Contractibility is product-closed: Difference between revisions

This article gives the statement, and possibly proof, of a topological space property satisfying a topological space metaproperty
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Statement

Symbolic statement

Let ${\displaystyle X_i}$, ${\displaystyle i\in I}$, be an indexed family of topological spaces. Then the product space, endowed with the product topology, is contractible.

We describe the proof for two spaces; the same idea works in general: Let ${\displaystyle X}$ and ${\displaystyle Y}$ be contractible spaces. Then the product space ${\displaystyle X\times Y}$ is contractible.

Proof

Key idea

Suppose ${\displaystyle F:X\times I\to X}$ and ${\displaystyle G:Y\times I\to Y}$ are contracting homotopies for ${\displaystyle X}$ and ${\displaystyle Y}$. Then the map ${\displaystyle F\times G}$ defined as:

${\displaystyle (F\times G)(x,y,t)=(F(x,t),G(y,t))}$

is a contracting homotopy for ${\displaystyle X\times Y}$.

Thus ${\displaystyle X\times Y}$ is contractible.