Semester
Course name: EE 303
Electromagnetic Fields
Department: Electrical
and Electronics
Engineering
Credit
(ECTS)
Methods of Education
Lecture
Recitation/
(Etud)
42
Lab
5
Project/Field
Study
Homework
45
30
Other
Total
6
117
Language
Compulsory/Elective
Prerequisites
English
Compulsory
None
Course Contents
Vector analysis, vectorial differential operators, static electric field, electric
potential, electrostatic field analysis in conductors and dielectric media,
electrostatic energy, electrostatic boundary conditions, magnetostatic field,
vector potential, magnetic circuits, magnetic energy, magnetostatik boundary
conditions, quasi-static fields, time varying fields and Maxwell equations
Course Objectives
To teach the fundamentals of electromagnetic field theory
To teach electrostatic fields
To teach magnetostatic fields
To teach time varying fields
Learning Outcomes and
Competences
Students who pass the course will be able to:
I. Work with vector algebra and vector differential operators
II. Calculate electrostatic field, force and potential
III. Calculate the electrostatic fields in conductors and dielectric materials
IV. Calculate magnetostatic field and force
V. Solve the problems related to magnetostatic fields in magnetic materials
VI. Solve the problems related to electromagnetic fields using Faraday and
Ampere Laws
Textbook and /or
References
Main texbooks :
Norman D. K. Cheng, Field Wave Electromagnetics
Assessment Criteria
Instructors
Midterm Exams
Quizzes
Homeworks
Projects
Term Paper
Laboratory work
Other
Final Exam
If any, mark as (X)
Percentage (%)
X
X
X
30
10
10
10
X
40