Homogeneous space: Difference between revisions
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===Symbol-free definition=== | ===Symbol-free definition=== | ||
A topological space is said to be '''homogeneous''' if given any two points in it, there is a homeomorphism from the topological space to itself that maps the first point to the second. | A topological space is said to be '''homogeneous''' if given any two points in it, there is a homeomorphism from the topological space to itself that maps the first point to the second. In other words, the [[self-homeomorphism group]] is transitive on the points of the topological space. | ||
===Definition with symbols=== | |||
A topological space <math>X</math> is said to be '''homogeneous''' if it satisfies the following equivalent conditions: | |||
# For any points <math>x,y \in X</math>, there is a homeomorphism <math>\varphi:X \to X</math> such that <math>\varphi(x) = y</math>. | |||
# The [[self-homeomorphism group]] of <math>X</math> is transitive on <math>X</math>. | |||
==Examples== | |||
===Extreme examples=== | |||
* The [[empty space]] is homogeneous for trivial reasons. | |||
* The [[one-point space]] is homogeneous for trivial reasons. | |||
* The discrete topology and trivial topology both give homogeneous spaces. | |||
===Mainstream examples=== | |||
* The real line, [[Euclidean space]], [[connected manifold]]s, and the underlying spaces of [[topological group]]s are all homogeneous. | |||
===Non-examples=== | |||
* The closed interval <math>[0,1]</math is not homogeneous, because there is no homeomorphism sending <math>0</math> to any point in the open interval <math>(0,1)</math>. | |||
* A pair of intersecting lines is not homogeneous because every homeomorphism fixes the point of intersection. | |||
==Relation with other properties== | ==Relation with other properties== | ||
Revision as of 14:59, 24 October 2009
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
Symbol-free definition
A topological space is said to be homogeneous if given any two points in it, there is a homeomorphism from the topological space to itself that maps the first point to the second. In other words, the self-homeomorphism group is transitive on the points of the topological space.
Definition with symbols
A topological space is said to be homogeneous if it satisfies the following equivalent conditions:
- For any points , there is a homeomorphism such that .
- The self-homeomorphism group of is transitive on .
Examples
Extreme examples
- The empty space is homogeneous for trivial reasons.
- The one-point space is homogeneous for trivial reasons.
- The discrete topology and trivial topology both give homogeneous spaces.
Mainstream examples
- The real line, Euclidean space, connected manifolds, and the underlying spaces of topological groups are all homogeneous.
Non-examples
- The closed interval to any point in the open interval .
- A pair of intersecting lines is not homogeneous because every homeomorphism fixes the point of intersection.
![{\displaystyle [0,1]</mathisnothomogeneous,becausethereisnohomeomorphismsending<math>0}](https://wikimedia.org/api/rest_v1/media/math/render/svg/0acd7f5b709637d3f6ac43e7383dcb278d58c984)
Relation with other properties
Stronger properties
| property | quick description | proof of implication | proof of strictness (reverse implication failure) | intermediate notions |
|---|---|---|---|---|
| Underlying space of topological group | underlying space for a topological group | underlying space of topological group implies homogeneous | ||
| Underlying space of T0 topological group | underlying space for a T0 topological group | |||
| Connected manifold | connected manifold implies homogeneous | |FULL LIST, MORE INFO | ||
| Compactly homogeneous space |