Location
and Time: SC 127 MWF 10:00 - 11:50 am
Instructor: Dr. Scott Nutter Office
Hours:
Office: SC 147 WF: 8:30-9:30 am, R: 9:00-10:30 am
Phone: 572-5369 or
anytime when available.
Email,
Web Page: nutters@nku.edu www.nku.edu/~nutters
Required Materials: Physics for Scientists
and Engineers, 2nd Edition, Volume 1, by Randall D. Knight.
Material
from chapters 1-13 from the textbook will be covered. PHY 224 will cover
chapters 14 and 15, and many problems in PHY 222 refer back to physics learned
this semester, so keep your texts.
Student Workbook: Physics (paperback),
2nd Edition, Volume 1, by Randall D. Knight.
Plastic ruler (clear is best): 6
or 12 inches in length; best if marked in inches and cm.
Colored pencils
(red, blue, green) in addition to your regular pencil for use in the workbook.
Calculator: capable of computing
trigonometric functions and their inverses, but that does NOT store text. If you are unsure if your calculator is
acceptable, ask your instructor before
the first exam.
Supplements
(optional): We will use Blackboard
(learnonline.nku.edu) to disseminate course information, such as homework
assignments and solutions, updates on your grade, exam reviews, instructor
notes, and selected in-class handouts.
Student Solution Manual, 2nd
Edition, by Nutter and Smith.
Web site for “ActivPhysics
Online”: www.aw-bc.com/knight. We will make
use of some of these simulations in class; and you may wish to study them
further on your own.
Pre-
or co-requisite: MAT 129
or MAT 227 or MAT 121 or MAT 120 (first semester of calculus).
Knowledge
of high school trigonometry, algebra, and geometry is expected. A right
triangle should be your very close friend. We will use concepts of
calculus, such as time rate of change (d/dt) and
integration. Appendix A in the back of the text will be helpful for a
quick math review.
Description: A calculus-based introduction to classical physics using
guided inquiry activities. Topics: Topics include techniques for data analysis,
kinematics, forces and Newton’s Laws of motion, circular motion, work and
energy, momentum, rotational motion, static equilibrium.
Useful links:
Blackboard login Grades and
assignments will be available from the Blackboard page for this class.
Homework Assignments (http://www.nku.edu/~nutters/hw_p220_f09.html)
Workbook Assignments (http://www.nku.edu/~nutters/p220_workbook_f09.htm)
Reading Assignments (http://www.nku.edu/~nutters/p220_readings_f09.htm)
Course home page
(this page: http://www.nku.edu/~nutters/p220syllabus_f09.htm)
My Home page (http://www.nku.edu/~nutters/)
Online activities:
Active Physics web site (http://www.aw-bc.com/knight)
Physlets (http://webphysics.davidson.edu/Applets/Applets.html)
Laboratory information:
Numerical
Laboratory Writeup Guidelines
Data Analysis
Error Calculator
Course
objective:
Objective is to achieve a good understanding of basic concepts and to be able
to apply these concepts to a variety of physical situations. Students will
acquire skills in scientific methods, critical reasoning, and problem solving.
In the spring semester we focus on classical (Newtonian) mechanics.
Student learning
outcomes for this course are:
o
Predict results regarding motion, force and energy applications, and test their
predictions experimentally.
o
Write several short lab reports (and one or more formal lab reports) that will
each include data analysis and a critique of experimental results.
o
Routinely complete error analysis calculations with experiments.
Assessment of
these outcomes will be performed through regular homework and workbook
assignments, several exams, including one multiple choice exam
designed to measure purely conceptual understanding, and laboratory writeups.
A word
from the instructor: As an instructor, I consider myself more as a
facilitator than a lecturer. In other words, I expect that you will spend
the effort to learn the material instead of expect me to spoon feed it through
lectures. Lecturing has been shown to not work in physics, a discipline
in which the emphasis is on learning a method towards approaching a problem and
identifying the concept surrounding the problem instead of a list of
facts. Towards that end, we will spend time in class working together on
exercises from the workbook and book until you are comfortable with them, and
then you can gain more experience and try more challenging exercises through
the rest of the workbook problems and the homework.
Attendance: You are expected to attend all
class meetings for the whole scheduled time and to participate in classroom and
group discussions. Absences will
indirectly reduce your grade. I realize many of you have a life outside of
school, but your attendance and participation is an extremely important part of
the educational process. Please let me know when possible of planned
absences. Make-ups are rare.
Cell phone policy: TURN IT OFF! I
understand that sometimes important things outside of school are going on in
your life. However, if what's going on is so important that you cannot be
away from instantaneous contact for the hours of classtime then perhaps
you shouldn't be there. Also, it is unfair to the rest of the students
(and me) to hear that ringing in the middle of class. It throws our train
of thought off. If your phone rings by accident, turn it off and let the
answering service get it. If you answer it in class, or run out of class
answering it on the way, I will think of some horrible punishment for you upon
your return. In fact, don't bother returning that day. It gives me
time to plan something incredibly evil and fitting.
Laboratory skills: The scientific method basically consists of observation,
followed by experimentation and measurement, then some sort of
conclusion. You will be practicing this at every step as you explore
physical processes in the classroom. I hope you will extend this pattern
to the rest of the world as well. Lab groups are comprised of whomever
you sit with at your table. Choose wisely! I reserve the right to
rearrange the groups at will.
