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Related lectures (25)
Magnetostatics: Magnetic Field and Force
Covers magnetic fields, Ampère's law, and magnetic dipoles with examples and illustrations.
Magnetic Circuits: Inductances and Maxwell Equations
Explores magnetic circuits, inductances, and Maxwell's equations in the quasi-static regime, emphasizing Faraday's law and magnetic permeance.
Magnetic Circuits: Understanding Inductance and Maxwell's Equations
Explains magnetic circuits, focusing on inductance and Maxwell's equations in electromechanical systems.
Maxwell's Equations and Induction Phenomenon
Explores Maxwell's equations, induction in moving conductors, electromotive force, and electrical fields.
Energy in Inductance & Capacitance
Explores energy storage in coils, magnetic fields, and capacitors, emphasizing the oscillation and decay of energy in circuits.
Electromagnetism: UNIL-208
Covers Lenz's law, induced voltage, and electromagnetic circuits.
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Electromagnetism: Fundamentals and Applications
Explores the basics of electromagnetism, Ohm's law, Lenz's law, and Faraday's law, shedding light on electromagnetic devices.
Understanding Displacement Vector and Plane Waves
Explores the displacement vector D, plane waves, and magnetic vector potential, addressing student questions and clarifying key concepts.
Advanced Physics I: Laws of Newton and Fundamental Forces
Explores Newton's laws, fundamental forces, and exercises on these topics.
Magnetism: Basics and Phenomena
Explores the basics of magnetism, magnetic fields, and magnetic properties in materials.
Magnetic Fields and Currents
Explores magnetic fields, currents, Biot-Savart law, Ampère's law, and magnetic dipoles.
Magnetostatics: Electric Current and Magnetic Fields
Explores the interaction between electric currents and magnetic fields, including Ampère's law and electromagnetic induction.
Magnetic Forces: Biot-Savart Law
Explores magnetic phenomena, current, charge conservation, Biot-Savart law, and Ampère's force law.
Electromagnetism Fundamentals
Introduces the fundamentals of electromagnetism, covering magnetic flux, inductance properties, energy transformations, and practical applications.
Sources of Magnetic Fields and Induction
Explores the generation of magnetic fields, induction, and practical applications in electromagnetism.
Mutual Inductance and Self-Inductance
Explains mutual inductance, self-inductance, magnetic energy, and 'cross-talk' in circuits.
Magnetic Materials and Induction
Explores magnetic materials, induction, transformers, and force calculation in magnetic systems.
Magnetostatics: Electric Current and Magnetic Fields
Explores the interaction between electric current and magnetic fields, covering Ampère's law, electromagnetic induction, and different materials' behavior in magnetic fields.
LC Circuits: Magnetodynamics
Explores inductors' applications, LC circuit operation in radio clocks, energy oscillations, and harmonic oscillators.
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