Difference between revisions of "Relative topology"
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The relative topology is often called the induced topology or subspace topology. | The relative topology is often called the induced topology or subspace topology. | ||
| − | A subset of the topological space $(X,\tau)$ equipped with the relative topology is called a subspace of $(X,\tau)$. A subspace of a $T_i$-space is itself a $T_i$-space, $i=0,1,2,3,31/2$ (cf. [[Separation axiom]]). A subspace of a [[metrizable space]] is itself metrizable. Any Tikhonov space of weight $\leq\theta$ is homeomorphic to a subspace of a Hausdorff compactum of weight $\leq\theta$ | + | A subset of the topological space $(X,\tau)$ equipped with the relative topology is called a subspace of $(X,\tau)$. A subspace of a $T_i$-space is itself a $T_i$-space, $i=0,1,2,3,31/2$ (cf. [[Separation axiom]]). A subspace of a [[metrizable space]] is itself metrizable. Any [[Tikhonov space]] of [[Weight of a topological space|weight]] $\leq\theta$ (that is, having an open [[base]] of cardinality $\leq \theta$) is homeomorphic to a subspace of a Hausdorff compactum of weight $\leq\theta$ by [[Tikhonov theorem|Tikhonov's theorem]]. |
Revision as of 17:09, 7 May 2016
2020 Mathematics Subject Classification: Primary: 54B05 [MSN][ZBL]
of a subset $A$ of a topological space $(X,\tau)$
The system $\tau_A$ of intersections of all possible open subsets of $(X,\tau)$ (i.e. of elements of the topology $\tau$) with $A$: $$ \tau_A = \{ A \cap U : U \in \tau \} \ . $$ The relative topology is often called the induced topology or subspace topology.
A subset of the topological space $(X,\tau)$ equipped with the relative topology is called a subspace of $(X,\tau)$. A subspace of a $T_i$-space is itself a $T_i$-space, $i=0,1,2,3,31/2$ (cf. Separation axiom). A subspace of a metrizable space is itself metrizable. Any Tikhonov space of weight $\leq\theta$ (that is, having an open base of cardinality $\leq \theta$) is homeomorphic to a subspace of a Hausdorff compactum of weight $\leq\theta$ by Tikhonov's theorem.
Comments
The subspace topology is the coarsest topology on $A$ for which the embedding map $A \hookrightarrow X$ is continuous.
Topological properties which pass to subspaces are called hereditary.
References
| [a1] | J.L. Kelley, "General topology" , v. Nostrand (1955) pp. 50ff |
Relative topology. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Relative_topology&oldid=37350