Water from a stream is falling on the blades of a turbine at the rate of `100 kg//s`. If the height of the stram is 100 m, then power delivered to turbine is

Water is falling on the blades of turbine at a rate of 100 kg/s from a certain spring. IF the height of the spring be 100 m, the power transferred to the turbine will be

From a waterfall, water is falling down at the rate of 100kg / s on the blades of turbine. If the height of the fall is 100 m , then the power delivered to the turbine is approximately equal to

The power (P) of an engine lifting a mass of 100 kg up to a height of 10 m in 1 min is

A dam is situated at a height of 300 m above sea level. It supplies water to a power house which is at a height of 60m above sea level. 1000kg of water passes through the turbine per second. If the efficiency of the system is 80% the electrical power out is

A dam is situated at a height of 300 m above sea level. It supplies water to a power house which is at a height of 60m above sea level. 1000kg of water passes through the turbine per second. If the efficiency of the system is 80% the electrical power out is

A crane lifts a mass of 100 kg to a height of 10 m in 20 s. The power of the crane is (Take g = 10 m s^(-2) )

Water from a pipe is coming at a rate of 100 litres per minute. If the radius of the pipe is 5cm , the Reynolds number for the flow is of the order of : (density of water =1000kg//m^(3) , coefficient of viscosity of water =1mPa s )

Water flows through a tunnel from the reservior of a dam towards the turbine installed in its power plant . The power plant is situated h metre below the reservoir . If the ratio of the cross sectional areas of the tunnel at the resercoir and power station end is eta , find the speed of the water entering into the turbine .

A ring of mass 100 kg and diameter 2 m is rotating at the rate of (300/(pi)) rpm. Then

A transverse wave of amplitude 0.50 mm and frequency 100 Hz is produced on a wire stretched to a tension of 100 N. If the wave speed is 100 m s^-1, what average power is the source transmitting to the wire ?