Locally contractible space: Difference between revisions

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

This is a variation of contractible space. View other variations of contractible space

Definition

Symbol-free definition

A topological space ${\displaystyle X}$ is said to be locally contractible if it satisfies the following equivalent conditions:

1. It has a basis of open subsets each of which is a contractible space under the subspace topology.
2. For every ${\displaystyle x\in X}$ and every open subset ${\displaystyle V\ni x}$ of ${\displaystyle X}$, there exists an open subset ${\displaystyle U\ni x}$ such that ${\displaystyle U\subseteq V}$ and ${\displaystyle U}$ is a contractible space in the subspace topology from ${\displaystyle V}$.

Formalisms

In terms of the locally operator

This property is obtained by applying the locally operator to the property: contractible space

Relation with other properties

Incomparable properties

• Contractible space: A contractible space need not be locally contractible; in fact, it need not even be locally connected! An example of a contractible space that is not locally connected is the comb space. Conversely, a locally contractible space need not be contractible. For instance, any manifold is locally contractible, but manifolds such as the circle are not contractible.

Stronger properties

• Manifold
• Locally Euclidean space
• CW-space

Weaker properties

• Locally simply connected space
• Semilocally weakly contractible space
• Semilocally simply connected space
• Locally path-connected space
• Locally connected space