Lectures related to Introduction to Electricity and Magnetism

Paradoxes with Coulomb's and Ampère's forces. Gauss's Law

Delves into paradoxes with Coulomb's and Ampère's forces, leading to the derivation of Gauss's Law from Maxwell's equations.

Magnetostatics: Magnetic Field and Force

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

Applications of Gauss's law: Electric Field Calculations Simplified

Simplifies electric field calculations using Gauss's law and symmetry arguments.

Electromagnetic Phenomena

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

Electric Field of Dipole Moment

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

Blended Learning: Electric Fields and Potentials

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

Maxwell's Equations: Derivation and Implications

Explores the derivation and implications of the 4th Maxwell's equation, emphasizing the importance of charge conservation and the role of displacement current.

Maxwell's Equations and Induction Phenomenon

Explores Maxwell's equations, induction in moving conductors, electromotive force, and electrical fields.

Cosmological Puzzles: Dark Matter and Energy

Explores fundamental cosmological puzzles related to dark matter and energy.

Electric Charges and Fields

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

Electrostatics: Charge Distributions and Conductor Properties

Explores charge distributions, conductor properties, and the concept of a Faraday cage in electrostatics.

Electric Charges and Fields

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

Electric Fields Boundary Conditions: Gauss's Law and Displacement Vector

Explores Gauss's law, displacement vector in dielectrics, and symmetry analysis of electric fields.

Electric Fields and Currents

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

Lorentz Covariant Formulation: Maxwell Equations

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

Electrostatics: Basis and Applications

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

Electrostatics: Charging, Faraday Cage, Force on Conductor Sheet

Explores charging by induction, Faraday cage, and force on conductor sheet.

Electric Fields: Charge Distributions (I)

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

Conductors: Charges and Electric Fields

Explores the behavior of charges in conductors, including movement in metals and the evaluation of electric fields using Gaussian surfaces.

Electric Fields and Coulomb's Law

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