The Resource Principles of linear algebra with Mathematica, Kenneth Shiskowski, Karl Frinkle

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Principles of linear algebra with Mathematica, Kenneth Shiskowski, Karl Frinkle
Resource Information
The item ** Principles of linear algebra with Mathematica, Kenneth Shiskowski, Karl Frinkle** represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in **European University Institute**.This item is available to borrow from 1 library branch.

Resource Information

The item

**Principles of linear algebra with Mathematica, Kenneth Shiskowski, Karl Frinkle**represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in**European University Institute**.This item is available to borrow from 1 library branch.

- Summary
- "Principles of Linear Algebra with Mathematica uniquely addresses the quickly growing intersection between subject theory and numerical computation. Computer algebra systems such as Mathematica are becoming ever more powerful, useful, user friendly and readily available to the average student and professional, but thre are few books which currently cross this gap between linear algebra and Mathematica. This book introduces algebra topics which can only be taught with the help of computer algebra systems, and the authors include all of the commands required to solve complex and computationally challenging linear algebra problems using Mathematica. The book begins with an introduction to the commands and programming guidelines for working with Mathematica®. Next, the authors explore linear systems of equations and matrices, applications of linear systems and matrices, determinants, inverses, and Cramer's rule. Basic linear algebra topics, such as vectors, dot product, cross product, vector projection, are explored as well as the more advanced topics of rotations in space, rolling a circle along a curve, and the TNB Frame. Subsequent chapters feature coverage of linear programming, linear transformations from Rn to Rm, the geometry of linear and affine transformations, and least squares fits and pseudoinverses. Although computational in nature, the material is not presented in a simply theory-proof-problem format. Instead, all topics are explored in a reader-friendly and insightful way. The Mathematica® software is fully utilized to highlight the visual nature of the topic, as the book is complete with numerous graphics in two and three dimensions, animations, symbolic manipulations, numerical computations, and programming. Exercises are supplied in most chapters, and a related Web site houses Mathematica® code so readers can work through the provided examples"--

- Language
- eng

- Extent
- xiv, 598 pages

- Note
- Preface.Conventions and Notations.1. An Introduction to Mathematica.1.1 The Very Basics.1.2 Basic Arithmetic.1.3 Lists and Matrices.1.4 Expressions Versus Functions.1.5 Plotting and Animations.1.6 Solving Systems of Equations.1.7 Basic Programming.2. Linear Systems of Equations and Matrices.2.1 Linear Systems of Equations.2.2 Augmented Matrix of a Linear System and Row Operations.2.3 Some Matrix Arithmetic.3. Gauss-Jordan Elimination and Reduced Row Echelon Form.3.1 Gauss-Jordan Elimination and rref.3.2 Elementary Matrices.3.3 Sensitivity of Solutions to Error in the Linear System.4. Applications of Linear Systems and Matrices.4.1 Applications of Linear Systems to Geometry.4.2 Applications of Linear Systems to Curve Fitting.4.3 Applications of Linear Systems to Economics.4.4 Applications of Matrix Multiplication to Geometry.4.5 An Application of Matrix Multiplication to Economics.5. Determinants, Inverses, and Cramer' Rule.5.1 Determinants and Inverses from the Adjoint Formula.5.2 Determinants by Expanding Along Any Row or Column.5.3 Determinants Found by Triangularizing Matrices.5.4 LU Factorization.5.5 Inverses from rref.5.6 Cramer's Rule.6. Basic Linear Algebra Topics.6.1 Vectors.6.2 Dot Product.6.3 Cross Product.6.4 A Vector Projection.7. A Few Advanced Linear Algebra Topics.7.1 Rotations in Space.7.2 "Rolling" a Circle Along a Curve.7.3 The TNB Frame.8. Independence, Basis, and Dimension for Subspaces of Rn.8.1 Subspaces of Rn.8.2 Independent and Dependent Sets of Vectors in Rn.8.3 Basis and Dimension for Subspaces of Rn.8.4 Vector Projection onto a subspace of Rn.8.5 The Gram-Schmidt Orthonormalization Process.9. Linear Maps from Rn to Rm.9.1 Basics About Linear Maps.9.2 The Kernel and Image Subspaces of a Linear Map.9.3 Composites of Two Linear Maps and Inverses.9.4 Change of Bases for the Matrix Representation of a Linear Map.10. The Geometry of Linear and Affine Maps.10.1 The Effect of a Linear Map on Area and Arclength in Two Dimensions.10.2 The Decomposition of Linear Maps into Rotations, Reflections, and Rescalings in R2.10.3 The Effect of Linear Maps on Volume, Area, and Arclength in R3. 10.4 Rotations, Reflections, and Rescalings in Three Dimensions.10.5 Affine Maps.11. Least-Squares Fits and Pseudoinverses.11.1 Pseudoinverse to a Nonsquare Matrix and Almost Solving an Overdetermined Linear System.11.2 Fits and Pseudoinverses.11.3 Least-Squares Fits and Pseudoinverses.12. Eigenvalues and Eigenvectors.12.1 What Are Eigenvalues and Eigenvectors, and Why Do We Need Them?12.2 Summary of Definitions and Methods for Computing Eigenvalues and Eigenvectors as well as the Exponential of a Matrix.12.3 Applications of the Diagonalizability of Square Matrices.12.4 Solving a Square First-Order Linear System if Differential Equations.12.5 Basic Facts About Eigenvalues, Eigenvectors, and Diagonalizability.12.6 The Geometry of the Ellipse Using Eigenvalues and Eigenvectors.12.7 A Mathematica EigenFunction.Suggested Reading.Indices.Keyword Index.Index of Mathematica Commands

