Riemannian Geometry [electronic resource] /

Riemannian Geometry [electronic resource] /

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This book is meant to be an introduction to Riemannian geometry. The reader is assumed to have some knowledge of standard manifold theory, including basic theory of tensors, forms, and Lie groups. At times we shall also assume familiarity with algebraic topology and de Rham cohomology. Specifically, we recommend that the reader is familiar with texts like [14] or[76, vol. 1]. For the readers who have only learned something like the first two chapters of [65], we have an appendix which covers Stokes' theorem, Cech cohomology, and de Rham cohomology. The reader should also have a nodding acquaintance with ordinary differential equations. For this, a text like [59] is more than sufficient. Most of the material usually taught in basic Riemannian geometry, as well as several more advanced topics, is presented in this text. Many of the theorems from Chapters 7 to 11 appear for the first time in textbook form. This is particularly surprising as we have included essentially only the material students ofRiemannian geometry must know. The approach we have taken deviates in some ways from the standard path. First and foremost, we do not discuss variational calculus, which is usually the sine qua non of the subject. Instead, we have taken a more elementary approach that simply uses standard calculus together with some techniques from differential equations.

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Main Authors: Petersen, Peter. author., SpringerLink (Online service)
Format: Texto biblioteca
Language:eng
Published: New York, NY : Springer New York : Imprint: Springer, 1998
Subjects:Mathematics., Differential geometry., Differential Geometry.,
Online Access:http://dx.doi.org/10.1007/978-1-4757-6434-5
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spelling KOHA-OAI-TEST:2217112018-07-30T23:59:33ZRiemannian Geometry [electronic resource] / Petersen, Peter. author. SpringerLink (Online service) textNew York, NY : Springer New York : Imprint: Springer,1998.engThis book is meant to be an introduction to Riemannian geometry. The reader is assumed to have some knowledge of standard manifold theory, including basic theory of tensors, forms, and Lie groups. At times we shall also assume familiarity with algebraic topology and de Rham cohomology. Specifically, we recommend that the reader is familiar with texts like [14] or[76, vol. 1]. For the readers who have only learned something like the first two chapters of [65], we have an appendix which covers Stokes' theorem, Cech cohomology, and de Rham cohomology. The reader should also have a nodding acquaintance with ordinary differential equations. For this, a text like [59] is more than sufficient. Most of the material usually taught in basic Riemannian geometry, as well as several more advanced topics, is presented in this text. Many of the theorems from Chapters 7 to 11 appear for the first time in textbook form. This is particularly surprising as we have included essentially only the material students ofRiemannian geometry must know. The approach we have taken deviates in some ways from the standard path. First and foremost, we do not discuss variational calculus, which is usually the sine qua non of the subject. Instead, we have taken a more elementary approach that simply uses standard calculus together with some techniques from differential equations.1 Riemannian Metrics -- 2 Curvature -- 3 Examples -- 4 Hypersurfaces -- 5 Geodesics and Distance -- 6 Sectional Curvature Comparison I -- 7 The Bochner Technique -- 8 Symmetric Spaces and Holonomy -- 9 Ricci Curvature Comparison -- 10 Convergence -- 11 Sectional Curvature Comparison II -- A de Rham Cohomology -- A.1 Elementary Properties -- A.2 Integration of Forms -- A.3 ?ech Cohomology -- A.4 de Rham Cohomology -- A.5 Poincaré Duality -- A.6 Degree Theory -- A.7 Further Study -- B Principal Bundles -- B.1 Cartan Formalism -- B.2 The Frame Bundle -- B.3 Construction of the Frame Bundle -- B.4 Construction of Tensor Bundles -- B.5 Tensors -- B.6 The Connection on the Frame Bundle -- B.7 Covariant Differentiation of Tensors -- B.8 Principal Bundles in General -- B.9 Further Study -- C Spinors -- C.1 Spin Structures -- C.2 Spinor Bundles -- C.3 The Weitzenböck Formula for Spinors -- C.4 The Square of a Spinor -- C.5 Further Study -- References.This book is meant to be an