Lectures related to Ampère's Law

Magnetostatics: Magnetic Field and Force

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

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.

Understanding Displacement Vector and Plane Waves

Explores the displacement vector D, plane waves, and magnetic vector potential, addressing student questions and clarifying key concepts.

Magnetic Fields and Currents

Explores magnetic fields, currents, Biot-Savart law, Ampère's law, and magnetic dipoles.

Maxwell's Equations and Induction Phenomenon

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

Magnetostatics: Ampere's & Gauss's Laws

Explores Ampere's law, magnetic field circulation, and Gauss's law applications.

Magnetic Fields in Current-Carrying Wires

Explores magnetic fields in current-carrying wires and solenoids using Biot-Savart and Ampere's laws.

Magnetic Forces: Biot-Savart Law

Explores magnetic phenomena, current, charge conservation, Biot-Savart law, and Ampère's force law.

Untitled

Magnetism: Basics and Phenomena

Explores the basics of magnetism, magnetic fields, and magnetic properties in materials.

Maxwell's Equations: Practical Significance

Illustrates the practical implications of Maxwell's equations through real-life demonstrations.

Faraday's Law of Induction

Explains how time-varying magnetic fields induce electric currents through Faraday's experiments and the third Maxwell's equation.

Magnetostatics: Magnetic Field and Force

Explores magnetostatics, magnetic fields from currents, Maxwell's equations, and experimental observations on magnetic forces.

Electromagnetism: Historical Overview and Maxwell's Equations

Explores the historical evolution of electromagnetism, from ancient discoveries to Maxwell's equations.

Maxwell's Equations

Covers Maxwell's equations, electric displacement, magnetic induction, and current density.

Magnetostatics: Electric Current and Magnetic Fields

Explores the interaction between electric currents and magnetic fields, including Ampère's law and electromagnetic induction.

Maxwell's Equations and Displacement Current

Explores Maxwell's equations and displacement current for a better understanding of electrodynamics.

Sources of Magnetic Fields and Induction

Explores the generation of magnetic fields, induction, and practical applications in electromagnetism.

Maxwell's Equations in Polarized Matter: Lorentz Transformation

Explores Maxwell's equations in polarized matter and fields transformation under different frames.

Maxwell Equations: Lecture 12

Covers Maxwell's equations and the relationship between magnetic induction and electric field.