Omega as Limit Point of Intervals of Uncountable Closed Ordinal Space

Theorem
Let $\Omega$ denote the first uncountable ordinal.

Let $\closedint 0 \Omega$ denote the closed ordinal space on $\Omega$.

Then $\Omega$ is a limit point of the set $\openint a \Omega$, but not the limit of any sequence of points in $\openint a \Omega$.