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 - RouthHurwitz 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 Civilizations 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 |