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