Course Information

Semester	Course Unit Code	Course Unit Title	T+P+L	Credit	Number of ECTS Credits	Last Updated Date
1	EEE563	AD.ELECTROMAGNETICS WAVE THEORY	3+0+0	3	6	16.06.2026

Course Details

Language of Instruction	English
Level of Course Unit	Master's Degree
Department / Program	ELECTRICAL AND ELECTRONICS ENGINEERING
Type of Program	Formal Education
Type of Course Unit	Elective
Course Delivery Method	Face To Face
Objectives of the Course	Learn and apply fundamental theorems to solve practical and analytical propagation-related problems in electromagnetic theory
Course Content	Wave Equations, Potentials, Fundamental Theorems, Green's Functions, Cylindrical and Spherical Wave Functions, Cylindrical and Spherical Scattering, Radiation and Asymptotics
Course Methods and Techniques	Face-to-face education, lecture notes, midterm exam, and final exam
Prerequisites and co-requisities	None
Course Coordinator	Prof.Dr. Uğur Cem HASAR https://akbis.gantep.edu.tr/detay/?A_ID=182085_profesor_ugur-cem-hasar uchasar@gantep.edu.tr
Name of Lecturers	Prof.Dr. UĞUR CEM HASAR
Assistants	None
Work Placement(s)	No

Recommended or Required Reading

Resources	Roger F. Harrington, Time-Harmonic Electromagnetic Fields, 2001
Course Notes	Constantine A. Balanis, Advanced Engineering Electromagnetics, 2011

Course Category

Mathematics and Basic Sciences	%30
Engineering	%30
Engineering Design	%10
Field	%30

Planned Learning Activities and Teaching Methods

Activities are given in detail in the section of "Assessment Methods and Criteria" and "Workload Calculation"

Assessment Methods and Criteria

ECTS Allocated Based on Student Workload

Activities	Quantity	Duration	Total Work Load
Reading Activities	4	25	100
Material design, application	1	40	40
Midterm and midterm exam preparation	1	40	40
Total Work Load			Number of ECTS Credits 6 180

Course Learning Outcomes: Upon the successful completion of this course, students will be able to:

No	Learning Outcomes
1	Identifying, defining, formulating and solving Electrical and Electronics Engineering problems
2	Learning electromagnetic equations and applying them to problems

Weekly Detailed Course Contents

Week	Topics	Study Materials	Materials
1	Foundations & Maxwell`s Eqs.	-	Main Text Book
2	Wave Equations & Potentials	Notes of Previous Lectures	Main Text Book
3	Fundamental Theorems - 1	Notes of Previous Lectures	Main Text Book
4	Fundamental Theorems - 2	Notes of Previous Lectures	Main Text Book
5	Green’s Functions - 1	Notes of Previous Lectures	Main Text Book
6	Green’s Functions - 2	Notes of Previous Lectures	Main Text Book
7	Cylindrical Wave Functions-1	Notes of Previous Lectures	Main Text Book
8	Cylindrical Wave Functions-2	Notes of Previous Lectures	Main Text Book
9	Cylindrical Scattering	Notes of Previous Lectures	Main Text Book
10	Spherical Wave Functions-1	Notes of Previous Lectures	Main Text Book
11	Spherical Wave Functions-2	Notes of Previous Lectures	Main Text Book
12	Spherical Scattering	Notes of Previous Lectures	Main Text Book
13	Radiation & Asymptotics	Notes of Previous Lectures	Main Text Book
14	Computational Methods Intro	Notes of Previous Lectures	Main Text Book

Contribution of Learning Outcomes to Programme Outcomes

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