A subset of a topological space is called a regular open set if it is equal to the interior of its closure; expressed symbolically, if or, equivalently, if where and denote, respectively, the interior, closure and boundary of [1]

A subset of is called a regular closed set if it is equal to the closure of its interior; expressed symbolically, if or, equivalently, if [1]

Examples

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If   has its usual Euclidean topology then the open set   is not a regular open set, since   Every open interval in   is a regular open set and every non-degenerate closed interval (that is, a closed interval containing at least two distinct points) is a regular closed set. A singleton   is a closed subset of   but not a regular closed set because its interior is the empty set   so that  

Properties

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A subset of   is a regular open set if and only if its complement in   is a regular closed set.[2] Every regular open set is an open set and every regular closed set is a closed set.

Each clopen subset of   (which includes   and   itself) is simultaneously a regular open subset and regular closed subset.

The interior of a closed subset of   is a regular open subset of   and likewise, the closure of an open subset of   is a regular closed subset of  [2] The intersection (but not necessarily the union) of two regular open sets is a regular open set. Similarly, the union (but not necessarily the intersection) of two regular closed sets is a regular closed set.[2]

The collection of all regular open sets in   forms a complete Boolean algebra; the join operation is given by   the meet is   and the complement is  

See also

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Notes

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  1. ^ a b Steen & Seebach, p. 6
  2. ^ a b c Willard, "3D, Regularly open and regularly closed sets", p. 29

References

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  • Lynn Arthur Steen and J. Arthur Seebach, Jr., Counterexamples in Topology. Springer-Verlag, New York, 1978. Reprinted by Dover Publications, New York, 1995. ISBN 0-486-68735-X (Dover edition).
  • Willard, Stephen (2004) [1970]. General Topology. Mineola, N.Y.: Dover Publications. ISBN 978-0-486-43479-7. OCLC 115240.