School of Engineering \ Electrical and Electronics Engineering
Course Credit
ECTS Credit
Course Type
Instructional Language
Programs that can take the course
Electrical and Electronics Engineering
Maxwell's Equations in the time and frequency domains. The wave equation. Uniform plane waves. Reflection and refraction. Electromagnetic energy and power. Introduction to transmission lines and antennas.
Textbook and / or References
Fundamentals of Engineering Electromagnetics, David K. Cheng, 1. Basım, Prentice Hall, 1992.
To understand the propagation and applications of electromagnetic waves in various environments; to learn the necessary mathematical solution methods for this.
1. Learning Maxwell's Equations in the time-domain and frequency-domain
2. Understanding wave behavior and learning the wave equation and learning its mathematical expression
3. Learning uniform plane waves and related concepts
4. Understanding the concept of a transmission line and having basic knowledge about the distributed circuit analysis method
5. Having basic knowledge about antennas and wave propagation
Week 1: Transformer and electromotive forces (EMF) from motion
Week 2: Maxwell Equations
Week 3: Wave behavior and wave equation
Week 4: Scalar and vector potentials in the time-domain
Week 5: Boundary conditions and frequency-domain Maxwell Equations
Week 6: Plane waves
Week 7: Polarization of plane waves
Week 8: Plane waves in lossy media
Week 9: Electromagnetic power flow and Poynting's Theorem
Week 10: Reflection and refraction of plane waves
Week 11: Transmission lines and antennas
Week 12: -
Tentative Assesment Methods
• Midterm 30 %
• Project 20 %
• Final 40 %
• Homework 10 %
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Course Outcome
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A, B
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A, B
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A, B
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B
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A
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A
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