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Lecture
Magnetic Circuits: Introduction and Analysis
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Related lectures (29)
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Electrical Circuit: Fixed Point Methods
Explores applying fixed point methods to solve electrical circuit equations and find diode voltage.
Magnetic Forces: Biot-Savart Law
Explores magnetic phenomena, current, charge conservation, Biot-Savart law, and Ampère's force law.
Mutual Inductance and Self-Inductance
Explains mutual inductance, self-inductance, magnetic energy, and 'cross-talk' in circuits.
Jarzynski Equation and Quantum Circuits
Explores the Jarzynski equation and the quantization of electrical circuits in quantum harmonic oscillators.
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.
Magnetostatics: Electric Current and Magnetic Fields
Explores the interaction between electric currents and magnetic fields, including Ampère's law and electromagnetic induction.
Magnetic Fields in Current-Carrying Wires
Explores magnetic fields in current-carrying wires and solenoids using Biot-Savart and Ampere's laws.
Magnetism: Basics and Phenomena
Explores the basics of magnetism, magnetic fields, and magnetic properties in materials.
Magnetic Circuits: Interruptions and Magnetic Fields
Delves into interruptions in magnetic circuits and the calculation of required current.
Electricity Fundamentals: Inductance and Complex Impedance
Explores the relationship between current and voltage, sinusoidal signals, and impedance in electrical circuits.
