Table of Contents
Physics 217 Review
Chapter 2. Electrostatics�The Electrostatic Field
Chapter 2. Electrostatics�The Electrostatic Field
Chapter 2. Electrostatics�Gauss’s Law
Chapter 2. Electrostatics� Gauss’s Law - Symmetry
Chapter 2. Electrostatics�The Electric Potential
Chapter 2. Electrostatics�The Electric Potential
Chapter 2. Electrostatics�Calculating the Electric Potential
Chapter 2. Electrostatics�Fundamental Quantities and Relations
Chapter 2. Electrostatics�Boundary Conditions
Chapter 2. Electrostatics�Work and Energy
Chapter 2. Electrostatics�Work and Energy
Chapter 2. Electrostatics�Metallic Conductors
Chapter 2. Electrostatics�Metallic Conductors
Chapter 2. Electrostatics�Capacitors
Chapter 2. Electrostatics�Capacitors
Chapter 2. Electrostatics�Energy stored on a Capacitor
Chapter 3�Laplace’s Equation
Chapter 3�Laplace’s Equation
Chapter 3�Laplace’s Equation
Chapter 3�Laplace’s Equation
Chapter 3�Laplace’s Equation in One Dimension
Chapter 3�Laplace’s Equation in One Dimension
Chapter 3�Laplace’s Equation in Two Dimensions
Chapter 3�Laplace’s Equation in Two Dimensions
Chapter 3�Laplace’s Equation in Three Dimensions
Chapter 3�Laplace’s Equation in Three Dimensions
Chapter 3�Laplace’s Equation in Three Dimensions
Chapter 3�Laplace’s Equation in Three Dimensions
Chapter 3�Laplace’s Equation in Three Dimensions
Chapter 3�Method of Images
Chapter 3�Method of Images
Chapter 3: Calculating Potentials�Separation of Variables
Chapter 3: Separation of Variables �Spherical Coordinates
Chapter 3: Separation of Variables �Spherical Coordinates
Chapter 3: Separation of Variables �Cylindrical Coordinates
Chapter 3: Calculating Potentials�Multipole Expansions
Chapter 3: Calculating Potentials�Multipole Expansions
Chapter 3: Calculating Potentials�The Monopole Term
Chapter 3: Calculating Potentials�The Dipole Term
Chapter 4�Polarization
Chapter 4�Polarization
Chapter 4�Polarization
Chapter 4�The field of a polarized object
Chapter 4�The field of a polarized object
Chapter 4�The field of a polarized object
Chapter 4�The field of a polarized object
Chapter 4�The field of a polarized object
Chapter 4�The Electric Displacement
Chapter 4�The Electric Displacement
Chapter 4�Linear Dielectrics
Chapter 4�Linear Dielectrics: Energy stored
Chapter 5. Magnetostatics�The magnetic field
Chapter 5. Magnetostatics�The magnetic field
Chapter 5. Magnetostatics�Magnetic forces on electric currents
Chapter 5. Magnetostatics�Magnetic forces on electric currents
Chapter 5. Magnetostatics�The Divergence and Curl of B
Chapter 5. Magnetostatics�The Vector Potential A
Chapter 5. Magnetostatics�The Vector Potential A
Chapter 5. Magnetostatics�The Vector Potential A
Chapter 5. Magnetostatics�The Fundamental Quantities
Chapter 5. Magnetostatics�The Boundary Conditions
Chapter 5. Magnetostatics�The Multipole Expansion
Chapter 5. Magnetostatics�The Multipole Expansion
Chapter 5. Magnetostatics�The Multipole Expansion
Chapter 6.�Paramagnetism
Chapter 6.�Diamagnetism
Chapter 6.�Magnetostatics Fields in Matter
Chapter 6.�The Field of a Magnetized Object
Chapter 6.�The Auxiliary Field H.
Chapter 6.�The Auxiliary Field H.
Chapter 6.�Linear Media
Chapter 6.�Non-linear media
Chapter 7. Electrodynamics�The Electromotive Force
Chapter 7. Electrodynamics�The Electromotive Force
Chapter 7. Electrodynamics�The Electromotive Force
Chapter 7. Electrodynamics�The Electromotive Force
Chapter 7. Electrodynamics�Faraday’s Law
Chapter 7. Electrodynamics�Faraday’s Law
Chapter 7. Electrodynamics�Inductance
Chapter 7. Electrodynamics�“Static” Maxwell’s Equations
Chapter 7. Electrodynamics�Failure of Ampere’s Law
Chapter 7. Electrodynamics�Failure of Ampere’s Law
Chapter 7. Electrodynamics�Maxwell’s Equations
Chapter 7. Electrodynamics�Maxwell’s Equations in Matter
Chapter 7. Electrodynamics�Maxwell’s Equations ito free charges/currents
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