Department of Aerospace Engineering

AE 322 | Course Introduction and Application Information

Course Name

Principles Of Electromagnetics

Code	Semester	Theory (hour/week)	Application/Lab (hour/week)	Local Credits	ECTS
AE 322	SPRING	2	2	3	6

Prerequisites	PHYS 102 To succeed (To get a grade of at least DD)
Course Language	English
Course Type	ELECTIVE_COURSE
Course Level	First Cycle
Mode of Delivery	Face to Face
Teaching Methods and Techniques of the Course	-
National Occupational Classification Code	-
Course Coordinator	Prof. Dr. Diaa Gadelmavla
Course Lecturer(s)	Prof. Dr. Diaa Gadelmavla
Assistant(s)	Araş. Gör. Sena Yağmur Şen

Course Objectives

The main objective of this course is to introduce the basic concepts of classical electricity and magnetism related to engineering applications. Students will learn applications of these concepts by designing transmission lines and electrical system components using an electromagnetic simulation tool.

Learning Outcomes

The students who succeeded in this course;

Name	Description	PC Sub	* Contribution Level
Name	Description	PC Sub	1	2	3	4	5
LO1	Define the fundamental principles of Coulomb’s law, electrostatic field					X
LO2	Identify the basics of waves and phasors				X
LO3	Describe the electric flux and Gauss’s Law and divergence				X
LO4	Solve problems dealing steady electric currents				X
LO5	Describe the significance of the essential concepts of Biot Savart’s law and the static magnetic field					X
LO6	Solve problems dealing with wave propagation on a transmission line					X
LO7	Explain the denotation and significance of Maxwell's equations in electromagnetics				X

Course Description

This course covers the basic principles of static electricity and magnetic fields. Solutions to transmission line problems are explained in detail. The fundamentals of dynamic electromagnetic fields are covered.

Related Sustainable Development Goals

Course Category	Core Courses	X
	Major Area Courses
	Supportive Courses
	Media and Managment Skills Courses
	Transferable Skill Courses

