Contractibility is not closure-preserved

This article gives the statement, and possibly proof, of a topological space property (i.e., contractible space) not satisfying a topological space metaproperty (i.e., closure-preserved property of topological spaces).
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Definition

It is possible to have a topological space ${\displaystyle X}$ and a subset ${\displaystyle A}$ of ${\displaystyle X}$ such that ${\displaystyle A}$ is a contractible space in the subspace topology from ${\displaystyle X}$, but ${\displaystyle {\overline {A}}}$, the closure of ${\displaystyle A}$ in ${\displaystyle X}$, is not contractible.

Proof

Set ${\displaystyle X}$ to be a circle and set ${\displaystyle A}$ to be the complement of a single point in the circle. Then, ${\displaystyle A}$ is homeomorphic to the real line, and is contractible. However, it closure ${\displaystyle {\overline {A}}}$ equals ${\displaystyle X}$, which is not even simply connected, and therefore not contractible.

This example can be generalized to the ${\displaystyle n}$-sphere ${\displaystyle S^{n}}$ for ${\displaystyle n\geq 1}$.