MATH 290 (Old: 232), Linear Algebra
Fall 2006

August 09, 2006

Bryan Smith

Contents

1  Introduction
2  Course Information
    2.1  Textbook
    2.2  Calculator
    2.3  Basic Information
        2.3.1  Logistics
    2.4  Day to Day Structure
    2.5  Examinations
    2.6  Final Examination: Friday December 15 at 8:00 A.M.
    2.7  Writing Projects
    2.8  Homework
    2.9  Reading
    2.10  Course Information Updates
    2.11  Total Points
    2.12  First Graded Homework Assignment
3  Math 290 Writing Projects                                Grading Rubric
    3.1  Writing Guidelines

1  Introduction

The prerequisite for this course is MATH 181 (Old: 122), second semester calculus. This means you should already be familiar with the basic methods and techniques for thinking about and solving mathematical problems. Although this is a course in algebra that focusses on "linear spaces" (and calculus focusses on a different area of mathematics - analysis), we will see that there are many examples of linear spaces from the differential and integral calculus. In fact there are examples of linear algebra almost everywhere you look: physics, chemistry, economics, and computer science to name just a few. Unfortunately most of our time will be spent learning linear algebra with little remaining to explore these applications.
For an official description of this course, see MATH 290 Syllabus[4].
Linear algebra is the first "proof-based" course offered in the University of Puget Sound mathematics curriculum and serves as the gateway course to upper-division mathematics. In addition, it meets the university's "Writing in the Major" requirement. This means there will be at least as much focus on providing detailed written explanations of why the mathematical tools of linear algebra work as on the problem-solving strategies used to determine when, where and how to use these strategies. Hence, you are expected to provide clear justifications for each and every logical step in your Writing Projects. I go into more detail about these projects, which are actually writing assignments below.
By the end of the semester, you should have learned to
The best way for all this to happen is if you and I work as a team. And in order to do that efficiently, I need to know how you learn. For example, are you a visual learner? Do you need an abstract explanation before specific examples make sense or do you find that the only way to understand something abstractly is to first see lots of examples? Are you highly self-motivated or do you need someone to "force" you to keep up, do homework, etc. Are you too shy to work in a study group or are you so driven that no one will work with you? The more I know about you and about your "learning styles" the better I can tailor the class to help you learn. Hence, your first assignment (2.12) is to send me, by email, an analysis of your learning style and what classroom methods have worked best (and worst) for you in the past. See below for more details of this assignment.
On the other hand, for you to learn well, you need to do some things for me. For example, the more actively you participate in the material the better you will learn. This includes speaking up in class when you don't follow something I've said, being ready for class, practicing the concepts by doing homework, discussing the ideas with other students, and using efficient study techniques (as noted above, "How to Study" [5] is an excellent resource for study techniques).
Below is an outline for one way to run this course. I have used this structure before and it has worked well, but it might not be the best one for this particular class. So read it over and see if the tests, homework, reading expectations, et cetera are set up in a way that will help you learn the material. We can discuss making changes during the first week of class. Hopefully we can find a course structure that will work well for everyone.



2  Course Information

2.1  Textbook

The textbook is A First Course in Linear Algebra, version 0.80, by Robert A, Beezer, ©2006, and is published by Professor Beezer under the GNU Free Documentation License rather than by a commercial publishing house.
This means many things that will benefit you, the first is that the entire book can be found online at  linear.ups.edu  (be sure to grab the correct version!) and the second is that I can supply you with a printed copy for Kinko's printing cost (approximately $35 - $40). This cost is low because we will print a large number of copies. It will cost about twice as much to print a single copy in a separate run. I strongly discourage you from printing your own copy.
Since this is likely to be your first exposure to proof-based mathematics, you should also consider buying one of the many books on "how to do proofs". I recommend "The Nuts and Bolts of Proofs" but one of the other books listed below might appeal to your learning style better. The links point to Amazon.com but you might find better prices elsewhere on the web.

