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Description of Individual Course Units

Course Unit Code Course Unit Title Type Of Course D U L ECTS OFZ 3107 ELECTROMAGNETIC THEORY COMPULSORY 3 0 0 5

Offered By

Physics Teacher Education

Level of Course Unit

First Cycle Programmes (Bachelor's Degree)

Course Coordinator

ASSOCIATE PROFESSOR GAMZE SEZGIN SELÇUK

Offered to

Physics Teacher Education

Course Objective

Students will be able to comprehend the fundamentals of The Electromagnetic Theory.

Learning Outcomes of the Course Unit

1   After completing this course, students will be able to: comprehend basic concepts, laws and theories in the Electromagnetic Theory course 2   apply the differential equations to the electrostatic and magnetostatic fields and interpret the obtained results 3   solve the new problems by using their knowledge about Electromagnetic theory 4   write down the Maxwell' equationd for vacuum and matter and explain the physical meanings 5   link between the knowledge about course and daily life and technology

Mode of Delivery

Face -to- Face

Prerequisites and Co-requisites

None

Recomended Optional Programme Components

None

Course Contents

Week Subject Description 1 Vector Analysis: Vector Algebra 2 Electrostatics: The electric field, Divergence and curl of electrostatic fields 3 Electric Potential: Introduction to potential, Poisson s equation and Laplace s equation 4 Potentional of a localized charge distribution, Electrostatic boundary conditions 5 Work and energy in electrostatics: The energy of a point charge distribution, The energy of a continuous charge distribution 6 Conductors: Basic properties of conductors, Surface charge and the force on a conductor, Capacitors 7 Midterm exam 8 Electric fields in matter: Dielectrics, Polarization, Bound charges, Electric Displacement, Gauss s Law in the presence of dielectrics 9 Linear Dielectrics: Permittivity, susceptibility, dielectric constant 10 Magnetostatics: The Lorentz force law, The Biot-Savart law, The divergence and curl of B 11 Applications of Ampere s law, Manyetostatik ve Comparison of Magnetostatics and Electrostatics, Magnetic vector potential 12 Magnetic fields in matter: Ferromagnets, paramagnets, diamagnets, Magnetization, Magnetic susceptibility and permeability 13 Electrodynamics: Electromotive force, elektromagnetic induction, Energy in magnetic fields 14 Maxwell's Equations: Maxwell's equations in vacuum, Maxwell's equations in matter 15 Final Exam

Recomended or Required Reading

Griffiths, D. J. Çeviri: Karaoğlu, B. 1996; Elektromagnetik teori. Istanbul: Bilgi Tek Yayınları.

Planned Learning Activities and Teaching Methods

Lecture method, Question-Answer, Discussion

Assessment Methods

SORTING NUMBER SHORT CODE LONG CODE FORMULA 1 MTE MIDTERM EXAM 2 STT TERM WORK (SEMESTER) 3 FINS FINAL EXAM 4 FCGR FINAL COURSE GRADE (RESIT) MTE * 0.30 + STT * 0.10 + FINS * 0.60 5 RST RESIT 6 FCGR FINAL COURSE GRADE (RESIT) MTE * 0.40 + RST * 0.60 *** Resit Exam is Not Administered in Institutions Where Resit is not Applicable.

Further Notes About Assessment Methods

None

Assessment Criteria

Written exam, homework

Language of Instruction

Turkish

Course Policies and Rules

To be announced.

Contact Details for the Lecturer(s)

e-mail:gamze.sezgin@deu.edu.tr phone:0232 3012438

Office Hours

To be announced.

Work Placement(s)

None

Workload Calculation

Activities Number Time (hours) Total Work Load (hours) Lectures 13 3 39 Preparations before/after weekly lectures 13 2 26 Preparation for midterm exam 7 2 14 Preparation for final exam 7 2 14 Preparing assignments 1 17 17 Preparing presentations 1 6 6 Final 1 2 2 Midterm 1 2 2 TOTAL WORKLOAD (hours) 120

Contribution of Learning Outcomes to Programme Outcomes

PO/LO PO.1 PO.2 PO.3 PO.4 PO.5 PO.6 PO.7 PO.8 PO.9 PO.10 PO.11 PO.12 PO.13 PO.14 PO.15 PO.16 PO.17 PO.18 PO.19 PO.20 LO.1 5 LO.2 4 5 3 2 LO.3 4 3 5 1 3 LO.4 5 LO.5 2 2 5 3 4 2