PHGN-361 Spring-2013
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'''Lecture notes''' | '''Lecture notes''' | ||
− | Intro Slides: Syllabus and administrative whatnot[http://ticc.mines.edu/csm/wiki/images/ | + | Intro Slides: Syllabus and administrative whatnot[http://ticc.mines.edu/csm/wiki/images/8/82/PatK_Lecture_1_Syllabus_Info2013.pdf] |
Lecture 1: Framing[http://ticc.mines.edu/csm/wiki/images/f/f4/LectureNotesDay1_Framing.pdf] | Lecture 1: Framing[http://ticc.mines.edu/csm/wiki/images/f/f4/LectureNotesDay1_Framing.pdf] |
Revision as of 03:50, 4 January 2013
Pat's office hours for Spring 2012:
MF: 12:00PM - 2:00PM (CTLM 224)
W: 12:00PM - 1:00PM
Justin's office hours
TBD, Meyer Hall computer lab
Exam dates:
Friday Feb 1st
Friday Mar 8th (or oral exam same week)
Friday April 19th (or oral exam same week)
Course material for Phys 361 - Intermediate E&M
Syllabus[1]
Example homework problem - How I wrote up problems in school[2]
Homework assignments
Problem set 1: Due Wed Jan 18th at start of class[3]
Reading assignment 1: Sections 3.1-3.4 by Friday Jan 13th
Reading assignment 2: 3.5-3.7 by the 16th
Reading assignment 3: 3.8-3.9 by the 18th
Reading assignment 4: 4.1-4.2 by the 20th
Suggested assignment: Study the solutions to HW1 (before or after your work gets returned; up to you) and make sure you understand what's going on in detail (have done before exam I)
Reading assignment 5: 4.3 by the 25th
Suggested assignment: Study the solutions to HW2 (before or after your work gets returned; up to you) and make sure you understand what's going on in detail (have done before exam I)
Reading assignment 6: 4.4 by the 27th (on further reflection, 4.4 is kind of a mess all the way through, so just give it a casual look)
Problem set 2: Due Wed Jan 25th[4]
Problem set 3: Due Wed Feb 1st[5]
Suggested assignment: Study the solutions to HW3 and make sure you understand what's going on in detail (have done before exam I)
Reading assignment 7: 5.1 by Feb. 8th
Reading assignment 8: 5.2 by Feb. 10th
Reading assignment 9: 5.3 by Feb. 13th
Problem set 4: Due Friday Feb 17th[6]
Reading assignment 10: 6.1, 6.2 by Feb. 17th
Problem set 5: Due Wednesday Feb. 29th[7]
Reading assignment 11: 6.3 by Feb. 22th
Reading assignment 12: 6.4 and 6.5 by Feb. 24th
Problem set 6: Due Wednesday Mar. 7th[8]
Reading assignment 13: 7.1-7.3 by Mar. 2nd
Reading assignment 14: 7.4-7.6 by Mar. 5th
Reading assignment 15: 8.1-8.3 by Mar. 21st
Reading assignment 16: 8.4 by Mar. 23rd
Problem set 7: Due Wednesday Mar. 28th[9]
Reading assignment 17: 8.5, 8.6 by Apr. 2nd
Reading assignment 18: 9.1 by Apr. 4th
Reading assignment 19: 9.2 by Apr. 6th
Problem set 8: Due Friday Apr. 6th[10]
Problem set 9: Due Wednesday Apr. 11th[11]
Reading assignment 20: 9.3 by Apr. 11th
Reading assignment 21: 9.4 by Apr. 13th
Reading assignment 22: 9.5 by Apr. 16th
Problem set 10: Due Wednesday Apr. 18th[12]
Reading assignment 23: 9.6 by Apr. 18th
Problem set 11: Due Wednesday May 2nd[13]
Reading assignment 24: 10.1-2 by Apr. 20th, but beware derivation 10.1.2 (some shady stuff there; can you find it?)
Reading assignment 25: 10.3.1, 10.3.3, 10.4 by Apr. 25
END OF ASSIGNMENTS
Lecture notes
Intro Slides: Syllabus and administrative whatnot[14]
Lecture 1: Framing[15]
Lecture 2: Coulomb's law & Gauss's law[16]
Lecture 3: Voltage and energy[17]
Lecture 4: Multipole expansions[18]
Lecture 5: Conductors & method of images[19]
Lecture 6: Solving Laplace's equations[20]
Lecture 7: Chapter 4 wrap-up[21]
Lecture 8: Separation of variables[22]
Lecture 9: Legendre polynomials[23]
Lecture 10: Problems with cylindrical symmetry[24]
Lecture 11: 3D separation of variables[25]
Lecture 12: Polarization[26]
Lecture 13: The displacement field D[27]
Lecture 14: Boundary conditions[28]
Lecture 15: Current[29]
Lecture 16: Resistance[30]
Lecture 17: Current in dynamics[31]
Lecture 18: Magnetic forces[32]
Lecture 19: Biot-Savart law[33]
Lecture 20: Ampere's law[34]
Lecture 21: The vector potential A[35]
Lecture 22: Magnetic dipoles[36]
Lecture 23: Magnetization and bound currents[37]
Lecture 24: Boundary conditions for B and H[38]
Lecture 25: Magnetic scalar potential and examples[39]
Lecture 26: Para, dia, and ferromagnetism[40]
Lecture 27: Faraday's law[41]
Lecture 28: Denouement[42]
Clicker questions and other slides
Coming soon
Pictures of rabbits
Baby bunny drinking[43]
Rabbit answering phone[44]
Baby bunny in field[45]
My rabbits, Mojo (orange) and Neela (black)[46]
Neela chillin' at the top of the stairs[47]
Happy baby bunny[48]
High voltage rabbit[49]
Mojo and Neela watching Tom Hanks[50]