EE 341-O

Course ID:

Course Code & Number

EE 341-O

Course Title

Electromagnetic Fields and Waves

Level

BS

Credit Hours/ ECTS Credits

(3+0+0) 3 TEDU Credits, 5 ECTS Credits

Year of Study:

Junior

Semester:

Fall

Type of Course:

Compulsory

Mode of Delivery:

Face-to-face

Language of Instruction:

English

Pre-requisite / Co-requisite::

Catalog Description

Electrostatic Fields: Coulomb's Law, Gauss' Law, Electric Potential, Boundary Conditions, Capacitance, Electrostatic Force and Energy, Poisson's and Laplace's Equation, Image method, Steady Electric Currents, Static Magnetic Fields: Biot-Savart Law, Ampere's Law, Vector Magnetic Potential, Inductance, Magnetostatic Force and Energy.

Course Objectives

The goal of this course is to provide the basic principles of electromagnetics emphasizing the characterization and the solution of static and dynamic electric and magnetic field problems.

Software Usage

Course Learning Outcomes

Upon successful completion of this course, students will be able to:
(1) Determine and describe static electric fields created by charge distributions,
(2) Identify the concepts of capacitance and electrostatic energy,
(3) Solve electrostatic boundary value problems involving Poisson and Laplace equations,
(4) Identify steady electric currents and the concept of resistance,
(5) Determine and describe static magnetic fields,
(6) Identify the concepts of inductance and magnetostatic energy,
(7) Formulate and interpret boundary conditions,
(8) Formulate and analyze Biot-Savart law and Ampere's Law,
(9) Apply Maxwell's equations to determine field waves, potential waves, energy, and charge conservation conditions.

Learning Activities and Teaching Methods:

Telling/Explaining Discussion/Debate Questioning Reading Demonstrating Problem Solving Inquiry Collaborating Case Study/Scenarion Analysis Oral Presentations/Reports Brainstorming Web Searching

Assessment Methods and Criteria:

Test / Exam Quiz Case Studies / Homework

Assessment Methods and Criteria Others:

Design Content

Recommended Reading

(1) Cheng, D. K. (2019). Fundamentals of Engineering Electromagnetics. Pearson, 1st Edition.
(2) Sadiku, M. (2018). Elements of Electromagnetics. Oxford University Press, 7th Edition.

Required Reading

(1) Cheng, D. K. (1989). Field and Wave Electromagnetics. Addison Wesley Pub. Comp., 2nd Edition.
(2) Hayt, W. H., & Buck, J. A. (2018). Engineering Electromagnetics. McGraw-Hill Education, 9th Edition.

Grading

Test/Exam (70%), Case Studies / Homework (20%), Quiz (10%)

Learning Activities and Teaching Methods Others:

Course Coordinator:

Student Workload:

Workload	Hrs
Lectures	42
Course Readings	42
Exams/Quizzes	42
Case Study Analysis	24

Course & Program Learning Outcome Matching: