Lucas sequence: Difference between revisions

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imported>Karsten Meyer
imported>Karsten Meyer
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There exists kinds of Lucas sequences:
There exists kinds of Lucas sequences:
*Sequence <math>U(P,Q) = (U_n(P,Q))_{n \ge 1}</math> with <math>U_n(P,Q)=\frac{a^n-b^n}{a-b}</math>
*Sequence <math>U(P,Q) = (U_n(P,Q))_{n \ge 1}</math> with <math>U_n(P,Q)=\frac{a^n-b^n}{a-b}</math>
*Sequence <math>V(P,Q) = (V_n(P,Q))_{n \ge 1}</math> with <math>U_n(P,Q)=a^n+b^n</math>
*Sequence <math>V(P,Q) = (V_n(P,Q))_{n \ge 1}</math> with <math>U_n(P,Q)=a^n+b^n\ </math>
<math>a\ </math> and <math>b\ </math> are the solutions <math>a = \frac{P + \sqrt{P^2 - 4Q}}{2}</math> and <math>b = \frac{P - \sqrt{P^2 - 4Q}}{2}</math> of the quadratic equatation <math>x^2-Px+Q=0\ </math>.
<math>a\ </math> and <math>b\ </math> are the solutions <math>a = \frac{P + \sqrt{P^2 - 4Q}}{2}</math> and <math>b = \frac{P - \sqrt{P^2 - 4Q}}{2}</math> of the quadratic equatation <math>x^2-Px+Q=0\ </math>.



Revision as of 21:40, 15 November 2007

Lucas sequences are the particular generalisation of sequences like Fibonacci numbers, Lucas numbers, Pell numbers or Jacobsthal numbers. Every of this sequences has one common factor. They could be generatet over quadratic equatations of the form: .

There exists kinds of Lucas sequences:

  • Sequence with
  • Sequence with

and are the solutions and of the quadratic equatation .

Properties

  • The variables and , and the parameter and are interdependent. So it is true, that and .
  • For every sequence is it true, that and .
  • For every sequence is it true, that and .

For every Lucas sequence is true that

  • ; für alle

Fibonacci numbers and Lucas numbers

The both best-known Lucas sequences are the Fibonacci numbers and the Lucas numbers with and .

Lucas sequences and the Prime numbers

Is the natural number a Prime number, then it is true, that

  • divides
  • divides

Fermat's little theorem you can see as a special case of divides because is äquivalent to

The converse (If divides then is a prime number and if divides then is a prime number) is false and lead to Fibonacci pseudoprimes respectively to Lucas pseudoprimes.

Further reading