Hostname: page-component-78c5997874-4rdpn Total loading time: 0 Render date: 2024-11-05T05:26:32.875Z Has data issue: false hasContentIssue false

Unconventional Flight

Published online by Cambridge University Press:  04 July 2016

Extract

Flight that is unconventional now may not be unconventional in the future. In 1903 all flight by man was unconventional. Although the 1903 limitations in knowledge and convention have dropped away, certain kinds of flight remain unconventional for practical, if not good, reasons. Unconventional flight is flight outside the mainstreams of research and development. This implies that it includes flight modes for which little or no money is available and which, therefore, can attract only few knowledgeable and dedicated enthusiasts. Hence these modes lag behind the contemporarily directly useful aspects of flight.

Type
The Second Century Papers: Looking Ahead in Aeronautics–7
Copyright
Copyright © Royal Aeronautical Society 1968 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

1. Kahn, H. and Wiener, A. J. Technological Innovation and the Future of Strategic Warfare. Astronautics and Aeronautics, Vol 5, No 12, 1967.Google Scholar
2. Pringle, J. W. S. Insect Flight, Cambridge University Press, 1957.Google Scholar
3. Holst, E. V. and Küchemann, D., Biologische und aerodynamische Probleme des Tierfluges. Naturwissenschaften, Vol 29, p 348, 1941.Google Scholar
4. Holst, E. V. Untersuchungen über Flugbiophysik I. Biologisches Zentralblatt, Vol 63, p 289, 1943.Google Scholar
5. Thom, A. and Swart, P. The Forces on an Aerofoil at very Low Speeds. JRAeS, Vol 44, p 761, 1940.Google Scholar
6. Horridge, A. The Flight of very small Insects. Nature, Vol 78, p 1334, 1956.Google Scholar
7. Schmitz, F. W. Aerodynamik des Flugmodells, Carl Lange Verlage, Duisburg, 1942, 1952.Google Scholar
8. Hacklinger, M. Theoretical and Experimental Investigation of Indoor Flying Models. JRAeS, Vol 68, Nov 1964.Google Scholar
9. Cone, C. D. Jr. A Mathematical Analysis of the Dynamic Soaring Flight of the Albatross with Ecological Interpretations. Special Scientific Report No 50. Virginia Institute of Marine Science, 1964.Google Scholar
10. Wilkie, D. R. Man as an Aero Engine. JRAeS, Vol 64, Aug 1960.Google Scholar
11. Ursinus, O. Mitteilungen des Muskelflug-Instituts 1 to 6 Flugsport, 1936 and 1937.Google Scholar
12. Thom, , Lund, and Todd, . Efficiency of Three-Speed Bicycle Gears. Engineering, 20th July, 1956.Google Scholar
13. Worley, B. Can Man Fly? Aeronautics, Feb 1948.Google Scholar
14. Shenstone, B. S. Manpowered Aircraft. OSTIV Publication VIII, 1966.Google Scholar
15. Czerwinski, W. Structural Trends in the Development of Man Powered Aircraft. JRAeS, Vol 71, Jan. 1967.Google Scholar
16. Hirth, W. Handbuch des Segelfliegens. Franckh'sche Verlagshandlung, 1953.Google Scholar
17. Zacher, H. The Shape of High Performance Sailplane Technical Development. The World's Sailplanes, Vol II, OSTIV, 1963.Google Scholar
18. Wortmann, F. X. Widerstandsverminderung bei Segel flugzeugen. OSTIV Publication VIII, 1966.Google Scholar
19. Hoerner, S. F. Fluid-Dynamic Drag, pp 7-5 and 7-6, 1958.Google Scholar
20. The World's Sailplanes. Vol I and II. OSTIV and Swiss Aero Revue, 1958, 1963.Google Scholar
21. Records List, British Gliding Association, 1967.Google Scholar
22. Aldrich, J. Soaring in the Jet Stream, Soaring, Dec 1967.Google Scholar
23. Sharp, T. E. Preview 1966-67. Soaring, Dec 1967.Google Scholar
24. Warner, E. P. and Ober, S. The Aerodynamics of Yacht Sails. Trans Society of NAME, 1925.Google Scholar
25. Croseck, H. Beiträge zur Theorie des Segelns, Springer, Berlin, 1925.Google Scholar
26. Tanner, T. The Forces on a Yacht's Sail. JRAeS, Vol 34, pp 880888, Oct 1930.Google Scholar
27. Davidson, K. S. M. Some Experimental Studies of the Sailing Yacht. Trans Society of NAME, 1936.Google Scholar
28. Marchaj, C. A. Sailing Theory and Practice. Adlard Coles, 1964.Google Scholar
29. Thwaites, B. Proc. Royal Society. A, Vol 261. 1961.Google Scholar
30. Nielsen, J. N. ASME Trans J App Mech, Sept 1963.Google Scholar
31. Gandy, G. A proving Ground for Theories. Yachting, p 44, Nov 1932.Google Scholar
32. Rowland, J. T. Experiments with the Kite Rig. Yachting, p 50, August 1938.Google Scholar