DIGIMAT LEARNING MANAGEMENT PLATFORM

Aerospace Engineering (2,876 Video Lectures)

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 Lecture on Air Power and Multi-role Fighter Aircraft - Part 1
Link NOC:Introduction to Aircraft Design Lecture 86 - Guest Lecture 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 - Remote 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 1 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 2 and 3 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 4 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 5 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 6 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 7 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 - Sizing Procedure for Indoor Remotely Controlled Airships - Part 1
Link NOC:Lighter than Air Systems Lecture 84 - Sizing Procedure for Indoor Remotely Controlled Airships - Part 2
Link NOC:Lighter than Air Systems Lecture 85 - Sizing Procedure for Indoor Remotely Controlled Airships - Part 3
Link NOC:Lighter than Air Systems Lecture 86 - Tutorial on Sizing of an Indoor Non Rigid Remotely Controlled Airship
Link NOC:Lighter than Air Systems Lecture 87 - Transportation Problems Faced by Remote Regions
Link NOC:Lighter than Air Systems Lecture 88 - Airships vs Helicopters - Part I
Link NOC:Lighter than Air Systems Lecture 89 - Airships vs Helicopters - Part II
Link NOC:Lighter than Air Systems Lecture 90 - Chaar Dham Yatra - Part I
Link NOC:Lighter than Air Systems Lecture 91 - Chaar Dham Yatra - Part II
Link NOC:Lighter than Air Systems Lecture 92 - Chaar Dham Yatra - Part III
Link NOC:Lighter than Air Systems Lecture 93 - Steam and IC engines for Airships
Link NOC:Lighter than Air Systems Lecture 94 - Electric motors for Airships
Link NOC:Lighter than Air Systems Lecture 95 - Turboprops for Airships
Link NOC:Lighter than Air Systems Lecture 96 - Solar Propulsion and Thrust Vectoring on Airships
Link NOC:Lighter than Air Systems Lecture 97 - Lecture on Dynamics
Link NOC:Lighter than Air Systems Lecture 98 - Lecture on Drag
Link NOC:Lighter than Air Systems Lecture 99 - Aerodynamic Stability
Link NOC:Lighter than Air Systems Lecture 100 - Added Mass Effects
Link NOC:Lighter than Air Systems Lecture 101 - Introduction to Aerostat Design Methodology
Link NOC:Lighter than Air Systems Lecture 102 - Inputs for Aerostat Design Methodology
Link NOC:Lighter than Air Systems Lecture 103 - Design Constants in Aerostat Design Methodology
Link NOC:Lighter than Air Systems Lecture 104 - Overview of Aerostat Design Methodology
Link NOC:Lighter than Air Systems Lecture 105 - Equilibrium Analysis of Aerostats - Part I
Link NOC:Lighter than Air Systems Lecture 106 - Equilibrium Analysis of Aerostats - Part II
Link NOC:Lighter than Air Systems Lecture 107 - Methodology for Tether Profile Estimation
Link NOC:Lighter than Air Systems Lecture 108 - Sizing of Reusable Indoor Hot Air Balloon
Link NOC:Lighter than Air Systems Lecture 109 - Tutorial on Sizing of RIHAB
Link NOC:Lighter than Air Systems Lecture 110 - Features of Hybrid Airships
Link NOC:Lighter than Air Systems Lecture 111 - Technological challenges in HALE Platforms development - Part I
Link NOC:Lighter than Air Systems Lecture 112 - Technological challenges in HALE Platforms development - Part II
Link NOC:Lighter than Air Systems Lecture 113 - Initial sizing of Stratospheric Airships
Link NOC:Lighter than Air Systems Lecture 114 - Introduction to Hybrid Airships
Link NOC:Lighter than Air Systems Lecture 115 - Lockheed Martin's P 791 Hybrid Airship
Link NOC:Lighter than Air Systems Lecture 116 - Aeroscraft ML 866 Hybrid Airship
Link NOC:Lighter than Air Systems Lecture 117 - SkyCat Hybrid Airship
Link NOC:Lighter than Air Systems Lecture 118 - Rotary and Winged Hybrid Airships
Link NOC:Lighter than Air Systems Lecture 119 - Hybrid Ultra Heavy Lift Cargo Vehicle Transport
Link NOC:Lighter than Air Systems Lecture 120 - Features of Hybrid Airships
Link NOC:Lighter than Air Systems Lecture 121 - Solar Powered Airships
Link NOC:Elements of Mechanical Vibration Lecture 1
Link NOC:Elements of Mechanical Vibration Lecture 2
Link NOC:Elements of Mechanical Vibration Lecture 3
Link NOC:Elements of Mechanical Vibration Lecture 4
Link NOC:Elements of Mechanical Vibration Lecture 5
Link NOC:Elements of Mechanical Vibration Lecture 6
Link NOC:Elements of Mechanical Vibration Lecture 7
Link NOC:Elements of Mechanical Vibration Lecture 8
Link NOC:Elements of Mechanical Vibration Lecture 9
Link NOC:Elements of Mechanical Vibration Lecture 10
Link NOC:Elements of Mechanical Vibration Lecture 11
Link NOC:Elements of Mechanical Vibration Lecture 12
Link NOC:Elements of Mechanical Vibration Lecture 13
Link NOC:Elements of Mechanical Vibration Lecture 14
Link NOC:Elements of Mechanical Vibration Lecture 15
Link NOC:Elements of Mechanical Vibration Lecture 16
Link NOC:Elements of Mechanical Vibration Lecture 17
Link NOC:Elements of Mechanical Vibration Lecture 18
Link NOC:Elements of Mechanical Vibration Lecture 19
Link NOC:Elements of Mechanical Vibration Lecture 20
Link NOC:Elements of Mechanical Vibration Lecture 21
Link NOC:Elements of Mechanical Vibration Lecture 22
Link NOC:Elements of Mechanical Vibration Lecture 23
Link NOC:Elements of Mechanical Vibration Lecture 24
Link NOC:Elements of Mechanical Vibration Lecture 25
Link NOC:Elements of Mechanical Vibration Lecture 26
Link NOC:Elements of Mechanical Vibration Lecture 27
Link NOC:Elements of Mechanical Vibration Lecture 28 - LABORATORY SESSION (Introduction)
Link NOC:Elements of Mechanical Vibration Lecture 29 - EXPERIMENT 1
Link NOC:Elements of Mechanical Vibration Lecture 30 - EXPERIMENT 2
Link NOC:Elements of Mechanical Vibration Lecture 31 - EXPERIMENT No. 2
Link NOC:Elements of Mechanical Vibration Lecture 32
Link NOC:Elements of Mechanical Vibration Lecture 33
Link NOC:Elements of Mechanical Vibration Lecture 34
Link NOC:Elements of Mechanical Vibration Lecture 35 - LABORATORY SESSION #3
Link NOC:Elements of Mechanical Vibration Lecture 36 - LABORATORY SESSION #4
Link NOC:Elements of Mechanical Vibration Lecture 37 - LABORATORY SESSION #5
Link NOC:Elements of Mechanical Vibration Lecture 38
Link NOC:Elements of Mechanical Vibration Lecture 39
Link NOC:Elements of Mechanical Vibration Lecture 40
Link NOC:Elements of Mechanical Vibration Lecture 41 - LABORATORY SESSION #6
Link NOC:Elements of Mechanical Vibration Lecture 42 - LABORATORY SESSION #7
Link NOC:Elements of Mechanical Vibration Lecture 43 - LABORATORY SESSION #8
Link NOC:Elements of Mechanical Vibration Lecture 44
Link NOC:Elements of Mechanical Vibration Lecture 45
Link NOC:Elements of Mechanical Vibration Lecture 46
Link NOC:Elements of Mechanical Vibration Lecture 47
Link NOC:Elements of Mechanical Vibration Lecture 48
Link Aero elasticity Lecture 1 - Aero elasticity
Link Aero elasticity Lecture 2 - Aero elasticity
Link Aero elasticity Lecture 3 - Aero elasticity
Link Aero elasticity Lecture 4 - Aero elasticity
Link Aero elasticity Lecture 5 - Aero elasticity
Link Aero elasticity Lecture 6 - Aero elasticity
Link Aero elasticity Lecture 7 - Aero elasticity
Link Aero elasticity Lecture 8 - Aero elasticity
Link Aero elasticity Lecture 9 - Aero elasticity
Link Aero elasticity Lecture 10 - Aero elasticity
Link Aero elasticity Lecture 11 - Aero elasticity
Link Aero elasticity Lecture 12 - Aero elasticity
Link Aero elasticity Lecture 13 - Aero elasticity
Link Aero elasticity Lecture 14 - Aero elasticity
Link Aero elasticity Lecture 15 - Aero elasticity
Link Aero elasticity Lecture 16 - Aero elasticity
Link Aero elasticity Lecture 17 - Aero elasticity
Link Aero elasticity Lecture 18 - Aero elasticity
Link Aero elasticity Lecture 19 - Aero elasticity
Link Aero elasticity Lecture 20 - Aero elasticity
Link Aero elasticity Lecture 21 - Aero elasticity
Link Aero elasticity Lecture 22 - Aero elasticity
Link Aero elasticity Lecture 23 - Aero elasticity
Link Aero elasticity Lecture 24 - Aero elasticity
Link Aero elasticity Lecture 25 - Aero elasticity
Link Aero elasticity Lecture 26 - Aero elasticity
Link Foundation of Scientific Computing Lecture 1
Link Foundation of Scientific Computing Lecture 2
Link Foundation of Scientific Computing Lecture 3
Link Foundation of Scientific Computing Lecture 4
Link Foundation of Scientific Computing Lecture 5
Link Foundation of Scientific Computing Lecture 6
Link Foundation of Scientific Computing Lecture 7
Link Foundation of Scientific Computing Lecture 8
Link Foundation of Scientific Computing Lecture 9
Link Foundation of Scientific Computing Lecture 10
Link Foundation of Scientific Computing Lecture 11
Link Foundation of Scientific Computing Lecture 12
Link Foundation of Scientific Computing Lecture 13
Link Foundation of Scientific Computing Lecture 14
Link Foundation of Scientific Computing Lecture 15
Link Foundation of Scientific Computing Lecture 16
Link Foundation of Scientific Computing Lecture 17
Link Foundation of Scientific Computing Lecture 18
Link Foundation of Scientific Computing Lecture 19
Link Foundation of Scientific Computing Lecture 20
Link Foundation of Scientific Computing Lecture 21
Link Foundation of Scientific Computing Lecture 22
Link Foundation of Scientific Computing Lecture 23
Link Foundation of Scientific Computing Lecture 23
Link Foundation of Scientific Computing Lecture 25
Link Foundation of Scientific Computing Lecture 26
Link Foundation of Scientific Computing Lecture 27
Link Foundation of Scientific Computing Lecture 28
Link Foundation of Scientific Computing Lecture 29
Link Foundation of Scientific Computing Lecture 30
Link Foundation of Scientific Computing Lecture 31
Link Foundation of Scientific Computing Lecture 32
Link Foundation of Scientific Computing Lecture 33
Link Foundation of Scientific Computing Lecture 34
Link Foundation of Scientific Computing Lecture 35
Link Foundation of Scientific Computing Lecture 36
Link Foundation of Scientific Computing Lecture 37
Link Foundation of Scientific Computing Lecture 38
Link Foundation of Scientific Computing Lecture 39
Link Foundation of Scientific Computing Lecture 40
Link Instability and Transition of Fluid Flows Lecture 1 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 2 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 3 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 4 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 5 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 6 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 7 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 8 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 9 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 10 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 11 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 12 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 13 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 14 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 15 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 16 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 17 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 18 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 19 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 20 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 21 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 22 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 23 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 24 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 25 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 26 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 27 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 28 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 29 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 30 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 31 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 32 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 33 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 34 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 35 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 36 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 37 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 38 - Instability and Transition of Fluid Flows
Link Instability and Transition of Fluid Flows Lecture 39 - Instability and Transition of Fluid Flows
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 1 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 2 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 3 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 4 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 5 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 6 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 7 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 8 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 9 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 10 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 11 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 12 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 13 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 14 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 15 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 16 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 17 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 18 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 19 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 20 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 21 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 22 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 23 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 24 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 25 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Helicopter Aerodynamics and Dynamics Lecture 26 - Introduction to Helicopter Aerodynamics and Dynamics
