Download Identification - Khazar University

Identification
Prerequisites
Language
Compulsory/Elective
Required textbooks and
course materials
Subject
ETR 357 Electromagnetic Theory – 3 credits
(code, title, credits)
Department
Electronics, Telecommunications and Radio Engineering
Program
Undergraduate
(undergraduate,
graduate)
Term
Spring 2015
Instructor
Shahmerdan Amirov
E-mail:
[email protected]
Phone:
(+99450) 210-16 -20
Classroom/hours
203N Thursday 15:10-18:00
Office hours
Physics II (PHSC 112)
English
Compulsory
Core textbook: Hugh D.Young, Roger A.Freedman University Physics. Pearson International
Edition.P.1551
Supplementary books.2.. Douglas C.Giancoli. Physics for scientists and engineers. Pearson
International Edition.
3.M.Sadigi Fundamentals of Circuit Theory
4. Amirov Sh.Sh. Lectures in Medical and Biological Physics. P.283
Course website
http://www.maths.tcd.ie
Course outline
Electromagnetic theory covers basic principles of electronic filaments, cathode rat tubes, ionic
devices, semiconductors, resistors and diodes on their base, transistors, amplifiers, operational
amplifiers , oscillatory circuits, generators of sinusoidal oscillations, as well as the rectifiers.
After studying this course the student should be able to:
• Calculating electric fields and electric potentials
• Analysis combination of capacitors. Calculating power and energy in circuits.
• Applying Kirchoff’s current and voltage laws in circuits..
• Analysis of magnetically coupled circuits.

Lecture

Group discussion

Experiential exercise

Case analysis

Simulation

Course paper

Others
Methods
Date/deadlines
Percentage (%)
Midterm Exam
30
Case studies
Class Participation
10
Assignment and quizzes
20
Project
Course objectives
Teaching methods
Evaluation
Final Exam
Others
Total
40
100
Wee
k
Policy
Date/Day
(tentative)
1
29.01.15
2
05.02.15
Tentative Schedule
Topics
Electric charge. Conductors, Insulators and induced charges.
Vector form of Coulomb’s law. Electric field and electric forces.
The superposition of electric fields. calculations. Electric field lines
The Electric field of a ring of charge. The electric field of a line of
charge. Problem solving
Charge and Electric Flux. Calculating Electric Flux. Gauss’s
Textbook/Assignments
p.709-741
p.750-773
law. Field of charged conducting sphere. Field of a line charge.
Field of an infinite plane sheet of charge. Field between opposite
charged parallel conducting plates. Field of uniformly charged
sphere. Field of a hollow charged sphere. Problem solving
Electric potential energy. Work –energy theorem. Electric potential
energy in a uniform electric field and between two point charges.
Electric potential energy with several point charges. Electric
potential due to two point charges. Problem solving
Electric potential of a charged conducting sphere, a ring charge and
a line charge. Equipotential surfaces. Electric dipoles. Dipole in an
external electric field. Electric potential due to dipole. Problem
solving
Capacitors and capacitance. Capacitors in series and parallel.
Energy storage in capacitors and electric field energy.Dielectrics.
Electric Flux density and Dielectric constant. The boundary
conditions for electrostatic fields. Problem solving
Current resistance and electromotive force. Resistivity.
Electromotive force and circuits. Energy and power in electric
circuits. Problem solving
Direct current circuits. Resistors in series and parallel. Kirchoff’s
current and voltage rules. R-C circuits. Problem solving
Midterm Exam
Magnetostatics. Magnetic field of a moving charge. Magnetic field
of a current element. Magnetic field of a straight current carrying
conductor. Magnetic field of a circular current loop. Ampere’s law.
Problem solving
Magnetic field lines and magnetic flux. Motion of charged particles
in a magnetic Field. Magnetic force on current carrying
conductor. Force and Torque on a current loop. Force between
parallel conductors. Problem solving
Magnetic properties of matter. Magnetizability. Types of
magnets(Para-,Dia- and Ferro magnets. Magnetization vector.
Problem solving
3
12.02.15
4
19.02.15
5
26.02.15
6
05.03.15
7
12.03.15
8
19.03.15
9
26.03.15
10
02.04.15
11
09.04.15
Electromagnetic induction. Faraday’s law. Lenz’s law. Motional
electromotive force. Induced electric fields. Eddy currents.
Displacement current. Problem solving
p.993-1020
12
16.04.15
p.1030-1045
13
23.04.15
14
30.04.15
15
07.05.15
Mutual inductance.Self inductance and inductors. Inductors and
magnetic field energy. The R-L circuit. The L-C circuit. Problem
solving
Problem solving
Phasors and alternating currents. Resistance and reactance. The LR-C- series circuit. Power in alternating current circuits. Resonance
in alternating current circuits. Problem solving
Magnetically coupled circuits. Dot convention for coils in series.
Energy in a coupled circuit. Linear transformers. Coupled
impedance. Problem solving
Maxwell’s equations and electromagnetic waves.Plane and
sinusoidal electromagnetic waves.Energy and momentum in
electromagnetic waves. Standing electromagnetic waves. Problem
solving
Final Exam
p-780-795
p.800-815
p.815-838
p.846-872
p.881-900,
p.957-984
p.916-947
p. 73-96
p.1061-1085
p.555-611
p.1092-1116