Unless otherwise specified, the domain of a function f is assumed to be the set of all real numbers x for which f (x) is a real number. 3 3 (hours) R (t) 11 8. 5 (gallons per hour) The rate at which water leaks from a container is modeled by the twice-differentiable function R, where R (t) is measured in gallons per hour and t is measured in hours for 0 St<1. Values of R (t) are given in the table above for selected values of t. (d) The sum >R is a right Riemann 2n 2n k=1 sum with n subintervals of equal length. The limit of this sum as n goes to infinity can be interpreted as a definite integral. Express the limit as a definite integral.

(a)   Use the data in the table to find an approximation for R′(1/2). Show the computations that lead to your answer. Indicate units of measure.

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Unless otherwise specified, the domain of a function f is assumed to be the set of all real numbers x for which f (x) is a real number. 3 3 (hours) R (t) 11 8. 5 (gallons per hour) The rate at which water leaks from a container is modeled by the twice-differentiable function R, where R (t) is measured in gallons per hour and t is measured in hours for 0 St<1. Values of R (t) are given in the table above for selected values of t.

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(d) The sum >R is a right Riemann 2n 2n k=1 sum with n subintervals of equal length. The limit of this sum as n goes to infinity can be interpreted as a definite integral. Express the limit as a definite integral.