- Isbn
- 9780470637951

- Label
- Principles of linear algebra with Mathematica

- Title
- Principles of linear algebra with Mathematica

- Statement of responsibility
- Kenneth Shiskowski, Karl Frinkle

- Language
- eng

- Summary
- "Principles of Linear Algebra with Mathematica uniquely addresses the quickly growing intersection between subject theory and numerical computation. Computer algebra systems such as Mathematica are becoming ever more powerful, useful, user friendly and readily available to the average student and professional, but thre are few books which currently cross this gap between linear algebra and Mathematica. This book introduces algebra topics which can only be taught with the help of computer algebra systems, and the authors include all of the commands required to solve complex and computationally challenging linear algebra problems using Mathematica. The book begins with an introduction to the commands and programming guidelines for working with Mathematica®. Next, the authors explore linear systems of equations and matrices, applications of linear systems and matrices, determinants, inverses, and Cramer's rule. Basic linear algebra topics, such as vectors, dot product, cross product, vector projection, are explored as well as the more advanced topics of rotations in space, rolling a circle along a curve, and the TNB Frame. Subsequent chapters feature coverage of linear programming, linear transformations from Rn to Rm, the geometry of linear and affine transformations, and least squares fits and pseudoinverses. Although computational in nature, the material is not presented in a simply theory-proof-problem format. Instead, all topics are explored in a reader-friendly and insightful way. The Mathematica® software is fully utilized to highlight the visual nature of the topic, as the book is complete with numerous graphics in two and three dimensions, animations, symbolic manipulations, numerical computations, and programming. Exercises are supplied in most chapters, and a related Web site houses Mathematica® code so readers can work through the provided examples"--

- Assigning source
- Provided by publisher

- Cataloging source
- DLC

- http://library.link/vocab/creatorDate
- 1954-

- http://library.link/vocab/creatorName
- Shiskowski, Kenneth

- Illustrations
- illustrations

- Index
- index present

- Literary form
- non fiction

- Nature of contents
- bibliography

- http://library.link/vocab/relatedWorkOrContributorDate
- 1977-

- http://library.link/vocab/relatedWorkOrContributorName
- Frinkle, Karl

- Series statement
- Pure and applied mathematics

- http://library.link/vocab/subjectName
- Algebras, Linear

- Label
- Principles of linear algebra with Mathematica, Kenneth Shiskowski, Karl Frinkle

