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PHYSICS 108 Principles and Applications of Electricity, Magnetism, and Optics with Laboratory I. Electric Charge electric charges conservation of charge Coulomb's law superposition II. Electric Field E-field and field lines, E-field of a point charge, a dipole, and a continuous charge distribution motion of charges in E-field torque on a dipole III. Gauss' Law electric flux application of Gauss' law conductors in E-fields IV. Electric Potential electric potential energy potential difference equipotentials V. Capacitors and Dielectrics capacitance capacitors in parallel and in series energy in capacitors VI. Currents in Materials currents Ohm's law resistance and resistivity Drude model of conductivity VII. DC Circuits batteries resistors in parallel and in series Kirchhoff's law RC circuit VIII. Effects of Magnetic Fields magnetic forces on an electric charge and on a current Hall effect magnetic dipole torque on a current loop IX. Production of Magnetic Fields Biot-Savart Law Ampere's Law solenoids the Maxwell displacement current X. Faraday's Law Lenz's Law Faraday's Law eddy currents XI. Inductance inductance energy in inductors RL circuits XII. Maxwell's Equations and E&M Waves Maxwell's equations E&M waves dipole radiation polarization XIII. Light speed of light reflection and refraction Fermat's Principle dispersion XIV. Mirrors and Lenses lenses mirrors optical instruments aberrations XV. Interference double-slit interference thin-film interference XVI. Diffraction single-slit diffraction diffraction gratings