Tentative schedule of topics
|
No. |
Week of |
Topics |
Chapter |
|
1 |
24 Aug |
Introduction, Concepts of Motion, Kinematics along a line |
1, 2 |
|
2 |
31 Aug |
Kinematics along a line |
2 |
|
3 |
7 Sep (Labor Day week) |
Kinematics, Vectors |
2,3 |
|
4 |
14 Sep |
Kinematics in a plane |
4.1-3 |
|
5 |
21 Sep |
Force and motion (Exam I) |
5 |
|
6 |
28 Sep |
Dynamics: Motion along a line |
6 |
|
7 |
5 Oct |
Newton’s 3rd Law |
7 |
|
8 |
12 Oct |
Dynamics: Motion in a plane |
4.4-6, 8 |
|
19 Oct (Fall break week) |
Dynamics: Motion in a plane |
8 |
|
|
10 |
26 Oct |
Motion overview, Newton’s 3rd Law (Exam II) |
5,6,7,8 |
|
11 |
2 Nov |
Impulse and Momentum |
9 |
|
12 |
9 Nov |
Energy |
10 |
|
13 |
16 Nov |
Work |
11 |
|
14 |
23 Nov (Thanksgiving) |
Work, Rotation |
11, 12 |
|
15 |
30 Nov |
Rotation |
12 |
|
15 |
7 Dec |
Gravity (Exam III) |
13 |
Important
dates:
No
classes: Labor Day (7
September), Fall Break (19-20 October), Thanksgiving (25-28 November).
Withdrawal: The last date to withdraw from a course
without a grade appearing in your transcript is 14 September. The last date to
withdraw with a "W" appearing in your transcript is 2 November.
GRADING
SCALE: Welcome to the new world of +/- grades.
Here’s my scale:
|
A |
> 92 |
|
A- |
90-92 |
|
B+ |
87-89 |
|
B |
83-86 |
|
B- |
80-82 |
|
C+ |
77-79 |
|
C |
73-76 |
|
C- |
70-72 |
|
D+ |
67-69 |
|
D |
60-66 |
|
F |
< 60 |
Grade
components:
Grade component weighting:
|
Grade
Components |
Weights |
|
Homework |
15% |
|
Workbook,
activities, and labs |
15% |
|
Pre- and
post-tests |
10% |
|
3 exams@15%
each |
45% |
|
Final exam
(comprehensive) |
15% |
|
TOTAL: |
100% |
Exams:
Three unit exams and one comprehensive
final exam will be given. Exams will be taken
without the use of books or notes; however, a non-text storing calculator is
allowed. Students are expected to know
some basic expressions (or equations) and principles that are commonly used in
physics; but certain equations that apply to only specific physical situations
will be provided with each exam. A brief
exam review will be given in class sometime prior to exam day. Being absent from any exam is strongly
discouraged. Make-up tests will not be identical to the in-class exam
and will be more difficult, could
cover topics not specifically mentioned during the exam review, and will be
either written, oral, or both.
|
|
Chapters
|
Tentative Date
|
|
Exam I |
Ch. 1 – 4 |
Sept. 23 |
|
Exam II |
Ch. 5 – 8 |
Oct. 30 |
|
Exam III |
Ch. 9 – 13 |
Dec. 9 |
|
Final |
Comprehensive plus remaining material
(if any) |
Dec. 16, 10:10 - 12:10 |
Additional
Notes:
Students must register for Special
Accommodations:
Students
with disabilities who require accommodations (academic adjustments, auxiliary aids
or services) for this course must register with the Office of Disability
Services. Contact the Office of Disability Services immediately in University
Center suite 320 or call X-6373 for more information. Verification of your
disability is required in the Office of Disability Services for you to receive
reasonable academic accommodations. Visit the disability services website at www.nku.edu/~disability/.
Student Honor Code will be strictly
followed:
This
Student Honor Code [the "Honor Code"] is a commitment by students of
Northern Kentucky University, through their matriculation or continued
enrollment at the University, to adhere to the highest degree of ethical
integrity in academic conduct. It is a commitment individually and collectively
that the students of Northern Kentucky University will not lie, cheat, or
plagiarize to gain an academic advantage over fellow students or avoid academic
requirements. For more details visit: www.nku.edu/~deanstudents/student_rights/honor_code.htm
Online Instructor and Course
Evaluations:
Near
the end of the semester students will receive information on how to complete
online instructor/course evaluations.
These evaluations are confidential, and the data collected (without students names) will be made available to instructor after your course grades have been
submitted. Your evaluations are taken
seriously, and they can be very helpful in shaping the future of this course
and the instructor. Using online
evaluations can reduce the costs of evaluations (by avoiding paper), but a high
percentage of student participation is needed to prevent the return to paper
evaluations. Please complete the online
evaluations by the last day of classes. See http://eval.nku.edu/
----------------------------------------------------------------------------------
Outcomes and
Assessment related to General Education Areas:
Students
will be assessed on their ability to complete the outcomes below by using
written exams, homework assignments, in-class activities/discussions, team
experiments, and lab reports:
PHY
220 students will routinely:
General Education: Natural
Science (with Laboratory) Outcomes and Assessment:
Students will be
assessed on their ability to complete the outcomes below through the use of
written exams, homework assignments, in-class activities/discussions, team
experiments, and lab reports.
o
Predict
results regarding motion, force and energy applications, and test their
predictions experimentally.
o
Write
several short lab reports (and one or more formal lab reports) that will each
include data analysis and a critique of experimental results.
o
Routinely
complete error analysis calculations with experiments.
Physics Program Outcomes and
Assessment (relevant to PHY 220):
Students
will be assessed on their ability to complete the outcomes below through the
use of written exams, homework assignments, in-class activities/discussions,
team experiments, lab reports and a standardized test.
PHY
220 students will:
The
instructor reserves the right to modify this syllabus during the semester but
will notify students during class of any changes.
If you have a
question, do not hesitate to ask. I don't bite. My biggest advice would be to
practice, practice, practice, i.e. do lots of problems.