CW-space: Difference between revisions
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===Stronger properties=== | ===Stronger properties=== | ||
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! Property !! Meaning !! Proof of implication !! Proof of strictness (reverse implication failure) !! Intermediate notions | |||
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| [[Weaker than::Polyhedron]] || occurs as the geometric realization of a [[simplicial complex]] || || || {{intermediate notions short|CW-space|polyhedron}} | |||
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===Weaker properties=== | ===Weaker properties=== | ||
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! Property !! Meaning !! Proof of implication !! Proof of strictness (reverse implication failure) !! Intermediate notions | |||
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| [[Stronger than::Hereditarily paracompact Hausdorff space]] || [[Hausdorff space]] that is also a [[hereditarily paracompact space]]: every subspace (with the [[subspace topology]]) is a [[paracompact space]] || || || {{intermediate notions short|hereditarily paracompact Hausdorff space|CW-space}} | |||
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| [[Stronger than::Paracompact Hausdorff space]] || || [[CW implies paracompact Hausdorff]] || || {{intermediate notions short|paracompact Hausdorff space|CW-space}} | |||
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| [[Stronger than::Perfectly normal space]] || || [[CW implies perfectly normal]] || || {{intermediate notions short|perfectly normal space|CW-space}} | |||
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| [[Stronger than::Normal space]] || || [[CW implies normal]] || || {{intermediate notions short|normal space|CW-space}} | |||
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| [[Stronger than::Hausdorff space]] || || [[CW implies Hausdorff]] || || {{intermediate notions short|Hausdorff space|CW-space}} | |||
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| [[Stronger than::Locally contractible space]] || every point is contained in a contractible open subset || || || {{intermediate notions short|locally contractible space|CW-space}} | |||
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| [[Stronger than::Locally path-connected space]] || || [[CW implies locally path-connected] || || {{intermediate notions short|locally path-connected space|CW-space}} | |||
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| [[Stronger than::Homotopy-CW-space]] || [[homotopy-equivalent topological spaces|homotopy-equivalent]] to a CW-space || (obvious) || any contractible space that is not a Hausdorff space, e.g., the [[line with two origins]] || {{intermediate notions short|homotopy-CW-space|CW-space}} | |||
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Latest revision as of 20:13, 29 January 2014
This article defines a property of topological spaces: a property that can be evaluated to true/false for any topological space|View a complete list of properties of topological spaces
Definition
A topological space is said to be a CW-space if it possesses a CW-decomposition, or in other words, if it can be viewed as the underlying topological space of a CW-complex.
Relation with other properties
Stronger properties
| Property | Meaning | Proof of implication | Proof of strictness (reverse implication failure) | Intermediate notions |
|---|---|---|---|---|
| Polyhedron | occurs as the geometric realization of a simplicial complex | |FULL LIST, MORE INFO |