Prime equals Plus or Minus One modulo 6

Theorem
Let $p$ be a prime number greater than $3$.

Then $p$ is either of the form:
 * $p = 6 n + 1$

or:
 * $p = 6 n - 1$

That is:
 * $p = \pm 1 \pmod 6$

Proof
To demonstrate that there are prime numbers of either form, note:
 * $5 = 6 \times 1 - 1$
 * $7 = 6 \times 1 + 1$

The only other possibilities for $p$ are:
 * $p = 6 n$, in which case $6 \mathrel \backslash p$ and so $p$ is not prime
 * $p = 6 n + 2$, in which case $2 \mathrel \backslash p$ and so $p$ is not prime
 * $p = 6 n + 3$, in which case $3 \mathrel \backslash p$ and so $p$ is not prime
 * $p = 6 n + 4$, in which case $2 \mathrel \backslash p$ and so $p$ is not prime.
 * $p = 6 n + 5$, which is the same as $p = 6 \left({n + 1}\right) - 1$, which is covered above.

Hence the result.