MAT 331 Linear Algebra - Utica University

MAT 331 Linear algebra

Welcome to the home page of Linear Algebra at Utica College. You can find all the documents for this course on this page. Please check this page frequently for homework assignments and announcements.

General Information

Instructor: Xiao Xiao
Email: xixiao@utica.edu
Office: 109 DePerno Hall
Office hour: MWF 10:30am-11:30am, TR 11:15am-12:00pm or by appointment or by visit.
Course notes: You can download them in Canvas.
Class time: MWF 10:30am-11:20am at Hubbard Hall 212
Useful Links: Canvas

Course Information and Policies

Textbook: We will not use a textbook, but rather a task-sequence adopted for inquiry-based learning. The task-sequence is written by me, adapted from notes of David Clark, and they are available at Canvas. You are expected to work out all the tasks as the semester progresses.

Course description: In this course, we will discussed vectors in three spaces, which will lead to general abstract notion of vector spaces. We will cover the basic theories of linear combinations, linear independence, and dimension. As computational tools, we will also discuss solving system of linear equations, matrices and determinants.

Learning objectives: In accordance to the learning goals of the Department of Mathematics of Utica College, MAT 331 will reinforce students' ability of
- Reading and analyzing mathematical proofs.
- Writing mathematical proofs.
- Formulating and solving mathematical problems.
- Communicating mathematics in written form.

Class organization: This course will likely be different from any other math course you have taken before. As an instructor, I will not be lecturing most of the time although I love lecturing very much. Scientific research shows that most people do not learn mathematics by listening, instead, they learn by doing it! I am sure you have said to yourself before "It looked so easy when the professor was doing it, but now I am confused when I have to do it by myself." Why? Because the knowledge belongs to your professor and does not belong to you. You do not learn the knowledge simply by hearing it once or twice from somebody else. In order for you to have a more thorough understanding of basic group theory, we will incorporate ideas from an educational philosophy called the Moore method (after R. L. Moore). More precisely, we will use the modified Moore method, also known as inquiry-based learning. Most of the time during the class, students will be presenting proofs of theorems that they have produced by themselves, and not by other people or textbooks. A significant portion of your grade will be determined by how much mathematics you produce.

You should not look to resources outside the context of this course for help. That is, you should not be consulting the web, other texts, other faculty, or students outside of our course. On the other hand, you may use each other, the course notes, me, and your own intuition.

Regular attendance is expected and is vital to success in this course, but you will not explicitly be graded on attendance. Yet, repeated absences may impact your participation grade.

Homework

Daily Homework: It will be assigned each class period, and students are expected to complete (or try their best to complete) each assignment before walking into the next class period. All assignments should be carefully, clearly, and cleanly written. Among other things, this means your work should include proper grammar, punctuation and spelling. You will almost always write a draft before you write down the final argument, so do yourself a favor and get in the habit of differentiating your scratch work from your submitted assignment.

When you write up your Daily Homework, I strongly suggest that you use filler paper, such as this. Write one problem per page. There is a very good reason for doing this, which I shall explain later in the Portfolio section.

Each Daily Homework will be submitted twice. The first time you will submit at Canvas before 12:00pm on the day before we meet in class. For example, a Daily Homework assigned on Monday will be discussed on Wednesday, so you should submit your draft by Tuesday 12:00pm at Canvas. I will review your draft and give suggestions and comments within 10 hours (namely before 10:00pm of the same day). You can read the comments and make necessary changes before you come to class on the next day. Your Daily Homework will be finished by hand and paper so the best way to do this is to take a picture of your writings and submit it as attachment on Canvas. Students must upload the draft in PDF format. You can use this website to convert JPG format to PDF format. Or you can install CutePDF (in Windows) to convert any format to PDF format. In Mac, you can just choose "Print" and then on the bottom left corner choose "Save as PDF".

The Daily Homework will generally consist of solving exercises or sometimes proving a theorem from the task-sequence. On the day that a homework assignment is due, the majority of the class period will be devoted to students presenting a subset (maybe all) of the problems that are due that day. At the end of each class period, students should submit their write-ups for all of the works that are due that day. Daily Homework will be graded on a check-system. Students are allowed (in fact, encouraged!) to modify their written proofs in light of presentations made in class; however, you are required to use the felt-tip pens provided in class.

