Lectures related to Inhomogeneous electromagnetic wave equation

Electromagnetic Waves in Plasmas

Covers the behavior of electromagnetic waves in non-magnetized plasmas and the simplification of equations for non-collisional plasmas.

Electromagnetic Waves: Basics and Equations

Explores electromagnetic waves, wave equations, solutions, polarization, and energy transport in waves.

Electrodynamics: Gauge Invariance and Electrostatics

Explores gauge invariance, electrostatics, Maxwell's equations, and boundary conditions.

Electromagnetic Waves

Covers magnetic screening, hysteresis, electromagnetic waves, wave equations, Maxwell's equations, and the electromagnetic spectrum.

Maxwell Equations and Electromagnetic Waves

Explores Maxwell equations, Faraday's law, charge conservation, and electromagnetic waves, including their computation and analysis using Fourier transforms.

Gauge Invariance and Poisson Equation

Explores gauge invariance in Maxwell equations and delves into the Poisson equation in 3D space.

Multipole Expansion in Electrodynamics

Explores multipole expansion in Electrodynamics, covering Maxwell Equations, EM Potentials, Lorenz Gauge, and Magnetization.

Maxwell's Equations and E-M Waves in Matter

Explores the interaction between electromagnetic waves and matter, including polarization effects and energy conservation.

Electromagnetic Waves: Wave Equation and Maxwell's Equations

Explores the wave equation for electromagnetic waves, Maxwell's predictions, and the importance of polarization in defining wave properties.

Electromagnetic Waves: Basics and Applications

Explores the basics of optics, Maxwell's equations, wave propagation, and electromagnetic wave energy.

Interaction of E-M Waves with Matter: Transmission, Absorption, Reflection

Explores how electromagnetic waves interact with matter, emphasizing transmission, absorption, and reflection.

Electromagnetic Waves: Basics and Equations

Explores electromagnetic wave basics, wave equations, solutions, and energy transport in different mediums.

Multipole Expansion in Electrostatics and Magnetostatics

Covers the concept of multipole expansion in electrostatics and magnetostatics, discussing Maxwell equations and magnetic moments.

Electromagnetic Waves Interaction: Transmission, Reflection, and Matter

Explores the interaction of electromagnetic waves with matter, covering reflection, transmission, absorption, and polarization effects.

Lorentz Invariance and Covariant Tensors

Explores Lorentz invariance, tensors in vector spaces, and electromagnetic potentials.

Intensity: Light, Heat, and Energy Transport

Explores heat generation from light-matter interactions, energy transport through electromagnetic waves, and the concept of intensity.

Electromagnetic Waves: Equations and Energy Transport

Explores electromagnetic wave equations, energy transport, spectrum, and momentum transfer.

Advanced Physics I: Introduction to Mechanics

Introduces the basics of physics, including mechanics and making predictions based on observations and hypotheses.

Light-Materials Interaction: Optical Properties and Applications

Explores light-material interaction, absorption mechanisms, transmission spectra, and laser processing applications.

Interaction of E-M Waves with Matter: Absorption, Transmission, Reflection

Investigates the interaction of electromagnetic waves with matter, focusing on absorption, transmission, and reflection processes.