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Physics, 11.02.2020 02:21 rclara34oxbrr9

The two equations below express conservation of energy and conservation of mass for water flowing from a circular hole of radius 2 centimeters at the bottom of a cylindrical tank of radius 30 centimeters. In these equations, Δ m is the mass that leaves the tank in time Δ t, v is the velocity of the water flowing through the hole, and h is the height of the water in the tank at time t. g is the acceleration of gravity, which you should approximate as 1000 cm/s2 . The first equation says that the gain in kinetic energy of the water leaving the tank equals the loss in potential energy of the water in the tank. 1 2 Δm v2 = Δm g h The second equation says that the rate at which water leaves the tank equals the rate of decrease in the volume of water in the tank (which is conservation of mass because water has constant density). π 302 dh dt = π 22 v Derive a differential equation for the height of water in the tank. dh dt = If the initial height of the water is 20 centimeters, find a formula or the solution h(t) = According to the model, how long does it take to empty the tank? seconds Another way to solve this differential equation is to make the substitution w = h . What is the differential equation that w satisfies? dw dt =

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