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I am so excited and enjoyed the both the proofs of my previous question on Fibonacci series. I am so interested and fascinating person on fib series/functions. I use to do some rough work in my leisure time on the fib series. I encountered these new two following problems. As per my rough work and my calculator, I am very much correct to state the following questions, whereas mathematically, I am again failed to produce a proof of below. Can you help me please…

  1. Let $f(x) = M(x) g(x)$ is a function with $M(x)$ is an f-even function and $g(x)$ is some continuous function. The product of f-even and continuous function is Fibonacci function if and only if continuous function should be a Fibonacci function. How to justify the above cited statement mathematically. Can we see such facts if we change f-even function to f-odd function of $M(x)$. If yes, what will happen?

  2. Can we define the limit of the quotient of $f(x+1)/f(x)$, where $x$ tends to infinity? And the limit of this quotient is close to $1.6$, being the $f$ is Fibonacci sequence.

Thank you so much for all members.

Fibonacci function I defined as per the request from mathematicians.

Please look the definition of Fibonacci function at bellow my one of the comment and kindly answer my first question of this post.

Fibonacci function means, for all x in R, if f: R to R and satisfies f(x+2) = f(x+1) + f(x). Now, let me take f(x) = $M^x$ for some M > 0 As per my definition, f(x+2) = $M^x$ $M^2$ and f(x +1) = $M^x$ M and f(x) = $M^x$ Now, by Fibonacci function definition, we see; $M^2$ = M + 1 Which is same as (1 + square root 5)/2. Now our f(x) = $M^x$ = [(1 + square root of 5)/2]^x. I think, now one can answer my first question Thank you.

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    By Fibonacci function, do you mean generating function of Fibonacci sequence??2012-07-31
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    @avatar! yes sir.2012-07-31
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    I don't think you do mean the generating function of the Fibonacci sequence, which is a function $\hat f(x) = 1 + x + 2x^2 + 3x^3 + 5x^4 + 8x^5 + \ldots$. I think you mean that $f(n)$ is the $n$th Fibonacci number, so for example $f(11)=89$. Otherwise your claim that the limit of $f(x+1)/f(x)$ is close to 1.6 makes no sense.2012-07-31
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    BMSA, I googled "fibonacci function f-even" and the only result relevant to this question ... was this question. If you're using made-up or little-known terminology, you **need** to provide clear definitions, unless you either want nobody to help you or you expect us to be mind-readers. If you want an explanation for the downvotes, there it is. I hope you can fix your question so that it makes sense so that it may be upvoted instead.2012-07-31
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    I am so sorry for not definig the even and odd in well.2012-07-31
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    Let A(x) be a real valued function and for A(x) B(x) = 0 and B(x) is continuous then B(x) = 0. In this case map A(x) is said to be an f-even function for A(x+1) = A(x) and for an odd, A(x+1) = - A(x) for any real value of x.2012-07-31
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    You talk about $a$ fibonacci function, but you seem to only have one fibonacci function. Are you saying that $f(n)$ is $the$ fibonacci function iff $g(n)$ is $the$ fibonacci function, or do you have other functions you are considering "fibonacci-like"?2012-07-31
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    @Eric Stucky!Fibonacci function means, for all x in R, if f: R to R and satisfies f(x+2) = f(x+1) + f(x). Now, let me take f(x) = $M^x$ for some M > 0 As per my definition, f(x+2) = $M^x$ $M^2$ and f(x +1) = $M^x$ M and f(x) = $M^x$ Now, by Fibonacci function definition, we see; $M^2$ = M + 1 Which is same as (1 + square root 5)/2. Now our f(x) = $M^x$ = [(1 + square root of 5)/2]^x. I think, now you can answer my first question.2012-08-01
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    You've edited your question, but you have left all the important stuff in the comments. Please edit **into the question** what you mean by Fibonacci function and by $f$-even function and anything else you have been asked about.2012-08-01
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    @Gerry Myerson! I re edited my main post. Please look at the main post and answer. Please..2012-08-01
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    You edited in the definition of Fibonacci function - good! You didn't edit in the definition of $f$-even - bad!!2012-08-01

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