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A characterization of cubes and spheres [Book]

A. Szymański, M. Turzański (1974)

A positional characterization of the (n-1)-dimensional Sierpiński curve in $S^{n}$ (η ≠ 4)

J. Cannon (1973)

Fundamenta Mathematicae

A property of the Sorgenfrey line

Robert W. Heath, Ernest A. Michael (1971)

Compositio Mathematica

A short proof of Parovičenko's theorem

Błaszczyk, A., Szymański, A. (1980)

Abstracta. 8th Winter School on Abstract Analysis

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 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 $X = X_{M}$ .

Borel sets in compact spaces: some Hurewicz type theorems

Fons van Engelen, Jan van Mill (1984)

Fundamenta Mathematicae

Caractérisation topologique de l'espace des fonctions dérivables

Robert Cauty (1991)

Fundamenta Mathematicae

Characterization of Hilbert cube manifolds: an alternate proof

John J. Walsh (1986)

Banach Center Publications

Characterizations of the countable infinite product of rationals and some related problems

van Engelen, Fons (1985)

Proceedings of the 13th Winter School on Abstract Analysis

Characterizing the interval and circle by composition of functions

Warren White (1972)

Colloquium Mathematicae

Classical-type characterizations of non-metrizable ANE(n)-spaces

Valentin Gutev, Vesko Valov (1994)

Fundamenta Mathematicae

The Kuratowski-Dugundji theorem that a metrizable space is an absolute (neighborhood) extensor in dimension n iff it is $L C^{n - 1} C^{n - 1}$ (resp., $L C^{n - 1}$ ) is extended to a class of non-metrizable absolute (neighborhood) extensors in dimension n. On this base, several facts concerning metrizable extensors are established for non-metrizable ones.

Closed copies of the rationals

Eric K. Douwen (1987)

Commentationes Mathematicae Universitatis Carolinae

Compact spaces homeomorphic to a ray of ordinals

John Baker (1972)

Fundamenta Mathematicae

Compacta which are quasi-homeomorphic with a disk

Le Xuan Binh (1987)

Colloquium Mathematicae

Construction of a Hurewicz metric space whose square is not a Hurewicz space

J. O'Farrell (1987)

Fundamenta Mathematicae

Continua determined by mappings.

Charatonik, Janusz J., Charatonik, Wlodzimierz J. (2000)

Publications de l'Institut Mathématique. Nouvelle Série

Continuous decompositions of Peano plane continua into pseudo-arcs

Janusz Prajs (1998)

Fundamenta Mathematicae

Locally planar Peano continua admitting continuous decomposition into pseudo-arcs (into acyclic curves) are characterized as those with no local separating point. This extends the well-known result of Lewis and Walsh on a continuous decomposition of the plane into pseudo-arcs.

Every graph is a self-similar set.

Arenas, Francisco G., Sánchez-Granero, M.A. (2000)

Divulgaciones Matemáticas

External Characterization of I-Favorable Spaces

Valov, Vesko (2011)

Mathematica Balkanica New Series

1991 AMS Math. Subj. Class.:Primary 54C10; Secondary 54F65We provide both a spectral and an internal characterizations of arbitrary !-favorable spaces with respect to co-zero sets. As a corollary we establish that any product of compact !-favorable spaces with respect to co-zero sets is also !-favorable with respect to co-zero sets. We also prove that every C* -embedded !-favorable with respect to co-zero sets subspace of an extremally disconnected space is extremally disconnected.

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