NOC:Fundamentals of Gas Dynamics


Lecture 1 - Introduction


Lecture 2 - Basics of Thermodynamics


Lecture 3 - Tutorial 1


Lecture 4 - Control Volume Approach


Lecture 5 - Conservation Equations


Lecture 6 - Tutorial 2


Lecture 7 - Energy Equation


Lecture 8 - Concept of stagnation


Lecture 9 - Discussion on stagnation


Lecture 10 - Velocity of sound


Lecture 11 - Discussion on velocity of sound and mach number


Lecture 12 - Wave propagation


Lecture 13 - Mach wave


Lecture 14 - Mach number relations


Lecture 15 - Variable Area Adiabatic flow


Lecture 16 - Variable Area Adiabatic flow (Continued...)


Lecture 17 - * reference quantities and their relations


Lecture 18 - Importance of stagnation temperature in relation to v


Lecture 19 - Discussion on variable area adiabaic flow and * reference quantities


Lecture 20 - Gas tables


Lecture 21 - Converging nozzle


Lecture 22 - Condition of choked flow and associated properties


Lecture 23 - Area ratio and pressure ratio in converging nozzles


Lecture 24 - Discussion on converging nozzles


Lecture 25 - Converging - Diverging (C-D) nozzles


Lecture 26 - More on C-D nozzles


Lecture 27 - Discussion on C-D nozzles - 1


Lecture 28 - Discussion on C-D nozzles - 2


Lecture 29 - Examples and applications of flow through C-D nozzles


Lecture 30 - Introduction to normal shocks


Lecture 31 - Normal shock relations - 1


Lecture 32 - Normal shock relations - 2


Lecture 33 - Rankine-Hugoniot equation


Lecture 34 - Discussion on Normal Shocks - 1


Lecture 35 - Discussion on Normal Shocks - 2


Lecture 36 - Normal shocks in C-D nozzles


Lecture 37 - Normal shocks in C-D nozzles (Continued...)


Lecture 38 - Moving Normal Shocks


Lecture 39 - Discussion on moving normal shocks


Lecture 40 - Oblique shocks


Lecture 41 - Oblique shock relations


Lecture 42 - Discussion on oblique shocks


Lecture 43 - Reflection of oblique shocks


Lecture 44 - Discussion on reflection of oblique shocks


Lecture 45 - Prandtl-Meyer flow


Lecture 46 - Prandtl-Meyer flow (Continued...)


Lecture 47 - Discussion on Prandtl-Meyer expansion


Lecture 48 - Shock Polar diagram and Prandtl-Meyer relation for Oblique shocks