The interval [1, 9] is partitioned into n subintervals [xk-1, xk] for k = 1, ..., n, each of width Ax. Choose any such that xk-1 ≤ x ≤ xk. Let the function f be continuous over [1, 9]. Do the following. (a) State the limit definition of [₁² f(x) dx. (b) Estimate the integral in (a) if f(x) x² using a Riemann sum with n = 4 subintervals of equal width and sample points x = xk for k = 1, 2, 3, 4. (c) Sketch f(x) = x² and the rectangles whose area is the Reimann sum in (b). Use this sketch to explain why the sum in (b) overestimates the value of the integral in (a) when f(x) = x². =

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The interval [1, 9] is partitioned into n subintervals [xk-1, xk] for k = 1, ..., n, each of width Ax. Choose any x such that xê-1 ≤ x* ≤ xk. Let the function f be continuous over [1, 9]. Do the following. [²³³ (a) State the limit definition of f(x) dx. (b) Estimate the integral in (a) if f(x) = x² using a Riemann sum with n = 4 subintervals of equal width and sample points x = xk for k = 1, 2, 3, 4. (c) Sketch f(x) = x² and the rectangles whose area is the Reimann sum in (b). Use this sketch to explain why the sum in (b) overestimates the value of the integral in (a) when f(x) = x².