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Statements

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dbr:Glossary_of_algebraic_topology
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dbr:Nilpotent_space
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dbr:Nilpotent_space
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멱영 공간 Nilpotent space
rdfs:comment
호모토피 이론에서 멱영 공간(冪零空間, 영어: nilpotent space)은 기본군이 멱영군이며 고차 호모토피 군에 특별히 간단하게 작용하는 위상 공간이다. 멱영 공간의 경우 유리수 호모토피 이론을 깔끔하게 전개할 수 있다. In topology, a branch of mathematics, a nilpotent space, first defined by Emmanuel Dror (1969), is a based topological space X such that * the fundamental group is a nilpotent group; * acts nilpotently on the higher homotopy groups , i.e., there is a central series such that the induced action of on the quotient group is trivial for all . Let X be a nilpotent space and let h be a reduced generalized homology theory, such as K-theory. If h(X)=0, then h vanishes on any Postnikov section of X. This follows from a theorem that states thatany such section is X-cellular.
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dbr:Adams_spectral_sequence dbr:Topology dbr:Rational_homotopy_theory dbr:Topological_space dbr:Simply_connected_space dbr:Contractible_space dbr:Hurewicz_theorem dbr:Nilpotent_group dbr:Whitehead_theorem dbr:Simple_space dbc:Topological_spaces dbr:Mathematics dbr:K-theory dbr:Homotopy_fiber dbr:CW_complex dbr:Fundamental_group dbr:Central_series dbr:Higher_homotopy_groups dbr:Pointed_space dbr:Loop_space
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In topology, a branch of mathematics, a nilpotent space, first defined by Emmanuel Dror (1969), is a based topological space X such that * the fundamental group is a nilpotent group; * acts nilpotently on the higher homotopy groups , i.e., there is a central series such that the induced action of on the quotient group is trivial for all . Simply connected spaces and simple spaces are (trivial) examples of nilpotent spaces; other examples are connected loop spaces. The homotopy fiber of any map between nilpotent spaces is a disjoint union of nilpotent spaces. Moreover, the null component of the pointed mapping space , where K is a pointed, finite-dimensional CW complex and X is any pointed space, is a nilpotent space. The odd-dimensional real projective spaces are nilpotent spaces, while the projective plane is not. A basic theorem about nilpotent spaces states that any map that induces an integral homology isomorphism between two nilpotent space is a weak homotopy equivalence. For simply connected spaces, this theorem recovers a well-known corollary to the Whitehead and Hurewicz theorems. Nilpotent spaces are of great interest in rational homotopy theory, because most constructions applicable to simply connected spaces can be extended to nilpotent spaces. The Bousfield–Kan nilpotent completion of a space associates with any connected pointed space X a universal space through which any map of X to a nilpotent space N factors uniquely up to a contractible space of choices. Often, however, itself is not nilpotent but only an inverse limit of a tower of nilpotent spaces. This tower, as a pro-space, always models the homology type of the given pointed space X. Nilpotent spaces admit a good arithmetic localization theory in the sense of Bousfield and Kan cited above, and the unstable Adams spectral sequence strongly converges for any such space. Let X be a nilpotent space and let h be a reduced generalized homology theory, such as K-theory. If h(X)=0, then h vanishes on any Postnikov section of X. This follows from a theorem that states thatany such section is X-cellular. 호모토피 이론에서 멱영 공간(冪零空間, 영어: nilpotent space)은 기본군이 멱영군이며 고차 호모토피 군에 특별히 간단하게 작용하는 위상 공간이다. 멱영 공간의 경우 유리수 호모토피 이론을 깔끔하게 전개할 수 있다.
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dbr:Rational_homotopy_theory
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dbr:Nilpotent_space
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wikipedia-en:Nilpotent_space
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dbr:Nilpotent_space