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Linear Algebra 1.1.1 Systems of Linear Equations

Linear Algebra 1.1.2 Solve Systems of Linear Equations in Augmented Matrices Using Row Operations

Linear Algebra 1.2.1 Row Reduction and Echelon Forms

Linear Algebra 1.2.2 Solution Sets and Free Variables

Linear Algebra 1.3.1 Vector Equations

Linear Algebra 1.3.2 Linear Combinations

Linear Algebra 1.4.1 The Matrix Equation Ax=b

Linear Algebra 1.4.2 Computation of Ax

Linear Algebra 1.5.1 Homogeneous System Solutions

Linear Algebra 1.5.2 Non-Homogeneous System Solutions

Linear Algebra 1.6.1 Applications of Linear Systems - Economic Sectors

Linear Algebra 1.6.2 Applications of Linear Systems - Network Flow

Linear Algebra 1.7.1 Linear Independence

Linear Algebra 1.7.2 Special Ways to Determine Linear Independence

Linear Algebra 1.8.1 Matrix Transformations

Linear Algebra 1.8.2 Introduction to Linear Transformations

Linear Algebra 2.1.1 Matrix Operations - Sums and Scalar Multiples

Linear Algebra 2.1.2 Matrix Operations - Multiplication and Transpose

Linear Algebra 2.2.1 The Inverse of a Matrix

Linear Algebra 2.2.2 Solving 2x2 Systems with the Inverse and Inverse Properties

Linear Algebra 2.2.3 Elementary Matrices And An Algorithm for Finding A Inverse

Linear Algebra 2.3.1 Characterizations of Invertible Matrices

Linear Algebra 3.1.1 Introduction to Determinants

Linear Algebra 3.1.2 Co-factor Expansion

Linear Algebra 3.2.1 Properties of Determinants

Linear Algebra 4.1.1 Vector Spaces

Linear Algebra 4.1.2 Subspace of a Vector Space

Linear Algebra 4.2.1 Null Spaces

Linear Algebra 4.2.2 Column Spaces

Linear Algebra 4.3.1 Linearly Independent Sets and Bases

Linear Algebra 4.3.2 The Spanning Set Theorem

Linear Algebra 4.5.1 The Dimension of a Vector Space

Linear Algebra 4.5.2 Subspaces of a Finite Dimensional Space

Linear Algebra 4.6.1 The Row Space

Linear Algebra 4.6.2 Rank

Linear Algebra 5.1.1 Eigenvectors and Eigenvalues

Linear Algebra 5.1.2 More About Eigenvectors and Eigenvalues

Linear Algebra 5.2.1 Determinants and the IMT

Linear Algebra 5.2.2 The Characteristic Equation

Linear Algebra 6.1.1 Inner Product, Vector Length and Distance

Linear Algebra 6.1.2 Orthogonal Vectors

Linear Algebra 6.2.1 Orthogonal Sets

Linear Algebra 6.2.2 Orthogonal Projections

Linear Algebra 6.3.1 Orthogonal Decomposition Theorem

Linear Algebra 6.3.2 The Best Approximation Theorem

Linear Algebra 6.5.1 Least Squares Problems

Description:

Dive into a comprehensive 11-hour course on Linear Algebra, covering fundamental concepts and advanced topics. Begin with systems of linear equations and matrix operations, progressing through vector spaces, determinants, and eigenvalues. Explore practical applications in economic sectors and network flow. Master techniques such as row reduction, linear transformations, and orthogonal projections. Develop a strong foundation in linear independence, inverse matrices, and least squares problems. Gain proficiency in solving complex mathematical challenges and understanding the theoretical underpinnings of Linear Algebra through a structured curriculum designed to build your skills progressively.

Linear Algebra

Kimberly Brehm

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#Mathematics #Algebra #Linear Algebra #Vector Spaces #Matrix Operations #Systems of Linear Equations #Determinants #Orthogonal Projections #Linear Independence

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