- Vectors and Fields (2 Sessions)
- Vector Algebra
- Cartesian Coordinate System
- Cylindrical and Spherical Coordinate Systems
- Scalar and Vector Fields
- The Electric Field
- The Magnetic Field
- Lorentz Force Equation
- Maxwell’s Equations in Integral Form (4 Sessions)
- The Line Integral
- The Surface Integral
- Faraday’s Law
- Ampère’s Circuital Law
- Gauss’ Laws
- The Law of Conservation of Charge
- Application to Static Fields
- Maxwell’s Equations in Differential Form,
and Uniform Plane Waves in Free Space (6 Sessions))
- Faraday’s Law and Ampère’s Circuital Law
- Gauss’ Laws and the Continuity Equation
- Curl and Divergence
- Uniform Plane Waves in Time Domain in Free Space
- Sinusoidally Time-Varying Uniform Plane Waves
in Free Space
- Polarization of Sinusoidally Time-Varying
Vector Fields
- Power Flow and Energy Storage
- Fields and Waves in Material Media (7 Sessions)
- Conductors and Semiconductors
- Dielectrics
- Magnetic Materials
- Wave Equation and Solution for Material Medium
- Uniform Plane Waves in Dielectrics and Conductors
- Boundary Conditions
- Reflection and Transmission of Uniform Plane Waves
- Electromagnetic Potentials and Topics
for Circuits and Systems (5 Sessions)
- Gradient, Laplacian, and the Potential Functions
- Potential Functions for Static Fields
- Poisson’s and Laplace’s Equations
- Capacitance, Conductance, and Inductance
- Electric- and Magnetic-Field Systems
- Magnetic Circuits
- Electromechanical Energy Conversion
- Transmission-Line Essentials for Digital Electronics (4 Sessions)
- Transmission Line
- Line Terminated by Resistive Load
- Transmission-Line Discontinuity
- Lines with Reactive Terminations
and Discontinuities
- Lines with Initial Conditions
- Interconnections between Logic Gates
- Crosstalk on Transmission Lines