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13 Nov 2019
(3 points) Consider the solid that lies above the square (in the xy-plane) R-[0.2] Ã [0, 2] (that is, and below the elliptic paraboloid z = 25-x2-3y2 (A) Estimate the volume by dividing R into 4 equal squares and choosing the sample points to lie in the lower left hand corners. units (B) Estimate the volume by dividing R into 4 equal squares and choosing the sample points to lie in the upper right hand comers. units (C) What is the average of the two answers from (A) and (B)? units3 (D) Estimate the volume by dividing R into 4 equal squares and choosing the sample points to be the midpoints of the squares. units (E) Using iterated integrals, compute the exact value of the volume units
(3 points) Consider the solid that lies above the square (in the xy-plane) R-[0.2] Ã [0, 2] (that is, and below the elliptic paraboloid z = 25-x2-3y2 (A) Estimate the volume by dividing R into 4 equal squares and choosing the sample points to lie in the lower left hand corners. units (B) Estimate the volume by dividing R into 4 equal squares and choosing the sample points to lie in the upper right hand comers. units (C) What is the average of the two answers from (A) and (B)? units3 (D) Estimate the volume by dividing R into 4 equal squares and choosing the sample points to be the midpoints of the squares. units (E) Using iterated integrals, compute the exact value of the volume units
Casey DurganLv2
3 Aug 2019