2.2  Calculator

I require a calculator for this course. It must be able to perform the following matrix operations: row operations, reduced row echelon form, transpose, determinant, and eigenvalues/eigenvectors. I will allow the calculator to be used on some examinations but will not allow its use for some problems.
I do not care what calculator you use but I am most familiar with Texas Instrument machines, particularly the TI-86. If you do not have a manual for your calculator, you should be able to find one on the internet - for example at
http://education.ti.com/us/product/tech/86/guide/86guideus.html. [6] Be sure to see the department's Calculator Policy [3] for more information on calculator use.

2.3  Basic Information

You can find information pertinent to all of my classes at the link below and, once there, information specific to this class by clicking on the Math 290 link.
http://math.ups.edu/~bryans/ [1]

2.3.1  Logistics

Because of the construction on Thompson Hall, the rooms for my office and our class might change during the semester. Currently those rooms are as listed below.
Professor Bryan Smith(Temp) Thompson 321E879-3562 bryans[at]ups.edu
Office HoursTuesday 2:00 - 2:50 P.M.
Wednesday 3:00 - 4:30 P.M.
Friday 1:00 - 1:50 P.M.
Classroom / time Thompson 139M,T,W,F 10:00 - 10:50 A.M.
I am also available to meet at other times. If you have trouble meeting during office hours please make an appointment for a better time.

2.4  Day to Day Structure

The class weeks will be typically be structured as follows.
Monday, Wednesday, Friday
These days will be devoted to lectures. Very little time, if any, will be given for questions.
Monday
On test weeks, Monday during class will be a review session. If you request, I am willing to consider, on a trial basis, having an evening office hour.
Tuesday
All examinations are scheduled for Tuesday.
On weeks when there is no examination, Tuesday will be devoted to questions and discussions about the course material.

2.5  Examinations

There will be five (5) 100 point, one hour, in-class examinations and I will drop the lowest score. Make-up examinations are occasionally granted but require that arrangements are made well before the exam. You should not expect all examination questions to closely mimic textbook examples or assigned homework problems. On the other hand, you should expect some exam questions to be similar to material that can be found in the textbook.
Examination One Tuesday September 12
Examination Two Tuesday October 3
Examination Three Tuesday October 24
Examination Four Tuesday November 14
Examination Five Friday December 15, 8:00 A.M. (With the Final Exam.)

2.6  Final Examination: Friday December 15 at 8:00 A.M.

The final examination and the fifth regular examination will both take place during this two (or three) hour period. The final examination portion will be comprehensive. The final cannot be rescheduled so do not schedule plane flights (or anything else) that will conflict with it.

2.7  Writing Projects

There will be a writing project assigned for each week we don't have an examination. These projects are designed to help you both better understand the current topic and develop the writing skills necessary to meet the university's Writing in the Major requirement. They will be graded both for mathematical content and for written presentation using the grading rubric on the last page of this document. I will collect these projects at the beginning of class on Friday. Note:

2.8  Homework

I expect you to work a large number of the homework exercises in the textbook. I will provide feedback on these exercises during our scheduled discussion sessions but, since I will not be collecting them, I am making it your responsibility to work enough exercises and ask enough questions to ensure you understand the material.

2.9  Reading

It is very important that you read the material at least twice. Once before and once after it is discussed in class. It is also important that you read correctly. Mathematics requires that you read slowly and with a pencil and paper at hand. (See "How to Study"[5] on the course webpage for more details.)
Currently I plan on providing some motivation for doing the reading by including the textbook's "Reading Questions" in your grade. If the class agrees this is a good idea then each section's reading questions will be due, by email, at 8:00 A.M. on the morning we cover that material in class. When you submit your answers you must have "290" and your name in either the subject line or body of your email - preferably the first line.
As an additional ongoing assignment, please write down the topic in each section that you find hardest to understand and bring it to the class when we discuss that section. I will poll a number of students for these topics and focus the lecture on the results. This will let us use our limited time on the topics that need the most discussion. Of course, this means you will need to rely on your reading skills for the more straight-forward material since you are responsible for understanding all the topics in the sections we cover.

