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Math 215
Linear Algebra
General Information | Schedule | Homework |
- Buy a cheap copy of A Course in Linear Algebra (Dover Books on Mathematics) by David B. Damiano, John B. Little 089 - A gently used book at a great low price. Free shipping in the US. Let the stories live on.
- A Course in Linear Algebra The authors define general vector spaces and linear mappings at the outset and base all subsequent developments on these concepts. Proofs and abstract problem-solving are introduced apgebra the start, offering students an immediate opportunity to practice applying what they’ve learned.
Books and Online Resources |
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We will not follow an official textbook. Instead, I will write course notes that I will post here: Current Notes.
For an excellent overview of the core ideas of Linear Algebra (with high quality visualizations), I strongly recommend the video series Essence of Linear Algebra by 3Blue1Brown.
In addition, I encourage you to consult other books and online resources to help learn the material, as these sources provide different perspectives on the subject. For linear algebra books, I recommend the following:
- Linear Algebra by Jim Hefferon. Available online.
- A Course in Linear Algebra by David B. Damiano and John B. Little.
We will also spend a significant portion of time learning how to write mathematical proofs. For additional references on mathematical writing and notation, I recommend the following:
- Book of Proof by Richard Hammack. Available online.
- Mathematical Reasoning: Writing and Proof by Ted Sundstrom. Available online.
- How to Prove It by Daniel Velleman.
For general advice on making the transition from a computational perspective of mathematics to a more conceptual understanding (including how to think logically and how to write mathematics), consider reading the following:
- How to Think Like a Mathematician by Kevin Houston.
- How to Study as a Mathematics Major by Lara Alcock.
Administrative Information |
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Instructor | Joe Mileti |
Office | Noyce 2514 |
Office Hours | Monday 9:30 - 10:30 Tuesday 3:15 - 4:30 Wednesday 1:30 - 2:30 Thursday 9:00 - 10:30 Also By Appointment |
miletijo ~at~ grinnell ~dot~ edu | |
Phone | 641-269-4994 |
Class Time | MWF 3:00 - 3:50 |
Classroom | Noyce 2243 |
Course Mentors | Yuki Takahashi |
Mentor Session Room | Noyce 2243 |
Mentor Session Times | Tuesday 5:00 - 6:00 Thursday 4:00 - 5:00 Sunday 5:00 - 6:00 |
Course Objectives |
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- Develop the ability to apply conceptual ideas in order to solve problems, and appreciate the importance of how the relevant theoretical ideas can simplify (or allow one to completely avoid) complex computations.
- Learn how to interpret and use mathematical language properly, with an emphasis on quantifiers (there exists, for all), connectives (and, or, not, implies), and the role of definitions.
- Learn how to interpret and use common mathematical notation involving sets and functions.
- Learn how to read mathematical exposition with the goal of understanding, rather than with the aim of solving a narrow class of rigid problems.
- Understand the logic of mathematical arguments, different ways to prove a statement, and how to construct your own proofs.
- Learn some of the fundamental concepts of linear algebra: spans, linear transformations, matrices, solving linear systems, vector spaces, subspaces, dimension, linear independence, determinants, and eigenvalues/eigenvectors.
- Develop an appreciation for the power and elegance of mathematical structures (such as vector spaces).
Homework |
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There will be two different types of homework assignments:
- Problem Sets will be due on most Mondays and Fridays. They contain a mixture of computational exercises, explanations, and short proofs.
- Writing Assignments will be due on most Wednesdays, and will also be posted to the course webpage. These problems are more conceptual or theoretical, and will require significant explanation. Your solutions should consist of careful arguments written in complete sentences (augmented by mathematical symbolism where appropriate). A major goal of these problems is to teach the fundamentals of mathematical language and mathematical inferences, along with proper use of terminology and notation. As a result, they will be graded at a high standard involving much more than getting the 'correct answer'. Take the time to write and revise these as you would in a paper in other courses.
Policies for all homework assignments:
- Homework assignments and solutions will be posted to the course webpage.
- Please take the time to write your solutions neatly and carefully! All homework assignments consisting of more than one page must be stapled.
- Homework is due at the beginning of class (i.e. at 3:00pm). If you are late for class, but turn an assignment in when you enter, your homework will be subject to a 10% penalty. Unless you have a serious emergency that you bring to my attention before a homework assignment is due, assignments turned in after class will not be accepted for credit.
