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The geometric unfolding of recurrence relations

Published online by Cambridge University Press:  08 October 2020

Stan Dolan*
Affiliation:
126A Harpenden Road, St Albans AL3 6BZ e-mail: stan@standolan.co.uk

Extract

In 1942 R. C. Lyness challenged readers of the Gazette to find a recurrence relation of order 2 which would generate a cycle of period 7 for almost all initial values [1].

Type
Articles
Copyright
© Mathematical Association 2020

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References

Lyness, R. C., Cycles, Math. Gaz. 26 (February 1942) p. 62.CrossRefGoogle Scholar
Dolan, S., Lyness cycles, Math. Gaz. 101 (July 2017), pp 193207.CrossRefGoogle Scholar
Griffiths, J., Lyness cycles, elliptic curves and Hikorsky triples, accessed April 2020 at ueaeprints.uea.ac.uk/id/eprint/38238/1/2012GriffithsJMSc.pdfGoogle Scholar
Janowski, E. J., Kocic, V. L., Ladas, G., and Schultz, S. W., Global behavior of solutions of xn + 1 = max {xn, A} / xn − 1, Proceedings of the First International Conference on Difference Equations (May 1994), San Antonio, Gordon and Breach, Basel (1995).Google Scholar
Northshield, S., Tropical cycles, Math. Gaz. 104 (July 2020), pp. 225234.10.1017/mag.2020.44CrossRefGoogle Scholar