Polynomials Question. (1 Viewer)

seanieg89 · May 8, 2012

If x,y,z are complex numbers such that: $x+y+z=0$ , prove that:

$\frac{x^{11}+y^{11}+z^{11}}{11}=\frac{x^3+y^3+z^3}{3}\cdot\frac{x^8+y^8+z^8}{2}-\frac{(x^3+y^3+z^3)^3}{9}\cdot\frac{x^2+y^2+z^2}{2}.$

Carrotsticks · May 8, 2012

Let x,y,z be the roots of a cubic polynomial:

$P(x)=x^3+px+q$

We define:

$S_n = x^n + y^n + z^n$

It's not *too* difficult to show that S_n satisfies the following recursive relationship for n > 3. I can put the proof in if you like.

$S_n = -p S_{n-2} - qS_{n-3}$

Where the base cases are:

$\\ S_2 = -2p \\\\ S_3 = -3q$

So we want to find S_11, and we will do so using the recursive relationship we have:

$S_{11} = - p S_9 - q S_8$

And so working recursively and with a bit of algebra, we acquire:

$\frac{S_11}{11} = \frac{S_3}{3} \times \frac{S_8}{8} - 3 \times \left [ \frac{S_3}{3} \right ]^3 \times \frac{S_2}{2}$

Which is the desired result.

Carrotsticks · May 8, 2012

I just realised, we don't really need to prove the recursive relationship (do we?). We can see by inspection that its Characteristic Polynomial is just P(x) !

deswa1 · May 8, 2012

How long do you reckon it would take to multiply out the whole of the RHS and simplify?

Carrotsticks · May 8, 2012

deswa1 said:
How long do you reckon it would take to multiply out the whole of the RHS and simplify?

I can't imagine it being too long if you can see what to do...

x + y + z = 0

x = -(y+z)

Raise both sides to the power of 11:

x^11 = -(y+z)^11

Expand using Binomial expansions but GROUP the first term with the last term, second with second last etc etc and use symmetry of Pascals triangle (or the C(n,k) = C(n,n-k) argument, same thing) to group terms. You will get a pretty nice expression.

Since we have 11 in the factorial (in the numerator), we can factorise it out and combine with the LHS once we've moved the y^11 and z^11 terms over, yielding the LHS of the required expression.

So our job now is to prove that what we have left (in the RHS) is the same as seanieg's RHS.

seanieg89 · May 9, 2012

Carrotsticks said:
I just realised, we don't really need to prove the recursive relationship (do we?). We can see by inspection that its Characteristic Polynomial is just P(x) !

Nice way of looking at it! Of course the direct proof of the recursive relation is just summing the equation (x^k)P(x)=0 over the roots of P, where k is a natural number. Would rep but need to share it apparently...

Polynomials Question. (1 Viewer)

seanieg89

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deswa1

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