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More copies of this ISBNOther titles in the Dover Books on Mathematics series:
A First Course in Numerical Analysis 2ND Editionby Anthony Ralston
Synopses & ReviewsPlease note that used books may not include additional media (study guides, CDs, DVDs, solutions manuals, etc.) as described in the publisher comments.
Publisher Comments:This outstanding text by two wellknown authors treats numerical analysis with mathematical rigor, but presents a minimum of theorems and proofs. Oriented toward computer solutions of problems, it stresses error analysis and computational efficiency, and compares different solutions to the same problem. Following an introductory chapter on sources of error and computer arithmetic, the text covers such topics as approximation and algorithms; interpolation; numerical differentiation and numerical quadrature; the numerical solution of ordinary differential equations; functional approximation by least squares and by minimummaximum error techniques; the solution of nonlinear equations and of simultaneous linear equations; and the calculation of eigenvalues and eigenvectors of matrices. This second edition also includes discussions of spline interpolation, adaptive integration, the fast Fourier transform, the simplex method of linear programming, and simple and double QR algorithms. Problems — some strictly mathematical, others requiring a computer — appear at the end of each chapter. Book News Annotation:This is an unabridged republication of the second edition of a work that was first published in 1965 by McGrawHill Book Company, New York. It treats numerical analysis with mathematical rigor, but presents a minimum of theorems and proofs. Oriented toward computer solutions of problems, it stresses error analysis and computational efficiency, and compares different solutions to the same problem. Following an introductory chapter on sources of error and computer arithmetic, coverage includes approximation and algorithms, interpolation, numerical differentiation and numerical quadrature, and the fast Fourier transform. Ralston is affiliated with the State University of New York; Rabinowitz with Weizmann Institute of Science.
Annotation c. Book News, Inc., Portland, OR (booknews.com) Synopsis:Outstanding text, oriented toward computer solutions, stresses errors in methods and computational efficiency. Problems — some strictly mathematical, others requiring a computer — appear at the end of each chapter. Synopsis:Outstanding text, oriented toward computer solutions, stresses errors in methods and computational efficiency. Problems at ends of chapters.
Synopsis:Outstanding text, oriented toward computer solutions, stresses errors in methods and computational efficiency. Problems — some strictly mathematical, others requiring a computer — appear at the end of each chapter. Table of Contents Preface to the Dover Edition; Preface to the Second Edition; Notation
Chapter 1. Introduction and Preliminaries 1.1 What Is Numerical Analysis? 1.2 Sources of Error 1.3 Error Definitions and Related Matters 1.31 Significant digits; 1.32 Error in functional Evaluation; 1.33 Norms 1.4 Roundoff Error 1.41 The Probabilistic Approach to Roundoff: A Particular Example 1.5 Computer Arithmetic 1.51 FixedPoint Arithmetic; 1.52 FloatingPoint Numbers; 1.53 FloatingPoint Arithmetic; 1.54 Overflow and Underflow; 1.55 Single and DoublePrecision Arithmetic 1.6 Error Analysis 1.61 Backward Error Analysis 1.7 Condition and Stability Bibliographic Notes; Bibliography; Problems Chapter 2. Approximation and Algorithms 2.1 Approximation 2.11 Classes of Approximating Functions; 2.12 Types of Approximations; 2.13 The Case for Polynomial Approximation 2.2 Numerical Algorithms 2.3 Functionals and Error Analysis 2.4 The Method of Undetermined Coefficients Bibliographic Notes; Bibliography; Problems Chapter 3. Interpolation 3.1 Introduction 3.2 Lagrangian Interpolation 3.3 Interpolation at Equal Intervals 3.31 Lagrangian Interpolation at Equal Intervals; 3.32 Finite Differences 3.4 The use of Interpolation Formulas 3.5 Iterated Interpolation 3.6 Inverse Interpolation 3.7 Hermite Interpolation 3.8 Spline Interpolation 3.9 Other Methods of Interpolation; Extrapolation Bibliographic Notes; Bibliography; Problems Chapter 4. Numerical Differentiation, Numerical Quadrature, and Summation 4.1 Numerical Differentiation of Data 4.2 Numerical Differentiation of Functions 4.3 Numerical Quadrature: The General Problem 4.31 Numerical Integration of Data 4.4 Guassian Quadrature 4.5 Weight Functions 4.6 Orthogonal Polynomials and Gaussian Quadrature 4.7 Gaussian Quadrature over Infinite Intervals 4.8 Particular Gaussian Quadrature Formulas 4.81 GaussJacobi Quadrature; 4.82 GaussChebyshev Quadrature; 4.83 Singular Integrals 4.9 Composite Quadrature Formulas 4.10 NewtonCotes Quadrature Formulas 4.101 Composite NewtonCotes Formulas; 4.102 Romberg Integration 4.11 Adaptive Integration 4.12 Choosing a Quadrature