Preface to the Dover Edition |
Preface to Volume I |
Preface to the First Edition |
Erratum |
General Considerations / I.: |
Introductory remarks / 1.1: |
General features of hypersonic flow fields / 1.2: |
Assumptions underlying inviscid hypersonic theory / 1.3: |
The normal shock wave / 1.4: |
Oblique and curved shocks / 1.5: |
Mach number independence principle / 1.6: |
General strip theory / 1.7: |
Dissipative effects / 1.8: |
Small-Disturbance Theory / II.: |
Introduction and basic equations / 2.1: |
Hypersonic similitude / 2.2: |
Unified supersonic-hypersonic similitude / 2.3: |
Slender-body strip theory / 2.4: |
Examples of small-disturbance solutions / 2.5: |
Similar power-law solutions / 2.6: |
Application of similar solutions to steady flows / 2.7: |
Slightly blunted slender bodies / 2.8: |
Large incidence and correlation of similitudes / 2.9: |
Unsteady flow theory / 2.10: |
Nonequilibrium effects / 2.11: |
Newtonian Theory / III.: |
The gasdynamics of Sir Isaac Newton / 3.1: |
Two-dimensional and axisymmetric bodies / 3.2: |
Simple shapes and free layers / 3.3: |
Optimum shapes / 3.4: |
Shock layer structure and cross flow phenomena / 3.5: |
Shock layer structure with cross flow / 3.6: |
Conical flow / 3.7: |
Bodies of revolution at small incidence / 3.8: |
Unsteady flow / 3.9: |
Constant-Density Solutions / IV.: |
The wedge / 4.1: |
The cone / 4.2: |
Circular cylinder / 4.3: |
The sphere / 4.4: |
Solutions with cross flow / 4.5: |
The Theory of Thin Shock Layers / V.: |
Basic concepts / 5.1: |
Successive approximation schemes / 5.2: |
Constant-streamtube-area approximation / 5.3: |
Two-dimensional and axisymmetric blunt-faced bodies / 5.4: |
Quasi wedges and quasi cones / 5.5: |
Conical bodies / 5.6: |
General blunt-faced bodies and related similitudes / 5.7: |
Integral methods / 5.8: |
Newtonian separation / 5.9: |
Nonequilibrium flows / 5.10: |
Numerical Methods for Blunt-Body Flows / VI.: |
Nature of the problem / 6.1: |
Streamtube-continuity methods / 6.2: |
Method of integral relations and polynomial approximation / 6.3: |
Relaxation techniques and the unsteady approach method / 6.4: |
The inverse problem / 6.5: |
Procedures with nonequilibrium / 6.6: |
Other Methods for Locally Supersonic Flows / VII.: |
Method of characteristics / 7.1: |
Shock-expansion theory / 7.2: |
Tangent-wedge and tangent-cone / 7.3: |
Conical flows / 7.4: |
Cited References / 7.5: |
Symbol Index |
Author Index |
Subject Index |
Preface to the Dover Edition |
Preface to Volume I |
Preface to the First Edition |