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Aerodynamics Lecture Slides
This note explains the following topics: Compressible flow, Zeroth law of thermodynamics, First law of thermodynamics, Second law of thermodynamics, Adiabatic, reversible process, The free energy and free enthalpy, Entropy and real gas flows, Conservation of mass, Eulers equation, Momentum equation, Isentropic condition, Bernoulli equation, Shock relations for perfect gas, Nozzle flow, Normal shock recovery, Waves in supersonic flow, Oblique shocks, Supersonic compression by turning, Detached shocks, Shock-expansion theory, Reflection and intersection of oblique shocks, Cones in supersonic flow, Derivation of perturbation equation, Irrotational flow.
Author(s): N. Venkata Raghavendra and Farheen Sana
106 Pages 
This note covers the following topics: Governing equations, Conservation axioms, Thermodynamics review, One-dimensional compressible flow, Steady supersonic two-dimensional flow , Linear flow analysis, Viscous flow and Acoustics.
Author(s): Joseph M. Powers
166 Pages
This note explains the following topics: Compressible flow, Zeroth law of thermodynamics, First law of thermodynamics, Second law of thermodynamics, Adiabatic, reversible process, The free energy and free enthalpy, Entropy and real gas flows, Conservation of mass, Eulers equation, Momentum equation, Isentropic condition, Bernoulli equation, Shock relations for perfect gas, Nozzle flow, Normal shock recovery, Waves in supersonic flow, Oblique shocks, Supersonic compression by turning, Detached shocks, Shock-expansion theory, Reflection and intersection of oblique shocks, Cones in supersonic flow, Derivation of perturbation equation, Irrotational flow.
Author(s): N. Venkata Raghavendra and Farheen Sana
106 PagesAdvertisement