introduction to Riemannian geometry. The reader is assumed to have some knowledge of standard manifold theory, including basic theory of tensors, forms, and Lie groups. At times we shall also assume familiarity with algebraic topology and de Rham cohomology. Specifically, we recommend that the reader is familiar with texts like [14] or[76, vol. 1]. For the readers who have only learned something like the first two chapters of [65], we have an appendix which covers Stokes' theorem, Cech cohomology, and de Rham cohomology. The reader should also have a nodding acquaintance with ordinary differential equations. For this, a text like [59] is more than sufficient. Most of the material usually taught in basic Riemannian geometry, as well as several more advanced topics, is presented in this text. Many of the theorems from Chapters 7 to 11 appear for the first time in textbook form. This is particularly surprising as we have included essentially only the material students ofRiemannian geometry must know. The approach we have taken deviates in some ways from the standard path. First and foremost, we do not discuss variational calculus, which is usually the sine qua non of the subject. Instead, we have taken a more elementary approach that simply uses standard calculus together with some techniques from differential equations.Mathematics.Differential geometry.Mathematics.Differential Geometry.Springer eBookshttp://dx.doi.org/10.1007/978-1-4757-6434-5URN:ISBN:9781475764345
institution COLPOS
collection Koha
country México
countrycode MX
component Bibliográfico
access En linea
En linea
databasecode cat-colpos
tag biblioteca
region America del Norte
libraryname Departamento de documentación y biblioteca de COLPOS
language eng
topic Mathematics.
Differential geometry.
Mathematics.
Differential Geometry.
Mathematics.
Differential geometry.
Mathematics.
Differential Geometry.
spellingShingle Mathematics.
Differential geometry.
Mathematics.
Differential Geometry.
Mathematics.
Differential geometry.
Mathematics.
Differential Geometry.
Petersen, Peter. author.
SpringerLink (Online service)
Riemannian Geometry [electronic resource] /
description This book is meant to be an introduction to Riemannian geometry. The reader is assumed to have some knowledge of standard manifold theory, including basic theory of tensors, forms, and Lie groups. At times we shall also assume familiarity with algebraic topology and de Rham cohomology. Specifically, we recommend that the reader is familiar with texts like [14] or[76, vol. 1]. For the readers who have only learned something like the first two chapters of [65], we have an appendix which covers Stokes' theorem, Cech cohomology, and de Rham cohomology. The reader should also have a nodding acquaintance with ordinary differential equations. For this, a text like [59] is more than sufficient. Most of the material usually taught in basic Riemannian geometry, as well as several more advanced topics, is presented in this text. Many of the theorems from Chapters 7 to 11 appear for the first time in textbook form. This is particularly surprising as we have included essentially only the material students ofRiemannian geometry must know. The approach we have taken deviates in some ways from the standard path. First and foremost, we do not discuss variational calculus, which is usually the sine qua non of the subject. Instead, we have taken a more elementary approach that simply uses standard calculus together with some techniques from differential equations.
format Texto
topic_facet Mathematics.
Differential geometry.
Mathematics.
Differential Geometry.
author Petersen, Peter. author.
SpringerLink (Online service)
author_facet Petersen, Peter. author.
SpringerLink (Online service)
author_sort Petersen, Peter. author.
title Riemannian Geometry [electronic resource] /
title_short Riemannian Geometry [electronic resource] /
title_full Riemannian Geometry [electronic resource] /
title_fullStr Riemannian Geometry [electronic resource] /
title_full_unstemmed Riemannian Geometry [electronic resource] /
title_sort riemannian geometry [electronic resource] /
publisher New York, NY : Springer New York : Imprint: Springer,
publishDate 1998
url http://dx.doi.org/10.1007/978-1-4757-6434-5
work_keys_str_mv AT petersenpeterauthor riemanniangeometryelectronicresource
AT springerlinkonlineservice riemanniangeometryelectronicresource
_version_ 1756270337664745472

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