Skip to content
- Fundamental Theorems and Equations of Electromagnetism
- Properties of the Nabla Vector Linear Operator
- Solenoidal and Irrotational fields
- Fundamental Theorems of Vector Analysis
- Physical Dimensions and Notation of the Quantities Created in the Text
- Maxwell’s Equations and Continuity Conditions.
- Duality Principle and Impressed Sources
- Constitutive Relations
- Boundary Conditions
- Polarization of Vectors
- Maxwell’s Equations and Constitutive Relations in Frequency Domain
- Dispersive Media
- Poynting’s Theorem
- Poynting’s Theorem in the Time Domain
- Poynting’s Theorem in the Frequency Domain
- Uniqueness Theorem
- Uniqueness Theorem in the Time Domain
- Uniqueness Theorem in the Frequency Domain
- Wave Equation
- Electromagnetic Potentials
- Properties of Plane Electromagnetic Waves
- Wave Functions
- Plane Waves
- General Properties of Plane Waves
- Uniform Non-attenuated Plane Wave
- Non-uniform Plane Wave Attenuated Perpendicularly to the Direction of Propagation
- Uniform Attenuated Plane Waves
- Spectrum of Plane Waves
- Electric Field of a Monochromatic Wave in a Half-Space
- Non-monochromatic Plane Waves
- Reflection and Transmission of Plane Waves at a Plane Interface: Normal Incidence
- Reflection and Transmission (Refraction) of Plane Waves at a Plane Interface: Oblique Incidence
- Horizontal Polarization
- Vertical Polarization
- Total Reflection
- Reflection and Transmission from Conductors, Leontovich’s Condition
- Introduction to Transmission Lines
- Transmission Line Equations, Primary and Secondary Constants, Boundary Conditions
- Impedance, Admittance, Reflection Coefficient
- Standing-Wave Ratio
- Anti-reflective Layers
- Guided Electromagnetic Propagation
- Green’s Functions