Difference between revisions of "Weak homology"
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| − | An equivalence relation between cycles leading to the definition of the [[Spectral homology|spectral homology]] groups | + | <!-- |
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| + | $#C+1 = 13 : ~/encyclopedia/old_files/data/W097/W.0907210 Weak homology | ||
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| + | An equivalence relation between cycles leading to the definition of the [[Spectral homology|spectral homology]] groups $ \check{H} _ {p} ( C; G) $. | ||
| + | It is known that the Steenrod–Sitnikov homology groups $ H _ {p} ( C; G) $ | ||
| + | of a compact space map epimorphically onto $ \check{H} _ {p} ( C; G) $, | ||
| + | and that the kernel $ K $ | ||
| + | of this epimorphism is isomorphic to the first derived functor $ \lim\limits _ \leftarrow {} ^ {1} $ | ||
| + | of the inverse limit of the homology groups $ H _ {p} ( \alpha ; G) $ | ||
| + | of the nerves of the open coverings $ \alpha $ | ||
| + | of the space $ C $. | ||
| + | The groups $ H _ {p} $ | ||
| + | were originally defined in terms of Vietoris cycles, and the cycles giving the elements of the subgroup $ K \subset H _ {p} ( C; G) $ | ||
| + | were called weakly homologous to zero. On the other hand, Vietoris cycles homologous to zero in the above definition of the groups $ H _ {p} $ | ||
| + | are sometimes called strongly homologous to zero (and the corresponding equivalence relation between them is called strong homology). In the case when $ G $ | ||
| + | is a compact group or a field, the kernel $ K $ | ||
| + | is equal to zero, and the concepts of strong and weak homology turn out to be equivalent. | ||
====References==== | ====References==== | ||
<table><TR><TD valign="top">[1]</TD> <TD valign="top"> P.S. Aleksandrov, "Topological duality theorems II. Non-closed sets" ''Trudy Mat. Inst. Steklov.'' , '''54''' (1959) pp. 3–136 (In Russian)</TD></TR><TR><TD valign="top">[2]</TD> <TD valign="top"> W.S. Massey, "Notes on homology and cohomology theory" , Yale Univ. Press (1964)</TD></TR></table> | <table><TR><TD valign="top">[1]</TD> <TD valign="top"> P.S. Aleksandrov, "Topological duality theorems II. Non-closed sets" ''Trudy Mat. Inst. Steklov.'' , '''54''' (1959) pp. 3–136 (In Russian)</TD></TR><TR><TD valign="top">[2]</TD> <TD valign="top"> W.S. Massey, "Notes on homology and cohomology theory" , Yale Univ. Press (1964)</TD></TR></table> | ||
Latest revision as of 08:28, 6 June 2020
An equivalence relation between cycles leading to the definition of the spectral homology groups $ \check{H} _ {p} ( C; G) $.
It is known that the Steenrod–Sitnikov homology groups $ H _ {p} ( C; G) $
of a compact space map epimorphically onto $ \check{H} _ {p} ( C; G) $,
and that the kernel $ K $
of this epimorphism is isomorphic to the first derived functor $ \lim\limits _ \leftarrow {} ^ {1} $
of the inverse limit of the homology groups $ H _ {p} ( \alpha ; G) $
of the nerves of the open coverings $ \alpha $
of the space $ C $.
The groups $ H _ {p} $
were originally defined in terms of Vietoris cycles, and the cycles giving the elements of the subgroup $ K \subset H _ {p} ( C; G) $
were called weakly homologous to zero. On the other hand, Vietoris cycles homologous to zero in the above definition of the groups $ H _ {p} $
are sometimes called strongly homologous to zero (and the corresponding equivalence relation between them is called strong homology). In the case when $ G $
is a compact group or a field, the kernel $ K $
is equal to zero, and the concepts of strong and weak homology turn out to be equivalent.
References
| [1] | P.S. Aleksandrov, "Topological duality theorems II. Non-closed sets" Trudy Mat. Inst. Steklov. , 54 (1959) pp. 3–136 (In Russian) |
| [2] | W.S. Massey, "Notes on homology and cohomology theory" , Yale Univ. Press (1964) |
How to Cite This Entry:
Weak homology. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Weak_homology&oldid=49181
Weak homology. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Weak_homology&oldid=49181
This article was adapted from an original article by E.G. Sklyarenko (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article