Physics 131 Physics
for Biologists I fall 2016
edition…
Physics for Biologists I
Description and
Prerequisites
This
course is intended for biology majors and pre-health care professionals. The
physics topics are very similar to those used in the version of the course
taught at College Park. However, aspects
will be added that tie these topics to the physics at the cellular and
molecular level where thermal energy is dominant. Prerequisites for the course
include:
- One
year of college biology (BSCI 105 and 106 or the equivalent)
- One
semester of college chemistry (CHEM 131 or the equivalent)
- One
year of college mathematics (MATH 130 and 131 or the equivalent --
calculus and an introduction to probability)
Please talk to me if you have any concerns about
prerequisites or anything else
This
is not your parents' physics! This class will focus on the physics relevant to
living things. We will focus on physics at the convergence with biology, where
physical, chemical and biological principles all come into play. A primary
theme for this first semester is the concept of motion.
What do I need to
buy?
An
online WikiBook was developed that you will be able
to read for free. In addition, you need to buy the 6th edition
of the textbook: Physics by Giancoli. Yes this is an older edition but is will do
just fine and costs much less. Lots of
used copies are available for purchase on line.
The answers to most of the problems in this book are available on-line:
These
are good learning tools.
There
is also no lab manual to buy. The lab instructions will be made available
online.
What else do I need
to get?
A
lot of what we'll be doing this term will be on the computer. The readings are
accessible through links on this site. You will also need access to a
spreadsheet, and you will learn to download and use a video analysis program in
labs. You need:
- Access to a computer -- if you have your own laptop or desktop you will be
able to use that. If not, you will have to seek out campus computers that
run the programs we will be using.
You will be invited to share a folder on BOX with the
professor. You will hand in
assignments either as hard copies or as files in BOX.
- A Spreadsheet
– Please use Excel to do calculations and graphs. For submission please save the files as
an Excel 2010 or earlier version.
For those of you who are unfamiliar with spreadsheets, there are a number of good tutorials on the web. These below look particularly appropriate. Many others are easily found by putting "Excel tutorial" into your favorite search engine. We will do our own training on Excel in the first lab.
- A Video Analysis Program -- You will learn how to quantitatively analyze images
and videos. The tool we will use for this will be ImageJ.
This program is freely available, developed for use in biology and
medicine at NIH, and is the professional standard. If you have your own
laptop, we will help you install this in the laboratory period during the
second week of class.
What do I need to
do to succeed in this class?
Here
is a brief outline of what you will need to do throughout the class but please
read carefully the
course details page.
- Do the reading before each lecture and selected labs! – The on-line reading material is closely aligned with
the topics and depth of knowledge expected of you in this course. The readings from the Giancoli textbook are very helpful in clarifying the
concepts and applying the knowledge to problem situations. You can find
the lecture reading assignments on the Schedule
Page, and the Lab pre-readings under Recitation/Labs.
- Attend and participate in all the lectures, recitations,
and labs! -- This is a class very much
about doing, not just about learning facts or equations. In lecture
there will be only
a small amount of lecturing.
Most of the time will be spent on answering questions, doing group
problem solving, and holding class discussions. By actively applying what
you learned in the readings to problems during the lecture time and
recitation and in labs you will gain true ownership of the science…you
will be able to use it. A major part of what you will be learning is how
to talk about and make sense of physics through problem solving with your
classmates and by designing, doing, and analyzing experiments in lab.
- Do the weekly homework! -- While the lecture and recitation is where you will
learn to talk about and make sense of physics through problem solving, the
homework is where you will get to try it out with your classmates on your
own. You are encouraged to work with others. But be careful! If you
work together, DO NOT create a common solution and have everyone copy it.
Once you have worked out a solution together, each person must write it up
separately in your own words. If two solutions are too nearly identical,
neither will get credit! Homework assignments themselves are found on our Homework
Assignment page.
- Keep up!
-- We know that you're busy, and in many other classes you can let things
slide and then catch up for the exam. In this class that will be very
difficult. Each lecture builds on the last, and on the homework from
previous weeks. If you miss too much you may find yourself lost. In
addition, your grade in this class is based on the accumulation of points
in many different categories throughout the term. For details see the
course details page.
Times and Places
|
Event |
|
|
Location |
|
Lecture |
TuTh
9:30-10:45 |
Bldg III Rm 2125 |
|
|
Recitation |
Friday
1:00-5:00 |
|
Bldg III Rm 2215 |
|
Laboratory |
Friday 1:00-5:00 |
|
Bldg II Rm 4012 |
|
Question/Answer |
Wednesday
10:30-11:30 |
|
Bldg I Rm 210 |
Professor Office Hour: Friday
8:30-10AM in adjunct office
Instructors
|
Instructors |
Name |
Room |
Email |
|
Professor |
Marco Colombini |
Bldg
II Adjunt office
|
|
|
uTA |
Elizabeth Wilcox |
ewilcox@terpmail.umd.edu |
|
|
uTA |
Robin Denny |
rkdenny@terpmail.umd.edu |
|
|
|
|
|
Know the policies of the University: http://www.ugst.umd.edu/courserelatedpolicies.html
These include policies on academic integrity, missed
assignments, accessibility, discrimination, absences etc.
The "ph" in physics stands for phun
