Is there an algorithm to define a recursive function such that consecutive terms approach any arbitr

Esmeralda Lane

Esmeralda Lane

Answered question

2022-07-10

Is there an algorithm to define a recursive function such that consecutive terms approach any arbitrary constant?
The Fibonacci sequence is defined by the recursive function, f ( n ) = f ( n 1 ) + f ( n 2 ). Consecutive terms in this sequence approach the constant, 1 + 5 2 . Is there an algorithm that produces recursive functions such that f ( n ) / f ( n 1 ) approaches any arbitrary algebraic constant?

Answer & Explanation

diamondogsaz

diamondogsaz

Beginner2022-07-11Added 12 answers

Step 1
If α is real algebraic and a root of the polynomial with rational coefficients
p ( x ) = x n + a n 1 x n 1 + + a 1 x + a 0
and we have | β | < α for all other (real or complex) roots β of p, then for a sequence defined by the recursion
(and almost any choice of initial values), the quotients x k + 1 x k will converge to α.
Step 2
For algebraic numbers that are not maximal in the above sense, you are out of luck.

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