Clare 102 Syllabus
for Fall 2002
Inquiry in the
Natural World
is one of the Core Area Courses in the Clare College core curriculum at Saint
Bonaventure University. Your Clare College courses are designed to give you a
well-rounded liberal arts education to complement the specialized training you
are getting in the courses that make up your major. Inquiry in the Natural World introduces you to the mode of inquiry
that is used in the natural sciences.
Inquiry in the
Natural World
is not a run-of-the-mill science course. We know that you have already had a
number of years of science courses in high school, and we don’t expect a
one-semester college course will be able to introduce the content of modern
science in much more depth than you have already had it.
Instead, we will be focusing on the process
of scientific inquiry. We will be using key discoveries in the history of
Western science as examples through which we can explore how scientific advances
happen. Since we are focusing on process, there will be a minimum of traditional
lectures. Instead, you will be
actively involved in discussions and group projects in class. And your
performance in this work in class will have an effect on your overall course
grade.
Inquiry
in the Natural World
is organized in 13 one-week modules. Each module will start with a large lecture
in Dresser Auditorium, attended by all sections of the course. The next two
meetings will be in smaller sections and will emphasize class discussions and
group work.
In
each keynote lecture, you will receive a description of the discussions and
group learning assignments that are planned for the remainder of the week. These
activities will require preparation on your part, as described in the handout
for each week. This preparation is an essential part of your participation in Inquiry
in the Natural World. If you do not prepare to participate in class, your
grade will suffer. These topic
objectives can also be found on the course webpage.
There
will be three examinations during the semester and one comprehensive final
examination. The examinations will be administered in each section.
You are
expected to take the exams at the scheduled times, unless you
have spoken to your instructor far in advance about other arrangements.
If you have non-academic conflicts with the scheduled exam times,
you should resolve them now or speak to an instructor ASAP.
An unexcused absence from any of the exams will result in a score
of 0 points being entered in the course record. There will be NO makeups
given for unexcused exam absences. You
will only be permitted to make up a missed examination if
your absence was due to documented illness or emergency and
if you have informed an instructor in a timely manner (i.e.
email or phone your instructor within 24 hours of your missed exam).
Unlike past semesters, this rule will be strictly enforced.
If you have reason to miss an exam, it is your responsibility to contact
your instructor. Failure to do
so will result in a zero for the exam.
The
examinations will be divided 50/50 between scientific content (found mostly in
the textbook) and reflections and concepts regarding how science works (explored
mostly in class). Very little class time will be spent covering our current
understanding of scientific topics that can be found in the textbook. You will
be responsible for reading this material for yourself!
Attendance
in classes is strongly encouraged. The material covered in the large
lectures will usually go beyond what is covered in the textbook, and so it would
be unwise to miss them. Most of the smaller section meetings will include group
learning exercises for which a written product will be handed in and graded. You
are expected to attend class and be present for these active learning exercises.
If you cannot attend class, it is your responsibility to contact
your instructor and make other arrangements.
You will receive a zero on any assignments on days that you missed.
Roll
will be taken intermittently and will be used in determining the final grade.
Attendance will also be reported to such authorized persons as academic
advisors, student counselors, and parents.
The
final grade for this course is determined as follows:
Examination 1 (topics 1,2,3,4)
100 points
Examination 2 (topics 5,6,7)
75
Examination 3 (topics 8,9,10,11)
100
Comprehensive final examination
(topics
12,13 + all earlier topics)
125
Group learning assignments and quizzes
75
Class participation 25
A
total of 500 points is available. Your final grade will be calculated as
follows:
A
more than 465 points
A-
450-464 points
B+
435-449 points
B
415-434 points
B-
400-414 points
C+
385-399 points
C
365-384 points
C-
350-364 points
D+
335-349 points
D
315-334 points
D-
300-314 points
F
less than 300 points
A
few notes:
Midterm grades are assigned for a reason.
This usually indicates the direction your grade is approaching and should
not be taken lightly. However, your final grade is based upon the above criteria.
Your
laboratory grade is a separate value determined by the lab instructor.
Though the content of lecture and lab are related, the grades do not
depend on each other.
Withdraw
policy
According to
University policy, the official withdraw date is November 15.
The instructors will stick by these dates, so please be aware of it if
this becomes a necessary step. You
must have your course instructor sign the appropriate forms.
If you drop the lab, you must have your lab instructor sign the forms.
Lecture
Instructors
Dr. Walter Budzinski
Room 21
De La Roche
375-2669
wbudzins@sbu.edu
Dr.
David DiMattio
Room 21 De
La Roche
375-2007 ddimatti@sbu.edu
Dr.
Larry Wier
Room 303
De La Roche 375-2116
lwier@sbu.edu
Dr.
