1. LON-CAPA Logo
  2. Help
  3. Log In
 

  1. Menu »
  2. Syllabus

Last updated: Wed Feb 9 08:54:10 am 2005 (EST) by Stan Schriber

PHY 183 Spring 2005

Michigan State University

Personnel

Course Coordinator: Matthew Hall, S Mahanti, Felicia Berryman, Tibor Nagy, Thomas Duguet, Stan Schriber
Instructor: Stan Schriber
Teaching Assistant (Section 009): Baradhwaj Panayancheri-Coleppa, Jiwu Liu, Stefano DiChiara

RSS Feeds and Blogs

No available RSS Feeds and Blogs

Instructor Information

Professor Stan Schriber (section 001)
Office: Rm 100B NSCL, Phone: (517) 333-6352
Email: schriber@nscl.msu.edu

Professor Thomas Duguet (section 002)
Office: Rm 221 NSCL, Phone: (517) 333-6329
Email: duguet@nscl.msu.edu

Professor S.D. Mahanti
Office: Rm 4269 BPS, Phone: (517) 355-9200x2303
Email: mahanti@pa.msu.edu

Dr. Tibor F. Nagy
Office: Rm 1253 BPS, Phone: (517) 355-9200x2515
Email: nagy_t@pa.msu.edu, nagytibo@msu.edu

Teaching Assistants:
Jiwu Liu, Rm 1300 BPS, jliu@pa.msu.edu
Stefano DiChiara, Rm 1300 BPS, dichiara@pa.msu.edu

You are encouraged to ask questions in class and in the learning center to better understand the concepts and get assistance with problem solving. Questions about solving homework problems can also be discussed using the "feedback" feature of LON-CAPA. See the feedback (FDBK) button. Postings are visible to everyone in the course and other students in the course can respond to questions. Posts can be made anonymously but the instructors, however, can see the names. The URL for LON-CAPA is: http://msu.loncapa.org

Course Description

Statics, Newton's laws, kinematics, linear, circular and oscillatory motion, kinetic and potential energy, momentum, conservation laws, rotational motion, gravity, solids and fluids.

Prerequisites

MTH 132 or MTH 152H or LBS 118.

Class Hours

Section 001: Mo, Tu, We, Fr, 16:10-17:00, Rm 1410 BPS,
Section 002: Mo, Tu, We, Th, 18:00-18:50, Rm 1410 BPS.

Office Hours

Cyclotron Building
Professor Schriber: Thursdays 12:00 - 13:30, Room 100B
Professor Duguet: Wednesdays 12:00 - 13:30, Room 221

Helproom Hours

Time is scheduled (Fridays - 09:00-20:00 & Mondays - 09:00-21:00) in the Physics Learning Center (1248 BPS) where students can get assistance and individual attention. Members of the teaching team will be available for help on any physics topic covered in the course. You may attend any and as many of the sessions as you wish. The Physics Learning Center can also be useful as a place for groups to meet for studying and problem solving. Interacting with fellow students is a good strategy for learning physics.

Exam Information

There will be two 50-min midterm exams with optional 30% partial credit for corrections (PCC) and one 2-hour final exam. The midterm exams and the final exam will be based on the material covered in lectures, the textbook, quizzes and homework.

Dates and locations of exams are:

Midterms
Wednesday, Feb 09, 2005, Lecture time, Rm 1410 BPS,
Wednesday, Mar 23, 2005, Lecture time, Rm 1410 BPS.

Final
Tuesday, May 03, 2005, 20:00 - 22:00, TBA

You are responsible for bringing the following to the midterm and the final exams:
(i) A calculator: All exams will require the use of a calculator. Make sure that your calculator's batteries are fresh, as sharing of calculators will not be allowed. All other electronic devices (PDA, Cell phone, CD-Player, etc) are not allowed. The calculator must be a hand calculator; not a computer, nor a device that can communicate by some means such as wireless.

(ii) Two #2 (HB) pencils to be used for filling out the computer scoring sheet.

(iii) Midterms: You may bring one 8.5 by 11 help sheet. Only one side of this sheet may contain hand-written formulas, notes, etc.

(iv) Final exam: Your 8.5 by 11 help sheet may be filled on both sides.

