Lectures related to Energy in Inductance & Capacitance

Magnetostatics: Magnetic Field and Force

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

Explores energy storage in magnetic fields, LC circuits, ferromagnetic cores, and oscillating voltage signals.

Explores inductors' applications, LC circuit operation in radio clocks, energy oscillations, and harmonic oscillators.

Explores the emission of electromagnetic waves, focusing on the role of alternating current in producing them using LC circuits.

Basic Concepts: Electric Circuits

Introduces the fundamental concepts of electric circuits, including basic elements and Kirchhoff's laws.

Magnetic Circuits: Understanding Inductance and Maxwell's Equations

Explains magnetic circuits, focusing on inductance and Maxwell's equations in electromechanical systems.

Harmonic Oscillator: LC Resonator Analysis

Analyzes an LC resonator as a harmonic oscillator, discussing transient behavior, oscillations in charge and current, and the interplay between electrical and magnetic energy.

Inductance and RL Circuit

Explores RL circuits, current growth, energy storage, and field enhancement in inductance and solenoids.

Magnetic Fields and Currents

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

AC Circuits: Complex Impedance Analysis

Covers the analysis of AC circuits, focusing on complex impedance and phase differences between current and voltage.

Maxwell's Equations in Polarized Matter: Lorentz Transformation

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

Magnetostatics: Forces, Energy, and Inductance

Explores magnetic forces, energy, inductance, and the magnetic dipole moment in circuits.

Magnetism: Basics and Phenomena

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

Magnetodynamics: Characteristics of RL Circuits and Energy Storage

Delves into magnetodynamics, RL circuits, and energy storage in solenoids.

Electromagnetism: UNIL-208

Covers Lenz's law, induced voltage, and electromagnetic circuits.

Apparent and True Power: Transformer

Explains apparent and true power in circuits, power factor, transformers without load resistors, and transformers with load resistors.

Mutual Inductance and Self-Inductance

Explains mutual inductance, self-inductance, magnetic energy, and 'cross-talk' in circuits.

Mutual Inductance and Energy Storage

Covers mutual inductance, energy storage, power in inductors, and LR/LC circuits.

Electromagnetic Waves: Theory & Applications

Explores electromagnetic waves, Maxwell's equations, circuits, and wave propagation through different media.

Inductance and Energy Storage

Explains inductance, energy storage in circuits, and magnetic field energy density.