First-countable space: Difference between revisions

Revision as of 19:35, 17 December 2007

This article defines a property of topological space that is pivotal (viz important) among currently studied properties of topological spaces

Definition

Symbol-free definition

A topological space is said to be first-countable if for any point, there is a countable basis at that point.

Definition with symbols

A topological space $X$ is said to be first-countable if for any $x\in X$ , there exists a countable collection $U_{n}$ of open sets around $x$ such that any open $V\ni x$ contains some $U_{n}$ .

Relation with other properties

Stronger properties

Weaker properties

Sequential space

Metaproperties

Hereditariness

This property of topological spaces is hereditary, or subspace-closed. In other words, any subspace (subset with the subspace topology) of a topological space with this property also has this property.
View other subspace-hereditary properties of topological spaces

Any subspace of a first-countable space is first-countable. We can take, for our new basis at any point, the intersection of the old basis elements with the subspace. For full proof, refer: First-countability is hereditary

Template:Countable DP-closed

Any countable product of first-countable spaces is first-countable.

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 ===Definition with symbols===
-A [[topological space]] <math>X</math> is said to be '''first-countable''' if for any <math>x \in X</math>, there exists a countable collection ,math>U_n</math> of open sets around <math>x</math> such that any open <math>V \ni x</math> contains some <math>U_n</math>.
+A [[topological space]] <math>X</math> is said to be '''first-countable''' if for any <math>x \in X</math>, there exists a countable collection <math>U_n</math> of open sets around <math>x</math> such that any open <math>V \ni x</math> contains some <math>U_n</math>.
 ==Relation with other properties==