Lecture 1 - Introduction to supersonic and hypersonic flows
Lecture 2 - Introduction to supersonic and hypersonic flows (Continued...)
Lecture 3 - Characteristics of these two flow regimes
Lecture 4 - Characteristics of these two flow regimes (Continued...)
Lecture 5 - Where do these flows occur
Lecture 6 - Basic Concepts and Governing Equations of Compressible Flow
Lecture 7 - Basic Concepts and Governing Equations of Compressible Flow (Continued...)
Lecture 8 - Basic Concepts and Governing Equations of Compressible Flow (Continued...)
Lecture 9 - Basic Concepts and Governing Equations of Compressible Flow (Continued...)
Lecture 10 - Basic Concepts and Governing Equations of Compressible Flow (Continued...)
Lecture 11 - Brief introduction to waves
Lecture 12 - Shocks and Expansion waves
Lecture 13 - Shock and expansion wave relations in the high Mach number limit
Lecture 14 - Revisiting Waves, Conservation Equations and Shocks
Lecture 15 - More on shock and expansion wave relations
Lecture 16 - Introduction to viscous compressible flow
Lecture 17 - Introduction to viscous compressible flow - boundary layer equations
Lecture 18 - Compressible Boundary Layer Equations (Continued...)
Lecture 19 - Compressible Boundary Layer Equations (Continued...)
Lecture 20 - Compressible Boundary Layer Equations - aerodynamic heating and drag
Lecture 21 - Introduction to High Temperature Gas Dynamics
Lecture 22 - Introduction to High Temperature Gas Dynamics (Continued...)
Lecture 23 - Introduction to High Temperature Gas Dynamics (Continued...)
Lecture 24 - Thermodynamics and chemistry of high temperature gases
Lecture 25 - Equilibrium chemically reacting gas mixture
Lecture 26 - Introduction to Statistical Thermodynamics
Lecture 27 - Macrostates and Microstates and counting of microstates
Lecture 28 - Most probable macrostate - Boltzmann Distribution
Lecture 29 - Partition function and its role in finding thermodynamic properties of a single
Lecture 30 - Equilibrium composition of high temperature air
Lecture 31 - Introduction to Hypersonic Non Equilibrium Flows
Lecture 32 - Basics of Kinetic Theory of Gases
Lecture 33 - Kinetic Theory of Gases (Continued...)
Lecture 34 - Vibrational Nonequilibrum
Lecture 35 - Chemical Nonequilibrum
Lecture 36 - Inviscid High Temperature Equilibrium Flow
Lecture 37 - Inviscid High Temperature Equilibrium Flow (Continued...)
Lecture 38 - Governing equations of Inviscid High Temperature Equilibrium Flow
Lecture 39 - Inviscid High Temperature Equilibrium Flow-normal and oblique shock
Lecture 40 - Inviscid High Temperature Equilibrium Flow-flow through CD nozzle
Lecture 41 - Inviscid High Temperature Non Equilibrium Flow - Introduction
Lecture 42 - Inviscid High Temperature Non Equilibrium Flow - Introduction (Continued...)
Lecture 43 - Inviscid High Temperature Non Equilibrium Flow - Governing Equations
Lecture 44 - Inviscid High Temperature Non Equilibrium Flow - frozen, equilibrium
Lecture 45 - Inviscid High Temperature Non Equilibrium Flow - shocks, nozzle flow
Lecture 46 - Viscous High Temperature Flows - Introduction
Lecture 47 - Viscous High Temperature Flows - Introduction (Continued...)
Lecture 48 - Transport properties and Governing Equations of Viscous High Temperature Flows
Lecture 49 - Governing Equations of Viscous High Temperature Flows, Boundary layer Equations
Lecture 50 - Introduction to radiative heat transfer, computational results on viscous
Lecture 51 - Recapitulating the basics of high speed aerodynamics from an application perspective
Lecture 52 - Recapitulating the basics of high speed aerodynamics from an application perspective
Lecture 53 - Supersonic and Hypersonic Shock Interactions
Lecture 54 - Supersonic and hypersonic shock interactions (Continued...); Hypersonic Flight
Lecture 55 - Hypersonic Flight Trajectories (Continued...), Basics of wave rider, Recapitulation
Lecture 56 - Reference Temperature Method; Brief discussion on boundary layer transition
Lecture 57 - Recapitulation of the Reference Temperature Method; Governing equations
Lecture 58 - Some numerical simulations on shock diffraction, shock wave boundary
Lecture 59 - High speed intakes; scramjet engines; other applications of shock waves
Lecture 60 - Other applications of shock waves - astrophysical flows, a quick
