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Difference between revisions of "Almost continuity"

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A generic term used to describe any condition on a function <img align="absmiddle" border="0" src="https://www.encyclopediaofmath.org/legacyimages/a/a130/a130210/a1302101.png" /> such that all continuous functions satisfy it; one can also use it if the original <img align="absmiddle" border="0" src="https://www.encyclopediaofmath.org/legacyimages/a/a130/a130210/a1302102.png" /> is not necessarily continuous.
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A generic term used to describe any condition on a function $f$ such that all continuous functions satisfy it; one can also use it if the original $f$ is not necessarily continuous.
  
 
The original condition of continuity by A. Cauchy [[#References|[a2]]] was cleared by K. Weierstrass (late 1850s) from the vagueness of its formulation as well as its dependence upon motion (cf. also [[Continuous function|Continuous function]]). One of the first conditions of  "almost continuity"  was the [[Lipschitz condition|Lipschitz condition]], introduced in 1864; Riemann-integrable functions were studied in 1867 (cf. also [[Riemann integral|Riemann integral]]), while in 1870 H. Hankel introduced pointwise discontinuous functions (cf. [[Discontinuity point|Discontinuity point]]; [[Discontinuous function|Discontinuous function]]).
 
The original condition of continuity by A. Cauchy [[#References|[a2]]] was cleared by K. Weierstrass (late 1850s) from the vagueness of its formulation as well as its dependence upon motion (cf. also [[Continuous function|Continuous function]]). One of the first conditions of  "almost continuity"  was the [[Lipschitz condition|Lipschitz condition]], introduced in 1864; Riemann-integrable functions were studied in 1867 (cf. also [[Riemann integral|Riemann integral]]), while in 1870 H. Hankel introduced pointwise discontinuous functions (cf. [[Discontinuity point|Discontinuity point]]; [[Discontinuous function|Discontinuous function]]).

Latest revision as of 14:56, 1 May 2014

A generic term used to describe any condition on a function $f$ such that all continuous functions satisfy it; one can also use it if the original $f$ is not necessarily continuous.

The original condition of continuity by A. Cauchy [a2] was cleared by K. Weierstrass (late 1850s) from the vagueness of its formulation as well as its dependence upon motion (cf. also Continuous function). One of the first conditions of "almost continuity" was the Lipschitz condition, introduced in 1864; Riemann-integrable functions were studied in 1867 (cf. also Riemann integral), while in 1870 H. Hankel introduced pointwise discontinuous functions (cf. Discontinuity point; Discontinuous function).

Nowadays (2000), the term "almost continuity" is used for various conditions weakening the (topological) condition of continuity that the inverse image of any open set is open. For example, V. Volterra noticed that all real-valued separately continuous functions from the plane have a certain almost continuity property, which was later termed quasi-continuity, where it is required that the inverse image of every open set is semi-open, i.e., is contained in the closure of its interior; quasi-continuity has been successfully used in recent proofs of "deep" results in topological algebra (cf. also Separate and joint continuity), in particular in the proof that all Čech-complete semi-topological groups are topological (A. Bouziad, [a1]). Another frequently used type of almost continuity is the notion of near continuity, introduced by B.J. Pettis; it is used in place of linearity in topological versions of the closed-graph theorem, where the spaces under consideration are not necessarily assumed to be linear [a4].

The papers [a5] and [a3] serve as good guides in this rapidly growing field.

References

[a1] A. Bouziad, "Every Čech-analytic Baire semitopological group is a topological group" Proc. Amer. Math. Soc. , 124 (1996) pp. 953–959
[a2] A.L. Cauchy, "Cours d'analyse d'École Royale Polytechnique, 1821" , Oeuvres Complétes d'Augustin Cauchy, II Ser. , III , Gauthier-Villars (1897)
[a3] D. Gauld, S. Greenwood, I. Reilly, "On variations of continuity" Invited Contribution, Topology Atlas (2000) (http://at.yorku.ca/t/a/i/c/32.htm)
[a4] Z. Piotrowski, A. Szymański, "Closed graph theorem: Topological approach" Rend. Circ. Mat. Palermo , 37 (1988) pp. 88–99
[a5] M. Przemski, "On forms of continuity and cliquishness" Rend. Circ. Mat. Palermo , 42 (1993) pp. 417–452
How to Cite This Entry:
Almost continuity. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Almost_continuity&oldid=32047
This article was adapted from an original article by Z. Piotrowski (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article