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The mathematics of flat green bowling

Published online by Cambridge University Press:  01 August 2016

Harold Williams*
Affiliation:
Magpies, 226 Station Road, West Moors, Ferndown BH22 0JF

Extract

Being aware of John Branfield’s request and having enjoyed Tom Roper’s response may I offer a contribution to the problem of describing the curve on which the bowls move? The important first thing is to decide upon a model of the system which is hopefully sound, and closely approximates the truth. It must also be amenable to mathematical analysis.

Type
Articles
Copyright
Copyright © The Mathematical Association 1998

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References

1. Branfield, J. What is the mathematics of bowls? Math. Gaz. 79 (March 1995) pp. 120121.CrossRefGoogle Scholar
2. Roper, T. The mathematics of bowls, Math. Gaz. 80 (July 1996) pp. 298307.CrossRefGoogle Scholar
3. Brearley, M. N. A mathematician’s view of bowling. Math. Gaz. 80 (November 1996) pp. 501510.CrossRefGoogle Scholar
4. Newman, F. H. and Searle, V. H. L. The general properties of matter, Fourth Edition, Edward Arnold, (1948) p. 75.Google Scholar
5. Holmes, G. and Bell, M. J. J. Sports Turf Res. Inst. 62 (1986).Google Scholar
6. Clare, P. Clare on bowls and bowling: the bowls testing controversy. World Bowls (July 1996) p 16.Google Scholar