Link Introduction to Propulsion Lecture 1 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 2 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 3 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 4 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 5 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 6 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 7 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 8 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 9 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 10 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 11 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 12 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 13 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 14 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 15 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 16 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 17 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 18 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 19 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 20 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 21 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 22 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 23 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 24 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 25 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 26 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 27 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 28 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 29 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 30 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 31 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 32 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 33 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 34 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 35 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 36 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 37 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 38 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 39 - Fundamentals of Aerospace Propulsion
Link Introduction to Propulsion Lecture 40 - Fundamentals of Aerospace Propulsion
Link Jet and Rocket Propulsion Lecture 1 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 2 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 3 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 4 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 5 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 6 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 7 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 8 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 9 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 10 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 11 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 12 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 13 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 14 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 15 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 16 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 17 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 18 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 19 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 20 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 21 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 22 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 23 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 24 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 25 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 26 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 27 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 28 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 29 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 30 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 31 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 32 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 33 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 34 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 35 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 36 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 37 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 38 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 39 - Jet and Rocket Propulsion
Link Jet and Rocket Propulsion Lecture 40 - Jet and Rocket Propulsion
Link NOC:Introduction to Airplane Performance Lecture 1 - General Introduction: Airplane Performance Characteristics
Link NOC:Introduction to Airplane Performance Lecture 2 - George Cayley: Concept of Lift and Drag
Link NOC:Introduction to Airplane Performance Lecture 3 - Introduction to airplane and its components
Link NOC:Introduction to Airplane Performance Lecture 4 - Hansa 3 Aircraft and its Primary Systems
Link NOC:Introduction to Airplane Performance Lecture 5 - Concept of Lift Aerofoil: Wing : Complete Aircraft
Link NOC:Introduction to Airplane Performance Lecture 6 - Drag Polar
Link NOC:Introduction to Airplane Performance Lecture 7 - Revision
Link NOC:Introduction to Airplane Performance Lecture 8 - Standard Atmosphere: Description and Modeling
Link NOC:Introduction to Airplane Performance Lecture 9 - Measuring Instruments: Altimeter, Airspeed Indicator
Link NOC:Introduction to Airplane Performance Lecture 10 - Equations of Motion: Static Performance
Link NOC:Introduction to Airplane Performance Lecture 11 - Thrust Required, Power Required: Cruise
Link NOC:Introduction to Airplane Performance Lecture 12 - Excess Thrust and Power: Climb Angle and Rate of Climb
Link NOC:Introduction to Airplane Performance Lecture 13 - Review
Link NOC:Introduction to Airplane Performance Lecture 14 - Thrust Required: A Closer Look
Link NOC:Introduction to Airplane Performance Lecture 15 - Modeling of CL: Dimensional Analysis
Link NOC:Introduction to Airplane Performance Lecture 16 - A Closer Look: Point Mass Model, Dimensional Analysis
Link NOC:Introduction to Airplane Performance Lecture 17 - Estimation of Drag Polar Through Flight Test
Link NOC:Introduction to Airplane Performance Lecture 18 - Estimation of Rate of Climb
Link NOC:Introduction to Airplane Performance Lecture 19 - Revision.
Link NOC:Introduction to Airplane Performance Lecture 20 - Range and Endurance
Link NOC:Introduction to Airplane Performance Lecture 21 - Range and Endurance: (Continued...)
Link NOC:Introduction to Airplane Performance Lecture 22 - Gliding Flight
Link NOC:Introduction to Airplane Performance Lecture 23 - Accelerated Flight
Link NOC:Introduction to Airplane Performance Lecture 24 - V-n Diagram
Link NOC:Introduction to Airplane Performance Lecture 25 - Revision..
Link NOC:Introduction to Airplane Performance Lecture 26 - V stall: Cruise and Manoeuvre
Link NOC:Introduction to Airplane Performance Lecture 27 - Flaps:High Lift Devices to Reduce Take off / Landing Distance
Link NOC:Introduction to Airplane Performance Lecture 28 - Take off
Link NOC:Introduction to Airplane Performance Lecture 29 - Take off Performance
Link NOC:Introduction to Airplane Performance Lecture 30 - Take off Performance: (Continued...)
Link NOC:Introduction to Airplane Performance Lecture 31 - Revision...
Link NOC:Introduction to Airplane Performance Lecture 32 - Landing Performance
Link NOC:Introduction to Airplane Performance Lecture 33 - Landing Performance: (Continued...)
Link NOC:Introduction to Airplane Performance Lecture 34 - Challanges in Takeoff and Landing: Single and Twin Engines
Link NOC:Introduction to Airplane Performance Lecture 35 - Introduction to Static Stability
Link NOC:Introduction to Airplane Performance Lecture 36 - Positioning of Center of Pressure for Static Stability
Link NOC:Introduction to Airplane Performance Lecture 37 - Revision.....
Link NOC:Introduction to Airplane Performance Lecture 38 - Stability and Control: Designers Perspective
Link NOC:Introduction to Airplane Performance Lecture 39 - Stability and Control: Designers Perspective (Continued...)
Link NOC:Introduction to Airplane Performance Lecture 40 - Longitudinal Control: Elevator
Link NOC:Introduction to Airplane Performance Lecture 41 - Contribution of Wing and Tail: Stability
Link NOC:Introduction to Airplane Performance Lecture 42 - Stability: Wing and Tail Contribution
Link NOC:Introduction to Airplane Performance Lecture 43 - Control: Elevator
Link NOC:Introduction to Airplane Performance Lecture 44 - Control: Delta-e Required
Link NOC:Introduction to Airplane Performance Lecture 45 - Control: Delta-e Required (Continued...)
Link NOC:Introduction to Airplane Performance Lecture 46 - Design Basics: Wing Loading & Thrust Loading
Link NOC:Introduction to Airplane Performance Lecture 47 - Design Basics: Sweep & Dihedral
Link NOC:Introduction to Airplane Performance Lecture 48 - Revision.
Link NOC:Stability and control of aircraft Lecture 1 - Introduction
Link NOC:Stability and control of aircraft Lecture 2 - Introduction to Static Stability
Link NOC:Stability and control of aircraft Lecture 3 - Stability and Trim
Link NOC:Stability and control of aircraft Lecture 4 - Stability : Wing Contribution
Link NOC:Stability and control of aircraft Lecture 5 - Stability : Tail Contribution and Static Margin
Link NOC:Stability and control of aircraft Lecture 6 - Problems : Stability and Wing Contribution Completed
Link NOC:Stability and control of aircraft Lecture 7 - Problems : Stability Tail Contribution Completed
Link NOC:Stability and control of aircraft Lecture 8 - Neutral Point and Fuselage Contribution Completed
Link NOC:Stability and control of aircraft Lecture 9 - Longitudinal Control Completed
Link NOC:Stability and control of aircraft Lecture 10 - Longitudinal Control (Continued...)
Link NOC:Stability and control of aircraft Lecture 11 - Control: Elevator
Link NOC:Stability and control of aircraft Lecture 12 - CL_trim Vs ????e_trim
Link NOC:Stability and control of aircraft Lecture 13 - Neutral Point: A Closer Look
Link NOC:Stability and control of aircraft Lecture 14 - Contribution of Engine towards Stability
Link NOC:Stability and control of aircraft Lecture 15 - Revision
Link NOC:Stability and control of aircraft Lecture 16 - Trim:Cruse,Climb and Landing
Link NOC:Stability and control of aircraft Lecture 17 - Trim: Maneuver
Link NOC:Stability and control of aircraft Lecture 18 - Maneuvering Point: Stick Fixed
Link NOC:Stability and control of aircraft Lecture 19 - Numerical: Stick Fixed Maneuvering Point and Flight Demonstration
Link NOC:Stability and control of aircraft Lecture 20 - Revision
Link NOC:Stability and control of aircraft Lecture 21 - Directional Stability
Link NOC:Stability and control of aircraft Lecture 22 - Directional Control
Link NOC:Stability and control of aircraft Lecture 23 - Lateral Stability and Control
Link NOC:Stability and control of aircraft Lecture 24 - Numericals : Directional, Lateral Stability and Control
Link NOC:Stability and control of aircraft Lecture 25 - Revision
Link NOC:Stability and control of aircraft Lecture 26 - Stick Free Stability
Link NOC:Stability and control of aircraft Lecture 27 - Stick Free Stability (Continued...)
Link NOC:Stability and control of aircraft Lecture 28 - Hinge Moment and Hinge Moment Derivative
Link NOC:Stability and control of aircraft Lecture 29 - Aircraft Handling Qualities
Link NOC:Stability and control of aircraft Lecture 30 - Aircraft Handling Qualities (Continued...)
Link NOC:Stability and control of aircraft Lecture 31 - Reversible Control: Stick Free and Trim Tabs
Link NOC:Stability and control of aircraft Lecture 32 - Numericals: Stick Free
Link NOC:Stability and control of aircraft Lecture 33 - Numericals: Stick Free (Continued...)
Link NOC:Stability and control of aircraft Lecture 34 - Handling Qualities: Maneuvering Flight
Link NOC:Stability and control of aircraft Lecture 35 - Determination of Neutral Point and Maneuvering Point by Flight Experiment
Link NOC:Stability and control of aircraft Lecture 36 - Ponit Mass Equation of Motion
Link NOC:Stability and control of aircraft Lecture 37 - Forces and Moments
Link NOC:Stability and control of aircraft Lecture 38 - Aircraft Equations of Motion
Link NOC:Stability and control of aircraft Lecture 39 - Six Degrees of Freedom of an Aircraft
Link NOC:Stability and control of aircraft Lecture 40 - 6 DoF : Angular Momentum Components
Link NOC:Stability and control of aircraft Lecture 41 - Vector in a Rotating Frame
Link NOC:Stability and control of aircraft Lecture 42 - Euler Angles
Link NOC:Stability and control of aircraft Lecture 43 - Small Perturbation Theory
Link NOC:Stability and control of aircraft Lecture 44 - Small Perturbation Theory (Continued...)
Link NOC:Stability and control of aircraft Lecture 45 - Perturbed Equations of Motion: Longitudinal Case
Link NOC:Stability and control of aircraft Lecture 46 - Perturbed Force : fz
Link NOC:Stability and control of aircraft Lecture 47 - Perturbed Force : fz (Continued...)
