Consider a spherical water tank with radiuS 3 feet. A circular hole with radius 0.7 inches is cut into the bottom of the tank. Initially, the water level in the tank is 2 feet. Determine A(y), the horizontal cross-sectional area of the tank at height y. Then, use Torricelli's Law to determine the time tempty when the tank is empty. (Use 32 ft/s? a he gravitational constant.) 4(y) еmpty seconds
Consider a spherical water tank with radiuS 3 feet. A circular hole with radius 0.7 inches is cut into the bottom of the tank. Initially, the water level in the tank is 2 feet. Determine A(y), the horizontal cross-sectional area of the tank at height y. Then, use Torricelli's Law to determine the time tempty when the tank is empty. (Use 32 ft/s? a he gravitational constant.) 4(y) еmpty seconds
Linear Algebra: A Modern Introduction
4th Edition
ISBN:9781285463247
Author:David Poole
Publisher:David Poole
Chapter6: Vector Spaces
Section6.7: Applications
Problem 18EQ
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