Homotopy excision theorem

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In algebraic topology, the homotopy excision theorem offers a substitute for the absence of excision in homotopy theory. More precisely, let $(X;A,B)$ be an excisive triad with $C=A\cap B$ nonempty, and suppose the pair $(A,C)$ is ( $m-1$ )-connected, $m\geq 2$ , and the pair $(B,C)$ is ( $n-1$ )-connected, $n\geq 1$ . Then the map induced by the inclusion $i\colon (A,C)\to (X,B)$ ,

i_{*}\colon \pi _{q}(A,C)\to \pi _{q}(X,B)

,

is bijective for $q<m+n-2$ and is surjective for $q=m+n-2$ .

A geometric proof is given in a book by Tammo tom Dieck.^[1]

This result should also be seen as a consequence of the most general form of the Blakers–Massey theorem, which deals with the non-simply-connected case. ^[2]

The most important consequence is the Freudenthal suspension theorem.

References

^ Tammo tom Dieck, Algebraic Topology, EMS Textbooks in Mathematics, (2008).
^ Brown, Ronald; Loday, Jean-Louis (1987). "Homotopical excision and Hurewicz theorems for n-cubes of spaces". Proceedings of the London Mathematical Society. 54 (1): 176–192. doi:10.1112/plms/s3-54.1.176. MR 0872255.

Bibliography

J. Peter May, A Concise Course in Algebraic Topology, Chicago University Press.

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[1] Tammo tom Dieck, Algebraic Topology, EMS Textbooks in Mathematics, (2008).

[2] Brown, Ronald; Loday, Jean-Louis (1987). "Homotopical excision and Hurewicz theorems for n-cubes of spaces". Proceedings of the London Mathematical Society. 54 (1): 176–192. doi:10.1112/plms/s3-54.1.176. MR 0872255.

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