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978-3-540-28890-9
DE-He213
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9783540288909
978-3-540-28890-9
10.1007/3-540-28890-2
doi
ISI Library, Kolkata
QA299.6-433
PBK
bicssc
MAT034000
bisacsh
PBK
thema
515
23
Jost, Jürgen.
author.
aut
http://id.loc.gov/vocabulary/relators/aut
Postmodern Analysis
[electronic resource] /
by Jürgen Jost.
Third Edition.
Berlin, Heidelberg :
Springer Berlin Heidelberg,
2005.
XV, 375 p.
online resource.
text
txt
rdacontent
computer
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text file
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Universitext,
0172-5939
Calculus for Functions of One Variable -- Prerequisites -- Limits and Continuity of Functions -- Differentiability -- Characteristic Properties of Differentiable Functions. Differential Equations -- The Banach Fixed Point Theorem. The Concept of Banach Space -- Uniform Convergence. Interchangeability of Limiting Processes. Examples of Banach Spaces. The Theorem of Arzela-Ascoli -- Integrals and Ordinary Differential Equations -- Topological Concepts -- Metric Spaces: Continuity, Topological Notions, Compact Sets -- Calculus in Euclidean and Banach Spaces -- Differentiation in Banach Spaces -- Differential Calculus in $$\mathbb{R}$$ d -- The Implicit Function Theorem. Applications -- Curves in $$\mathbb{R}$$ d. Systems of ODEs -- The Lebesgue Integral -- Preparations. Semicontinuous Functions -- The Lebesgue Integral for Semicontinuous Functions. The Volume of Compact Sets -- Lebesgue Integrable Functions and Sets -- Null Functions and Null Sets. The Theorem of Fubini -- The Convergence Theorems of Lebesgue Integration Theory -- Measurable Functions and Sets. Jensen’s Inequality. The Theorem of Egorov -- The Transformation Formula -- and Sobolev Spaces -- The Lp-Spaces -- Integration by Parts. Weak Derivatives. Sobolev Spaces -- to the Calculus of Variations and Elliptic Partial Differential Equations -- Hilbert Spaces. Weak Convergence -- Variational Principles and Partial Differential Equations -- Regularity of Weak Solutions -- The Maximum Principle -- The Eigenvalue Problem for the Laplace Operator.
What is the title of this book intended to signify, what connotations is the adjective “Postmodern” meant to carry? A potential reader will surely pose this question. To answer it, I should describe what distinguishes the - proach to analysis presented here from what has by its protagonists been called “Modern Analysis”. “Modern Analysis” as represented in the works of the Bourbaki group or in the textbooks by Jean Dieudonn´ e is characterized by its systematic and axiomatic treatment and by its drive towards a high level of abstraction. Given the tendency of many prior treatises on analysis to degenerate into a collection of rather unconnected tricks to solve special problems, this de?nitely represented a healthy achievement. In any case, for the development of a consistent and powerful mathematical theory, it seems to be necessary to concentrate solely on the internal problems and structures and to neglect the relations to other ?elds of scienti?c, even of mathematical study for a certain while. Almost complete isolation may be required to reach the level of intellectual elegance and perfection that only a good mathem- ical theory can acquire. However, once this level has been reached, it can be useful to open one’s eyes again to the inspiration coming from concrete external problems.
Global analysis (Mathematics).
Differential equations, partial.
Analysis.
http://scigraph.springernature.com/things/product-market-codes/M12007
Partial Differential Equations.
http://scigraph.springernature.com/things/product-market-codes/M12155
SpringerLink (Online service)
Springer eBooks
Printed edition:
9783540810537
Printed edition:
9783540258308
Universitext,
0172-5939
https://doi.org/10.1007/3-540-28890-2
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