Introduction to Thermoacoustic

Introduction to Acoustics Conservation Equations

Wave Equation and its Solution in Time Domain

Harmonic Waves & Acoustic Energy Corollory

Standing Waves Part-1

Standing Waves Part-2

Power Flow and Acoustic Admittance

Impedance Tube Technique

Admittance and Standing Waves

Admittance, Stability and Attenuation

Sound Propagation Through Inhomogeneous Media – 1

Sound Propagation Through Inhomogeneous Media – 2

Sound Propagation Through Inhomogeneous Media – 3

Multidimensional Acoustic Fields – 1

Multidimensional Acoustic Fields – 2

Interaction between Sound and Combustion

Reference Books Derivation of Rayleigh Criteria

Effect of Heat release on the Acoustic Field

Modal Analysis of Thermoacoustic Instability – 1

Modal Analysis of Thermoacoustic Instability – 2

Active Control of Thermoacoustic Instability

Toy model for a Rijke tube in Time Domain

Galerkin Technique for Thermoacoustics

Evolution Equation for Thermoacoustics

Non linear analysis of Thermoacoustic Instability

Non-normality, Transient Growth and Triggering Instability – 1

Non-normality, Transient Growth and Triggering Instability – 2

Non-normality, Transient Growth and Triggering Instability – 3

Bifurcations

Premixed Flame Acoustic Interaction – 1

Premixed Flame Acoustic Interaction – 2

Combustion instability due to Equivalence Ratio Fluctuation

Role of Hydrodynamic Instabilities – 1

Role of Hydrodynamic Instabilities – 2

Role of Hydrodynamic Instabilities – 3

Active Control of Thermoacoustic Instability

Solid Propellant Combustion Instability – 1

Solid Propellant Combustion Instability – 2

Response of a Diffusion Flame to Acoustic Oscillations -1

Response of a Diffusion Flame to Acoustic Oscillations -2

Response of a Diffusion Flame to Acoustic Oscillations -3

Introduction and Motivation for Advanced Control Design

Classical Control Overview – I

Classical Control Overview – II

Classical Control Overview – III

Classical Control Overview – IV

Basic Principles of Atmospheric Flight Mechanics

Overview of Flight Dynamics – I

Overview of Flight Dynamics – II

Representation of Dynamical Systems – I

Representation of Dynamical Systems – II

Representation of Dynamical Systems – III

Review of Matrix Theory – I

Review of Matrix Theory – II

Review of Matrix Theory – III

Review of Numerical Methods

Linearization of Nonlinear Systems

First and Second Order Linear Differential Equations

Time Response of Linear Dynamical Systems

Stability of Linear Time Invariant Systems

Controllability and Observability of linear Time Invariant Systems

Pole Placement Control Design

Pole Placement Observer Design

Static Optimization: An Overview

Calculus of Variations: An Overview

Optimal Control Formulation using Calculus of Variations

Classical Numerical Methods for Optimal Control

Linear Quadratic Regulator (LQR) Design – 1

Linear Quadratic Regulator (LQR) Design – 2

Linear Control Design Techniques in Aircraft Control – I

Linear Control Design Techniques in Aircraft Control – I

Lyapunov Theory – I

Lyapunov Theory -II

Constructions of Lyapunov Functions

Dynamic Inversion – I

Dynamic Inversion – II

Neuro-Adaptive Design -I

