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FACULTY of ENGINEERING / DEPARTMENT of ELECTRICAL and ELECTRONICS ENGINEERING
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FACULTY of ENGINEERING / DEPARTMENT of ELECTRICAL and ELECTRONICS ENGINEERING / (30%) English
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ELK2004Electromagnetic Fields3+0+0ECTS:5
Year / SemesterSpring Semester
Level of CourseFirst Cycle
Status Compulsory
DepartmentDEPARTMENT of ELECTRICAL and ELECTRONICS ENGINEERING
Prerequisites and co-requisitesNone
Mode of DeliveryFace to face
Contact Hours14 weeks - 3 hours of lectures per week
LecturerDr. Öğr. Üyesi Haydar KAYA
Co-LecturerDOCTOR LECTURER Ayhan YAZGAN,
Language of instructionTurkish
Professional practise ( internship ) None
 
The aim of the course:
The objective of this course is to teach various topics in EM field including the behaviours of electrical circuit elements.
 
Learning OutcomesCTPOTOA
Upon successful completion of the course, the students will be able to :
LO - 1 : Gain knowledge of field effects for various charge and current distribution.1,2,121
LO - 2 : Gain the possibility of determining basic circuit elements, such as capacitance, resistance and inductance.1,2,121
LO - 3 : Gain a background for understanding of many areas in electric and electronics.1,2,121
LO - 4 : Gain a background for understanding properties and behaviors of electrical and magnetic materials.1,2,121
CTPO : Contribution to programme outcomes, TOA :Type of assessment (1: written exam, 2: Oral exam, 3: Homework assignment, 4: Laboratory exercise/exam, 5: Seminar / presentation, 6: Term paper), LO : Learning Outcome

 
Contents of the Course
Introduction, electromagnetic model. Static electric fields, Coulomb's law, Gauss's law and applications, electric potential, material media in static electric field, boundary conditions for electrostatic fields, capacitances and capacitors, electrostatic energy and forces. Steady electric currents, current density and Ohm's law, power dissipation and Joule's law, resistance calculations. Static magnetic fields, Biot-Savart law and applications, behaviour of magnetic materials, inductances and inductors, magnetic energy, magnetic forces.
 
Course Syllabus
 WeekSubjectRelated Notes / Files
 Week 1Introduction, electromagnetic model
 Week 2Static electric fields, Coulomb's law
 Week 3Gauss's law and applications, electric potential
 Week 4Material media in static electric field
 Week 5Boundary conditions for electrostatic fields, capacitances and capacitors
 Week 6Electrostatic energy and forces
 Week 7Steady electric currents, current density and Ohm's law, Kirchhoff's current law
 Week 8power dissipation and Joule's law, resistance calculations
 Week 9Mid-term exam
 Week 10Static magnetic fields
 Week 11Biot-Savart law and applications
 Week 12Behaviour of magnetic materials
 Week 13Inductances and inductors
 Week 14Magnetic energy
 Week 15Magnetic forces
 Week 16End-of-term exam
 
Textbook / Material
1Cheng, David K. 1992; Fundamentals of Engineering Electromagnetics, Addison-Wesley.
2Köksal, A. 2006; Mühendislik Elektromanyetiğinin Temelleri, Palme Yayıncılık.
 
Recommended Reading
1Ulaby, F. T. 2006; Fundamentals of Applied Electromagnetics, Prentice-Hall.
2Sadiku, M. 2000; Elements of Electromagnetics, Oxford University Press.
 
Method of Assessment
Type of assessmentWeek NoDate

Duration (hours)Weight (%)
Mid-term exam 9 2 50
End-of-term exam 16 2 50
 
Student Work Load and its Distribution
Type of workDuration (hours pw)

No of weeks / Number of activity

Hours in total per term
Yüz yüze eğitim 3 14 42
Sınıf dışı çalışma 3 14 42
Laboratuar çalışması 0 0 0
Arasınav için hazırlık 4 8 32
Arasınav 2 1 2
Uygulama 0 0 0
Klinik Uygulama 0 0 0
Ödev 0 0 0
Proje 0 0 0
Kısa sınav 0 0 0
Dönem sonu sınavı için hazırlık 3 10 30
Dönem sonu sınavı 2 1 2
Diğer 1 0 0 0
Diğer 2 0 0 0
Total work load150