Closed set: Difference between revisions

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In [[mathematics]], a set <math>A \subset X</math>, where <math>(X,O)</math> is some [[topological space]], is said to be closed if <math>X-A=\{x \in X \mid x \notin A\}</math>, the complement of <math>A</math> in <math>X</math>, is an [[open set]]
In [[mathematics]], a set <math>A \subset X</math>, where <math>(X,O)</math> is some [[topological space]], is said to be closed if <math>X-A=\{x \in X \mid x \notin A\}</math>, the complement of <math>A</math> in <math>X</math>, is an [[open set]]


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[[Compact set]]
[[Compact set]]
[[Category:Mathematics Workgroup]]
[[Category:CZ Live]]

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In mathematics, a set , where is some topological space, is said to be closed if , the complement of in , is an open set

Examples

1. Let with the usual topology induced by the Euclidean distance. Open sets are then of the form where and is an arbitrary index set (if then define ). Then closed sets by definition are of the form .

2. As a more interesting example, consider the function space consisting of all real valued continuous functions on the interval [a,b] (a<b) endowed with a topology induced by the distance . In this topology, the sets

and

are open sets while the sets

and

are closed (the sets and are, respectively, the closures of the sets and ).

See also

Topology

Analysis

Open set

Compact set