Neuro-Adaptive Design — II

Neuro-Adaptive Design for Flight Control

Integrator Back-Stepping & Linear Quadratic (lQ) Observer

An Overview of Kalman Filter Theory

Lecture – 1

Lecture – 2

Lecture – 3

Lecture – 4

Lecture – 5

Lecture – 6

Lecture – 7

Lecture – 8

Lecture – 9

Lecture – 10

Lecture – 11

Lecture – 12

Lecture – 13

Lecture – 14

Lecture – 15

Lecture – 16

Lecture – 17

Lecture – 18

Lecture – 19

Lecture – 20

Lecture – 21

Lecture – 22

Lecture – 23

Lecture – 24

Lecture – 25

Lecture – 26

Lecture – 27

Lecture – 28

Lecture – 29

Lecture – 30

Lecture 1

Lecture 2

Lecture 3

Lecture 4

Lecture 5

Lecture 6

Lecture 7

Lecture 8

Lecture 9

Lecture 10

Lecture 11

Lecture 12

Lecture 13

Lecture 14

Lecture 15

Lecture 16

Lecture 17

Lecture 18

Lecture 19

Lecture 20

Lecture 21

Lecture 22

Lecture 23

Lecture 24

Lecture 25

Lecture 26

Introduction

Air breathing Engines Turbojet I

Air breathing Engines Turbojet II

Air breathing Engines Turboprop & Turbofan

Air breathing Engines Ramjet & Scramjet

Non-air breathing Engines I

Non-air breathing Engines II

General Performance Parameters I

General Performance Parameters II

Cycle Analysis Ramjet

Cycle Analysis Turbojet I

Cycle Analysis Turbojet II

Cycle Analysis Turbojet III

Cycle Analysis Turbojet IV

Cycle Analysis Turbojet V

Cycle Analysis Turbojet VI

Cycle Analysis Turbofan

Rocket Nozzles 1D Analysis I

Rocket Nozzles 1D Analysis II

Rocket Nozzles 1D Analysis III

Rocket Nozzles Real Effects I

Rocket Nozzles Real Effects II

Rocket Nozzles Thrust Vectoring

Solid Rockets Propellants

Solid Rockets Burn rate

Solid Rockets Performance

Solid Rockets Grain

Solid Rockets Ignition, Quenching

Solid Rockets Igniter, Depressurization

Propellant Combustion Combustion Modelling

Liquid Rocket Propellants

Liquid Rocket Nozzle Cooling I

Liquid Rocket Nozzle Cooling II

Liquid Rocket Nozzle Cooling III

Liquid Rocket Pressure fed system

Liquid Rocket Pump fed system

Liquid Rocket Pumps

Liquid Rocket Fuel Injection

Hybrid Rocket Basics

Hybrid Rocket Performance

Hybrid Rocket Combustion

Chemical Equilibrium Analyser SP 273

Lecture 1: Semiconductor materials

Lecture 2: PN Junction Diodes

Lecture 3: Diode Equivalent Circuits

Lecture 4: Diode Rectifier Circuits

Lecture 5: Zener Diode and Applications

Lecture 6: Clipping and Clamping Circuits

Lecture 7: Transistor Operation – Part – 1

Lecture 8: Transistor Operation Part – 2

Lecture 9: Biasing the BJT – Part – 1

Lecture 10: Biasing the BJT – Part – 2

Lecture 11: BJT Small Signal Analysis

Lecture 12: BJT Amplifier – Part – 1

Lecture 13: BJT Amplifier Part – 2

Lecture 14: Frequency Response of BJT Analysis – Part – 1

Lecture 15: Frequency Response of BJT Analysis Part – 2

Lecture 16: Transistor as a Switch

Lecture 17: Metal Oxide Semiconductor Field Transistors- 1

Lecture 18: Metal Oxide Semiconductor Field Transistors- 2

Lecture 19: MOSFET under dc operation

Lecture 20: MOSFET as an Amplifier

Lecture 21: Small signal model of MOSFET – I

Lecture 22: Small signal model of MOSFET – II

Lecture 23: High Frequency model of MOSFET

Lecture 24: Junction Field Effect Transistor

Lecture 25: Operational Amplifier (Op-Amp)

