J. Marsden, and M. Hoffman. W. H. Freeman and Company, New York, Second edition, (1987)
Abstract
An introductory text on complex analysis. Topics include:
analytic functions, Cauchy's theorem, series representation of
analytic functions, calculus of residues, conformal mappings,
further development of the theory, asymptotic methods and the
Laplace transform and applications. An appendix of answers to
odd-numbered exercises is also included.
%0 Book
%1 jmarsden73:complex
%A Marsden, Jerrold Eldon
%A Hoffman, Michael J.
%C New York
%D 1987
%I W. H. Freeman and Company
%K analysis complex integral laplace mathematics path residue theory transform
%T Basic Complex Analysis
%X An introductory text on complex analysis. Topics include:
analytic functions, Cauchy's theorem, series representation of
analytic functions, calculus of residues, conformal mappings,
further development of the theory, asymptotic methods and the
Laplace transform and applications. An appendix of answers to
odd-numbered exercises is also included.
%Z First edition published in 1973.
%7 Second
@book{jmarsden73:complex,
abstract = {An introductory text on complex analysis. Topics include:
analytic functions, Cauchy's theorem, series representation of
analytic functions, calculus of residues, conformal mappings,
further development of the theory, asymptotic methods and the
Laplace transform and applications. An appendix of answers to
odd-numbered exercises is also included.},
added-at = {2013-03-23T15:08:32.000+0100},
address = {New York},
annote = {First edition published in 1973.},
author = {Marsden, Jerrold Eldon and Hoffman, Michael J.},
biburl = {https://www.bibsonomy.org/bibtex/2287af18b3b8c9756d4630f9db9bac539/drmatusek},
edition = {Second},
interhash = {f2ed2e18dc1a96126b1e0b3eec845569},
intrahash = {287af18b3b8c9756d4630f9db9bac539},
keywords = {analysis complex integral laplace mathematics path residue theory transform},
publisher = {W. H. Freeman and Company},
timestamp = {2013-03-23T15:08:32.000+0100},
title = {Basic Complex Analysis},
year = 1987
}