Course Introduction and Syllabus
Chapter 1:
Introduction / Vector algebra / Coordinate systems / Component scalars and component vectors / Dot product / Cross product.
Chapter 2:
Coordinate and unit vector definitions / Vector definitions and coordinate transformations / Coordinate transformation procedure / Separation distances / Volumes, surfaces and lines in rectangular, cylindrical and spherical coordinates / Constant coordinate surfaces.
Chapter 3:
Electrostatic fields / Electric field / Charge distributions / Electric fields due to charge distributions / Electric scalar potential / Potentials of charge distributions / Electric field as the gradient of the potential / Electric flux density / Gauss’s law / Divergence operator and Gauss’s law in differential form / Divergence theorem / Electric dipole / Energy density in the electric field / Total energy in terms of electric field.
Download Course Materials
Coordinate_Transformation_Formula_Sheet_Integration Formulas_Integration Table
Textbooks/References:
1- Fundamentals of Applied Electromagnetics [Author: Fawwaz T. Ulaby]
2- Engineering Electromagnetics [Authors: William H. Hayt and John. A. Buck]
3- Field and wave electromagnetics [Author: David. K. Cheng]
4- Schaum’s Outline of Theory and Problems of Electromagnetics [Author: Joseph A. Edminister. Publisher: McGraw-Hill, Singapore, 1993]