Link NOC:Stability and control of aircraft Lecture 48 - Perturbed Pitching Moment
Link NOC:Stability and control of aircraft Lecture 49 - Longitudinal Dimensional Stability Derivatives
Link NOC:Stability and control of aircraft Lecture 50 - Dynamic Stability
Link NOC:Stability and control of aircraft Lecture 51 - Longitudinal Modes
Link NOC:Stability and control of aircraft Lecture 52 - Short Period and Phugoid Approximations
Link NOC:Stability and control of aircraft Lecture 53 - Pure Pitching Motion
Link NOC:Stability and control of aircraft Lecture 54 - Stability Augmentation System (SAS)
Link NOC:Stability and control of aircraft Lecture 55 - Lateral-Directional Motion
Link NOC:Stability and control of aircraft Lecture 56 - Tutorial - 1
Link NOC:Stability and control of aircraft Lecture 57 - Tutorial - 2
Link NOC:Stability and control of aircraft Lecture 58 - Tutorial - 3
Link NOC:Stability and control of aircraft Lecture 59 - Tutorial - 4
Link NOC:Stability and control of aircraft Lecture 60 - History of Aviation
Link NOC:Engineering Thermodynamics Lecture 1 - Thermodynamics and its Applications
Link NOC:Engineering Thermodynamics Lecture 2 - System and its Surroundings
Link NOC:Engineering Thermodynamics Lecture 3 - Property of System
Link NOC:Engineering Thermodynamics Lecture 4 - Energy and its Various Forms
Link NOC:Engineering Thermodynamics Lecture 5 - Concepts of Equilibrium and its State
Link NOC:Engineering Thermodynamics Lecture 6 - Energy and its Interactions
Link NOC:Engineering Thermodynamics Lecture 7 - Heat Interactions
Link NOC:Engineering Thermodynamics Lecture 8 - Thermodynamic Properties of Fluids - 1
Link NOC:Engineering Thermodynamics Lecture 9 - Thermodynamic Properties of Fluids - 2
Link NOC:Engineering Thermodynamics Lecture 10 - Thermodynamic Properties of Fluids - 3
Link NOC:Engineering Thermodynamics Lecture 11 - Thermodynamic Properties of Fluids - 4
Link NOC:Engineering Thermodynamics Lecture 12 - Thermodynamic Properties of Fluids - 5
Link NOC:Engineering Thermodynamics Lecture 13 - First Law of Thermodynamics for Cyclic Process
Link NOC:Engineering Thermodynamics Lecture 14 - First Law of Thermodynamics for Non-cyclic Process - 1
Link NOC:Engineering Thermodynamics Lecture 15 - First Law of Thermodynamics for Non-cyclic Process - 2
Link NOC:Engineering Thermodynamics Lecture 16 - Control Mass and Control Volume
Link NOC:Engineering Thermodynamics Lecture 17 - First Law of Thermodynamics for Steady Flow Processes
Link NOC:Engineering Thermodynamics Lecture 18 - First Law of Thermodynamics for Unsteady Flow Processes
Link NOC:Engineering Thermodynamics Lecture 19 - First Law of Thermodynamics to Reacting Systems
Link NOC:Engineering Thermodynamics Lecture 20 - Second Law of Thermodynamics: Basic Concepts - 1
Link NOC:Engineering Thermodynamics Lecture 21 - Second Law of Thermodynamics: Basic Concepts - 2
Link NOC:Engineering Thermodynamics Lecture 22 - Second Law of Thermodynamics: Carnot Cycle and Efficiency
Link NOC:Engineering Thermodynamics Lecture 23 - Second Law of Thermodynamics: Clausius Inequality
Link NOC:Engineering Thermodynamics Lecture 24 - Applications of Second Law of Thermodynamics: Entropy - 1
Link NOC:Engineering Thermodynamics Lecture 25 - Applications of Second Law of Thermodynamics: Entropy - 2
Link NOC:Engineering Thermodynamics Lecture 26 - Exergy
Link NOC:Engineering Thermodynamics Lecture 27 - Gas Turbine Cycle
Link NOC:Engineering Thermodynamics Lecture 28 - Vapor Power Cycle - 1
Link NOC:Engineering Thermodynamics Lecture 29 - Vapor Power Cycle - 2
Link NOC:Engineering Thermodynamics Lecture 30 - Vapor Power Cycle - 3
Link NOC:Engineering Thermodynamics Lecture 31 - Gas Power Cycles - 1
Link NOC:Engineering Thermodynamics Lecture 32 - Gas Power Cycles - 2
Link NOC:Engineering Thermodynamics Lecture 33 - Refrigeration Cycles
Link NOC:Engineering Thermodynamics Lecture 34 - Non-Reacting Mixture and Psychrometry
Link NOC:Engineering Thermodynamics Lecture 35 - Gas-Vapor Mixture and Air Conditioning - 1
Link NOC:Engineering Thermodynamics Lecture 36 - Gas-Vapor Mixture and Air Conditioning - 2
Link NOC:Engineering Thermodynamics Lecture 37 - Thermodynamic Property Relations - 1
Link NOC:Engineering Thermodynamics Lecture 38 - Thermodynamic Property Relations - 2
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 1 - Introduction to Dynamic Stability
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 2 - Spring-Mass-Damper System : Underdamped
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 3 - Spring-Mass-Damper System : Over and Critically damped
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 4 - Laplace Transform
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 5 - Pitch Dynamics : 1 D
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 6 - Numericals: Week - 1
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 7 - Aircraft Rigid Body Equation of Motion
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 8 - Six Degree of Freedom Equation of Motion
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 9 - Vector in Rotating Frame
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 10 - Forces and Moments on Aircraft
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 11 - Euler Angles
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 12 - Trajectory of the Aircraft
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 13 - Small Perturbation Theory
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 14 - Perturbed Aerodynamic Forces and Moments
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 15 - U-derivatives
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 16 - Alpha - derivatives
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 17 - Alpha Dot Derivatives
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 18 - q and delta Derivatives
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 19 - Dimensional Stability Derivatives
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 20 - Longitudinal Characteristic Equation
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 21 - Routh's Criteria and Longitudinal Dynamic Stability
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 22 - Longitudinal Modes: Short Period and Phugoid
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 23 - Short period Mode Approximation
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 24 - Long Period Mode (Phugoid) Approximation
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 25 - Lateral Directional Stability Derivatives
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 26 - Lateral Directional Stability Derivatives (Continued...)
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 27 - Perturbed Equation of Motion for Lateral Dynamics
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 28 - Modes of Lateral Directional Dynamics
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 29 - Spiral and Dutch Roll modes Approximation
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 30 - Routh–Hurwitz Stability Criterion
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 31 - Introduction to Stability Augmentation
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 32 - Pure Yawing and Pure Rolling Motion
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 33 - SAS for Longitudinal Dynamics
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 34 - SAS for Lateral Dynamics
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 35 - Flight Handling Qualities
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 36 - Numericals
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 37 - Revision
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 38 - Mode Shape : Longitudinal Case
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 39 - Mode Shape : Lateral Directional Case
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 40 - Numericals : Transfer Funtions and Response
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 41 - Stability Augmentation System
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 42 - Numericals : SAS
Link NOC:Aircraft Dynamic Stability and Design Stability Lecture 43 - Numericals : Mode Shapes
Link NOC:Introduction to Ancient Indian Technology Lecture 1 - Introduction to Ancient Indian Civilization
Link NOC:Introduction to Ancient Indian Technology Lecture 2 - Ancient Indian Civilization’s Gift to the World
Link NOC:Introduction to Ancient Indian Technology Lecture 3 - Why do we need to look at Ancient Indian Science and Technology?
Link NOC:Introduction to Ancient Indian Technology Lecture 4 - Glimpses of Ancient Indian Science and Technology
Link NOC:Introduction to Ancient Indian Technology Lecture 5 - Brief Review of Ancient Indian Scriptures
Link NOC:Introduction to Ancient Indian Technology Lecture 6 - Basic Principles of carrying out science and technology
Link NOC:Introduction to Ancient Indian Technology Lecture 7 - Arrays of Physics, chemistry and Indoor games
Link NOC:Introduction to Ancient Indian Technology Lecture 8 - Marvels of Ancient Indian Technology
Link NOC:Introduction to Ancient Indian Technology Lecture 9 - Introduction to Indian Agriculture
Link NOC:Introduction to Ancient Indian Technology Lecture 10 - Problems arising due to modern agricultural practices
Link NOC:Introduction to Ancient Indian Technology Lecture 11 - Pesticides and soil degradation
Link NOC:Introduction to Ancient Indian Technology Lecture 12 - Agriculture - A Primary Productive Activity
Link NOC:Introduction to Ancient Indian Technology Lecture 13 - An Agricultural Tools - A Plough
Link NOC:Introduction to Ancient Indian Technology Lecture 14 - Soil and seeds
Link NOC:Introduction to Ancient Indian Technology Lecture 15 - Sowing Methods
Link NOC:Introduction to Ancient Indian Technology Lecture 16 - Indigenous cattle and manuring
Link NOC:Introduction to Ancient Indian Technology Lecture 17 - Ancient Indian Textile Technology
Link NOC:Introduction to Ancient Indian Technology Lecture 18 - Handlooms and Charkha
Link NOC:Introduction to Ancient Indian Technology Lecture 19 - Different types of Handlooms
Link NOC:Introduction to Ancient Indian Technology Lecture 20 - Ancient Rural Indian Housing
Link NOC:Introduction to Ancient Indian Technology Lecture 21 - Thatched Roof House
Link NOC:Introduction to Ancient Indian Technology Lecture 22 - Rural Walls and Roof materials
Link NOC:Introduction to Ancient Indian Technology Lecture 23 - Indus Valley and Harappan Civilization
Link NOC:Introduction to Ancient Indian Technology Lecture 24 - First and Second of Indian Civilization
Link NOC:Introduction to Ancient Indian Technology Lecture 25 - Town topologies and Brick and Tile making process
Link NOC:Introduction to Ancient Indian Technology Lecture 26 - Availability of Water and Freshwater
Link NOC:Introduction to Ancient Indian Technology Lecture 27 - Ancient Indian Wells
Link NOC:Introduction to Ancient Indian Technology Lecture 28 - Temple Water tanks and Dams
Link NOC:Introduction to Ancient Indian Technology Lecture 29 - Tank Irrigation system and Rainwater Harvesting
Link NOC:Introduction to Ancient Indian Technology Lecture 30 - Waterbodies - Lakes and Canals
Link NOC:Introduction to Ancient Indian Technology Lecture 31 - Sluices and Embankments
Link NOC:Introduction to Ancient Indian Technology Lecture 32 - World of Materials
Link NOC:Introduction to Ancient Indian Technology Lecture 33 - Metals - Gold Silver Lead
Link NOC:Introduction to Ancient Indian Technology Lecture 34 - History of Copper
Link NOC:Introduction to Ancient Indian Technology Lecture 35 - Iron during Vedic period
Link NOC:Introduction to Ancient Indian Technology Lecture 36 - Iron smelting process in ancient India
Link NOC:Introduction to Ancient Indian Technology Lecture 37 - Iron and Steel crafts in ancient India
Link NOC:Introduction to Ancient Indian Technology Lecture 38 - Extraction and smelting of Zinc in Ancient India
Link NOC:Introduction to Ancient Indian Technology Lecture 39 - Metal Casting in Ancient India
Link NOC:Introduction to Ancient Indian Technology Lecture 40 - Glass Technology in Ancient India
Link NOC:Introduction to Experiments in Flight Lecture 1 - Weighment and Calculation of CG (Theory)
Link NOC:Introduction to Experiments in Flight Lecture 2 - Cruise Experiment (Theory)
Link NOC:Introduction to Experiments in Flight Lecture 3 - Weighment Experiment and cockpit panel description
Link NOC:Introduction to Experiments in Flight Lecture 4 - Drag Polar Experiment
Link NOC:Introduction to Experiments in Flight Lecture 5 - CG and Climb Experiment
Link NOC:Introduction to Experiments in Flight Lecture 6 - Calibration of Control Surface
Link NOC:Introduction to Experiments in Flight Lecture 7 - Calibration of Control Surfaces (Experiment)
Link NOC:Introduction to Experiments in Flight Lecture 8 - Introduction to Flight Data Recorder
Link NOC:Introduction to Experiments in Flight Lecture 9 - Sensors - Part I
Link NOC:Introduction to Experiments in Flight Lecture 10 - Sensors - Part II
Link NOC:Introduction to Experiments in Flight Lecture 11 - Data Acquisition using MEMS devices
Link NOC:Introduction to Experiments in Flight Lecture 12 - Estimation of Stick-Fixed Neutral Point
Link NOC:Introduction to Experiments in Flight Lecture 13 - Estimation of Stick-Free Neutral Point and Stick-Free Maneuvering Point
Link NOC:Introduction to Experiments in Flight Lecture 14 - Static: Lateral-Directional Stability Test
Link NOC:Introduction to Experiments in Flight Lecture 15 - Static: Lateral-Directional Stability Test (Continued...)
