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Summary
Summary
Filled with illustrations, examples and approximately 300 homework problems, this accessible and informative text provides an extensive treatment of electromagnetism and microwave engineering with particular emphasis on microwave and telecommunications applications. Also stresses computational electromagnetics through the use of MathCad and finite element methods to elucidate design problems, analysis and applications. Tutorials on the use of MathCad and PSpice are included. An accessible textbook for students and valuable reference for engineers already in the field.
Author Notes
Paul R. Karmel is the author of Introduction to Electromagnetic and Microwave Engineering , published by Wiley.
Gabriel D. Colef is the author of Introduction to Electromagnetic and Microwave Engineering , published by Wiley.
Raymond L. Camisa is the author of Introduction to Electromagnetic and Microwave Engineering , published by Wiley.
Reviews 1
Choice Review
Intended primarily as a two-semester text in electromagnetics, this work is an outgrowth of courses at the City College of New York intended to provide a comprehensive foundation in electromagnetic theory and microwave engineering. The early chapters present the basics of electromagnetics including vector mathematics, Maxwell's equations, and statics, moving on to microwave engineering and its applications, including magnetostatics, transmission lines, reflection and transmission at plane boundaries, and two- and three-dimensional waveguides. MathCad is used for vector arithmetic, line and surface integrals, and Maxwell's equations. PSPICE is used for simulation of transmission line currents, quarterwave transformers, and stub matching. Tutorials on MathCad and PSPICE are also provided in an appendix. The work contains many illustrative examples (including the use of simulation software) and also design problem solutions, as well as many homework problem assignments for students. Highly recommended for libraries serving upper-division undergraduate and graduate electrical engineering students, faculty, and professionals and practitioners. I. L. Kosow emeritus, City University of New York
Table of Contents
| Vector Mathematics |
| I Electromagnetic Field Definitions |
| Maxwell's Integral Equations |
| Vector Mathematics |
| II and Maxwell's Equations |
| Electrostatics |
| Steady Currents |
| Magnetostatics |
| Transmission Lines |
| The Terminated Transmission Line |
| Reflection and Transmission at Plane Boundaries and Two-Dimensional Waveguides |
| Three-Dimensional Waveguides and Resonators |
| Microwave Networks |
| Radiation and Antennas |
| Appendices |
| Index |
