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Ringing the cosets. II

Published online by Cambridge University Press:  24 October 2008

Arthur T. White
Arthur T. White
Affiliation:
Western Michigan University, Kalamazoo, Michigan 49008, U.S.A.
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Abstract

Hamiltonian circuits with associated word an n-cycle, in Schreier right coset graphs for symmetric groups Sn mod cyclic groups Zn, correspond to change ringing principles on n bells for which the plain course is the extent; that is, neither bobs nor singles are required. This connection is made explicit for the general case, and then specialized to the cases n = 4 (minimus) and n= 5 (doubles). In particular, all 102 no-call doubles principles on three generators are found and catalogued.

Type
Research Article
Information
Mathematical Proceedings of the Cambridge Philosophical Society , Volume 105 , Issue 1 , January 1989 , pp. 53 - 65
Copyright
Copyright © Cambridge Philosophical Society 1989

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References

REFERENCES

[1]Budden, F. J.. The Fascination of Groups (Cambridge University Press, 1972).Google Scholar
[2]Camp, J.. Discovering Bells and Bell Ringing (Shire, 1975).Google Scholar
[3]Dickinson, D. J.. On Fletcher's paper ‘Campanological groups’. Amer. Math. Monthly 64 (1957), 331332.Google Scholar
[4]Fletcher, T. J.. Campanological groups. Amer. Math. Monthly 63 (1965), 619626.CrossRefGoogle Scholar
[5]Knights, P. B.. Change ringing on four bells. The Ringing World (1957), 692.Google Scholar
[6]Price, B. D.. Mathematical groups in campanology. Math. Gaz. 53 (1969), 129133.Google Scholar
[7]Pusey, J.. (Personal communication.)Google Scholar
[8]Rankin, R. A.. A campanological problem in group theory. Math. Proc. Cambridge Philos. Soc. 44 (1948), 1725.Google Scholar
[9]Rotman, J. J.. The Theory of Groups: An Introduction (Allyn and Bacon, 1965).Google Scholar
[10]Smith, A. P.. (Personal communication.)Google Scholar
[11]White, A. T.. Graphs, Groups and Surfaces (North-Holland, 1984).Google Scholar
[12]White, A. T.. Graphs of groups on surfaces. In Combinatorial Surveys: Proceedings of the Sixth British Combinatorial Conference (Academic Press, 1977), pp. 165197.Google Scholar
[13]White, A. T.. Ringing the changes. Math. Proc. Cambridge Philos. Soc. 94 (1983), 203214.CrossRefGoogle Scholar
[14]White, A. T.. Ringing the changes II. Ars Combin. 20A (1985), 6575.Google Scholar
[15]White, A. T.. Ringing the cosets. Amer. Math. Monthly 94 (1987), 721746.Google Scholar
[16]White, A. T.. A hamiltonian construction in change ringing. Ars Combin., 25B (1988), 257264.Google Scholar
[17]Wilson, W. G.. Change Ringing (Faber, 1965).Google Scholar
[18]Wyld, C. J. E.. Diagrams using multi-change points. The Ringing World (1985), 694.Google Scholar
[19]Collection of Doubles Methods, part 2 (Central Council of Church Bell Ringers, 1986).Google Scholar
[20]Handbook (Central Council of Church Bell Ringers, 1978).Google Scholar