Link | NPTEL Course Name | NPTEL Lecture Title |
---|---|---|

Link | Introduction to Aerospace Propulsion | Lecture 1 - Course Intro & Historical development of flights |

Link | Introduction to Aerospace Propulsion | Lecture 2 - Early development of aircraft propulsive devices |

Link | Introduction to Aerospace Propulsion | Lecture 3 - Development of Jet propulsion for aircraft |

Link | Introduction to Aerospace Propulsion | Lecture 4 - Introduction to thermodynamics, Scope and method, Basic concepts: system, surroundings, property, intensive and extensive, state, equilibrium and state postulate, process, path and cycle |

Link | Introduction to Aerospace Propulsion | Lecture 5 - Quasi-static processes, zeroth law of thermodynamics and temperature, concept of energy and its various forms, internal energy, enthalpy |

Link | Introduction to Aerospace Propulsion | Lecture 6 - Specific heats at constant pressure and volume Work and heat transfers |

Link | Introduction to Aerospace Propulsion | Lecture 7 - Tutorial |

Link | Introduction to Aerospace Propulsion | Lecture 8 - First law of thermodynamics for closed systems |

Link | Introduction to Aerospace Propulsion | Lecture 9 - First law of thermodynamics for open systems/flow processes |

Link | Introduction to Aerospace Propulsion | Lecture 10 - Second law of thermodynamics, heat engines, refrigerators and heat pumps, Kelvin-Planck and Clausius statement of second law of thermodynamics |

Link | Introduction to Aerospace Propulsion | Lecture 11 - Reversible and irreversible processes, concept of entropy |

Link | Introduction to Aerospace Propulsion | Lecture 12 - Increase of entropy principle, third law of thermodynamics, absolute entropy, perpetual motion machines |

Link | Introduction to Aerospace Propulsion | Lecture 13 - Tutorial |

Link | Introduction to Aerospace Propulsion | Lecture 14 - Carnot cycle, Carnot principle, thermodynamic temperature scale |

Link | Introduction to Aerospace Propulsion | Lecture 15 - Exergy, availability and second law efficiency |

Link | Introduction to Aerospace Propulsion | Lecture 16 - Tutorial |

Link | Introduction to Aerospace Propulsion | Lecture 17 - Gas and vapour power cycles, Otto cycle, Diesel cycle, Dual cycle |

Link | Introduction to Aerospace Propulsion | Lecture 18 - Rankine cycle, Brayton cycle, Stirling and Ericsson cycles |

Link | Introduction to Aerospace Propulsion | Lecture 19 - Thermodynamic property relations, Jacobean and Legendre transformations, Maxwell’s equations |

Link | Introduction to Aerospace Propulsion | Lecture 20 - Tutorial |

Link | Introduction to Aerospace Propulsion | Lecture 21 - Properties of gas and vapour mixtures |

Link | Introduction to Aerospace Propulsion | Lecture 22 - One-dimensional compressible flows, isentropic flows |

Link | Introduction to Aerospace Propulsion | Lecture 23 - Flows with friction and heat transfer, normal and oblique shocks |

Link | Introduction to Aerospace Propulsion | Lecture 24 - Piston-prop engines: Otto cycles; Ideal and Real cycles |

Link | Introduction to Aerospace Propulsion | Lecture 25 - IC Engines for aircraft application |

Link | Introduction to Aerospace Propulsion | Lecture 26 - Performance parameters of IC engines |

Link | Introduction to Aerospace Propulsion | Lecture 27 - Supercharging of aircraft IC engines |

Link | Introduction to Aerospace Propulsion | Lecture 28 - Tutorial: IC Engines |

Link | Introduction to Aerospace Propulsion | Lecture 29 - Propeller fundamentals |

Link | Introduction to Aerospace Propulsion | Lecture 30 - Propeller aerodynamic theories - I |

Link | Introduction to Aerospace Propulsion | Lecture 31 - Propeller aerodynamic theories - II |

Link | Introduction to Aerospace Propulsion | Lecture 32 - Tutorial: Propellers |

Link | Introduction to Aerospace Propulsion | Lecture 33 - Ideal cycles for Jet engines |

Link | Introduction to Aerospace Propulsion | Lecture 34 - Ideal cycles for variants of jet engines |

Link | Introduction to Aerospace Propulsion | Lecture 35 - Tutorial |

Link | Introduction to Aerospace Propulsion | Lecture 36 - Fundamentals of Ramjets and Pulsejets |

Link | Introduction to Aerospace Propulsion | Lecture 37 - Fundamentals of Rocket engines |

Link | Introduction to Aerospace Propulsion | Lecture 38 - Fundamentals of Missile engines |

Link | Introduction to Aerospace Propulsion | Lecture 39 - Various space vehicles and their engines |

Link | Introduction to Aerospace Propulsion | Lecture 40 - Closure of the lecture series : recap |

Link | Jet Aircraft Propulsion | Lecture 1 - Introduction & Development of Jet Aircraft Propulsion |

Link | Jet Aircraft Propulsion | Lecture 2 - How the Aircraft Jet Engines make Thrust |

Link | Jet Aircraft Propulsion | Lecture 3 - Jet Engine Basic Performance Parameters |

Link | Jet Aircraft Propulsion | Lecture 4 - Turbojet, Reheat Turbojet and Multi-spool Engines |

Link | Jet Aircraft Propulsion | Lecture 5 - Turbofan, Turbo-prop and Turboshaft engines |

Link | Jet Aircraft Propulsion | Lecture 6 - Ideal and Real Brayton cycles |

Link | Jet Aircraft Propulsion | Lecture 7 - Jet Engine Cycles for Aircraft propulsion |

Link | Jet Aircraft Propulsion | Lecture 8 - Cycle components and component performances |

Link | Jet Aircraft Propulsion | Lecture 9 - Tute-1 |

Link | Jet Aircraft Propulsion | Lecture 10 - Analysis of engine real cycles |

Link | Jet Aircraft Propulsion | Lecture 11 - Tute-2 |

Link | Jet Aircraft Propulsion | Lecture 12 - Thermodynamics of Compressors |

Link | Jet Aircraft Propulsion | Lecture 13 - Thermodynamics of Turbines |

Link | Jet Aircraft Propulsion | Lecture 14 - Axial Compressors : two dimensional analytical model |

Link | Jet Aircraft Propulsion | Lecture 15 - Cascade analysis; Loss and Blade performance estimation |

Link | Jet Aircraft Propulsion | Lecture 16 - Free Vortex theory; Single-Multi-stage characteristics |

Link | Jet Aircraft Propulsion | Lecture 17 - Tutes-3 |

Link | Jet Aircraft Propulsion | Lecture 18 - Elements of centrifugal compressor |

Link | Jet Aircraft Propulsion | Lecture 19 - Centrifugal Compressor characteristics: Surging, Choking |

Link | Jet Aircraft Propulsion | Lecture 20 - Axial flow turbines; Turbine Blade 2-D (cascade) analysis |

Link | Jet Aircraft Propulsion | Lecture 21 - Multi-staging: Axial Turbine; Turbine Cooling Technology |

Link | Jet Aircraft Propulsion | Lecture 22 - Radial Turbine Aerodynamics & Thermodynamics; Losses |

Link | Jet Aircraft Propulsion | Lecture 23 - Tutes-4 |

Link | Jet Aircraft Propulsion | Lecture 24 - Types of combustion chambers: mechanism & parameters |

Link | Jet Aircraft Propulsion | Lecture 25 - Pr. Loss, Combustion efficiency; Combustion intensity |

Link | Jet Aircraft Propulsion | Lecture 26 - Practical combustion system ; Stability, Fuel injection |

Link | Jet Aircraft Propulsion | Lecture 27 - Intakes for Powerplant: Transport / Military Aircraft |

Link | Jet Aircraft Propulsion | Lecture 28 - Subsonic, Transonic, Supersonic Intake Designs |

Link | Jet Aircraft Propulsion | Lecture 29 - Nozzle : fixed and variable geometry nozzles |

Link | Jet Aircraft Propulsion | Lecture 30 - C-D nozzle and their uses |

Link | Jet Aircraft Propulsion | Lecture 31 - Tute-5 |

Link | Jet Aircraft Propulsion | Lecture 32 - Engine Off Design Operations |

Link | Jet Aircraft Propulsion | Lecture 33 - Aircraft Engine component matching: Dimensional analysis |

Link | Jet Aircraft Propulsion | Lecture 34 - Engine component matching and Sizing |

Link | Jet Aircraft Propulsion | Lecture 35 - Installed Performance of Engine |

Link | Jet Aircraft Propulsion | Lecture 36 - Tute-6 |

Link | Jet Aircraft Propulsion | Lecture 37 - Use of Ramjets and Pulsejets in Aircraft propulsion |

Link | Jet Aircraft Propulsion | Lecture 38 - Thermodynamic Cycle & Performance Parameters |

Link | Jet Aircraft Propulsion | Lecture 39 - Flow in Diffusers, Combustors and Nozzles |

Link | Jet Aircraft Propulsion | Lecture 40 - Performanace and Design of Ramjet & Scramjet Engines |

Link | Jet Aircraft Propulsion | Lecture 41 - Tute-7 |

Link | Jet Aircraft Propulsion | Lecture 42 - Future of Aircraft Propulsion |

Link | Turbomachinery Aerodynamics | Lecture 1 - Introduction to Turbo machines Syllabus, References and Schedules |

Link | Turbomachinery Aerodynamics | Lecture 2 - Axial Flow Compressors and Fans : Introduction to Compressor Aerothermodynamics |

Link | Turbomachinery Aerodynamics | Lecture 3 - A two dimensional analytical model :Cascade |

Link | Turbomachinery Aerodynamics | Lecture 4 - 2D losses in Axial flow Compressor Stage : Primary losses |

Link | Turbomachinery Aerodynamics | Lecture 5 - Tutorial 1 : Two Dimensional Axial Flow Compressors |

Link | Turbomachinery Aerodynamics | Lecture 6 - 3D Flows in Blade Passages, Secondary Flows, Tip leakage Flow, Scrubbling |

Link | Turbomachinery Aerodynamics | Lecture 7 - Three Dimensional Flow Analysis : Radial Equilibrium Concept |

Link | Turbomachinery Aerodynamics | Lecture 8 - Classical Blade Design Laws : Free Vortex and other Laws |

Link | Turbomachinery Aerodynamics | Lecture 9 - Three Dimensional Flow Analysis in Axial Flow Compressor |

Link | Turbomachinery Aerodynamics | Lecture 10 - Tutorial 2 : Three Dimensional Axial Flow Compressors |

Link | Turbomachinery Aerodynamics | Lecture 11 - Axial Compressor Characteristics: Single stage, Multi stage and Multi spool Characteristics |

Link | Turbomachinery Aerodynamics | Lecture 12 - Instability in Axial Compressors |

Link | Turbomachinery Aerodynamics | Lecture 13 - Inlet Distortion and Rotating Stall, Control of Instability |

Link | Turbomachinery Aerodynamics | Lecture 14 - Transonic Compressors and Shock Structure Models, Transonic Compressor Characteristics |

Link | Turbomachinery Aerodynamics | Lecture 15 - Axial Flow Compressor Design, Inter Spool Duct |

Link | Turbomachinery Aerodynamics | Lecture 16 - Design of Compressor Blades, Aerofoil Design (Subsonic, Transonic, Supersonic Profiles ) |

Link | Turbomachinery Aerodynamics | Lecture 17 - Design of Compressor Blade: 3D Blade Shapes of Rotors and Stators |

Link | Turbomachinery Aerodynamics | Lecture 18 - Noise Problem in Axial Compressors and Fans |

Link | Turbomachinery Aerodynamics | Lecture 19 - Axial Flow Turbines: Introduction to Turbines Aerothermodynamics |

Link | Turbomachinery Aerodynamics | Lecture 20 - Axial Flow Turbines: Turbine Blade 2D (Cascade) Analysis |

Link | Turbomachinery Aerodynamics | Lecture 21 - Axial Flow Turbines: Work done, Degree of Reaction, Losses and Efficiency |

Link | Turbomachinery Aerodynamics | Lecture 22 - Axial Flow Turbines: Blade and Axial Flow Passages, Exit Flow Matching with Nozzle |

Link | Turbomachinery Aerodynamics | Lecture 23 - Tutorial 3 : Axial Flow Turbines |

Link | Turbomachinery Aerodynamics | Lecture 24 - Multi staging and Multi spooling of Turbine |

Link | Turbomachinery Aerodynamics | Lecture 25 - 3D Flow in Turbine: 3D Flow Theories, Free Vortex Theories etc. |

Link | Turbomachinery Aerodynamics | Lecture 26 - Tutorial 4 : 3D Flows in Axial Flow Turbines |

Link | Turbomachinery Aerodynamics | Lecture 27 - Turbine Blade Cooling – Fundamentals of Heat Transfer, Blade Cooling Requirements |

Link | Turbomachinery Aerodynamics | Lecture 28 - Turbine Blade Cooling Technologies |

Link | Turbomachinery Aerodynamics | Lecture 29 - Turbine Blade Design: Turbine Profiles, Aerofoil Data and Profile Construction |

Link | Turbomachinery Aerodynamics | Lecture 30 - Turbine Blade Design: 3D Blade Shapes |

Link | Turbomachinery Aerodynamics | Lecture 31 - Centrifugal Compressors: Thermodynamics and Aerodynamics |

Link | Turbomachinery Aerodynamics | Lecture 32 - Centrifugal Compressors: Characteristics, Stall, Surge Problems |

Link | Turbomachinery Aerodynamics | Lecture 33 - Tutorial 5 : Centrifugal Compressors |

Link | Turbomachinery Aerodynamics | Lecture 34 - Design of Centrifugal Compressors: Impellers, Vane/Vane less Diffusers, Volutes |

Link | Turbomachinery Aerodynamics | Lecture 35 - Radial Turbines: Thermodynamics and Aerodynamics |

Link | Turbomachinery Aerodynamics | Lecture 36 - Tutorial 6 : Radial Turbines |

Link | Turbomachinery Aerodynamics | Lecture 37 - Radial Turbine Characteristics and Design of Radial Turbines |

Link | Turbomachinery Aerodynamics | Lecture 38 - CFD for Turbomachinery: Grid Generation, Boundary Conditions for Flow Analysis |

Link | Turbomachinery Aerodynamics | Lecture 39 - CFD for Turbomachinery: Flow Track and Inter-spool Duct Design using CFD |

Link | Turbomachinery Aerodynamics | Lecture 40 - CFD for Turbomachinery: 2D and 3D Blade Generation and Analysis Using CFD |

Link | NOC:Introduction to Aerospace Engineering | Lecture 1 - Course Layout and Brief Introduction of Course Instructor |

Link | NOC:Introduction to Aerospace Engineering | Lecture 2 - Introduction to International Standard Atmosphere (ISA) |

Link | NOC:Introduction to Aerospace Engineering | Lecture 3 - Pressure, Temperature, Density and Viscosity Variation with Altitude in ISA |