Weekly Homework: In addition to the Daily Homework, you will also be required to submit two formally written problems each week. You may choose any two problems marked with * that were turned in during a given week to submit the following week. For example, you may choose any two problems marked with a * that were turned in during week 2 for the second Weekly Homework assignment. These problems are due in week 3. The Weekly Homework assignments are subject to the following rubric:

Grade	Criteria
4	This is correct and well-written mathematics!
3	This is a good piece of work, yet there are some mathematical errors or some writing errors that need addressing.
2	There is some good intuition here, but there is at least one serious flaw and/or there are too many grammatical mistakes.
1	I don’t understand this, but I see that you have worked on it; come see me!
0	I believe that you have not worked on this problem enough or you didn’t submit any work or the work is not original and came from the internet or some other external source.

Any Weekly Homework problems that receive a score of 1, 2, or 3 can be resubmitted within one week after the corresponding problem was returned to the class. The final grade on the problem will be the average of the original grade and the grade on the resubmission. Please label the assignment as “Resubmission” on top of any problem that you are resubmitting and keep separate from any other problems that you are turning in.

Unlike a traditional Moore method course, you are allowed and encouraged to work together on homework. However, each student is expected to turn in his or her own work. In general, late homework will not be accepted. However, you are allowed to turn in up to 3 homework assignments (daily or weekly) late with no questions asked. Unless you have made arrangements in advance with me, homework turned in after class will be considered late. Your overall homework grade is worth 15% of your final grade.

Presentations

Though the atmosphere in this class should be informal and friendly, what we do in the class is serious business. In particular, the presentations made by students are to be taken very seriously since they spearhead the work of the class.

The problems chosen for presentations will come from the Daily Homework. After a student has presented a problem that the class agrees is sufficient, I will often call upon another student in the audience to recap what has happened in the proof and to emphasize the salient points.

In order to make presentations go smoothly, presenters need to write out the proof in detail and go over the major ideas and transitions, so that he or she can make the proof clear to others.

The purpose of presentations is not to prove to me that the presenter has done the problem. It is to make the ideas of the proof or the solution clear to the other students.

Presenters need to write in complete sentences, using proper English and mathematical grammar. Here are some suggestions on how to write a proper proof.

Fellow students are allowed to ask questions at any point and it is the responsibility of the presenter to answer those questions to the best of his or her ability.

Since the presentation is directed at the students, the presenter should frequently make eye contact with the students in order to address questions when they arise and also be able to see how well the other students are following the presentation.

Confusions and mistakes are very common when learning new mathematics and they should be handled positively to stimulate your thinking. In light of this idea, in each presentation, the presenter must do one or both of the following:
- ask at least one question that he or she does not know the answer and then the whole class will discuss about it or
- talk about at least one mistake that he or she made while working on the problem, how he or she understand that mistake, and then how to correct the mistake.

Presentations will be graded using the rubric below.

Grade	Criteria
2	Completely correct and clear proof or solution.
1	Proof has technical flaws, some unclear language, or is lacking some details..
0	You were completely unprepared.

However, you should not let the rubrics deter you from presenting if you have an idea about a proof that you would like to present, but you are worried that your proof is incomplete or you are not confident your proof is correct. You will be rewarded for being courageous and sharing your creative ideas! Yet, you should not come to the board to present unless you have spent time thinking about the problem and have something meaningful to contribute.

In each class, a sorted class list produced by a computer program will be shown before presentations. Students whose ranks are high in the list have higher priority to choose problems. The sorted list is not produced randomly. It takes three factors into consideration:
- The number of past presentations: the more one presented in the past, the lower one is on the list.
- The quality of past presentations: the better one presented in the past, the lower one is on the list.
- Recentness of past presentations: the more recently one has presented, the lower one is on the list.

A student can choose not to present on a day when he or she has a high rank in the sorted list. This is called a "pass". No one shall "pass" for two consecutive classes. If you need help to prepare presentations, see me during office hours as soon as possible.

In order to receive a passing grade on the presentation portion of your grade, you must present at least three times prior to each exam (2 midterms and 1 final) for a total of at least nine times during the semester. Your grade on your presentations, as well as your level of interaction during student presentations, are worth 20% of your overall grade.

Portfolio

The object is to maintain a current account of the work we do. Every task that we encounter in the class is to be included in your portfolio. Each entry in the portfolio is intended to be complete and polished. Do not include scratch work.

