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13 Nov 2019
a. Squares with sides of length x are cut out of each corner of a rectangular piece of cardboard measuring 23 ft by 13 ft. The resulting piece of cardboard is then folded into a box without a lid. Find the volume of the largest box that can be formed in this way. b. Suppose that in part a the original piece of cardboard is a square with sides of length s. Find the volume of the largest box that can be formed in this way. c. Suppose that in part a the original piece of cardboard is a rectangle with sides of length L and W. Holding L fixed, find the size of the corner squares x that maximizes the volume of the box as Wâoo. a. Find the volume of the largest box that can be formed in this way The maximum volume isft (Round to the nearest hundredth as needed.)
a. Squares with sides of length x are cut out of each corner of a rectangular piece of cardboard measuring 23 ft by 13 ft. The resulting piece of cardboard is then folded into a box without a lid. Find the volume of the largest box that can be formed in this way. b. Suppose that in part a the original piece of cardboard is a square with sides of length s. Find the volume of the largest box that can be formed in this way. c. Suppose that in part a the original piece of cardboard is a rectangle with sides of length L and W. Holding L fixed, find the size of the corner squares x that maximizes the volume of the box as Wâoo. a. Find the volume of the largest box that can be formed in this way The maximum volume isft (Round to the nearest hundredth as needed.)
Casey DurganLv2
7 Jan 2019