Link | NOC:Introduction to Aerospace Engineering | Lecture 4 - Other Standard Atmospheres |

Link | NOC:Introduction to Aerospace Engineering | Lecture 5 - Aircraft Component Nomenclature - Wing and its Components |

Link | NOC:Introduction to Aerospace Engineering | Lecture 6 - Aircraft Component Nomenclature - Fuselage and its Components |

Link | NOC:Introduction to Aerospace Engineering | Lecture 7 - Aircraft Component Nomenclature - Tail Plane and its Components |

Link | NOC:Introduction to Aerospace Engineering | Lecture 8 - Tutorial 1 - Aircraft Component Nomenclature |

Link | NOC:Introduction to Aerospace Engineering | Lecture 9 - Essentials of Incompressible Flow - Part I |

Link | NOC:Introduction to Aerospace Engineering | Lecture 10 - Essentials of Incompressible Flow - Part II |

Link | NOC:Introduction to Aerospace Engineering | Lecture 11 - Bernoulli's Equation and Coanda Effect |

Link | NOC:Introduction to Aerospace Engineering | Lecture 12 - Mach Number |

Link | NOC:Introduction to Aerospace Engineering | Lecture 13 - Tutorial 2 - Incompressible Flow and Flow Visualization |

Link | NOC:Introduction to Aerospace Engineering | Lecture 14 - Viscous Flow and Reynolds Number |

Link | NOC:Introduction to Aerospace Engineering | Lecture 15 - Introduction to Boundary Layer |

Link | NOC:Introduction to Aerospace Engineering | Lecture 16 - Pressure Measurement |

Link | NOC:Introduction to Aerospace Engineering | Lecture 17 - Air Speed Measurement - Pitot Static Tube |

Link | NOC:Introduction to Aerospace Engineering | Lecture 18 - Air Speed Corrections |

Link | NOC:Introduction to Aerospace Engineering | Lecture 19 - Altitude and ROC/ROD Measurement |

Link | NOC:Introduction to Aerospace Engineering | Lecture 20 - Measurements in Compressible Flows |

Link | NOC:Introduction to Aerospace Engineering | Lecture 21 - Non Pneumatic Instruments |

Link | NOC:Introduction to Aerospace Engineering | Lecture 22 - Introduction to Aerofoils and Aerofoil Nomenclature |

Link | NOC:Introduction to Aerospace Engineering | Lecture 23 - Aerofoils - A Visit to the Past |

Link | NOC:Introduction to Aerospace Engineering | Lecture 24 - Thick Aerofoils |

Link | NOC:Introduction to Aerospace Engineering | Lecture 25 - Low Reynolds Number Aerofoils |

Link | NOC:Introduction to Aerospace Engineering | Lecture 26 - Lift Generation by Wings - Part I |

Link | NOC:Introduction to Aerospace Engineering | Lecture 27 - Lift Generation by Wings - Part II |

Link | NOC:Introduction to Aerospace Engineering | Lecture 28 - Coefficient of Lift and Coefficient of Pressure |

Link | NOC:Introduction to Aerospace Engineering | Lecture 29 - Tutorial on Aerofoils |

Link | NOC:Introduction to Aerospace Engineering | Lecture 30 - Critical Mach Number |

Link | NOC:Introduction to Aerospace Engineering | Lecture 31 - Wave Drag |

Link | NOC:Introduction to Aerospace Engineering | Lecture 32 - Swept Wings |

Link | NOC:Introduction to Aerospace Engineering | Lecture 33 - Introduction to Drag and Types of Drag |

Link | NOC:Introduction to Aerospace Engineering | Lecture 34 - Factors Affecting Induced Drag |

Link | NOC:Introduction to Aerospace Engineering | Lecture 35 - Skin Friction Drag |

Link | NOC:Introduction to Aerospace Engineering | Lecture 36 - Tutorial on Critical Mach Number and Wave Drag |

Link | NOC:Introduction to Aerospace Engineering | Lecture 37 - Introduction to Propulsion |

Link | NOC:Introduction to Aerospace Engineering | Lecture 38 - Gas Turbine Engine Types - Part I |

Link | NOC:Introduction to Aerospace Engineering | Lecture 39 - Gas Turbine Engine Types - Part II |

Link | NOC:Introduction to Aerospace Engineering | Lecture 40 - Introduction to Electric Propulsion and Ion Propulsion |

Link | NOC:Introduction to Aerospace Engineering | Lecture 41 - Steady Level Flight |

Link | NOC:Introduction to Aerospace Engineering | Lecture 42 - Power Required for the Steady Level Flight |

Link | NOC:Introduction to Aerospace Engineering | Lecture 43 - Steady Level Flight - A Pilot's View |

Link | NOC:Introduction to Aerospace Engineering | Lecture 44 - Tutorial on Steady Level Flight |

Link | NOC:Introduction to Aerospace Engineering | Lecture 45 - Gliding Flight |

Link | NOC:Introduction to Aerospace Engineering | Lecture 46 - Climbing Flight and Ceiling |

Link | NOC:Introduction to Aerospace Engineering | Lecture 47 - Introduction to Turning Flight |

Link | NOC:Introduction to Aerospace Engineering | Lecture 48 - Turning Flight Equations |

Link | NOC:Introduction to Aerospace Engineering | Lecture 49 - Instantaneous and Sustained Turn |

Link | NOC:Introduction to Aerospace Engineering | Lecture 50 - Tutorial on Climbing Flight and Turning Flight |

Link | NOC:Introduction to Aerospace Engineering | Lecture 51 - Introduction to Static Stability: Center of Pressure, Center of Gravity and Neutral Point |

Link | NOC:Introduction to Aerospace Engineering | Lecture 52 - Aerodynamic Center and Effect of Center of Gravity |

Link | NOC:Introduction to Aerospace Engineering | Lecture 53 - Effect of Center of Gravity - A Practical Demonstration |

Link | NOC:Introduction to Aerospace Engineering | Lecture 54 - Introduction to V-n Diagram |

Link | NOC:Introduction to Aerospace Engineering | Lecture 55 - V-n Diagram as per FAR 23 Regulations |

Link | NOC:Introduction to Aerospace Engineering | Lecture 56 - Effect of Gusts on V-n Diagram |

Link | NOC:Introduction to Aerospace Engineering | Lecture 57 - Tutorial on Stability and Control |

Link | NOC:Introduction to Aerospace Engineering | Lecture 58 - Range |

Link | NOC:Introduction to Aerospace Engineering | Lecture 59 - Specific Fuel Consumption and Generalized Range Equation |

Link | NOC:Introduction to Aerospace Engineering | Lecture 60 - Endurance |

Link | NOC:Introduction to Aerospace Engineering | Lecture 61 - Take-off Performance of Flight - Part I |

Link | NOC:Introduction to Aerospace Engineering | Lecture 62 - Take-off Performance of Flight - Part II |

Link | NOC:Introduction to Aerospace Engineering | Lecture 63 - Landing Performance of Flight |

Link | NOC:Introduction to Aerospace Engineering | Lecture 64 - Tutorial on Range Payload Diagram |

Link | NOC:Introduction to Aerospace Engineering | Lecture 65 - Tutorial on Range and Endurance |

Link | NOC:Introduction to Aerospace Engineering | Lecture 66 - Flapping Wing Aerodynamics - Part I |

Link | NOC:Introduction to Aerospace Engineering | Lecture 67 - Flapping Wing Aerodynamics - Part II |

Link | NOC:Introduction to Aircraft Design | Lecture 1 - What is Aircraft Design |

Link | NOC:Introduction to Aircraft Design | Lecture 2 - Aircraft Design Process |

Link | NOC:Introduction to Aircraft Design | Lecture 3 - Design Stages |

Link | NOC:Introduction to Aircraft Design | Lecture 4 - Phases in Aircraft Design |

Link | NOC:Introduction to Aircraft Design | Lecture 5 - The Design Spiral |

Link | NOC:Introduction to Aircraft Design | Lecture 6 - Importance of Cost in Aircraft Design |

Link | NOC:Introduction to Aircraft Design | Lecture 7 - Basic Laws of Aircraft Design |

Link | NOC:Introduction to Aircraft Design | Lecture 8 - Requirements Capture |

Link | NOC:Introduction to Aircraft Design | Lecture 9 - Quality Function Deployment |

Link | NOC:Introduction to Aircraft Design | Lecture 10 - House of Quality Chart |

Link | NOC:Introduction to Aircraft Design | Lecture 11 - Example of HoQ for HALE UAV |

Link | NOC:Introduction to Aircraft Design | Lecture 12 - Illustration of HOQ-GA aircraft |

Link | NOC:Introduction to Aircraft Design | Lecture 13 - Airliners |

Link | NOC:Introduction to Aircraft Design | Lecture 14 - Key Issues in Design of Airliners |

Link | NOC:Introduction to Aircraft Design | Lecture 15 - Design Considerations - Future Airliners |

Link | NOC:Introduction to Aircraft Design | Lecture 16 - Supersonic Transport Aircraft |

Link | NOC:Introduction to Aircraft Design | Lecture 17 - Airliner and Supersonic Aircraft, some additional concepts |

Link | NOC:Introduction to Aircraft Design | Lecture 18 - Design Considerations - Cargo Aircraft |

Link | NOC:Introduction to Aircraft Design | Lecture 19 - Design Considerations - GA Aircraft |

Link | NOC:Introduction to Aircraft Design | Lecture 20 - Types of Military Aircraft |

Link | NOC:Introduction to Aircraft Design | Lecture 21 - Cargo, GA and Military Aircraft, Some additional concepts |

Link | NOC:Introduction to Aircraft Design | Lecture 22 - Aircraft Configuration Design |

Link | NOC:Introduction to Aircraft Design | Lecture 23 - Podded Engines on Wings |

Link | NOC:Introduction to Aircraft Design | Lecture 24 - Wing Sweep |

Link | NOC:Introduction to Aircraft Design | Lecture 25 - Canards and Flying Wing |

Link | NOC:Introduction to Aircraft Design | Lecture 26 - Three Surface Aircraft |

Link | NOC:Introduction to Aircraft Design | Lecture 27 - Winglets |

Link | NOC:Introduction to Aircraft Design | Lecture 28 - Thrust Vectoring |

Link | NOC:Introduction to Aircraft Design | Lecture 29 - Few Novel Concepts_01 |

Link | NOC:Introduction to Aircraft Design | Lecture 30 - Aircraft Configuration Design - Closing Remarks |

Link | NOC:Introduction to Aircraft Design | Lecture 31 - Choices in Aircraft Layout |

Link | NOC:Introduction to Aircraft Design | Lecture 32 - Wing Geometry Definitions |

Link | NOC:Introduction to Aircraft Design | Lecture 33 - Options for Wing layout |

Link | NOC:Introduction to Aircraft Design | Lecture 34 - Propulsion System Layout |

Link | NOC:Introduction to Aircraft Design | Lecture 35 - Tail Plane Layout |

Link | NOC:Introduction to Aircraft Design | Lecture 36 - Landing Gear Layout - Part 1 |

Link | NOC:Introduction to Aircraft Design | Lecture 37 - Landing Gear Layout - Part 2 |

Link | NOC:Introduction to Aircraft Design | Lecture 38 - Landing Gear of some Famous Aircraft |

Link | NOC:Introduction to Aircraft Design | Lecture 39 - Tutorial on OpenVSP |

Link | NOC:Introduction to Aircraft Design | Lecture 40 - Initial Sizing in Aircraft Design |

Link | NOC:Introduction to Aircraft Design | Lecture 41 - Estimation of Empty Weight Fraction |

Link | NOC:Introduction to Aircraft Design | Lecture 42 - Estimation of Mission Segment Weights |

Link | NOC:Introduction to Aircraft Design | Lecture 43 - Estimation of Fuel Weight Fractions |

Link | NOC:Introduction to Aircraft Design | Lecture 44 - Estimation of maximum L/D |

Link | NOC:Introduction to Aircraft Design | Lecture 45 - Estimation of engine parameters |

Link | NOC:Introduction to Aircraft Design | Lecture 46 - Estimation of Design gross weight |

Link | NOC:Introduction to Aircraft Design | Lecture 47 - Take-off weight build up |

Link | NOC:Introduction to Aircraft Design | Lecture 48 - Tutorial on Initial Sizing of Transport Aircraft |

Link | NOC:Introduction to Aircraft Design | Lecture 49 - Tutorial on Initial Sizing of Military Aircraft |

Link | NOC:Introduction to Aircraft Design | Lecture 50 - Subsonic Parasite Drag Estimation |

Link | NOC:Introduction to Aircraft Design | Lecture 51 - Component Buildup Method |

Link | NOC:Introduction to Aircraft Design | Lecture 52 - Drag Estimation of Military Aircraft |

Link | NOC:Introduction to Aircraft Design | Lecture 53 - Tutorial on Drag Polar Estimation of Military Aircraft |

Link | NOC:Introduction to Aircraft Design | Lecture 54 - Estimation of Lift Coefficient |

Link | NOC:Introduction to Aircraft Design | Lecture 55 - Estimation of Maximum Lift Coefficient |

Link | NOC:Introduction to Aircraft Design | Lecture 56 - Flaps as High Lift Devices |

Link | NOC:Introduction to Aircraft Design | Lecture 57 - Tutorial on Lift Coefficient Estimation of Transport Aircraft |

Link | NOC:Introduction to Aircraft Design | Lecture 58 - Tutorial on Lift Coefficient Estimation of Military Aircraft |

Link | NOC:Introduction to Aircraft Design | Lecture 59 - Constraint Analysis- Introductory Remarks |

Link | NOC:Introduction to Aircraft Design | Lecture 60 - Constraint Analysis- Transport Aircraft - Part 1 |

Link | NOC:Introduction to Aircraft Design | Lecture 61 - Constraint Analysis- Transport Aircraft - Part 2 |

Link | NOC:Introduction to Aircraft Design | Lecture 62 - Tutorial on Constraint Analysis of Transport Aicraft - Part 1 |

Link | NOC:Introduction to Aircraft Design | Lecture 63 - Tutorial on Constraint Analysis of Transport Aicraft - Part 2 |

Link | NOC:Introduction to Aircraft Design | Lecture 64 - Constraint Analysis- Military Aircraft |

Link | NOC:Introduction to Aircraft Design | Lecture 65 - Tutorial on Constraint Analysis of Military Aicraft - Part 1 |

Link | NOC:Introduction to Aircraft Design | Lecture 66 - Tutorial on Constraint Analysis of Military Aicraft - Part 2 |

Link | NOC:Introduction to Aircraft Design | Lecture 67 - Refined Sizing |

Link | NOC:Introduction to Aircraft Design | Lecture 68 - Tutorial on Refined Sizing of Jet Fighter Aircraft |

Link | NOC:Introduction to Aircraft Design | Lecture 69 - Cost Estimation in Aircraft Conceptual Design |

Link | NOC:Introduction to Aircraft Design | Lecture 70 - Aircraft Life Cycle Cost Estimation |

