Steiner inellipse: Difference between revisions

Revision as of 17:32, 13 January 2014

In topology, a branch of mathematics, a topological space X is said to be simply connected at infinity if for all compact subsets C of X, there is a compact set D in X containing C so that the induced map

\pi _{1}(X-D)\to \pi _{1}(X-C)\,

is trivial. Intuitively, this is the property that loops far away from a small subspace of X can be collapsed, no matter how bad the small subspace is.

The Whitehead manifold is an example of a 3-manifold that is contractible but not simply connected at infinity. Since this property is invariant under homeomorphism, this proves that the Whitehead manifold is not homeomorphic to R³.

However, it is a theorem of John R. Stallings ^[1] that for $n\geq 5$ , a contractible n-manifold is homeomorphic to Rⁿ precisely when it is simply connected at infinity.

References

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Template:Topology-stub

↑ http://www.math.rutgers.edu/~sferry/ps/geotop.pdf Ch. 10

[1] ttp://www.math.rutgers.edu/~sferry/ps/geotop.pdf Ch. 10

[1]

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+In [[topology]], a branch of mathematics, a [[topological space]] ''X'' is said to be '''simply connected at infinity''' if for all [[compact space|compact]] subsets ''C'' of ''X'', there is a compact set ''D'' in ''X'' containing ''C'' so that the induced map
+: <math> \pi_1(X-D) \to \pi_1(X-C)\,</math>
+is trivial.  Intuitively, this is the property that loops far away from a small subspace of ''X'' can be collapsed, no matter how bad the small subspace is.
+The [[Whitehead manifold]] is an example of a 3-[[manifold]] that is [[contractible]] but not simply connected at infinity. Since this property is invariant under [[homeomorphism]], this proves that the Whitehead manifold is not homeomorphic to '''R'''<sup>3</sup>.
+However, it is a theorem of [[John R. Stallings]] <ref>http://www.math.rutgers.edu/~sferry/ps/geotop.pdf Ch. 10</ref> that for <math>n \geq 5</math>, a contractible ''n''-manifold is homeomorphic to '''R'''<sup>''n''</sup> precisely when it is simply connected at infinity.
+==References==
+{{Reflist}}
+[[Category:Algebraic topology]]
+[[Category:Properties of topological spaces]]
+{{topology-stub}}

Steiner inellipse: Difference between revisions

Revision as of 17:32, 13 January 2014

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