SciTech logo
IET logo
Top Bar About Us Home Page Contacts For Authors Go to eBooks Print Books Go to eTextbooks Our Textbook Catalog

Aircraft System Testing
Microwave & RF
Pocket Guides
Radar & Electronic Warfare

Hirose & Lonngren

Buy Now - Americas
Buy Now - Rest of World

Worldwide List

Fundamentals Electromagnetics with MATLAB, 2nd Edition
Authors: Karl Lonngren
, Sava Savov, Randy Jost
Copyright: 2007
Binding: Paperback
Pages: 576
ISBN: 9781613530009
List Price: $79.00

Student and Instructor Resources

Instructor Review Request

Virtually every four-year electrical and computer engineering program requires a course in electromagnetic fields and waves encompassing Maxwell's equations. Understanding and appreciating the laws of Nature that govern the speed of even the smallest computer chip or largest power line is fundamental for every electrical and computer engineer. Fundamentals of Electromagnetics with MATLAB, 2nd Edition is much more than a mere textbook. The book itself offers a structural framework of principles, key equations, and problems. With that crucial supporting structure, each instructor, student or reader can turn to the supplemental files provided with this book or available online to customize and decorate each topic room.

This second edition is the result of extensive user feedback and includes a 100% standalone Transmission Line chapter for flexible course placement; expanded problem sets matched to text sections and checked for clarity; and separate chapters for Electrostatics and Magnetostatics. The attractive 2-color design, tight page design and paperback version make this the most affordable textbook of its type.

Teaching with MATLAB
1. Students can learn and apply this subject's difficult principles much more easily, and possibly even enjoyably, using MATLAB. Here's how using MATLAB alongside this textbook makes all the difference.
2. Examples - Worked-out examples run throughout the text to show how a proof can be derived or a problem solved in steps.
3. Figures - Numerous figures within the text were generated using MATLAB. Students can obtain and manipulate the program code with its corresponding M-file and can also view the figure in full color from their CD.
4. Problems - Each chapter contains numerous problems of varying complexity. Icons in the text show that certain problems can be solved using MATLAB.
5. Animations - Authors, instructors, and even students have contributed a number of animations showing principles at work. The MATLAB files become a starting point for manipulating the variables to produce different results.
6. Tutorials - Students come with widely varying exposures to MATLAB. A self-paced tutorial is included on the student CD which introduces MATLAB operations and tools, starting with the basics and bringing the student forward to perform relatively complex operations, problem solving, and visualizations.

Instructor/Student Resources
1. Whether you offer one course or two, this second edition provides greatly enhanced flexibility to the instructor with optional new topics and extended discussion of core topics provided in PDF files on the student CD.
2. Complete solutions to all problems in Word, or .m files to the MATLAB problems.
3. A core base of applications are included on the student CD for instructors to assign as reading. Instructors who wish to submit their own applications can do so and they will be made available as web downloads and added to the CD in our periodic updates.
4. PowerPoint slides of all figures in the text, by chapter.
5. Three sets of exams with solutions (first test, second test, final exam)
6. Animations in MATLAB, MPG files, and PowerPoint.

TABLE OF CONTENTS (Use the Explore button to see the full TOC)
1. MATLAB and Vectors
2. Electrostatic Fields
3. Magnetostatic Fields
4. Boundary Value Problems Using MATLAB
5. Time-varying Electromagnetic Fields
6. Electromagnetic Wave Propagation
7. Transmission Lines
8. Radiation of Electromagnetic Waves

Appendix A: Mathematical formulas
Appendix B: Electromagnetic Units
Appendix C: Material parameters
Appendix D: Mathematical foundation of the finite element method
Appendix E: Transmission line parameters of two parallel wires
Appendix F: Plasma evolution adjacent to a metallic surface
Appendix G: References
Appendix H: Answers to the problems


Karl LonngrenKarl E. Lonngren received his B.S., M.S. and PhD from the Department of Electrical Engineering at the University of Wisconsin-Madison. He has been a Professor in the Departments of Electrical and Computer Engineering and Physics and Astronomy at the University of Iowa since 1965. His interests have been in linear and nonlinear wave propagation in plasmas where he is carried out theoretical and experimental research. In addition, he has carried out research at the Oak Ridge and Los Alamos national laboratories, the Royal Institute of Technology in Sweden, the University of Saskatchewan, the Institute of plasma physics in Nagoya, Japan, and the Institute of astronautical research, Tokyo Japan, and the Danish Atomic Energy Commission in Riso, Denmark. He is the author or co-author of more than 200 journal articles and 5 technical books. He is a Fellow of the IEEE and the APS and a recipient of the Distinguished Service Citation from the University of Wisconsin.

©2014, SciTech Publishing is a trading name of IET USA, Inc which is a wholly owned subsidiary of The Institution of Engineering and Technology (IET).