Link | NOC:Introduction to Aircraft Design | Lecture 71 - Tutorial on RDT&E and Production Cost Estimation of Transport Aircraft |

Link | NOC:Introduction to Aircraft Design | Lecture 72 - Tutorial on DT&E and Production Cost Estimation of HALE UAV |

Link | NOC:Introduction to Aircraft Design | Lecture 73 - Estimation of Direct Operating Cost |

Link | NOC:Introduction to Aircraft Design | Lecture 74 - Fighter Aircraft Life Cycle Cost Estimation Model |

Link | NOC:Introduction to Aircraft Design | Lecture 75 - Range Payload Diagram - Part 1 |

Link | NOC:Introduction to Aircraft Design | Lecture 76 - Range Payload Diagram - Part 2 |

Link | NOC:Introduction to Aircraft Design | Lecture 77 - Tutorial on Range Payload Diagram of Transport Aircraft |

Link | NOC:Introduction to Aircraft Design | Lecture 78 - Environmental issues in Aircraft Design |

Link | NOC:Introduction to Aircraft Design | Lecture 79 - Limit Manoeuvre Envelope |

Link | NOC:Introduction to Aircraft Design | Lecture 80 - Effect of Gust |

Link | NOC:Introduction to Aircraft Design | Lecture 81 - Aircraft Loads |

Link | NOC:Introduction to Aircraft Design | Lecture 82 - Tutorial on V-n Diagram of Transport Aircraft |

Link | NOC:Introduction to Aircraft Design | Lecture 83 - High Altitude Long Endurance (HALE) Aircraft |

Link | NOC:Introduction to Aircraft Design | Lecture 84 - Morphing of Aircraft Configurations |

Link | NOC:Introduction to Aircraft Design | Lecture 85 - Guest Lectuer on Air Power and Multi-role Fighter Aircraft - Part 1 |

Link | NOC:Introduction to Aircraft Design | Lecture 86 - Guest Lectuer on Air Power and Multi-role Fighter Aircraft - Part 2 |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 1 - Introduction |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 2 - Course Plan |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 3 - Ascent Mission Basics |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 4 - Force and Geometry Models - 1 |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 5 - Force and Geometry Models - 2 |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 6 - Idealized Performance |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 7 - Trajectory Under Gravity |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 8 - Impact of Gravity |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 9 - Impact of Drag |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 10 - Curvilinear Motion Concept |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 11 - Constant Pitch Rate Solution |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 12 - Constant Velocity Solution |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 13 - Constant (T/m) Solution |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 14 - Ascent Mission Design |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 15 - Multi-stage Rocket Basics |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 16 - Multi-stage Configuration Basics |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 17 - Multi-stage Solution Basics |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 18 - Multi-stage Problem Definition |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 19 - Optimal Staging Strategy |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 20 - Lagrange Solution |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 21 - Approximate Staging Solution |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 22 - Variant Concept |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 23 - Variant Design Solution |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 24 - Parallel Staging Concept |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 25 - Parallel Staging Benefits |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 26 - Jet Damping and Ballistic Missiles |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 27 - Current Rocket Concepts |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 28 - Launch Widow and SSTO Concepts |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 29 - Reentry Concept |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 30 - Ballistic Reentry Solution |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 31 - Lifting and Other Reentry Modes |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 32 - Concluding Remarks |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 33 - Rectilinear Trajectories |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 34 - Curvilinear Trajectories |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 35 - Multi-stage Rocket Concept |

Link | NOC:Introduction to Launch Vehicle Analysis and Design | Lecture 36 - Optimal Multi-stage Solutions |

Link | NOC:Lighter than Air Systems | Lecture 1 - Introduction to the Course Content |

Link | NOC:Lighter than Air Systems | Lecture 2 - Differences between LTA and HTA systems |

Link | NOC:Lighter than Air Systems | Lecture 3 - The three conventional LTA systems |

Link | NOC:Lighter than Air Systems | Lecture 4 - LTA gases, Types of Airships and their components |

Link | NOC:Lighter than Air Systems | Lecture 5 - Introduction of Skyship 600 and USP of Airships |

Link | NOC:Lighter than Air Systems | Lecture 6 - Applications of Airships |

Link | NOC:Lighter than Air Systems | Lecture 7 - Tethered Aerostat systems |

Link | NOC:Lighter than Air Systems | Lecture 8 - Why use Aerostats ? |

Link | NOC:Lighter than Air Systems | Lecture 9 - Some Queries on Aerostats |

Link | NOC:Lighter than Air Systems | Lecture 10 - Historical developments of LTA systems - Part I |

Link | NOC:Lighter than Air Systems | Lecture 11 - Historical developments of LTA systems - Part II |

Link | NOC:Lighter than Air Systems | Lecture 12 - Historical developments of LTA systems - Part III |

Link | NOC:Lighter than Air Systems | Lecture 13 - Historical developments of LTA systems - Part IV |

Link | NOC:Lighter than Air Systems | Lecture 14 - Historical developments of LTA systems - Part V |

Link | NOC:Lighter than Air Systems | Lecture 15 - Historical developments of LTA systems - Part VI |

Link | NOC:Lighter than Air Systems | Lecture 16 - Overview of PADD |

Link | NOC:Lighter than Air Systems | Lecture 17 - Remotely Controlled Airships |

Link | NOC:Lighter than Air Systems | Lecture 18 - Autonomous Airships |

Link | NOC:Lighter than Air Systems | Lecture 19 - Indoor Blimp Projects by students |

Link | NOC:Lighter than Air Systems | Lecture 20 - Biomimetic Airships |

Link | NOC:Lighter than Air Systems | Lecture 21 - Introduction to Buoyancy |

Link | NOC:Lighter than Air Systems | Lecture 22 - Basic Concepts of Aerostatics |

Link | NOC:Lighter than Air Systems | Lecture 23 - Ballasting, Weigh-off and Fuel Weight Recovery |

Link | NOC:Lighter than Air Systems | Lecture 24 - In-flight Ballast Collection methods |

Link | NOC:Lighter than Air Systems | Lecture 25 - Static Lift Prediction - Part I |

Link | NOC:Lighter than Air Systems | Lecture 26 - Static Lift Prediction - Part II |

Link | NOC:Lighter than Air Systems | Lecture 27 - Tutorial Problem 01 on Static Lift Estimation |

Link | NOC:Lighter than Air Systems | Lecture 28 - Effect of Humidity and Vapour Pressure |

Link | NOC:Lighter than Air Systems | Lecture 29 - Calculation of Ambient Air Density |

Link | NOC:Lighter than Air Systems | Lecture 30 - Tutorial Problem 02 and 03 on Static Lift Estimation |

Link | NOC:Lighter than Air Systems | Lecture 31 - Effect of Lifting Gas Purity, Superpressure and Superheat |

Link | NOC:Lighter than Air Systems | Lecture 32 - Ballonet Air Weight Estimation |

Link | NOC:Lighter than Air Systems | Lecture 33 - Net Static Lift of non-rigid airships |

Link | NOC:Lighter than Air Systems | Lecture 34 - Net Static Lift for other LTA Systems |

Link | NOC:Lighter than Air Systems | Lecture 35 - Tutorial Problem 04 on Net Static Lift Estimation |

Link | NOC:Lighter than Air Systems | Lecture 36 - Parameters affecting Static Lift |

Link | NOC:Lighter than Air Systems | Lecture 37 - Effect of change in Atmospheric Pressure |

Link | NOC:Lighter than Air Systems | Lecture 38 - Tutorial Problem 05 on Change in Atmospheric Pressure |

Link | NOC:Lighter than Air Systems | Lecture 39 - Effect of Superpressure |

Link | NOC:Lighter than Air Systems | Lecture 40 - Tutorial Problem 06 on effect of Superpressure |

Link | NOC:Lighter than Air Systems | Lecture 41 - Effect of Slow change in Atmospheric Temperature and Superheat |

Link | NOC:Lighter than Air Systems | Lecture 42 - Effect of Rapid change in Atmospheric Temperature |

Link | NOC:Lighter than Air Systems | Lecture 43 - Tutorial Problem 07 on Change in Atmospheric Temperature and Superheat |

Link | NOC:Lighter than Air Systems | Lecture 44 - Revision and Tutorial Problem 08 and 09 on Affecting Parameters of Static Lift |

Link | NOC:Lighter than Air Systems | Lecture 45 - Effect of change in Relative Humidity |

Link | NOC:Lighter than Air Systems | Lecture 46 - Effect of change in Lifting Gas Purity |

Link | NOC:Lighter than Air Systems | Lecture 47 - Effect of change in Lifting Gas Volume |

Link | NOC:Lighter than Air Systems | Lecture 48 - Determination of Inflation Fraction |

Link | NOC:Lighter than Air Systems | Lecture 49 - Flight To Lower Ground Elevation |

Link | NOC:Lighter than Air Systems | Lecture 50 - Tutorial Problem 10 on Helium Addition |

Link | NOC:Lighter than Air Systems | Lecture 51 - Outdoor Hot Air Balloon |

Link | NOC:Lighter than Air Systems | Lecture 52 - Pressure Height |

Link | NOC:Lighter than Air Systems | Lecture 53 - Tutorial Problem 11 on Pressure Height Calculation |

Link | NOC:Lighter than Air Systems | Lecture 54 - Sea Level Inflation Fraction |

Link | NOC:Lighter than Air Systems | Lecture 55 - Flight above Pressure Height |

Link | NOC:Lighter than Air Systems | Lecture 56 - Effect of Change in Operating Altitude |

Link | NOC:Lighter than Air Systems | Lecture 57 - Tutorial Problem 12 on Lifting Gas Loss |

Link | NOC:Lighter than Air Systems | Lecture 58 - Descent Following Exceedance |

Link | NOC:Lighter than Air Systems | Lecture 59 - Pressure Height for other LTA Vehicles |

Link | NOC:Lighter than Air Systems | Lecture 60 - Discussion of Practice Questions |

Link | NOC:Lighter than Air Systems | Lecture 61 - Envelope Materials - Part I |

Link | NOC:Lighter than Air Systems | Lecture 62 - Envelope Materials - Part II |

Link | NOC:Lighter than Air Systems | Lecture 63 - Envelope Materials - Part III |

Link | NOC:Lighter than Air Systems | Lecture 64 - Fabric Testing Machines - Part I |

Link | NOC:Lighter than Air Systems | Lecture 65 - Fabric Testing Machines - Part II |

Link | NOC:Lighter than Air Systems | Lecture 66 - Need for Ground Handling |

Link | NOC:Lighter than Air Systems | Lecture 67 - Aerium Hanger for CL 160 Airship |

Link | NOC:Lighter than Air Systems | Lecture 68 - Ground Handling of Airships |

Link | NOC:Lighter than Air Systems | Lecture 69 - Types of Mooring Masts and Design Requirements |

Link | NOC:Lighter than Air Systems | Lecture 70 - Nose Battens for Envelopes |

Link | NOC:Lighter than Air Systems | Lecture 71 - Need for Airship Design Methodology |

Link | NOC:Lighter than Air Systems | Lecture 72 - Overview of Airship Design Methodology (ADM) |

Link | NOC:Lighter than Air Systems | Lecture 73 - Details of Airship Design Methodology (ADM) |

Link | NOC:Lighter than Air Systems | Lecture 74 - Inputs to Airship Design Methodology - Part 1 |

Link | NOC:Lighter than Air Systems | Lecture 75 - Inputs to Airship Design Methodology - Part 2 |

Link | NOC:Lighter than Air Systems | Lecture 76 - Design Constants in Airship Design Methodology |

Link | NOC:Lighter than Air Systems | Lecture 77 - Outputs from Airship Design Methodology |

Link | NOC:Lighter than Air Systems | Lecture 78 - Statistical Data Used in Airship Design Methodology |

Link | NOC:Lighter than Air Systems | Lecture 79 - Validation of Airship Design Methodology |

Link | NOC:Lighter than Air Systems | Lecture 80 - Envelope Shapes for LTA Systems |

Link | NOC:Lighter than Air Systems | Lecture 81 - Example of Application of Airship Design Methodology |

Link | NOC:Lighter than Air Systems | Lecture 82 - Conclusions and Limitations of Airship Design Methodology |

Link | NOC:Lighter than Air Systems | Lecture 83 - History of Propulsion Systems on Airships |

Link | NOC:Lighter than Air Systems | Lecture 84 - Steam and IC engines for Airships |

Link | NOC:Lighter than Air Systems | Lecture 85 - Electric motors for Airships |

Link | NOC:Lighter than Air Systems | Lecture 86 - Turboprops for Airships |

Link | NOC:Lighter than Air Systems | Lecture 87 - Solar Propulsion and Thrust Vectoring on Airships |

Link | NOC:Lighter than Air Systems | Lecture 88 - Transportation Problems Faced by Remote Regions |

Link | NOC:Lighter than Air Systems | Lecture 89 - Airships vs Helicopters - Part I |

Link | NOC:Lighter than Air Systems | Lecture 90 - Airships vs Helicopters - Part II |

Link | NOC:Lighter than Air Systems | Lecture 91 - Char Dham Yatra - Part I |

Link | NOC:Lighter than Air Systems | Lecture 92 - Char Dham Yatra - Part II |

Link | NOC:Lighter than Air Systems | Lecture 93 - Introduction to Aerostat Design Methodology |

Link | NOC:Lighter than Air Systems | Lecture 94 - Inputs for Aerostat Design Methodology |

Link | NOC:Lighter than Air Systems | Lecture 95 - Design Constants in Aerostat Design Methodology |

Link | NOC:Lighter than Air Systems | Lecture 96 - Overview of Aerostat Design Methodology |

Link | NOC:Lighter than Air Systems | Lecture 97 - Equilibrium Analysis of Aerostats - Part I |

Link | NOC:Lighter than Air Systems | Lecture 98 - Equilibrium Analysis of Aerostats - Part II |

Link | NOC:Lighter than Air Systems | Lecture 99 - Methodology for Tether Profile Estimation |

Link | NOC:Lighter than Air Systems | Lecture 100 - Introduction to High Altitude Airships |

Link | NOC:Lighter than Air Systems | Lecture 101 - Technological challenges in HALE Platforms development - Part I |

Link | NOC:Lighter than Air Systems | Lecture 102 - Technological challenges in HALE Platforms development - Part II |

Link | NOC:Lighter than Air Systems | Lecture 103 - Initial sizing of Stratospheric Airships |

Link | NOC:Lighter than Air Systems | Lecture 104 - Introduction to Hybrid Airships |

Link | NOC:Lighter than Air Systems | Lecture 105 - Lockheed Martin's P-791 Hybrid Airship |

Link | NOC:Lighter than Air Systems | Lecture 106 - Aeroscraft ML 866 Hybrid Airship |

Link | NOC:Lighter than Air Systems | Lecture 107 - SkyCat Hybrid Airship |

Link | NOC:Lighter than Air Systems | Lecture 108 - Rotary and Winged Hybrid Airships |

