Revision as of 08:51, 10 September 2012 by Walther (Talk | contribs)

MA 265: "Linear Algebra", Professor Walther, Fall 2012

If you create a page that belong to this course, please write

[[Category:MA265Fall2012Walther]] 

at the bottom of the page.

OTHERWISE NO CREDIT ! (If you use the "Create a child page" button, this should happen automatically...)


Newsflash

See under [[1]] for a symposium on the writer Jorge Luis Borges (1899-1986) whose work is connected to mathematics and physics. The event (October 3) will feature mathematicians, physicists and writers discussing Borges and his work.




Software requirement

Firefox version 2 is not good enough to see several things on Rhea pages. Use version 3 or higher.

How to get started with Rhea

  • Getting started
    • To start, click the "Help" button above and read what's there.
    • To edit pages, first log in (with your purdue account to create pages. Then click "edit" (under "Page" above) and remember to click "Save Page" after you are done editting.).
    • To get a quick idea what works how, click "edit" on this page to see how to do the things visible on this page.
    • Note that the "edit" mode has a spell-checking feature: look for red-underlined stuff.
  • Creating pages
    • To create a new page named "B" from a page A, go to edit page A and insert the text [[B]]. (Note that "B" is like a web address for a webpage. Each page also has a name, but you can call the link anything (like fancy_title) by typing [[B|fancy_title]] rather than just B. After saving, find the new red link on page A that appeared. When you click it, you'll note you are now on page B (which of course is empty at this point).
    • NOTE: if the "new" link comes out blue, instead of red, you chose a title of an existing page and did not create a new one. The blue link gets you simply to the already existing one. Use distinctive names for your new creations!
    • If you place "Category:MA265Fall2012Walther" enclosed by square brackets on top of a new page it will be parsed by the system as belonging to this course. It can then be searched (for) in a meaningful way.
  • Advanced Rhea techniques
    • You can look at other Rhea pages by clicking "main page" and then "course pages". Especially the ECE pages will get you an idea where one can take Rhea...

WebAssign

  • Q: How does one pay the access fee if one does not have the code straight from the textbook?
    • A: Contact webassign via phone!

What's New

  • write new item here

Course Related Material

  • List here.

Your turn! A bonus point opportunity

Students in MA265 Fall 2011 (Walther) have the opportunity to earn bonus points by contributing a Rhea page on a subject related to linear algebra. To pick a subject, simply write your name next to it. Please no more than one student per subject. Your page will be graded based on content as well as interactions with other people (page views, comments/questions on the page, etc.). The number of links to other courses and subjects will also be taken into account: the more the merrier! Please do not simply copy the lecture notes and do not plagiarize. Read Rhea's copyright policy before proceeding.

For some lovely contributions, see the "honors project" at the end of the page.

Topic Number Topic Description Student Name Deadline
1 Matrix Multiplication and coordinate systems Your Name Here At Final
2 The inverse of a matrix Your Name Here At Final
3 The determinant Your Name Here At Final
4 Linear dependence Your Name Here At Final
5 Basis and dimension of vector spaces Your Name Here At Final
6 Inner products, orthogonality Your Name Here At Final
7 Linear transformations, isomorphisms Your Name Here At Final
8 Eigenvalues and eigenvectors Your Name Here At Final
9 Conic sections Your Name Here At Final
10 Quadric surfaces in 3-space Your Name Here At Final
11 Systems of Differential Equations Your Name Here At Final
12 Linear programming Your Name here At Final
13 Linear Equations/Matrices Your name here At Final

Note: if you want to make a matrix, look at the source code for this page (click "edit") to see the syntax for the following matrix: $ \left(\begin{array}{cccc}1&2&3&4\\5&6&7&8\end{array}\right) $



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Alumni Liaison

Ph.D. 2007, working on developing cool imaging technologies for digital cameras, camera phones, and video surveillance cameras.

Buyue Zhang