TYPE OF COURSE UNIT	Compulsory Course
LEVEL OF COURSE UNIT	Bachelor's Degree
YEAR OF STUDY	3
SEMESTER	Fifth Term (Fall)
NUMBER OF ECTS CREDITS ALLOCATED	6
NAME OF LECTURER(S)	Professor Sıtkı Çağdaş İnam
LEARNING OUTCOMES OF THE COURSE UNIT	At the end of this course, the students; 1) Gain problem solving ability. 2) Determine the field vectors caused by charge and current distributions in electrostatic and magnetostatic problems. 3) Know and use the laws constituting bases for the Maxwell's Laws in their differential and integral forms. 4) Calculate the capacitance and inductance values for given geometries. 5) Comment on some natural phenomena based on theoretical knowledge.
MODE OF DELIVERY	Face to face
PRE-REQUISITES OF THE COURSE	Yes(EEE226)
RECOMMENDED OPTIONAL PROGRAMME COMPONENT	MATH222
COURSE DEFINITION	Summary of vector algebra, coordinate systems and coordinate transformations. Time varying electric and magnetic fields, Faraday?s law of induction, transformers, sinusoidally time-varying (harmonic) electromagnetic (EM) fields, Maxwell?s equations, second order differential equations, EM wave equation, homogenous plane EM waves, Doppler effect, perfect or good conducting and insulating materials, EM polarization, power density, average power, EM waves near the boundaries, angles of incidence, transmission lines (TL), generalized TL equations, finite lines, reflection, standing waves
COURSE CONTENTS	WEEK TOPICS 1st Week Faraday law, quasi-static fields 2nd Week Time varying fields, displacement current, potential functions 3rd Week Maxwell's equations, boundary conditions, wave equation 4th Week Waves in time and frequency domain, sinusoidal waves 5th Week Plane waves 6th Week Plane waves in lossy media, polarization 7th Week Phase and group velocities, Poynting theorem 8th Week Instantaneous and average power densities 9th Week Perpendicular incidence to a planar free space - conducting boundary 10th Week Perpendicular incidence to a planar dielectric - dielectric boundary 11th Week Oblique incidence to a planar free space - conducting boundary 12th Week Oblique incidence to a planar dielectric - dielectric boundary 13th Week Introduction to transmission lines, transmission line equations, infinite line, reflection coefficient 14th Week Impedance, standing wave ratio
RECOMENDED OR REQUIRED READING	1. Cheng, D.K. (1993) Fundamentals of Engineering Electromagnetics, Addison Wesley.
PLANNED LEARNING ACTIVITIES AND TEACHING METHODS	Lecture,Questions/Answers,Problem Solving,Practice,Project,Presentation
ASSESSMENT METHODS AND CRITERIA	Quantity Percentage(%) Mid-term 1 30 Assignment 1 10 Quiz 2 20 Total(%) 60 Contribution of In-term Studies to Overall Grade(%) 60 Contribution of Final Examination to Overall Grade(%) 40 Total(%) 100
ECTS WORKLOAD	Activities Number Hours Workload Midterm exam 1 2 2 Preparation for Quiz 2 4 8 Individual or group work 2 6 12 Preparation for Final exam 1 17 17 Course hours 14 4 56 Preparation for Midterm exam 1 14 14 Laboratory (including preparation) 0 0 0 Final exam 1 2 2 Homework 2 6 12 Total Workload 123 Total Workload / 30 4,1 ECTS Credits of the Course 6
LANGUAGE OF INSTRUCTION	English
WORK PLACEMENT(S)	No