- Note
- Preface.Conventions and Notations.1. An Introduction to Mathematica.1.1 The Very Basics.1.2 Basic Arithmetic.1.3 Lists and Matrices.1.4 Expressions Versus Functions.1.5 Plotting and Animations.1.6 Solving Systems of Equations.1.7 Basic Programming.2. Linear Systems of Equations and Matrices.2.1 Linear Systems of Equations.2.2 Augmented Matrix of a Linear System and Row Operations.2.3 Some Matrix Arithmetic.3. Gauss-Jordan Elimination and Reduced Row Echelon Form.3.1 Gauss-Jordan Elimination and rref.3.2 Elementary Matrices.3.3 Sensitivity of Solutions to Error in the Linear System.4. Applications of Linear Systems and Matrices.4.1 Applications of Linear Systems to Geometry.4.2 Applications of Linear Systems to Curve Fitting.4.3 Applications of Linear Systems to Economics.4.4 Applications of Matrix Multiplication to Geometry.4.5 An Application of Matrix Multiplication to Economics.5. Determinants, Inverses, and Cramer' Rule.5.1 Determinants and Inverses from the Adjoint Formula.5.2 Determinants by Expanding Along Any Row or Column.5.3 Determinants Found by Triangularizing Matrices.5.4 LU Factorization.5.5 Inverses from rref.5.6 Cramer's Rule.6. Basic Linear Algebra Topics.6.1 Vectors.6.2 Dot Product.6.3 Cross Product.6.4 A Vector Projection.7. A Few Advanced Linear Algebra Topics.7.1 Rotations in Space.7.2 "Rolling" a Circle Along a Curve.7.3 The TNB Frame.8. Independence, Basis, and Dimension for Subspaces of Rn.8.1 Subspaces of Rn.8.2 Independent and Dependent Sets of Vectors in Rn.8.3 Basis and Dimension for Subspaces of Rn.8.4 Vector Projection onto a subspace of Rn.8.5 The Gram-Schmidt Orthonormalization Process.9. Linear Maps from Rn to Rm.9.1 Basics About Linear Maps.9.2 The Kernel and Image Subspaces of a Linear Map.9.3 Composites of Two Linear Maps and Inverses.9.4 Change of Bases for the Matrix Representation of a Linear Map.10. The Geometry of Linear and Affine Maps.10.1 The Effect of a Linear Map on Area and Arclength in Two Dimensions.10.2 The Decomposition of Linear Maps into Rotations, Reflections, and Rescalings in R2.10.3 The Effect of Linear Maps on Volume, Area, and Arclength in R3. 10.4 Rotations, Reflections, and Rescalings in Three Dimensions.10.5 Affine Maps.11. Least-Squares Fits and Pseudoinverses.11.1 Pseudoinverse to a Nonsquare Matrix and Almost Solving an Overdetermined Linear System.11.2 Fits and Pseudoinverses.11.3 Least-Squares Fits and Pseudoinverses.12. Eigenvalues and Eigenvectors.12.1 What Are Eigenvalues and Eigenvectors, and Why Do We Need Them?12.2 Summary of Definitions and Methods for Computing Eigenvalues and Eigenvectors as well as the Exponential of a Matrix.12.3 Applications of the Diagonalizability of Square Matrices.12.4 Solving a Square First-Order Linear System if Differential Equations.12.5 Basic Facts About Eigenvalues, Eigenvectors, and Diagonalizability.12.6 The Geometry of the Ellipse Using Eigenvalues and Eigenvectors.12.7 A Mathematica EigenFunction.Suggested Reading.Indices.Keyword Index.Index of Mathematica Commands

- Bibliography note
- Includes bibliographical references and indexes

- Carrier category
- volume

- Carrier category code
- nc

- Carrier MARC source
- rdacarrier.

- Content category
- text

- Content type code
- txt

- Content type MARC source
- rdacontent.

- Control code
- FIEb17036021

- Dimensions
- 25 cm.

- Extent
- xiv, 598 pages

- Isbn
- 9780470637951

- Media category
- unmediated

- Media MARC source
- rdamedia.