Link | NOC:Lighter than Air Systems | Lecture 109 - Hybrid Ultra Heavy Lift Cargo Vehicle Transport |

Link | NOC:Lighter than Air Systems | Lecture 110 - Features of Hybrid Airships |

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 | NOC:Advance Aircraft Maintenance | Lecture 1 - Introduction to Engines |

Link | NOC:Advance Aircraft Maintenance | Lecture 2 - Introduction to Engines (Continued...) |

Link | NOC:Advance Aircraft Maintenance | Lecture 3 - Construction of Reciprocating Engine |

Link | NOC:Advance Aircraft Maintenance | Lecture 4 - Construction of Reciprocating Engine (Continued...) |

Link | NOC:Advance Aircraft Maintenance | Lecture 5 - Construction of Reciprocating Engine (Continued...) |

Link | NOC:Advance Aircraft Maintenance | Lecture 6 - Lubrication System |

Link | NOC:Advance Aircraft Maintenance | Lecture 7 - Lubrication System Demonstration |

Link | NOC:Advance Aircraft Maintenance | Lecture 8 - Lubrication System (Continued...) |

Link | NOC:Advance Aircraft Maintenance | Lecture 9 - Induction System |

Link | NOC:Advance Aircraft Maintenance | Lecture 10 - Induction System (Continued...) |

Link | NOC:Advance Aircraft Maintenance | Lecture 11 - Cooling System |

Link | NOC:Advance Aircraft Maintenance | Lecture 12 - Exhaust System |

Link | NOC:Advance Aircraft Maintenance | Lecture 13 - Cooling and Exhaust System (Lab Session) |

Link | NOC:Advance Aircraft Maintenance | Lecture 14 - Engine fuel and Fuel Metering Systems |

Link | NOC:Advance Aircraft Maintenance | Lecture 15 - Engine Fuel and Fuel Metering Systems (Continued...) |

Link | NOC:Advance Aircraft Maintenance | Lecture 16 - Engine Fuel and Fuel Metering Systems (Lab Session) |

Link | NOC:Advance Aircraft Maintenance | Lecture 17 - Carburetor troubleshooting and Fuel Injection System |

Link | NOC:Advance Aircraft Maintenance | Lecture 18 - Fuel injection Systems (Continued...) |

Link | NOC:Advance Aircraft Maintenance | Lecture 19 - Fuel System |

Link | NOC:Advance Aircraft Maintenance | Lecture 20 - Ignition system |

Link | NOC:Advance Aircraft Maintenance | Lecture 21 - Ignition system (Continued...) |

Link | NOC:Advance Aircraft Maintenance | Lecture 22 - Ignition system (Lab session) |

Link | NOC:Advance Aircraft Maintenance | Lecture 23 - Basics of propeller and maintenance |

Link | NOC:Advance Aircraft Maintenance | Lecture 24 - Aircraft Reciprocating Engine Inspection - Part 1 |

Link | NOC:Advance Aircraft Maintenance | Lecture 25 - Aircraft Reciprocating Engine Inspection - Part 2 |

Link | NOC:Advance Aircraft Maintenance | Lecture 26 - Aircraft Reciprocating Engine Inspection - Part 3 |

Link | NOC:Advance Aircraft Maintenance | Lecture 27 - Checklist for Aircraft Reciprocating Engine Maintenance |

Link | NOC:Advance Aircraft Maintenance | Lecture 28 - Aircraft Maintenance (Aircraft Performance Point of View) |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 1 - Linear solvers - I |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 2 - Linear solvers - II |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 3 - Linear solvers - III |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 4 - Linear solvers - IV |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 5 - Linear solvers - V |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 6 - Linear solvers - VI |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 7 - Linear solvers - VII |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 8 - Linear solvers - VIII |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 9 - Convection term discretisation - I |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 10 - Convection term discretisation - II |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 11 - Convection term discretisation - III (Private) |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 12 - Convection term discretisation - IV (Private) |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 13 - Convection term discretisation - V (Private) |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 14 - Convection term discretisation - VI (Private) |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 15 - Convection term discretisation - VII (Private) |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 16 - Convection term discretisation - VIII |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 17 - Convection term discretisation - IX |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 18 - High Resolution Schemes - I |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 19 - High Resolution Schemes - II |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 20 - High Resolution Schemes - III |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 21 - High Resolution Schemes - IV |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 22 - High Resolution Schemes - V |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 23 - High Resolution Schemes - VI |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 24 - High Resolution Schemes - VII |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 25 - Temporal discretisation - I |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 26 - Temporal discretisation - II |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 27 - Temporal discretisation - III |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 28 - Temporal discretisation - IV |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 29 - Discretisation of the Source Term, Relaxation and Other Details - I |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 30 - Discretisation of the Source Term, Relaxation and Other Details - II |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 31 - Fluid Flow Computation: Incompressible Flows - I |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 32 - Fluid Flow Computation: Incompressible Flows - II |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 33 - Fluid Flow Computation: Incompressible Flows - III |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 34 - Fluid Flow Computation: Incompressible Flows - IV |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 35 - Fluid Flow Computation: Incompressible Flows - V |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 36 - Fluid Flow Computation: Incompressible Flows - VI |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 37 - Fluid Flow Computation: Incompressible Flows - VII |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 38 - Fluid Flow Computation: Incompressible Flows - VIII |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 39 - Fluid Flow Computation: Compressible Flows - I |

Link | NOC:Introduction to Finite Volume Methods-II | Lecture 40 - Some Advanced Topics - I |

Link | NOC:Introduction to Rocket Propulsion | Lecture 1 - Introduction |

Link | NOC:Introduction to Rocket Propulsion | Lecture 2 - A Brief History of Rocket Propulsion and ISRO |

Link | NOC:Introduction to Rocket Propulsion | Lecture 3 - Types of Rocket Engine |

Link | NOC:Introduction to Rocket Propulsion | Lecture 4 - Fundamentals of Aero-thermodynamics |

Link | NOC:Introduction to Rocket Propulsion | Lecture 5 - Control Volume Analysis and Governing Equations |

Link | NOC:Introduction to Rocket Propulsion | Lecture 6 - Adiabatic Steady 1-D flow and Speed of Sound |

Link | NOC:Introduction to Rocket Propulsion | Lecture 7 - Basics of Thermochemistry |

Link | NOC:Introduction to Rocket Propulsion | Lecture 8 - Adiabatic Flame Temperature and Chemical Equilibrium |

Link | NOC:Introduction to Rocket Propulsion | Lecture 9 - Ideal Rocket Engine, Thrust Equation and Performance Parameters |

Link | NOC:Introduction to Rocket Propulsion | Lecture 10 - Performance Parameters of Rocket Engine |

Link | NOC:Introduction to Rocket Propulsion | Lecture 11 - Performance Parameters of Rocket Engine (Continued...) |

Link | NOC:Introduction to Rocket Propulsion | Lecture 12 - Ideal Nozzle |

Link | NOC:Introduction to Rocket Propulsion | Lecture 13 - Rocket Nozzle |

Link | NOC:Introduction to Rocket Propulsion | Lecture 14 - Convergent Nozzle |

Link | NOC:Introduction to Rocket Propulsion | Lecture 15 - Convergent-Divergent Nozzle and Shock Reflection |

Link | NOC:Introduction to Rocket Propulsion | Lecture 16 - Effect of Back Pressure and Thrust Coefficient |

Link | NOC:Introduction to Rocket Propulsion | Lecture 17 - Thrust Coefficient |

Link | NOC:Introduction to Rocket Propulsion | Lecture 18 - Characteristics Velocity, Combustion Efficiency and Thrust Effectiveness |

Link | NOC:Introduction to Rocket Propulsion | Lecture 19 - Actual Rocket Nozzle Characteristics |

Link | NOC:Introduction to Rocket Propulsion | Lecture 20 - Flight Performance of a Rocket Vehicle |

Link | NOC:Introduction to Rocket Propulsion | Lecture 21 - Flight Performance of a Rocket Vehicle |

Link | NOC:Introduction to Rocket Propulsion | Lecture 22 - Flight Trajectory of Single Stage Rocket Vehicle |

Link | NOC:Introduction to Rocket Propulsion | Lecture 23 - Orbital Mechanics |

Link | NOC:Introduction to Rocket Propulsion | Lecture 24 - Types of Orbits |

Link | NOC:Introduction to Rocket Propulsion | Lecture 25 - Orbital and Escape Velocity |

Link | NOC:Introduction to Rocket Propulsion | Lecture 26 - Interplanetary Transfer Path |

Link | NOC:Introduction to Rocket Propulsion | Lecture 27 - Multi-staging Rocket |

Link | NOC:Introduction to Rocket Propulsion | Lecture 28 - Chemical Propellants-Characteristics and Classification |

Link | NOC:Introduction to Rocket Propulsion | Lecture 29 - Solid and Composite Propellants |

Link | NOC:Introduction to Rocket Propulsion | Lecture 30 - Composite Propellants and it's Manufacturing |

Link | NOC:Introduction to Rocket Propulsion | Lecture 31 - Classification of Liquid Propellants |

Link | NOC:Introduction to Rocket Propulsion | Lecture 32 - Solid Propellant Rocket Engine |

Link | NOC:Introduction to Rocket Propulsion | Lecture 33 - Propellant Burning Mechanism and Flame Structure |

Link | NOC:Introduction to Rocket Propulsion | Lecture 34 - Composite Propellant Combustion |

Link | NOC:Introduction to Rocket Propulsion | Lecture 35 - Regression Rate of Solid Propellant and Effect of Operating Parameters |

Link | NOC:Introduction to Rocket Propulsion | Lecture 36 - Characteristics of Solid Propellants |

Link | NOC:Introduction to Rocket Propulsion | Lecture 37 - Effect of Acceleration and Particle Size on Burning Rate |

Link | NOC:Introduction to Rocket Propulsion | Lecture 38 - Erosive Burning, Effect of Propellant Temperature and Thermal Model |

Link | NOC:Introduction to Rocket Propulsion | Lecture 39 - Chamber Pressure in Solid Propellant Rocket Engine |

Link | NOC:Introduction to Rocket Propulsion | Lecture 40 - Types of Propellant Grains |

Link | NOC:Introduction to Rocket Propulsion | Lecture 41 - Types of Solid Propellant Grains and Evolution of Burning Surface |

Link | NOC:Introduction to Rocket Propulsion | Lecture 42 - Burning Stability and Ignition System in SPRE |

Link | NOC:Introduction to Rocket Propulsion | Lecture 43 - Liquid Propellant Rocket Engine: Basic Configuration and Types |

Link | NOC:Introduction to Rocket Propulsion | Lecture 44 - Injection System in LPRE |

Link | NOC:Introduction to Rocket Propulsion | Lecture 45 - Atomization of Liquid Propellants |

Link | NOC:Introduction to Rocket Propulsion | Lecture 46 - Types of Injection System in LPRE |

Link | NOC:Introduction to Rocket Propulsion | Lecture 47 - Analysis of Impinging Atomizer |

Link | NOC:Introduction to Rocket Propulsion | Lecture 48 - Injection Distributor and Combustion Process in LPRE |

Link | NOC:Introduction to Rocket Propulsion | Lecture 49 - Variation of Gas Specific Volume and Combustion Chamber Geometry |

Link | NOC:Introduction to Rocket Propulsion | Lecture 50 - Liquid Propellant Feed System in LPRE |

Link | NOC:Introduction to Rocket Propulsion | Lecture 51 - Turbo-Pump Feed Configuration |

Link | NOC:Introduction to Rocket Propulsion | Lecture 52 - Ignition System in LPRE |

Link | NOC:Introduction to Rocket Propulsion | Lecture 53 - Cooling of Thrust Chamber and Nozzle of a Rocket Engine |

Link | NOC:Introduction to Rocket Propulsion | Lecture 54 - Cooling System of Rocket Engine (Continued...) |

Link | NOC:Introduction to Rocket Propulsion | Lecture 55 - Modes of Heat Transfer through combustion Chamber Wall and Nozzle Wall |

Link | NOC:Introduction to Rocket Propulsion | Lecture 56 - Heat Transfer Analysis of Cooling System |

Link | NOC:Introduction to Rocket Propulsion | Lecture 57 - Hybrid Propellant Rocket Engine |

Link | NOC:Introduction to Rocket Propulsion | Lecture 58 - Regression Rate of Solid Fuel Grain in HPRE and Types of Port Configurations |

Link | NOC:Introduction to Rocket Propulsion | Lecture 59 - Non-Chemical Rocket Engine |

Link | NOC:Introduction to Rocket Propulsion | Lecture 60 - Electromagnetic Thruster, Nuclear and Solar Rocket Engine |

Link | NOC:UAV Design - Part II | Lecture 1 - Introduction to Design Algorithms: Flight Dynamics Point of View |

Link | NOC:UAV Design - Part II | Lecture 2 - Thrust Generation and Power Required |

Link | NOC:UAV Design - Part II | Lecture 3 - Lift and Drag for Infinite Wing |

Link | NOC:UAV Design - Part II | Lecture 4 - Lift and Drag for an Infinite Wing (Continued...) |

Link | NOC:UAV Design - Part II | Lecture 5 - Relation between Aerodynamic center and Center of Pressure |

Link | NOC:UAV Design - Part II | Lecture 6 - Aerodynamic Characteristics of Wing |

Link | NOC:UAV Design - Part II | Lecture 7 - Stability and Criteria for Longitudinal Static Stability |

Link | NOC:UAV Design - Part II | Lecture 8 - Numericals |

Link | NOC:UAV Design - Part II | Lecture 9 - Longitudinal Static Stability - Wing Contribution |

Link | NOC:UAV Design - Part II | Lecture 10 - Flight Demonstration of Flat Plate |

Link | NOC:UAV Design - Part II | Lecture 11 - Numericals (Continued...) |

Link | NOC:UAV Design - Part II | Lecture 12 - Example Problems for Wing alone Configuration |

Link | NOC:UAV Design - Part II | Lecture 13 - Wing-Tail Contribution and Neutral Point |

Link | NOC:UAV Design - Part II | Lecture 14 - Example problems of wing and tail combination |

Link | NOC:UAV Design - Part II | Lecture 15 - Example problems of wing and tail combination (Continued...) |

Link | NOC:UAV Design - Part II | Lecture 16 - Flight demonstration of same wing and tail combination |

Link | NOC:UAV Design - Part II | Lecture 17 - Matlab Tutorial |

Link | NOC:UAV Design - Part II | Lecture 18 - Trim Requirements of UAV |

Link | NOC:UAV Design - Part II | Lecture 19 - Example on performance analysis of UAV |

Link | NOC:UAV Design - Part II | Lecture 20 - Weight Estimation and wing Sizing with Example |

Link | NOC:UAV Design - Part II | Lecture 21 - Power Plant Selection with Example |

Link | NOC:UAV Design - Part II | Lecture 22 - Subroutine for takeoff performance (Powerplant selection) |

