Infimum of Subset of Real Numbers May or May Not be in Subset

Theorem
Let $S \subset \R$ be a proper subset of the set $\R$ of real numbers.

Let $S$ admit an infimum $m$.

Then $m$ may or may not be an element of $S$.

Proof
Consider the subset $S$ of the real numbers $\R$ defined as:
 * $S = \set {\dfrac 1 n: n \in \Z_{>0} }$

It is seen that:
 * $S = \set {1, \dfrac 1 2, \dfrac 1 3, \ldots}$

and hence $\inf S = 0$.

Thus $\inf S \notin S$.

Consider the subset $T$ of the real numbers $\R$ defined as:
 * $T = \set {-\dfrac 1 n: n \in \Z_{>0} }$

It is seen that:
 * $T = \set {-1, -\dfrac 1 2, -\dfrac 1 3, \ldots}$

and hence $\inf T = 1$.

Thus $\inf T \in T$.