Lucas sequence: Difference between revisions

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'''Lucas sequences''' are a particular generalisation of sequences like the [[Fibonacci number|Fibonacci numbers]], [[Lucas number|Lucas numbers]], [[Pell number|Pell numbers]] or [[Jacobsthal number|Jacobsthal numbers]]. These sequences have one common characteristic: they can be generated over [[quadratic equation|quadratic equations]] of the form: <math>\scriptstyle x^2-Px+Q=0\ </math> with <math>\scriptstyle P^2-4Q \ne 0</math>.
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In [[mathematics]], a '''Lucas sequence''' is a particular generalisation of sequences like the [[Fibonacci number|Fibonacci numbers]], [[Lucas number|Lucas numbers]], [[Pell number|Pell numbers]] or [[Jacobsthal number|Jacobsthal numbers]]. Lucas sequences have one common characteristic: they can be generated over [[quadratic equation|quadratic equations]] of the form: <math>\scriptstyle x^2-Px+Q=0\ </math> with <math>\scriptstyle P^2-4Q \ne 0</math>.


There exist two kinds of Lucas sequences:
There exist two kinds of Lucas sequences:

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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

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