Study in Electromagnetic Theory and Applications may be roughly divided into five areas: Electromagnetic Theory, Numerical and Mathematical Methods, Microwaves, Antennas, and Mathematics. The following courses are listed in the five categories according to their primary emphasis, although elements from many categories may be present in a single course. This listing is intended to aid students in choosing courses which support a particular area. In addition, the courses in the Mathematics category have been used in the past to meet the requirements for a minor in Mathematics.

Electromagnetic Theory:

ENGR 621, Advanced Electrodynamics (core); ENGR 622, Advanced Electromagnetic Theory; PHYS 621, Advanced Electromagnetic Theory; PHYS 622, Advanced Electromagnetic Theory; *PHYS 401 and *402, Electromagnetic Theory; *El E 341, Theory of Fields; *El E 441 and 442, Electromagnetic Theory.

* not for graduate credit

ENGR 626 Numberical Methods in Electromagnetics (core), ENGR 628, Numerical Methods in Electromagnetics ; ENGR 627, Ray Methods in Electromagnetics; ENGR 687, Special Functions for Applications; ENGR 593 and 594, Approximate Methods of Engineering Analysis; ENGR 635, Optimization; ENGR 701, Finite Element Analysis.

ENGR 619, Advanced Microwave Measurements (Ph. D. core option); ENGR 623, Passive Microwave Circuits (core); ENGR 624, Active Microwave Circuits; El E 561, Microwave Circuit Design; *El E 433, High Frequency and Microwave Laboratory; El E 523, Microwave Engineering.

* not for graduate credit

ENGR 625, Antennas (Ph. D. core option); ENGR 628, Numerical Methods in Electromagnetics (core); ENGR 627, Ray Methods in Electromagnetics; ENGR 525, Introduction to Antennas.

Math 555 and 556, Advanced Calculus; Math 655 and 656, Theory of Functions of Complex Variables; Math 520, Linear Algebra; Math 519, Matrices; ENGR 687, Special Functions for Applications.

Graduate students are expected to attend the electromagnetics seminar every week. Graduate students must register for 1 hour of Engr. 696, Section 3, Seminar each semester with an Z/F grade or for graded credit (A-F), but this requirement will be waived if a student's Assistantship assignment prevents attendance at seminar. Z/F grading will be based on attendance and on participation in seminar activities. Masters students must receive 1 hour of graded (A-F) seminar credit prior to receiving their Masters degree. Ph.D. students must receive 2 hours of graded (A-F) seminar credit prior to receiving the Ph.D. degree.

As noted above, ENGR 597, Special Projects; ENGR 693, Research Topics; ENGR 699, Special Projects; and ENGR 729, Special Topics also present opportunities to learn about Electromagnetic Theory and Applications. Because course material changes from year to year, and in some cases from student to student, it is not possible to categorize these courses a priori.