Product topology: Difference between revisions

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In general topology, the product topology is an assignment of open sets to the Cartesian product of a familiy of topological space.

The product topology on a product of two topological spaces (X,T) and (Y,U) is the topology with sub-basis for open sets of the form G×H where G is open in X (that is, G is an element of T) and H is open in Y (that is, H is an element of U). So a set is open in the product topology if is a union of products of open sets.

By iteration, the prodct topology on a finite Cartesian product X₁×...×X_n is the topology with sub-basis of the form G₁×...×G_n.

The product topology on an arbitary product ${\displaystyle \prod _{\lambda \in \Lambda }X_{\lambda }}$ is the topology with sub-basis ${\displaystyle \prod _{\lambda \in \Lambda }G_{\lambda }}$ where each G_λ and where all but finitely many of the G_λ are equal to the whole of the corresponding X_λ.

The product topology has a universal property: if there is a topological space Z with continuous maps ${\displaystyle f_{\lambda }:Z\rightarrow X_{\lambda }}$, then there is a continuous map ${\displaystyle h:Z\rightarrow \prod _{\lambda \in \Lambda }X_{\lambda }}$ such that the compositions ${\displaystyle h\cdot \mathrm {pr} _{\lambda }=f_{\lambda }}$. This map h is defined by

${\displaystyle h(z)=(\lambda \mapsto f_{\lambda }(z)).\,}$

The projection maps pr_λ to the factor spaces are continuous and open maps.

References

• Wolfgang Franz (1967). General Topology. Harrap, 52-55. 
• J.L. Kelley (1955). General topology. van Nostrand, 90-91.