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The Trapezoidal Rule

The Trapezoidal Rule. Some elementary functions simply do not have antiderivatives that are elementary functions. For example, there is no elementary function that has any of the following functions as its derivative.

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The Trapezoidal Rule

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  1. The Trapezoidal Rule • Some elementary functions simply do not have antiderivatives that are elementary functions. • For example, there is no elementary function that has any of the following functions as its derivative. • If you need to evaluate a definite integral involving a function whose antiderivative cannot be found, then while the Fundamental Theorem of Calculus is still true, it cannot be easily applied.

  2. The Trapezoidal Rule • In this case, it is easier to resort to an approximation technique. Two such techniques are described in this section. • One way to approximate a definite integral is to use n trapezoids, as shown in Figure 5.42. The area of the region can be approximated using four trapezoids. Figure 5.42

  3. The Trapezoidal Rule • The result is summarized in the following theorem.

  4. Example 1 – Approximation with the Trapezoidal Rule • Use the Trapezoidal Rule to approximate • Compare the results for n = 4 and n = 8, as shown in • Figure 5.44. Four subintervals Eight subintervals Trapezoidal approximations Figure 5.44

  5. Simpson’s Rule • One way to view the trapezoidal approximation of a definite integral is to say that on each subinterval you approximate f by a first-degree polynomial. • In Simpson’s Rule, named after the English mathematician Thomas Simpson, you take this procedure one step further and approximate f by second-degree polynomials.

  6. Simpson’s Rule • Before presenting Simpson’s Rule, a theorem for evaluating integrals of polynomials of degree 2 (or less) is listed.

  7. Error Analysis

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