Difference between revisions of "Mapping cylinder"
From Encyclopedia of Mathematics
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''cylindrical construction'' | ''cylindrical construction'' | ||
| − | A construction associating with every continuous mapping of topological spaces | + | A construction associating with every continuous mapping of topological spaces $ f: X \rightarrow Y $ |
| + | the topological space $ I _ {f} \supset Y $ | ||
| + | that is obtained from the topological sum (disjoint union) $ X \times [ 0, 1] \amalg Y $ | ||
| + | by the identification $ x \times \{ 1 \} = f ( x) $, | ||
| + | $ x \in X $. | ||
| + | The space $ I _ {f} $ | ||
| + | is called the mapping cylinder of $ f $, | ||
| + | the subspace $ Y $ | ||
| + | is a [[Deformation retract|deformation retract]] of $ I _ {f} $. | ||
| + | The imbedding $ i: X = X \times \{ 0 \} \subset I _ {f} $ | ||
| + | has the property that the composite $ \pi \circ i: X \rightarrow Y $ | ||
| + | coincides with $ f $( | ||
| + | here $ \pi $ | ||
| + | is the natural retraction of $ I _ {f} $ | ||
| + | onto $ Y $). | ||
| + | The mapping $ \pi : I _ {f} \rightarrow Y $ | ||
| + | is a homotopy equivalence, and from the homotopy point of view every continuous mapping can be regarded as an imbedding and even as a [[Cofibration|cofibration]]. A similar assertion holds for a [[Serre fibration|Serre fibration]]. For any continuous mapping $ f: X \rightarrow Y $ | ||
| + | the fibre and cofibre are defined up to a homotopy equivalence. | ||
====References==== | ====References==== | ||
<table><TR><TD valign="top">[1]</TD> <TD valign="top"> E.H. Spanier, "Algebraic topology" , McGraw-Hill (1966)</TD></TR><TR><TD valign="top">[2]</TD> <TD valign="top"> R.E. Mosher, M.C. Tangora, "Cohomology operations and their application in homotopy theory" , Harper & Row (1968)</TD></TR></table> | <table><TR><TD valign="top">[1]</TD> <TD valign="top"> E.H. Spanier, "Algebraic topology" , McGraw-Hill (1966)</TD></TR><TR><TD valign="top">[2]</TD> <TD valign="top"> R.E. Mosher, M.C. Tangora, "Cohomology operations and their application in homotopy theory" , Harper & Row (1968)</TD></TR></table> | ||
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====Comments==== | ====Comments==== | ||
Latest revision as of 07:59, 6 June 2020
cylindrical construction
A construction associating with every continuous mapping of topological spaces $ f: X \rightarrow Y $ the topological space $ I _ {f} \supset Y $ that is obtained from the topological sum (disjoint union) $ X \times [ 0, 1] \amalg Y $ by the identification $ x \times \{ 1 \} = f ( x) $, $ x \in X $. The space $ I _ {f} $ is called the mapping cylinder of $ f $, the subspace $ Y $ is a deformation retract of $ I _ {f} $. The imbedding $ i: X = X \times \{ 0 \} \subset I _ {f} $ has the property that the composite $ \pi \circ i: X \rightarrow Y $ coincides with $ f $( here $ \pi $ is the natural retraction of $ I _ {f} $ onto $ Y $). The mapping $ \pi : I _ {f} \rightarrow Y $ is a homotopy equivalence, and from the homotopy point of view every continuous mapping can be regarded as an imbedding and even as a cofibration. A similar assertion holds for a Serre fibration. For any continuous mapping $ f: X \rightarrow Y $ the fibre and cofibre are defined up to a homotopy equivalence.
References
| [1] | E.H. Spanier, "Algebraic topology" , McGraw-Hill (1966) |
| [2] | R.E. Mosher, M.C. Tangora, "Cohomology operations and their application in homotopy theory" , Harper & Row (1968) |
Comments
The literal translation from the Russian yields the phrase "cylindrical construction" for the mapping cylinder. This phrase sometimes turns up in translations.
References
| [a1] | G.W. Whitehead, "Elements of homotopy theory" , Springer (1978) pp. 22, 23 |
How to Cite This Entry:
Mapping cylinder. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Mapping_cylinder&oldid=43106
Mapping cylinder. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Mapping_cylinder&oldid=43106
This article was adapted from an original article by A.F. Kharshiladze (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article