Textbooks:
Field and Wave Electromagnetics, D.K. Cheng
Introduction
to Electrodynamics, David J. Griffiths
Grading:
Homeworks+Quizes (30%)
Midterms (30%)
Final (40%)
Syllabus:
WEEK |
Date |
TOPICS |
Week 1 |
08.02.2017 |
Elementary Vector Analysis, Orthogonal Coordinate Systems |
Week 2 |
15.02.2017 |
Differential Operators, Gradient, Divergence, Curl, Gauss and
Stokes Theorems |
Week 3 |
22.02.2017 |
Introduction to the electrostatic fields, Coulomb Law |
Week 4 |
01.03.2017 |
Electrostatic fields in free-space, Field Lines, Electrostatic
Potential and Work |
Week 5 |
08.03.2017 |
Gauss's Law, Conductors and Dielectric Materials in
Electrostatic fields |
Week 6 |
15.03.2017 |
Polarization concept, dielectrics and conductors, Boundary Conditions
for electrostatic fields |
Week 7 |
22.03.2017 |
Image method, Capacitors, Electrostatic Energy Density |
Week 8 |
29.03.2017 |
Midterm-no class |
Week 9 |
05.04.2017 |
Static magnetic field in free space, Lorentz force and
Biot-Savart law |
Week 10 |
12.04.2017 |
Ampère Law |
Week 11 |
19.04.2017 |
Fundamental Postulates of Magnetostatic in free-space |
Week 12 |
26.04.2017 |
Behavior of Magnetic Materials, Boundary Conditions for static
magnetic fields |
Week 13 |
03.05.2017 |
Magnetic Circuits |
Week 14 |
10.05.2017 |
Faraday and Ampère laws for time varying fields |
Week 15 |
17.05.2017 |
Maxwell's equations |