32 - Zone Theorem and Application
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 33 - Randomized Incremental Construction - I
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 34 - Randomized Incremental Construction - II
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 35 - VC-dimension, Epsilon-nets, LP-based approximation for Geometric Covering
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 36 - Quasi-uniform Sampling for Weighted Covering Problems.
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 37 - Local Search for Packing and Covering
Link ACM Summer School on Geometric Algorithms and their Applications Lecture 38 - PTAS via Local Search - I
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 1 - Learning on Finite State Automata and Decision Session - 1
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 2 - Learning on Finite State Automata and Decision Session - 2
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 3 - Learning on Finite State Automata and Decision Session - 3
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 4 - Probability Session - 1
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 5 - Probability Session - 2
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 6 - Probability Session - 3
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 7 - Probability Session - 4
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 8 - Probability Session - 5
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 9 - Probability Session - 6
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 10 - Probability Session - 7
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 11 - Probability Session - 8
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 12 - Probability Session - 9
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 13 - Probability Session - 10
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 14 - Algebra for Machine Learning Session - 1
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 15 - Algebra for Machine Learning Session - 2
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 16 - Algebra for Machine Learning Session - 3
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 17 - Crptography and Machine Learning
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 18 - Neural Networks Session - 1
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 19 - Neural Networks Session - 2
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 20 - Neural Networks Session - 3
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 21 - Neural Networks Session - 4
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 22 - Neural Networks Session - 5
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 23 - Enterprise Applications of ML Session - 1
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 24 - Basic of Algorithm Design Session - 1
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 25 - Basic of Algorithm Design Session - 2
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 26 - Basic of Algorithm Design Session - 3
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 27 - Basic of Algorithm Design Session - 4
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 28 - Introduction to Optimization Session - 1
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 29 - Introduction to Optimization Session - 2
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 30 - Introduction to Reinforcement Learning Session - 1
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 31 - Introduction to Reinforcement Learning Session - 2
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 32 - Introduction to Reinforcement Learning Session - 3
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 33 - Introduction to Reinforcement Learning Session - 4
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 34 - Introduction to Reinforcement Learning Session - 5
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 35 - Introduction to Reinforcement Learning Session - 6
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 36 - Introduction to Reinforcement Learning Session - 7
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 37 - Introduction of Cryptography Session - 1
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 38 - Introduction of Cryptography Session - 2
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 39 - Introduction of Cryptography Session - 3
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 40 - Compressive Sensing Session - 1
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 41 - Compressive Sensing Session - 2
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 42 - Compressive Sensing Session - 3
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 43 - Compressive Sensing Session - 4
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 44 - Compressive Sensing Session - 5
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 45 - Compressive Sensing Session - 6
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 46 - Compressive Sensing Session - 7
Link ACM Summer School on Algorithmic and Theoretical Aspects of Machine Learning Lecture 47 - Compressive Sensing Session - 8