Vector bundle class functor: Difference between revisions

Revision as of 22:17, 23 December 2007

Definition

The vector bundle class functor of dimension $n$ , denoted $Vect^{n}$ , is a contravariant functor from the category of topological spaces with continuous maps to the category of sets, such that:

A topological space is mapped to the set of isomorphism classes of $n$ -dimensional real vector bundles over the topological space
A continuous map between topological spaces sends a vector bundle in the image space, to its pullback bundle

Facts

For paracompact Hausdorff spaces

Further information: Vector bundle class functor is homotopy-invariant for paracompact

If $A$ and $B$ are paracompact Hausdorff spaces, and $f_{0},f_{1}:A\to B$ are homotopic maps from $A$ to $B$ , then the functorially induced maps $Vect^{n}$ are equal.

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 ==Facts==
-===For paracompact Hausdorff spaces==
+===For paracompact Hausdorff spaces===
 {{further|[[Vector bundle class functor is homotopy-invariant for paracompact]]}}
 If <math>A</math> and <math>B</math> are [[paracompact Hausdorff space]]s, and <math>f_0, f_1: A \to B</math> are homotopic maps from <math>A</math> to <math>B</math>, then the functorially induced maps <math>Vect^n</math> are equal.