C.1: Compressible flow-some history and introductory thoughts. p. 1. C.2: Integral forms of the conservation equations for inviscid flows. p. 32. C.3: One-dimensional flow. p. 45. C.4: Oblique shock and expansion waves. p. 100. C.5 Quasi-one-dimensional flow. p. 147. C.6: Differential conservation equations for inviscid flows. p. 186. C./: Unsteady wave motion. p. 206. C.8: General conservation equations revisited: velocity potential equation. p. 242. C.9: Linearized flow. p. 251. C.10: Conical Flow. p. 294. C.11: Numerical techiques for steady supersonic flow. p. 307. C.12: The time-marching technique: with application to supersonic blunt bodies and nozzles. p. 360. C.13: Three-dimensional flow. p. 389. C.14: Transonic flow. p. 424. C.15: Hypersonic flow. p. 472. C.16: Propertiers of high-temperature gases. p. 510. C.17: High-temperature flows: basic examples. p. 572. Appendix. p. 618. A.1: sentropic flow properties. p. 618. A.2: Normal shock properties. p. 623. A.3.: One-dimensional flow with heat addition. p. 627. A.4: One-dimensional flow with friction. p. 632. A.5: Prandtl-meyer function and mach angle. p. 637. Refrences. p. 639. Index. p. 645.
