PHY 4324 ELECTROMAGNETISM II
Tentative Syllabus (Version of
22 August 2000)
Fall 2000 Section No. 3911 3 credits
http://www.phys.ufl.edu/~meisel/phy4324.htm
Instructor: Mark W. Meisel, Department of
Physics, University of Florida
Best
Place to Find Me: NPB B133, Tel:
2-9147, Fax: 2-7709
Alternative
Place to Find Me: NPB 2358, Tel: 2-8867
Email:
meisel@phys.ufl.edu
Office
Hours: M W F 8th period (15:00 - 15:50)
and by appointment.
Prerequisite: Successful completion of PHY 3323 or
permission of the instructor.
Meeting
Times: M W
F 4th period (10:40 – 11:30 hrs) in NPB
1011
Textbook: David J. Griffiths, Introduction to Electrodynamics (3rd
Edition), Prentice‑Hall, 1999.
Grading: During the course, there will be
nominally 9, 5-point quizzes, normally 10 minutes in length and usually on
Friday at the end of the class period.
The 7 best quiz scores will be used for computing the final grade. There will also be four, 50-point,
50-minutes mid-term examinations. The
mid-term examinations will be given in class.
At the end of the course, there will be one, 100-point two-hour final
examination. The grade at the end of
the semester will be based upon the summation of all possible points. In other words, the total number of
available points is 335. No make-up
quizzes or examinations are scheduled.
Attendance at all quizzes and examinations is definitely expected.
Posting: Materials and information concerning
the course will be posted on the Course Webpage, see
http://www.phys.ufl.edu/~meisel/phy4324.htm.
Subject and Focus of the
Course
This course, PHY 4324, is the second part
of a two semester course, with PHY 3323 comprising the first part. Both parts are required for an undergraduate
physics degree. In general, the
material will cover all aspects of electricity and magnetism. There is a natural break in the subject
material between Chapters 6 and 7, namely between "statics" and
"dynamics". Consequently,
during the first semester, the mathematical foundations necessary for the
entire course were established and the material concerning "statics"
was covered. The goal of this semester
is to cover the "dynamics".
Students entering this course have a wide
variety of backgrounds. Although quite
a bit of material may seem redundant, do not be fooled or lulled into a false
sense of intellectual security. The
course will attempt to be self-contained and will lay the foundations of the
mathematics necessary for understanding the material. If you find this material boring, please understand that its
coverage is necessary for those students whose background may not be as
comprehensive as your own. If at any
time you are truly bored, please talk to the instructor. He can make suitable
arrangements/adjustments or assign more sophisticated problems for your private
consideration.
The course is constructed and aimed for constant
class participation. The instructor
will assume that you are reading the book and working the examples and relevant
problems. You are expected to maintain
the pace of the course, and the quizzes and examinations are designed to help
guide you in this process. Cramming
before an examination will not work!
Like a world-class athlete, you must train your mind to think physics,
and this training should be performed EVERYDAY. Of course, you do not want to burn-out, but you must train to
think like a physicist everyday.
Attendance in class is definitely
expected since material outside the textbook may be presented. YOU ARE RESPONSIBLE FOR ALL MATERIAL COVERED
IN THE TEXT AND IN CLASS. ALL THIS
MATERIAL IS RELEVANT FOR QUIZZES AND EXAMINATIONS, unless otherwise stated.
The ultimate goal of the course is for
the students to learn more details about electricity and magnetism and to be
able to use the machinery of mathematics to solve general problems associated
with the subject. Highly specialized
problems are the subject of advanced courses in physics, astronomy and
electrical engineering. To realize this
goal, the students will not be allowed to use textbooks or notes for the
quizzes or the examinations. Any
specialized details, formulas or physical constant values will be provided as
needed. For example, during the course,
the student will be so versed in Maxwell Equations (at the appropriate moment
in the course), normally achieved by having worked numerous problems and
examples, that these equations will be committed to short-term memory (and
hopefully long-term memory).
