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1

Linear Algebra: Powerful Transformations

Lecture no. 1 from the course: Mastering Linear Algebra: An Introduction with Applications

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Taught by Professor Francis Su | 28 min | Categories: Default Category

Discover that linear algebra is a powerful tool that combines the insights of geometry and algebra. Focus on its central idea of linear transformations, which are functions that are algebraically very simple and that change a space geometrically in modest ways, such as taking parallel lines to parallel lines. Survey the diverse linear phenomena that can be analyzed this way.

24 Lectures

Linear Algebra: Powerful Transformations

Linear Algebra: Powerful Transformations 0 of 28 min 2

Vectors: Describing Space and Motion

Vectors: Describing Space and Motion 0 of 27 min 3

Linear Geometry: Dots and Crosses

Linear Geometry: Dots and Crosses 0 of 28 min 4

Matrix Operations

Matrix Operations 0 of 31 min 5

Linear Transformations

Linear Transformations 0 of 28 min 6

Systems of Linear Equations

Systems of Linear Equations 0 of 28 min 7

Reduced Row Echelon Form

Reduced Row Echelon Form 0 of 28 min 8

Span and Linear Dependence

Span and Linear Dependence 0 of 31 min 9

Subspaces: Special Subsets to Look For

Subspaces: Special Subsets to Look For 0 of 29 min 10

Bases: Basic Building Blocks

Bases: Basic Building Blocks 0 of 29 min 11

Invertible Matrices: Undoing What You Did

Invertible Matrices: Undoing What You Did 0 of 30 min 12

The Invertible Matrix Theorem

The Invertible Matrix Theorem 0 of 34 min 13

Determinants: Numbers That Say a Lot

Determinants: Numbers That Say a Lot 0 of 30 min 14

Eigenstuff: Revealing Hidden Structure

Eigenstuff: Revealing Hidden Structure 0 of 27 min 15

Eigenvectors and Eigenvalues: Geometry

Eigenvectors and Eigenvalues: Geometry 0 of 29 min 16

Diagonalizability

Diagonalizability 0 of 32 min 17

Population Dynamics: Foxes and Rabbits

Population Dynamics: Foxes and Rabbits 0 of 30 min 18

Differential Equations: New Applications

Differential Equations: New Applications 0 of 33 min 19

Orthogonality: Squaring Things Up

Orthogonality: Squaring Things Up 0 of 32 min 20

Markov Chains: Hopping Around

Markov Chains: Hopping Around 0 of 33 min 21

Multivariable Calculus: Derivative Matrix

Multivariable Calculus: Derivative Matrix 0 of 31 min 22

Multilinear Regression: Least Squares

Multilinear Regression: Least Squares 0 of 28 min 23

Singular Value Decomposition: So Cool

Singular Value Decomposition: So Cool 0 of 32 min 24

General Vector Spaces: More to Explore

General Vector Spaces: More to Explore 0 of 34 min