Cocountable topology: Difference between revisions

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In [[mathematics]], the '''cocountable topology''' is the [[topology]] on a [[set (mathematics)|set]] in which the [[open set]]s are those which have [[countable set|countable]] [[complement (set theory)|complement]], together with the empty set.  Equivalently, the [[closed set]]s are the countable sets, together with the whole space.
In [[mathematics]], the '''cocountable topology''' is the [[topology]] on a [[set (mathematics)|set]] in which the [[open set]]s are those which have [[countable set|countable]] [[complement (set theory)|complement]], together with the empty set.  Equivalently, the [[closed set]]s are the countable sets, together with the whole space.


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==References==
==References==
* {{cite book | author=Lynn Arthur Steen | authorlink=Lynn Arthur Steen | coauthors= J. Arthur Seebach jr | title=[[Counterexamples in Topology]] | year=1978 | publisher=[[Springer-Verlag]] | location=Berlin, New York | isbn=0-387-90312-7 | pages=50-51 }}
* {{cite book | author=Lynn Arthur Steen | authorlink=Lynn Arthur Steen | coauthors= J. Arthur Seebach jr | title=[[Counterexamples in Topology]] | year=1978 | publisher=[[Springer-Verlag]] | location=Berlin, New York | isbn=0-387-90312-7 | pages=50-51 }}[[Category:Suggestion Bot Tag]]

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In mathematics, the cocountable topology is the topology on a set in which the open sets are those which have countable complement, together with the empty set. Equivalently, the closed sets are the countable sets, together with the whole space.

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If X is countable, then the cocountable topology on X is the discrete topology, in which every set is open. We therefore assume that X is an uncountable set with the cocountable topology; it is:

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