Elements of Engineering Electromagnetics
For one/two-semester, junior/senior-level courses in Electromagnetics, Transmission Lines and Waveguides, and Electromagnetic Fields and Waves, in the departments of Electrical and Computer Engineering. First course in introductory electromagnetics required for electrical engineering and computer engineering students.Successful text with a versatile approach including thorough coverage of statics with an emphasis on the dynamics of engineering electromagnetics. It integrates practical applications, numerical details, and the thorough coverage of principles.
- Hardback | 788 pages
- 180.34 x 226.06 x 35.56mm | 1,270.05g
- 14 Jun 1999
- Pearson Education (US)
- United States
- 5th edition
Table of contents
I. FUNDAMENTAL ELEMENTS. A. Basic Field Concepts. 1. Vectors and Fields. 2. Fields and Materials.B. Maxwell's Equations and Uniform Plane Waves. 3. Maxwell's Equations in Integral Form and Boundary Conditions. 4. Maxwell's Equations in Differential Form, Potential Functions, and Energy Storage. 5. Uniform Plane Waves and Power Flow in an Electromagnetic Field.II. APPLIED ELEMENTS. 6. Field and Line Essentials for Digital Electronics. 7. Transmission Lines for Communications. 8. Topics in Electric- and Magnetic-Field Systems. 9. Guided Wave Principles for Electronics and Optoelectronics. 10. Several Topics for Electronics and Photonics. 11. Principles of Radiation and Antennas. 12. Topics in Numerical Electromagnetics. Appendices. Suggested Collateral and Further Reading. Answers to Selected Problems.