Measure-theoretic characterizations of hereditarily-normal spaces.

Hertzlinger, Joseph

Displaying similar documents to “Measure-theoretic characterizations of hereditarily-normal spaces.”

On the role of an intersection property in measure theory - I

Schaerf, H.M. (1949)

Portugaliae mathematica

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Conical measures and vector measures

Igor Kluvánek (1977)

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Every conical measure on a weak complete space $E$ is represented as integration with respect to a $σ$ -additive measure on the cylindrical $σ$ -algebra in $E$ . The connection between conical measures on $E$ and $E$ -valued measures gives then some sufficient conditions for the representing measure to be finite.

A characterization of the invertible measures

A. Ülger (2007)

Studia Mathematica

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Let G be a locally compact abelian group and M(G) its measure algebra. Two measures μ and λ are said to be equivalent if there exists an invertible measure ϖ such that ϖ*μ = λ. The main result of this note is the following: A measure μ is invertible iff |μ̂| ≥ ε on Ĝ for some ε > 0 and μ is equivalent to a measure λ of the form λ = a + θ, where a ∈ L¹(G) and θ ∈ M(G) is an idempotent measure.

Remarks about measures on orthomodular posets

Vladimír Rogalewicz (1984)

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Some remarks concerning finitely subadditive outer measures with applications.

Knight, John E. (1998)

International Journal of Mathematics and Mathematical Sciences

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Differentiation of measures.

Ricardo Faro Rivas, Juan A. Navarro, Juan Sancho (1994)

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Finitely additive measures and the first digit problem

Richard Bumby, Erik Ellentuck (1969)

Fundamenta Mathematicae

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Characterizations of outer measures associated with lattice measures.

Hsu, Pao-Sheng (2000)

International Journal of Mathematics and Mathematical Sciences

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Spaces of σ-finite linear measure

Ihor Stasyuk, Edward D. Tymchatyn (2013)

Colloquium Mathematicae

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Spaces of finite n-dimensional Hausdorff measure are an important generalization of n-dimensional polyhedra. Continua of finite linear measure (also called continua of finite length) were first characterized by Eilenberg in 1938. It is well-known that the property of having finite linear measure is not preserved under finite unions of closed sets. Mauldin proved that if X is a compact metric space which is the union of finitely many closed sets each of which admits a σ-finite linear...