A gardener waters the plants by a pipe of diameter 1 cm . The water comes out at the rate of 20 cc/s . The reactionary force exerted on the hand of the gardener is

A water pipe has an internal diameter of 10 cm. Water flows through it at the rate of 20 m/sec. The water jet strikes normally on a wall and falls dead. Find the force on the wall.

A flat plate moves normally towards a discharging jet of water at the rate of 3 m//s . The jet discharges the water at the rate of 0.1 m^(3)//s and at the speed of 18 m//s . The force exerted on the plate due to the jet is

A cylindrical water tank of diameter 1.4m and height 2.1m is being fed by a pipe of diameter 3.5cm through which water flows at the rate of 2 metre per second. In how much time the tank will be filled?

A cylindrical water tank of diameter 1.4m and height 2.1m is being fed by a pipe of diameter 3.5cm through which water flows at the rate of 2 metre per second. In how much time the tank will be filled?

Two water pipes of diameters 2 cm and 4 cm are connected with the main supply line. The velocity of flow of water in the pipe of 2 cm

A cylindrical water tank of diameter 2.8 m and height 4.2 m is being fed by a pipe of diameter 7 cm through which water flows at the rate of 4 m s^(-1). Calculate, in minutes, the time it takes to fill the tank

The apparent depth of water in cylindrical water tank of diameter 2R cm is reducing at the rate of x cm // min when water is being drained out at a constant rate. The amount of water drained in c.c. per minute is (n_(1)= refractive index of air, n_(2)= refractive index of water )

The apparent depth of water in cylindrical water tank of diameter 2R cm is reducing at the rate of x cm // min when water is being drained out at a constant rate. The amount of water drained in c.c. per minute is (n_(1)= refractive index of air, n_(2)= refractive index of water )

The apparent depth of ater in water in cylindrical water tank of diameter 2R cm is reducing at the rate of x cm//min when is being drined out a constant rate. The amount of water drained in cc//min is ( n_1= refractive index of air, n_2= refractive index of water)

A gardener is watering plants at the rate 0.1 litre/sec using a pipe of cross - section 1 cm^(2) . What additional force he has to exert if he desires to increase the rate of watering two times ?