Link NOC:Introduction to Experiments in Flight Lecture 16 - Steady Coordinated Turn
Link NOC:Introduction to Experiments in Flight Lecture 17 - Introduction to Parameter Estimation
Link NOC:Introduction to Experiments in Flight Lecture 18 - Parameter Estimation using Least Squares Method
Link NOC:Introduction to Experiments in Flight Lecture 19 - Aerodynamic Parameter Estimation using Least Squares Method
Link NOC:Introduction to Experiments in Flight Lecture 20 - Aerodynamic Parameter Estimation using Delta Method
Link NOC:Introduction to Experiments in Flight Lecture 21 - Aerodynamic Parameter Estimation using Delta Method (Continued...)
Link NOC:Engineering Thermodynamics (2017) Lecture 1 - Fundamental laws of nature, system definitions and applications
Link NOC:Engineering Thermodynamics (2017) Lecture 2 - Thermodynamic property, state, equilibrium and process
Link NOC:Engineering Thermodynamics (2017) Lecture 3 - Temperature scale and pressure
Link NOC:Engineering Thermodynamics (2017) Lecture 4 - Macroscopic and microscopic forms of energy
Link NOC:Engineering Thermodynamics (2017) Lecture 5 - Different forms of work, energy transfer and sign convention
Link NOC:Engineering Thermodynamics (2017) Lecture 6 - First law of thermodynamics and energy balance
Link NOC:Engineering Thermodynamics (2017) Lecture 7 - Efficiency of mechanical and electrical devices
Link NOC:Engineering Thermodynamics (2017) Lecture 8 - Examples on basic concept and energy balance
Link NOC:Engineering Thermodynamics (2017) Lecture 9 - Phase change of a pure substance
Link NOC:Engineering Thermodynamics (2017) Lecture 10 - Property diagrams of pure substances
Link NOC:Engineering Thermodynamics (2017) Lecture 11 - Thermodynamic properties of a pure substance from a property table
Link NOC:Engineering Thermodynamics (2017) Lecture 12 - Thermodynamic properties of a pure substance
Link NOC:Engineering Thermodynamics (2017) Lecture 13 - Equations of state and compressibility chart
Link NOC:Engineering Thermodynamics (2017) Lecture 14 - Examples on properties of pure substances
Link NOC:Engineering Thermodynamics (2017) Lecture 15 - Quasi equilibrium, moving boundary work
Link NOC:Engineering Thermodynamics (2017) Lecture 16 - Polytropic process
Link NOC:Engineering Thermodynamics (2017) Lecture 17 - Energy analysis of closed system and unrestrained expansion
Link NOC:Engineering Thermodynamics (2017) Lecture 18 - Internal energy, enthalpy, and specific heats of ideal gas
Link NOC:Engineering Thermodynamics (2017) Lecture 19 - Internal energy, enthalpy, and specific heats of solids and liquids
Link NOC:Engineering Thermodynamics (2017) Lecture 20 - Examples on energy balance for closed systems and moving boundary work
Link NOC:Engineering Thermodynamics (2017) Lecture 21 - Conservation of mass and steady flow processes
Link NOC:Engineering Thermodynamics (2017) Lecture 22 - Flow work and energy of flowing fluid
Link NOC:Engineering Thermodynamics (2017) Lecture 23 - Energy balance for steady flow devices
Link NOC:Engineering Thermodynamics (2017) Lecture 24 - Throttling valve, mixing chamber and heat exchanger
Link NOC:Engineering Thermodynamics (2017) Lecture 25 - Energy analysis of steady and unsteady flow devices
Link NOC:Engineering Thermodynamics (2017) Lecture 26 - Examples on mass and energy analysis of open systems
Link NOC:Engineering Thermodynamics (2017) Lecture 27 - Second law of thermodynamics, heat engine and cyclic devices
Link NOC:Engineering Thermodynamics (2017) Lecture 28 - COP of refrigerator and heat pump, second law statements
Link NOC:Engineering Thermodynamics (2017) Lecture 29 - Perpetual motion machines, reversible and irreversible processes, Carnot cycle
Link NOC:Engineering Thermodynamics (2017) Lecture 30 - Carnot principles, thermodynamic temperature scale, Carnot HE and HP
Link NOC:Engineering Thermodynamics (2017) Lecture 31 - Examples on second law of thermodynamics
Link NOC:Engineering Thermodynamics (2017) Lecture 32 - Clausius inequality, application of second law
Link NOC:Engineering Thermodynamics (2017) Lecture 33 - Entropy, increase in entropy principle, isentropic process
Link NOC:Engineering Thermodynamics (2017) Lecture 34 - Change in entropy of solids, liquids and ideal gases
Link NOC:Engineering Thermodynamics (2017) Lecture 35 - Reversible flow work, multistage compressor, efficiency of pump and compressors
Link NOC:Engineering Thermodynamics (2017) Lecture 36 - Entropy balance in closed system and control volume
Link NOC:Engineering Thermodynamics (2017) Lecture 37 - Examples on entropy change in a system
Link NOC:Engineering Thermodynamics (2017) Lecture 38 - Exergy and second law efficiency
Link NOC:Engineering Thermodynamics (2017) Lecture 39 - Exergy of a fixed mass and flowing stream
Link NOC:Engineering Thermodynamics (2017) Lecture 40 - Exergy transfer due to heat, mass and work, exergy destruction
Link NOC:Engineering Thermodynamics (2017) Lecture 41 - Exergy balance and second law efficiency for closed systems and steady flow devices
Link NOC:Engineering Thermodynamics (2017) Lecture 42 - Examples related to exergy change and exergy destruction
Link NOC:Engineering Thermodynamics (2017) Lecture 43 - Gas power cycles and air-standard assumptions
Link NOC:Engineering Thermodynamics (2017) Lecture 44 - An overview of reciprocating engines and otto cycle
Link NOC:Engineering Thermodynamics (2017) Lecture 45 - Analysis of Diesel cycle
Link NOC:Engineering Thermodynamics (2017) Lecture 46 - Analysis of Brayton cycle
Link NOC:Engineering Thermodynamics (2017) Lecture 47 - Examples on gas power cycles such as Otto, Diesel and Brayton
Link NOC:Engineering Thermodynamics (2017) Lecture 48 - Rankin and Carnot vapour power cycles
Link NOC:Engineering Thermodynamics (2017) Lecture 49 - Ideal regenerative Rankin cycle and combined gas-vapour cycle
Link NOC:Engineering Thermodynamics (2017) Lecture 50 - Refrigeration cycles
Link NOC:Engineering Thermodynamics (2017) Lecture 51 - Examples on vapour power cycles
Link NOC:Engineering Thermodynamics (2017) Lecture 52 - Thermodynamic property relations: Gibbs equation, Mnemonic diagrams and reciprocity relations
Link NOC:Engineering Thermodynamics (2017) Lecture 53 - hermodynamic property relations: Clapeyron equation and Maxwell relations
Link NOC:Engineering Thermodynamics (2017) Lecture 54 - Thermodynamic property relations: Joule-Thomson coefficient and cyclic relations
Link NOC:Engineering Thermodynamics (2017) Lecture 55 - Combustion and conservation of mass in a chemical reaction
Link NOC:Engineering Thermodynamics (2017) Lecture 56 - Energy balance for reacting systems
Link NOC:Engineering Thermodynamics (2017) Lecture 57 - Enthalpy of formation and combustion, adiabatic flame temperature
Link NOC:Engineering Thermodynamics (2017) Lecture 58 - Examples on property relations and reaction thermodynamics
Link NOC:Aircraft Design Lecture 1 - Introduction
Link NOC:Aircraft Design Lecture 2 - Wing Loading and Thrust Loading
Link NOC:Aircraft Design Lecture 3 - Basic Design - Lift and Drag
Link NOC:Aircraft Design Lecture 4 - Range and Endurance
Link NOC:Aircraft Design Lecture 5 - Mission Requirements
Link NOC:Aircraft Design Lecture 6 - Range and Endurance : Propeller-driven Aircraft
Link NOC:Aircraft Design Lecture 7 - Fuel Consumption : Cruise Flight
Link NOC:Aircraft Design Lecture 8 - L/D for Maximum Range and Endurance
Link NOC:Aircraft Design Lecture 9 - Range and endurance for Jet-driven Aircraft
Link NOC:Aircraft Design Lecture 10 - Estimation of Fuel for a Mission
Link NOC:Aircraft Design Lecture 11 - Design Considerations : Power Plant, Gross Weight
Link NOC:Aircraft Design Lecture 12 - Design Considerations : Aerofoil Selection
Link NOC:Aircraft Design Lecture 13 - Design Considerations : Wing
Link NOC:Aircraft Design Lecture 14 - Wing Design: Aerofoil
Link NOC:Aircraft Design Lecture 15 - Wing Design:t/c, Camber and Leading Edge Radius
Link NOC:Aircraft Design Lecture 16 - Wing Design: Aspect Ratio
Link NOC:Aircraft Design Lecture 17 - Wing Design: Sweep, Twist and Taper Ratio
Link NOC:Aircraft Design Lecture 18 - Wing Arrangements
Link NOC:Aircraft Design Lecture 19 - Tail Arrangements
Link NOC:Aircraft Design Lecture 20 - Tail Arrangements (Continued...)
Link NOC:Aircraft Design Lecture 21 - Aircraft Structure
Link NOC:Aircraft Design Lecture 22 - Wing Loading and Power Loading
Link NOC:Aircraft Design Lecture 23 - Thrust Loading and Wing Loading
Link NOC:Aircraft Design Lecture 24 - Thrust Loading
Link NOC:Aircraft Design Lecture 25 - Wing Loading
Link NOC:Aircraft Design Lecture 26 - Wing Loading : Maneuver,Climb and glide
Link NOC:Aircraft Design Lecture 27 - Take off: Wing Loading and Thrust Loading
Link NOC:Aircraft Design Lecture 28 - Take off: Vstall and High Life Devices
Link NOC:Aircraft Design Lecture 29 - Wing Loading: Take off and Landing
Link NOC:Aircraft Design Lecture 30 - Revision (Wing Loading and Thrust Loading)
Link NOC:Aircraft Design Lecture 31 - Numerical: Wing Loading
Link NOC:Aircraft Design Lecture 32 - Wing Loading: Designers Approach
Link NOC:Aircraft Design Lecture 33 - Stability Considerations
Link NOC:Aircraft Design Lecture 34 - Static Stability Basics
Link NOC:Aircraft Design Lecture 35 - Wing and tail contribution to Longitudinal Static Stability
Link NOC:Aircraft Design Lecture 36 - Conceptual Design
Link NOC:Aircraft Design Lecture 37 - Conceptual design (Continued...)
Link NOC:Aircraft Design Lecture 38 - Elevator Effectiveness
Link NOC:Aircraft Design Lecture 39 - Elevator Effectiveness (Continued...)
