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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 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 23
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 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 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 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 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 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 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 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 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 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 Dist