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Lecture
Conservative force: Electrostatics
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Related lectures (26)
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Electric Fields: Maxwell Equations & Coulomb Force
Explores electric fields, Maxwell equations, and the conservative Coulomb force, emphasizing symmetry considerations and Stokes' theorem.
Magnetostatics: Magnetic Field and Force
Covers magnetic fields, Ampère's law, and magnetic dipoles with examples and illustrations.
Second Maxwell's equation: Magnetic dipole
Covers Maxwell's equations, magnetic dipoles, vector potential, torque, and field patterns.
Charged Particle Trajectory in Electric Field
Explores the Lorentz covariant formulation of electrodynamics and the trajectory of a charged particle in an electric field.
Conservative force: Electrostatics
Introduces the first Maxwell equation in static form, emphasizing the conservative nature of the Coulomb force.
Electric Field of Dipole Moment
Explores the electric field of a dipole moment and the concept of bound charges in a dielectric.
Paradoxes with Coulomb's and Ampère's forces. Gauss's Law
Delves into paradoxes with Coulomb's and Ampère's forces, leading to the derivation of Gauss's Law from Maxwell's equations.
Maxwell's Equations in Polarized Matter: Lorentz Transformation
Explores Maxwell's equations in polarized matter and fields transformation under different frames.
Understanding Displacement Vector and Plane Waves
Explores the displacement vector D, plane waves, and magnetic vector potential, addressing student questions and clarifying key concepts.
Calculating Electric Fields
Covers the calculation of electric fields and potentials from multiple charges.
