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Integer sequences that behave as Fibonacci-Lucas pairs

Published online by Cambridge University Press:  23 January 2015

A. S. Di Domenico
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Extract

There have been a number of articles on the relation between the terms of the Fibonacci and Lucas sequences and how they are closely related to trigonometric and hyperbolic functions and their properties [1]. This article is based on other integer sequences. It sets out to determine other pairs of such sequences that have the same relation as the Fibonacci and Lucas have to each other. So we shall be concerned with second order recurrence relations with constant coefficients:

and pairs of sequences (un) and (vn) that each satisfy it. We seek a condition that ensures the pair of sequences behave as the Fibonacci-Lucas pair behave.

Type
Articles
Information
The Mathematical Gazette , Volume 97 , Issue 538 , March 2013 , pp. 1 - 7
Copyright
Copyright © The Mathematical Association 2013

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References

1. Lewis, B., Trigonometry and Fibonacci numbers, Maths. Gaz., 91 (July 2007) pp. 216226.Google Scholar
2. Koshy, T., Fibonacci and Lucas numbers with applications, Wiley, New York (2001).Google Scholar
3. Askey, R. A., Fibonacci and Lucas numbers, Mathematics Teacher 98 (2005), pp. 610614.Google Scholar
4. Kalman, D. and Mena, R., The Fibonacci Numbers-Exposed, Mathematics Magazine 76 (2003), pp. 167181.Google Scholar
5. Benjamin, A. T. and Quinn, J. J., The Fibonacci numbers - exposed more discretely, Mathematics Magazine 76 (2003), pp. 182192.Google Scholar
6. Weisstein, Eric W., Pell Equation, from MathWorld-A Wolfram Web Resource. http://mathworld.wolfram.com/PellEquation.html Google Scholar