Difference between revisions of "Homeomorphism"
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| − | a | + | Let $(X,\tau)$ and $(Y,\sigma)$ be [[topological space|topological spaces]]. Let $f \colon X \rightarrow Y$ be a [[function]]. We say that $f$ is a ''homeomorphism between $(X,\tau)$ and $(Y,\sigma)$'' if the following properties are satisfied: |
| + | # $f$ is a [[function | bijection]]; | ||
| + | # $f$ is [[continuous]]; | ||
| + | # the inverse function function $f^{-1}$ is continuous. | ||
Latest revision as of 01:10, 30 April 2015
Let $(X,\tau)$ and $(Y,\sigma)$ be topological spaces. Let $f \colon X \rightarrow Y$ be a function. We say that $f$ is a homeomorphism between $(X,\tau)$ and $(Y,\sigma)$ if the following properties are satisfied:
- $f$ is a bijection;
- $f$ is continuous;
- the inverse function function $f^{-1}$ is continuous.
