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Lecture
Methodology: Electromechanical Force Calculation
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Ampère-Laplace Law: Magnetic Field Calculation and Applications
Explores the Ampère-Laplace law for magnetic field calculation and its practical applications.
Magnetic Circuits: Understanding Inductance and Maxwell's Equations
Explains magnetic circuits, focusing on inductance and Maxwell's equations in electromechanical systems.
Magnetostatics: Ampère-Laplace Law and Solved Problems
Explores the Ampère-Laplace law and solved magnetic field problems.
Magnetic Forces: Biot-Savart Law
Explores magnetic phenomena, current, charge conservation, Biot-Savart law, and Ampère's force law.
Ampère's Law
Explores Maxwell's equations, Ampère's circuital law, and its practical application in systems with high symmetry.
Maxwell's Equations: Derivation and Implications
Explores the derivation and implications of the 4th Maxwell's equation, emphasizing the importance of charge conservation and the role of displacement current.
Magnetic Dipole and Field Analysis
Explores magnetic dipole moment, torque, energy, field analysis, and Maxwell's equations for magnetostatics.
Covariant and Contravariant Tensors: Maxwell Field Strength
Explores contravariant and covariant tensors, Maxwell field strength, and Lorentz invariance in linear transformations and metric properties.
Maxwell's Equations and Induction Phenomenon
Explores Maxwell's equations, induction in moving conductors, electromotive force, and electrical fields.
Magnetic Moments and Field Lines: Equivalence and Induction
Explores magnetic dipole, field lines, and induction by moving charges.
