3rd Edition, Elsevier Inc, 2005. – 550 p. Maple by Example bridges the gap that exists between the very elementary handbooks available on Maple and those reference books written for the advanced Maple users. Maple by Example is an appropriate reference for all users of Maple and, in particular, for beginning users like students, instructors, engineers, business people, and...
Springer, 2002, 324 p. This is an introduction to probabilistic and statistical concepts necessary to understand the basic ideas and methods of stochastic differential equations. Based on measure theory, which is introduced as smoothly as possible, it provides practical skills in the use of MAPLE in the context of probability and its applications. It offers to graduates and...
Springer, 2014. — 905 p. 133 illus., 53 illus. in color. — (Texts in Computational Science and Engineering, Vol. 11). — ISBN: 9783319043258 Scientific computing is the study of how to use computers effectively to solve problems that arise from the mathematical modeling of phenomena in science and engineering. It is based on mathematics, numerical and symbolic/algebraic...
Chapman and Hall/CRC, 2003. - 232 p. There is nothing quite like that feeling you get when you see that look of recognition and enjoyment on your students' faces. Not just the strong ones, but everyone is nodding in agreement during your first explanation of the geometry of directional derivatives.If you have incorporated animated demonstrations into your teaching, you know how...
Artech House Publishers, 2009. - 406 p. MAPLE is easy-to-use software that performs numerical and symbolic analysis to solve complex mathematical problems. A reference for engineers, scientists, and application developers, it shows you how to tap the full power of MAPLE in solving real-world engineering problems in circuit theory, control theory, curve fitting, mechanics and...
Wiley-VCH, 2005. –605 p. The objective of this book is to enable a student to apply computer algebra to physical problems; most of these problems fall between intermediate and advanced undergraduate level, for a student who has completed general physics and calculus courses. By solving problems with Maple, one strengthens their physics knowledge, and acquires computer skills