A final word about successful completion
of the course: there is no secret. If you attend class (and
participate), read the textbook, and work the problems and examples,
then you will learn the material. When
in doubt, WORK MORE PROBLEMS! If you
exhaust all problems from the textbook, see the instructor who will be happy to
supply more. Remember: this stuff should be fun! If in itself it is not fun and challenging,
then it should be some hoop that you are jumping so you may proceed with some
fun stuff. So, you should always stay
motivated to learn the material.
If at any time there is a question in
your mind about anything, please do not hesitate to talk to the
instructor. See him immediately before
or after class, if necessary, to set specific appointments.
Academic Honesty
Each student is expected to generate
graded work by an individual effort. It
is understood that some students benefit from "group study". However, all quizzes, all mid-term
examinations and the final examination will be individual efforts, using only
the materials authorized by the Instructor.
Any violation of this policy will be
prosecuted to the full-extent possible (usually a failing grade is given on the
assignment). Please review the
University Policies on Academic Honesty.
PHY 4324 ELECTROMAGNETISM II
Tentative Syllabus (Version of
22 August 2000)
Fall 2000 Section No. 3911 3 credits
http://www.phys.ufl.edu/~meisel/phy4324.htm
Week
1: Aug. 21 No class.
Aug.
23 Introduction,
Return Finals, Review, Start Chapter 7
Aug.
25
Week
2: Aug. 28
Aug.
30
Sep.
01 Quiz 1
Week
3: Sep. 04 No
class, Labor Day
Sep.
06
Sep.
08 Quiz 2
Week
4: Sep. 11
Sep.
13
Sep.
15 Quiz 3
Week
5: Sep. 18
Sep.
20 Review for Mid-term
Sep.
22 Mid-term Exam 1 (Chapter 7) [50 minutes, 50 points]
Week
6: Sep. 25 Review Mid-term, Start
Chapter 8
Sep. 27
Sep. 29 Quiz 4
Week
7: Oct. 02
Oct. 04
Oct. 06 Quiz 5
Week
8: Oct. 09
Oct.
11
Oct.
13 Quiz
6
Week
9: Oct. 16
Oct.
18 Review
for Mid-term
Oct.
20 Mid-term
Exam 2 (Chapter 8) [50 minutes, 50 points]
Week
10: Oct. 23 Review
Mid-term, Start Chapter 9
Oct.
25
Oct.
27 Quiz
7
Week
11: Oct. 30
Nov.
01
Nov.
03 Quiz
8
Week
12: Nov. 06 Review
for Mid-term
Nov.
08 Mid-term
Exam 3 (Chapter 9) [50 minutes, 50 points]
Nov. 10 No Class,
Veterans Day
Week
13: Nov. 13 Review
Exam, Start Ch. 10 and Special Topics
Nov. 15
Nov. 17 Quiz 9
Nov. 22
Nov. 24 No Class, Thanksgiving Holiday
Nov. 29
Dec. 01 Review for Mid-term
Week 16: Dec. 04 Exam 4 (Chapter 10, Special Topics) [50 minutes, 50 pts.]
Dec. 06 Review Course, Class ends.
Dec. 08 Optional Review Day
Final Exam: Wednesday, 13 December, 12:30 – 14:30 hrs (Final Exam Group 13C)
Special
Notes about the Syllabus: Please
note that the dates for all quizzes, examinations and chapter starts are
TENTATIVE. The schedule will be
finalized during the course and will be announced in class.
Other
potentially useful books: Most
physics graduate programs assume incoming students have taken an advanced
undergraduate course on electricity and magnetism. According to the "AIP Guide to Graduate Programs in Physics
and Related Fields", nearly all departments list a text by one of the
following groups of authors:
Griffiths
(this course);
J.R.
Reitz, F.J. Milford and Christy, Foundations
of Electromagnetic Theory;
Marion,
Electricity and Magnetism;
Lorrain
and Corson, Electromagnetic Fields and
Waves;
Corson
and Lorrain, Electromagnetism.
All of
these texts are presented at about the same level and provide the background
necessary for more advanced study. Most
graduate physics programs require first year students to take a course in
electricity and magnetism. The most
popular textbook for this course is J.D. Jackson, Classical Electrodynamics.