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10 Nov 2019
Approximate the area under graph (a) of f(x) = 3 / x2 over the interval [1,5] by computing the area of each rectangle to four decimal places and then adding. Approximate the area under graph (b) of f(x) = 3 / x2 over the interval [1,5] by computing the area of each rectangle to four decimal places and then adding. The area under graph (a) is approximately . (Round to four decimal places as needed.) The area under graph (b) is approximately . (Round to four decimal places as needed.) Approximate the area under graph (a) of f(x) = 3 / x2 over the interval [1,5] by computing the area of each rectangle to four decimal places and then adding. Approximate the area under graph (b) of f(x) = 3 / x2 over the interval [1,5] by computing the area of each rectangle to four decimal places and then adding. The area under graph (a) is approximately . (Round to four decimal places as needed.) The area under graph (b) is approximately . (Round to four decimal places as needed.)
Approximate the area under graph (a) of f(x) = 3 / x2 over the interval [1,5] by computing the area of each rectangle to four decimal places and then adding. Approximate the area under graph (b) of f(x) = 3 / x2 over the interval [1,5] by computing the area of each rectangle to four decimal places and then adding. The area under graph (a) is approximately . (Round to four decimal places as needed.) The area under graph (b) is approximately . (Round to four decimal places as needed.) Approximate the area under graph (a) of f(x) = 3 / x2 over the interval [1,5] by computing the area of each rectangle to four decimal places and then adding. Approximate the area under graph (b) of f(x) = 3 / x2 over the interval [1,5] by computing the area of each rectangle to four decimal places and then adding. The area under graph (a) is approximately . (Round to four decimal places as needed.) The area under graph (b) is approximately . (Round to four decimal places as needed.)
Trinidad TremblayLv2
20 Jun 2019