- Media type code
- n

- Other physical details
- illustrations

- System control number
- (OCoLC)701014977

- Label
- Principles of linear algebra with Mathematica, Kenneth Shiskowski, Karl Frinkle

- Note
- Preface.Conventions and Notations.1. An Introduction to Mathematica.1.1 The Very Basics.1.2 Basic Arithmetic.1.3 Lists and Matrices.1.4 Expressions Versus Functions.1.5 Plotting and Animations.1.6 Solving Systems of Equations.1.7 Basic Programming.2. Linear Systems of Equations and Matrices.2.1 Linear Systems of Equations.2.2 Augmented Matrix of a Linear System and Row Operations.2.3 Some Matrix Arithmetic.3. Gauss-Jordan Elimination and Reduced Row Echelon Form.3.1 Gauss-Jordan Elimination and rref.3.2 Elementary Matrices.3.3 Sensitivity of Solutions to Error in the Linear System.4. Applications of Linear Systems and Matrices.4.1 Applications of Linear Systems to Geometry.4.2 Applications of Linear Systems to Curve Fitting.4.3 Applications of Linear Systems to Economics.4.4 Applications of Matrix Multiplication to Geometry.4.5 An Application of Matrix Multiplication to Economics.5. Determinants, Inverses, and Cramer' Rule.5.1 Determinants and Inverses from the Adjoint Formula.5.2 Determinants by Expanding Along Any Row or Column.5.3 Determinants Found by Triangularizing Matrices.5.4 LU Factorization.5.5 Inverses from rref.5.6 Cramer's Rule.6. Basic Linear Algebra Topics.6.1 Vectors.6.2 Dot Product.6.3 Cross Product.6.4 A Vector Projection.7. A Few Advanced Linear Algebra Topics.7.1 Rotations in Space.7.2 "Rolling" a Circle Along a Curve.7.3 The TNB Frame.8. Independence, Basis, and Dimension for Subspaces of Rn.8.1 Subspaces of Rn.8.2 Independent and Dependent Sets of Vectors in Rn.8.3 Basis and Dimension for Subspaces of Rn.8.4 Vector Projection onto a subspace of Rn.8.5 The Gram-Schmidt Orthonormalization Process.9. Linear Maps from Rn to Rm.9.1 Basics About Linear Maps.9.2 The Kernel and Image Subspaces of a Linear Map.9.3 Composites of Two Linear Maps and Inverses.9.4 Change of Bases for the Matrix Representation of a Linear Map.10. The Geometry of Linear and Affine Maps.10.1 The Effect of a Linear Map on Area and Arclength in Two Dimensions.10.2 The Decomposition of Linear Maps into Rotations, Reflections, and Rescalings in R2.10.3 The Effect of Linear Maps on Volume, Area, and Arclength in R3. 10.4 Rotations, Reflections, and Rescalings in Three Dimensions.10.5 Affine Maps.11. Least-Squares Fits and Pseudoinverses.11.1 Pseudoinverse to a Nonsquare Matrix and Almost Solving an Overdetermined Linear System.11.2 Fits and Pseudoinverses.11.3 Least-Squares Fits and Pseudoinverses.12. Eigenvalues and Eigenvectors.12.1 What Are Eigenvalues and Eigenvectors, and Why Do We Need Them?12.2 Summary of Definitions and Methods for Computing Eigenvalues and Eigenvectors as well as the Exponential of a Matrix.12.3 Applications of the Diagonalizability of Square Matrices.12.4 Solving a Square First-Order Linear System if Differential Equations.12.5 Basic Facts About Eigenvalues, Eigenvectors, and Diagonalizability.12.6 The Geometry of the Ellipse Using Eigenvalues and Eigenvectors.12.7 A Mathematica EigenFunction.Suggested Reading.Indices.Keyword Index.Index of Mathematica Commands

- Bibliography note
- Includes bibliographical references and indexes

- Carrier category
- volume

- Carrier category code
- nc

- Carrier MARC source
- rdacarrier.

- Content category
- text

- Content type code
- txt

- Content type MARC source
- rdacontent.

- Control code
- FIEb17036021

- Dimensions
- 25 cm.

- Extent
- xiv, 598 pages

- Isbn
- 9780470637951

- Media category
- unmediated

- Media MARC source
- rdamedia.

- Media type code
- n

- Other physical details
- illustrations

- System control number
- (OCoLC)701014977

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