Derivative is Included in Closure

Theorem
Let $T = \left({S, \tau}\right)$ be a topological space.

Let $A$ be a subset of $S$.

Then
 * $A' \subseteq A^-$

where
 * $A'$ denotes the derivative of $A$
 * $A^-$ denotes the closure of $A$.

Proof
Let $x \in A'$.

By Condition for Point being in Closure it is enough to prove that:
 * for every open set $G$ of $T$:
 * if $x \in G$
 * then $A \cap G \ne \varnothing$.

Let $G$ be an open set of $T$.

Let $x \in G$.

Then by Characterization of Derivative by Open Sets:
 * there exists a point $\exists y in S: y \in A \cap G \land x \ne y$.

Hence:
 * $A \cap G \ne \varnothing$

Hence the result.