# Algorithms and generalisation of functions [closed]

I admit I'm little bit poor in functions in mathematics.
But I'm in real urge to get this riddle out.
how to express `x(n)=x(n-1)+x(n-2)+1` where `n>1` and `x(0)=0` and `x(1)=1`.
in terms of function `y(n)=y(n-1)+n` where `n>1` and `y(0)=0` and `y(1)=1`.
I found the answer as `x(n)=y(n+2)-1` in a some pdf about AVL trees for the minimal number of nodes nmin(n) of an AVL tree of height n.

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## closed as off topic by Alexey Frunze, Kendall Frey, Bart Kiers, tskuzzy, Evan MulawskiJun 28 '12 at 21:28

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This would probably get a better response on math.stackexchange.com. –  Kendall Frey Jun 28 '12 at 20:55
What is it you want us to explain? –  Kendall Frey Jun 28 '12 at 20:55
k thanks for ur response. i ll check in math.stackexchange.com –  cdummy Jun 28 '12 at 20:56

Please be more clear about what you actually want and why (if that's relevant).

Your first equation is not homogeneous. To make it homogeneous you can write it in this form:

`x[n]+1 = (x[n-1]+1)+(x[n-2]+1)`

and substitute `u[n] = x[n] + 1` to get

`u[n] = u[n-1]+u[n-2]` with `u[0] = 1`, `u[1]=2`.

These numbers are known as Fibonacci Numbers. There are several formulas and results regarding these numbers. For example

`u[n-2] = (phi^n - (-phi)^(-n)) / sqrt5` with `phi = (1 + sqrt 5) / 2 = 1.618...`

which gives a formula for `x[n]` in your original equation:

`(phi^(n+2) - (-phi)^(-n-2)) / sqrt5 - 1`

On the other hand, your other equation `y[n] = y[n-1] + n` can be reiterated as

`y[n] = y[n-1] + n = y[n-2] + (n-1) + n = ... = 1 + 2 + ... + n`

It is well known that this sum is `y[n] = n(n+1)/2`

I see no obvious relation between `x[n]` and `y[n]` as you provided.

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now i edited the last line. Does it make sense now –  cdummy Jun 28 '12 at 21:40
If y[n] are Fibonacci numbers then x(n)=y(n+2)-1 is true. There is no relation with the definition 'y(n)=y(n-1)+n where n>1 and y(0)=0 and y(1)=1' you provided. –  akashnil Jun 28 '12 at 21:45
could you provide the induction proof for x(n)=y(n+2)-1 taking y(n) as Fibonacci numbers. –  cdummy Jun 28 '12 at 21:47
I just showed above that u[n] are fibonacci numbers. that's because they satisfies the same recurrence relation and same initial conditions as fibonacci numbers y[n] (shifted by a couple indices). By induction, u[n] = y[n+2] for all n. But we defined x[n] = u[n]-1. So you get x[n] = y[n+1] - 1. –  akashnil Jun 28 '12 at 22:01