Exists Integer Below Any Real Number

Theorem
Let $x$ be a real number.

Then there exists an integer less than $x$:


 * $\forall x \in \R: \exists n \in \Z: n < x$

Proof
Clearly we may assume without loss of generality that $x < 0$.

From the Archimedean Principle:
 * $\exists m \in \N: m > -x$

By Field of Real Numbers, we have that $\R$ is a totally ordered field.

Therefore by property $(3)$ of Properties of Totally Ordered Fields, $\Z \owns -m < x$.