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Displaying 141 – 160 of 524

Exactly two-to-one maps from continua onto some tree-like continua

Wojciech Dębski, J. Heath, J. Mioduszewski (1992)

Fundamenta Mathematicae

It is known that no dendrite (Gottschalk 1947) and no hereditarily indecomposable tree-like continuum (J. Heath 1991) can be the image of a continuum under an exactly 2-to-1 (continuous) map. This paper enlarges the class of tree-like continua satisfying this property, namely to include those tree-like continua whose nondegenerate proper subcontinua are arcs. This includes all Knaster continua and Ingram continua. The conjecture that all tree-like continua have this property, stated by S. Nadler...

Exemples d'actions non continues d'un groupe dans un compact.

A. Bouziad (1994)

Semigroup forum

Exponentiability of perfect maps: Four approaches.

Niefield, Susan (2002)

Theory and Applications of Categories [electronic only]

Extended topology: perfect sets

Hammer, Preston C. (1964)

Portugaliae mathematica

Extended Topology: Structure of Isotonic Functions.

Preston C. Hammer (1964)

Journal für die reine und angewandte Mathematik

Extending monotone mappings

Jan Dijkstra, Jan van Mill (1998)

Colloquium Mathematicae

Extension of closed mappings

Krzysztof Nowiński (1974)

Fundamenta Mathematicae

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.

Extremely Non-Nice Operators into CK and Continuous Mappings into the Hilbert Cube.

S. Koppelberg, P. Greim (1984/1985)

Mathematische Zeitschrift

$F a α$ -irresolute mappings.

Saraf, R.K., Caldas, M., Mishra, Seema (2001)

Bulletin of the Malaysian Mathematical Sciences Society. Second Series

Factorisation Theorems and Projective Spaces in Topology.

Roy Dyckhoff (1972)

Mathematische Zeitschrift

Fine and simply fine uniform spaces

Kůrková-Pohlová, Věra (1975)

Seminar Uniform Spaces

Finite commutative monoids of open maps

A. Pultr, J. Sichler (1998)

Cahiers de Topologie et Géométrie Différentielle Catégoriques

Finite $T_{0}$ -spaces and universal mappings

W. Holsztyński, F. Pedersen (1978)

Fundamenta Mathematicae

Finite-to-one continuous s-covering mappings

Alexey Ostrovsky (2007)

Fundamenta Mathematicae

The following theorem is proved. Let f: X → Y be a finite-to-one map such that the restriction $f | f^{- 1} (S)$ is an inductively perfect map for every countable compact set S ⊂ Y. Then Y is a countable union of closed subsets $Y_{i}$ such that every restriction $f | f^{- 1} (Y_{i})$ is an inductively perfect map.

Finite-to-one maps and dimension

Jerzy Krzempek (2004)

Fundamenta Mathematicae

It is shown that for every at most k-to-one closed continuous map f from a non-empty n-dimensional metric space X, there exists a closed continuous map g from a zero-dimensional metric space onto X such that the composition f∘g is an at most (n+k)-to-one map. This implies that f is a composition of n+k-1 simple ( = at most two-to-one) closed continuous maps. Stronger conclusions are obtained for maps from Anderson-Choquet spaces and ones that satisfy W. Hurewicz's condition (α). The main tool is...

Free spaces

Jian Song, E. Tymchatyn (2000)

Fundamenta Mathematicae

A space Y is called a free space if for each compactum X the set of maps with hereditarily indecomposable fibers is a dense $G_{δ}$ -subset of C(X,Y), the space of all continuous functions of X to Y. Levin proved that the interval I and the real line ℝ are free. Krasinkiewicz independently proved that each n-dimensional manifold M (n ≥ 1) is free and the product of any space with a free space is free. He also raised a number of questions about the extent of the class of free spaces. In this paper we will...

Function Lipschitzian mappings on convex metric spaces

Mihai Turinici (1981)

Commentationes Mathematicae Universitatis Carolinae

Functions Equivalent to Borel Measurable Ones

Andrzej Komisarski, Henryk Michalewski, Paweł Milewski (2010)

Bulletin of the Polish Academy of Sciences. Mathematics

Let X and Y be two Polish spaces. Functions f,g: X → Y are called equivalent if there exists a bijection φ from X onto itself such that g∘φ = f. Using a theorem of J. Saint Raymond we characterize functions equivalent to Borel measurable ones. This characterization answers a question asked by M. Morayne and C. Ryll-Nardzewski.

Functions that map cozerosets to cozerosets

Suzanne Larson (2007)

Commentationes Mathematicae Universitatis Carolinae

A function $f$ mapping the topological space $X$ to the space $Y$ is called a z-open function if for every cozeroset neighborhood $H$ of a zeroset $Z$ in $X$ , the image $f (H)$ is a neighborhood of ${cl}_{Y} (f (Z))$ in $Y$ . We say $f$ has the z-separation property if whenever $U$ , $V$ are cozerosets and $Z$ is a zeroset of $X$ such that $U \subseteq Z \subseteq V$ , there is a zeroset $Z^{'}$ of $Y$ such that $f (U) \subseteq Z^{'} \subseteq f (V)$ . A surjective function is z-open if and only if it maps cozerosets to cozerosets and has the z-separation property. We investigate z-open functions and other functions...

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