Each of us will develop her or his own mathematical voice in this class. Not every solution will look the same. However, the form of the portfolio should be fairly standardized. It will include a cover sheet with your name on it. Begin each write-up with the statement of a task followed by your solution or proof. Some write-ups will be two lines long, others may be several pages. You can use the filler paper (the same you use for Daily Homework) to write up your solution. If you have done a perfect job in your Daily Homework, then you can just insert the page into your portfolio. Though in most cases, you will have to improve your original work.

The portfolio will be collected three times: Wednesday, September 28, 2016, Wednesday, November 2, 2016 and Friday, December 16, 2016, at the final exam.

Because you will have already know whether your solutions or proofs are correct or not by discussing them during presentations and by having them graded as Daily and Weekly Homework, portfolios will be graded solely on completeness and clarity. Clear and complete portfolios will earn a check mark, all others will be asked to resubmit within a week. Keep your portfolio current as you work, it will be too much effort to get it all organized and collated the night before it is due.

At the end of the semester, portfolios with three check marks will earn the full 15% possible. Two check marks will earn 10%, one check mark will earn 5% and no check marks will earn 0%.

In the end, you will walk away with an organized and complete collection of your work on which you can look back with pride.

Examinations

There will be two midterm exams and one cumulative final exam. Each exam is worth 15% of your overall grade and may consist of an in-class portion and a take-home portion. The in-class portions of the two mid-term exams are tentatively scheduled for Wednesday, September 28, 2016 and Wednesday, November 2, 2016, and the in-class portion of the final exam is Friday, December 16, 2016. Make-up exams will only be given under extreme circumstances, as judged by me. In general, it will be best to communicate conflicts ahead of time.

Talks

Time: 4:00pm-5:00pm, Thursday, Oct 20

Location: Hubbard Hall 205

Speaker: Dr. Caitlin Cunningham (Le Moyne College)

Title: Smelly English Birds: Principal Components Analysis at Work

Abstract: Principal Components Analysis (PCA) is a data-reduction and data-visualization technique used in statistics to simplify complex data sets. In this talk, we present three different research projects - studying the relationship between the sense of smell and sexual orientation; determining the effect of climate change on migratory bird arrival dates; and examining the comprehensibility of accented English depending on the speaker's origin - to illustrate how principal components analysis assists in the understanding of and provides insight to the questions being asked. In addition to describing the use and interpretation of the technique, this talk will also give the mathematical foundation of PCA, which involves finding an orthogonal transformation of a co-variance matrix through the use of eigenvalues. This talk assumes no previous knowledge of statistics. While a familiarity with linear algebra would add to the enjoyment of this talk, it is not required.

Time: 4:00pm-5:00pm, Thursday, November 17

Location: Hubbard Hall 205

Speaker: Steve Oliveira

Title: Game Theory: To Bet or Not to Bet

Abstract: In this talk we will be discussing 2-person, 0-sum games. We will start by giving a basic example of a game theory problem and, by using props, explain how to solve it. Following the example, we will give a basic definition of game theory and how 2-person, 0-sum games work. In closing, we will see how different games, like poker, work.

Journals

Every week, you need to write a 200-300 word narrative summarizing what you have learned in the past week. Use your own words to describe the main ideas. Use as few mathematical symbols as possible. Your week N journal should be accessible for students like you who have successfully finished all the work in the previous N-1 week and about to start week N. Your weekly journal shall be submitted electronically at Canvas. Once in a while, you will also be given some topics that you need to discuss in your weekly journal.

Evaluation

Your final grade will be determined by the scores of your homework, presentations/participation, portfolio, journals, and exams.

Category	Weight
Homework	15%
Presentations/Participation	20%
Portfolio	15%
Journals	5%
Midterm Exam 1	15%
Midterm Exam 2	15%
Final Exam	15%

Dishonesty

I have zero tolerance on dishonesty. Any forms of dishonesty such as copying homework or cheating on quizzes and examinations, will result in zero credit for that particular assignment, and will be reported to the Academic Standards Committee. The highest penalty a student can receive is "F for cheating" for the course. There might be additional sanctions by the Academic Standards Committee such as dismissal from the college.

Disability

Any student who has need of special accommodations in this class due to a documented disability should speak with me as soon as possible, preferably within the first two weeks of class. You should also contact Kateri Henkel, Director of Learning Services in the Academic Support Services Center (315-792-3032 or khenkel@utica.edu) in order to determine eligibility for services and to receive an accommodation letter. We will work with you to help you in your efforts to master the course content in an effective and appropriate way.