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Displaying 61 – 80 of 82

Connected covers and Neisendorfer's localization theorem

C. McGibbon, J. Møller (1997)

Fundamenta Mathematicae

Our point of departure is J. Neisendorfer's localization theorem which reveals a subtle connection between some simply connected finite complexes and their connected covers. We show that even though the connected covers do not forget that they came from a finite complex their homotopy-theoretic properties are drastically different from those of finite complexes. For instance, connected covers of finite complexes may have uncountable genus or nontrivial SNT sets, their Lusternik-Schnirelmann category...

Connections and 1-jet fiber bundles

Pedro L. García (1972)

Rendiconti del Seminario Matematico della Università di Padova

Connections in associated fibre bundles

Ülo Lumiste (1981)

Czechoslovak Mathematical Journal

Connections on 1-jets principal fiber bundles

Efstathios Vassiliou (1976)

Rendiconti del Seminario Matematico della Università di Padova

Connections on higher order tangent bundles

Tomáš Klein (1981)

Časopis pro pěstování matematiky

Connections on infinite dimensional manifolds with corners

J. Margalef-Roig, E. Outerelo-Domínguez, E. Padrón-Fernández (1997)

Rendiconti del Seminario Matematico della Università di Padova

Construction d’éléments dans $π_{*}^{S} (B U (2))$

Nigel Ray, Lionel Schwartz (1983)

Bulletin de la Société Mathématique de France

Construction of 2-local finite groups of a type studied by Solomon and Benson.

Levi, Ran, Oliver, Bob (2002)

Geometry & Topology

Continous Wavelet Transforms with Applications to Analyzing Functions on Spheres.

Stephan Dahlke, Peter Maass (1995)

The journal of Fourier analysis and applications [[Elektronische Ressource]]

Continuity of projections of natural bundles

Włodzimierz M. Mikulski (1992)

Annales Polonici Mathematici

This paper is a contribution to the axiomatic approach to geometric objects. A collection of a manifold M, a topological space N, a group homomorphism E: Diff(M) → Homeo(N) and a function π: N → M is called a quasi-natural bundle if (1) π ∘ E(f) = f ∘ π for every f ∈ Diff(M) and (2) if f,g ∈ Diff(M) are two diffeomorphisms such that f|U = g|U for some open subset U of M, then E(f)|π^{-1}(U) = E(g)|π^{-1}(U). We give conditions which ensure that π: N → M is continuous. In particular, if (M,N,E,π)...

Continuous Alexander–Spanier cohomology classifies principal bundles with Abelian structure group

Bernd Günther, L. Mdzinarishvili (1997)

Fundamenta Mathematicae

We prove that Alexander-Spanier cohomology $H^{n} (X; G)$ with coefficients in a topologicalAbelian group G is isomorphic to the group of isomorphism classes of principal bundles with certain Abelian structure groups. The result holds if either X is a CW-space and G arbitrary or if X is metrizable or compact Hausdorff and G an ANR.

Converting compact and fibrations into locally trivial bundles with compact manifolds as fibres

D. Burghelea (1983)

Compositio Mathematica

Conway's Group CO3 and the Dickson Invariants.

Dave Benson (1994)

Manuscripta mathematica

Corollaries of the A-H-V formula.

P.E. Conner (1974)

Semigroup forum

Correction for the paper “ $S^{3}$ -bundles and exotic actions”

T. E. Barros (2001)

Bulletin de la Société Mathématique de France

In [R] explicit representatives for $S^{3}$ -principal bundles over $S^{7}$ are constructed, based on these constructions explicit free $S^{3}$ -actions on the total spaces are described, with quotients exotic $7$ -spheres. To describe these actions a classification formula for the bundles is used. This formula is not correct. In Theorem 1 below, we correct the classification formula and in Theorem 2 we exhibit the correct indices of the exotic $7$ -spheres that occur as quotients of the free $S^{3}$ -actions described above.

Currently displaying 61 – 80 of 82

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Displaying 61 – 80 of 82

Connected covers and Neisendorfer's localization theorem

Connections and 1-jet fiber bundles

Connections in associated fibre bundles

Connections on 1-jets principal fiber bundles

Connections on higher order tangent bundles

Connections on infinite dimensional manifolds with corners

Construction d’éléments dans $π_{*}^{S} (B U (2))$

Construction of 2-local finite groups of a type studied by Solomon and Benson.

Continous Wavelet Transforms with Applications to Analyzing Functions on Spheres.

Continuity of projections of natural bundles

Continuous Alexander–Spanier cohomology classifies principal bundles with Abelian structure group

Converting compact and fibrations into locally trivial bundles with compact manifolds as fibres

Conway's Group CO3 and the Dickson Invariants.

Corollaries of the A-H-V formula.

Correction for the paper “ $S^{3}$ -bundles and exotic actions”

Correction to the paper “Compact fiberings of homogeneous spaces. I”

Corrigendum et addendum ad: “Minimal cell coverings of sphere bundles over spheres”

Counting Elemnts in Homotopy Sets.

Counting rational curves of arbitrary shape in projective spaces.

Coverings and ring-groupoids.

Currently displaying 61 – 80 of 82