Dr. Dan Boye, Spring 2011
Office: Dana 134
Phone: 8942394 daboye@davidson.edu
Physics
350
Electricity and Magnetism
Text: Electromagnetism, Pollack and Stump, 1^{st} ed, AddisonWesley.
Prerequisites: Physics 330 or consent of instructor.
Appointments: I am generally available from 9:005:00 MF. Communication with me by email is very reliable. If my office light is on and I'm not there, check in the Dana basement (Room B36) or in the Physics Office.
Objectives: This course will address the major topics in the very broad physics subfield of electricity and magnetism. Topics will include electric fields and potentials, conductors, dielectrics, magnetostatics, induction, Maxwell’s equations and electromagnetism. Attention will be given to proper mathematical treatment of these topics, including extensive use of vector calculus. Whenever possible, connections will be made in lecture to applications in such areas as optics, quantum mechanics and atomic physics.
Attendance: You are expected to attend each class unless you have a legitimate reason for being absent. In this case, please see me in advance (except in the case of illness). You are also expected to attend all department seminars!
Assignments: There will be regular assignments of problem sets taken from the textbook. These assignments, and their solution keys, will be posted on the course web page. I urge you to work together on the assignments as much as possible. However, each student’s work turned in for grading must be a product of that individual student’s understanding of the material; i.e., you may not copy work from another student, book, website, or other external resource.
Grading: Homework assignments and quizzes 40%, reviews 35%, final exam 25%. The two reviews will each be a combination of takehome and inclass, timelimited, closedbook tests. The final will be a comprehensive, takehome, timelimited, closedbook examination taken during final exam week.
CLASS SCHEDULE
Week oF 
Topics 
Ch 
Jan. 10 – Jan. 14 
Introduction and vector calculus, vector operators 
1 & 2 
Jan. 17 – Jan. 21 
Integral theorems, coordinate systems, electrostatics 
2 & 3 
Jan. 24 – Jan. 28 
Electrostatics – fields and potentials 
3 
Jan. 31 – Feb. 4 
Electrostatics – Gauss’s law, multipole expansion 
3 
Feb. 7 – Feb. 11 
Electrostatics – conductors 
4 
Feb. 14 – Feb. 18 
Conductors, Laplace’s equation 
4 & 5 
Feb. 21 – Feb. 25 
Laplace’s equation, Review #1 
5 & 6 
Feb. 28 – Mar. 4 
Spring Break! No classes 

Mar. 7 – Mar. 11 
Laplaces's equation, Dielectrics, capacitors 
6 
Mar. 14 – Mar. 18 
Dielectrics, Magnetostatics 
6 & 8 
Mar. 21 – Mar. 25 
Magnetostatics, magnetic forces– Ampere’s law 
8 
Mar. 28 – Apr. 1 
Magnetostatics – magnetic dipole 
8 
Apr. 5 – Apr. 9 
Magnetic fields in matter 
9 
Apr. 11 – Apr. 15 
Review #2, Magnetic Induction 
9 & 10 
Apr. 18 – Apr. 22 
Magnetic Induction 
10 
Apr. 25 – Apr. 29 
No class 4/25 (Easter Break) Maxwell and electromagnetism 
11 
May 2 
Maxwell and electromagnetism 
11 
May 611 
Finals 

The above outline is a rough approximation of the schedule. Adjustments may be necessary, but I will give ample advance notice before changes are made.