Difference between revisions of "Interior of a set"
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| − | + | ''of a set $A$ in a [[topological space]] $X$'' | |
| − | [[ | + | The interior, or (open kernel), of $A$ is the set of all [[Interior point of a set|interior points]] of $A$: the union of all open sets of $X$ which are subsets of $A$; a point $x \in A$ is interior if there is a [[neighbourhood]] $N_x$ contained in $A$ and containing $x$. The interior may be denoted $A^\circ$, $\mathrm{Int} A$ or $\langle A \rangle$. |
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| + | The interior of $A$ is the complement in $A$ of the boundary of $A$. If $A$ and $B$ are mutually complementary sets in a topological space $X$, that is, if $B = X \setminus A$, then the interior of $A$ is the complement of the [[Closure of a set|closure]] of $B$: $X \setminus [A] = \langle B \rangle$ and $X \setminus \langle B \rangle = [ A ]$. | ||
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| + | The terminology "kernel" is seldom used in this context in the English mathematical literature. | ||
Revision as of 20:11, 19 December 2015
2020 Mathematics Subject Classification: Primary: 54A [MSN][ZBL]
of a set $A$ in a topological space $X$
The interior, or (open kernel), of $A$ is the set of all interior points of $A$: the union of all open sets of $X$ which are subsets of $A$; a point $x \in A$ is interior if there is a neighbourhood $N_x$ contained in $A$ and containing $x$. The interior may be denoted $A^\circ$, $\mathrm{Int} A$ or $\langle A \rangle$.
The interior of $A$ is the complement in $A$ of the boundary of $A$. If $A$ and $B$ are mutually complementary sets in a topological space $X$, that is, if $B = X \setminus A$, then the interior of $A$ is the complement of the closure of $B$: $X \setminus [A] = \langle B \rangle$ and $X \setminus \langle B \rangle = [ A ]$.
The terminology "kernel" is seldom used in this context in the English mathematical literature.
Interior of a set. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Interior_of_a_set&oldid=33643