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I would like to show that Fermat's Little Theorem doesn't hold when p is not prime.

I'm assuming this would be a proof by contradiction that Fermat's Theorem only works with prime numbers, but I'm not sure how to go about writing such a proof. Would we need to show that if p isn't prime, then a to any power less than p may share a common factor with p?

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    Partly depends on how you write Fermat's Theorem. if we use the $x^p\equiv x\pmod{p}$ version, it does hold for some non-primes. Take for example $p=4$.2012-12-11

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$a^{p-1} \equiv 1 \bmod p $

let $a = 2$, $p =4$

$2^3 = 8 \bmod 4 =0$

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    Fine, but he's missing out on the interesting stuff. (Aside: Jillian is a he?)2012-12-11