Lecture 26: Ideal Op-Amp

Lecture 27: Op-Amp applications – I

Lecture 28: Op-Amp applications

Lecture 29: Op-Amp applications – III

Lecture 30: The practical Op-Amp

Lecture 31: Positive feedback and oscillation

Lecture 32: Comparator

Lecture 33: Large Signal Amplifiers

Lecture 34: Transformer Coupled Power Amplifier

Lecture 35: Class AB Operations of PowerAmplifier

Lecture 36: Power BJTs

Lecture 37: Regulated Power Supply

Lecture 38: Four Layered Diode

Lecture 39: Silicon Control Rectifier

Lecture 40: SCR Applications

Lec-1 Introduction and Fundamental Concepts

Lec-2 Zeroth Law and Fundamental Concepts

Lec- 3 Different Kind of Energy & First Law-I

Lec-4 First Law-II

Lec-5 First Law-III

Lec-6 Second Law & Its Corollaries-I

Lec-7 Second Law & Its Corollaries-II

Lec-8 Second Law & Its Corollaries-III

Lec-9 Second Law & Its Corollaries-IV

Lec-10 Second Law & Available Energy-I

Lec-11 Second Law & Available Energy-II

Lec-12 Second Law & Available Energy-III

Lec-13 Thermodynamic Property Relations-I

Lec-14 Thermodynamic Property Relations-II

Lec-15 Joule-Kelvin Expansion:Properties of Pure Substances

Lec-16 Properties of Pure Substances-I

Lec-17 Properties of Pure Substances-II

Lec-18 Properties of Pure Substances: Ideal Gases

Lec-19 Properties of Ideal Gases

Lec-20 Vapors Power Cycle-I

Lec-21 Vapor Power Cycle-II

Lec-22 Vapor Power Cycle-III

Lec-23 Vapor Power Cycle-IV

Lec-24 Gas Power Cycle-I

Lec-25 Gas Power Cycle-II

Lec-26 Gas Power Cycle-III

Lec-27 Thermodynamics of Reacting System-I

Lec-28 Thermodynamics of Reacting System-II

Lec-29 Thermodynamics of Reacting System-III

Lec-30 Thermodynamics of Multi Component System-I

Lec-31 Thermodynamics of Multi Component System-II

Lec-32 Thermodynamics of Multi Component System-III

Thermodynamics-Lecture 1 : Introduction

Thermodynamics-Lecture 2 : Chemical Reactions, Heats of Reaction and Formation

Thermodynamics-Lecture 3 : Sensible Enthalpy and Adiabatic Flame Temperature

Thermodynamics-Lecture 4 : Dissociation of Products, Role of Pressure

Thermodynamics-Lecture 5 : Numerical Calculation of Adiabatic Flame Temperature, Chemical Kinetics 1

Chemical Kinetics-Lecture 6 : Chemical Kinetics 2

Chemical Kinetics-Lecture 7 : Equilibrium Reactions, Global Kinetics, Order of Reaction

Chemical Kinetics-Lecture 8 : Reduced Chemistry, Steady State Approximation

Chemical Kinetics-Lecture 9 : Steady State Approximation, Partial Equilibrium Approximation

Chemical Kinetics-Lecture 10: Partial Equilibrium Approximation, Chemical Explosions

Chemical Kinetics-Lecture 11: Combining Chemical and Thermal Processes 1

Chemical Kinetics-Lecture 12: Combining Chemical and Thermal Processes 2

Chemical Kinetics-Lecture 13: Combining Chemical and Thermal Processes 3

Chemical Kinetics-Lecture 14: Combining Chemical and Thermal Processes 4

Mass Transfer Definitions-Lecture 15: Mass and Molar Diffusion, Fick’s Law

Conservation Equations-Lecture 16: Conservation Equations for Multi-Component Mixtures

Conservation Equations-Lecture 17: Multi-Component Diffusion Equation

Conservation Equations-Lecture 18: Multi-Component Momentum Equation

Conservation Equations-Lecture 19: Energy Equation

Conservation Equations-Lecture 20: One Dimensional Steady Flow

Schvab-Zeldovich Formulation-Lecture 21: Schvab-Zeldovich Formulation 1

Schvab-Zeldovich Formulation-Lecture 22: Schvab-Zeldovich Formulation 2

Schvab-Zeldovich Formulation-Lecture 23: Rankine-Hugoniot Relations 1

Rankine-Hugoniot Relations-Lecture 24: Rankine-Hugoniot Relations 2

Rankine-Hugoniot Relations-Lecture 25: Rankine-Hugoniot Relations 3

Rankine-Hugoniot Relations-Lecture 26: Velocity, Temperature and Entropy Variation along Hugoniot Curve

Laminar Premixed Flames-Lecture 27: Laminar Premixed Flames

Laminar Premixed Flames-Lecture 28: Laminar Premixed Flames – Corrections

Laminar Premixed Flames-Lecture 29: Laminar Premixed Flames – Rigorous Analysis 1

Laminar Premixed Flames-Lecture 30: Laminar Premixed Flames – Rigorous Analysis 2