2.10  Course Information Updates

If you wish, I will post (and update) a grade report on your current standing in the class on my university web page. You should keep track of your grades on the various assignments and check them against these reports. If there are any discrepancies they should be dealt with immediately.
To have your information posted you need to print your name, the class (MATH 290), and a code on a sheet of paper. Then sign the paper and physically hand it to me. The code is to be a sequence of up to 23 symbols I can type on a keyboard.

2.11  Total Points

 
Homework 40%
Reading Questions5%
Examinations 44%
Final Examination 11%

2.12  First Graded Homework Assignment

(Due Friday September 1 at 5:00 P.M.)
  1. Look over both my university web page http://math.ups.edu/~bryans/ [1] and the course webpage for MATH 290 you'll find there.
  2. Send an e-mail message to me at bryans [at] ups.edu that contains the information below. Make sure the course number, 290, and your name are in the "Subject" line.
    1. Tell me your major, if you have one. If not, mention those subjects that interest you the most.
    2. Write a paragraph or two detailing your personal learning style. Include any classroom techniques you have found that enhance or block your learning.
    3. Tell me how much time you expect to spend each week studying for this class.

References

[1]
Bryan Smith's Homepage
http://math.ups.edu/~bryans/
[2]
Math 290A Course Webpage
http://math.ups.edu/~bryans/Current/Fall_2006/290Index_Fall2006.html
[3]
Department Calculator Policy
http://www.math.ups.edu/info/calcpolicy.pdf
[4]
Department Syllabus for MATH 290
http://www.math.ups.edu/~matthews/Syllabi/MA290Syllabus.pdf
[5]
William Rapaport's "How to Study"
http://www.cse.buffalo.edu/~rapaport/howtostudy.html
[6]
TI-86 Manual
http://education.ti.com/us/product/tech/86/guide/86guideus.html
[7]
"Proofs and Fundamentals: A First Course in Abstract Mathematics", Bloch
http://www.amazon.com/exec/obidos/ASIN/0817641114/
[8]
"The Nuts and Bolts of Proofs", Antonella Cupillari
http://www.amazon.com/exec/obidos/tg/detail/-/0120885093/
[9]
"Thinking Mathematically", Mason/Burton/Stacey
http://www.amazon.com/exec/obidos/ASIN/0201102382/
[10]
"How to Read and Do Proofs", Solow
http://www.amazon.com/exec/obidos/ASIN/0471406473/
[11]
"How to Prove It: A Structured Approach", Velleman
http://www.amazon.com/exec/obidos/ASIN/0521446635/
[12]
"Mathematical Thinking: Problem-Solving and Proofs", West and D'Angelo
http://www.amazon.com/exec/obidos/ASIN/0130144126/

3  Math 290 Writing Projects                                Grading Rubric

Points Logic and Mathematics
5 Arguments are correct, complete and without inappropriate material.
4 Arguments have one minor error, omission or inappropriate inclusion.
2 Arguments have two minor errors, omissions or inappropriate inclusions.
0 Arguments are more seriously flawed.
Points Use of Terminology and Notation
3 All technical terms, concepts and notation are used correctly.
2 Arguments have one lapse in terminology and notation
1 There are minor problems with terminology or concepts.                      
0  There are major problems with terminology or concepts.
Points Written Presentation
2 Follows citation requirements and all other writing guidelines.                       
1 Follows almost all of the guidelines with only one or two minor lapses.
0 Has more lapses in following the guidelines.

3.1  Writing Guidelines

It is best to think of these writing projects as officially assigned papers in which you completely explain and justify your analyses of the problems. You may work with others in solving these problems but there is to be no collaboration on the written exposition of the solutions. In addition I expect your papers to be


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