| Semester | Course Unit Code | Course Unit Title | T+P+L | Credit | Number of ECTS Credits |
| 3 | EEM 281 | Electromagnetic Field Theory | 4+0+0 | 4 | 6 |
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Language of Instruction
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Turkish
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Level of Course Unit
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Bachelor's Degree
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Department / Program
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Electrical and Electronics Engineering
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Mode of Delivery
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Face to Face
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Type of Course Unit
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Elective
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Objectives of the Course
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To teach fundamentals of static electromagnetic with the help of vectoral analysis
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Course Content
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Electric dipol and polarization, Coulomb's Law and Gauss Law, Vector Calculus, Boundry conditions for conductors and dipoles, Capacitance, Electrostatic energy and pressure, Electrostatic force
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Course Methods and Techniques
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Prerequisites and co-requisities
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( EEM 104 )
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Course Coordinator
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Prof.Dr. Şükrü ÖZEN
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Name of Lecturers
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Prof.Dr. HÜSEYİN GÖKSU
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Assistants
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None
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Work Placement(s)
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No
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Recommended or Required Reading
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Resources
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Field and Wave electromagnetics, Cheng, Addison-Wesley
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Course Category
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Mathematics and Basic Sciences
|
%25
|
|
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Engineering
|
%30
|
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Engineering Design
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%15
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Field
|
%30
|
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Planned Learning Activities and Teaching Methods
Activities are given in detail in the section of "Assessment Methods and Criteria" and "Workload Calculation"
Assessment Methods and Criteria
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In-Term Studies
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Mid-terms
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1
|
%
30
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Assignment
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2
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%
20
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Final examination
|
1
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%
50
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Total
|
4
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%
100
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ECTS Allocated Based on Student Workload
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Activities
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Total Work Load
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Course Duration
|
14
|
4
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56
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Hours for off-the-c.r.stud
|
5
|
20
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100
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Assignments
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4
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2
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8
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Mid-terms
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1
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3
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3
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Final examination
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1
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3
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3
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Total Work Load
| |
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Number of ECTS Credits 6
170
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Course Learning Outcomes: Upon the successful completion of this course, students will be able to:
| No | Learning Outcomes |
|
1
| The students will be able to develop knowledge in solving vectoral electrostatic problems in rectangular, cylindrical, and spherical coordinates |
|
2
| The students will be able to explain the electric and magnetic fields due to different source distributions |
|
3
| The students will be able to understand the concepts of energy and power associated with static electromagnetic fields |
|
4
| The students will be able to solve the magnetic field intensity due to current distribution |
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5
| The students will be able to apply Maxwell`s equations to analyse complicated electrostatic and magnetostatic phenomena |
Weekly Detailed Course Contents
| Week | Topics | Study Materials | Materials |
| 1 |
Vector Calculus
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| 2 |
Coulomb`s Law and Gauss Law
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| 3 |
Coulomb`s Law and Gauss Law
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| 4 |
Electrical Potential
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| 5 |
Electric dipol and polarization
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| 6 |
Electric dipol and polarization
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| 7 |
Boundry conditions for conductors and dipoles
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| 8 |
Boundry conditions for conductors and dipoles
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| 9 |
Capacitance
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| 10 |
Electrostatic force
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| 11 |
Electrostatic energy and pressure
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| 12 |
Electrostatic energy and pressure
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| 13 |
Manyetik Kuvvetler, karşılıklı endüktans
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| 14 |
Manyetik devreler
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Contribution of Learning Outcomes to Programme Outcomes
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https://obs.akdeniz.edu.tr/oibs/bologna/progCourseDetails.aspx?curCourse=2429125&lang=en