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110 Willamette Hall |
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110 Willamette Hall |
Course: Physics 412: Introduction to Electrodynamics |  |
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Chapter 2: Electrostatics, the Coulomb Force Law, the Electric field, Principle of Superposition (and linear fields), Visualization of electric fields, Earnshaw's Theorem and linear stability analyses, continuous charge distributions. | Problem Set 1, |
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Chapter 2: Electrostatics, Electric fields and forces of continuous charge distributions, Divergence and Curl of the Electric field, Gauss's Law, Gauss's Law and point charges, the electric scalar potential. | Problem Set 2, |
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Chapter 2: Electrostatics, The scalar potential, V, and the curl of E and Stokes's Theorem, conservative forces, single particle energy equation and the potential energy of a particle in an EM field (interaction energy), calculation of the scalar potential, boundary conditions at discontinuities, electrostatic energy of a charge distribution, conductors. | Problem Set 3, |
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Chapter 3: Special Techniques, Laplace's Equation, Poisson's Equation, Uniqueness Theorems, Solutions to Laplace's Equation in one-dimension in Cartesian, Polar, Spherical Polar, and Cylindrical coordinate systems. Special techniques for the Poisson Equation, the Method of Images. | Problem Set 4, |
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Chapter 3: Special Techniques, Separation of Variables and the Laplace Equation in Cartesian, Cylindrical, and Spherical Polar coordinates, Fourier Series and Dirichlet's Theorem, completeness and orthogonality, Legendre polynomials, Rodrigues function, generating function. |
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Chapter 3: Special Techniques, Separation of Variables and the Laplace Equation in Spherical Polar coordinates, Fourier Series and Dirichlet's Theorem, completeness and orthogonality, Legendre polynomials, Rodrigues function, generating function; and Multipole expansions, monopole, dipole, quadrupole, octupole, ..., and moments. |
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Chapter 3: Special Techniques, Multipole expansions; Chapter 4, Electric Fields in Matter (dielectrics), polarizability, orientational polarization, Polarization, polarization charges, fields of polarized objects. |
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Chapter 4, Electric Fields in Matter (dielectrics), polarizability, orientational polarization, Langevin Equation, Susceptibility, Polarization, polarization charges, fields of polarized objects, Displacement field D, linear isotropic, homogeneous dielectrics. |
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