Donna Brestensky Room
303
De La Roche
375- 2132 dbresten@sbu.edu
Prof. James Miller Room 207B De La Roche 375- 2632 jmiller@sbu.edu
All
instructors have regularly scheduled office hours, which are posted on their
office doors and which they will announce in class. All instructors are eager to
discuss any and all aspects of the class as well as go over any questions you
may have. Please visit them during office hours. If you are not available during
any of your instructor’s scheduled office hours, please make an appointment to
see your instructor at another time.
Required
Textbooks
James
Trefil and Robert Hazen, The Sciences: An
Integrated Approach, 3rd edition,. John Wiley & Sons: New York.
Please
note: The page numbers for the new
edition (3rd) and the older (2nd) do not match.
If an older edition is used, it is the student’s responsibility to find
what material might be omitted.
A
considerable number of other readings, for use in the laboratory and in class
discussions, will be handed out as photocopies during the semester. The total
charge for photocopying in this course (including the laboratory) will be $20.
This will be collected during the first week of laboratory. Please bring a check
made out to “St. Bonaventure University”. Please be aware that if payment is not made, the student will
be assigned an incomplete for the course.
This is a mandatory charge.
http://web.sbu.edu/physics/faculty/physics.dimattio.html
The schedule of topics on the following page lists what
will be covered each day in class, as well as when the examinations are and what
material will be contained in each examination. Each week, you will be given a
handout that describes the specific pages we will expect you to cover in your
reading of the textbook, as well as what we would like you to think about as you
read the supplemental readings. Remember that the textbook contains only some of
the material for this course! Each topic is covered in three class meetings;
the first meeting is as a large lecture (all sections combined) in Murphy
Auditorium and the second and third meetings are as individual sections.
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Fall 2002 |
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Sun |
Mon |
Tues |
Wed |
Thurs |
Fri |
Sat |
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Aug |
25 |
26- Topic 1 (M) |
27 |
28- Topic 1 |
29 |
30- Topic 1 |
31 |
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Sept |
1 |
2-
Topic 2 (M) |
3 |
4-
Topic 2 |
5 |
6-
Topic 2 |
7 |
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8 |
9-
Topic 3 (M) |
10 |
11- Topic 3 |
12 |
13- Topic 3 |
14 |
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15 |
16-
Topic 4 (M) |
17 |
18-
Topic 4 |
19 |
20-
Topic 4 |
21 |
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22 |
23-
Topic 5 (M) |
24 |
25-
EXAM 1 |
26 |
27-
Topic 5 |
28 |
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Oct |
29 |
30-
Topic 5 |
1 |
2-
Topic 6 (M) |
3 |
4-
Topic 6 |
5 |
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6 |
7-
Topic 6 |
8 |
9-
Topic 7 (M) |
10 |
11-
Topic 7 |
12 |
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13 |
14 |
15 |
16-
Topic 7 |
17 |
18-
Topic 8 (M) |
19 |
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20 |
21-
Topic 8 |
22 |
23-
Topic 8 |
24 |
25-
EXAM 2 |
26 |
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Nov |
27 |
28-
Topic 9 (M) |
29 |
30-
Topic 9 |
31 |
1-
Topic 9 |
2 |
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3 |
4
Topic 10 (M) |
5 |
6-
Topic 10 |
7 |
8-
Topic 10 |
9 |
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10 |
11-
Topic 11 (M) |
12 |
13-
Topic 11 |
14 |
15-
Topic 11 |
16 |
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17 |
18- Topic 12 (M) |
19 |
20- EXAM 3 |
21 |
22-
Topic 12 |
23 |
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24 |
25 |
26 |
27 |
28 |
29 |
30 |
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Dec |
1 |
2-
Topic 12 |
3 |
4-
Topic 13 (M) |
5 |
6-
Topic 13 |
7 |
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8 |
9- Topic 13 |
10 |
11
Reading Day |
12 |
13 |
14 |
M=
Murphy Aud.
Topic 1 – How do we find out about the world? (Dr. DiMattio)
Topic 2 – Where are we in the Universe? (Dr. DiMattio)
Topic 3 – Why do heavy things fall and planets revolve? (Dr. Budzinski)
Topic 4 – What is energy? (Dr. Budzinski)
Topic 5 – What is matter? (Dr. Wier)
Topic 6 – What are atoms? (Dr. Brestensky)
Topic 7 – What is light and what are electrons? (Dr. Wier)
Topic 8 – What is life? (Prof. Miller)
Topic 9 – How do living things evolve? (Prof. Miller)
Topic 10 – Why do we resemble our parents? (Dr. Georgian, Biology Dept.)
Topic 11 – How does life use energy? (Dr. Brestensky)
Topic 12 – How is the Earth’s climate regulated? (Dr. Georgian, Biology Dept.)
Topic 13 – How do we view the Universe now? (Dr. DiMattio)
Final
Exam to be announced
Return to Dr. Wier's home page.