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Technical Note — Aerodynamics at the speed of sound

Published online by Cambridge University Press:  04 July 2016

R. M. Denning
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Extract

This is a summary of work detailed in a more comprehensive paper which contains a major re-examination of, and challenge to, the assumptions of aerodynamics theory as applied to infinite flow fields at the speed of sound and their consequent relevance to the reality of free flight.

In steady-state flow fields generally, fore-bodies are embedded in the flow by a process based on the contraction of the streamline cross-sections. In subsonic flow this is achieved by velocity increase whereas in supersonic flow it is by velocity decrease. A primary reason for the challenge to accepted theory lies in the fact that, in a steady-state sonic field streamlines can only increase from their undisturbed area (Fig. 1) and this leads to fundamental difficulties in the construction of the forward flow field which in turn lead to the various theoretical anomalies.

Type
Research Article
Information
The Aeronautical Journal , Volume 95 , Issue 944 , April 1991 , pp. 132 - 137
Copyright
Copyright © Royal Aeronautical Society 1991 

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References

1. Guderley, K. G. The Theory of Transonic Flow, Pergamon Press 1962.Google Scholar
2. Liepmann, H. K., Roshko, A. Elements of Gas Dynamics. Wiley.Google Scholar
3. Shapiro, A. H. The Dynamics and Thermodynamics of Compressible Fluid Flow. The Ronald Press, New York, 1953.Google Scholar
4. Miles, J. W. The Potential Theory of Unsteady Supersonic Flow, Cambridge University Press, 1959.Google Scholar
5. Jnr.Bailey, F. J., Mathews, C. W., Thompson, J. R. Drag Measurements at Transonic Speeds on a Freely Falling Body, NACA ACR No. L5E03, June 1945.Google Scholar
6. Mathews, C. W., Thompson, J. R. Comparative Drag Measurements at Transonic Speeds of Rectangular and Swept-Back NACA 65-009 Airfoils Mounted on a Freely Falling Body. NACA ACR No. L5G30, August 1945.Google Scholar