
A clear, practical and self-contained presentation of the methods of asymptotics and perturbation theory for obtaining approximate analytical solutions to differential and difference equations. Aimed at teaching the most useful insights in approaching new problems, the text avoids special methods and tricks that only work for particular problems. Intended for graduates and advanced undergraduates, it assumes only a limited familiarity with differential equations and complex variables. The presentation begins with a review of differential and difference equations, then develops local asymptotic methods for such equations, and explains perturbation and summation theory before concluding with an exposition of global asymptotic methods. Emphasizing applications, the discussion stresses care rather than rigor and relies on many well-chosen examples to teach readers how an applied mathematician tackles problems. There are 190 computer-generated plots and tables comparing approximate and exact solutions, over 600 problems of varying levels of difficulty, and an appendix summarizing the properties of special functions.
This text investigates the application of asymptotic and perturbation methods to derive approximate analytical solutions for differential and difference equations. Authors Carl M. Bender and Steven A. Orszag, both established figures in applied mathematics, construct a framework that prioritizes practical problem-solving over abstract mathematical rigor. By focusing on generalizable techniques rather than isolated tricks, the authors provide a systematic approach for scientists and engineers to analyze complex mathematical models.
What You Will Find
Scope Limits
Experts and educators frequently cite this work as a foundational text for graduate students and advanced undergraduates in the physical sciences. Readers often note the clarity of the prose and the effectiveness of the numerous examples in bridging the gap between theoretical concepts and practical application.
Page Count:
576
Publication Date:
1978-01-01
Publisher:
McGraw-Hill College
ISBN-10:
007004452X
ISBN-13:
9780070044524
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