Search results for "54b10"

showing 4 items of 4 documents

Comparing weak versions of separability

2012

Our aim is to investigate spaces with sigma-discrete and meager dense sets, as well as selective versions of these properties. We construct numerous examples to point out the differences between these classes while answering questions of Tkachuk [30], Hutchinson [17] and the authors of [8].

Discrete mathematicsSelection principlesGeneral Topology (math.GN)Mathematics::General TopologyCorson compactSeparableSeparable spaceDiscreteFOS: MathematicsPoint (geometry)Geometry and Topology54D65 54B10 54C35Construct (philosophy)MathematicsMathematics - General Topology
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P-spaces and the Whyburn property

2009

We investigate the Whyburn and weakly Whyburn property in the class of $P$-spaces, that is spaces where every countable intersection of open sets is open. We construct examples of non-weakly Whyburn $P$-spaces of size continuum, thus giving a negative answer under CH to a question of Pelant, Tkachenko, Tkachuk and Wilson. In addition, we show that the weak Kurepa Hypothesis (a set-theoretic assumption weaker than CH) implies the existence of a non-weakly Whyburn $P$-space of size $\aleph_2$. Finally, we consider the behavior of the above-mentioned properties under products; we show in particular that the product of a Lindel\"of weakly Whyburn P-space and a Lindel\"of Whyburn $P$-space is we…

Mathematics::General TopologyFOS: Mathematicsnowhere MAD familyP-space; Whyburn space; weakly Whyburn space; Lindelöf space; pseudoradial space; radial space; radial character; ω-modification; cardinality; weight; extent; pseudocharacter; almost disjoint family; nowhere MAD family; Continuum Hypothesis; week Kurepa treepseudocharacterweakly Whyburn spaceMathematics - General Topologyradial spacealmost disjoint familyω-modificationweek Kurepa treeGeneral Topology (math.GN)weightContinuum HypothesisLindelof space54G10 54A20 54A35 54D20 54B10Whyburn spaceextentLindelöf spaceradial charactercardinalitypseudoradial spaceP-spaceSettore MAT/03 - Geometriaweak Kurepa tree.MAD family
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Noetherian type in topological products

2010

The cardinal invariant "Noetherian type" of a topological space $X$ (Nt(X)) was introduced by Peregudov in 1997 to deal with base properties that were studied by the Russian School as early as 1976. We study its behavior in products and box-products of topological spaces. We prove in Section 2: 1) There are spaces $X$ and $Y$ such that $Nt(X \times Y) < \min\{Nt(X), Nt(Y)\}$. 2) In several classes of compact spaces, the Noetherian type is preserved by the operations of forming a square and of passing to a dense subspace. The Noetherian type of the Cantor Cube of weight $\aleph_\omega$ with the countable box topology, $(2^{\aleph_\omega})_\delta$, is shown in Section 3 to be closely related …

Topological manifoldFundamental groupTopological algebraGeneral MathematicsTopological tensor productGeneral Topology (math.GN)Noetherian typeMathematics::General TopologyMathematics - LogicTopological spaceChang’s conjectureTopologyTopological vector spaceTukey mapH-spaceMathematics::LogicFOS: MathematicsPCF theoryTopological ring03E04 54A25 (Primary) 03E55 54B10 54D70 54G10 (Secondary)Box productLogic (math.LO)Mathematics - General TopologyMathematics
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Some Remarks about Product Spaces

2018

Summary This article covers some technical aspects about the product topology which are usually not given much of a thought in mathematics and standard literature like [7] and [6], not even by Bourbaki in [4]. Let {Ti}i∈I be a family of topological spaces. The prebasis of the product space T = ∏ i∈I Ti is defined in [5] as the set of all π −1 i (V) with i ∈ I and V open in Ti . Here it is shown that the basis generated by this prebasis consists exactly of the sets ∏ i∈I Vi with Vi open in Ti and for all but finitely many i ∈ I holds Vi = Ti . Given I = {a} we have T ≅ Ta , given I = {a, b} with a≠ b we have T ≅ Ta ×Tb . Given another family of topological spaces {Si}i∈I such that Si ≅ Ti fo…

topologyApplied Mathematics020207 software engineering02 engineering and technology54b1068t99TopologyComputational Mathematics03b35Product (mathematics)QA1-9390202 electrical engineering electronic engineering information engineering020201 artificial intelligence & image processingproduct spacesMathematicsTopology (chemistry)MathematicsFormalized Mathematics
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