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==Top Pages==
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==The Basics==
*[[Linear_Algebra_Resource|Basic Concepts in Linear Algebra]]
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*[[Jacobian|Jacobians and their Applications]], by [[Math_squad|Math Squad]] member [[user:ruanj|Joseph Ruan]]
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* A tutorial about Bases, by [[Math_squad|Math Squad]] member [[user:ruanj|Joseph Ruan]]:
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**[[Basis_Explanations_S13 | What is a  Basis? (going beyond the introductory level) ]]
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**[[Basis_Problems| Basis Example Problems specifically with polynomials]]
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**[[Change_of_Bases| Change of Basis]]
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==Other Pages==
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*Linear Equations and Linear Transformations
 
*Linear Equations and Linear Transformations
 
**Introduction to [[Matrix]]
 
**Introduction to [[Matrix]]
**[[Matrix Multiplication]]
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**[[Matrix Multiplication|Matrix multiplication Version 1]] and [[Matrix_multiplication_MA265F10Walther|Version 2]]
**[[Inverse of a Matrix]]
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**[[Inverse of a Matrix|Inverse of a Matrix Version 1]] and  [[Inverse_MA265F10Walther|Version 2]]
 
**Introduction to [[Linear transformation|Linear Transformation]]s
 
**Introduction to [[Linear transformation|Linear Transformation]]s
 
* Subspaces of <math>R^n</math>  
 
* Subspaces of <math>R^n</math>  
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**When are vectors [[orthogonal]]?
 
**When are vectors [[orthogonal]]?
 
*Determinants  
 
*Determinants  
**What is a [[determinant]]
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**What is a [[determinant]].
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**Another intro to [[On_Determinants|Determinants]]
 
**What are some [[properties of the determinant]]?
 
**What are some [[properties of the determinant]]?
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==Beyond the Basics==
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*[[DimVplusdimVorthisn|Dim(V) + Dim(Vorthogonal)=n]]
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*[[Determinant_Transpose_Proof|Proof that transposing a matrix does not change its determinant]]
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*[[Inner_Products_MA265F10Walther|Inner products and orthogonality]]
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*[[Hint_-_The_Least_Squares_Solution|Least Squares Solution (the  formula)]]
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*[[Jacobian|Jacobians and their Applications]], by [[Math_squad|Math Squad]] member [[user:ruanj|Joseph Ruan]]
 +
* A tutorial about Bases, by [[Math_squad|Math Squad]] member [[user:ruanj|Joseph Ruan]]:
 +
**[[Basis_Explanations_S13 | What is a  Basis? (going beyond the introductory level) ]]
 +
**[[Basis_Problems| Basis Example Problems specifically with polynomials]]
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**[[Change_of_Bases| Change of Basis]]
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*[[Linear_programming_MA265F11Walther|Linear Programming]]
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==Applications==
 
==Applications==
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*[[ECE637_tomographic_reconstruction_coordinate_rotation_S13_mhossain|Coordinate Rotations]]
 
*[[ECE662_Whitening_and_Coloring_Transforms_S14_MH|Whitening and coloring transforms]]
 
*[[ECE662_Whitening_and_Coloring_Transforms_S14_MH|Whitening and coloring transforms]]
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*[[Implementation_of_the_Divide_and_Conquer_DFT_via_Matrices|"divide and conquer" Discrete Fourier Transform (DFT)]]
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Click [[:Category:linear algebra|HERE]] to view all pages in the [[:Category:linear algebra|"linear algebra" Category]]
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[[linear_algebra|Back to "Linear Algebra" topic]]
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[[linear_algebra|Back to Linear Algebra]]
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Latest revision as of 11:25, 27 March 2015


"Linear Algebra"

Tutorials and other Learning Material


The Basics


Beyond the Basics


Applications


Back to "Linear Algebra" topic

Alumni Liaison

Abstract algebra continues the conceptual developments of linear algebra, on an even grander scale.

Dr. Paul Garrett