𝔖 Scriptorium
✦   LIBER   ✦
πŸ“

Introduction to Linear Algebra for Science and Engineering (3rd Edition)

✍ Scribed by Daniel Norman (Author) Dan Wolczuk (Author)

Publisher
Pearson Canada
Year
2019
Tongue
English
Leaves
594
Edition
3
Category
Library
⬇  Acquire This Volume

No coin nor oath required. For personal study only.

✦ Table of Contents

Cover
Title Page
Copyright Page
Table of Contents
A Note to Students
A Note to Instructors
A Personal Note
Acknowledgments
Chapter 1: Euclidean Vector Spaces
1.1. Vectors in R2 and R3
1.2. Spanning and Linear Independence in R2 and R3
1.3. Length and Angles in R2 and R3
1.4. Vectors in Rn
1.5. Dot Products and Projections in Rn
Chapter Review
Chapter 2: Systems of Linear Equations
2.1. Systems of Linear Equations and Elimination
2.2. Reduced Row Echelon Form, Rank, and Homogeneous Systems
2.3. Application to Spanning and Linear Independence
2.4. Applications of Systems of Linear Equations
Chapter Review
Chapter 3: Matrices, LinearMappings, and Inverses
3.1. Operations onMatrices
3.2. MatrixMappings and LinearMappings
3.3. Geometrical Transformations
3.4. Special Subspaces
3.5. InverseMatrices and InverseMappings
3.6. ElementaryMatrices
3.7. LU-Decomposition
Chapter Review
Chapter 4: Vector Spaces
4.1. Spaces of Polynomials
4.2. Vector Spaces
4.3. Bases and Dimensions
4.4. Coordinates
4.5. General LinearMappings
4.6. Matrix of a LinearMapping
4.7. Isomorphisms of Vector Spaces
Chapter Review
Chapter 5: Determinants
5.1. Determinants in Terms of Cofactors
5.2. Properties of the Determinant
5.3. Inverse by Cofactors, Cramer’s Rule
5.4. Area, Volume, and the Determinant
Chapter Review
Chapter 6: Eigenvectors and Diagonalization
6.1. Eigenvalues and Eigenvectors
6.2. Diagonalization
6.3. Applications of Diagonalization
Chapter Review
Chapter 7: Inner Products and Projections
7.1. Orthogonal Bases in Rn
7.2. Projections and the Gram-Schmidt Procedure
7.3. Method of Least Squares
7.4. Inner Product Spaces
7.5. Fourier Series
Chapter Review
Chapter 8: SymmetricMatrices and Quadratic Forms
8.1. Diagonalization of SymmetricMatrices
8.2. Quadratic Forms
8.3. Graphs of Quadratic Forms
8.4. Applications of Quadratic Forms
8.5. Singular Value Decomposition
Chapter Review
Chapter 9: Complex Vector Spaces
9.1. Complex Numbers
9.2. Systems with Complex Numbers
9.3. Complex Vector Spaces
9.4. Complex Diagonalization
9.5. Unitary Diagonalization
Chapter Review
Appendix A: Answers toMid-Section Exercises
Appendix B: Answers to Practice Problems and Chapter Quizzes
Index
Index of Notations
Back Cover

πŸ“œ SIMILAR VOLUMES

Introduction to Linear Algebra for Scien
πŸ“ Introduction to Linear Algebra for Science and Engineering
✍ Daniel Norman, Dan Wolczuk πŸ“‚ Library πŸ“… 2011 πŸ› Pearson Education Canada 🌐 English

<P style="MARGIN: 0px">Norman/Wolczuk’s <I>An Introduction to Linear Algebra for Science and Engineering </I>has been widely respected for its unique approach, which helps students understand and apply theory and concepts by combining theory with computations and slowly bringing students to the diff

Introduction to MATLAB for Engineers, 3r
πŸ“ Introduction to MATLAB for Engineers, 3rd Edition
✍ William John Palm, III πŸ“‚ Library πŸ“… 2010 πŸ› McGraw-Hill 🌐 English

Introduction to MATLAB for Engineers is a simple, concise book designed to be useful for beginners and to be kept as a reference. MATLAB is a globally available standard computational tool for engineers and scientists. The terminology, syntax, and the use of the programming language are well defined

Study Guide to Linear Algebra and Its Ap
πŸ“ Study Guide to Linear Algebra and Its Applications, 3rd Edition
✍ David C. Lay πŸ“‚ Library πŸ“… 2005 πŸ› Addison Wesley 🌐 English

An integral part of this text, the Study Guide incorporates detailed solutions to every third odd-numbered exercise, as well as solutions to every odd-numbered writing exercise for which the main text only provides a hint.