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Linear Algebra for Dummies (For Dummies)

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Linear Algebra for Dummies (For Dummies) Cover

 

Synopses & Reviews

Publisher Comments:

Your hands-on guide to real-world applications of linear algebra

Does linear algebra leave you feeling lost? No worries —this easy-to-follow guide explains the how and the why of solving linear algebra problems in plain English. From matrices to vector spaces to linear transformations, you'll understand the key concepts and see how they relate to everything from genetics to nutrition to spotted owl extinction.

  • Line up the basics — discover several different approaches to organizing numbers and equations, and solve systems of equations algebraically or with matrices
  • Relate vectors and linear transformations — link vectors and matrices with linear combinations and seek solutions of homogeneous systems

  • Evaluate determinants — see how to perform the determinant function on different sizes of matrices and take advantage of Cramer's rule

  • Hone your skills with vector spaces — determine the properties of vector spaces and their subspaces and see linear transformation in action

  • Tackle eigenvalues and eigenvectors — define and solve for eigenvalues and eigenvectors and understand how they interact with specific matrices

Open the book and find:

  • Theoretical and practical ways of solving linear algebra problems
  • Definitions of terms throughout and in the glossary

  • New ways of looking at operations

  • How linear algebra ties together vectors, matrices, determinants, and linear transformations

  • Ten common mathematical representations of Greek letters

  • Real-world applications of matrices and determinants

Synopsis:

An easy-to-follow guide to practical, real-world applications of linear algebra

Linear algebra is a branch of mathematics that uses matrices to solve systems of linear equations; it has applications in many disciplines, from sociology and game theory to computer programming, engineering, and business. Linear Algebra For Dummies maps to a typical, college-level linear algebra course, in which students first study matrices and matrix operations, then apply those fundamentals to abstract topics such as vector spaces, linear transformations, determinants, and, finally, eigenvalues and eigenvectors. It gives students theoretical and practical ways of approaching various types of problems, presenting the information in a way that allows readers to fully digest not just the how of solving linear algebraic problems, but also the why.

Mary Jane Sterling (Peoria, IL) is the author of Algebra For Dummies (978-0-7645-5325-7), Business Math for Dummies (978-0-470-23331-3), and several other books. She has been teaching at Bradley University for almost 30 years.

About the Author

Mary Jane Sterling is the author of numerous For Dummies books. She is a lecturer at Bradley University in Peoria, Illinois, where she has taught courses in algebra, calculus, and other mathematics topics for almost 30 years.

Table of Contents

Introduction.

Part I: Lining Up the Basics of Linear Algebra.

Chapter 1: Putting a Name to Linear Algebra.

Chapter 2: The Value of Involving Vectors.

Chapter 3: Mastering Matrices and Matrix Algebra.

Chapter 4: Getting Systematic with Systems of Equations.

Part II: Relating Vectors and Linear Transformations.

Chapter 5: Lining Up Linear Combinations.

Chapter 6: Investigating the Matrix Equation Ax = b.

Chapter 7: Homing In on Homogeneous Systems and Linear Independence.

Chapter 8: Making Changes with Linear Transformations.

Part III: Evaluating Determinants.

Chapter 9: Keeping Things in Order with Permutations.

Chapter 10: Evaluating Determinants.

Chapter 11: Personalizing the Properties of Determinants.

Chapter 12: Taking Advantage of Cramer’s Rule.

Part IV: Involving Vector Spaces.

Chapter 13: Involving Vector Spaces.

Chapter 14: Seeking Out Subspaces of Vector Spaces.

Chapter 15: Scoring Big with Vector Space Bases.

Chapter 16: Eyeing Eigenvalues and Eigenvectors.

Part V: The Part of Tens.

Chapter 17: Ten Real-World Applications Using Matrices.

Chapter 18: Ten (Or So) Linear Algebra Processes You Can Do on Your Calculator.

Chapter 19: Ten Mathematical Meanings of Greek Letters.

Glossary.

Index.

Product Details

ISBN:
9780470430903
Author:
Sterling, Mary Jane
Publisher:
For Dummies
Subject:
Algebra - Linear
Subject:
Algebras, linear
Subject:
Mathematics-Linear Algebra
Subject:
Linear Algebra
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
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Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
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Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
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Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
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Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
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Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
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Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
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Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
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Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
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Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
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Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
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Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
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Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
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Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
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Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
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Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
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Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
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Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
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Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
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Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
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Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
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Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
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Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
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Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
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Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Subject:
Linear, Algebra, Linear Algebra, Math, Mathematics, Vector, Vectors, Vector Space, Vector Spaces, Linear Spaces, Linear Maps, Linear Transformations, Maps, Spaces, Transformations, Systems, Linear Equations, Abstract Algebra, Functional Analysis, Analytic
Copyright:
Edition Description:
WebSite Associated w/Book
Series:
For Dummies
Publication Date:
July 2009
Binding:
Electronic book text in proprietary or open standard format
Grade Level:
General/trade
Language:
English
Illustrations:
Y
Pages:
384
Dimensions:
9.10x7.30x.90 in. 1.25 lbs.

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Linear Algebra for Dummies (For Dummies) Used Trade Paper
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Product details 384 pages For Dummies - English 9780470430903 Reviews:
"Synopsis" by , An easy-to-follow guide to practical, real-world applications of linear algebra

Linear algebra is a branch of mathematics that uses matrices to solve systems of linear equations; it has applications in many disciplines, from sociology and game theory to computer programming, engineering, and business. Linear Algebra For Dummies maps to a typical, college-level linear algebra course, in which students first study matrices and matrix operations, then apply those fundamentals to abstract topics such as vector spaces, linear transformations, determinants, and, finally, eigenvalues and eigenvectors. It gives students theoretical and practical ways of approaching various types of problems, presenting the information in a way that allows readers to fully digest not just the how of solving linear algebraic problems, but also the why.

Mary Jane Sterling (Peoria, IL) is the author of Algebra For Dummies (978-0-7645-5325-7), Business Math for Dummies (978-0-470-23331-3), and several other books. She has been teaching at Bradley University for almost 30 years.

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