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Library | Item Barcode | Call Number | Material Type | Item Category 1 | Status |
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Searching... | 30000004717918 | TK153 L464 2005 | Open Access Book | Book | Searching... |
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Summary
Summary
When you are wracking your brains, trying to solve a complex, seemingly unsolvable problem, sometimes you just have to go back to the basics. To find a solution, you start at the very beginning and review the mathematical rules, laws, and formulas that that are at the root of every electrical engineering problem. This is when you reach for the Mathematical Handbook for Electrical Engineers. Written by electrical engineers, specifically for electrical engineers, this valuable resource presents the most common mathematical techniques used for problem solving and computer-aided analysis.
Author Notes
Sergey A. Leonov holds an M.Sc. from Kharkov University and a Ph.D. and D.Sc. from the Moscow Aerospace Institute.
Leonov is a known expert in the field of radar and telecommunications. He is the author of over 70 papers and the co-author of Radar Technology Encyclopedia (Artech House, 1997) and Russian-English Dictionary of Radar and Electronics (Artech House, 1993) among other books.
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Reviews 1
Choice Review
Electrical engineering is interlaid with mathematical computations, and solving complex electrical engineering requires a good grasp of fundamental and applied mathematics. The Leonovs have brought all the mathematics involved in electrical engineering together in one place. The handbook consists of three parts. Part 1 provides the fundamentals of engineering mathematics; it contains short formulas for solving problems and some basic algebra, but derivations of the formulas are not listed. Part 2 contains methods to solve typical electrical problems such as circuit analysis, signal processing, and charge distribution. Part 3 provides references for frequently used electrical engineering equations: constants, differentiation and integration formulas, sets of coordinates, etc. The book is well written and includes most techniques required to solve electrical engineering problems. Professionals and students will find the book useful as a resource when confronted with finding solutions to electrical problems, but one should not expect to find step-by-step solutions here, since it is just a handbook. ^BSumming Up: Recommended. Upper-division undergraduates through professionals. F. M. Fayemi Indiana State University
Table of Contents
Elementary Mathematics |
Sequences, Series and Limits |
Differential and Integral Calculus |
Complex Variables and Functions |
Fourier Series |
Matrix Algebra |
Vector Algebra |
Probability Theory, Random Functions, and Applied Statistics |
Computer-Aided Computations |
Electrical Circuits and Devices |
Antennas and Propagation |
Waveforms and Signal Processing |
Stochastic Radio Engineering |
Appendices |