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Gauss's Law: Charges, Electric Flux, and Field Evaluation
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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.
Electric Displacement in Dielectrics: Gauss's Law and Boundary Conditions
Introduces the concept of electric displacement vector D and explores boundary conditions in dielectrics.
Electrostatics: Gauss Theorem
Explores the applications of the Gauss theorem in electrostatics and the behavior of charges in conductors.
Electric Field and Gauss's Law
Explores electric field concepts, Gauss's law applications, and potential energy relationships in various scenarios.
Second Maxwell's equation: Magnetic dipole
Covers Maxwell's equations, magnetic dipoles, vector potential, torque, and field patterns.
Electric Fields: Conductors and Charges
Explores electric fields in conductors, focusing on charges and field intensity variations based on charge distribution.
Electric Field of Dipole Moment
Explores the electric field of a dipole moment and the concept of bound charges in a dielectric.
Gauss's Law: Sphere
Explores Gauss's Law applied to spheres, focusing on electric flux and field symmetry.
Gauss's Law: Integral and Differential Forms
Explains Gauss's law, relating charges to electric flux through closed surfaces and simplifying electric field calculations.
Electrostatic Energy: Charge Distribution and Dielectrics
Explores electrostatic potential energy, energy density, and dielectrics, with examples of charge distributions and insulating spheres.