Link | NOC:UAV Design - Part II | Lecture 23 - Subroutine for Climb Performance (Powerplant Selection) |

Link | NOC:UAV Design - Part II | Lecture 24 - Subroutine for Weight Estimation |

Link | NOC:UAV Design - Part II | Lecture 25 - Subroutine for Planform Geometry Selection |

Link | NOC:UAV Design - Part II | Lecture 26 - Subroutine for Airfoil Selection |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 1 - Introduction |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 2 - Introduction (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 3 - Introduction (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 4 - Review of Fluid Mechanics |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 5 - Review of Fluid Mechanics, Thermodynamics |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 6 - Review of Compressible Flows |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 7 - Review of Compressible Flows (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 8 - Review of Compressible Flows (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 9 - Review of Compressible Flows (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 10 - Review of Compressible Flows (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 11 - Introduction to gas turbine engines |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 12 - Introduction to gas turbine engines (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 13 - Introduction to gas turbine engines (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 14 - Introduction to gas turbine engines (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 15 - Introduction to gas turbine engines (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 16 - Introduction to gas turbine engines (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 17 - Introduction to gas turbine engines (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 18 - Piston Engines and Propellers |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 19 - Piston Engines and Propellers (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 20 - Piston Engines and Propellers (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 21 - Piston Engines and Propellers (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 22 - Piston Engines and Propellers (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 23 - Piston Engines and Propellers (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 24 - Performance/cycle analysis: Pulsejet |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 25 - Performance/cycle analysis: Pulsejet (Continued...), Ramjet |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 26 - Performance/cycle analysis: Ramjet (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 27 - Performance/cycle analysis: Ramjet (Continued...), and Scramjet Engines |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 28 - Performance/cycle analysis: Turbojet |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 29 - Performance/cycle analysis: Turbojet (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 30 - Performance/cycle analysis: Turbojet (Continued...), Turbofan |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 31 - Performance/cycle analysis: Turbofan (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 32 - Performance/cycle analysis: Turbofan (Continued...), Turboramjet |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 33 - Performance/cycle analysis: Turboramjet (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 34 - Performance/cycle analysis: Turboprop |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 35 - Performance/cycle analysis: Turboshaft, and Propfan |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 36 - Stationary components: intakes |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 37 - Stationary components: combustors |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 38 - Stationary components: nozzles, Industrial Gas Turbines |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 39 - Introduction to turbomachinery: basic principles and equations |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 40 - Centrifugal compressor |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 41 - Centrifugal compressor (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 42 - Centrifugal compressor (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 43 - Centrifugal compressor (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 44 - Centrifugal compressor (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 45 - Centrifugal compressor (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 46 - Centrifugal compressor (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 47 - Axial compressor |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 48 - Axial compressor (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 49 - Axial compressor (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 50 - Axial compressor (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 51 - Axial compressor (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 52 - Axial compressor (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 53 - Axial compressor (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 54 - Axial compressor (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 55 - Axial turbine |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 56 - Axial turbine (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 57 - Axial turbine (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 58 - Axial turbine (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 59 - Axial turbine (Continued...) |

Link | NOC:Introduction to Airbreathing Propulsion | Lecture 60 - Radial Flow Turbine, Module Matching |

Link | NOC:Computational Science in Engineering | Lecture 1 - Linear Algebra: Introduction |

Link | NOC:Computational Science in Engineering | Lecture 2 - Linear Algebra: Introduction (Continued...) |

Link | NOC:Computational Science in Engineering | Lecture 3 - Linear Algebra: Permutation Matrix, Existence of Solution |

Link | NOC:Computational Science in Engineering | Lecture 4 - Linear Algebra: Permutation Matrix, Existence of Solution (Continued...) |

Link | NOC:Computational Science in Engineering | Lecture 5 - Linear Algebra: Linear Independence, Basis Vector and Dimensions |

Link | NOC:Computational Science in Engineering | Lecture 6 - Linear Algebra: Null Space, Column Space, Row Space, Introduction to Orthogonal System |

Link | NOC:Computational Science in Engineering | Lecture 7 - Linear Algebra: Orthogonal System, Projection, Determinant |

Link | NOC:Computational Science in Engineering | Lecture 8 - Linear Algebra: Orthogonal System, Projection, Determinant (Continued...) |

Link | NOC:Computational Science in Engineering | Lecture 9 - Linear Algebra: Properties of Determinant, Cramer's Rule, Introduction to Eigen Values |

Link | NOC:Computational Science in Engineering | Lecture 10 - Linear Algebra: Eigen Values, Eigen Vectors, SVD |

Link | NOC:Computational Science in Engineering | Lecture 11 - Linear Algebra: Eigen Values, Eigen Vectors, SVD (Continued...) |

Link | NOC:Computational Science in Engineering | Lecture 12 - ODE: Introduction to ODEs, Initial Value Problem, Separation of Variables |

Link | NOC:Computational Science in Engineering | Lecture 13 - ODE: Solution of Exact ODEs, First Order Linear Systems |

Link | NOC:Computational Science in Engineering | Lecture 14 - ODE: Solution of Second Order Linear ODEs |

Link | NOC:Computational Science in Engineering | Lecture 15 - ODE: Existence and Uniqueness of Solution, Non-Homogeneous System |

Link | NOC:Computational Science in Engineering | Lecture 16 - ODE: Higher Order Linear ODEs, Variation of Parameters, System of ODEs |

Link | NOC:Computational Science in Engineering | Lecture 17 - ODE: Linear Systems, Superposition for Homogeneous Systems |

Link | NOC:Computational Science in Engineering | Lecture 18 - Fourier Analysis, Orthogonality of Trigonometric Systems, Euler's Formula |

Link | NOC:Computational Science in Engineering | Lecture 19 - Parseval's Theorem, Fourier Integrals, Laplace Transforms |

Link | NOC:Computational Science in Engineering | Lecture 20 - PDE: Introduction to PDEs, Solution of PDEs using Characteristics Curve |

Link | NOC:Computational Science in Engineering | Lecture 21 - PDE: First Order PDEs, Dilation Invariant Solution of Differential Equations |

Link | NOC:Computational Science in Engineering | Lecture 22 - PDE: Solution of Linear PDEs |

Link | NOC:Computational Science in Engineering | Lecture 23 - PDE: Separation of Variables, Eigenvalue Problem, Poisson Integral Representation |

Link | NOC:Computational Science in Engineering | Lecture 24 - PDE: Boundary Conditions, Solution of 2D systems |

Link | NOC:Computational Science in Engineering | Lecture 25 - Introduction to Numerical Methods, Mathematical Models, Errors |

Link | NOC:Computational Science in Engineering | Lecture 26 - Errors, Numerical Differentiation, Stability |

Link | NOC:Computational Science in Engineering | Lecture 27 - Roots of Equations: Graphical Method, Bi-Section Mehtod, False-Position Method |

Link | NOC:Computational Science in Engineering | Lecture 28 - Secant Method, Brent's Method, Multipoint Iteration Method, Derative Free Method |

Link | NOC:Computational Science in Engineering | Lecture 29 - Complex Roots, Birge-Vieta Method, Bairstow's method |

Link | NOC:Computational Science in Engineering | Lecture 30 - Solution of Linear Algebric Equations, Gauss Elimination Method |

Link | NOC:Computational Science in Engineering | Lecture 31 - Direct Methods: Gauss Elimination, Gauss-Jordan, Crout's Method, Cholesky Method, Iterative Methods: Jacobi Iteration Method, Gauss-Seidel |

Link | NOC:Computational Science in Engineering | Lecture 32 - Extrapolation Method, Eigenvalue Problem, Jacobi Method, Householder's Method for Symmetric Matrices, Power Method, Inverse Power Method |

Link | NOC:Computational Science in Engineering | Lecture 33 - Interpolation: Taylor's Series, Lagrange and Newton Interpolation, Iterated Interpolation, Hermite Interpolation, Finite Difference Operations |

Link | NOC:Computational Science in Engineering | Lecture 34 - Piecewise and Spline Interpolation, Bivariate Interpolation, Least Square Approximation, Uniform Polynomial Approximation |

Link | NOC:Computational Science in Engineering | Lecture 35 - Numerical Differentiation and Intergration, Methods Based on Finite Differences, Methods based on Undetermined Coefficients, Extrapolation Methods, Partial Differentiation |

Link | NOC:Computational Science in Engineering | Lecture 36 - Numerical Integration: Newton-Cotes Method, Gaussian Integration Methods, Lobatto Integration Method, Radau Integration Method, Composite Integration Methods |

Link | NOC:Computational Science in Engineering | Lecture 37 - Double Integration: Trapezoidal Rule, Simpson's Rule, Solution of ODEs: Difference Equation, Single Step Methods, Explicit Methods |

Link | NOC:Computational Science in Engineering | Lecture 38 - Runge-Kutta Methods, Euler-Cauchy Method, Multi-step Methods, Predictor-Corrector Methods |

Link | NOC:Computational Science in Engineering | Lecture 39 - System of Differential Equations, Stability Analysis, Solution of Boundary Value Problem: Shooting Method |

Link | NOC:Computational Science in Engineering | Lecture 40 - Numerical Approach to Solution of PDEs: Heat Conduction Equation, Convergence and Stability |

Link | High Speed Aero Dynamics | Lecture 1 - Introduction and Review of Thermodynamics |

Link | High Speed Aero Dynamics | Lecture 2 - Review of Thermodynamics (Continued...) |

Link | High Speed Aero Dynamics | Lecture 3 - Review of Thermodynamics (Continued...) |

Link | High Speed Aero Dynamics | Lecture 4 - Review of Thermodynamics (Continued...) |

Link | High Speed Aero Dynamics | Lecture 5 - One-dimensional gas dynamics |

Link | High Speed Aero Dynamics | Lecture 6 - One-dimensional gas dynamics (Continued...) |

Link | High Speed Aero Dynamics | Lecture 7 - One-dimensional gas dynamics (Continued...) |

Link | High Speed Aero Dynamics | Lecture 8 - One-dimensional waves |

Link | High Speed Aero Dynamics | Lecture 9 - One-dimensional waves (Continued...) |

Link | High Speed Aero Dynamics | Lecture 10 - One-dimensional waves (Continued...) |

Link | High Speed Aero Dynamics | Lecture 11 - Waves and Supersonic Flow |

Link | High Speed Aero Dynamics | Lecture 12 - Waves and Supersonic Flow (Continued...) |

Link | High Speed Aero Dynamics | Lecture 13 - Waves and Supersonic Flow (Continued...) |

Link | High Speed Aero Dynamics | Lecture 14 - Waves and Supersonic Flow (Continued...) |

Link | High Speed Aero Dynamics | Lecture 15 - Shock Expansion Theory |

Link | High Speed Aero Dynamics | Lecture 16 - Flow through ducts and channels |

Link | High Speed Aero Dynamics | Lecture 17 - Flow in ducts |

Link | High Speed Aero Dynamics | Lecture 18 - Flow in ducts (Continued...) |

Link | High Speed Aero Dynamics | Lecture 19 - Adiabatic Flow in ducts with friction |

Link | High Speed Aero Dynamics | Lecture 20 - Adiabatic flow in ducts with friction (Continued...) |

Link | High Speed Aero Dynamics | Lecture 21 - Isothermal flow in ducts with friction |

Link | High Speed Aero Dynamics | Lecture 22 - Flow in uniform duct with heating |

Link | High Speed Aero Dynamics | Lecture 23 - Multi - dimensional flow problems |

Link | High Speed Aero Dynamics | Lecture 24 - Multi - dimensional flow problems (Continued...) |

Link | High Speed Aero Dynamics | Lecture 25 - Linearized flow problems |

Link | High Speed Aero Dynamics | Lecture 26 - Linearized flow problems (Continued...) |

Link | High Speed Aero Dynamics | Lecture 27 - Linearized flow problems (Continued...) |

Link | High Speed Aero Dynamics | Lecture 28 - Linearized flow problems (Continued...) |

Link | High Speed Aero Dynamics | Lecture 29 - Linearized flow problems (Continued...) |

Link | High Speed Aero Dynamics | Lecture 30 - Linearized flow problems (Continued...) |

Link | High Speed Aero Dynamics | Lecture 31 - Linearized flow problems (Continued...) |

Link | High Speed Aero Dynamics | Lecture 32 - Linearized Problems - Forces on Slender Bodies |

Link | High Speed Aero Dynamics | Lecture 33 - Linearized Problems - Forces on Slender Bodies (Continued...) |

Link | High Speed Aero Dynamics | Lecture 34 - Similarity Rules for High Speed Flows |

Link | High Speed Aero Dynamics | Lecture 35 - Similarity Rules for High Speed Flows (Continued...) |

Link | High Speed Aero Dynamics | Lecture 36 - Similarity Rules for High Speed Flows (Continued...) |

Link | High Speed Aero Dynamics | Lecture 37 - Similarity Rules in Hypersonic Flow |

Link | High Speed Aero Dynamics | Lecture 38 - Transonic Flow |

Link | High Speed Aero Dynamics | Lecture 39 - Transonic Flow (Continued...) |

Link | High Speed Aero Dynamics | Lecture 40 - Transonic Flow (Continued...) |

Link | Space Flight Mechanics | Lecture 1 - Introduction to Space Flight Mechanics |

Link | Space Flight Mechanics | Lecture 2 - Particle Kinematics |

Link | Space Flight Mechanics | Lecture 3 - Particle Kinematics (Continued...) |

Link | Space Flight Mechanics | Lecture 4 - Conic Section |

Link | Space Flight Mechanics | Lecture 5 - Two Body Problem |

Link | Space Flight Mechanics | Lecture 6 - Two Body Problem (Continued...1) |

Link | Space Flight Mechanics | Lecture 7 - Two Body Problem (Continued...2) |

Link | Space Flight Mechanics | Lecture 8 - Two Body Problem (Continued...3) |

Link | Space Flight Mechanics | Lecture 9 - Two Body Problem (Continued...4) |

Link | Space Flight Mechanics | Lecture 10 - Two Body Problem (Continued...5) |

Link | Space Flight Mechanics | Lecture 11 - Two Body Problem (Continued...6) |

Link | Space Flight Mechanics | Lecture 12 - Two Body Problem (Continued...7) & Three Body Problem |

Link | Space Flight Mechanics | Lecture 13 - Three Body Problem (Continued...1) |

Link | Space Flight Mechanics | Lecture 14 - Three Body Problem (Continued...2) |

Link | Space Flight Mechanics | Lecture 15 - Three Body Problem (Continued...3) |

Link | Space Flight Mechanics | Lecture 16 - Three Body Problem (Continued...4) |

Link | Space Flight Mechanics | Lecture 17 - Three Body Problem (Continued...5) |

Link | Space Flight Mechanics | Lecture 18 - Three Body Problem (Continued...6) |

Link | Space Flight Mechanics | Lecture 19 - Three Body Problem (Continued...7) |

Link | Space Flight Mechanics | Lecture 20 - Three Body Problem (Continued...8) |

