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Introduction to Linear Algebra for Science and Engineering Plus MyLab Mathematics with Pearson eText -- Access Card Package, 3rd edition

  • Daniel Norman
  • Dan Wolczuk

Published by Pearson Canada (January 1st 2019) - Copyright © 2020

3rd edition

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Overview

NOTE: Before purchasing, check with your instructor to ensure you select the correct ISBN. Several versions of Pearson's MyLab & Mastering products exist for each title, and registrations are not transferable. To register for and use Pearson's MyLab & Mastering products, you may also need a Course ID, which your instructor will provide.

 

Norman/Wolczuk’s An Introduction to Linear Algebra for Science and Engineering 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 difficult abstract concepts. This approach includes an early treatment of vector spaces and complex topics in a simpler, geometric context. An Introduction to Linear Algebra for Science and Engineering promotes advanced thinking and understanding by encouraging students to make connections between previously learned and new concepts and demonstrates the importance of each topic through applications.

 

0135309026 / 9780135309025 Introduction to Linear Algebra for Science and Engineering Plus MyLab Mathematics with Pearson eText -- Access Card Package, 3/e

 

Package consists of:

 

0134682637 / 9780134682631 Introduction to Linear Algebra for Science and Engineering, 3/e

0135278600 / 9780135278604 MyLab Math with Pearson eText -- Standalone Access Card -- for Introduction to Linear Algebra for Science and Engineering, 3/e

Table of contents

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 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 3 Matrices, Linear Mappings, and Inverses

3.1 Operations on Matrices

3.2 Matrix Mappings and Linear Mappings

3.3 Geometrical Transformations

3.4 Special Subspaces

3.5 Inverse Matrices and Inverse Mappings

3.6 Elementary Matrices

3.7 LU-Decomposition

 

CHAPTER 4 Vector Spaces

4.1 Spaces of Polynomials

4.2 Vector Spaces

4.3 Bases and Dimensions

4.4 Coordinates

4.5 General Linear Mappings

4.6 Matrix of a Linear Mapping

4.7 Isomorphisms of Vector Spaces

 

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 6 Eigenvectors and Diagonalization

6.1 Eigenvalues and Eigenvectors

6.2 Diagonalization

6.3 Applications of Diagonalization

 

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 8 Symmetric Matrices and Quadratic Forms

8.1 Diagonalization of Symmetric Matrices

8.2 Quadratic Forms

8.3 Graphs of Quadratic Forms

8.4 Applications of Quadratic Forms

8.5 Singular Value Decomposition

 

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

 

APPENDIX A Answers toMid-Section Exercises

APPENDIX B Answers to Practice Problems and Chapter Quizzes

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