Homotopy Invariance
Homotopy equivalence is important because in algebraic topology many concepts are homotopy invariant, that is, they respect the relation of homotopy equivalence. For example, if X and Y are homotopy equivalent spaces, then:
- If X is path-connected then so is Y.
- If X is simply connected then so is Y.
- The (singular) homology and cohomology groups of X and Y are isomorphic.
- If X and Y are path-connected, then the fundamental groups of X and Y are isomorphic, and so are the higher homotopy groups. (Without the path-connectedness assumption, one has π1(X,x0) isomorphic to π1(Y,f(x0)) where f : X → Y is a homotopy equivalence and x0 ∈ X.)
An example of an algebraic invariant of topological spaces which is not homotopy-invariant is compactly supported homology (which is, roughly speaking, the homology of the compactification, and compactification is not homotopy-invariant).
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