More on Convergence of Continuous Functions and Topological Convergence of Sets

Gerald Beer

doi:10.4153/CMB-1985-004-9

Abstract

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Let C(X, Y) denote the set of continuous functions from a metric space X to a metric space Y. Viewing elements of C(X, Y) as closed subsets of X × Y, we say {fn} converges topologically to f if Li fn = Lsfn = f. If X is connected, then topological convergence in C(X,R) does not imply pointwise convergence, but if X is locally connected and Y is locally compact, then topological convergence in C(X, Y) is equivalent to uniform convergence on compact subsets of X. Pathological aspects of topological convergence for seemingly nice spaces are also presented, along with a positive Baire category result.

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More on Convergence of Continuous Functions and Topological Convergence of Sets

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

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More on Convergence of Continuous Functions and Topological Convergence of Sets

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