Cauchy Sequence in Metric Space is not necessarily Convergent

Theorem
Let $M = \struct {A, d}$ be a metric space.

Let $\sequence {x_n}$ be a Cauchy sequence in $M$.

Then it is not necessarily the case that $M$ is a convergent sequence in $M$.

Proof
Let $A \subseteq \R$ be the set of all points on $\R$ defined as:
 * $A := \set {\dfrac 1 n : n \in \Z_{>0} }$

Let $M = \struct {A, \tau_d}$ be the integer reciprocal space under the usual (Euclidean) topology.

Let $\sequence {x_n}$ be a sequence in $A$ that converges to the limit $l \in A$.

From Integer Reciprocal Space contains Cauchy Sequence with no Limit, $\sequence {x_n}$ is a Cauchy sequence in $M$ which does not converge in $M$.