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Difference between revisions of "Closed-graph theorem"

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Let and Y be complete metric linear spaces with translation-invariant metrics, i.e. \rho_X(x_1+a,x_2+a) = \rho_X(x_1,x_2), x_1,x_2,a \in X (similarly for Y), and let T be a linear operator from X to Y. If the graph \mathrm{Gr}(T) = \{ (x,Tx) : x \in X \}  of this operator is a closed subset of the Cartesian product X \times Y, then T is continuous. The closed-graph theorem has various generalizations; for example: a linear mapping with closed graph from a separable [[barrelled space]] into a perfectly-complete space is continuous. Closely related theorems are the open-mapping theorem and Banach's homeomorphism theorem.
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Let X and Y be [[Complete metric space|complete metric]] [[linear space]]s with [[translation-invariant metric]]s, i.e. \rho_X(x_1+a,x_2+a) = \rho_X(x_1,x_2), x_1,x_2,a \in X (similarly for Y), and let T be a [[linear operator]] from X to Y. If the graph \mathrm{Gr}(T) = \{ (x,Tx) : x \in X \}  of this operator is a closed subset of the Cartesian product X \times Y, then T is continuous. The closed-graph theorem has various generalizations; for example: a linear mapping with closed graph from a separable [[barrelled space]] into a perfectly-complete space is continuous. Closely related theorems are the open-mapping theorem and Banach's homeomorphism theorem.
  
 
====References====
 
====References====

Latest revision as of 18:20, 8 December 2014


Let X and Y be complete metric linear spaces with translation-invariant metrics, i.e. \rho_X(x_1+a,x_2+a) = \rho_X(x_1,x_2), x_1,x_2,a \in X (similarly for Y), and let T be a linear operator from X to Y. If the graph \mathrm{Gr}(T) = \{ (x,Tx) : x \in X \} of this operator is a closed subset of the Cartesian product X \times Y, then T is continuous. The closed-graph theorem has various generalizations; for example: a linear mapping with closed graph from a separable barrelled space into a perfectly-complete space is continuous. Closely related theorems are the open-mapping theorem and Banach's homeomorphism theorem.

References

[1] W. Rudin, "Functional analysis" , McGraw-Hill (1979)
[2] A.P. Robertson, W.S. Robertson, "Topological vector spaces" , Cambridge University Press (1964)


Comments

Cf. also Open-mapping theorem (also for the Banach homeomorphism theorem).

How to Cite This Entry:
Closed-graph theorem. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Closed-graph_theorem&oldid=35500
This article was adapted from an original article by V.I. Sobolev (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article
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