Description of Individual Course Units
Course Unit CodeCourse Unit TitleType of Course UnitYear of StudySemesterNumber of ECTS Credits
EEM-23-116ADVANCED ELECTROMAGNETIC FIELD THEORY Elective116
Level of Course Unit
Second Cycle
Objectives of the Course
To give the basic ideas and concepts about the electromagnetic theory and study the electromagnetic phenomenon
Name of Lecturer(s)
Dr. Öğr. Üyesi Ramazan Topkaya
Learning Outcomes
1Calculate the electromagnetic fields which are created by a source distribution in an infinitly large or bounded simple medium.
2Write the boundary conditions satisfied by the electromagnetic fields on the discontinuity surfaces
3The student will have enough information about behaviour of static electromagnetic field under different media.
4Define and manipulate advanced concepts of Electronics Engineering
Mode of Delivery
Daytime Class
Prerequisites and co-requisities
no
Recommended Optional Programme Components
No
Course Contents
Maxwell equations, Duality principle, uniqueness and reciprocity theorems, Generalized Ampere formula and Faraday induction, the concepts of electromotive force, self and mutual inductance, the basic equations of the circuit theory, Continuity equations, Constitutive equations, Principle relations in a simple medium, Relaxation time and wave equation, The investigation of an anisotropic, non-instanteneous, non-local and non-linear media, Electromagnetic energy density and the propagation velocity of an energy
Weekly Detailed Course Contents
WeekTheoreticalPracticeLaboratory
1 Maxwell equations, Duality principle, uniqueness and reciprocity theorems, Generalized Ampere formula and Faraday induction
2 the concepts of electromotive force, self and mutual inductance, the basic equations of the circuit theory
3Continuity equations, Constitutive equations, Principle relations in a simple medium, Relaxation time and wave equation
4The investigation of an anisotropic, non-instanteneous, non-local and non-linear media
5Electromagnetic energy density and the propagation velocity of an energy
6The expression of the electromagnetic fields by potential functions, the concepts of a scalar and vector potential, Lorentz gauge
7Midterm exam
8the concept of a delayed potential, representation of a field by two scalar functions,
9Maxwell equations in the sense of distributions, boundary conditions on the interface of two simple media with finite electric conductivity, boundary conditions on a perfectly conducting surface
10Boundary conditions on a material sheet, Problem sessions related to the subjects
11The electromagnetic fields observed in different Galileo systems: The special relativity principles of Einstein, Lorentz transformations and their results such as the concept of a limit velocity, the transformation of lengths and time, the sum and transformation of the velocities
12Transformation of the electromagnetic fields, the conservation of the electric charge, the transformation of scalar and vector potentials
13Transformation of a Lorentz force and relativistic constitutive equations
14Final Exam
Recommended or Required Reading
• Elektromagnetik Alan Teorisi, Bayrakçı H.E., Birsen Yayınevi 2000, • Field and Wave Electromagnetics, Cheng D.K., Addison – Wesley Publ. 1983
Planned Learning Activities and Teaching Methods
Assessment Methods and Criteria
Term (or Year) Learning ActivitiesQuantityWeight
Midterm Examination1100
SUM100
End Of Term (or Year) Learning ActivitiesQuantityWeight
Final Examination1100
SUM100
Term (or Year) Learning Activities40
End Of Term (or Year) Learning Activities60
SUM100
Language of Instruction
Work Placement(s)
No
Workload Calculation
ActivitiesNumberTime (hours)Total Work Load (hours)
Midterm Examination122
Final Examination144
Quiz5210
Attending Lectures14342
Homework149126
TOTAL WORKLOAD (hours)184
Contribution of Learning Outcomes to Programme Outcomes
LO1
LO2
LO3
LO4
* Contribution Level : 1 Very low 2 Low 3 Medium 4 High 5 Very High
 
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