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Summary of the Discussion

Published online by Cambridge University Press:  04 July 2016

A. J. Ward Smith
A. J. Ward Smith*
Affiliation:
Technical Department, Royal Aeronautical Society
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Abstract

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Type
Discussion
Information
The Aeronautical Journal , Volume 68 , Issue 643 , July 1964 , pp. 488 - 492
Copyright
Copyright © Royal Aeronautical Society 1964

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References

1. Bragg, S. L. and Smith, S. F. The Speed of Sound and Mach Number Effects. Journal of the Royal Aeronautical Society, Vol. 67, No. 634, p. 669, October 1963.CrossRefGoogle Scholar
2. Liepmann, H. and Roshko, A. Elements of Gasdynamics. Chapman and Hall, London, 1957.CrossRefGoogle Scholar
3. rayleigh., Lord Theory of Sound, Vol. II. Dover Publications, New York, 1945.Google Scholar
4. Naylor, V. D. The Speed of Sound and Mach Number Effects. Journal of the Royal Aeronautical Society, Vol. 68, No. 637, p. 63, January 1964.Google Scholar
5. Truesdell, C. On the Velocity of Sound in Fluids. Journal of the Aeronautical Sciences, Vol. 18, p. 501, July 1951.CrossRefGoogle Scholar
6. Rogers, G. F. C. and Meyerowitz, Y. R. Aircraft Engineering, Vol. 23, p. 378, December 1951.Google Scholar
7. Shapiro, A. H. The Dynamics and Thermodynamics of Compressible Fluid Flow, Vol. 1. Ronald Press, New York, 1953.Google Scholar
8. Keenan, J. H. and Neumann, E. P. Friction in Pipes at Supersonic and Subsonic Velocities. NACA TN 963, 1944.Google Scholar
9. Mills, B. and Cole, B. N. Compressible Gas-Flow in Commercial Pipes. Proceedings of the Institution of Mechanical Engineers, Vol. 171, No. 19, 1957.CrossRefGoogle Scholar
10. Patterson, J. and Durrands, K. J. Dimensionless Kinetic Energy: A New Parameter for Gas Flow in Ducts with Application to Nuclear-Power Reactors. Journal of Mechanical Engineering Science, Vol. 3, No. 3, p. 267, 1961.CrossRefGoogle Scholar
11. Ward smith, A. J. Communication on Reference 10. Journal of Mechanical Engineering Science, Vol. 4, No. 2, p. 193, 1962.Google Scholar
12. Stratford, B. S. The Speed of Sound and Mach Number Effects. Journal of the Royal Aeronautical Society, Vol. 67, No. 636, p. 797, December 1963.Google Scholar
13. Bragg, S. L. and Smith, S. F. Reply to Communications from Stratford, B. S. and Naylor, V. D. Journal of the Royal Aeronautical Society, Vol. 68, No. 637, p. 63, January 1964.Google Scholar
14. Filleul, N. le S. The Speed of Sound and Mach Number Effects. Journal of the Royal Aeronautical Society, Vol. 68, No. 642, p. 487, July 1964.CrossRefGoogle Scholar
15. Kesttn, J. and Owczarek, J. A. Critical Flow Through Convergent-Divergent Nozzles. Aircraft Engineering, Vol. 23, p. 306, October 1951.Google Scholar
16. Howell, A. R. Anomalies Associated with the Polytropic Expansion of Air Through a Convergent Nozzle. 1964.Google Scholar
17. Watson, W. G. The Speed of Sound and Mach Number Effects. Journal of the Royal Aeronautical Society, Vol. 68, No. 642, p. 485, July 1964.Google Scholar