Lectures related to Electrostatics: Forces, Charges, and Fields

Electric Fields and Currents

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

Electric Field of Dipole Moment

Explores the electric field of a dipole moment and the concept of bound charges in a dielectric.

Electric Charges and Fields

Introduces electrostatics, Coulomb's law, electric fields, and charge behavior in materials.

Magnetostatics: Magnetic Field and Force

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

Untitled

Advanced Physics I: Laws of Newton and Fundamental Forces

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

Magnetic Moments and Field Lines: Equivalence and Induction

Explores magnetic dipole, field lines, and induction by moving charges.

Electric Fields: Conductors and Charges

Explores electric fields in conductors, focusing on charges and field intensity variations based on charge distribution.

Electric Charges and Forces

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

Electric Field Representation

Introduces electrostatics, focusing on Coulomb's force, electric field representation, superposition principle, and visualization of electric field vectors using field lines.

Blended Learning: Electric Fields and Potentials

Explores electric fields, potentials, and Gauss's law with practical examples.

Electric field and electric potential

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

Electrostatics Fundamentals

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

Electric Charges and Fields

Covers electrostatics, Coulomb force, electric field calculations, potential, Gauss's law, conductor behavior, and field line representation.

Untitled

Electric Fields: Charge Distributions (I)

Covers the calculation of electric fields from continuous charge distributions, emphasizing the superposition principle and integration techniques.

Electrostatics: Basis and Applications

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

Electric Displacement in Dielectrics: Gauss's Law and Boundary Conditions

Introduces the concept of electric displacement vector D and explores boundary conditions in dielectrics.

Untitled

Electric Fields and Coulomb's Law

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