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'''Note:''' This page covers MA351 in general. If you wish to create a course page, for the [[Course List]], please see [[Help:Contents]]. | '''Note:''' This page covers MA351 in general. If you wish to create a course page, for the [[Course List]], please see [[Help:Contents]]. | ||
| − | + | [[Category:MA351]] | |
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| − | = | + | =MA351: Elementary Linear Algebra = |
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| − | == | + | == Peer Legacy == |
| − | + | This section contains advice from students who previously took MA351. | |
| + | *Write a comment here. -sign | ||
| − | == | + | == Interesting pages in the MA351 category == |
| − | + | *Linear Equations and Linear Transformations | |
| − | + | **Introduction to [[Matrix]] | |
| + | **[[Matrix Multiplication]] | ||
| + | **[[Inverse of a Matrix]] | ||
| + | **Introduction to [[Linear transformation|Linear Transformation]]s | ||
| + | * Subspaces of <math>R^n</math> | ||
| + | **Definition of [[Subspace]] | ||
| + | **Definition of [[Kernel (linear algebra)|Kernel]] | ||
| + | **Definition of [[Image (linear algebra)|Image]] | ||
| + | **When are vectors [[Linearly Independent]] | ||
| + | **When do vectors form a [[basis]]? | ||
| + | *Orthogonality | ||
| + | **When are vectors [[orthogonal]]? | ||
| + | *Determinants | ||
| + | **What is a [[determinant]] | ||
| + | **What are some [[properties of the determinant]]? | ||
| − | [[ | + | == Semester/Instructor specific pages == |
| + | *[[MA351_(Fall2009MKummini)|MA 351 Fall 2009 Prof. Kummini]] | ||
| + | *[[2009_Fall_Math_351_Baudoin|MA 351 Fall 2009 Prof. Baudoin]] | ||
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| + | ---- | ||
| + | [[Course_List|Back to course list.]] | ||
Revision as of 10:03, 1 September 2009
Note: This page covers MA351 in general. If you wish to create a course page, for the Course List, please see Help:Contents.
Contents
MA351: Elementary Linear Algebra
Peer Legacy
This section contains advice from students who previously took MA351.
- Write a comment here. -sign
Interesting pages in the MA351 category
- Linear Equations and Linear Transformations
- Introduction to Matrix
- Matrix Multiplication
- Inverse of a Matrix
- Introduction to Linear Transformations
- Subspaces of $ R^n $
- Definition of Subspace
- Definition of Kernel
- Definition of Image
- When are vectors Linearly Independent
- When do vectors form a basis?
- Orthogonality
- When are vectors orthogonal?
- Determinants
- What is a determinant
- What are some properties of the determinant?
