Compact times paracompact implies paracompact: Difference between revisions

This article states and proves a result of the following form: the product of two topological spaces, the first satisfying the property "{{{left}}}" is not a number. and the second satisfying the property "{{{right}}}" is not a number., is a topological space satisfying the property "{{{final}}}" is not a number..
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This fact is related to: compactness

Statement

Verbal statement

The product of a compact space with a paracompact space (given the product topology), is paracompact

Symbolic statement

Let ${\displaystyle X}$ be a compact space and ${\displaystyle Y}$ a paracompact space. Then ${\displaystyle X\times Y}$ is paracompact.

Related results

Other results using the same proof technique:

• Compact times metacompact implies metacompact
• Compact times orthocompact implies orthocompact
• Compact times Lindelof implies Lindelof

Results used in proof

The key result used is the tube lemma, which exploits the compactness of ${\displaystyle X}$.

Proof

Let ${\displaystyle X}$ be compact and ${\displaystyle Y}$ paracompact. We need to prove that ${\displaystyle X\times Y}$ is paracompact.

Start off with an open cover of ${\displaystyle X\times Y}$. For each ${\displaystyle y\in Y}$, this yields an open cover of ${\displaystyle X\times \{y\}}$ (treated as a copy of ${\displaystyle X}$). By compactness, we can choose a finite subcover of the cover at each point, and this finite ... Fill this in later