Numerical Methods with Applications (Kaw)

Last updated

Apr 28, 2023
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- Glossary
- Front Matter

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Front Matter
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1: Introduction
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Introduction to underlying concepts used in numerical methods, including error quantification, types of error, fixed- and floating-point binary number representation and the Taylor Theorem.
2: Differentiation
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Underlying concepts of numerical differentiation. Methods of numerical differentiation for continuous functions and for functions given as discrete data points.
3: Nonlinear Equations
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Methods for numerically solving nonlinear equations, including the bisection method and the Newton-Raphson method. Examples of applications where these techniques might be used.
4: Simultaneous Linear Equations
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Matrix methods of solving simultaneous linear equations, including the Gaussian elimination and LU decomposition methods.
5: Interpolation
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Examples of problems that can be solved by interpolation. Prerequisites for interpolation. Direct and spline methods of interpolation.
6: Regression
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Linear and assorted nonlinear regression models. Determining the adequacy of linear regression models.
7: Integration
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Review of basic integration and the trapezoidal rule. Methods of numerical integration for functions given as discrete points, including the Gauss quadrature rule of integration, application of the trapezoidal rule, and integration of interpolations.
8: Ordinary Differential Equations
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Using Euler's method and the Runge-Kutta second order method to solve first-order ordinary differential equations. Brief discussion of methods for solving higher-order and coupled ordinary differential equations.
Back Matter
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