Sierpiński's theorem on metric spaces

In mathematics, Sierpiński's theorem is an isomorphism theorem concerning certain metric spaces, named after Wacław Sierpiński who proved it in 1920.Template:R

It states that any countable metric space without isolated points is homeomorphic to ${\displaystyle \mathbb{Q}}$ (with its standard topology).Template:R

As a consequence of the theorem, the metric space ${\displaystyle {\mathbb{Q}}^2}$ (with its usual Euclidean distance) is homeomorphic to ${\displaystyle \mathbb{Q}}$, which may seem counterintuitive. This is in contrast to, e.g., ${\displaystyle {ℝ}^2}$, which is not homeomorphic to ${\displaystyle ℝ}$. As another example, ${\displaystyle \mathbb{Q}\cap [0,1]}$ is also homeomorphic to ${\displaystyle \mathbb{Q}}$, again in contrast to the closed real interval ${\displaystyle [0,1]}$, which is not homeomorphic to ${\displaystyle ℝ}$ (whereas the open interval ${\displaystyle (0,1)}$ is).

• Cantor's isomorphism theorem is an analogous statement on linear orders.