An integral part of engineering design is the development of models that describe physical behavior or phenomena in mathematical terms. As engineering systems have become more complex, classic linear methods of modeling and analysis have proved inadequate, creating a need for nonlinear models to solve design problems. This 1999 text provides an introduction to mathematical modeling of linear and nonlinear systems, with an emphasis on the solution of nonlinear design problems. While encouraging the use of the computer as a tool for modeling and analysis, the aim is to discuss the basic concepts underlying computer techniques and to seek analytical solutions. Among topics covered are exact solution, numerical solution, graphical solution, and approximate solution methods; and the stability of nonlinear systems. Numerous examples show how to apply modeling methods to real engineering systems. The book also includes end-of-chapter problems and case studies of challenging design problems. Intended for advanced undergraduate or beginning graduate students, this text will also serve as a helpful reference for practising engineers.
A 1999 text for graduate students and practising engineers, introducing mathematical modeling of engineering systems.Reviews'This is a textbook intended for senior undergraduate or beginning graduate students. It is well written and carefully organized. The author intention is to teach students how to formulate and solve the problem. By both, the choice of problems and by the selection of those problems, it is a unique book. I believe that it would be very useful for every student to read this book or to take course where this book is used, before he or she chooses field for graduate studies in engineering. The variety of problems treated and the methods of solutions used would help student select his or her own field of research. In conclusion, this is an excellent undergraduate textbook for engineering students.' T. M. Atanackovic
Book InformationISBN 9780521621700
Author David E. ThompsonFormat Hardback
Page Count 296
Imprint Cambridge University PressPublisher Cambridge University Press
Weight(grams) 730g
Dimensions(mm) 254mm * 178mm * 17mm