Link | Space Flight Mechanics | Lecture 21 - Trajectory Transfer |

Link | Space Flight Mechanics | Lecture 22 - Trajectory Transfer (Continued...1) |

Link | Space Flight Mechanics | Lecture 23 - Trajectory Transfer (Continued...2) |

Link | Space Flight Mechanics | Lecture 24 - Trajectory Transfer (Continued...3) |

Link | Space Flight Mechanics | Lecture 25 - Trajectory Transfer (Continued...4) |

Link | Space Flight Mechanics | Lecture 26 - Trajectory Transfer (Continued...5) |

Link | Space Flight Mechanics | Lecture 27 - Trajectory Transfer (Continued...6) |

Link | Space Flight Mechanics | Lecture 28 - Trajectory Transfer (Continued...7) |

Link | Space Flight Mechanics | Lecture 29 - Trajectory Transfer (Continued...8) |

Link | Space Flight Mechanics | Lecture 30 - Trajectory Transfer (Continued...9) |

Link | Space Flight Mechanics | Lecture 31 - Trajectory Transfer (Continued...10) |

Link | Space Flight Mechanics | Lecture 32 - Trajectory Transfer (Continued...11) and Attitude Dynamics |

Link | Space Flight Mechanics | Lecture 33 - Attitude Dynamics (Continued...1) |

Link | Space Flight Mechanics | Lecture 34 - Attitude Dynamics (Continued...2) |

Link | Space Flight Mechanics | Lecture 35 - Attitude Dynamics (Continued...3) |

Link | Space Flight Mechanics | Lecture 36 - Attitude Dynamics (Continued...4) |

Link | Space Flight Mechanics | Lecture 37 - Attitude Dynamics (Continued...5) |

Link | Space Flight Mechanics | Lecture 38 - Attitude Dynamics (Continued...6) |

Link | Space Flight Mechanics | Lecture 39 - Attitude Dynamics (Continued...7) |

Link | Space Flight Mechanics | Lecture 40 - Attitude Dynamics (Continued...8) |

Link | Space Flight Mechanics | Lecture 41 - Attitude Dynamics (Continued...9) |

Link | Space Flight Mechanics | Lecture 42 - Propulsion |

Link | Space Flight Mechanics | Lecture 43 - Propulsion (Continued...1) |

Link | Space Flight Mechanics | Lecture 44 - Propulsion (Continued...2) |

Link | Space Flight Mechanics | Lecture 45 - Propulsion (Continued...3) |

Link | Introduction to Aerodynamics | Lecture 1 - Aircraft and Aerodynamic Forces and Moments |

Link | Introduction to Aerodynamics | Lecture 2 - Aircraft and Aerodynamic Forces and Moments (Continued...) |

Link | Introduction to Aerodynamics | Lecture 3 - Fluids and Forces in Fluids |

Link | Introduction to Aerodynamics | Lecture 4 - Fluids and Forces in Fluids (Continued...) |

Link | Introduction to Aerodynamics | Lecture 5 - Forces in Fluids |

Link | Introduction to Aerodynamics | Lecture 6 - Forces in Fluids (Continued...) |

Link | Introduction to Aerodynamics | Lecture 7 - Kinematics of fluid motion |

Link | Introduction to Aerodynamics | Lecture 8 - Kinematics of fluid motion (Continued...) |

Link | Introduction to Aerodynamics | Lecture 9 - Kinematics of fluid motion (Continued... ) |

Link | Introduction to Aerodynamics | Lecture 10 - Kinematics of fluid motion (Continued...) |

Link | Introduction to Aerodynamics | Lecture 11 - Kinematics of fluid motion - Velocity with specified extension and vorticity |

Link | Introduction to Aerodynamics | Lecture 12 - Kinematics of fluid motion - Velocity with specified extension and vorticity (Continued...) |

Link | Introduction to Aerodynamics | Lecture 13 - Kinematics of fluid motion - Vorticity Distribution |

Link | Introduction to Aerodynamics | Lecture 14 - Kinematics of fluid motion - Velocity without expansion and vorticity |

Link | Introduction to Aerodynamics | Lecture 15 - Irrotational Solenoidal Flow in Multiply Connected region |

Link | Introduction to Aerodynamics | Lecture 16 - Irrotational Solenoidal Flow in Multiply Connected region (Continued...) |

Link | Introduction to Aerodynamics | Lecture 17 - Equations of Fluid Motion - Navier - Stokes Equation |

Link | Introduction to Aerodynamics | Lecture 18 - Equations of Fluid Motion - Navier - Stokes Equation (Continued...) |

Link | Introduction to Aerodynamics | Lecture 19 - Equations of Fluid Motion - Navier - Stokes Equation (Continued...) |

Link | Introduction to Aerodynamics | Lecture 20 - Conservation of Energy and Energy Equation |

Link | Introduction to Aerodynamics | Lecture 21 - Equations of Motions |

Link | Introduction to Aerodynamics | Lecture 22 - Equations of Motion (Continued...) |

Link | Introduction to Aerodynamics | Lecture 23 - Exact Solution for Simple Problems |

Link | Introduction to Aerodynamics | Lecture 24 - Exact Solution for Simple Problems (Continued...) |

Link | Introduction to Aerodynamics | Lecture 25 - Non-dimensional Form of the Equations and Possible Simplifications |

Link | Introduction to Aerodynamics | Lecture 26 - High Reynolds Number Approximation |

Link | Introduction to Aerodynamics | Lecture 27 - Conditions fior Incompressibility |

Link | Introduction to Aerodynamics | Lecture 28 - Potential Flow |

Link | Introduction to Aerodynamics | Lecture 29 - Potential Flow - Combination of Basic Solutions |

Link | Introduction to Aerodynamics | Lecture 30 - Potential Flow - Combination of Basic Solutions (Continued...) |

Link | Introduction to Aerodynamics | Lecture 31 - Potential Flow - Combination of Basic Solutions (Continued...) |

Link | Introduction to Aerodynamics | Lecture 32 - Potential Flow - Combination of Basic Solutions (Continued...) - Lifting Cylinder |

Link | Introduction to Aerodynamics | Lecture 33 - Conformal Transformation |

Link | Introduction to Aerodynamics | Lecture 34 - Conformal Transformation (Continued...) |

Link | Introduction to Aerodynamics | Lecture 35 - Zhukovsky Transformation |

Link | Introduction to Aerodynamics | Lecture 36 - Zhukovsky Transformation (Continued...) |

Link | Introduction to Aerodynamics | Lecture 37 - Zhukovsky Transformation - Applications |

Link | Introduction to Aerodynamics | Lecture 38 - Zhukovsky Transformation - Applications (Continued...) |

Link | Introduction to Aerodynamics | Lecture 39 - Zhukovsky Transformation - Applications (Continued...) |

Link | Introduction to Aerodynamics | Lecture 40 - Transformation |

Link | Introduction to Aerodynamics | Lecture 41 - Transformation (Continued...) |

Link | Introduction to Aerodynamics | Lecture 42 - Boundary - Layer Theory |

Link | Introduction to Aerodynamics | Lecture 43 - Boundary - Layer Theory (Continued...) |

Link | Introduction to Aerodynamics | Lecture 44 - Boundary - Layer Theory (Continued...) |

Link | Introduction to Aerodynamics | Lecture 45 - Boundary - Layer Theory (Continued...) |

Link | Introduction to Aerodynamics | Lecture 46 - Boundary - Layer Theory (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 1 - Kinematics of Rotation |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 2 - Kinematics of Rotation (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 3 - Kinematics of Rotation (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 4 - Kinematics of Rotation (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 5 - Kinematics of Rotation (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 6 - Kinematics of Rotation (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 7 - Rotation |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 8 - Rotation (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 9 - Rotation (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 10 - Rotation (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 11 - Rotational Kinematics |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 12 - Rotational Kinematics (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 13 - Rotational Kinematics (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 14 - Rotational Kinematics (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 15 - Rotational Dynamics (Rigid Body Dynamics) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 16 - Rotational Dynamics (Rigid Body Dynamics) (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 17 - Rotational Dynamics (Rigid Body Dynamics) (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 18 - Rigid Body Dynamics |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 19 - Rigid Body Dynamics (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 20 - Rigid Body Dynamics (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 21 - Rigid Body Dynamics (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 22 - Rigid Body Dynamics (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 23 - Rigid Body Dynamics (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 24 - Rigid Body Dynamics (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 25 - Rigid Body Dynamics (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 26 - Stability of Torque Free Rotation |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 27 - Stability of Torque Free Rotation (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 28 - Gravity-gradient Satellite |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 29 - Gravity-gradient Satellite (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 30 - Gravity-gradient Satellite (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 31 - Gravity-gradient Satellite (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 32 - Gravity-gradient Satellite (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 33 - Gravity-gradient Satellite (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 34 - Gravity-gradient Satellite (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 35 - Gravity-gradient Satellite (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 36 - Gravity-gradient Satellite (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 37 - Gravity-gradient Satellite (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 38 - Spin Stabilization |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 39 - Spin Stabilization (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 40 - Spin Stabilization (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 41 - Spin Stabilization (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 42 - Spin Stabilization (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 43 - Control Moment Gyroscope |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 44 - Control Moment Gyroscope (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 45 - Gyroscope/Top Motion |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 46 - Gyroscope/Top Motion (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 47 - Gyroscopic Motion |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 48 - Gyroscopic Motion (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 49 - Reaction Wheel/Gyrostat |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 50 - Reaction Wheel/Gyrostat (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 51 - Gyrostat |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 52 - Gyrostat (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 53 - Gyrostat (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 54 - Gyrostat (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 55 - Control Moment Gyro |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 56 - Control Moment Gyro (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 57 - Control Moment Gyro (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 58 - Control Moment Gyro (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 59 - Satellite Dynamics with Control Moment Gyro |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 60 - Satellite Dynamics with Control Moment Gyro (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 61 - Satellite Dynamics with Control Moment Gyro (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 62 - Simplified Control Gyro for Satellite Attitude Control |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 63 - Satellite Attitude Control using Magnetic Torquer |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 64 - Satellite Attitude Control using Magnetic Torquer (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 65 - Satellite Attitude Control using Magnetic Torquer (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 66 - Satellite Attitude Control using Magnetic Torquer (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 67 - Satellite Attitude Control using Magnetic Torquer (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 68 - Satellite Attitude Control using Lorentz Force |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 69 - Satellite Attitude Control using Thruster |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 70 - Atmospheric Drag on the Satellite |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 71 - Atmospheric Force and Moment on the Satellite |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 72 - Atmospheric Force and Moment on the Satellite (Continued...) |

Link | NOC:Satellite Attitude Dynamics and Control | Lecture 73 - Solar Radiation Force and Moment on the Satellite |

Link | NOC:Vibration and Structural Dynamics | Lecture 1 - Introduction |

Link | NOC:Vibration and Structural Dynamics | Lecture 2 - Undamped Free Vibration |

Link | NOC:Vibration and Structural Dynamics | Lecture 3 - Damped Free Vibration |

Link | NOC:Vibration and Structural Dynamics | Lecture 4 - Damped Free Vibration (Continued...) |

Link | NOC:Vibration and Structural Dynamics | Lecture 5 - Damped Free Vibration (Continued...) |

Link | NOC:Vibration and Structural Dynamics | Lecture 6 - Force Vibration |

Link | NOC:Vibration and Structural Dynamics | Lecture 7 - Harmonic Loading |

Link | NOC:Vibration and Structural Dynamics | Lecture 8 - Harmonic Loading (Continued...) |

Link | NOC:Vibration and Structural Dynamics | Lecture 9 - Harmonic Loading (Continued...) |

Link | NOC:Vibration and Structural Dynamics | Lecture 10 - Harmonic Loading (Continued...) |

Link | NOC:Vibration and Structural Dynamics | Lecture 11 - Impulse Load and Arbitrary Load |

Link | NOC:Vibration and Structural Dynamics | Lecture 12 - Impulse Load and Arbitrary Load (Continued...) |

Link | NOC:Vibration and Structural Dynamics | Lecture 13 - MDOF, 2-Dof System |

Link | NOC:Vibration and Structural Dynamics | Lecture 14 - Normal Mode of Vib |

Link | NOC:Vibration and Structural Dynamics | Lecture 15 - Natural Frequency and Mode Shapes |

Link | NOC:Vibration and Structural Dynamics | Lecture 16 - Mode Shapes of MDOF |

Link | NOC:Vibration and Structural Dynamics | Lecture 17 - Mode Shapes and Free Vibration Response of MODF |

Link | NOC:Vibration and Structural Dynamics | Lecture 18 - Example on MODF |

Link | NOC:Vibration and Structural Dynamics | Lecture 19 - Example on MODF (Continued...) |

Link | NOC:Vibration and Structural Dynamics | Lecture 20 - Modal Expansion Theorem, Generalized Coordinate |

Link | NOC:Vibration and Structural Dynamics | Lecture 21 - Examples on Modal Analysis |

Link | NOC:Vibration and Structural Dynamics | Lecture 22 - Damping |

Link | NOC:Vibration and Structural Dynamics | Lecture 23 - Rigid Body Modes |

Link | NOC:Vibration and Structural Dynamics | Lecture 24 - Numerical Time Integration |

Link | NOC:Vibration and Structural Dynamics | Lecture 25 - Continuous System |

Link | NOC:Vibration and Structural Dynamics | Lecture 26 - Axial Vibration of Bar |

Link | NOC:Vibration and Structural Dynamics | Lecture 27 - Axial Vibration of Bar (Continued...) |

Link | NOC:Vibration and Structural Dynamics | Lecture 28 - Bending Vibration in Beam |

Link | NOC:Vibration and Structural Dynamics | Lecture 29 - Bending Vibration in Beam (Continued...) |

Link | NOC:Vibration and Structural Dynamics | Lecture 30 - Bending Vibration in Beam (Continued...) |

Link | NOC:Vibration and Structural Dynamics | Lecture 31 - Modal Analysis |

Link | NOC:Vibration and Structural Dynamics | Lecture 32 - Modal Analysis (Continued...) |

Link | NOC:Vibration and Structural Dynamics | Lecture 33 - Modal Analysis of Continuous System |

Link | NOC:Vibration and Structural Dynamics | Lecture 34 - Modal Analysis of Continuous System (Continued...) |

Link | NOC:Vibration and Structural Dynamics | Lecture 35 - Approximate Method |

Link | NOC:Vibration and Structural Dynamics | Lecture 36 - Approximate Methods (Continued...) |

Link | NOC:Vibration and Structural Dynamics | Lecture 37 - Collocation Method |

Link | NOC:Vibration and Structural Dynamics | Lecture 38 - Analytical Methods |

Link | NOC:Vibration and Structural Dynamics | Lecture 39 - Analytical Methods (Continued...) |

Link | NOC:Vibration and Structural Dynamics | Lecture 40 - Analytical Methods (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 1 - Conic Section |

Link | NOC:Space Flight Mechanics | Lecture 2 - Conic Section (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 3 - Conic Section (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 4 - Central Force Motion |

