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This new book offers a fresh approach to matrix and linear algebra by providing a balanced blend of applications, theory, and computation, while highlighting their interdependence. Intended for a one-semester course, Applied Linear Algebra and Matrix Analysis places special emphasis on linear algebra as an experimental science, with numerous examples, computer exercises, and projects. While the flavor is heavily computational and experimental, the text is independent of specific hardware or software platforms. Throughout the book, significant motivating examples are woven into the text, and each section ends with a set of exercises. The student will develop a solid foundation in the following topics: Gaussian elimination and other operations with matrices; basic properties of matrix and determinant algebra; standard Euclidean spaces, both real and complex; geometrical aspects of vectors, such as norm, dot product, and angle; eigenvalues, eigenvectors, and discrete dynamical systems; general norm and inner-product concepts for abstract vector spaces. For many students, the tools of matrix and linear algebra will be as fundamental in their professional work as the tools of calculus; thus it is important to ensure that students appreciate the utility and beauty of these subjects as well as the mechanics. By including applied mathematics and mathematical modeling, this new textbook will teach students how concepts of matrix and linear algebra make concrete problems workable.
About the Author
Thomas S. Shores is Professor of Mathematics at the University of Nebraska, Lincoln, where he has received awards for his teaching. His research touches on group theory, commutative algebra, mathematical modeling, numerical analysis, and inverse theory.
Table of Contents
Linear Systems of Equations
Geometrical Aspects of Standard Spaces
The Eigenvalue Problem
Geometrical Aspects of Abstract Spaces
Table of Symbols
Answers to Selected Exercises