Homotopy excision theorem: Difference between revisions

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Line 1: {{short description\|Offers a substitute for the absence of excision in homotopy theory}} ~~{{underlinked\|date=October 2013}}~~ In [[algebraic topology]], the '''homotopy excision theorem''' offers a substitute for the absence of [[Excision theorem\|excision]] in [[homotopy theory]]. More precisely, let ''<math>(X''; beA, aB)</math> ~~space~~be ~~that~~an is[[excisive ~~union of the interiors of subspaces ''A'', ''B''~~triad]] with <math>C = A \cap B</math> nonempty, and suppose athe pair <math>(A, C)</math> is [[n-connected\|(<math>m-1</math>)-connected]], <math>m \ge 2</math>, and athe pair <math>(B, C)</math> is (<math>n-1</math>)-connected, <math>n \ge 1</math>. Then, ~~for~~the map induced by the inclusion <math>i:\colon (A, C) \to (X, B)</math>, :<math>i_:\colon \pi_q(A, C) \to \pi_q(X, B)</math>, is bijective for <math>q < m+n-2</math> and is surjective for <math>q = m+n-2</math>. A geometric proof is given in a book by [[Tammo tom Dieck]].<ref>[[Tammo tom Dieck]], ''Algebraic Topology'', EMS Textbooks in Mathematics, (2008).</ref> 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. <ref>{{cite journal \| last1=Brown \| first1=Ronald \| author1-link=Ronald Brown (mathematician)\|last2=Loday \| first2=Jean-Louis \| author2-link=Jean-Louis Loday\| title=Homotopical excision and Hurewicz theorems for ''n''-cubes of spaces \| journal=[[Proceedings of the London Mathematical Society]] \| volume=54 \| issue=1 \| year=1987 \| doi=10.1112/plms/s3-54.1.176 \| pages=176–192 \| mr=0872255}}</ref> The most important consequence is the [[Freudenthal suspension theorem]]. == References == {{reflist}} J.P. May, ''A Concise Course in Algebraic Topology'', Chicago University Press▼ == Bibliography == ▲* [[J.P. Peter May]], ''A Concise Course in Algebraic Topology'', Chicago University Press. [[Category:Theorems in homotopy theory]] {{topology-stub}}