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Related lectures (31)
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Electromechanical Systems: Actuators and Permeance
Discusses modeling electromechanical systems, actuators, permeance, saturation effects, and negative force creation.
Electromagnetism: UNIL-208
Covers Lenz's law, induced voltage, and electromagnetic circuits.
Magnetic Fields and Induction
Explores magnetic dipoles, fields, induction, electromotive force, and applications like wireless energy transfer and magnetic levitation.
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.
Magnetic Circuits: Design and Simulation
Covers the design and simulation of magnetic circuits, focusing on layout design examples and correct modeling considerations.
Nanomagnetism: Magnetic Structures and Interactions
Covers fundamental concepts of magnetism, types of magnetism, and techniques for investigating magnetic structures at the nanoscale.
MR signal detection: Faraday's Law and Induction
Explains MR signal detection through Faraday's Law of Induction and coil design.
Electromagnetic Actuators: Classification
Explores the classification and working principles of electromagnetic actuators, highlighting their design considerations and applications.
Magnetism: Basics and Phenomena
Explores the basics of magnetism, magnetic fields, and magnetic properties in materials.
Magnetic Energy Calculation
Explores the calculation of energy density in a magnetic field and its importance in electromagnetism.
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