Lectures related to Liénard-Wiechert Potentials

Retarded Potentials and Electromagnetic Energy

Explores retarded potentials, electromagnetic energy, and conservation of energy in electromagnetism.

Electromagnetic Potentials of Moving Charged Particles

Explores Liénard-Wiechert potentials and trajectories of moving charged particles in various spacetime scenarios.

Electromagnetic Potentials: Green Functions

Explores retarded and advanced Green functions, potentials, and solutions in electromagnetism.

Electromagnetic Phenomena

Introduces the importance of studying electromagnetic phenomena and Maxwell's equations.

Lorentz Invariance and Covariant Tensors

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

Electromagnetism and Optics: Forces, Fields, and Optics

Covers the basics of electromagnetism and optics, including forces, fields, and optical principles.

Ion Crystal and Poisson/Laplace Equations

Explores ion crystals, conductors, and Poisson/Laplace equations in electrostatics, including charge behavior and energy calculations.

Magnetostatics: B/E Relation and Vector Potential

Discusses the magnetic field induced by a moving charge and the vector potential of a magnetic field, along with Maxwell's equations and the Poisson equations.

Climate Change: Physics and Impacts

Explores the physics of climate change and electric fields, emphasizing human impact on nature and the atmosphere.

Electromagnetism Overview

Explores the use of scalar and vector potentials in electromagnetism to simplify calculations and solve engineering problems efficiently.

Electric Fields and Currents

Explores electric fields, energy storage, charge displacement, DC currents, and historical aspects of electricity.

Work evaluated by potential: Electrostatics

Explains how to calculate work and energy in an electric field using the potential function.

Electric field and electric potential

Covers electric field, potential, field lines, and potential difference with practical examples.

Lorentz Covariant Formulation: Maxwell Equations

Covers Lorentz transformations, Maxwell equations, and charge conservation in Lorentz invariant physics.

Electromagnetism and Optics

Covers Electromagnetism, Optics, electric charge, conductors vs. insulators, and Coulomb's Law among other related topics.

Electrostatics and Magnetostatics

Explores electrostatics, magnetostatics, charge conservation, and electric field calculations in various scenarios.

Electrostatics: Conductors and Electric Fields

Explores electrostatics, conductors, electric fields, and the superposition principle.

Atomic Structure: Charge Density and Electric Field

Explains charge density and electric field distribution within an atom.

Electromagnetism Overview

Covers the electromagnetic force, Maxwell equations, and classical dynamics of electromagnetic fields.

Comsol: Parallel plate capacitor

Focuses on modeling a parallel plate capacitor using Comsol, emphasizing clear project ideas and group collaboration.