361 Lecture notes - Spring 2016
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Lecture 13: The displacement field D[http://ticc.mines.edu/csm/wiki/images/9/97/LectureNotes13_DisplacementField.pdf] | Lecture 13: The displacement field D[http://ticc.mines.edu/csm/wiki/images/9/97/LectureNotes13_DisplacementField.pdf] | ||
| − | Lecture 14: Boundary conditions[http://ticc.mines.edu/csm/wiki/images/ | + | Lecture 14: Boundary conditions[http://ticc.mines.edu/csm/wiki/images/7/70/LectureNotes14_BCs_Examples_updated.pdf] |
Lecture 15: Current[http://ticc.mines.edu/csm/wiki/images/5/5f/LectureNotes15_Current.pdf] | Lecture 15: Current[http://ticc.mines.edu/csm/wiki/images/5/5f/LectureNotes15_Current.pdf] | ||
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Lecture 20: Ampere's law[http://ticc.mines.edu/csm/wiki/images/6/6b/LectureNotes20_AmperesLaw.pdf] | Lecture 20: Ampere's law[http://ticc.mines.edu/csm/wiki/images/6/6b/LectureNotes20_AmperesLaw.pdf] | ||
| − | Lecture 21: The vector potential A[http://ticc.mines.edu/csm/wiki/images/ | + | Lecture 21: The vector potential A[http://ticc.mines.edu/csm/wiki/images/9/96/LectureNotes21_VectorPotential.pdf] |
Lecture 22: Magnetic dipoles[http://ticc.mines.edu/csm/wiki/images/c/cb/LectureNotes22_MagneticDipoles.pdf] | Lecture 22: Magnetic dipoles[http://ticc.mines.edu/csm/wiki/images/c/cb/LectureNotes22_MagneticDipoles.pdf] | ||
Latest revision as of 15:26, 4 April 2016
Intro Slides: Syllabus and administrative whatnot
Lecture 1: Framing[1]
Lecture 2: Coulomb's law & Gauss's law[2]
Lecture 3a: Voltage and energy[3]
Lecture 3b: Delta functions in electrostatics[4]
Lecture 4: Multipole expansions[5]
Lecture 5: Conductors & method of images[6]
Lecture 6: Solving Laplace's equation[7]
Lecture 7: Chapter 4 wrap-up[8]
Lecture 8: Separation of variables[9]
Lecture 9: Legendre polynomials[10]
Lecture 10: Problems with cylindrical symmetry[11]
Lecture 11: 3D separation of variables[12]
Lecture 12: Polarization[13]
Lecture 13: The displacement field D[14]
Lecture 14: Boundary conditions[15]
Lecture 15: Current[16]
Lecture 16: Resistance[17]
Lecture 17: Current in dynamics[18]
Lecture 18: Magnetic forces[19]
Lecture 19: Biot-Savart law[20]
Lecture 20: Ampere's law[21]
Lecture 21: The vector potential A[22]
Lecture 22: Magnetic dipoles[23]
Lecture 23: Magnetization and bound currents[24]
Lecture 24: Boundary conditions for B and H[25]
Lecture 25: Magnetic scalar potential and examples[26]
Lecture 26: Para, dia, and ferromagnetism[27]
Lecture 27: Faraday's law[28]
Lecture 28: Denouement[29]
Lecture 29: Ampere/Maxwell[30]
