Countably compact space

In mathematics a topological space is countably compact if every countable open cover has a finite subcover.

Examples

The first uncountable ordinal (with the order topology) is an example of a countably compact space that is not compact.

A compact space is countably compact.
A countably compact space is always limit point compact.
For metrizable spaces, countable compactness, sequential compactness, limit point compactness and compactness are all equivalent.
The example of the set of all real numbers with the standard topology shows that neither local compactness nor σ-compactness nor paracompactness imply countable compactness.
For T1 spaces, countable compactness and limit point compactness are equivalent.

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