gs Continuous Function in Topological Space

A note on weakly θ-continuous functions

International Journal of Mathematics and Mathematical Sciences ◽

10.1155/s0161171289000025 ◽

1989 ◽

Vol 12 (1) ◽

pp. 9-13 ◽

Cited By ~ 1

Author(s):

M. Mrševic ◽

I. L. Reilly

Keyword(s):

Continuous Function ◽

Continuous Functions ◽

Topological Spaces ◽

New Class ◽

Weakly Continuous ◽

Class Of Functions

Recently a new class of functions between topological spaces, called weaklyθ-continuous functions, has been introduced and studied. In this paper we show how an appropriate change of topology on the domain of a weaklyθ-continuous function reduces it to a weakly continuous function. This paper examines some of the consequences of this result.

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A View on Fuzzy Minimal Open Sets and Fuzzy Maximal Open Sets

International Journal of Software Science and Computational Intelligence ◽

10.4018/ijssci.2015010104 ◽

2015 ◽

Vol 7 (1) ◽

pp. 62-73 ◽

Cited By ~ 1

Author(s):

Hamid Reza Moradi

Keyword(s):

Topological Space ◽

Topological Spaces ◽

Basic Properties ◽

New Class ◽

Properties And Characterization ◽

Open Set ◽

Fuzzy Topological Space ◽

Fuzzy Topological Spaces ◽

Characterization Theorems

A nonzero fuzzy open set () of a fuzzy topological space is said to be fuzzy minimal open (resp. fuzzy maximal open) set if any fuzzy open set which is contained (resp. contains) in is either or itself (resp. either or itself). In this note, a new class of sets called fuzzy minimal open sets and fuzzy maximal open sets in fuzzy topological spaces are introduced and studied which are subclasses of open sets. Some basic properties and characterization theorems are also to be investigated.

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Fine Fuzzy sp Closed Sets in Fine Fuzzy Topological Spaces

International Journal of Engineering and Advanced Technology - Regular Issue ◽

10.35940/ijeat.c5222.029320 ◽

2020 ◽

Vol 9 (3) ◽

pp. 1306-1313

Keyword(s):

Continuous Function ◽

Topological Space ◽

Inverse Image ◽

Continuous Functions ◽

Topological Spaces ◽

The Novel ◽

Closed Set ◽

Closed Sets ◽

Fuzzy Topological Space ◽

Fuzzy Topological Spaces

The main view of this article is the extended version of the fine topological space to the novel kind of space say fine fuzzy topological space which is developed by the notion called collection of quasi coincident of fuzzy sets. In this connection, fine fuzzy closed sets are introduced and studied some features on it. Further, the relationship between fine fuzzy closed sets with certain types of fine fuzzy closed sets are investigated and their converses need not be true are elucidated with necessary examples. Fine fuzzy continuous function is defined as the inverse image of fine fuzzy closed set is fine fuzzy closed and its interrelations with other types of fine fuzzy continuous functions are obtained. The reverse implication need not be true is proven with examples. Finally, the applications of fine fuzzy continuous function are explained by using the composition.

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A GENERALIZATION OF SIERPINSKI THEOREM ON UNIQUE DETERMINING OF A SEPARATELY CONTINUOUS FUNCTION

Bukovinian Mathematical Journal ◽

10.31861/bmj2021.01.21 ◽

2021 ◽

Vol 9 (1) ◽

pp. 250-263

Author(s):

V. Mykhaylyuk ◽

O. Karlova

Keyword(s):

Continuous Function ◽

Topological Space ◽

Dense Subset ◽

Continuous Functions ◽

Baire Space ◽

Regular Space ◽

Topological Spaces ◽

Infinite Cardinal ◽

Urysohn Space ◽

Completely Regular

In 1932 Sierpi\'nski proved that every real-valued separately continuous function defined on the plane $\mathbb R^2$ is determined uniquely on any everywhere dense subset of $\mathbb R^2$. Namely, if two separately continuous functions coincide of an everywhere dense subset of $\mathbb R^2$, then they are equal at each point of the plane. Piotrowski and Wingler showed that above-mentioned results can be transferred to maps with values in completely regular spaces. They proved that if every separately continuous function $f:X\times Y\to \mathbb R$ is feebly continuous, then for every completely regular space $Z$ every separately continuous map defined on $X\times Y$ with values in $Z$ is determined uniquely on everywhere dense subset of $X\times Y$. Henriksen and Woods proved that for an infinite cardinal $\aleph$, an $\aleph^+$-Baire space $X$ and a topological space $Y$ with countable $\pi$-character every separately continuous function $f:X\times Y\to \mathbb R$ is also determined uniquely on everywhere dense subset of $X\times Y$. Later, Mykhaylyuk proved the same result for a Baire space $X$, a topological space $Y$ with countable $\pi$-character and Urysohn space $Z$. Moreover, it is natural to consider weaker conditions than separate continuity. The results in this direction were obtained by Volodymyr Maslyuchenko and Filipchuk. They proved that if $X$ is a Baire space, $Y$ is a topological space with countable $\pi$-character, $Z$ is Urysohn space, $A\subseteq X\times Y$ is everywhere dense set, $f:X\times Y\to Z$ and $g:X\times Y\to Z$ are weakly horizontally quasi-continuous, continuous with respect to the second variable, equi-feebly continuous wuth respect to the first one and such that $f|_A=g|_A$, then $f=g$. In this paper we generalize all of the results mentioned above. Moreover, we analize classes of topological spaces wich are favorable for Sierpi\'nsi-type theorems.

