Numerical Mathematics and Computing / Edition 6

Numerical Mathematics and Computing / Edition 6

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Cengage Learning
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Numerical Mathematics and Computing / Edition 6

Authors Ward Cheney and David Kincaid show students of science and engineering the potential computers have for solving numerical problems and give them ample opportunities to hone their skills in programming and problem solving. NUMERICAL MATHEMATICS AND COMPUTING, 7th Edition also helps students learn about errors that inevitably accompany scientific computations and arms them with methods for detecting, predicting, and controlling these errors.

Product Details

ISBN-13: 9780495114758
Publisher: Cengage Learning
Publication date: 08/03/2007
Edition description: Older Edition
Pages: 784
Product dimensions: 7.20(w) x 9.30(h) x 1.30(d)

Table of Contents

1. MATHEMATICAL PRELIMINARIES AND FLOATING-POINT REPRESENTATION. Introduction, Mathematical Preliminaries. Floating-Point Representation. Loss of Significance. 2. LINEAR SYSTEMS. Naive Gaussian Elimination. Gaussian Elimination with Scaled Partial Pivoting. Tridiagonal and Banded Systems. 3. NONLINEAR EQUATIONS. Bisection Method. Newton's Method, Secant Method. 4. INTERPOLATION AND NUMBERICAL DIFFERENTIATION. Polynomial Interpolation. Errors in Polynomial Interpolation. Estimating Derivatives and Richardson Extrapolation. 5. NUMERICAL INTEGRATION. Trapezoid Method. Romberg Algorithm. Simpson's Rules and Newton-Cotes Rules. Gaussian Quadrature Formulas. 6. SPLINE FUNCTIONS. First-Degree and Second-Degree Splines. Natural Cubic Splines. B Splines: Interpolation and Approximation. 7. INITIAL VALUES PROBLEMS. Taylor Series Methods. Runge-Kutta Methods. Adaptive Runge-Kutta and Multistep Methods. Methods for First and Higher-Order Systems. Adams-Bashforth-Moulton Methods. 8. MORE ON LINEAR SYSTEMS. Matrix Factorizations. Eigenvalues and Eigenvectors. Power Method. Iterative Solutions of Linear Systems. 9. LEAST SQUARES METHODS AND FOURIER SERIES. Method of Least Squares. Orthogonal Systems and Chebyshev Polynomials. Examples of the Least-Squares Principle. Fourier Series. 10. MONTE CARLO METHODS AND SIMULATION. Random Numbers. Estimation of Areas and Volumes by Monte Carlo Techniques. Simulation. 11. BOUNDARY-VALUE PROBLEMS. Shooting Method. A Discretization Method. 12. PARTIAL DIFFERENTIAL EQUATIONS. Parabolic Problems. Hyperbolic Problems. Elliptic Problems. 13. MINIMIZATION OF FUNTIONS. One-Variable Case. Multivariable Case. 14. LINEAR PROGRAMMING PROBLEMS. Standard Forms and Duality. Simplex Method, Inconsistent Linear Systems. APPENDIX A. ADVICE ON GOOD PROGRAMMING PRACTICES. Programming Suggestions. APPENDIX B. REPRESENTATION OF NUMBERS IN DIFFERENT BASES. Representation of Numbers in Different Bases. APPENDIX C. ADDITIONAL DETAILS ON IEEE FLOATING-POINT ARITHMETIC. More on IEEE Standard Floating-Point Arithmetic. APPENDIX D. LINEAR ALGEBRA CONCEPTS AND NOTATION. Elementary Concepts. ANSWERS FOR SELECTED EXERCISES. BIBLIOGRAPHY. INDEX.

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