Lecture
Electric Fields Boundary Conditions: Gauss's Law and Displacement Vector
Related lectures (111)
Capacitance and Dielectrics: Torque on Dipole Moments
Explores capacitance, dipole alignment in electric fields, and electrostatic potential energy.
Electric Charges and Conductors
Explores charge density, Gauss's law applications, conductors, insulators, and electric fields in perfect conductors.
Electric Displacement Vector and Gauss's Law
Explains surface charge density, polarization vector, and electric displacement vector in dielectrics.
Plasma Instabilities: Non-Linear Effects
Explores the study of non-linearly coupled waves and wave energy in dispersive media, focusing on Stimulated Raman Scattering and saturation mechanisms.
Maxwell for Antennas: Electric and Magnetic Properties
Explores electric and magnetic properties in antennas, including dielectric and magnetic properties, power analysis, Maxwell's equations, and vector potentials.
Electrostatic Energy: Charge Distribution and Dielectrics
Explores electrostatic potential energy, energy density, and dielectrics, with examples of charge distributions and insulating spheres.
Newton's Laws
Covers Newton's three laws of motion, fundamental forces, and exercises, including gravitational and electromagnetic forces.
Electricity Fundamentals
Covers fundamental concepts in electricity, including electric fields, potential differences, and conductors.
Boundary Conditions for D and E: Capacitance and Dielectrics
Explores boundary conditions for D and E at material interfaces and in capacitors, emphasizing the impact of dielectrics.
Electric Fields and Gauss's Law
Explores charges in electric fields, electron optics, electric dipoles, Gauss's law, conductors, insulators, and the Gauss's divergence theorem.