Totally bounded set/Related Articles: Difference between revisions
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imported>Richard Pinch (Parent: Metric space. Compactness axioms; Related:Closed set, Compact space, Open set, Paving dimension) |
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{{r|Open set}} | {{r|Open set}} | ||
{{r|Paving dimension}} | {{r|Paving dimension}} | ||
==Articles related by keyphrases (Bot populated)== | |||
{{r|Normed space}} | |||
{{r|Discrete metric}} | |||
Latest revision as of 17:01, 29 October 2024
- See also changes related to Totally bounded set, or pages that link to Totally bounded set or to this page or whose text contains "Totally bounded set".
Parent topics
- Metric space [r]: Any topological space which has a metric defined on it. [e]
- Compactness axioms [r]: Properties of a toplogical space related to compactness. [e]
Subtopics
- Closed set [r]: In geometry and topology, a set that contains its boundary; the complement of an open set. [e]
- Compact space [r]: A toplogical space for which every covering with open sets has a finite subcovering. [e]
- Open set [r]: In geometry and topology, a set that does not contain any of its boundary points. [e]
- Paving dimension [r]: A definition of dimension applicable to compact metric spaces. [e]
- Normed space [r]: A vector space that is endowed with a norm. [e]
- Discrete metric [r]: The metric on a space which assigns distance one to any distinct points, inducing the discrete topology. [e]