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Maxwell's Equations: Magnetodynamics & Faraday-Henry Induction Law
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Related lectures (30)
Energy in Inductance & Capacitance
Explores energy storage in coils, magnetic fields, and capacitors, emphasizing the oscillation and decay of energy in circuits.
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Maxwell's Equations: Integral Form and Field Transformation
Covers Maxwell's equations, field transformation, magnetic force, and magnetodynamics experiments.
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Covers Maxwell's equations, electric displacement, magnetic induction, and current density.
Maxwell's Equations: Faraday and Ampère Laws
Covers Maxwell's equations in vacuum, focusing on Faraday's and Ampère's laws and the absence of sources.
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Explores electromagnetic waves, Maxwell's equations, circuits, and wave propagation through different media.
Maxwell's Equations: Polarizable Matter
Explores Maxwell's equations in polarizable matter, including integral and differential forms, considerations for dielectric and magnetic materials, and the importance of a relativistic approach.
Induction Laws and Inductance
Discusses induction law scenarios, Lenz's law, and inductance concepts between coils.
Maxwell's Equations and Energy Conservation
Explores Maxwell's equations, energy conservation, impedance calculation, and inductance and capacitance expressions.
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Explores displacement current in capacitors, completing Maxwell's equations and demonstrating its impact on electric and magnetic fields.
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