https://youtu.be/G5P6dInMTFg?si=DcdKSPMYXo25kL7rCourse code : EET204
Course name : ELECTROMAGNETIC THEORY
Course Objectives
1. To develop a conceptual basis of electrostatics, magnetostatics, electromagnetic waves.
2. To understand various engineering applications of electromagnetics.
Course Outcomes
CO1: Apply vector analysis and coordinate systems to solve static electric and magneticfield
problems.
CO2: Apply Gauss Law, Coulomb’s law and Poisson’s equation to determine electrostatic
field parameters.
CO3: Determine magnetic fields from current distributions by applying Biot-Savart’s law and
Amperes Circuital law.
CO4: Apply Maxwell Equations for the solution of timevarying fields.
CO5: Analyze electromagnetic wave propagation in different media.
Curriculum
- 5 Sections
- 26 Lessons
- 15 Weeks
- Introduction to Co-ordinate SystemsIntroduction to various coordinate systems like the rectangular, cylindrical and spherical coordinate systems. Explanation to Curl divergence theorem and stokes theorem and gradient of a scalar field6
- Coulomb’s Law, Electric field intensity,Introduction to Coulombs law ,field due to line charge ,surface charge ,electric flux and flux density.Explaination to gausslaw and its applications, capacitance of the coaxial cable and electric dipole6
- Biot-Savart’s Law, Magnetic Field intensity due to a finite and infinite wire carrying currentIntroduction to Biotsavart's Law , magnetic field intensity due to infinite line charge and charge sheet5
- Wave Equations from Maxwell\'s EquationsIntroduction to wave equations from Maxwell's equation, uniform plane waves, skin effect and skin depth5
- Transmission LinesIntroduction to line parameters ,transmission line equations and solutions, standing wave ratios4
