Content

Module 1: Basic Concepts  

Lecture 1: Introduction
Lecture 2: Governing Equations- Mass conservation Equation
Lecture 3: GoverningEquations- Momentum conservation Equation
Lecture 4: Governing Equations- Energy conservation Equation

Module 2: One Dimensional Compressible flow  

Lecture 5: Speed of Sound and Mach number
Lecture 6: Normal Shock
Lecture 7: Normal Shock 
Lecture 8:Hugoniot equation
Lecture 9: Hugoniot Curve
Lecture 10: Normal Shock analysis using Hugoniot Curve
Lecture 11: Flow With Heat Addition: Rayleigh flow
Lecture 12: Flow With Heat Addition: Rayleigh Curve
Lecture 13: Flow With Heat Addition: Rayleigh Curve
Lecture 14: Rayleigh Flow Equations (Differential Form)
Lecture 15: 1D flow with Friction: Fanno flow
Lecture 16: Differential Relation for Fanno flow
Lecture 17: Analysis of Fanno flow and Fanno Curve

Module 3:Two-Dimensional Flows  

Lecture 18: Oblique Shock
Lecture 19: Oblique Shock
Lecture 20: Oblique shock: ShockPlolar
Lecture 21:P- diagram
Lecture 22:Shock-Shock Interaction: Different Family Shocks
Lecture 23: Shock-Shock Interaction: Same Family Shocks
Lecture 24:Shock Reflection
Lecture 25:Supersonic Expansion

Module 4: Quasi-One Dimensional Flows  

Lecture 26:Basics of Quasi-One Dimensional Flows
Lecture 27:Flow through Nozzle

Module 5: Linearised Flows  

Lecture 28:Velocity Potential Equation
Lecture 29:Small Perturbation Theory
Lecture 30:Supersonic flow over a cone
Lecture 31:Supersonic flow over a cone
Lecture 32: Introduction to Method of Characteristics.
Lecture 33: Equation of Method of Characteristics.
Lecture 34 Application of Method of Characteristics

Module 6: Unsteady Wave Motion  

Lecture 35: Fundamentals of Shock Tube
Lecture 36: Shock Tube Relations

Module 7: Introduction to Experimental Facilities  

Lecture 37: High Speed Testing Facilities
Lecture 38: High Speed Testing Facilities
Lecture 39: Compressible flow visualization
Lecture 40: Diagnostics and measurement techniques