- Your lowest two Problem Set scores and your lowest Writing Assignment score will be dropped.
If you want to learn how to present your work professionally, as well as keep digital records, I recommend learning how to type your solutions. LaTeX is a wonderful free typesetting system which produces high-quality documents at the cost of only a small amount of additional effort (beyond the nontrivial start-up cost of learning the fundamentals). If you plan to do any kind of mathematical or scientific writing in the future, you will likely use LaTeX, so it is worth your time to familiarize yourself with it. See Jim Hefferon's LaTeX for Undergraduates and his LaTeX Cheat Sheet for the basics. Also, feel free to ask me questions about how to use LaTeX, and/or to send you the LaTeX file for homework assignments.
Exams |
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There will be three in class exams and a scheduled three hour final exam.
In class exams dates: February 19, April 1, and April 29.
Final exam date: Thursday, May 14 at 9:00am
Grading |
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Percentage | |
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Problem Sets | 15% |
Writing Assignments | 10% |
In Class Exams | 15% each |
Final | 25% |
Participation | 5% |
Academic Honesty |
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Consult the general Grinnell College policy on Academic Honesty and the associated booklet for general information.
Homework: If you enjoy working in groups, I strongly encourage you to work with others in the class to solve the homework problems. If you do collaborative work or receive help form somebody in the course, you must acknowledge this on the corresponding problem(s). Writing 'I worked with Sam on this problem' or 'Mary helped me with this problem' suffices. You may ask students outside the course for help, but you need to make sure they understand the academic honesty policies for the course and you need to cite their assistance as well. Failing to acknowledge such collaboration or assistance is a violation of academic honesty.
If you work with others, your homework must be written up independently in your own words. You can not write a communal solution and all copy it down. You can not read one person's solution and alter it slightly in notation/exposition. Discussing ideas and/or writing parts of computations together on whiteboards or scratch paper is perfectly fine, but you need to take those ideas and write the problem up on your own. Under no circumstances can you look at another student's completed written work.
You may look at other sources, but you must cite other books or online sources if they provide you with an idea that helps you solve a problem. However, you may not specifically look for solutions to homework problems, and you may not solicit help for homework problems from online forums.
Exams and Final: You may neither give nor receive help. Books, written notes, computers, phones, and calculators are not permitted at any time during a testing period.
Disabilities |
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I encourage students with documented disabilities to discuss appropriate accommodations with me. You will also need to have a conversation with, and provide documentation of your disability to, the Coordinator of Disability Resources, John Hirschman, located on the third floor of Goodnow Hall (x3089).
Religious Observations |
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Stanford Linear Algebra
I encourage students who plan to observe holy days that coincide with class meetings or assignment due dates to consult with me as soon as possible so that we may reach a mutual understanding of how you can meet the terms of your religious observance and also the requirements for this course.
Unsolicited Advice |
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Linear Algebra Calculator
- Actively read the course notes. Read them once before class in order to become familiar with the core concepts. Read them again, both slowly and deliberately, after class in order to build fluency. Work to understand both the computations and the theoretical discussions. Set aside time to simply think about the material and how it fits together, in addition to the time you give yourself to work on the homework. Spend your time trying to internalize rather than memorize.
- Compared to Calculus courses, a much smaller part of each class will be spent on computational examples and a much larger part of each class will be spent on the conceptual and theoretical aspects of the material. You will be expected to understand the derivations and proofs at a level far beyond the ability to parrot them back to me.
- When graded homework is returned, spend time reading the comments and reflecting on how you can improve your writing. Engaging with direct feedback on your work is one of the fastest ways to make progress. Also, read the posted solutions and compare them to your own. Examine and learn from how the solutions differ from yours in ideas, language, and organization.
- Much of your learning will happen outside of class. Although the amount of time necessary to understand the material varies, most students should anticipate spending at least 12 hours a week devoted to the course. In other words, you should schedule at least 9 hours outside of class for homework and independent reading/thinking. Learning math requires practice, patience, and endurance.
- I really enjoy interacting with students. Please come to my office hours when you want assistance! To use our time together most effectively, it helps if you have grappled with the ideas and you bring some of your scratch work and attempts. One of the most difficult parts of your mathematical education is learning how to transition from having no idea, to obtaining vague hunches, to seizing on key ideas, to writing correct proofs. If you bring your ideas and scratch work, we can focus on how to help you manage these transitions.