Difference between revisions of "Accumulation point"
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A point $x$ in a topological space $X$ such that in any [[neighbourhood]] of $x$ there is a point of $A$ distinct from $x$. A set can have many accumulation points; on the other hand, it can have none. For example, any real number is an accumulation point of the set of all rational numbers in the ordinary topology. In a [[discrete space]], no set has an accumulation point. The set of all accumulation points of a set $A$ in a space $X$ is called the ''[[derived set]]'' (of $A$). In a $T_1$-space, every neighbourhood of an accumulation point of a set contains infinitely many points of the set. | A point $x$ in a topological space $X$ such that in any [[neighbourhood]] of $x$ there is a point of $A$ distinct from $x$. A set can have many accumulation points; on the other hand, it can have none. For example, any real number is an accumulation point of the set of all rational numbers in the ordinary topology. In a [[discrete space]], no set has an accumulation point. The set of all accumulation points of a set $A$ in a space $X$ is called the ''[[derived set]]'' (of $A$). In a $T_1$-space, every neighbourhood of an accumulation point of a set contains infinitely many points of the set. | ||
− | The concept just defined should be distinguished from the concepts of a [[ | + | The concept just defined should be distinguished from the concepts of a [[proximate point]] and a [[complete accumulation point]]. In particular, any point of a set is a proximate point of the set, while it need not be an accumulation point (a counterexample: any point in a [[discrete space]]). |
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+ | [[Category:General topology]] |
Latest revision as of 16:48, 19 October 2014
of a set $A$
A point $x$ in a topological space $X$ such that in any neighbourhood of $x$ there is a point of $A$ distinct from $x$. A set can have many accumulation points; on the other hand, it can have none. For example, any real number is an accumulation point of the set of all rational numbers in the ordinary topology. In a discrete space, no set has an accumulation point. The set of all accumulation points of a set $A$ in a space $X$ is called the derived set (of $A$). In a $T_1$-space, every neighbourhood of an accumulation point of a set contains infinitely many points of the set.
The concept just defined should be distinguished from the concepts of a proximate point and a complete accumulation point. In particular, any point of a set is a proximate point of the set, while it need not be an accumulation point (a counterexample: any point in a discrete space).
Accumulation point. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Accumulation_point&oldid=31029