In its current orientation, water falls from 30.5m above the turbine and the spinning turbine produces 1.000 kWhr of power. Determine the velocity of 3.780 kg of water just before it hits the turbine. (Assume the water is in free fall with an initial speed of zero) O 597.8 m/s O24.45 m/s 12.22 m/s O 147.5 m/s

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In its current orientation, water falls from 30.5m above the turbine and the spinning
turbine produces 1.000 kWhr of power.
Determine the velocity of 3.780 kg of water just before it hits the
turbine. (Assume the water is in free fall with an initial speed of zero)
O 597.8 m/s
O 24.45 m/s
O 12.22 m/s
O 147.5 m/s
Transcribed Image Text:In its current orientation, water falls from 30.5m above the turbine and the spinning turbine produces 1.000 kWhr of power. Determine the velocity of 3.780 kg of water just before it hits the turbine. (Assume the water is in free fall with an initial speed of zero) O 597.8 m/s O 24.45 m/s O 12.22 m/s O 147.5 m/s
At any given time, 181 kg of water is falling at 31.6 m/s over the Canadian Falls.
Use the conservation of energy theorem to determine how high the Canadian
Falls must be? (Assume the water is in free fall with an initial speed of zero)
O 51 m
031 m
O 100 m
O 15 m
Transcribed Image Text:At any given time, 181 kg of water is falling at 31.6 m/s over the Canadian Falls. Use the conservation of energy theorem to determine how high the Canadian Falls must be? (Assume the water is in free fall with an initial speed of zero) O 51 m 031 m O 100 m O 15 m
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