1. Review of Results From Aerodynamics
a. Low speed aerodynamics
b. Gas Dynamics
c. Review of conservation equations

2. Compressible potential flow equation
Full Potential Equation

3. Small-disturbance form of potential equation
Linearized Potential Equation
Linearized Pressure Coefficient
Boundary Conditions
Subsonic Similarity
Airfoils in Supersonic Flow

4. Nonlinear techniques for supersonic flows
Shock-expansion technique
Busemann 2nd-order theory
Sources of  Drag
Drag Coefficient

5. Method of characteristics for supersonic flow.

6. Wings and Bodies in Compressible Flow

7. Transonic aerodynamics
Critical Mach Number
Airfoils in Transonic Flow
Supercritical airfoils
Transonic Drag Rise
Variation of Lift with M
Sweep
Supersonic and Subsonic Leading Edges
Transonic Area Rule

8. Review of boundary layer theory

9. Methods for predicting laminar boundary layer effects

10. Effects of compressibility in boundary layers

11. Transition to turbulence; physics of turbulence

12. Reynolds averaging and models for turbulent stresses

13. Methods for computing turbulent boundary layers.