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Experimental archery: projectile velocities and comparison of bow performances

Published online by Cambridge University Press:  02 January 2015

C.A. Bergman
Affiliation:
Institute of Archaeology, University College, London WC1H 0PY
E. McEwen
Affiliation:
Society of Archer-Antiquaries, 10 Richmond Way, Wanstead, London E11
R. Miller
Affiliation:
Darwin College, Cambridge CB3 9EU

Extract

Experimental study with replica bows and projectiles of a variety of types indicates the superiority of archery over the throwing of spears, and makes it possible to indicate a hierarchy of increasing efficiency in the main classes of bows.

Type
Papers
Copyright
Copyright © Antiquity Publications Ltd 1988

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References

Alexander, R. McN. & Bennet-Clarke, H.C., 1977. Storage of elastic strain energy in muscle and other tissues, Nature 265: 11417.CrossRefGoogle ScholarPubMed
Ascham, R. 1545 [1985]. Toxophilus. Manchester: A.W. Hodkinson Simon Archery Foundation. 1985 edition.Google Scholar
Barton, R.N.E. & Bergman, C.A.. 1982. Hunters at Hengistbury: some evidence from experimental archaeology, World Archaeology 14: 23748.CrossRefGoogle Scholar
Bergman, C.A. 1987. Hafting and use of bone and antler points from Ksar Akil, Lebanon, in Stordeur, D. (ed.), La main et l’outil. 117126. Lyon: Travaux de la Maison de l’Orient.Google Scholar
Bergman, C.A. & Gibbs, P. . 1984. American composites in Britain, Journal of the Society of Archer-Antiquaries 27: 323.Google Scholar
Bergman, C.A. & Newcomer, M.H.. 1983. Flint arrowhead breakage: examples from Ksar Akil, Lebanon, Journal of Field Archaeology 10: 23843.Google Scholar
Christenson, A. 1986. Projectile point size and projectile aerodynamics: an exploratory study, Plains Anthropologist 31/112: 10928.CrossRefGoogle Scholar
Clark, J.D., Phillips, J. & Staley, P.S.. 1974. Interpretation of prehistoric technology from Ancient Egyptian and other sources, Part 1: Ancient Egyptian bows and arrows and their relevance for African prehistory, Paleorient 2: 32388.CrossRefGoogle Scholar
Clark, J.G.D. 1963. Neolithic bows from Somerset, England, and the prehistory of archery in northwestern Europe, Proceedings of the Prehistoric Society 29: 5098.CrossRefGoogle Scholar
Cosgrove, C.B. 1947. Caves of the Upper Gila and Hueco areas in New Mexico and Texas, Papers of the Peabody Museum of American Archaeology and Ethnology, Harvard University vol. 24/2.Google Scholar
Elmer, R.P. 1946. Target archery. New York: Alfred A. Knopf.Google Scholar
Garstang, J. 1907, Burial customs of Ancient Egypt. London: Constable.Google Scholar
Grayson, CE. 1961. Notes on Somali archery, Journal of the Society of Archer-Antiquaries 4: 312.Google Scholar
Hamilton, T. 1982. Native American bows. Columbia: Missouri Archaeological Society. 2nd edition.Google Scholar
Heath, E.G. & Chiara, V.. 1977. xBrazilian Indian archery. Manchester: Simon Archery Foundation.Google Scholar
Klopsteg, P. 1947. Turkish archery and the composite bow. Evanston: Klopsteg. 2nd edition.Google Scholar
Laufer, B. 1914. Chinese clay figures. Chicago: Field Museum of Natural History. Anthropological series 13/2.Google Scholar
Mason, O.T. 1893 [1972]. North American bows, arrows and quivers, Smithsonian Annual Report (1893): 63181. New York: Carl J. Pugliese. 1972 edition.Google Scholar
Mau, C. 1963. Experiments with the spear thrower, New York State Archaeological Association Bulletin 29: 113.Google Scholar
McEwen, E. 1974. Persian archery texts: chapter eleven of Fakhr-i Mudabbirs Adab al-Harb (early thirteenth century), Islamic Quarterly 18: 7699.Google Scholar
McEwen, E. 1978. Nomadic archery: some observations on composite bow design and construction, in Denwood, P. (ed.), Arts of the Eurasian steppelands: 188202. London: School of Oriental & African Studies.Google Scholar
McEwen, E. & Mcleod, W.. In press. The Ancient Egyptian composite bow: some notes on its structure and performance, American Journal of Archaeology.Google Scholar
McLeod, W. 1982. Self bows and other archery tackle from the tomb of Tut’ankhamun. Oxford: Griffin.Google Scholar
Miller, R. 1985. Flintknapping and arrowhead manufacture at Tell Hadidi, Syria. Milwaukee: Milwaukee Public Museum.Google Scholar
Miller, R., McEwen, E. & Bergman, C.A.. 1986. Experimental approaches to Ancient Near Eastern archery, World Archaeology 18/2: 17895.CrossRefGoogle Scholar
Paterson, W.F. 1984. Encyclopaedia of Archery. London: Robert Hale.Google Scholar
Pope, S. 1923. A study in bows and arrows, University of Californio Publications in American Archaeology and Ethnology volume 13/9.Google Scholar
Pope, S. 1974a. Bows and arrows. University of California Press, reprint of Pope (1923), A study in bows and arrows.Google Scholar
Pope, S. 1974b. Hunting with the bow and arrow. New York: Popular Library.Google Scholar
Rausing, G. 1967. The bow: some notes on its origin and development. Lund: Gleerups.Google Scholar
Raymond, A. 1986. Experiments in the function and performance of the weighted atlatl, World Archaeology 18/2: 15377.CrossRefGoogle Scholar
Rust, A. 1943. Die alt- und mittelsteinzeitliche von Stellmoor. Neumünster: Wachholtz.Google Scholar
Van Buren, G.E. 1974. Arrowheads and projectile points. Garden Grove (CA): Arrowhead Publishing.Google Scholar
Wiessner, P. 1983. Style and social information in Kalahari San projectile points, American Antiquity 48: 25376.CrossRefGoogle Scholar
Yellen, J. & Lee, R.B.. 1976. The Dobe-/Du/da environment, in Lee, R.B. & DeVore, I. (ed.), Kalahari Hunter-gatherers: 2746. Cambridge (MA): Harvard University Press.Google Scholar