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Human flapping-wing flight under reduced gravity

Published online by Cambridge University Press:  04 July 2016

P.Q. Collins
Affiliation:
Tokyo University, RCAST
J.M.R. Graham
Affiliation:
Imperial College of Science, Technology and Medicine

Abstract

Recent experiments have demonstrated that humans can fly, with great exertion of the leg muscles using fixed wings and a propeller. However, understanding of aerodynamics and physiology show that using existing technology it is not possible for humans to fly on Earth using their arm muscles to flap wings like birds. Human flapping flight might, however, be possible in a partial gravity environment such as a chamber in Earth orbit or on the surface of the Moon. This paper considers the feasibility of this and provides preliminary estimates of the main parameters involved.

Type
Research Article
Copyright
Copyright © Royal Aeronautical Society 1994 

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References

1. Wilkie, D. Muscle, Edward Arnold, 1969.Google Scholar
2. Heinlein, R. The Menace from Earth, Transworld, London, 1957.Google Scholar
3. Bekey, I. Tethers open new space options, Astronaut & Aeronaut, 1983, 21, (4).Google Scholar
4. UCAR/NASA Memorandum of Understanding, 3 August 1987.Google Scholar
5. Ehricke, K. Space tourism, AAS, 1967, 23, pp 259291.Google Scholar
6. Ashford, D.M. The aeroplane approach to launch vehicle design, J Brit Interplanetary Soc, 1984, 37, pp 163171.Google Scholar
7. Citron, R. Space tourism could drive space development, AAS, 1987, 68, pp 193205.Google Scholar
8. Collins, P.Q. and Ashford, D.M. Potential economic implications of the development of space tourism, Acta Astronautica, 1988, 17, (4), pp 315323.Google Scholar
9. Koelle, D. and Kuczera, H. Sanger — An advanced launcher system for Europe, Acta Astonautica, 1989, 19, (1), pp 6372.Google Scholar
10. Matsumoto, S. et al. Feasibility of space tourism, Proc 40th IAF Congress, IAF700, 1989.Google Scholar
11. Shimizu Corporation, Space Project Office. Welcome to space resort, Shimizu Kensetzu, 1989, Tokyo.Google Scholar
12. Berger, M. Japan checks out plan for hotel in space, Sunday Times, 21 January 1990.Google Scholar
13. Nagatomo, M et al. Space tourism special issue, J Space Technol & Sci, 9,(1), 1993.Google Scholar
14. Collins, P.Q. Space tourism — the door into the space age, Analog Essays on Science, 1990, Wiley, pp 193204.Google Scholar
15. Cooper, H. S. A house in space, 1978, Granada, London.Google Scholar
16. Lighthill, J. Some challenging new applications for basic mathematical methods in the mechanics of fluids that were originally pursued with aeronautical aims. Aeronaut J, 1990, 94, (934), pp 4152.Google Scholar
17. Webb, P. Bioastronautics data book, 1964, NASA SP 3006.Google Scholar
18. Pennycuick, C.J. Animal flight, Edward Arnold, 1972.Google Scholar
19. Burke, J.D. Human powered flight, AIAA Student J, 18, (1), pp 48.Google Scholar
20. Ward-Smith, A.J. Biophysical aerodynamics and the natural environment, Wiley, 1984.Google Scholar
21. Rogers, T.F. Space phoenix project, UCAR Foundation, Boulder, Colorado, 1986.Google Scholar
22. Ohbayashi Space Project Department. Moon, 1987, Ohbayashi Q, No 25.Google Scholar