7: Integration

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7.00: Physical Problems for Integration
Examples of engineering problems whose solutions require integration.
7.01: Prerequisites to Numerical Integration
Definition of integrals. Using Riemann sums to approximate the value of integrals, and finding the exact value for some basic integrals.
7.02: Trapezoidal Rule of Integration
Single and composite applications of the trapezoidal rule to approximate the value of definite integrals. Error analysis of the trapezoidal rule.
7.05: Gauss Quadrature Rule of Integration
Theory and application of the Gauss quadrature rule of integration to approximate definite integrals. Applying Gauss quadrature formulas for higher numbers of points and through using tables.
7.06: Integrating Functions Given as Discrete Data Points
Approximating integrals using the trapezoidal rule for functions given as discrete points. Comparing different methods of integrating functions given as discrete points, including application of the trapezoidal rule and integration of the polynomial or spline interpolation.

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