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Soft ωp-Open Sets and Soft ωp-Continuity in Soft Topological Spaces

Mathematics ◽

10.3390/math9202632 ◽

2021 ◽

Vol 9 (20) ◽

pp. 2632

Author(s):

Samer Al Ghour

Keyword(s):

Topological Space ◽

Continuous Functions ◽

Strong Form ◽

Topological Spaces ◽

New Class ◽

Soft Topology ◽

Dense Sets ◽

Soft Topological Space

We define soft ωp-openness as a strong form of soft pre-openness. We prove that the class of soft ωp-open sets is closed under soft union and do not form a soft topology, in general. We prove that soft ωp-open sets which are countable are soft open sets, and we prove that soft pre-open sets which are soft ω-open sets are soft ωp-open sets. In addition, we give a decomposition of soft ωp-open sets in terms of soft open sets and soft ω-dense sets. Moreover, we study the correspondence between the soft topology soft ωp-open sets in a soft topological space and its generated topological spaces, and vice versa. In addition to these, we define soft ωp-continuous functions as a new class of soft mappings which lies strictly between the classes of soft continuous functions and soft pre-continuous functions. We introduce several characterizations for soft pre-continuity and soft ωp-continuity. Finally, we study several relationships related to soft ωp-continuity.

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Almost ps-continuous functions

Tamkang Journal of Mathematics ◽

10.5556/j.tkjm.43.2012.737 ◽

2012 ◽

Vol 43 (1) ◽

pp. 33-50

Author(s):

Alias Barakat Khalaf ◽

Baravan A. Asaad

Keyword(s):

Continuous Function ◽

Continuous Functions ◽

Topological Spaces ◽

New Class ◽

Class Of Functions

The purpose of this paper is to introduce a new class of functions called almost ps-continuous function by using ps-open sets in topological spaces. Some properties and characterizations of this function are given.

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‎INSERTION OF A CONTRA-CONTINUOUS FUNCTION BETWEEN TWO ‎‎COMPARABLE CONTRA-$\alpha-$CONTINUOUS (CONTRA-$C-$CONTINUOUS) FUNCTIONS

Facta Universitatis Series Mathematics and Informatics ◽

10.22190/fumi1901013m ◽

2019 ◽

pp. 13

Author(s):

Majid Mirmiran ◽

Binesh Naderi

Keyword(s):

Continuous Function ◽

Continuous Functions ◽

Topological Spaces ◽

Sufficient Condition ◽

Necessary And Sufficient Condition ◽

Necessary And Sufficient

‎A necessary and sufficient condition in terms of lower cut sets ‎are given for the insertion of a contra-continuous function ‎between two comparable real-valued functions on such topological ‎spaces that kernel of sets are open‎.

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rc-continuous functions and functions with rc-strongly closed graph

International Journal of Mathematics and Mathematical Sciences ◽

10.1155/s0161171203203410 ◽

2003 ◽

Vol 2003 (72) ◽

pp. 4547-4555

Author(s):

Bassam Al-Nashef

Keyword(s):

Continuous Function ◽

Topological Space ◽

Continuous Functions ◽

Closed Graph ◽

Compact Spaces ◽

Extremally Disconnected ◽

The Family ◽

Regular Closed

The family of regular closed subsets of a topological space is used to introduce two concepts concerning a functionffrom a spaceXto a spaceY. The first of them is the notion offbeing rc-continuous. One of the established results states that a spaceYis extremally disconnected if and only if each continuous function from a spaceXtoYis rc-continuous. The second concept studied is the notion of a functionfhaving an rc-strongly closed graph. Also one of the established results characterizes rc-compact spaces (≡S-closed spaces) in terms of functions that possess rc-strongly closed graph.

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On Faintly Continuous Functions via Generalized Topology

Chinese Journal of Mathematics ◽

10.1155/2013/412391 ◽

2013 ◽

Vol 2013 ◽

pp. 1-6 ◽

Cited By ~ 1

Author(s):

Bishwambhar Roy

Keyword(s):

Continuous Function ◽

Continuous Functions ◽

Generalized Topology ◽

New Class

The notion of faintly -continuous function has been introduced. Relationship between this new class of function with similar types of functions has been given. Some characterizations and properties of such function are also being discussed.

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Constructing Banaschewski compactification without Dedekind completeness axiom

International Journal of Mathematics and Mathematical Sciences ◽

10.1155/s0161171204305168 ◽

2004 ◽

Vol 2004 (69) ◽

pp. 3799-3816

Author(s):

S. K. Acharyya ◽

K. C. Chattopadhyay ◽

Partha Pratim Ghosh

Keyword(s):

Topological Space ◽

Continuous Functions ◽

Topological Spaces ◽

Open Problems ◽

Structure Space ◽

Ordered Field ◽

Completeness Axiom ◽

Dedekind Completeness ◽

Stone Theorem ◽

Stone’S Theorem

The main aim of this paper is to provide a construction of the Banaschewski compactification of a zero-dimensional Hausdorff topological space as a structure space of a ring of ordered field-valued continuous functions on the space, and thereby exhibit the independence of the construction from any completeness axiom for an ordered field. In the process of describing this construction we have generalized the classical versions of M. H. Stone's theorem, the Banach-Stone theorem, and the Gelfand-Kolmogoroff theorem. The paper is concluded with a conjecture of a split in the class of all zero-dimensional but not strongly zero-dimensional Hausdorff topological spaces into three classes that are labeled by inequalities between three compactifications ofX, namely, the Stone-Čech compactificationβX, the Banaschewski compactificationβ0X, and the structure space𝔐X,Fof the lattice-ordered commutative ringℭ(X,F)of all continuous functions onXtaking values in the ordered fieldF, equipped with its order topology. Some open problems are also stated.

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