Formula 4.13 Summation 4.131 The EulerMaclaurin Sum Formula; 4.132 Summation of Rational Functions; Factorial Functions; 4.133 The Euler Transformation Bibliographic Notes; Bibliography; Problems Chapter 5. The Numerical Solution of Ordinary Differential Equations 5.1 Statement of the Problem 5.2 Numerical Integration Methods 5.21 The Method of Undetermined Coefficients 5.3 Truncation Error in Numerical Integration Methods 5.4 Stability of Numerical Integration Methods 5.41 Convergence and Stability; 5.42 PropagatedError Bounds and Estimates 5.5 PredictorCorrector Methods 5.51 Convergence of the Iterations; 5.52 Predictors and Correctors; 5.53 Error Estimation; 5.54 Stability 5.6 Starting the Solution and Changing the Interval 5.61 Analytic Methods; 5.62 A Numerical Method; 5.63 Changing the Interval 5.7 Using PredictorCorrector Methods 5.71 VariableOrderVariableStep Methods; 5.72 Some Illustrative Examples 5.8 RungeKutta Methods 5.81 Errors in RungeKutta Methods; 5.82 SecondOrder Methods; 5.83 ThirdOrder Methods; 5.84 FourthOrder Methods; 5.85 HigherOrder Methods; 5.86 Practical Error Estimation; 5.87 Stepsize Strategy; 5.88 Stability; 5.89 Comparison of RungeKutta and PredictorCorrector Methods 5.9 Other Numerical Integration Methods 5.91 Methods Based on Higher Derivatives; 5.92 Extrapolation Methods 5.10 Stiff Equations Bibliographic Notes; Bibliography; Problems Chapter 6. Functional Approximation: LeastSquares Techniques 6.1 Introduction 6.2 The Principle of Least Squares 6.3 Polynomial LeastSquares Approximations 6.31 Solution of the Normal Equations; 6.32 Choosing the Degree of the Polynomial 6.4 OrthogonalPolynomial Approximations 6.5 An Example of the Generation of LeastSquares Approximations 6.6 The Fourier Approximation 6.61 The Fast Fourier Transform; 6.62 LeastSquares Approximations and Trigonometric Interpolation Bibliographic Notes; Bibliography; Problems Chapter 7. Functional Approximation: Minimum Maximum Error Techniques 7.1 General Remarks 7.2 Rational Functions, Polynomials, and Continued Fractions 7.3 Padé Approximations 7.4 An Example 7.5 Chebyshev Polynomials 7.6 Chebyshev Expansions 7.7 Economization of Rational Functions 7.71 Economization of Power Series; 7.72 Generalization to Rational Functions 7.8 Chebyshev's Theorem of Minimax Approximations 7.9 Constructing Minimax Approximations 7.91 The Second Algorithm of Remes; 7.92 The Differential Correction Algorithm Bibliographic Notes; Bibliography; Problems Chapter 8. The Solution of Nonlinear Equations 8.1 Introduction 8.2 Functional Iteration 8.21 Computational Efficiency 8.3 The Secant Method 8.4 OnePoint Iteration Formulas 8.5 Multipoint Iteration Formulas 8.51 Iteration Formulas Using General Inverse Interpolation; 8.52 Derivative Estimated Iteration Formulas 8.6 Functional Iteration at a Multiple Root 8.7 Some Computational Aspects of Functional Iteration 8.71 The delta superscript 2 Process 8.8 Systems of Nonlinear Equations 8.9 The Zeros of Polynomials: The Problem 8.91 Sturm Sequences 8.10 Classical Methods 8.101 Bairstow's Method; 8.102 Graeffe's Rootsquaring Method; 8.103 Bernoulli's Method; 8.104 Laguerre's Method 8.11 The JenkinsTraub Method 8.12 A Newtonbased Method 8.13 The Effect of Coefficient Errors on the Roots; Illconditioned Polynomials Bibliographic Notes; Bibliography; Problems Chapter 9. The Solution of Simultaneous Linear Equations 9.1 The Basic theorem and the Problem 9.2 General Remarks 9.3 Direct Methods 9.31 Gaussian Elimination; 9.32 Compact forms of Gaussian Elimination; 9.33 The Doolittle, Crout, and Cholesky Algorithms; 9.34 Pivoting and Equilibration 9.4 Error Analysis 9.41 RoundoffError Analysis 9.5 Iterative Refinement 9.6 Matrix Iterative Methods 9.7 Stationary Iterative Processes and Related Matters 9.71 The Jacobi Iteration; 9.72 The GaussSeidel Method; 9.73 Roundoff Error in Iterative Methods; 9.74 Acceleration of Stationary Iterative Processes 9.8 Matrix Inversion 9.9 Overdetermined Systems of Linear Equations 9.10 The Simplex Method for Solving Linear Programming Problems 9.11 Miscellaneous topics Bibliographic Notes; Bibliography; Problems Chapter 10. The Calculation of Eigenvalues and Eigenvectors of Matrices 10.1 Basic Relationships 10.11 Basic Theorems; 10.12 The characteristic Equation; 10.13 The Location of, and Bo 10.21 Acceleration of convergence; 10.22 The Inverse Power Method 10.3 The Eigenvalues and Eigenvectors of Symmetric Matrices 10.31 The Jacobi Method; 10.32 Givens' Method; 10.33 Householder's Method 10.4 Methods for Nonsymmetric Matrices 10.41 Lanczos' Method; 10.42 Supertriangularization; 10.43 JacobiType Methods 10.5 The LR and QR Algorithms 10.51 The Simple QR Algorithm; 10.52 The Double QR Algorithm 10.6 Errors in Computed eigenvalues and Eigenvectors Bibliographic Notes; Bibliography; Problems Index; Hints and Answers to Problems What Our Readers Are SayingBe the first to add a comment for a chance to win!Product Details
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