Empty Set is Closed/Topological Space

Theorem
Let $T = \struct {S, \tau}$ be a topological space.

Then $\O$ is closed in $T$.

Proof
From the definition of closed set, $U$ is open in $T = \struct {S, \tau}$ $S \setminus U$ is closed in $T$.

From Underlying Set of Topological Space is Clopen, $S$ is open in $T$.

From Set Difference with Self is Empty Set, we have $S \setminus S = \O$, so $\O$ is closed in $T$.