Akademik Dersler - Tanıtım

Course Introduction Information


Code - Course Title	FİZ348 - Electromagnetic Theory
Course Type	Required Courses
Language of Instruction	Türkçe
Laboratory + Practice	5+1
ECTS	6.0
Course Instructor(s)	PROFESÖR DOKTOR MÜJDAT ÇAĞLAR
Mode of Delivery	The mode of delivery of this course is Face to face.
Prerequisites	There is no a prerequisite or co-requisite for this course.
Courses Recomended
Required or Recommended Resources	William H. Hayt, Jr ve John A. Buck (8th ed) Engineering Electromagnetics, David J. Griffiths, Elektromanyetik Teori
Recommended Reading List
Assessment methods and criteria
Work Placement	N/A
Sustainability Development Goals

Content

Weeks	Topics
Week - 1	Introduction to electromagnetic theory; Vector Analysis, Vector Algebra (Addition, Subtraction, Product), ORTHOGONAL COORDINATE SYSTEMS: Cartesian, Cylindrical and Spherical Coordinate Systems
Week - 2	Vector Analysis; Curl of a Vector Field, Stokes’s Theorem, Null Identities, Helmholtz’s Theorem; Electric Charge, Coulomb’s Law And Electric Fıeld
Week - 3	Electric Field From Multiple Charges And Continuous Distributions Of Charge; Electric Potential, Electric dipol, Electric current and Gauss Law; Application of Gauss Law
Week - 4	Differential Form Of Gauss’s Law And Metallic Conductor In Electrostatic Field; Induced Charges On Conductors And Electrostatic Shielding
Week - 5	Poisson’s And Laplace’s Equations; Two Dimension Laplace’s Equations and Capasitors
Week - 6	Dielectric Materials and Polarizability, Permittivity; Dielectric Breakdown, Electrostatic Boundary Conditions; Exercises
Week - 7	Electrostatic Energy; Electrostatic Forces
Week - 8	Conductivity, Current Flow, Current Density, Ohm’s Law, And Resistance; Electromotive Force, Continuity Equation, And Kırchhoff’s Laws, redistribution of Free Charge And Boundary Conditions For Steady Current Flow, Resistance-Capacitance Analogy And Joule’s Law
Week - 9	Ampere’s Law Of Force And Biot-Savart Law; Ampere’s Circuital Law In non-magnetic media (free space)
Week - 10	Vector Magnetic Potential And Magnetic Dipole; Divergence Of B, Magnetic Flux, And Inductance
Week - 11	Magnetization; Types Of Magnetic Materials And Boundary Conditions For Magnetostatic Fields
Week - 12	Magnetic Forces And Torques; Faraday’s Law Of Electromagnetic Induction, Potantial function for electric field
Week - 13	The General Form Of Ampere’s Law, And Maxwell’s Equations; Application
Week - 14	Time-Harmonic Maxwell’s Equations; Phasor, Electromagnetic Boundary Conditions, Plane Waves In Lossless Medium

Learning Activities and Teaching Methods

Teaching Methods
Lecture
Drill - Practise
Competences
Questoning
Effective use of a foreign language
Abstract analysis and synthesis
Problem solving
To work autonomously
Elementary computing skills

Assessment Methods

Assessment Method and Passing Requirements
	Quamtity	Percentage (%)
1.Midterm Exam	1	30
2.Midterm Exam	1	30
Final Exam	1	40
Toplam (%)		100