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− | + | [[Category:MA265Fall2010Momin]] | |
+ | [[Category:MA265]] | ||
+ | [[Category:linear algebra]] | ||
+ | =Rhea Section for [[MA265|MA 265]] Professor Al Momin, Fall 2010= | ||
+ | Linear Algebra Sections 7-10 | ||
+ | ---- | ||
+ | ==Links== | ||
+ | *[http://www.math.purdue.edu/~amomin/teaching/index.html Course webpage] | ||
+ | *[http://www.math.purdue.edu/academic/courses/MA26500/ Departmental course webpage] | ||
+ | *[https://www.webassign.net/purdue/login.html WebAssign login] | ||
− | + | == NOTE: == | |
− | [[Category:MA265Fall2010Momin]] | + | <div style="background: #eef; border: 1px solid #448; border-left: 4px solid #338; width: 30em; padding: 2em; margin: auto; text-align: center;"> |
+ | If you create a page that belong to this course, please write | ||
+ | |||
+ | <pre>[[Category:MA265Fall2010Momin]] </pre> | ||
+ | at the bottom of the page. | ||
+ | |||
+ | <span style="font-size: 28px;color:red"> OTHERWISE NO CREDIT !</span> | ||
+ | (If you use the "Create a child page" button, this should happen automatically...) | ||
+ | </div> | ||
+ | |||
+ | ==Help Editing this page== | ||
+ | |||
+ | * Read the marvelous [[Media:RheaManual.pdf|Rhea Help Manual]] written by Nate Orlow. | ||
+ | |||
+ | *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 <nowiki>[[B]]</nowiki>. (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 <nowiki>[[B|fancy_title]]</nowiki> rather than just <nowiki>B</nowiki>. 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! | ||
+ | ** Be sure to place <nowiki>"[[Category:MA265Fall2010MominAl]]"</nowiki> on top of a new page. That way it will be parsed by the system as belonging to this course. (If you use click the "Create a child page" button in the left-tab while on this page, this will be done automatically.) | ||
+ | |||
+ | == Topics == | ||
+ | |||
+ | A biography of [[Bernoulli_History| Daniel Bernoulli]] | ||
+ | |||
+ | Write a page about one of the following topics. | ||
+ | |||
+ | * [[MA_265_Chapter_Revies..._Chapter_1_-_Chapter_5|| A course review ]] | ||
+ | * [[2010FallMA265Momin_Linear_Systems|Systems of linear equations]] | ||
+ | * Matrices | ||
+ | ** Matrix Algebra | ||
+ | * Determinants | ||
+ | ** [[Sections 3.1 - 3.2|Chapter 3: A Review of Sections 1 and 2]] | ||
+ | * [[???? |Vector spaces ]] | ||
+ | ** [[Elementary_Linear_Algebra_Chapter_4:_Real_Vector_Spaces| A review of vector spaces]] by Michael Munizzi. | ||
+ | ** [[ Determinant_Transpose_Proof|An argument supporting the formula det(A) = det(A^T)]], derived from the cofactor expansion formula (see the remarks on that page). | ||
+ | * Inner Products | ||
+ | ** An argument that [[ DimVplusdimVorthisn | the dimension of a subspace and the dimension of its orthogonal complement add to the dimension of the ambient vector space]] | ||
+ | * [[Linear_algebra_(eigenvalues_and_eigenvectors)|Eigenvalues/Eigenvectors]] | ||
+ | * [[Linear_algebra_(complex_numbers)|Complex Numbers]] | ||
+ | |||
+ | The rest of the content of this page is up to you! |
Latest revision as of 06:12, 11 July 2012
Contents
Rhea Section for MA 265 Professor Al Momin, Fall 2010
Linear Algebra Sections 7-10
Links
NOTE:
If you create a page that belong to this course, please write
[[Category:MA265Fall2010Momin]]
at the bottom of the page.
OTHERWISE NO CREDIT ! (If you use the "Create a child page" button, this should happen automatically...)
Help Editing this page
- Read the marvelous Rhea Help Manual written by Nate Orlow.
- 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!
- Be sure to place "[[Category:MA265Fall2010MominAl]]" on top of a new page. That way it will be parsed by the system as belonging to this course. (If you use click the "Create a child page" button in the left-tab while on this page, this will be done automatically.)
Topics
A biography of Daniel Bernoulli
Write a page about one of the following topics.
- | A course review
- Systems of linear equations
- Matrices
- Matrix Algebra
- Determinants
- Vector spaces
- A review of vector spaces by Michael Munizzi.
- An argument supporting the formula det(A) = det(A^T), derived from the cofactor expansion formula (see the remarks on that page).
- Inner Products
- Eigenvalues/Eigenvectors
- Complex Numbers
The rest of the content of this page is up to you!