Topological space: Difference between revisions
imported>Hendra I. Nurdin m (Added some CZ categories for this article) |
imported>Aleksander Stos (→Formal definition: traditional notation) |
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A topological space is an ordered pair <math>(X,O)</math> where <math>X</math> is a set and <math>O</math> is a collection of subsets of <math>X</math> (i.e. <math> A \in O \Rightarrow A \subset X</math>) with the following three properties: | A topological space is an ordered pair <math>(X,O)</math> where <math>X</math> is a set and <math>O</math> is a collection of subsets of <math>X</math> (i.e. <math> A \in O \Rightarrow A \subset X</math>) with the following three properties: | ||
1. <math>X</math> and <math>\ | 1. <math>X</math> and <math>\emptyset</math> (the empty set) are in <math>O</math> | ||
2. The union of any number (countable or uncountable) of elements of <math>O</math> is again in <math>O</math> | 2. The union of any number (countable or uncountable) of elements of <math>O</math> is again in <math>O</math> |
Revision as of 09:44, 31 August 2007
In mathematics, a topological space is an ordered pair where is a set and is a certain collection of subsets of called the open sets or the topology of . The topology of introduces a structure on the set which is useful for defining some important abstract notions such as the "closeness" of two elements of and convergence of sequences of elements of .
Formal definition
A topological space is an ordered pair where is a set and is a collection of subsets of (i.e. ) with the following three properties:
1. and (the empty set) are in
2. The union of any number (countable or uncountable) of elements of is again in
3. The intersection of any finite number of elements of is again in
Elements of the set are called open sets (of ).
Note that as shorthand a topological space is often simply written as once the particular topology on is understood.
See also