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A Survey of Yacht Research at Southampton University

Published online by Cambridge University Press:  04 July 2016

T. Tanner
T. Tanner*
Affiliation:
Department of Aeronautics and Astronautics, University of Southampton
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Extract

For many years certain similarities between the mechanics of the sailing yacht and of the slow speed aeroplane have been recognised and the wealth of knowledge in the science of “Aerodynamics” has undoubtedly led, by the slow process of evolution, to increased ability of the yacht in skilful hands to beat to windward. Interesting comparisons in this respect have been made by Davidson. But there are essential differences between the yacht and the fixed-wing aircraft, apart from the more obvious ones, which are so profound that a study of yacht dynamics would appear to be worthy of more attention than it has yet been given.

Type
Research Article
Information
The Aeronautical Journal , Volume 66 , Issue 622 , October 1962 , pp. 642 - 648
Copyright
Copyright © Royal Aeronautical Society 1962

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References

1.Davidson, K. S. M. (1956). Surveys in Mechanics.Ed. by Batchelor, and Davies, , Cambridge, 1956.Google Scholar
2.Tanner, T. (1960). The Geometry of Sailing to Windward. Trans. R.I.N.A., 1960.Google Scholar
3.Performance Trials of Yeoman IV. Y.R.C. Report No. 1. 1956.Google Scholar
4.Davidson, K. S. M. (1936). Some Experimental Studies of the Sailing Yacht. S.N.A.M.E., 1936.Google Scholar
5.Nutku, Ata (1960). Model Tests with Sailboat Hulls. Turkish Shipbuilding Research Inst., 1960.Google Scholar
6.Tanner, T. (1960). Full-scale Tank Tests of an International 10 sq. metre Class Canoe. Trans. R.I.N.A., 1960.Google Scholar
7.Tanner, T. (1930). Forces on a Yacht's Sail. Journal of the Royal Aeronautical Society, October 1930.Google Scholar
8.Sainsbury, J. C. (1961). Windward Performance Prediction. Southampton University Advisory Committee for Yacht Research, Paper No. 39, 1961.Google Scholar
9.Crewe, P. R. (1959). A Yacht Slide Rule. Southampton University Advisory Committee for Yacht Research, Paper No. 3, 1959.Google Scholar
10.Barkla, H. M. (1960). The Behaviour of the Sailing Yacht Trans. R.I.N.A., 1960.Google Scholar
11.Thwaites, B. (1961). The Aerodynamic Theory of Sails. I. Two-dimensional Sails. Proc. Roy. Soc. A., Vol. 261, 1961.Google Scholar
12.Warner, E. P. and Ober, S. (1925). The Aerodynamics of Yacht Sails. S.N.AM.E., 1925.Google Scholar
13.Publication No. 6 of Yugoslav Shipbuilding Research Institute Zagreb, 1957.Google Scholar
14.Jones, R. T. (1945). Properties of Low Aspect Ratio Wings. NACA Report No. 835, 1945.Google Scholar
15.Boustred, B. M. (1960) Yacht Aerodynamics. Thesis for B.Sc. (Southampton), 1960.Google Scholar