Link NOC:Aircraft Design Lecture 40 - Numerical - Pitching moment
Link NOC:Aircraft Design Lecture 41 - Numerical - Elevator Effectiveness
Link NOC:Aircraft Design Lecture 42 - Aircraft Maintenance Guidelines
Link NOC:Aircraft Design Lecture 43 - Inspection for Aircraft
Link NOC:Aircraft Design Lecture 44 - Numerical of Weight Fraction
Link NOC:Aircraft Design Lecture 45 - Inspection of Sinus 912 Motor Glider
Link NOC:Aircraft Design Lecture 46 - Numericals
Link NOC:Fundamentals Of Combustion-I Lecture 1 - Introduction to fundamentals of combustion
Link NOC:Fundamentals Of Combustion-I Lecture 2 - Scope and applications of combustion
Link NOC:Fundamentals Of Combustion-I Lecture 3 - Scope of combustion (Continued...) and types of fuel and oxidizers
Link NOC:Fundamentals Of Combustion-I Lecture 4 - Characterization of liquid and gaseous fuel
Link NOC:Fundamentals Of Combustion-I Lecture 5 - Properties of liquid and solid fuels, various modes of combustion
Link NOC:Fundamentals Of Combustion-I Lecture 6 - Thermodynamics of combustion
Link NOC:Fundamentals Of Combustion-I Lecture 7 - Thermodynamics of combustion (Continued...)
Link NOC:Fundamentals Of Combustion-I Lecture 8 - Laws of thermodynamics and Stoichiometry
Link NOC:Fundamentals Of Combustion-I Lecture 9 - Stoichiometric calculations for air-gas mixture
Link NOC:Fundamentals Of Combustion-I Lecture 10 - Mixture fraction calculation for diffusion flames
Link NOC:Fundamentals Of Combustion-I Lecture 11 - Thermochemistry
Link NOC:Fundamentals Of Combustion-I Lecture 12 - Heat of reaction and bond energy
Link NOC:Fundamentals Of Combustion-I Lecture 13 - Adiabatic flame temperature
Link NOC:Fundamentals Of Combustion-I Lecture 14 - Adiabatic flame temperature and its effect on various parameters
Link NOC:Fundamentals Of Combustion-I Lecture 15 - Introduction to chemical equilibrium
Link NOC:Fundamentals Of Combustion-I Lecture 16 - Chemical equilibrium and Gibbs free energy
Link NOC:Fundamentals Of Combustion-I Lecture 17 - Equilibrium constants and Le chatlier principle
Link NOC:Fundamentals Of Combustion-I Lecture 18 - Determination of chemical equilibrium composition
Link NOC:Fundamentals Of Combustion-I Lecture 19 - Chemical and reaction kinetics
Link NOC:Fundamentals Of Combustion-I Lecture 20 - Compact notation and reaction rate of chemical reaction
Link NOC:Fundamentals Of Combustion-I Lecture 21 - Collision Theory
Link NOC:Fundamentals Of Combustion-I Lecture 22 - Collision theory (Continued...)
Link NOC:Fundamentals Of Combustion-I Lecture 23 - Collision frequency of molecules
Link NOC:Fundamentals Of Combustion-I Lecture 24 - Specific reaction rate and Arrhenius law
Link NOC:Fundamentals Of Combustion-I Lecture 25 - First order, Second order and Third-order reactions
Link NOC:Fundamentals Of Combustion-I Lecture 26 - Classification of chemical reactions
Link NOC:Fundamentals Of Combustion-I Lecture 27 - Elementary chain reactions
Link NOC:Fundamentals Of Combustion-I Lecture 28 - Quasi-steady state and partial equilibrium approximation
Link NOC:Fundamentals Of Combustion-I Lecture 29 - Physics of combustion
Link NOC:Fundamentals Of Combustion-I Lecture 30 - Transport equations and molecular model for transport process
Link NOC:Fundamentals Of Combustion-I Lecture 31 - Mean free path length
Link NOC:Fundamentals Of Combustion-I Lecture 32 - Lennard-Jones potential model for diffusivity
Link NOC:Fundamentals Of Combustion-I Lecture 33 - Lennard-Jones potential model (Continued...)
Link NOC:Fundamentals Of Combustion-I Lecture 34 - Mass conservation law
Link NOC:Fundamentals Of Combustion-I Lecture 35 - Momentum conservation equation
Link NOC:Fundamentals Of Combustion-I Lecture 36 - Introduction to mass transfer
Link NOC:Fundamentals Of Combustion-I Lecture 37 - Species transport equation
Link NOC:Fundamentals Of Combustion-I Lecture 38 - Energy conservation equation
Link NOC:Fundamentals Of Combustion-I Lecture 39 - Conserved scalar approach for one dimensional flows
Link NOC:Fundamentals Of Combustion-I Lecture 40 - Introduction to turbulent combustion
Link NOC:Aircraft Maintenance Lecture 1 - Rules and Regulations for Civil Aviation in India
Link NOC:Aircraft Maintenance Lecture 2 - Rules and Regulations for Civil Aviation in India (Continued...)
Link NOC:Aircraft Maintenance Lecture 3 - Aircraft Hydraulic System
Link NOC:Aircraft Maintenance Lecture 4 - Aircraft Fuel System
Link NOC:Aircraft Maintenance Lecture 5 - Aircraft Landing Gear System
Link NOC:Aircraft Maintenance Lecture 6 - Aircraft Wheels
Link NOC:Aircraft Maintenance Lecture 7 - Aircraft Brakes System
Link NOC:Aircraft Maintenance Lecture 8 - Basic Aircraft Design
Link NOC:Aircraft Maintenance Lecture 9 - Aircraft Electrical System
Link NOC:Aircraft Maintenance Lecture 10 - Aircraft Electrical Circuit
Link NOC:Aircraft Maintenance Lecture 11 - Inspection of Aircraft
Link NOC:Aircraft Maintenance Lecture 12 - Maintenance Schedule
Link NOC:Aircraft Maintenance Lecture 13 - Maintenance Schedule (Continued...)
Link NOC:Aircraft Maintenance Lecture 14 - Inspection of Cessna 206
Link NOC:Fundamentals of Combustion - Part 2 Lecture 1 - Combustion Modes and Classsification of Flames
Link NOC:Fundamentals of Combustion - Part 2 Lecture 2 - Analysis of One Dimensional Combustion Wave
Link NOC:Fundamentals of Combustion - Part 2 Lecture 3 - Analysis of One Dimensional Combustion Wave (Continued...)
Link NOC:Fundamentals of Combustion - Part 2 Lecture 4 - Introduction to Laminar Premixed Flame
Link NOC:Fundamentals of Combustion - Part 2 Lecture 5 - Structure of One Dimensional Premixed Flame
Link NOC:Fundamentals of Combustion - Part 2 Lecture 6 - Laminar Flame Theory for Premixed Flames
Link NOC:Fundamentals of Combustion - Part 2 Lecture 7 - Laminar Flame Theory for Premixed Flames (Continued...)
Link NOC:Fundamentals of Combustion - Part 2 Lecture 8 - Determination of Laminar Burning Velocity for Premixed Flames
Link NOC:Fundamentals of Combustion - Part 2 Lecture 9 - Flame Thickness and Burning Velocity Measurement Methods
Link NOC:Fundamentals of Combustion - Part 2 Lecture 10 - Stationary Flame Method for Burning Velocity Measurement
Link NOC:Fundamentals of Combustion - Part 2 Lecture 11 - Effects of Chemical and Physical Variables on Burning Velocity
Link NOC:Fundamentals of Combustion - Part 2 Lecture 12 - Effects of Chemical and Physical Variables on Burning Velocity (Continued...)
Link NOC:Fundamentals of Combustion - Part 2 Lecture 13 - Effect of Inert Additives on Burning Velocity and Flame Extinction
Link NOC:Fundamentals of Combustion - Part 2 Lecture 14 - Simplified Analysis for Quenching Diameter
Link NOC:Fundamentals of Combustion - Part 2 Lecture 15 - Flammability Limits and Flame Stabilization
Link NOC:Fundamentals of Combustion - Part 2 Lecture 16 - Ignition in Premixed Flames
Link NOC:Fundamentals of Combustion - Part 2 Lecture 17 - Introduction to Turbulent Premixed Flames
Link NOC:Fundamentals of Combustion - Part 2 Lecture 18 - Turbulent Burning Velocity and Premixed Flame Regimes
Link NOC:Fundamentals of Combustion - Part 2 Lecture 19 - Intoduction to Gaseous Jet Diffusion Flame
Link NOC:Fundamentals of Combustion - Part 2 Lecture 20 - Phenomenological Analysis of a Laminar Jet Diffusion Flame
Link NOC:Fundamentals of Combustion - Part 2 Lecture 21 - Theoretical Analysis of a Two-Dimensional Diffusion Flame
Link NOC:Fundamentals of Combustion - Part 2 Lecture 22 - Theoretical Analysis of a Two-Dimensional Diffusion Flame (Continued...)
Link NOC:Fundamentals of Combustion - Part 2 Lecture 23 - Flame Height Estimation and Smoke point in Diffusion Flames
Link NOC:Fundamentals of Combustion - Part 2 Lecture 24 - Mechanism of Soot Formation and Introduction to Liquid Fuel Combustion
Link NOC:Fundamentals of Combustion - Part 2 Lecture 25 - Introduction to Droplet Combustion
Link NOC:Fundamentals of Combustion - Part 2 Lecture 26 - Liquid Droplet Combustion
Link NOC:Fundamentals of Combustion - Part 2 Lecture 27 - Droplet Combustion (Continued...)
Link NOC:Fundamentals of Combustion - Part 2 Lecture 28 - Droplet Combustion in Convective Environment
Link NOC:Fundamentals of Combustion - Part 2 Lecture 29 - Droplet Combustion in Convective Environment and Introduction to Spray Combution Mode
Link NOC:Fundamentals of Combustion - Part 2 Lecture 30 - Spray Combustion Model
Link NOC:Fundamentals of Combustion - Part 2 Lecture 31 - Introduction to Solid Fuel Combustion
Link NOC:Fundamentals of Combustion - Part 2 Lecture 32 - Solid Fuel Combustion (Continued...)
Link NOC:Fundamentals of Combustion - Part 2 Lecture 33 - Diffusional theory for Carbon Combustion
Link NOC:Fundamentals of Combustion - Part 2 Lecture 34 - Carbon Burning Rate
Link NOC:Fundamentals of Combustion - Part 2 Lecture 35 - Carbon Burning Rate (Continued...)
Link NOC:Fundamentals of Combustion - Part 2 Lecture 36 - Carbon Sphere in Convective Environment
Link NOC:Fundamentals of Combustion - Part 2 Lecture 37 - Combustion and Effects on Environment
Link NOC:Fundamentals of Combustion - Part 2 Lecture 38 - Chemicals from Combustion
Link NOC:Fundamentals of Combustion - Part 2 Lecture 39 - Emission Control Methods
Link NOC:Fundamentals of Combustion - Part 2 Lecture 40 - Combustion Modification Methods
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 1 - Introduction, course content and classification of UAVs
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 2 - Measurement of Flight Velocity and Standard Atmosphere
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 3 - Anatomy of Airplane and Airfoil Nomenclature
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 4 - Examples, Pitot and static tube and differential pressure sensor
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 5 - Generation of Lift and Drag
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 6 - Aerodynamic center and center of pressure, Various wing planform
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 7 - Lifting line theory, NACA airfoil nomenclature
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 8 - Airfoil and Finite wing, Various wing planform
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 9 - Interpreting airfoil data, Cl vs Alpha and drag polar, selection of airfoil
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 10 - Introduction to Airplane performance, Equation of motion
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 11 - Thrust required and Power required
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 12 - Calculation of Performance parameters and selection of power plant
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 13 - Climb Performance, Engine Sizing and Power Plant selection
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 14 - Weight Estimation , Common propulsion systems
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 15 - Weight Estimation contd., Electric propulsion, Battery Sizing
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 16 - Iterative weight estimation and Wing sizing
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 17 - Wing Planform selection and sizing and Flight test of Cropped delta wing UAVs
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 18 - Effect of variation of CG location and Static Stability
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 19 - C.G. location and Longitudinal Static stability
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 20 - Tutorial 1
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 21 - Contribution of tail in static stability and Neutral point.
