Excluded Point Space is not Arc-Connected

Theorem
Let $S$ be a set with at least two distinct elements.

Let $T = \struct {S, \tau_{\bar p} }$ be an excluded point space.

Then $T$ is not arc-connected.

Proof
Let $q \in S$ be such that $q \ne p$.

Let $f: \closedint 0 1 \to T$ be an injection such that:


 * $\map f 0 = p$
 * $\map f 1 = q$

Because $f$ is an injection, it must be that:


 * $f^{-1} \sqbrk {\set q} = \set 1$

where $f^{-1}$ denotes the preimage under $f$.

Now since $p \notin \set q$, $\set q$ is open in $\tau_{\bar p}$, by definition of the excluded point topology.

By Closed Real Interval is not Open Set, $\set 1 = \closedint 1 1$ is not open.

Thus we have exhibited an open set whose preimage under $f$ is not open.

Hence $f$ is not continuous.

Since $f$ was an arbitrary injection, no arc between $p$ and $q$ can exist.

Hence $T$ is not arc-connected.