HP 35s HP 35s scientific calculator - User Guide - Page 339

f (x) x With this number of sample points, the algorithm will calculate the same approximation for the integral of any of the functions shown. The actual integrals of the functions shown with solid blue and black lines are about the same, so the approximation will be fairly accurate if f(x) is one of these functions. However, the actual integral of the function shown with a dashed line is quite different from those of the others, so the current approximation will be rather inaccurate if f(x) is this function. The algorithm comes to know the general behavior of the function by sampling the function at more and more points. If a fluctuation of the function in one region is not unlike the behavior over the rest of the interval of integration, at some iteration the algorithm will likely detect the fluctuation. When this happens, the number of sample points is increased until successive iterations yield approximations that take into account the presence of the most rapid, but characteristic, fluctuations. For example, consider the approximation of ∫ ∞ xe −xdx. 0 Since you're evaluating this integral numerically, you might think that you should represent the upper limit of integration as 10499, which is virtually the largest number you can key into the calculator. More about Integration E-3