1. FIRST CYCLE - BACHELOR'S DEGREE
  2. FACULTY OF ENGINEERING
  3. ELECTRICAL AND ELECTRONIC ENGINEERING DEPARTMENT
  4. 248 Electrical and Electronics Engineering (Evening Classes)
Course Information Course Learning Outcomes Course's Contribution To Program ECTS Workload Course Details
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COURSE INFORMATION
Course CodeCourse TitleL+P HourSemesterECTS
EEEN 301ELECTROMAGNETIC WAVES3 + 05th Semester4,5

COURSE DESCRIPTION
Course Level Bachelor's Degree
Course Type Compulsory
Course Objective Electromagnetic Waves course is the continuation of Electromagnetic Fields course. The essential aims of this course are that basic construction of Electromagnetic field based electromagnetic connection with modern telecommunication, elements of electric and magnetic fields, medium properties and boundary conditions of the medium in which propagated, solutions of wave equation and power subjects are given.
Course Content Mediums and wave equation, Definitions of medium, Isotropic medium, Anisotropic medium, Linear medium, Medium with constant coefficient, Homogen medium, Simple medium, Maxwell equations, Harmonic Maxwell equations, Plane electromagnetic waves, TE, TM and TEM modes, One-dimensional wave equation in free space, Solution of one-dimensional wave equation in free space, Plane electromagnetic wave equation in free space, Wave propagation in conduction mediums, Harmonic variation, Wave equation in a conduction medium, Helmholtz wave equation, Harmonic solution of wave equation in dielectric medium, Solution of wave equation in conduction medium, Conductance and electrical resistivity criterions of mediums, Group velocity and classification of mediums, The reflection and standing waves, Standing wave ratio-Measurement of standing wave, Stored energy in electromagnetic field, Poyntıng vector, Poyntıng vector of plane electromagnetic wave, Ortogonal waves to the interface of two mediums, Polarization typies in the electromagnetic wave with an angle to an conduction interface, Reflections according to polarization typies .
Prerequisites No the prerequisite of lesson.
Corequisite No the corequisite of lesson.
Mode of Delivery Face to Face

COURSE LEARNING OUTCOMES
1Who has knowledge about basic concept and process about electromagnetic field theory
2Who can derive and solve wave equation.
3Who defines and knows properties of wave propagation.
4Who knows properties of electromagnetic wave polarization and polarized waves propagation. Who knows pattern of their behavior for different environment. Who can solve wave equation.
5Who defines general characteristic of transmission lines and analyse propagation.

COURSE'S CONTRIBUTION TO PROGRAM
PO 01PO 02PO 03PO 04PO 05PO 06PO 07PO 08PO 09PO 10PO 11
LO 00145133111 31
LO 00234132111 31
LO 00344 32121 3 
LO 00424231111 31
LO 005231321 1 32
Sub Total152051510555 155
Contribution34132111031

ECTS ALLOCATED BASED ON STUDENT WORKLOAD BY THE COURSE DESCRIPTION
ActivitiesQuantityDuration (Hour)Total Work Load (Hour)
Course Duration (14 weeks/theoric+practical)14342
Hours for off-the-classroom study (Pre-study, practice)14342
Mid-terms11010
Final examination12323
Total Work Load

ECTS Credit of the Course





117

4,5
COURSE DETAILS
 Select Year   


 Course TermNoInstructors
Details 2023-2024 Fall3CEYHUN KARPUZ
Details 2023-2024 Fall4ÖZGÜR ÖNDER KARAKILINÇ


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Course Details
Course Code Course Title L+P Hour Course Code Language Of Instruction Course Semester
EEEN 301 ELECTROMAGNETIC WAVES 3 + 0 3 Turkish 2023-2024 Fall
Course Coordinator  E-Mail  Phone Number  Course Location Attendance
Prof. Dr. CEYHUN KARPUZ ckarpuz@pau.edu.tr MUH A0301 %
Goals Electromagnetic Waves course is the continuation of Electromagnetic Fields course. The essential aims of this course are that basic construction of Electromagnetic field based electromagnetic connection with modern telecommunication, elements of electric and magnetic fields, medium properties and boundary conditions of the medium in which propagated, solutions of wave equation and power subjects are given.
Content Mediums and wave equation, Definitions of medium, Isotropic medium, Anisotropic medium, Linear medium, Medium with constant coefficient, Homogen medium, Simple medium, Maxwell equations, Harmonic Maxwell equations, Plane electromagnetic waves, TE, TM and TEM modes, One-dimensional wave equation in free space, Solution of one-dimensional wave equation in free space, Plane electromagnetic wave equation in free space, Wave propagation in conduction mediums, Harmonic variation, Wave equation in a conduction medium, Helmholtz wave equation, Harmonic solution of wave equation in dielectric medium, Solution of wave equation in conduction medium, Conductance and electrical resistivity criterions of mediums, Group velocity and classification of mediums, The reflection and standing waves, Standing wave ratio-Measurement of standing wave, Stored energy in electromagnetic field, Poyntıng vector, Poyntıng vector of plane electromagnetic wave, Ortogonal waves to the interface of two mediums, Polarization typies in the electromagnetic wave with an angle to an conduction interface, Reflections according to polarization typies .
Topics
WeeksTopics
1 An overview of the electromagnetic field theory.
2 Introduction to electromagnetic wave theory
3 Solutions of static boundary value problems in different coordinate systems
4 Time-varying fields
5 Maxwell equations and boundary conditions
6 Potential functions
7 Wave equations and their solutions
8 Plane waves and their propagation in different media
9 Midterm Exam
10 Flow of electromagnetic power
11 Poynting Vector
12 Reflections of plane waves at plane interfaces
13 Refraction of plane waves at plane interfaces
14 TEM waves and introductory transmission line concepts.
Materials
Materials are not specified.
Resources
ResourcesResources Language
1- David K. Cheng (1993), Fundamentals of Engineering Electromagnetics, Addison-Wesley Publishing Company, International Edition English
2- Schaum's Outline Series in Electromagnetics.English
3- Prof. Dr. Adnan GÖRÜR, ders notlarıTürkçe
Course Assessment
Assesment MethodsPercentage (%)Assesment Methods Title
Final Exam60Final Exam
Midterm Exam40Midterm Exam
L+P: Lecture and Practice
PQ: Program Learning Outcomes
LO: Course Learning Outcomes