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An Introduction to Linear Algebra (Dover Books on Mathematics)by L. Mirsky
Synopses & ReviewsPublisher Comments:"The straightforward clarity of the writing is admirable." — American Mathematical Monthly. This work provides an elementary and easily readable account of linear algebra, in which the exposition is sufficiently simple to make it equally useful to readers whose principal interests lie in the fields of physics or technology. The account is selfcontained, and the reader is not assumed to have any previous knowledge of linear algebra. Although its accessibility makes it suitable for nonmathematicians, Professor Mirsky's book is nevertheless a systematic and rigorous development of the subject. Part I deals with determinants, vector spaces, matrices, linear equations, and the representation of linear operators by matrices. Part II begins with the introduction of the characteristic equation and goes on to discuss unitary matrices, linear groups, functions of matrices, and diagonal and triangular canonical forms. Part II is concerned with quadratic forms and related concepts. Applications to geometry are stressed throughout; and such topics as rotation, reduction of quadrics to principal axes, and classification of quadrics are treated in some detail. An account of most of the elementary inequalities arising in the theory of matrices is also included. Among the most valuable features of the book are the numerous examples and problems at the end of each chapter, carefully selected to clarify points made in the text. Synopsis:Rigorous, selfcontained coverage of determinants, vectors, matrices and linear equations, quadratic forms, more. Elementary, easily readable account with numerous examples and problems at the end of each chapter. Description:Includes bibliographical references (p. [434]435) and index.
Table of ContentsPART I
"DETERMINANTS, VECTORS, MATRICES, AND LINEAR EQUATIONS" I. DETERMINANTS 1.1. Arrangements and the Îsymbol 1.2. Elementary properties of determinants 1.3. Multiplication of determinants 1.4. Expansion theorems 1.5. Jacobi's theorem 1.6. Two special theorems on linear equations II. VECTOR SPACES AND LINEAR MANIFOLDS 2.1. The algebra of vectors 2.2. Linear manifolds 2.3. Linear dependence and bases 2.4. Vector representation of linear manifolds 2.5. Inner products and orthonormal bases III. THE ALGEBRA OF MATRICES 3.1. Elementary algebra 3.2. Preliminary notions concerning matrices 3.3. Addition and multiplication of matrices 3.4. Application of matrix technique to linear substitutions 3.5. Adjugate matrices 3.6. Inverse matrices 3.7. Rational functions of a square matrix 3.8. Partitioned matrices IV. LINEAR OPERATIONS 4.1. Change of basis in a linear manifold 4.2. Linear operators and their representations 4.3. Isomorphisms and automorphisms of linear manifolds 4.4. Further instances of linear operators V. SYSTEMS OF LINEAR EQUATIONS AND RANK OF MATRICES 5.1. Preliminary results 5.2. The rank theorem 5.3. The general theory of linear equations 5.4. Systems of homogeneous linear equations 5.5. Miscellaneous applications 5.6. Further theorems on rank of matrices VI. ELEMENTARY OPERATIONS AND THE CONCEPT OF EQUIVALENCE 6.1. Eoperations and Ematrices 6.2. Equivalent matrices 6.3. Applications of the preceding theory 6.4. Congruence transformations 6.5. The general concept of equivalence 6.6. Axiomatic characterization of determinants PART II FURTHER DEVELOPMENT OF MATRIX THEORY VII. THE CHARACTERISTIC EQUATION 7.1. The coefficients of the characteristic polynomial 7.2. Characteristic polynomials and similarity transformations 7.3. Characteristic roots of rational functions of matrices 7.4. The minimum polynomial and the theorem of Cayley and Hamilton 7.5. Estimates of characteristic roots 7.6. Characteristic vectors VIII. ORTHOGONAL AND UNITARY MATRICES 8.1. Orthogonal matrices 8.2. Unitary matrices 8.3. Rotations in the plane 8.4. Rotations in space IX. GROUPS 9.1. The axioms of group theory 9.2. Matrix groups and operator groups 9.3. Representation of groups by matrices 9.4. Groups of singular matrices 9.5. Invariant spaces and groups of linear transformations X. CANONICAL FORMS 10.1. The idea of a canonical form 10.2. Diagonal canonical forms under the similarity group 10.3. Diagonal canonical forms under the orthogonal similarity group and the unitary similarity group 10.4. Triangular canonical forms 10.5. An intermediate canonical form 10.6. Simultaneous similarity transformations XI. MATRIX ANALYSIS 11.1 Convergent matrix sequences 11.2 Power series and matrix functions 11.3 The relation between matrix functions and matrix polynomials 11.4 Systems of linear differential equations PART III QUADRIATIC FORMS XII. "BILINEAR, QUADRATIC, AND HERMITIAN FORMS" 12.1 Operators and forms of the bilinear and quadratic types 12.2 Orthogonal reduction to diagonal form 12.3 General reduction to diagonal form 12.4 The problem of equivalence. Rank and signature 12.5 Classification of quadrics 12.6 Hermitian forms XIII. DEFINITE AND INDEFINITE FORMS 13.1 The value classes 13.2 Transformations of positive definite forms 13.3 Determinantal criteria 13.4 Simultaneous reduction of two quadratic forms 13.5 "The inequalities of Hadamard, Minkowski, Fischer, and Oppenheim" MISCELLANEOUS PROBLEMS BIBLIOGRAPHY INDEX What Our Readers Are SayingBe the first to add a comment for a chance to win!Product Details
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