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number theory help
Hello, for 6.21 I don't know what to set as the contradiction and for 6.23 (c) I don't know how to prove it.
There are probably multiple ways to set up 6.21, but one way is to derive a contradiction using Bezout's Identity. Remember we've shown in the past that if we can find integers $X$ and $Y$ such that $X \cdot a + Y\cdot m = 1$, then in fact $\gcd(a, m) = 1$. Thus show that if $a^k \equiv 1 \pmod{m}$ for some $k$ you can use that to find such $X$ and $Y$.
For 6.23(c), it should be pretty easy. If $p$ divides $a$ then $a = c\cdot p$ for an integer $p$. What happens when you substitute this in?
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