Link | NOC:Space Flight Mechanics | Lecture 5 - Gravitational Central Force Motion |

Link | NOC:Space Flight Mechanics | Lecture 6 - Gravitational Central Force Motion (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 7 - Gravitational Central Force Motion (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 8 - 2-Body Problem |

Link | NOC:Space Flight Mechanics | Lecture 9 - 2-Particle System Motion Under Mutual Gravitational Attraction |

Link | NOC:Space Flight Mechanics | Lecture 10 - 2-Particle Body Problem |

Link | NOC:Space Flight Mechanics | Lecture 11 - 2-Particle Body System |

Link | NOC:Space Flight Mechanics | Lecture 12 - Classical Orbital Elements / Parameters |

Link | NOC:Space Flight Mechanics | Lecture 13 - Classical Orbital Elements / Parameters (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 14 - Classical Orbital Elements / Parameters (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 15 - Classical Orbital Elements and Its Inverse Problems |

Link | NOC:Space Flight Mechanics | Lecture 16 - Inverse Problem of Orbit Determination (Classical Orbital Elements) |

Link | NOC:Space Flight Mechanics | Lecture 17 - Problem Solving on 2-Body Problem Related to Orbit and Orbital Elements |

Link | NOC:Space Flight Mechanics | Lecture 18 - Problem Related to Orbital Elements |

Link | NOC:Space Flight Mechanics | Lecture 19 - Kepler's Equation / Kepler's Problem |

Link | NOC:Space Flight Mechanics | Lecture 20 - Kepler's Problem (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 21 - Kepler's Problem (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 22 - Kepler's Equation |

Link | NOC:Space Flight Mechanics | Lecture 23 - Kepler's Equation (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 24 - Kepler's Equation (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 25 - Kepler's Equation (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 26 - Kepler's Equation (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 27 - Kepler's Equation (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 28 - Kepler's Equation (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 29 - 3-Body Problem |

Link | NOC:Space Flight Mechanics | Lecture 30 - 3-Body Problem (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 31 - 3-Body Problem (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 32 - 3-Body Problem (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 33 - 3-Body Problem (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 34 - Restricted 3-Body Problem |

Link | NOC:Space Flight Mechanics | Lecture 35 - Restricted 3-Body Problem (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 36 - Restricted 3-Body Problem (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 37 - Restricted 3-Body Problem (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 38 - Restricted 3-Body Problem (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 39 - Restricted 3-Body Problem (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 40 - Restricted 3-Body Problem (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 41 - Restricted 3-Body Problem (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 42 - Restricted 3-Body Problem (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 43 - Restricted 3-Body Problem (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 44 - Restricted 3-Body Problem (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 45 - Restricted 3-Body Problem (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 46 - Restricted 3-Body Problem (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 47 - General Perturbation Theory |

Link | NOC:Space Flight Mechanics | Lecture 48 - General Perturbation Theory (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 49 - General Perturbation Theory (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 50 - General Perturbation Theory (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 51 - General Perturbation Theory (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 52 - General Orbit Perturbation Theory |

Link | NOC:Space Flight Mechanics | Lecture 53 - General Orbit Perturbation Theory (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 54 - General Orbit Perturbation Theory (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 55 - General Orbit Perturbation Theory (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 56 - General Orbit Perturbation Theory (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 57 - General Orbit Perturbation Theory (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 58 - General Orbit Perturbation Theory (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 59 - General Orbit Perturbation Theory (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 60 - General Orbit Perturbation Theory (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 61 - General Orbit Perturbation Theory (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 62 - General Orbit Perturbation Theory (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 63 - General Orbit Perturbation Theory (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 64 - General Orbit Perturbation Theory (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 65 - General Orbit Perturbation Theory (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 66 - General Orbit Perturbation Theory (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 67 - General Orbit Perturbation Theory (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 68 - Orbit Determination |

Link | NOC:Space Flight Mechanics | Lecture 69 - Orbit Determination (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 70 - Orbit Determination (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 71 - Orbit Determination (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 72 - Transformation from Celestial to Earth Fixed Reference Frame |

Link | NOC:Space Flight Mechanics | Lecture 73 - Time |

Link | NOC:Space Flight Mechanics | Lecture 74 - Time (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 75 - Orbit Determination |

Link | NOC:Space Flight Mechanics | Lecture 76 - Orbit Determination (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 77 - Orbit Determination (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 78 - Orbit Determination (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 79 - Trajectory Transfer |

Link | NOC:Space Flight Mechanics | Lecture 80 - Trajectory Transfer (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 81 - Trajectory Transfer (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 82 - Trajectory Transfer (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 83 - Trajectory Transfer (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 84 - Trajectory Transfer (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 85 - Trajectory Transfer (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 86 - Trajectory Transfer (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 87 - Interplanetary Transfer |

Link | NOC:Space Flight Mechanics | Lecture 88 - Interplanetary Transfer (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 89 - Interplanetary Transfer (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 90 - Patched Conic Section Method for Interplanetary Transfer |

Link | NOC:Space Flight Mechanics | Lecture 91 - Interplanetary Mission |

Link | NOC:Space Flight Mechanics | Lecture 92 - Interplanetary Mission (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 93 - Interception in Coplanar Orbit |

Link | NOC:Space Flight Mechanics | Lecture 94 - Interception in Coplanar Orbit (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 95 - Interception in non-coplanar Orbit |

Link | NOC:Space Flight Mechanics | Lecture 96 - Interception in non-coplanar Orbit (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 97 - Interception in non-coplanar Orbit (Continued...) |

Link | NOC:Space Flight Mechanics | Lecture 98 - Non Coplanar Transfer |

Link | NOC:Space Flight Mechanics | Lecture 99 - Sphere of Influence |

Link | NOC:Aircraft Structures - I | Lecture 1 - Introduction |

Link | NOC:Aircraft Structures - I | Lecture 2 - Introduction (Continued...) |

Link | NOC:Aircraft Structures - I | Lecture 3 - Introduction (Continued...) |

Link | NOC:Aircraft Structures - I | Lecture 4 - Load Encountered by a Typical Aircraft |

Link | NOC:Aircraft Structures - I | Lecture 5 - Conceptual Structural Details of a Typical Aircraft |

Link | NOC:Aircraft Structures - I | Lecture 6 - Airworthiness of An Aircraft |

Link | NOC:Aircraft Structures - I | Lecture 7 - Aerodynamic Loads and Load Factors |

Link | NOC:Aircraft Structures - I | Lecture 8 - Loads From A Symmetric Manoeuvre Of An Aircraft |

Link | NOC:Aircraft Structures - I | Lecture 9 - Shear and Moment on Wing An Aircraft |

Link | NOC:Aircraft Structures - I | Lecture 10 - Distribution Of Load On The Fuselage |

Link | NOC:Aircraft Structures - I | Lecture 11 - Unit Load Analysis Of Fuselage |

Link | NOC:Aircraft Structures - I | Lecture 12 - Truss System |

Link | NOC:Aircraft Structures - I | Lecture 13 - Truss System (Continued...) |

Link | NOC:Aircraft Structures - I | Lecture 14 - Space Structures |

Link | NOC:Aircraft Structures - I | Lecture 15 - Space Structures (Continued...) |

Link | NOC:Aircraft Structures - I | Lecture 16 - Wing Truss System |

Link | NOC:Aircraft Structures - I | Lecture 17 - Introduction to Energy Methods |

Link | NOC:Aircraft Structures - I | Lecture 18 - Dummy and Unit Load Method |

Link | NOC:Aircraft Structures - I | Lecture 19 - Dummy and Unit Load Method - Examples |

Link | NOC:Aircraft Structures - I | Lecture 20 - Castigliano's Theorems |

Link | NOC:Aircraft Structures - I | Lecture 21 - Rayleigh - Ritz Method |

Link | NOC:Aircraft Structures - I | Lecture 22 - Statically Indeterminate Structures |

Link | NOC:Aircraft Structures - I | Lecture 23 - Theory of Elasticity - Stress |

Link | NOC:Aircraft Structures - I | Lecture 24 - Theory of Elasticity - Equilibrium |

Link | NOC:Aircraft Structures - I | Lecture 25 - Stress Transformation and Principal Stress |

Link | NOC:Aircraft Structures - I | Lecture 26 - Theory of Elasticity - Principal Stress Boundary Condition |

Link | NOC:Aircraft Structures - I | Lecture 27 - Shear Stresses |

Link | NOC:Aircraft Structures - I | Lecture 28 - Introduction of Strain |

Link | NOC:Aircraft Structures - I | Lecture 29 - Introduction of strain - Equations of compatibility |

Link | NOC:Aircraft Structures - I | Lecture 30 - Formulation of Elasticity Problems |

Link | NOC:Aircraft Structures - I | Lecture 31 - Inverse Method of Solution |

Link | NOC:Aircraft Structures - I | Lecture 32 - Semi-Inverse Method of Solution |

Link | NOC:Aircraft Structures - I | Lecture 33 - Equilibrium Equation in Polar Coordinate System |

Link | NOC:Aircraft Structures - I | Lecture 34 - Compatibility Condition in Polar Cordinate System |

Link | NOC:Aircraft Structures - I | Lecture 35 - Effects of Circular Hole on Stress Distributions in a Plate |

Link | NOC:Aircraft Structures - I | Lecture 36 - Effects of Circular Hole on Stress Distributions in a Plate |

Link | NOC:Aircraft Structures - I | Lecture 37 - Effects of Circular Hole on Stress Distributions in a Plate |

Link | NOC:Aircraft Structures - I | Lecture 38 - Theory of Elasticity - Torsion Problems |

Link | NOC:Aircraft Structures - I | Lecture 39 - Theory of Elasticity - Torsion Problems (Continued...) |

Link | NOC:Aircraft Structures - I | Lecture 40 - Torsion of an Elliptical Bar |

Link | NOC:Aircraft Structures - I | Lecture 41 - Membrane Analogy for Torsion Problem |

Link | NOC:Aircraft Structures - I | Lecture 42 - Membrane Analogy for Torsion Problem (Continued...) |

Link | NOC:Introduction to CFD | Lecture 1 - Brief Overview of CFD |

Link | NOC:Introduction to CFD | Lecture 2 - Governing Equations of Fluid Flow |

Link | NOC:Introduction to CFD | Lecture 3 - Governing Equations of Fluid Flow (Continued...) |

Link | NOC:Introduction to CFD | Lecture 4 - Classification of PDEs |

Link | NOC:Introduction to CFD | Lecture 5 - Classification of PDEs (Continued...) |

Link | NOC:Introduction to CFD | Lecture 6 - Methods for Approximate Solution of PDEs |

Link | NOC:Introduction to CFD | Lecture 7 - Finite Difference Method |

Link | NOC:Introduction to CFD | Lecture 8 - Methods for Approximate Solution of PDEs (Continued...) |

Link | NOC:Introduction to CFD | Lecture 9 - Methods for Approximate Solution of PDEs (Continued...) |

Link | NOC:Introduction to CFD | Lecture 10 - Methods for Approximate Solution of PDEs (Continued...) |

Link | NOC:Introduction to CFD | Lecture 11 - Methods for Approximate Solution of PDEs (Continued...) |

Link | NOC:Introduction to CFD | Lecture 12 - Taylor Table Approach for Constructing Finite Difference Schemes |

Link | NOC:Introduction to CFD | Lecture 13 - Taylor Table Approach for Constructing Finite Difference Schemes (Continued...) |

Link | NOC:Introduction to CFD | Lecture 14 - Taylor Table Approach for Constructing Finite Difference Schemes (Continued...) |

Link | NOC:Introduction to CFD | Lecture 15 - Taylor Table Approach for Constructing Finite Difference Schemes (Continued...) |

Link | NOC:Introduction to CFD | Lecture 16 - Taylor Table Approach for Constructing Finite Difference Schemes (Continued...) |

Link | NOC:Introduction to CFD | Lecture 17 - Numerical Solution of Steady State Heat Conduction (Elliptic PDE) |

Link | NOC:Introduction to CFD | Lecture 18 - Numerical Solution of Steady State Heat Conduction (Elliptic PDE) (Continued...) |

Link | NOC:Introduction to CFD | Lecture 19 - Numerical Solution of Steady State Heat Conduction (Elliptic PDE) (Continued...) |

Link | NOC:Introduction to CFD | Lecture 20 - Numerical Solution of Steady State Heat Conduction (Elliptic PDE) (Continued...) |

Link | NOC:Introduction to CFD | Lecture 21 - Numerical Solution of Steady State Heat Conduction (Elliptic PDE) (Continued...) |

Link | NOC:Introduction to CFD | Lecture 22 - Numerical Solution of Unsteady Heat Conduction (Parabolic PDE) |

Link | NOC:Introduction to CFD | Lecture 23 - Numerical Solution of Unsteady Heat Conduction (Parabolic PDE) (Continued...) |

Link | NOC:Introduction to CFD | Lecture 24 - Numerical Solution of Unsteady Heat Conduction (Parabolic PDE) (Continued...) |

Link | NOC:Introduction to CFD | Lecture 25 - Numerical Solution of Unsteady Heat Conduction (Parabolic PDE) (Continued...) |

Link | NOC:Introduction to CFD | Lecture 26 - Numerical Solution of Unsteady Heat Conduction (Parabolic PDE) (Continued...) |

Link | NOC:Introduction to CFD | Lecture 27 - Numerical Solution of Linear Wave Equation (Hyperbolic PDE) |

Link | NOC:Introduction to CFD | Lecture 28 - Numerical Solution of Linear Wave Equation (Hyperbolic PDE) (Continued...) |

Link | NOC:Introduction to CFD | Lecture 29 - Numerical Solution of Linear Wave Equation (Hyperbolic PDE) (Continued...) |

Link | NOC:Introduction to CFD | Lecture 30 - Numerical Solution of Linear Wave Equation (Hyperbolic PDE) (Continued...) |

Link | NOC:Introduction to CFD | Lecture 31 - Numerical Solution of Linear Wave Equation (Hyperbolic PDE) (Continued...) |

Link | NOC:Introduction to CFD | Lecture 32 - Numerical Solution of Linear Wave Equation (Hyperbolic PDE) (Continued...) |

Link | NOC:Introduction to CFD | Lecture 33 - Numerical Solution of One Dimensional Convection - Diffusion Equation |

Link | NOC:Introduction to CFD | Lecture 34 - Numerical Solution of One Dimensional Convection - Diffusion Equation (Continued...) |

Link | NOC:Introduction to CFD | Lecture 35 - Numerical Solution of One Dimensional Convection - Diffusion Equation (Continued...) |

Link | NOC:Introduction to CFD | Lecture 36 - Numerical Solution of One Dimensional Convection - Diffusion Equation (Continued...) |

Link | NOC:Introduction to CFD | Lecture 37 - Numerical Solution of One Dimensional Convection - Diffusion Equation (Continued...) |

Link | NOC:Introduction to CFD | Lecture 38 - Numerical Solution of One Dimensional Convection - Diffusion Equation (Continued...) |