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 22 - Tutorial 2
Link NOC:Design of Fixed Wing Unmanned Aerial Vehicles Lecture 23 - Tutorial 3
Link NOC:Introduction to Finite Volume Methods-I Lecture 1 - Introduction to Finite Volume Method
Link NOC:Introduction to Finite Volume Methods-I Lecture 2 - Governing Equations and Discretization
Link NOC:Introduction to Finite Volume Methods-I Lecture 3 - Boundary Conditions and Classification of PDEs
Link NOC:Introduction to Finite Volume Methods-I Lecture 4 - Mathematical Description of fluid flow - I
Link NOC:Introduction to Finite Volume Methods-I Lecture 5 - Mathematical description of fluid flow - II
Link NOC:Introduction to Finite Volume Methods-I Lecture 6 - Discretization Process - I
Link NOC:Introduction to Finite Volume Methods-I Lecture 7 - Discretization Process - II
Link NOC:Introduction to Finite Volume Methods-I Lecture 8 - Discretization Process - III
Link NOC:Introduction to Finite Volume Methods-I Lecture 9 - Taylor Series - I
Link NOC:Introduction to Finite Volume Methods-I Lecture 10 - Taylor Series - II
Link NOC:Introduction to Finite Volume Methods-I Lecture 11 - Derivatives and Errors - I
Link NOC:Introduction to Finite Volume Methods-I Lecture 12 - Derivatives and errors - II
Link NOC:Introduction to Finite Volume Methods-I Lecture 13 - Grid Transformation
Link NOC:Introduction to Finite Volume Methods-I Lecture 14 - Finite Volume Formulation - I
Link NOC:Introduction to Finite Volume Methods-I Lecture 15 - Finite Volume Formulation - II
Link NOC:Introduction to Finite Volume Methods-I Lecture 16 - Properties of discretized equations
Link NOC:Introduction to Finite Volume Methods-I Lecture 17 - Introduction to Finite Volume Mesh
Link NOC:Introduction to Finite Volume Methods-I Lecture 18 - Structured Mesh System
Link NOC:Introduction to Finite Volume Methods-I Lecture 19 - Unstructured Mesh System - I
Link NOC:Introduction to Finite Volume Methods-I Lecture 20 - Unstructured Mesh System - II
Link NOC:Introduction to Finite Volume Methods-I Lecture 21 - Properties of Unstructured Mesh - I
Link NOC:Introduction to Finite Volume Methods-I Lecture 22 - Properties of Unstructured Mesh - II
Link NOC:Introduction to Finite Volume Methods-I Lecture 23 - Finite Volume discretization of Diffusion Equation - I
Link NOC:Introduction to Finite Volume Methods-I Lecture 24 - Finite Volume discretization of Diffusion equation - II
Link NOC:Introduction to Finite Volume Methods-I Lecture 25 - Finite Volume discretization of Diffusion equation - III
Link NOC:Introduction to Finite Volume Methods-I Lecture 26 - Discretization of Diffusion Equation for Cartesian orthogonal systems - I
Link NOC:Introduction to Finite Volume Methods-I Lecture 27 - Discretization of Diffusion Equation for Cartesian orthogonal systems - II
Link NOC:Introduction to Finite Volume Methods-I Lecture 28 - Calculation of Diffusivity
Link NOC:Introduction to Finite Volume Methods-I Lecture 29 - Discretization of Diffusion Equation for non-Cartesian orthogonal systems - I
Link NOC:Introduction to Finite Volume Methods-I Lecture 30 - Discretization of Diffusion Equation for non-orthogonal systems - I
Link NOC:Introduction to Finite Volume Methods-I Lecture 31 - Discretization of Diffusion Equation for non-orthogonal systems - II
Link NOC:Introduction to Finite Volume Methods-I Lecture 32 - Discretization of Diffusion Equation for non-orthogonal systems - III
Link NOC:Introduction to Finite Volume Methods-I Lecture 33 - Gradient Calculation for Diffusion Equation - I
Link NOC:Introduction to Finite Volume Methods-I Lecture 34 - Gradient Calculation for Diffusion Equation - II
Link NOC:Introduction to Finite Volume Methods-I Lecture 35 - Gradient Calculation for Diffusion Equation - III
Link NOC:Introduction to Finite Volume Methods-I Lecture 36 - Properties of matrices - I
Link NOC:Introduction to Finite Volume Methods-I Lecture 37 - Properties of matrices - II
Link NOC:Introduction to Finite Volume Methods-I Lecture 38 - Error Analysis - I
Link NOC:Introduction to Finite Volume Methods-I Lecture 39 - Error Analysis - II
Link NOC:Introduction to Finite Volume Methods-I Lecture 40 - Error Analysis - III
Link 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 NOC:Introduction to Aircraft Control System Lecture 1
Link NOC:Introduction to Aircraft Control System Lecture 2
Link NOC:Introduction to Aircraft Control System Lecture 3
Link NOC:Introduction to Aircraft Control System Lecture 4
Link NOC:Introduction to Aircraft Control System Lecture 5
Link NOC:Introduction to Aircraft Control System Lecture 6
Link NOC:Introduction to Aircraft Control System Lecture 7
Link NOC:Introduction to Aircraft Control System Lecture 8
Link NOC:Introduction to Aircraft Control System Lecture 9
Link NOC:Introduction to Aircraft Control System Lecture 10
Link NOC:Introduction to Aircraft Control System Lecture 11
Link NOC:Introduction to Aircraft Control System Lecture 12
Link NOC:Introduction to Aircraft Control System Lecture 13
Link NOC:Introduction to Aircraft Control System Lecture 14
Link NOC:Introduction to Aircraft Control System Lecture 15
Link NOC:Introduction to Aircraft Control System Lecture 16
Link NOC:Introduction to Aircraft Control System Lecture 17
Link NOC:Introduction to Aircraft Control System Lecture 18
Link NOC:Introduction to Aircraft Control System Lecture 19
Link NOC:Introduction to Aircraft Control System Lecture 20
Link NOC:Introduction to Aircraft Control System Lecture 21
Link NOC:Introduction to Aircraft Control System Lecture 22
Link NOC:Introduction to Aircraft Control System Lecture 23
Link NOC:Introduction to Aircraft Control System Lecture 24
Link NOC:Introduction to Aircraft Control System Lecture 25
Link NOC:Introduction to Aircraft Control System Lecture 26
Link NOC:Introduction to Aircraft Control System Lecture 27
Link NOC:Introduction to Aircraft Control System Lecture 28
Link NOC:Introduction to Aircraft Control System Lecture 29
Link NOC:Introduction to Aircraft Control System Lecture 30
Link NOC:Introduction to Aircraft Control System Lecture 31
Link NOC:Introduction to Aircraft Control System Lecture 32
Link NOC:Introduction to Aircraft Control System Lecture 33
Link NOC:Introduction to Aircraft Control System Lecture 34
Link NOC:Introduction to Aircraft Control System Lecture 35
Link NOC:Introduction to Aircraft Control System Lecture 36
Link NOC:Introduction to Aircraft Control System Lecture 37
Link NOC:Introduction to Aircraft Control System Lecture 38
Link NOC:Introduction to Aircraft Control System Lecture 39
Link NOC:Introduction to Aircraft Control System Lecture 40
Link NOC:Introduction to Aircraft Control System Lecture 41
Link NOC:Introduction to Aircraft Control System Lecture 42
Link NOC:Introduction to Aircraft Control System Lecture 43
Link NOC:Introduction to Aircraft Control System Lecture 44
Link NOC:Introduction to Aircraft Control System Lecture 45
Link NOC:Introduction to Aircraft Control System Lecture 46
Link NOC:Introduction to Aircraft Control System Lecture 47
Link NOC:Introduction to Aircraft Control System Lecture 48
Link NOC:Introduction to Aircraft Control System Lecture 49
Link NOC:Introduction to Aircraft Control System Lecture 50
Link NOC:Introduction to Aircraft Control System Lecture 51
Link NOC:Introduction to Aircraft Control System Lecture 52
Link NOC:Introduction to Aircraft Control System Lecture 53
Link NOC:Introduction to Aircraft Control System Lecture 54
Link NOC:Introduction to Aircraft Control System Lecture 55
Link NOC:Introduction to Aircraft Control System Lecture 56
Link NOC:Introduction to Aircraft Control System Lecture 57
Link NOC:Introduction to Aircraft Control System Lecture 58
Link NOC:Introduction to Aircraft Control System Lecture 59
Link NOC:Introduction to Aircraft Control System Lecture 60
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 NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 1 - Introduction
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 2 - Introduction (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 3 - Introduction (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 4 - Introduction (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 5 - Introduction (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 6 - Introduction (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 7 - Stage Configurations and Parameters
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 8 - Stage Configurations and Parameters (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 9 - Stage Configurations and Parameters (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 10 - Stage Configurations and Parameters (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 11 - Stage Configurations and Parameters (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 12 - Stage Configurations and Parameters (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 13 - Stage Configurations and Parameters (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 14 - Stage Configurations and Parameters (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 15 - Stage Configurations and Parameters (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 16 - Design Concepts
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 17 - Design Concepts (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 18 - Design Concepts (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 19 - Design Concepts (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 20 - Design Concepts (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 21 - Design Concepts (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 22 - Design Concepts (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 23 - Cascade Aerodynamics
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 24 - Cascade Aerodynamics (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 25 - Cascade Aerodynamics (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 26 - Cascade Aerodynamics (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 27 - Cascade Aerodynamics (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 28 - Selection of Design Parameters
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 29 - Selection of Design Parameters (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 30 - Selection of Design Parameters (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 31 - Selection of Design Parameters (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 32 - Selection of Design Parameters (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 33 - Design Strategies
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 34 - Design Strategies (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 35 - Design Strategies (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 36 - Design Strategies (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 37 - Design of Low Speed Compressor
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 38 - Design of Low Speed Compressor (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 39 - Design of Low Speed Compressor (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 40 - Design of Low Speed Compressor (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 41 - Design of Low Speed Compressor (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 42 - Design of Low Speed Compressor (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 43 - Design of Low Speed Contra rotating Fan
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 44 - Design of Low Speed Contra rotating Fan (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 45 - Design of Low Speed Contra rotating Fan (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 46 - Design of Low Speed Contra rotating Fan (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 47 - Design of Low Speed Contra rotating Fan (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 48 - Design of Low Speed Contra rotating Fan (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 49 - Transonic Compressors
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 50 - Transonic Compressors (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 51 - Transonic Compressors (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 52 - Transonic Compressors (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 53 - Transonic Compressors (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 54 - Design of Transonic Compressor
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 55 - Design of Transonic Compressor (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 56 - Design of Transonic Compressor (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 57 - Design of Transonic Compressor (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 58 - Design of Transonic Compressor (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 59 - Design of Transonic Compressor (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 60 - Design of Industrial fan
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 61 - Design of Industrial fan (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 62 - Design of Industrial fan (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 63 - Design of Industrial fan (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 64 - Design of Industrial fan (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 65 - CFD application to Design and Performance assessment
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 66 - CFD application to Design and Performance assessment (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 67 - CFD application to Design and Performance assessment (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 68 - CFD application to Design and Performance assessment (Continued...)
Link NOC:Aerodynamic Design of Axial Flow Compressors and Fans Lecture 69 - CFD application to Design and Performance assessment (Continued...)
Link NOC:Smart Structures Lecture 1 - Introduction to Smart Structures (Continued...)