WEEKLY SUBJECTS AND RELATED PREPARATION STUDIES

Week	Subjects	Required Materials	Learning Outcome
1	Introduction: Waves and Phasors	Chapter 1. Sections 1.3.1. • Fundamentals of Applied Electromagnetics, 6/E, Ulaby, Michielssen & Ravaioli ©2010, Prentice Hall, Published: 02/25/2010, ISBN10: 0132139316 \| ISBN13: 9780132139311	LO2
2	Electric Fields	Chapter 1. Sections 1.3.2.; 1.6• Fundamentals of Applied Electromagnetics, 6/E, Ulaby, Michielssen & Ravaioli ©2010, Prentice Hall, Published: 02/25/2010, ISBN10: 0132139316 \| ISBN13: 9780132139311	LO3
3	Vector Analysis	Chapter 3. Sections 3.1.5• Fundamentals of Applied Electromagnetics, 6/E, Ulaby, Michielssen & Ravaioli ©2010, Prentice Hall, Published: 02/25/2010, ISBN10: 0132139316 \| ISBN13: 9780132139311	LO1
4	Orthogonal Coordinate Systems	Chapter 3. Sections 32, 33.. • Fundamentals of Applied Electromagnetics, 6/E, Ulaby, Michielssen & Ravaioli ©2010, Prentice Hall, Published: 02/25/2010, ISBN10: 0132139316 \| ISBN13: 9780132139311	LO1
5	Gradient, Divergence, Laplace Functionals, Stoke Theory/Gradient	Chapter 3. Sections 3.4; 3.7.. • Fundamentals of Applied Electromagnetics, 6/E, Ulaby, Michielssen & Ravaioli ©2010, Prentice Hall, Published: 02/25/2010, ISBN10: 0132139316 \| ISBN13: 9780132139311	LO2
6	Electrostatics	Chapter 4. Sections 4.1., 4.5.2 . • Fundamentals of Applied Electromagnetics, 6/E, Ulaby, Michielssen & Ravaioli ©2010, Prentice Hall, Published: 02/25/2010, ISBN10: 0132139316 \| ISBN13: 9780132139311	LO3
7	Electric Potential, Conductors	Chapter 4. Sections 45.346.3. • Fundamentals of Applied Electromagnetics, 6/E, Ulaby, Michielssen & Ravaioli ©2010, Prentice Hall, Published: 02/25/2010, ISBN10: 0132139316 \| ISBN13: 9780132139311	LO3
8	Midterm		-
9	Magnetostatics.	Chapter 5. Sections 5.1, 5.2. 1. • Fundamentals of Applied Electromagnetics, 6/E, Ulaby, Michielssen & Ravaioli ©2010, Prentice Hall, Published: 02/25/2010, ISBN10: 0132139316 \| ISBN13: 9780132139311	LO5
10	Magnetic Force, Gauss’s Law for Magnetism	Chapter 5. Sections 5.1, 5.3.1. • Fundamentals of Applied Electromagnetics, 6/E, Ulaby, Michielssen & Ravaioli ©2010, Prentice Hall, Published: 02/25/2010, ISBN10: 0132139316 \| ISBN13: 9780132139311	LO4
11	Ampere’s Law. Vector Magnetic Potential.	Fundamentals of Applied Electromagnetics, 6/E, Ulaby, Michielssen & Ravaioli ©2010, Prentice Hall, Published: 02/25/2010, ISBN10: 0132139316 \| ISBN13: 9780132139311	LO4
12	Magnetic Boundary Conditions. Inductance	Chapter 5. Sections 5.5. 2 • Fundamentals of Applied Electromagnetics, 6/E, Ulaby, Michielssen & Ravaioli ©2010, Prentice Hall, Published: 02/25/2010, ISBN10: 0132139316 \| ISBN13: 9780132139311	LO5
13	Inductance	Chapter 5. Sections 5.7. 1. , 5.8• Fundamentals of Applied Electromagnetics, 6/E, Ulaby, Michielssen & Ravaioli ©2010, Prentice Hall, Published: 02/25/2010, ISBN10: 0132139316 \| ISBN13: 9780132139311	LO5
14	Faraday’s Law	Chapter 6. Sections 6.1.1. , 6.4 • Fundamentals of Applied Electromagnetics, 6/E, Ulaby, Michielssen & Ravaioli ©2010, Prentice Hall, Published: 02/25/2010, ISBN10: 0132139316 \| ISBN13: 9780132139311	LO6
15	Review		-
16	Final		-

Course Notes/Textbooks	Fundamentals of Applied Electromagnetics 6/E Ulaby Michielssen & Ravaioli ©2010 Prentice Hall Published: 02/25/2010 ISBN10: 0132139316 \| ISBN13: 9780132139311
Suggested Readings/Materials	-

EVALUATION SYSTEM

Semester Activities	Number	Weighting	LO1	LO2	LO3	LO4	LO5	LO6	LO7
Laboratory / Application	1	15			X	X	X
Homework / Assignments	1	10	X	X	X	X	X	X
Project	1	15	X	X	X	X	X	X	X
Midterm	1	25	X	X	X
Final Exam	1	35	X		X		X	X	X
Total	5	100

ECTS / WORKLOAD TABLE

Semester Activities	Number	Duration (Hours)	Workload
Participation	-	-	-
Theoretical Course Hours	16	2	32
Laboratory / Application Hours	16	2	32
Study Hours Out of Class	14	5	70
Field Work	-	-	-
Quizzes / Studio Critiques	-	-	-
Portfolio	-	-	-
Homework / Assignments	5	3	15
Presentation / Jury	-	-	-
Project	1	10	10
Seminar / Workshop	-	-	-
Oral Exams	-	-	-
Midterms	1	10	10
Final Exam	1	11	11
		Total	180