All the exams are closed book exams.

Partial credit for corrections (PCC) works as follows: After the exam, the same set of problems is assigned as homework (the PCC set). Answers can be entered through LON-CAPA, as for any other homework until the respective due date. If your PCC score is higher than your exam score, 30% of the difference will be credited to your exam.

Quizzes

Quizzes will be given frequently in class. Quizzes will be based on current lecture materials, textbook, and previous homework. Quizzes are not announced and at least one quiz per week should be anticipated. The quiz will be posted on LON-CAPA the Thursday prior to the week of a quiz. This gives you an opportunity to practice the methodology for the problems in advance. You will need a pocket calculator to solve them and a #2 pencil to fill out the computer scoring sheet. No makeup for quizzes will be given, but 90% score on quizzes will earn the full 10% credit towards the course grade.

Homework

There will be 12 homework assignments for which solutions are entered through the LON-CAPA system. The homework due dates are Monday, midnight. Solutions will be posted Wednesday 06:00. Note that homework assignments are individualized.

Excuse policy

There will be make up for missed in-class tests, quizzes, or homework assignments. In order for a missed in-class test to be excused, you must present to the instructor within one week a written excuse, dated and signed by you, stating the circumstances that caused you to miss the exam. This excuse should be accompanied by supporting material, for example a written document from a doctor, dean, etc. Excused absences from the in-class tests will result in your grade being calculated on the basis of your performance on the other in-class tests. No adjustments will be made to quiz scores unless more than four quizzes are missed due to excused absences. For homework only an extended absence or illness will be considered a valid excuse. In case of a significant network outage, we will extend the deadline. The Michigan State University Code of Teaching Responsibilities states that any student missing the Final Exam may not be allowed to pass the course. Please familiarize yourself with University policies concerning academic integrity at
http://www.vps.msu.edu/SpLife/rule32.htm as they will be applied.

Deadlines


--------------------------------------------------
From ------- To | Week/Chapter and Topic
--------------------------------------------------
01/10 --- 01/14 | 1 Math Primer
--------------------------------------------------
01/17 -- Monday | MLK Day (no classes)
01/18 --- 01/21 | 2 Forces, static equilibrium
--------------------------------------------------
01/24 --- 01/28 | 3 Newton's laws
--------------------------------------------------
01/31 --- 02/04 | 4 Linear motion
--------------------------------------------------
02/07 --- 02/11 | 5 Circular motion
02/09 Wednesday | Midterm #1
--------------------------------------------------
02/14 --- 02/18 | 6 Oscillations
--------------------------------------------------
02/21 --- 02/25 | 7 Motion in 2 and 3 dimensions
--------------------------------------------------
02/28 --- 03/04 | 8 Kinetic energy, work, power
--------------------------------------------------
03/07 --- 03/11 | Spring Break (no classes)
--------------------------------------------------
03/14 --- 03/18 | 9 Potential energy, conservation
--------------------------------------------------
03/21 --- 03/25 | 10 Momentum and collisions
03/23 Wednesday | Midterm #2
--------------------------------------------------
03/28 --- 04/01 | 11 Systems of particles
--------------------------------------------------
04/04 --- 04/08 | 12 Rotation
--------------------------------------------------
04/11 --- 04/15 | 13 Gravitation, Kepler's laws
--------------------------------------------------
04/18 --- 04/22 | 14 Solids and fluids
--------------------------------------------------
04/25 --- 04/29 | 15 Review
--------------------------------------------------
05/03 - Tuesday | Final exam: 20:00-22:00
--------------------------------------------------

Grading Information

Grades are based on the following formula: Homework: 30%. Two midterm exams: 30%. Quizzes: 10%. Final exam: 30%. This course in not "graded on a curve". The guaranteed scale below is based on the total percentage of points. It may be slightly lowered but it will not be raised.

4.0 > 92%
3.5 > 84%
3.0 > 76%
2.5 > 68%
2.0 > 60%
1.5 > 52%
1.0 > 44%
0.0 < 44%

Honors option: students interested in participating in the 'Honors' option should contact the instructor at the end of the first class.

Textbook

W. Bauer, G. D. Westfall, Physics for Scientists and Engineers, Preliminary edition, McGraw-Hill, 2005.