Link NOC:Smart Structures Lecture 2 - Introduction to Smart Structures (Continued...)
Link NOC:Smart Structures Lecture 3 - Introduction to Smart Structures (Continued...)
Link NOC:Smart Structures Lecture 4 - Introduction to Piezoelectric Materials
Link NOC:Smart Structures Lecture 5 - Introduction to Piezoelectric Materials (Continued...)
Link NOC:Smart Structures Lecture 6 - Mathematical Preliminaries
Link NOC:Smart Structures Lecture 7 - 3D Constitutive Modeling of Piezoelectric Materials - 1
Link NOC:Smart Structures Lecture 8 - 3D Constitutive Modeling of Piezoelectric Materials - 2
Link NOC:Smart Structures Lecture 9 - 3D Constitutive Modeling of Piezoelectric Materials - 3
Link NOC:Smart Structures Lecture 10 - 3D Constitutive Modeling of Piezoelectric Materials - 4
Link NOC:Smart Structures Lecture 11 - Piezoelectric Sensors and Actuators
Link NOC:Smart Structures Lecture 12 - Numercial Problems and Solutions
Link NOC:Smart Structures Lecture 13 - Induced Strain Actuation - Static Analysis
Link NOC:Smart Structures Lecture 14 - Induced Strain Actuation - Static Analysis (Continued...)
Link NOC:Smart Structures Lecture 15 - Induced Strain Actuation - Static Analysis
Link NOC:Smart Structures Lecture 16 - Induced Strain Actuation - Static Analysis (Continued...)
Link NOC:Smart Structures Lecture 17 - Induced Strain Actuation - Static Analysis (Continued...)
Link NOC:Smart Structures Lecture 18 - Induced Strain Actuation - Static Analysis - Numerical Examples
Link NOC:Smart Structures Lecture 19 - Introduction to Energy Principles for Structural Analysis
Link NOC:Smart Structures Lecture 20 - Introduction to Energy Principles for Structural Analysis (Continued...)
Link NOC:Smart Structures Lecture 21 - Statis Analysis of beam for Induced Strain Actuation using Energy Principles
Link NOC:Smart Structures Lecture 22 - Static Analysis of beam for Induced Strain Actuation using Energy Principles (Continued...)
Link NOC:Smart Structures Lecture 23 - Static Analysis of beam for Induced Strain Actuation using Energy Principles (Continued...)
Link NOC:Smart Structures Lecture 24 - Static Analysis of beam for Induced strain Actuation using Energy Principles Numerical
Link NOC:Smart Structures Lecture 25 - Dynamic Analysis of Beam for Induced Strain Actuation Using Energy Principle
Link NOC:Smart Structures Lecture 26 - Dynamic Analysis of Beam for Induced Strain Actuation Using (Continued...)
Link NOC:Smart Structures Lecture 27 - Energy Harvesting and Vibration Control
Link NOC:Smart Structures Lecture 28 - Energy Harvesting and Vibration Control (Continued...)
Link NOC:Smart Structures Lecture 29 - Solution of Coupled Linear Ordinary Differential Equations
Link NOC:Smart Structures Lecture 30 - Introduction to Fibre Reinforced Plastic Composites
Link NOC:Smart Structures Lecture 31 - Constitutive Relation of Unidirectional FRP Composite Ply
Link NOC:Smart Structures Lecture 32 - Constitutive Relation of Unidirectional FRP Composite Ply (Continued...)
Link NOC:Smart Structures Lecture 33 - Constitutive Relation of Unidirectional FRP Composite Ply (Continued...)
Link NOC:Smart Structures Lecture 34 - Mechanics of FRP Composite Laminate Numerical Examples
Link NOC:Smart Structures Lecture 35 - Mechanics of FRP Composite Laminate Numerical Examples (Continued...)
Link NOC:Smart Structures Lecture 36 - Analysis of composite laminate with piezoelectric patches (Continued...)
Link NOC:Smart Structures Lecture 37 - Analysis of composite laminate with piezoelectric patches (Continued...)
Link NOC:Smart Structures Lecture 38 - Analysis of composite laminate with piezoelectric patches (Continued...)
Link NOC:Smart Structures Lecture 39 - Analysis of composite laminate with piezoelectric patches (Continued...)
Link NOC:Smart Structures Lecture 40 - Analysis of composite laminate with piezoelectric patches - computer programming
Link NOC:Smart Structures Lecture 41 - Introduction to Shape Memory Alloys
Link NOC:Smart Structures Lecture 42 - Temperature and Stress Dependent Phase Transformation Modeling
Link NOC:Smart Structures Lecture 43 - Temperature and Stress Dependent Phase Transformation Modeling (Continued...)
Link NOC:Smart Structures Lecture 44 - Stress-strain Curve at Low Temperature, Pseudo elasticity Two Way Shape Memory Effect
Link NOC:Smart Structures Lecture 45 - Constitutive Relations of Shape Memory Alloys
Link NOC:Smart Structures Lecture 46 - Constitutive Relations of Shape Memory Alloys (Continued...)
Link NOC:Smart Structures Lecture 47 - Constitutive Relations of Shape Memory Alloys (Continued...)
Link NOC:Smart Structures Lecture 48 - Constitutive Relations of Shape Memory Alloys (Continued...)
Link NOC:Smart Structures Lecture 49 - Constitutive Relations of Shape Memory Alloys (Continued...)
Link NOC:Smart Structures Lecture 50 - Finite Element Formulation of Euler - Bernoulli Beam
Link NOC:Smart Structures Lecture 51 - Finite Element Formulation of Euler - Bernoulli Beam (Continued...)
Link NOC:Smart Structures Lecture 52 - Anlsysis of a Beam with Shape Memory Alloy Wire
Link NOC:Smart Structures Lecture 53 - Analysis of a Beam with Shape Memory Alloy Wire (Continued...)
Link NOC:Smart Structures Lecture 54 - Introduction to Electro and Magneto Rheological Fluids
Link NOC:Smart Structures Lecture 55 - Analaysis of Electro and Magneto Rheological Fluid Flow
Link NOC:Smart Structures Lecture 56 - Analaysis of Electro and Magneto Rheological Fluid Flow (Continued...)
Link NOC:Smart Structures Lecture 57 - Analaysis of Electro and Magneto Rheological Fluid Flow (Continued...)
Link NOC:Smart Structures Lecture 58 - Analaysis of Electro and Magneto Rheological Fluid Flow (Continued...)
Link NOC:Smart Structures Lecture 59 - Analaysis of Electro and Magneto Rheological Fluid Flow
Link NOC:Smart Structures Lecture 60 - 60 Analaysis of Electro and Magneto Rheological Fluid Flow (Continued...)
Link NOC:Smart Structures Lecture 61 - Analaysis of Electro and Magneto Rheological Fluid Flow (Continued...)
Link NOC:Smart Structures Lecture 62 - Analysis of a Beam with ER/MR Fluid Layer
Link NOC:Aeroengine Gas Turbine Cycles Lecture 1 - Introduction
Link NOC:Aeroengine Gas Turbine Cycles Lecture 2 - Introduction (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 3 - Introduction (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 4 - Introduction (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 5 - Introduction (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 6 - Introduction (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 7 - Component Performance
Link NOC:Aeroengine Gas Turbine Cycles Lecture 8 - Component Performance (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 9 - Component Performance (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 10 - Component Performance (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 11 - Component Performance (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 12 - Turbojet Engine - I
Link NOC:Aeroengine Gas Turbine Cycles Lecture 13 - Turbojet Engine - I (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 14 - Turbojet Engine - I (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 15 - Turbojet Engine - I (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 16 - Turbojet Engine - I (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 17 - Turbojet Engine - I (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 18 - Turbojet Engine - II
Link NOC:Aeroengine Gas Turbine Cycles Lecture 19 - Turbojet Engine - II (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 20 - Turbojet Engine - II (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 21 - Turbojet Engine - II (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 22 - Turbojet Engine - II (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 23 - Turbofan Engine - I
Link NOC:Aeroengine Gas Turbine Cycles Lecture 24 - Turbofan Engine - I (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 25 - Turbofan Engine - I (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 26 - Turbofan Engine - I (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 27 - Turbofan Engine - I (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 28 - Turbofan Engine - II
Link NOC:Aeroengine Gas Turbine Cycles Lecture 29 - Turbofan Engine - II (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 30 - Turbofan Engine - II (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 31 - Turbofan Engine - II (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 32 - Turbofan Engine - II (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 33 - Turbofan Engine - III
Link NOC:Aeroengine Gas Turbine Cycles Lecture 34 - Turbofan Engine - III (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 35 - Turbofan Engine - III (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 36 - Turbofan Engine - III (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 37 - Turbofan Engine - III (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 38 - Turbofan Engine - IV
Link NOC:Aeroengine Gas Turbine Cycles Lecture 39 - Turbofan Engine - IV (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 40 - Turbofan Engine - IV (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 41 - Turbofan Engine - IV (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 42 - Turbofan Engine - IV (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 43 - Turbofan Engine - IV (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 44 - Recent Advances in Turbofan Engines
Link NOC:Aeroengine Gas Turbine Cycles Lecture 45 - Recent Advances in Turbofan Engines (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 46 - Recent Advances in Turbofan Engines (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 47 - Recent Advances in Turbofan Engines (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 48 - Recent Advances in Turbofan Engines (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 49 - Recent Advances in Turbofan Engines (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 50 - Turboprop Engine
Link NOC:Aeroengine Gas Turbine Cycles Lecture 51 - Turboprop Engine (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 52 - Turboprop Engine (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 53 - Turboprop Engine (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 54 - Turboprop Engine (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 55 - Turboshaft Engine
Link NOC:Aeroengine Gas Turbine Cycles Lecture 56 - Turboshaft Engine (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 57 - Turboshaft Engine (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 58 - Turboshaft Engine (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 59 - Turboshaft Engine (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 60 - Component Matching and Testing
Link NOC:Aeroengine Gas Turbine Cycles Lecture 61 - Component Matching and Testing (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 62 - Component Matching and Testing (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 63 - Component Matching and Testing (Continued...)
Link NOC:Aeroengine Gas Turbine Cycles Lecture 64 - Aircraft Engine Testing
Link NOC:Combustion of Solid Fuels and Propellants Lecture 1 - Basic Principle of Rocket
Link NOC:Combustion of Solid Fuels and Propellants Lecture 2 - Basic Principle of Rocket (Continued...)
Link NOC:Combustion of Solid Fuels and Propellants Lecture 3 - Performance Parameters
Link NOC:Combustion of Solid Fuels and Propellants Lecture 4 - Performance Parameters (Continued...)
Link NOC:Combustion of Solid Fuels and Propellants Lecture 5 - Performance Parameters (Example problems)
Link NOC:Combustion of Solid Fuels and Propellants Lecture 6 - Solid Propellant Rocket - Brief Description
Link NOC:Combustion of Solid Fuels and Propellants Lecture 7 - Solid Propellants - Introduction
Link NOC:Combustion of Solid Fuels and Propellants Lecture 8 - Solid Propellants - Selection Criteria
Link NOC:Combustion of Solid Fuels and Propellants Lecture 9 - Solid Propellants - Selection Criteria (Continued...)
Link NOC:Combustion of Solid Fuels and Propellants Lecture 10 - Solid Propellants - Selection Criteria (Continued...)
Link NOC:Combustion of Solid Fuels and Propellants Lecture 11 - Propellants Ingredients (Continued...) and Classification of Solid Propellants
Link NOC:Combustion of Solid Fuels and Propellants Lecture 12 - Tutorial Problems
Link NOC:Combustion of Solid Fuels and Propellants Lecture 13 - Combustion of Solid Propellants - Introduction
Link NOC:Combustion of Solid Fuels and Propellants Lecture 14 - Combustion of Double-Base Propellants
Link NOC:Combustion of Solid Fuels and Propellants Lecture 15 - Combustion of Double-Base Propellants (Continued...)
