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Displaying 121 – 140 of 1389

Addition theorems for dense subspaces

Aleksander V. Arhangel'skii (2015)

Commentationes Mathematicae Universitatis Carolinae

We study topological spaces that can be represented as the union of a finite collection of dense metrizable subspaces. The assumption that the subspaces are dense in the union plays a crucial role below. In particular, Example 3.1 shows that a paracompact space $X$ which is the union of two dense metrizable subspaces need not be a $p$ -space. However, if a normal space $X$ is the union of a finite family $μ$ of dense subspaces each of which is metrizable by a complete metric, then $X$ is also metrizable by...

Additional characterizations of the $T_{2}$ and weaker separation axioms

Charles Dorsett (2012)

Matematički Vesnik

Affine Flows and Distal Points.

Isaac Namioka (1983)

Mathematische Zeitschrift

Alexandroff topologies viewed as closed sets in the Cantor cube.

Uzcátegui, C., Vielma, J. (2005)

Divulgaciones Matemáticas

Algebraische Hüllenoperatoren, bei denen jede endliche Menge durch die Menge ihrer isolierten Elemente erzeugt wird

REINHARD THRON (1983)

Beiträge zur Algebra und Geometrie = Contributions to algebra and geometry

Almost all submaximal groups are paracompact and σ-discrete

O. Alas, I. Protasov, M. Tkačenko, V. Tkachuk, R. Wilson, I. Yaschenko (1998)

Fundamenta Mathematicae

We prove that any topological group of a non-measurable cardinality is hereditarily paracompact and strongly σ-discrete as soon as it is submaximal. Consequently, such a group is zero-dimensional. Examples of uncountable maximal separable spaces are constructed in ZFC.

Almost closed sets and topologies they determine

Vladimir Vladimirovich Tkachuk, Ivan V. Yashchenko (2001)

Commentationes Mathematicae Universitatis Carolinae

We prove that every countably compact AP-space is Fréchet-Urysohn. It is also established that if $X$ is a paracompact space and $C_{p} (X)$ is AP, then $X$ is a Hurewicz space. We show that every scattered space is WAP and give an example of a hereditarily WAP-space which is not an AP-space.

Almost compact fuzzy topological spaces

M. N. Mukherjee, S. P. Sinha (1989)

Matematički Vesnik

Almost disjoint families and “never” cardinal invariants

Charles Morgan, Samuel Gomes da Silva (2009)

Commentationes Mathematicae Universitatis Carolinae

We define two cardinal invariants of the continuum which arise naturally from combinatorially and topologically appealing properties of almost disjoint families of sets of the natural numbers. These are the never soft and never countably paracompact numbers. We show that these cardinals must both be equal to $ω_{1}$ under the effective weak diamond principle $♦ (ω, ω, <)$ , answering questions of da Silva S.G., On the presence of countable paracompactness, normality and property $(a)$ in spaces from almost disjoint families,...

Almost disjoint families and property (a)

Paul Szeptycki, Jerry Vaughan (1998)

Fundamenta Mathematicae

We consider the question: when does a Ψ-space satisfy property (a)? We show that if $| A | < p$ then the Ψ-space Ψ(A) satisfies property (a), but in some Cohen models the negation of CH holds and every uncountable Ψ-space fails to satisfy property (a). We also show that in a model of Fleissner and Miller there exists a Ψ-space of cardinality $p$ which has property (a). We extend a theorem of Matveev relating the existence of certain closed discrete subsets with the failure of property (a).

Alternative definitions of $J$ -density topology

Luděk Zajíček (1987)

Acta Universitatis Carolinae. Mathematica et Physica

Amoeba relation and Galois-Tukey connections

Peter Vojtáš (1994)

Acta Universitatis Carolinae. Mathematica et Physica

An algebraic and logical approach to continuous images

Klaas Pieter Hart (2002)

Acta Universitatis Carolinae. Mathematica et Physica

An application of inaccessible alephs

Jan Chrastina (1977)

Archivum Mathematicum

An Ascoli theorem for sequential spaces.

Sonck, Gert (2001)

International Journal of Mathematics and Mathematical Sciences

An Example of a Q-minimal Precompact Topological Group Containing a Nonminimal Closed Normal Subgroup.

Ulrich Schwanengel (1979)

Manuscripta mathematica

An exchange theorem for infinite sums and limits in Banach spaces.

Gerhard Grimeisen (1974)

Journal für die reine und angewandte Mathematik

An extension theorem for sober spaces and the Goldman topology.

Bouacida, Ezzeddine, Echi, Othman, Picavet, Gabriel, Salhi, Ezzeddine (2003)

International Journal of Mathematics and Mathematical Sciences

An independency result in connectification theory

Alessandro Fedeli, Attilio Le Donne (1999)

Commentationes Mathematicae Universitatis Carolinae

A space is called connectifiable if it can be densely embedded in a connected Hausdorff space. Let $ψ$ be the following statement: “a perfect $T_{3}$ -space $X$ with no more than $2^{𝔠}$ clopen subsets is connectifiable if and only if no proper nonempty clopen subset of $X$ is feebly compact". In this note we show that neither $ψ$ nor $\neg ψ$ is provable in ZFC.

An irrational problem

Franklin D. Tall (2002)

Fundamenta Mathematicae

Given a topological space ⟨X,⟩ ∈ M, an elementary submodel of set theory, we define $X_{M}$ to be X ∩ M with topology generated by $U \cap M : U \in \cap M$ . Suppose $X_{M}$ is homeomorphic to the irrationals; must $X = X_{M}$ ? We have partial results. We also answer a question of Gruenhage by showing that if $X_{M}$ is homeomorphic to the “Long Cantor Set”, then $X = X_{M}$ .

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