EENG-330(5015) Electromagnetic Theory I     3-0-3

Introduction to waves. Transmission line theory and applications, SWR, reflections, impedance. Review of vector calculus, static electric and magnetic fields. Maxwell's equations in integral and differential form, for arbitrary time variations and for the time harmonic case. Dielectrics, conductors, magnetic materials. Energy storage, Poynting vector.
Prerequisites: MATH-320(3070), PHYS-270(4032).

Textbook: F. T. Ulaby, Fundamentals of Applied Electromagnetics, Prentice Hall, 1999

Reference: J. Kraus & D. Fleisch, Electromagnetics with Applications, McGraw-Hill, 1999

Objectives: This course provides a foundation in classical electromagnetic theory with an emphasis on transmission lines.

Topics:

1. Review of vector algebra and vector calculus. (4 hours)
2. Coulomb's Law, Gauss's Law, Electric Potential, Conductors. (5 hours)
3. Dielectrics, Electrostatic Energy, Capacitance and Resistance. (4 hours)
4. Poisson's and LaPlace's Equations and Applications. (1 hours)
6. Static Magnetic fields, Self and Mutual Inductance. (5 hours)
7. Time-varying fields and Maxwell's Equations in integral and differential form. (6 hours)
8. Transmission Line theory and applications (12 hours)
9. Tests. (3 hours)
10. Final examination. (2 hours)