Physics 332: Electricity and Magnetism

Policies and Expectations

Reading: 

Texts:

  • Div, Grad, Curl, and All That: An Informal Text on Vector Calculus, Fourth Edition by H. M. Schey (OPTIONAL) – This is an excellent book to read if you want to review vector calculus. It mainly uses examples from electromagnetism.  Alternatively, if you’ve had Calc IV, Vector Calculus, the text for that course will be a great resource.
  • Your 232 text, be it Chabay & Sherwood’s  M & I Vol 2 or Moore’s Unit E., you’ll sometimes want to refresh your memory on how a tool or concept was treated in that simpler context.   

 

Recommendation: The different components of the class (reading, meeting times, and homework) work together best when mixed.  Take note of what problems will be assigned, do the reading with the problems in mind and even do some preliminary work on them, and then come to class.  That way you’re attuned to exactly what you need.  If I’m demonstrating something that’ll be useful on a problem, you’ll recognize it and take note.  If the reading raised questions, you’ll be able to ask them.  The alternative – coming to lecture, then reading, and then looking at the problems is apt to be much less efficient and repeatedly leave you in a lurch.  Regarding the text itself, Dr. Griffiths’ text is generally considered the best of what’s around.  That said, by the nature of its being an upper-level text, it’s not going to devote much time to reviewing things you learned in Phys 232.  I encourage you to look back at your Phys 232 text to review any rusty topics that come up.  

Homework: 50% of your grade. The homework is intended to give you practice working with the material introduced in class and in the reading, and to extend beyond lecture’s coverage.  There are two components to the homework: Problems, and Discussion Prep.

Problems:  40% of your grade.  More difficult problems will be worth more points (ê = 10, êê = 15, êêê = 20). The score for each problem on a 5-point scale will be multiplied by 2, 3, or 4. Some problems will be difficult or require the use of a computer, so don’t wait until the last minute to start the assignments.

Weekly homework will usually be due on Thursday or Monday evening (see schedule). Each problem will be graded on something like the following 5-point scale (multiply by number of stars):

5.   excellent effort – clear solution, appropriate notation, and correct results

4.   good effort with only a few minor errors and a good explanation

3.   good effort with modest errors

2.   fair effort or good effort involving serious errors

1.   poor effort

0.   no effort

In order to get a score greater than 3, an answer must include at least a few words of explanation or the use of diagrams in addition to calculations. To get full credit, you must include units in any calculations that have values, not just at the end. You should be careful to use vector notation correctly because it is impossible for me to distinguish a lack of understanding from sloppy notation.

A bit about notation:  While it’s easy for the text to denote vectors in bold face (E), that doesn’t work with pencil (or pen or chalk), so you should use the usual “arrow notation” (), and I’ll do the same. Components of vectors should be labeled with subscripts (,,). Unit vectors should also be used correctly (). Scalars (including magnitudes of vectors, like ) should not be labeled as vectors. Note that the del operator () is a vector operator.

A bit about computation:  In addition to analytical / pencil-and-paper problems there will also be computational / keyboard-and-CPU problems.  It’s important to practice computational methods since they help you to attack non-analytical problems or simply visualize the solutions to analytical ones.  There will be tutorials on how to use the Python programming language to visualize solutions and to perform computations (they draw heavily from the pylab library which is based on MatLab – so it wouldn’t be too hard to use MatLab instead if you’re familiar with it and have copy.)  Most weeks, there will be at least one homework problem that requires the use of a computer. For computer problems, you should email your program in addition to turning in any background calculations (you will usually have to do some work with pencil and paper before using the computer) and results with your homework.  If you haven’t updated your Python package since you’d installed VPython for Phys 231, you’ll need to do so.  I suggest you go to Vpython.org, select the ‘download’ page for your operating system, and then follow the “Installing for Anaconda” instructions (including clicking on the “Anaconda Python distribution” link and installing Anaconda first.)  You’ll find a collection of useful tutorials at (http://bulldog2.redlands.edu/facultyfolder/deweerd/tutorials/.

Discussion Prep: 10% of your grade. As already mentioned, you’ll get the most out of all components of the course (reading, meeting times, homework,…) if you read deeply and before class.  To encourage that practice, by 8a.m. on lecture days, you should submit something to help guide the day’s class – questions you have, requests for us to go over specific things (concepts, derivations, examples,…), or even a pedagogical suggestion like ‘you’ve been doing a lot of examples lately, how about something for us to work on’.  So you don’t have to actually get over here by 8a.m. and so you can see and build on each other’s submissions, we’ll be using GoogleModerator.  More about that in class.

Exams: 50% (16.6 % for each) of your grade. There will be three, equally weighed exams (including the final). All exams will be closed book, closed notes.  If something is unclear to you or you disagree with the grading, please give me a call, send me an e-mail, or drop by my office.

 

Cheating:  Dishonesty seriously undermines the academic pursuit; therefore, it is my philosophy that the punishment for cheating should not simply erase its 'beneficial' effects, but be enough of a deterrent that the 'benefit' of cheating not be worth the risk.  For example, I prefer to fail from the course a student who has cheated on an exam.  According to the University Academic Honesty Policy, all instances of dishonesty are recorded by the Registrar’s office.  On tests, “cheating” is fairly clear-cut.  On homework, there’s some gray; in this class, you should feel free to work together, but the work you turn in must be your own / reflect your own understanding.

 

Late work:  Except in extenuating circumstances, late work will not be accepted.

 

Grade: If at anytime you are interested in reviewing your standing in the course feel free to give me a call, send me an e-mail, or drop by my office.


Homework                                          50%
Exams                                                 50% (16.6% for each exam)

 

Final Course Grade Assignments:  Final grades will be assigned according to the following: 

 

                     93        ≤   A   (4.0)     ≤  100%                                  

90            ≤   A- (3.7)     <  93 ⅓                       

86 ⅔        ≤   B+ (3.3)     <  90                           

83         ≤   B   (3.0)     <  86 ⅔                       

80            ≤   B- (2.7)     <  83 ⅓                       

76 ⅔       ≤   C+ (2.3)     <  80                           

73        ≤   C   (2.0)     <  76 ⅔                       

70            ≤   C- (1.7)     <  73 ⅓                       

66        ≤   D+ (1.3)     <  70                          

63        ≤   D   (1.0)     <  66 ⅔                       

60            ≤   D- (0.7)     <  63 ⅓                       

0              ≤   F    (0.0)     <  60                           

                  

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