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Difference between revisions of "2006 JBMO Problems/Problem 1"

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Problem

If $n>4$ is a composite number, then $2n$ divides $(n-1)!$ .

Solution

We shall prove a more stronger result that $4n$ divides $(n-1)!$ which will cover the case of problem statement.

Let $n = p.q$ where $q \ge p \ge 2$ .

Let us define set $S = \{1, 2, 3 ... n-1\}$

First let's note that $p, q \in S$

$Case 1: q > p$

Now, all multiples of $p$ from $p.1$ to $p.(q-1) \in S$

Since $q > p => q > 2 => q-1 \ge 2$ we have that $p.2 \in S$ Also, since $p \ge 2$ we have that $2 \in S$

So, we have that $2, p.2, q \in S$ , in other words, $4.p.q$ divides $(n-1)!$

$Case 2: q = p$

Now, all multiples of $p$ from $p.1$ to $p.(p-1) \in S$

Since $p > 2 => p-1 \ge 2$ we have that $p.2 \in S$

Also, since $n = p^2 > 4 => p > 2$ so we have that $2 \in S$

So, we have that $2, p.1, p.2 \in S$ , in other words, $4.p^2$ divides $(n-1)!$

Thus $4n$ divides $(n-1)!$ .

$Kris17$

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