PDF Download Theory and Computation of Electromagnetic Fields (Wiley - IEEE)
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Theory and Computation of Electromagnetic Fields (Wiley - IEEE)
PDF Download Theory and Computation of Electromagnetic Fields (Wiley - IEEE)
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From the Back Cover
Reviews the fundamental concepts behind the theory and computation of electromagnetic fields The book is divided in two parts. The first part covers both fundamental theories (such as vector analysis, Maxwell's equations, boundary condition, and transmission line theory) and advanced topics (such as wave transformation, addition theorems, and fields in layered media) in order to benefit students at all levels. The second part of the book covers the major computational methods for numerical analysis of electromagnetic fields for engineering applications. These methods include the three fundamental approaches for numerical analysis of electromagnetic fields: the finite difference method (the finite difference time-domain method in particular), the finite element method, and the integral equation-based moment method. The second part also examines fast algorithms for solving integral equations and hybrid techniques that combine different numerical methods to seek more efficient solutions of complicated electromagnetic problems. Theory and Computation of Electromagnetic Fields, Second Edition: Provides the foundation necessary for graduate students to learn and understand more advanced topics Analyzes electromagnetic radiation, propagation, transmission, and reflection phenomena and illustrates important electromagnetic theorems and principles Discusses electromagnetic analysis of wave propagation, scattering, and radiation in rectangular, cylindrical and spherical coordinates Covers basic and advanced computational electromagnetics and engineering applications in both frequency and time domains Includes new and updated homework problems and examples Theory and Computation of Electromagnetic Fields, Second Edition is written for advanced undergraduate and graduate level electrical engineering students. This book can also be used as a reference for professional engineers interested in learning about analysis and computation skills.
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About the Author
JIAN-MING JIN, Ph.D., is the Y. T. Lo Chair Professor in Electrical and Computer Engineering and Director of the Electromagnetics Laboratory and Center for Computational Electromagnetics at the University of Illinois at Urbana-Champaign. He authored The Finite Element Method in Electromagnetics, Third Edition (Wiley 2014) and Electromagnetic Analysis and Design in Magnetic Resonance Imaging, and co-authored Computation of Special Functions (Wiley 1996), Finite Element Analysis of Antennas and Arrays (Wiley 2008), and Fast and Efficient Algorithms in Computational Electromagnetics. A Fellow of the IEEE, he is listed by ISI among the world's most cited authors.
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Product details
Series: Wiley - IEEE
Hardcover: 744 pages
Publisher: Wiley-IEEE Press; 2 edition (September 15, 2015)
Language: English
ISBN-10: 9781119108047
ISBN-13: 978-1119108047
ASIN: 1119108047
Product Dimensions:
7 x 1.5 x 10.1 inches
Shipping Weight: 3.8 pounds (View shipping rates and policies)
Average Customer Review:
5.0 out of 5 stars
3 customer reviews
Amazon Best Sellers Rank:
#182,133 in Books (See Top 100 in Books)
As described and arrive on time
This was the book I learned electromagnetics and computational electromagnetics from, so I was very excited to hear that a second edition was in the works. I purchased my copy as soon as it became available.The second edition is an incremental improvement over the excellent previous edition of this book. The first thing you will notice is that the entire book is printed in color on glossy paper. This is a significant improvement over the first edition as the book is much more pleasant to hold and a pleasure to flip through.In terms of content, many worked example problems are now inserted in the electromagnetic theory chapters, which comprises the first half of the book. These include both trivial problems to demonstrate the concept being discussed, as well as more involved problems that demonstrates problem solving techniques to readers who may be learning electromagnetics theory on their own by reading this book. This new additional material makes the book a much more useful independent learning source whereas the first edition was designed more as a textbook that is to be read in conjunction of going to lectures and doing homework problems.The real bonus of this book when compared with other graduate engineering electromagnetic textbooks (Balanis, Harrington, etc) is the second half of the book, which provides an up-to-date and in-depth discussion of computational electromagnetic techniques. The presentation of Finite Difference Time Domain (FDTD) method for computational EM is so simple and clear, that my undergraduate students have been able to produce their own FDTD code based purely on reading this chapter. The author is the world-leading expert on Finite Element Method (FEM) and the chapter on FEM provides a very in-depth discussion of the state-of-the-art of this technique. It is easier to read than the author's monograph on the subject. The chapters on Method of Moments (MoM) and hybrid techniques completes the second half of the book, and prepares the reader to be able to understand and appreciate the latest research papers on computational electromagnetics.This second edition is a good update to a modern classic, and I strongly encourage everyone who wants to familiarize themselves with graduate-level engineering electromagnetics and computational electromagnetics to consider this book as a learning resource.
The 2nd edition of Theory and Computation of Electromagnetic fields is the most useful textbook I have ever seen. It systematically discusses the fundamentals as well as some advanced topics in both electromagnetic theory and numerical methods in electromagnetics. In the theory part, it starts from the overview of Maxwell's equation and review of vector analysis, and then discusses the specific topics in detail such as electromagnetic theorems and principles, wave radiation, scattering, and propagation in free space and three coordinate systems. Compared with electromagnetic knowledge covered by electrodynamics books, this book not only helps you build up a solid fundamental in electromagnetic theory, but also leads you to solve very practical problems using the theory. In the numerical method part, it introduces three most popular numerical methods (FDTD, FEM, and MoM), the hybrid methods, and fast algorithms. It covers all the classic methods a beginner should know in computational electromagnetics. All the derivations are very clear and detailed!This book is also a very beautiful book. The whole book is made of high-quality papers with color pictures. The feel of reading this book is like reading a high-quality magazine! It is very enjoyable to hold this book on hands and read all the materials.
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