English [en], .pdf, 🚀/lgli/lgrs/nexusstc/zlib, 96.1MB, 📘 Book (non-fiction), lgrsnf/Stephen Friedberg - Linear Algebra 4th edition (2002).pdf
Linear Algebra, 4th Edition 🔍
Pearson Education, 4th, 2002
Stephen Friedberg, Arnold Insel, Lawrence Spence, Stephen H. Friedberg, Arnold J. Insel, Lawrence E. Spence 🔍
description
This top-selling, theorem-proof book presents a careful treatment of the principle topics of linear algebra, and illustrates the power of the subject through a variety of applications. It emphasizes the symbiotic relationship between linear transformations and matrices, but states theorems in the more general infinite-dimensional case where appropriate. Chapter topics cover vector spaces, linear transformations and matrices, elementary matrix operations and systems of linear equations, determinants, diagonalization, inner product spaces, and canonical forms. For statisticians and engineers.
Alternative filename
nexusstc/Linear Algebra/4c9d1ee22701a324b7da35327e224d18.pdf
Alternative title
Linear Algebra (2-downloads)
Alternative author
Friedberg, Stephen H., Insel, Arnold J., Spence, Lawrence E.
Alternative publisher
Globe Fearon Educational Publishing
Alternative publisher
Longman Publishing
Alternative publisher
Prentice-hall
Alternative publisher
Prentice Hall
Alternative publisher
Cengage Gale
Alternative edition
4. ed., interntional ed, Upper Saddle River, N.J, ©2003
Alternative edition
4th ed., Upper Saddle River, N.J, New Jersey, 2003
Alternative edition
4th ed, Upper Saddle River, N.J, cop. 2003
Alternative edition
United States, United States of America
Alternative edition
Upper Saddle River, N.J, 2002
Alternative edition
Fourth Edition, PS, 2002
Alternative edition
2003-01-01
Alternative edition
4, 2014
metadata comments
lg2919870
metadata comments
{"edition":"4","isbns":["0130084514","0131202669","9780130084514","9780131202665"],"last_page":601,"publisher":"Pearson"}
metadata comments
Includes index.
Alternative description
Contents
1 Vector spaces
1.1 Introduction
1.2 Vector Spaces
1.3 Subspaces
1.4 Linear Combinations and Systems of Linear Equations
1.5 Linear Dependence and Linear Independence
1.6 Bases and Dimension
1.7 Maximal Linearly Independent Subsets
2 Linear Transformations and Matrices
2.1 Linear Transformations, Null Spaces, and Ranges
2.2 The Matrix Representation of a Linear Transformation
2.3 Composition of Linear Transformations and Matrix Multiplication
2.4 Invertibility and Isomorphisms
2.5 The Change of Coordinate Matrix
2.6 Dual Spaces
2.7 Homogeneous Linear Differential Equations with Constant Coefficients
Index of Definitions
3 Elementary Matrix Operations and Systems of Linear Equations
3.1 Elementary Matrix Operations and Elementary Matrices
3.2 The Rank of a Matrix and Matrix Inverses
3.3 Systems of Linear Equations - Theoretical Aspects
3.4 Systems of Linear Equations - Computational Aspects
Index of Definitions
4 Determinants
4.1 Determinants of Order 2
4.2 Determinants of Order n
4.3 Properties of Determinants
4.4 Summary - Important Facts about Determinants
4.5 A Characterization of the Determinant
Index of Definitions
5 Diagonalization
5.1 Eigenvalues and Eigenvectors
5.2 Diagonalizability
5.3 Matrix Limits and Markov Chains
5.4 Invariant Subspaces and the Cayley-Hamilton Theorem
Index of Definitions
6 Inner Product Spaces
6.1 Inner Products and Norms
6.2 The Gram-Schmidt Orthoganlization Process
6.3 The Adjoint of a Linear Operator
6.4 Normal and Self-Adjoint Operators
