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COMPLEX ANALYSIS AND APPLICATIONS ALAN JEFFREY

By: Publication details: CRC PRESS 2013 BOC RATONEdition: 2Description: 579 P. PAPERISBN:
  • 9781584885535
Subject(s): DDC classification:
  • 510
Contents:
Analytic Functions Review of Complex Numbers Curves, Domains, and Regions Analytic Functions The Cauchy-Riemann Equations: Proof and Consequences Elementary Functions Complex Integration Contours and Complex Integrals The Cauchy Integral Theorem Antiderivatives and Definite Integrals The Cauchy Integral Formula The Cauchy Integral Formula for Derivatives Useful Results Deducible from the Cauchy Integral Formulas Evaluation of Improper Integrals by Contour Integration Taylor and Laurent Series: Residue Theorem and Applications Sequences, Series, and Convergence Uniform Convergence Power Series Taylor Series Laurent Series Classification of Singularities and Zeros Residues and the Residue Theorem Applications of the Residue Theorem The Laplace Inversion Integral Conformal Mapping Geometrical Aspects of Analytic Functions: Mapping Conformal Mapping The Linear Fractional Transformation Mappings by Elementary Functions The Schwarz-Christoffel Transformation Boundary Value Problems, Potential Theory, and Conformal Mapping Laplace’s Equation and Conformal Mapping – Boundary Value Problems Standard Solutions of the Laplace Equation Steady-State Two-Dimensional Temperature Distribution Steady Two-Dimensional Fluid Flow Two-Dimensional Electrostatics
Summary: Complex Analysis and Applications, Second Edition explains complex analysis for students of applied mathematics and engineering. Restructured and completely revised, this textbook first develops the theory of complex analysis, and then examines its geometrical interpretation and application to Dirichlet and Neumann boundary value problems. A discussion of complex analysis now forms the first three chapters of the book, with a description of conformal mapping and its application to boundary value problems for the two-dimensional Laplace equation forming the final two chapters. This new structure enables students to study theory and applications separately, as needed. In order to maintain brevity and clarity, the text limits the application of complex analysis to two-dimensional boundary value problems related to temperature distribution, fluid flow, and electrostatics. In each case, in order to show the relevance of complex analysis, each application is preceded by mathematical background that demonstrates how a real valued potential function and its related complex potential can be derived from the mathematics that describes the physical situation.
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Holdings
Item type Current library Call number Status Date due Barcode Item holds
Book Book Main Library 510/ JEF/ 22898 (Browse shelf(Opens below)) Available 11122898
Total holds: 0

Analytic Functions

Review of Complex Numbers
Curves, Domains, and Regions
Analytic Functions
The Cauchy-Riemann Equations: Proof and Consequences
Elementary Functions
Complex Integration

Contours and Complex Integrals
The Cauchy Integral Theorem
Antiderivatives and Definite Integrals
The Cauchy Integral Formula
The Cauchy Integral Formula for Derivatives
Useful Results Deducible from the Cauchy Integral Formulas
Evaluation of Improper Integrals by Contour Integration
Taylor and Laurent Series: Residue Theorem and

Applications
Sequences, Series, and Convergence
Uniform Convergence
Power Series
Taylor Series
Laurent Series
Classification of Singularities and Zeros
Residues and the Residue Theorem
Applications of the Residue Theorem
The Laplace Inversion Integral
Conformal Mapping

Geometrical Aspects of Analytic Functions: Mapping
Conformal Mapping
The Linear Fractional Transformation
Mappings by Elementary Functions
The Schwarz-Christoffel Transformation
Boundary Value Problems, Potential Theory, and

Conformal Mapping
Laplace’s Equation and Conformal Mapping – Boundary
Value Problems
Standard Solutions of the Laplace Equation
Steady-State Two-Dimensional Temperature Distribution
Steady Two-Dimensional Fluid Flow
Two-Dimensional Electrostatics

Complex Analysis and Applications, Second Edition explains complex analysis for students of applied mathematics and engineering. Restructured and completely revised, this textbook first develops the theory of complex analysis, and then examines its geometrical interpretation and application to Dirichlet and Neumann boundary value problems.

A discussion of complex analysis now forms the first three chapters of the book, with a description of conformal mapping and its application to boundary value problems for the two-dimensional Laplace equation forming the final two chapters. This new structure enables students to study theory and applications separately, as needed.

In order to maintain brevity and clarity, the text limits the application of complex analysis to two-dimensional boundary value problems related to temperature distribution, fluid flow, and electrostatics. In each case, in order to show the relevance of complex analysis, each application is preceded by mathematical background that demonstrates how a real valued potential function and its related complex potential can be derived from the mathematics that describes the physical situation.

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