Linear Algebra: A Minimal Polynomial Approach to Eigen Theory

✍ Scribed by Fernando Barrera-Mora

Publisher: De Gruyter
Year: 2023
Tongue: English
Leaves: 312
Category: Library

No coin nor oath required. For personal study only.

✦ Synopsis

There are numerous linear algebra textbooks available on the market. Yet, there are few that approach the notion of eigenvectors and eigenvalues across an operator's minimum polynomial.

In this book, we take that approach. This book provides a thorough introduction to the fundamental concepts of linear algebra. The material is divided into two sections: Part I covers fundamental concepts in linear algebra, whereas Part II covers the theory of determinants, the theory of eigenvalues and eigenvectors, and fundamental results on Euclidean vector spaces. We highlight that:

Consider hypothetical manufacturing models as a starting point for studying linear equations. There are two novel ideas in the book: the use of a production model to motivate the concept of matrix product and the use of an operator's minimal polynomial to describe the theory of eigenvalues and eigenvectors.

Several examples incorporate the use of SageMath., allowing the reader to focus on conceptual comprehension rather than formulas.

Offers a new concept to introduce characteristic values (eigenvalues) and eigenvectors.
Examples incorporate and are illustrated using SageMath, free-open-source software.
Extensive exercises in each chapter reinforce the material presented.

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1. Algebraic preliminaries -- 2. Vector spaces -- 3. Determinants -- 4. Linear transformations -- 5. The shift operator -- 6. Structure theory of linear transformations -- 7. Inner project spaces -- 8. Tensor products and forms -- 9. Stability -- 10. Elements of linear system theory -- 11. Rational