Laminar Premixed Flames-Lecture 31: Flame Speed Dependencies, G-Equation

Laminar Premixed Flames-Lecture 32: Bunsen Burner 1

Laminar Premixed Flames-Lecture 33: Bunsen Burner 2

Laminar Premixed Flames-Lecture 34: Flame Stabilisation 1

Laminar Premixed Flames-Lecture 35: Flame Stabilisation 2

Laminar Premixed Flames-Lecture 36: Ignition

Lecture – 1 Introduction to computer graphics

Lecture 2: CRT Display Devices

Lecture 3: CRT display devices (Contd…)

Lecture 4: CRT display devices (Contd…)

Lecture 5: CRT display devices (Contd…)

Lecture 6: Transformations in 2D

Lecture 7: Transformations in 2D (Contd…)

Lecture 8: Three Dimensional Graphics

Lecture 9: Three Dimensional Graphics (Contd…)

Lecture 10: Three Dimensional Graphics (Contd…)

Lecture 11: Project Transformations and Viewing Pipeline

Lecture 12: 3D Viewing – Projection Transformations And Viewing Pipeline

Lecture 13: Scan Converting Lines, Circles and Ellipses I

Lecture 14: Scan Converting Lines, Circles and Ellipses II

Lecture 15: Scan Converting Lines, Circles and Ellipses III

Lecture 16: Scan Converting Lines, Circles and Ellipses IV

Lecture 17: Scan Converting Lines, Circles and Ellipses V

Lecture 18: PolyFill Scan Conversion of a Polygon

Lecture 19: Scan Conversion Of A Polygon (Contd)

Lecture 20: Clipping Lines And Polygons

Lecture 21: Clipping: Lines and Polygon

Lecture 22: Clipping Lines

Lecture 23: Solid Modelling

Lecture 24: Solid Modelling (Contd…)

Lecture 25: Solid Modelling (Contd…)

Lecture 26: Visible Surface Detection

Lecture 27: Visible Surface Detection (Contd…)

Lecture 28: Visible Surface Detection (Contd…)

Lecture 29: Visible Surface Detection (Contd…)

Lecture 30: Visible Surface Detection (Contd…)

Lecture 31: Visible Surface Detection (Contd…)

Lecture 32: Visible Surface Detection (Contd…)

Lecture 33: Illumination and Shading

Lecture 34: Illumination and Shading (Contd….)

Lecture 35: Illumination and Shading (Contd….)

Lecture 36: Curve Representation

Lecture 37: Curve Representation (Contd…)

Lecture 38: Curves and Surface Representation

Lecture 39: Graphics Programming

Lecture 40: Graphics Programming Using OpenGL

Lecture 41: Anti Aliasing,Color,Soft Objects, Animation, Visual Effects,System Architectures

Lecture 42: Digital Image Processing

Lecture 43: Digital Image Processing (Contd…)

Conceptual Designs Part 1

Conceptual Designs Part 2

Relational Model Part 1

Relational Model Part 2

Structured Query Language Part 1

Structured Query Language Part 2

ER Model to Relational Mapping

Functional Dependencies & Normal Form

ER Model to Relational Model Maping

Storage Structures

Indexing Techniques Single Level

Indexing Techniques Multi-Level

Constraints & Triggers

Query Processing & Optimization Part 1

Query Processing & Optimization Part 2

Query Processing & Optimization Part 3

Transaction Processing Concepts

Transaction Processing & Database Manager

Foundation for Concurrency Control

Concurrency Control Part 1

Concurrency Control Part 2

Concurrency Control Part 3

Concurrency Control Part 4

Distributed Transaction Models

Basic 2-Phase & 3-Phase Commit Protocol

Concurrency Control for Distributed Transaction

Introduction to Transaction Recovery

Recovery Mechanisms Part 1

Recovery Mechanisms Part 2

Introduction to Data Warehousing & OLAP Part 1

Introduction to Data Warehousing & OLAP Part 2

Case Study : MYSQL

Case Study : ORACLE & Microsoft Access

Data Mining & Knowledge Discovery Part 1

Data Mining & Knowledge Discovery Part 2

Object Oriented Databases Part 1

Object Oriented Databases Part 2

XML – Introductory Concepts

XML Advanced Concepts

XML Databases

Case Study – Database Design Part 1

Case Study – Database Design Part 2