Course Unit Code  Course Unit Title  Type of Course Unit  Year of Study  Semester  Number of ECTS Credits  160103004204  THEORY OF ELECTROMAGNETICS  II  Compulsory  2  4  5 

Level of Course Unit 
First Cycle 
Objectives of the Course 
To teach the students basic concepts, equations and solving problems about transmission lines, timevarying fields, plane and guided electromagnetic waves and transmission lines. 
Name of Lecturer(s) 
Dr. Öğr. Üyesi Ramazan Topkaya 
Learning Outcomes 
1  The student will calculate electric and magnetic field intensity and also the induced voltage for different medium in time domain using the Maxwell equations,
 2  calculate electric and magnetic field intensity and also the induced voltage for different medium in frequency domain using the Maxwell equations,  3  calculate phase coefficient of plane electromagnetic waves consist of electric and magnetic fields, and intrinsic impedance, 

Mode of Delivery 
Daytime Class 
Prerequisites and corequisities 
No 
Recommended Optional Programme Components 
No 
Course Contents 
Scalar and Vector Analyses, Gradient of a Scalar, Divergence of a Vector, Curl of a Vector, Laplaces and Poissons Equations, Curl F in Cartesian Coordinates, Divergece and Stokess Theorems, Other Coordinate Systems, Amperes and Faradays Laws, Displacement Currents, Maxwell Equations, Time Varying Fields, Time Harmonic Fields 
Weekly Detailed Course Contents 

1  Faraday's Law of Induction    2  Faraday's Law of Induction    3  Maxwell Equations, Time Varying Fields    4  Maxwell Equations, Time Varying Fields    5  Time Harmonic Fields, Potential Functions,    6  Time Harmonic Fields, Potential Functions    7  Plane Waves in Lossless Media    8  Midterm Exam    9  Plane Waves in Lossless Media    10  Plane Waves in Lossy Media,    11  Plane Waves in Lossy Media    12  Power Flow and Poynting Theorem    13  Oblique Arrival of Plane Waves to Plane Boundaries    14  Perpendicular Arrival of Plane Waves to Plane Boundaries    15  Final 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  
Midterm Examination  1  100  SUM  100  
Final Examination  1  100  SUM  100  Term (or Year) Learning Activities  40  End Of Term (or Year) Learning Activities  60  SUM  100 
 Language of Instruction   Work Placement(s)  No 

Workload Calculation 