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Title: polynomial of degree n Post by BenVitale on Jan 28th, 2008, 8:25pm If f(x) is a polynomial of degree n, prove that f(x)=0(mod p) has exactly n solutions if and only if f(x) divides x^p -x (mod p). |
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Title: Re: polynomial of degree n Post by Obob on Jan 29th, 2008, 1:28am The main idea is to note that [hide]every element of Z/pZ is a root of xp-x[/hide] |
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Title: Re: polynomial of degree n Post by BenVitale on Jan 29th, 2008, 1:40pm Obob, Well it's easy to show that if f(x) is a factor of x^p -x(mod p), of degree n, then f(x) has exactly n solutions, however I don't know how to prove the converse (ie if f(x) is of degree n and has n solutions then f(x) divides x^p -x(mod p). |
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Title: Re: polynomial of degree n Post by Obob on Jan 29th, 2008, 6:12pm If say a is a root of f(x) (mod p), then x-a divides f(x) (mod p). Prove this using the division algorithm for polynomials. So f(x) factors as a product c(x-a1)...(x-an) for some number c, where the ai are the roots of f(x). But by the same logic, xp-x factors as x(x-1)(x-2)...(x-(p-1)). Hence f(x) divides xp-x. |
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Title: Re: polynomial of degree n Post by BenVitale on Jan 31st, 2008, 9:06pm Oh yeah, I forgot that you could do things like that. Man, it wasn't really that difficult after all was it. Thank you very much. |
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