Continuous Involution is Homeomorphism

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

Let $f: S \to S$ be a continuous involution.

Then $f$ is a homeomorphism.

Proof
From Involution is Bijection, $f$ is a bijection.

Since $f$ is continuous, it suffices to verify that its inverse is also continuous.

Now recall $f$ is an involution, that is, $f^{-1} = f$.

Thus $f^{-1}$ is also continuous.

Hence $f$ is a homeomorphism.