An object is in the shape drawn below; its boundary is obtained by rotating the parabola $y=2 x^{2}$ (for 0 $\le$x$\le$ 1)around the y axis.(Units are in centimeters.)Suppose that the density of this object varies with height according to the rule $\rho$(y)= 12 (2 - y)grams/cm³.Which of the following Riemann sums computes (approximately)the mass in grams of this object? A) $\sum_{y=0}^{2} \pi \cdot y^{2} \cdot 12(2-y) \Delta y$ B) $\sum_{y=0}^{2} \pi \cdot \frac{y^{2}}{4} \cdot 12(2-y) \Delta y$ C) $\sum_{y=0}^{2} \pi \cdot \frac{y}{2} \cdot 12(2-y) \Delta y$ D) $\sum_{y=0}^{2} \pi \cdot y \cdot 12(2-y) \Delta y$

Question

Quizplus · Accepted Answer

The Answer of An object is in the shape drawn below; its boundary is obtained by rotating the parabola $y=2 x^{2}$ (for 0 $\le$x$\le$ 1)around the y axis.(Units are in centimeters.)Suppose that the density of this object varies with height according to the rule $\rho$(y)= 12 (2 - y)grams/cm³.Which of the following Riemann sums computes (approximately)the mass in grams of this object? A) $\sum_{y=0}^{2} \pi \cdot y^{2} \cdot 12(2-y) \Delta y$ B) $\sum_{y=0}^{2} \pi \cdot \frac{y^{2}}{4} \cdot 12(2-y) \Delta y$ C) $\sum_{y=0}^{2} \pi \cdot \frac{y}{2} \cdot 12(2-y) \Delta y$ D) $\sum_{y=0}^{2} \pi \cdot y \cdot 12(2-y) \Delta y$

An Object Is in the Shape Drawn Below; Its Boundary y=2x2y=2 x^{2}y=2x2

An Object Is in the Shape Drawn Below; Its Boundary $y=2 x^{2}$