Link | NOC:Introduction to CFD | Lecture 39 - Numerical Solution of Two Dimensional Incompressible Navier Stokes Equations |

Link | NOC:Introduction to CFD | Lecture 40 - Numerical Solution of Two Dimensional Incompressible Navier Stokes Equations (Continued...) |

Link | NOC:Introduction to CFD | Lecture 41 - Numerical Solution of Two Dimensional Incompressible Navier Stokes Equations (Continued...) |

Link | NOC:Introduction to CFD | Lecture 42 - Numerical Solution of Two Dimensional Incompressible Navier Stokes Equations (Continued...) |

Link | NOC:Introduction to CFD | Lecture 43 - Numerical Solution of Two Dimensional Incompressible Navier Stokes Equations (Continued...) |

Link | NOC:Introduction to CFD | Lecture 44 - Numerical Solution of Two Dimensional Incompressible Navier Stokes Equations (Continued...) |

Link | NOC:Introduction to CFD | Lecture 45 - Numerical Solution of One Dimensional Euler Equation for Shock Tube Problem |

Link | NOC:Introduction to CFD | Lecture 46 - Numerical Solution of One Dimensional Euler Equation for Shock Tube Problem (Continued...) |

Link | NOC:Introduction to CFD | Lecture 47 - Numerical Solution of One Dimensional Euler Equation for Shock Tube Problem (Continued...) |

Link | NOC:Introduction to CFD | Lecture 48 - Numerical Solution of One Dimensional Euler Equation for Shock Tube Problem (Continued...) |

Link | NOC:Introduction to CFD | Lecture 49 - Numerical Solution of One Dimensional Euler Equation for Shock Tube Problem (Continued...) |

Link | NOC:Introduction to CFD | Lecture 50 - Basics of Interface Capturing Methods for Applications in Multiphase Flow |

Link | NOC:Introduction to CFD | Lecture 51 - Basics of Interface Capturing Methods for Application in Multiphase Flow (Continued...) |

Link | NOC:Introduction to CFD | Lecture 52 - Basics of Interface Capturing Methods for Application in Multiphase Flow (Continued...) |

Link | NOC:Introduction to CFD | Lecture 53 - Basics of Interface Capturing Methods for Application in Multiphase Flow (Continued...) |

Link | NOC:Introduction to CFD | Lecture 54 - Basics of Interface Capturing Methods for Application in Multiphase Flow (Continued...) |

Link | NOC:Introduction to CFD | Lecture 55 - Basics of Turbulence Modeling |

Link | NOC:Introduction to CFD | Lecture 56 - Basics of Turbulence Modeling (Continued...) |

Link | NOC:Introduction to CFD | Lecture 57 - Basics of Turbulence Modeling (Continued...) |

Link | NOC:Introduction to CFD | Lecture 58 - Basics of Turbulence Modeling (Continued...) |

Link | NOC:Introduction to CFD | Lecture 59 - Basics of Turbulence Modeling (Continued...) |

Link | NOC:Introduction to CFD | Lecture 60 - Basics of Turbulence Modeling (Continued...) |

Link | NOC:Introduction to CFD | Lecture 61 - Structured and Unstructured Grid Generation |

Link | NOC:Introduction to CFD | Lecture 62 - Structured and Unstructured Grid Generation (Continued...) |

Link | NOC:Introduction to CFD | Lecture 63 - Structured and Unstructured Grid Generation (Continued...) |

Link | NOC:Introduction to CFD | Lecture 64 - Structured and Unstructured Grid Generation (Continued...) |

Link | NOC:Introduction to CFD | Lecture 65 - Structured and Unstructured Grid Generation (Continued...) |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 1 - Introduction on Aerodynamics-its relevance and applications |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 2 - Atmosphere |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 3 - Flow velocity, pressure, skin friction |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 4 - Generation of aerodynamic forces and moments on an aircraft |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 5 - Generation of aerodynamic forces and moments on an aircraft (Continued...) |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 6 - Generation of aerodynamic forces and moments on an aircraft (Continued...) |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 7 - Eulerian and Lagrangian perspectives of flow: Fluid element trajectories |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 8 - Fluid element trajectories, Angular velocity, and vorticity |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 9 - Irrotational and Rotational flow, Strain of a fluid element, Gradient |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 10 - Line Surface and Volume Integrals, Circulation, Velocity |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 11 - Conservation equations of mass, momentum and energy |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 12 - Conservation equations of momentum and energy |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 13 - Inviscid and viscous flows |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 14 - Inviscid and viscous flows (Continued...) |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 15 - Bernoulli’s equation and its applications |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 16 - Bernoulli’s equation applications; Potential flow; Boundary layer flow |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 17 - Boundary layer flow |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 18 - Boundary Layer (Continued...) and Laminar and turbulent flow |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 19 - Airfoil Geometry, forces and moments acting on an airfoil |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 20 - Pressure distribution on an airfoil, Airfoil nomenclature and characteristics |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 21 - Airfoil characteristics; Aerodynamic center; Some more elementary flows |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 22 - Elementary flows- Doublet and Point Vortex; Vortex sheet |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 23 - Kutta condition; Kelvin’s circulation theorem; Introduction to thin airfoil theory |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 24 - Results of thin airfoil theory for symmetric |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 25 - Multi element airfoils, Laminar and turbulent |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 26 - Finite wing geometry and flow features |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 27 - Biot Savart Law; Prandtl’s lifting line theory |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 28 - Prandtl lifting theory for finite wings |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 29 - Finite wing aerodynamics; Delta wing aerodynamics |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 30 - Delta wing aerodynamics; Unsteady aerodynamics |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 31 - Fundamentals of high speed flows |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 32 - Velocity potential equation and its application; Finite Waves |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 33 - Normal shocks |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 34 - Normal shocks, Mach waves and oblique shocks |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 35 - Oblique shock; Prandtl Meyer expansion |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 36 - Shock expansion theory; Flow through converging diverging nozzle |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 37 - Flow through converging diverging nozzle under different back pressure |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 38 - Priliminary concepts of hypersonic flow; Shock tube |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 39 - Computing aerodynamic flows - trying to connect with the theory |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 40 - Computing aerodynamic flows - trying to connect with the theory (Continued...) |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 41 - Some more on flow physics; The different steps involved in flow computations |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 42 - An introduction to Panel Method |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 43 - Panel method and Vortex Lattice Method |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 44 - Mathematical classification of PDEs and their physical behavior |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 45 - Basics of grid and discretization of governing PDEs |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 46 - Different aspects of numerical schemes |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 47 - Basics of Euler Equation |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 48 - Basics of Compressible Navier Stokes Equations |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 49 - Wind tunnel-an experimental tool in aerodynamics; Types of wind tunnels |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 50 - Wind Tunnel design basics - Subsonic Wind Tunnels |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 51 - Wind Tunnel design basics - Subsonic wind tunnels (Continued...) |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 52 - Wind Tunnel design basics - Supersonic wind tunnels |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 53 - Continuous closed circuit supersonic wind tunnel |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 54 - Scalling of wind tunnel models; Safety issues in wind tunnel handling |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 55 - Flow visualization techniques |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 56 - Schlieren and Shadowgraph techniques |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 57 - Measurement of Pressure using mechanical instruments |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 58 - Rayleigh Pitot tube; Drag measurement using wake survey and direct weighing method |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 59 - Mechanical balance |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 60 - Electronic transducers |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 61 - Wheatstone bridge circuits for force and moment measurement |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 62 - Strain gauge based balances; Electronic pressure gauges |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 63 - Absolute-Gauge-Differential pressure sensors; Data Acquisition System |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 64 - Measurement error and uncertainty |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 65 - Velocity measurement using Particle Image Velocimetry |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 66 - Velocity measurement using Particle Image Velocimetry (Continued...) |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 67 - Particle image velocimetry (Continued...) |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 68 - How wind tunnel and associated instrumentation are used |

Link | NOC:Fundamentals of Theoretical and Experimental Aerodynamics | Lecture 69 - Quick recapitulation of course content and closure |

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 | NOC:Rocket Propulsion | Lecture 1 - Introduction |

Link | NOC:Rocket Propulsion | Lecture 2 - Motion in Space |

Link | NOC:Rocket Propulsion | Lecture 3 - Rotational Frame of Reference and Orbital Velocities |

Link | NOC:Rocket Propulsion | Lecture 4 - Velocity Requirements |

Link | NOC:Rocket Propulsion | Lecture 5 - Theory of rocket propulsion |

Link | NOC:Rocket Propulsion | Lecture 6 - Rocket Equation and Staging of Rockets |

Link | NOC:Rocket Propulsion | Lecture 7 - Review of Rocket Principles: Propulsion Efficiency |

Link | NOC:Rocket Propulsion | Lecture 8 - Examples Illustrating Theory of Rocket Propulsion and Introduction to Nozzles |

Link | NOC:Rocket Propulsion | Lecture 9 - Theory of Nozzles |

Link | NOC:Rocket Propulsion | Lecture 10 - Nozzle Shape |

Link | NOC:Rocket Propulsion | Lecture 11 - Area Ratio of Nozzles: Under Expansion and Over Expansion |

Link | NOC:Rocket Propulsion | Lecture 12 - Characteristic Velocity and Thrust Coefficient |

Link | NOC:Rocket Propulsion | Lecture 13 - Divergence Loss in Conical Nozzles and the Bell Nozzles |

Link | NOC:Rocket Propulsion | Lecture 14 - Unconventional Nozzles and Problems in Nozzles |

Link | NOC:Rocket Propulsion | Lecture 15 - Criterion for Choice of Chemical Propellants |

Link | NOC:Rocket Propulsion | Lecture 16 - Choice of Fuel-Rich Propellants |

Link | NOC:Rocket Propulsion | Lecture 17 - Performance Prediction Analysis |

Link | NOC:Rocket Propulsion | Lecture 18 - Factors Influencing Choice of Chemical Propellants |

Link | NOC:Rocket Propulsion | Lecture 19 - Low energy liquid propellants and Hybrid propellants Chapter 5: Solid Propellant Rockets |

Link | NOC:Rocket Propulsion | Lecture 20 - Introduction to Solid Propellant Rockets |

Link | NOC:Rocket Propulsion | Lecture 21 - Burn Rate of Solid Propellants and Equilibrium Pressure in Solid Propellant Rockets |

Link | NOC:Rocket Propulsion | Lecture 22 - Design Aspects of Solid Propellant Rockets |

Link | NOC:Rocket Propulsion | Lecture 23 - Burning Surface Area of Solid Propellant Grains |

Link | NOC:Rocket Propulsion | Lecture 24 - Ignition of Solid Propellant Rockets |

Link | NOC:Rocket Propulsion | Lecture 25 - Review of Solid Propellant Rockets |

Link | NOC:Rocket Propulsion | Lecture 26 - Feed Systems for Liquid Propellant Rockets |

Link | NOC:Rocket Propulsion | Lecture 27 - Feed System Cycles for Pump Fed Liquid Propellant Rockets |

Link | NOC:Rocket Propulsion | Lecture 28 - Analysis of Gas Generator and Staged combustion cycles and introduction to injectors |

Link | NOC:Rocket Propulsion | Lecture 29 - Injectors, Cooling of Chambers and Mixture Ratio Distribution |

Link | NOC:Rocket Propulsion | Lecture 30 - Efficiencies due to mixture ratio distribution and incomplete vaporization |

Link | NOC:Rocket Propulsion | Lecture 31 - Pumps and Turbines: Propellant Feed System at Zero -g- Conditions |

Link | NOC:Rocket Propulsion | Lecture 32 - Review of Liquid Bi-propellant Rockets and Introduction to Mono-propellant Rockets |

Link | NOC:Rocket Propulsion | Lecture 33 - Introduction to Hybrid Rockets and a Simple Illustration of Combustion instability in Liquid Propellant Rockets |

Link | NOC:Rocket Propulsion | Lecture 34 - Principles of Electrostatic and Electromagnetic Rockets |

Link | NOC:Rocket Propulsion | Lecture 35 - Electrical Thrusters |

Link | NOC:Rocket Propulsion | Lecture 36 - Electrical and Nuclear Rockets; Advanced Propulsion |

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 | NOC:Gasdynamics: Fundamentals and Applications | Lecture 1 - Introduction |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 2 - Flow Regimes |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 3 - Thermodynamics - 1 |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 4 - Thermodynamics - 2 |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 5 - Thermodynamics - Numerical |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 6 - Flow equations - Integral Form |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 7 - Flow equations - Differential Form |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 8 - Quasi-1D Assumption |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 9 - Speed of Sound |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 10 - Speed of Sound - Numerical |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 11 - Stagnation properties |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 12 - Pitot tube |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 13 - Sonic/Star properties |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 14 - Numerical |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 15 - Normal Shock - I |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 16 - Normal Shock - II-a |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 17 - Normal Shock - II-b |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 18 - Normal Shock - III |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 19 - Normal Shock - IV |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 20 - Normal Shock - Numerical |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 21 - The Shock Tube |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 22 - Waves of infinitesimal Amplitude |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 23 - Waves of finite amplitude |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 24 - Shock Tube Relations |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 25 - Unsteady Flows - Numerical |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 26 - Oblique Shock Waves |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 27 - Expansion waves |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 28 - Shock Expansion Method |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 29 - Shock Reflection |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 30 - Oblique Shock and Expansion waves - Numerical |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 31 - Varying Area Duct Flows - I |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 32 - Varying Area Duct Flows - II |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 33 - Converging Nozzle and Chocking |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 34 - Converging and Diverging Nozzle Operation |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 35 - Varying area flow- Numericals - I |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 36 - Diffusers Intakes/Inlets |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 37 - Experimental facilities |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 38 - Varying area flow - Numericals - II |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 39 - Varying area flow - Numericals - III |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 40 - Varying area flow - Numericals - IV |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 41 - 1D flow with friction - Fanno flow - I |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 42 - 1D flow with friction - Fanno flow - II |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 43 - 1D flow with friction - Fanno flow - III |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 44 - 1D flow with friction - Fanno flow - Numericals |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 45 - 1D Flows with Heat Addition: Rayleigh Flows - I |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 46 - 1D Flows with Heat Addition: Rayleigh Flows - II |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 47 - 1D Flows with Heat Addition: Rayleigh Flows - Numericals |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 48 - Generalized 1D Flows |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 49 - Small perturbation theory - I |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 50 - Small perturbation theory - II |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 51 - Small perturbation theory - III |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 52 - Method of Characteristics: 2D Supersonic Flow - I |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 53 - Method of Characteristics: 2D Supersonic Flow - II |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 54 - Method of Characteristics: Applications |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 55 - Hypersonic Flows - I |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 56 - Hypersonic Flows - II |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 57 - Edney Shock Interaction |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 58 - Shock Boundary Layer Interaction - I |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 59 - Shock Boundary Layer Interaction - II |

Link | NOC:Gasdynamics: Fundamentals and Applications | Lecture 60 - Concluding Remarks |