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15

Eigenvectors and Eigenvalues: Geometry

Lecture no. 15 from the course: Mastering Linear Algebra: An Introduction with Applications

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Taught by Professor Francis Su | 29 min | Categories: Default Category

Continue your study from the previous lecture by exploring the geometric properties of eigenvectors and eigenvalues, gaining an intuitive sense of the hidden structure they reveal. Learn how to calculate eigenvalues and eigenvectors; and for vectors that are not eigenvectors, discover that if you have a basis of eigenvectors, then it’s easy to see how a transformation moves every other point.

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