Link NOC:Combustion of Solid Fuels and Propellants Lecture 16 - Combustion of Double-Base Propellants (Continued...)
Link NOC:Combustion of Solid Fuels and Propellants Lecture 17 - Evaluation of Burn Rate of DB Propellants
Link NOC:Combustion of Solid Fuels and Propellants Lecture 18 - Evaluation of Burn Rate of DB Propellants (Continued...)
Link NOC:Combustion of Solid Fuels and Propellants Lecture 19 - Combustion of Composite Propellants - Introduction
Link NOC:Combustion of Solid Fuels and Propellants Lecture 20 - Combustion of Composite Propellants (Continued...)
Link NOC:Combustion of Solid Fuels and Propellants Lecture 21 - Evaluation of Burn Rate of Composite Propellants
Link NOC:Combustion of Solid Fuels and Propellants Lecture 22 - Effect of Various Parameters on Burn Rate of Composite Propellants
Link NOC:Combustion of Solid Fuels and Propellants Lecture 23 - Effect of Transients, Vehicle Acceleration, Binder, Catalysts on Burning Rate of CP
Link NOC:Combustion of Solid Fuels and Propellants Lecture 24 - Effect of Catalysts on Burning Rate of CP (Continued...)
Link NOC:Combustion of Solid Fuels and Propellants Lecture 25 - Combustion of Nitra mine Composite Propellants
Link NOC:Combustion of Solid Fuels and Propellants Lecture 26 - Combustion of CMDB Propellants
Link NOC:Combustion of Solid Fuels and Propellants Lecture 27 - Choice of Pressure Index (n); Tutorial Problems
Link NOC:Combustion of Solid Fuels and Propellants Lecture 28 - Metal Combustion Classification-Introduction
Link NOC:Combustion of Solid Fuels and Propellants Lecture 29 - Metal Combustion Classification (Continued...)
Link NOC:Combustion of Solid Fuels and Propellants Lecture 30 - Metal Combustion Classification (Continued...)
Link NOC:Combustion of Solid Fuels and Propellants Lecture 31 - Metal Particle Combustion Regimes
Link NOC:Combustion of Solid Fuels and Propellants Lecture 32 - Metal Particle Combustion Regimes (Continued...)
Link NOC:Combustion of Solid Fuels and Propellants Lecture 33 - Combustion Times for Diffusion and Kinetic Controlled Regimes
Link NOC:Combustion of Solid Fuels and Propellants Lecture 34 - Ignition and Combustion of Boron Particle
Link NOC:Combustion of Solid Fuels and Propellants Lecture 35 - Ignition and Combustion of Boron Particle (Continued...)
Link NOC:Combustion of Solid Fuels and Propellants Lecture 36 - Ignition and Combustion of Aluminum Particle,Recent Future Developments on Metal Fuels
Link NOC:Combustion of Solid Fuels and Propellants Lecture 37 - Erosive Burning in Solid Propellant Rockets - Introduction
Link NOC:Combustion of Solid Fuels and Propellants Lecture 38 - Methods for Determination of Erosive Function
Link NOC:Combustion of Solid Fuels and Propellants Lecture 39 - Methods for Determination of Erosive Function (Continued...)
Link NOC:Combustion of Solid Fuels and Propellants Lecture 40 - Erosive Burning Theories
Link NOC:Aerospace Structural Analysis Lecture 1 - Introduction to Aerospace Structures
Link NOC:Aerospace Structural Analysis Lecture 2 - Introduction to Aerospace Structures
Link NOC:Aerospace Structural Analysis Lecture 3 - Recap of Theory of Elasticity
Link NOC:Aerospace Structural Analysis Lecture 4 - Torsion of Circular Cross-Section Shaft
Link NOC:Aerospace Structural Analysis Lecture 5 - Torsion of Non-Circular Cross-Section Shaft
Link NOC:Aerospace Structural Analysis Lecture 6 - Torsion of Non-Circular Cross-Section Shaft
Link NOC:Aerospace Structural Analysis Lecture 7 - Torsion of Non-Circular Cross-Section Shaft
Link NOC:Aerospace Structural Analysis Lecture 8 - Torsion of Non-Circular Cross-Section Shaft
Link NOC:Aerospace Structural Analysis Lecture 9 - Membrane Analogy
Link NOC:Aerospace Structural Analysis Lecture 10 - Membrane Analogy
Link NOC:Aerospace Structural Analysis Lecture 11 - Torsion of Thin-Walled Cross-Section
Link NOC:Aerospace Structural Analysis Lecture 12 - Torsion of Thin-Walled Cross-Section
Link NOC:Aerospace Structural Analysis Lecture 13 - Torsion of Thin-Walled Closed Cross-Section
Link NOC:Aerospace Structural Analysis Lecture 14 - Torsion of Thin-Walled Closed Cross-Section
Link NOC:Aerospace Structural Analysis Lecture 15 - Torsion of Thin-Walled Closed Cross-Section
Link NOC:Aerospace Structural Analysis Lecture 16 - Bi-directional Bending
Link NOC:Aerospace Structural Analysis Lecture 17 - Bi-directional Bending
Link NOC:Aerospace Structural Analysis Lecture 18 - Bi-directional Bending
Link NOC:Aerospace Structural Analysis Lecture 19 - Deflection in Bi-directional Bending
Link NOC:Aerospace Structural Analysis Lecture 20 - Deflection in Bi-directional Bending
Link NOC:Aerospace Structural Analysis Lecture 21 - Shear Stresses due to Shear Forces
Link NOC:Aerospace Structural Analysis Lecture 22 - Shear Stresses due to Shear Forces
Link NOC:Aerospace Structural Analysis Lecture 23 - Shear Stresses due to Shear Forces
Link NOC:Aerospace Structural Analysis Lecture 24 - Shear Center
Link NOC:Aerospace Structural Analysis Lecture 25 - Shear Center
Link NOC:Aerospace Structural Analysis Lecture 26 - Shear Flow in Thin-walled Closed Cross-Section due to Shear Force
Link NOC:Aerospace Structural Analysis Lecture 27 - Shear Flow in Thin-walled Closed Cross-Section due to Shear Force
Link NOC:Aerospace Structural Analysis Lecture 28 - Shear Flow in Thin-walled Closed Cross-Section due to Shear Force
Link NOC:Aerospace Structural Analysis Lecture 29 - Shear Flow in Thin-walled Closed Cross-Section due to Shear Force
Link NOC:Aerospace Structural Analysis Lecture 30 - Skin-Stringer Idealization
Link NOC:Aerospace Structural Analysis Lecture 31 - Skin-Stringer Idealization
Link NOC:Aerospace Structural Analysis Lecture 32 - Skin-Stringer Idealization
Link NOC:Aerospace Structural Analysis Lecture 33 - Skin-Stringer Idealization
Link NOC:Aerospace Structural Analysis Lecture 34 - Skin-Stringer Idealization
Link NOC:Aerospace Structural Analysis Lecture 35 - Skin-Stringer Idealization
Link NOC:Aerospace Structural Analysis Lecture 36 - Buckling of Column
Link NOC:Aerospace Structural Analysis Lecture 37 - Buckling of Column
Link NOC:Aerospace Structural Analysis Lecture 38 - Buckling of Column with Initial Imperfection
Link NOC:Aerospace Structural Analysis Lecture 39 - Buckling of Column with Different Boundary Conditions
Link NOC:Aerospace Structural Analysis Lecture 40 - Buckling of Column with Different Boundary Conditions
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 1 - Introduction to supersonic and hypersonic flows
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 2 - Introduction to supersonic and hypersonic flows (Continued...)
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 3 - Characteristics of these two flow regimes
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 4 - Characteristics of these two flow regimes (Continued...)
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 5 - Where do these flows occur
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 6 - Basic Concepts and Governing Equations of Compressible Flow
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 7 - Basic Concepts and Governing Equations of Compressible Flow (Continued...)
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 8 - Basic Concepts and Governing Equations of Compressible Flow (Continued...)
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 9 - Basic Concepts and Governing Equations of Compressible Flow (Continued...)
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 10 - Basic Concepts and Governing Equations of Compressible Flow (Continued...)
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 11 - Brief introduction to waves
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 12 - Shocks and Expansion waves
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 13 - Shock and expansion wave relations in the high Mach number limit
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 14 - Revisiting Waves, Conservation Equations and Shocks
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 15 - More on shock and expansion wave relations
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 16 - Introduction to viscous compressible flow
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 17 - Introduction to viscous compressible flow - boundary layer equations
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 18 - Compressible Boundary Layer Equations (Continued...)
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 19 - Compressible Boundary Layer Equations (Continued...)
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 20 - Compressible Boundary Layer Equations - aerodynamic heating and drag
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 21 - Introduction to High Temperature Gas Dynamics
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 22 - Introduction to High Temperature Gas Dynamics (Continued...)
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 23 - Introduction to High Temperature Gas Dynamics (Continued...)
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 24 - Thermodynamics and chemistry of high temperature gases
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 25 - Equilibrium chemically reacting gas mixture
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 26 - Introduction to Statistical Thermodynamics
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 27 - Macrostates and Microstates and counting of microstates
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 28 - Most probable macrostate - Boltzmann Distribution
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 29 - Partition function and its role in finding thermodynamic properties of a single
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 30 - Equilibrium composition of high temperature air
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 31 - Introduction to Hypersonic Non Equilibrium Flows
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 32 - Basics of Kinetic Theory of Gases
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 33 - Kinetic Theory of Gases (Continued...)
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 34 - Vibrational Nonequilibrum
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 35 - Chemical Nonequilibrum
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 36 - Inviscid High Temperature Equilibrium Flow
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 37 - Inviscid High Temperature Equilibrium Flow (Continued...)
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 38 - Governing equations of Inviscid High Temperature Equilibrium Flow
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 39 - Inviscid High Temperature Equilibrium Flow-normal and oblique shock
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 40 - Inviscid High Temperature Equilibrium Flow-flow through CD nozzle
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 41 - Inviscid High Temperature Non Equilibrium Flow - Introduction
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 42 - Inviscid High Temperature Non Equilibrium Flow - Introduction (Continued...)
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 43 - Inviscid High Temperature Non Equilibrium Flow - Governing Equations
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 44 - Inviscid High Temperature Non Equilibrium Flow - frozen, equilibrium
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 45 - Inviscid High Temperature Non Equilibrium Flow - shocks, nozzle flow
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 46 - Viscous High Temperature Flows - Introduction
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 47 - Viscous High Temperature Flows - Introduction (Continued...)
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 48 - Transport properties and Governing Equations of Viscous High Temperature Flows
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 49 - Governing Equations of Viscous High Temperature Flows, Boundary layer Equations
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 50 - Introduction to radiative heat transfer, computational results on viscous
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 51 - Recapitulating the basics of high speed aerodynamics from an application perspective
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 52 - Recapitulating the basics of high speed aerodynamics from an application perspective
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 53 - Supersonic and Hypersonic Shock Interactions
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 54 - Supersonic and hypersonic shock interactions (Continued...); Hypersonic Flight
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 55 - Hypersonic Flight Trajectories (Continued...), Basics of wave rider, Recapitulation
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 56 - Reference Temperature Method; Brief discussion on boundary layer transition
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 57 - Recapitulation of the Reference Temperature Method; Governing equations
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 58 - Some numerical simulations on shock diffraction, shock wave boundary
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 59 - High speed intakes; scramjet engines; other applications of shock waves
Link NOC:Fundamentals of Supersonic and Hypersonic Flow Lecture 60 - Other applications of shock waves - astrophysical flows, a quick
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