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| == Further reading == | | == Further reading == |
| *P. Ribenboim, ''The New Book of Prime Number Records'' (3 ed.), Springer, 1996, ISBN 0-387-94457-5. | | *P. Ribenboim, ''The New Book of Prime Number Records'' (3 ed.), Springer, 1996, ISBN 0-387-94457-5. |
| *P. Ribenboim, ''My Numbers, My Friends'', Springer, 2000, ISBN 0-387-98911-0. | | *P. Ribenboim, ''My Numbers, My Friends'', Springer, 2000, ISBN 0-387-98911-0.[[Category:Suggestion Bot Tag]] |
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| [[Category:Mathematics Workgroup]] | |
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Latest revision as of 16:00, 13 September 2024
In mathematics, a Lucas sequence is a particular generalisation of sequences like the Fibonacci numbers, Lucas numbers, Pell numbers or Jacobsthal numbers. Lucas sequences have one common characteristic: they can be generated over quadratic equations of the form: with .
There exist two kinds of Lucas sequences:
- Sequences with ,
- Sequences with ,
where and are the solutions
and
of the quadratic equation .
Properties
- The variables and , and the parameter and are interdependent. In particular, and .
- For every sequence it holds that and .
- For every sequence is holds that and .
For every Lucas sequence the following are true:
- for all
Recurrence relation
The Lucas sequences U(P,Q) and V(P,Q) are defined by the recurrence relations
and
Fibonacci numbers and Lucas numbers
The two best known Lucas sequences are the Fibonacci numbers and the Lucas numbers with and .
Lucas sequences and the prime numbers
If the natural number is a prime number then it holds that
- divides
- divides
Fermat's Little Theorem can then be seen as a special case of divides because is equivalent to .
The converse pair of statements that if divides then is a prime number and if divides then is a prime number) are individually false and lead to Fibonacci pseudoprimes and Lucas pseudoprimes, respectively.
Further reading