Lectures related to Electric Field and Charge Density

Advanced Physics I: Laws of Newton and Fundamental Forces

Explores Newton's laws, fundamental forces, and exercises on these topics.

Covers Newton's three laws of motion, fundamental forces, and exercises, including gravitational and electromagnetic forces.

Ion Crystal and Poisson/Laplace Equations

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

Electrostatics: Basis and Applications

Explores Coulomb's law, electric fields, capacitance, conductors, and dielectrics in electrostatic systems.

Electric Charges and Forces

Explores electric charges, forces, fields, and Coulomb's law.

Electric Fields and Coulomb's Law

Explores Coulomb's Law, electric fields, continuous charge distributions, visualization techniques, and Gauss's Law.

Electrostatics: Conductors and Electric Fields

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

Electrostatics: Basics and Applications

Introduces the basics of electrostatics, covering Coulomb's law, electric fields, capacitance, dielectrics, and more.

Electric field and electric potential

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

Magnetostatics: Magnetic Field and Force

Covers magnetic fields, Ampère's law, and magnetic dipoles with examples and illustrations.

Electric Potential and Gauss's Law

Explores electric potential, the principle of superposition, and Gauss's law.

Electrostatics Fundamentals

Introduces electrostatics fundamentals, covering electric charges, fields, potentials, conductors, and Faraday's cage experiments.

Electrostatics Fundamentals: Charge Separation and Coulomb Force

Introduces electrostatics fundamentals, focusing on charge separation and the Coulomb force between charges.

Electrostatics and Magnetostatics

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

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Charge Movement in Electric and Magnetic Fields

Explores charge acceleration, energy conservation, electron-Volt concept, conductor behavior, dielectric materials, and applications in electric and magnetic fields.

Electric Fields: Fundamentals

Introduces the fundamentals of electric fields, equipotential surfaces, and electric potential calculation.

Electric Potential: Introduction and Calculation

Covers the concept of electric potential, its calculation from charges, and its relationship to the electric field.

Electric Fields and Currents

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

Comsol Session: Parallel Plate Capacitor

Covers physical models, project groups, and Comsol setup for a parallel plate capacitor.