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SOURCE: Komzsik L. Applied Calculus of Variations for Engineers 3ed 2019
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MEDIAINFO
Textbook in PDF format Calculus of variations has a long history. Its fundamentals were laid down by icons of mathematics like Euler and Lagrange. It was once heralded as the panacea for all engineering optimization problems by suggesting that all one needed to do was to state a variational problem, apply the appropriate Euler-Lagrange equation and solve the resulting differential equation. This, as most all encompassing solutions, turned out to be not always true and the resulting differential equations are not necessarily easy to solve. On the other hand, many of the differential equations commonly used in various fields of engineering are derived from a variational problem. Hence it is an extremely important topic justifying the new edition of this book. This third edition extends the focus of the book to academia and supports both variational calculus and mathematical modeling classes. The newly added sections, extended explanations, numerous examples and exercises aid the students in learning, the professors in teaching, and the engineers in applying variational concepts. Preface. Acknowledgments. Author. Introduction. Mathematical foundation The foundations of calculus of variations. Constrained variational problems. Multivariate functionals. Higher order derivatives. The inverse problem. Analytic solutions. Approximate methods. Modeling applications Differential geometry. Computational geometry. Variational equations of motion. Analytic mechanics. Computational mechanics. Solutions to selected exercises Notations References Index
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