Download Electromagnetics (Math - 262)

Electromagnetics (Math - 262)
Instructor's Name:
Zaeem H. Jafri
Year: 2003-2004
Office No.
Room # 119
Quarter: Winter
Email:
[email protected]
Office Hours:
1100 - 1300 Hrs, Wednesday
1400 - 1600 Hrs, Thursday & Friday
TA for the Course:
Not yet available
Course
Code
(Units)
Course
Description
Category: Sophomore
Electromagnetics (Math - 262)
(4 Units)
The course is spread over 2 modules described as follows
Module I
Electrostatics
Module II
Current Electricity and Magnetism
Core/Elective Elective
Goals
At the end of the course the student should be
 Having a good understanding of the laws and concepts of
Electromagnetism
 Having a good background for advanced courses in
electromagnetic theory.
 Able to apply the concepts to everyday situations.
Electromagnetics (Math - 262)
TextBooks,
Main Text Book
Programming
1.
University Physics (sixth edition)
Environment, etc.
By F. W. Sears. M. W. Zemansky. H. D. Young
Help Books
1.
2.
3.
4.
University Physics (ninth edition)
By Young  Freedman
Fundametals of Physics (Sxith extended edition)
By Halliday  Resnick  Walker
Advanced Engineering Mathematics
By Erwin Kreyszig
Foundations of Electromagnetic theory
By Ritz  Milford
Lectures,
Tutorials &
Attendance Policy
There will be 30 sessions in all:
20 sessions of 75 minutes and 10 sessions of 50 minutes.
Grading
Quizzes
Mid - Term
Final Exam
25%
35%
40%
Electromagnetics (Math - 262)
Year: 2001- 2002
Quarter: Spring
Topics
Concepts of Vector
Algebra and Vector
Calculus
Sessions
Readings
1-4
Chapter 1 (Foundations of
Electromagnetic theory)
Section 1.1 to 1.7
5 -7
Chapter 24
Coulomb's law
Section 24.1 to 24.4
Gradient, Divergence,
Curl,
Divergence theorem and
Stoke's theorem.
Electric charge. Atomic
structure. Electrical
conductors and insulators.
Charging by induction.
Coulomb's law.
Application of Coulomb's
Law.
Section 24.5 and 24.6
Electric field and Electric
Force. Electric field
calculation.
8-9
Chapter 25
The electric field
Section 25.1 and 25.2
Field lines. Gauss's law
Application of Gauss's law.
10-12
Section 25.3 to 25.5
Electrical potential energy.
Potential.
13 - 15
Chapter 26
Electric potential
Calculation of potentials.
Equipotential surfaces.
Section 26.3 and 26.4
Potentail gradient.
Electron volt. The cathode
ray tube.
MID TERM
Capacitors. The parallel
Plate capacitor.
Capacitors in series and
palrallel.
Section 26.5, 26.7 and 26.8
16
17 - 19
Energy of a charged
capacitor. Effect of a
dielectric. Molecular
model of induced charges.
Polarization and displacement.
Magnetism. Magnetic
Field. Magnetic field lines
and magnetic flux. Motion
of charged particles in
magnetic fields.
Chapter 27
Capacitance and Dielectrics
Section 27.1 to 27.3
Section 27.4 to 27.7
20 - 22
Sources of magnetic field.
Magnetic field of a
moving charge. Magnetic
field of a current element.
The Biot Law.
23 - 24
Magnetic field of a
straight conductor. Force
between parallel
conductors. Magnetic
field of a circular loop.
25 - 26
Ampere's law.
Applications of Ampere's
Law.
27 - 28
Chapter 30
Magnetic field and
magnetic forces
Section 32.1 to 32.6
Chapter 32
Magnetic field of a current
Section 32.1 to 32.6
Section 32.7 an 32.8
Maxwell's equations.
Speed of an
electromagnetic wave.
Energy in
Electromagnetic waves.
Electromagnetic waves in
matter.
29 - 30
Chapter 37
Maxwell's laws and
Electromagnetic waves.
Section 37.1 to 37.4