A water pump raises water at a rate of `0.50 m^3// min` from a depth of 30 m . If the pump is 70% efficient . What power is developed by the engine . `g=9.8 m*s^(-2)` and density of water = `10^3 kg *m^(-3)`.

A pump can raise 100 L of water per minute to a height of 10 m . What should be the power of the pump ?

The lockgate of a canal is 4.8 m broad. The depth of water on one side of the lockgate is 4.5 m and on the other side is 3m. Calculate the total thrust on the lockgate. The density of water = 1000kg*m^(-3) .

A railway engine of mass 12,000 kg is moving at constant speed of 5m*s^(-1) up an inclined of 15^@ . Calculate the power of the engine. Given g=9.8 m*s^(-2) .

Water is flowing through a horizontal tube of unequal cross section . At a point where the velocity of water is 0.4 m. s^-1 , the pressure is 0.1 m Hg. What is the pressure at a point where the velocity of water is 0.8 m. s^-1 ? The density of mercury =13.6xx10^3kg. m^-3 .

Water is lifted to a vertical height of 90 m using a 7.46 kW engine. If the efficiency of the engine is 80% , find the amount of water lifted in a minute.

A pump lifts 5000kg of water per minute through a height of 12m. Find the power of the engine if 30 % of energy is wasted.

An engine can eject 6000 kg of water upwards at 15 m*s^(-1) , in 1 min . Find the power of the engine.