6.5 Unitary and Orthogonal Operator and Their Matrices
6.6 Orthogonal Projections and the Spectral Theorem
6.7 The Singular Value Decomposition and the Pseudoinverse
6.8 Bilinear and Quadratic Forms
6.9 Einstein's Special Theory of Relativity
6.10 Conditioning and the Rayleigh Quotient
6.11 The Geometry of Orthogonal Operators
Index of Definitions
7 Canonical Forms
7.1 The Jordan Canonical Form I
7.2 The Jordan Canonical Form II
7.3 The Minimal Polynomial
7.4 The Rational Canonical Form
Index of Definitions
Appendices
Sets
Functions
Fields
Complex Numbers
Polynomials
Answers to Selected Exercises
Index
1 Vector spaces
1.1 Introduction
1.2 Vector Spaces
1.3 Subspaces
1.4 Linear Combinations and Systems of Linear Equations
1.5 Linear Dependence and Linear Independence
1.6 Bases and Dimension
1.7 Maximal Linearly Independent Subsets
2 Linear Transformations and Matrices
2.1 Linear Transformations, Null Spaces, and Ranges
2.2 The Matrix Representation of a Linear Transformation
2.3 Composition of Linear Transformations and Matrix Multiplication
2.4 Invertibility and Isomorphisms
2.5 The Change of Coordinate Matrix
2.6 Dual Spaces
2.7 Homogeneous Linear Differential Equations with Constant Coefficients
Index of Definitions
3 Elementary Matrix Operations and Systems of Linear Equations
3.1 Elementary Matrix Operations and Elementary Matrices
3.2 The Rank of a Matrix and Matrix Inverses
3.3 Systems of Linear Equations - Theoretical Aspects
3.4 Systems of Linear Equations - Computational Aspects
Index of Definitions
4 Determinants
4.1 Determinants of Order 2
4.2 Determinants of Order n
4.3 Properties of Determinants
4.4 Summary - Important Facts about Determinants
4.5 A Characterization of the Determinant
Index of Definitions
5 Diagonalization
5.1 Eigenvalues and Eigenvectors
5.2 Diagonalizability
5.3 Matrix Limits and Markov Chains
5.4 Invariant Subspaces and the Cayley-Hamilton Theorem
Index of Definitions
6 Inner Product Spaces
6.1 Inner Products and Norms
6.2 The Gram-Schmidt Orthoganlization Process
6.3 The Adjoint of a Linear Operator
6.4 Normal and Self-Adjoint Operators
6.5 Unitary and Orthogonal Operator and Their Matrices
6.6 Orthogonal Projections and the Spectral Theorem
6.7 The Singular Value Decomposition and the Pseudoinverse
6.8 Bilinear and Quadratic Forms
6.9 Einstein's Special Theory of Relativity
6.10 Conditioning and the Rayleigh Quotient
6.11 The Geometry of Orthogonal Operators
Index of Definitions
7 Canonical Forms
7.1 The Jordan Canonical Form I
7.2 The Jordan Canonical Form II
7.3 The Minimal Polynomial
7.4 The Rational Canonical Form
Index of Definitions
Appendices
Sets
Functions
Fields
Complex Numbers
Polynomials
Answers to Selected Exercises
Index
Alternative description
For courses in Advanced Linear Algebra. This top-selling, theorem-proof text presents a careful treatment of the principal topics of linear algebra, and illustrates the power of the subject through a variety of applications. It emphasizes the symbiotic relationship between linear transformations and matrices, but states theorems in the more general infinite-dimensional case where appropriate.
Alternative description
Preface -- Vector Spaces -- Linear Transformations And Matrices -- Elementary Matrix Operations And Systems Of Linear Equations -- Determinants -- Diagonalization -- Inner Product Spaces -- Canonical Forms -- Appendices. Stephen H. Friedberg, Arnold J. Insel, Lawrence E. Spence. Includes Index.
date open sourced
2021-01-14
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