A syringe containing water is held horizontally with its nozzle at a height h above the ground as shown in fig the cross sectional areas of the piston and the nozzle are A and a respectively the piston is pushed with a constant speed v. Find the horizontal range R of the stream of water on the ground.

Consider a horizontally oriented syringe containing water locate at a height of 1.25 m above the ground. Thediameter of the plunger is 8 mm and the diameter of the nozzle is 2 mm . The plunger is pushed with a constant speed of 0.25m//s. Find the horizontal range of water stream on the grond. Take g=10 m//s^(2)

Consider a horizontally oriented syringe containing water located of a height of 1.25 m above the ground. The diameter of plunger is 8 mm and the diameter if the nozzle is 2 mm . The plunger is pushed with a constant speed of 0.25 m//s . Find the horizontal range of water stream on the ground. Take g = 10 m//s^2 . .

Water is flowing through a horizontal pipe fixed at a height of 2 m above the ground as shown in Fig. 5.90. water strikes ground at a distance of 3m from the pipe. The speed of water as it leaves the pipe is:

A spray gun is shown in the figure where a piston pushes air out of a nozzle. A thin tube of uniform cross section is connected to the nozzle. The other end of the tube is in a small liquid container. As the piston pushes air through the nozzle, the liquid from the container rises into the nozzle and is sprayed out. For the spray gun shown, the radii of the piston and the nozzle are 20mm and 1mm respectively. The upper end of the container is open to the atmosphere. If the piston is pushed at a speed of 5mms^-1 , the air comes out of the nozzle with a speed of

A spray gun is shown in the figure where a piston pushes air out of a nozzle. A thin tube of uniform cross section is connected to the nozzle. The other end of the tube is in a small liquid container. As the piston pushes air through the nozzle, the liquid from the container rises into the nozzle and is sprayed out. For the spray gun shown, the radii of the piston and the nozzle are 20mm and 1mm respectively. The upper end of the container is open to the atmosphere. If the density of air is rho_a , and that of the liquid rho_l , then for a given piston speed the rate (volume per unit time) at which the liquid is sprayed will be proportional to

Water is filled to height h in a fixed vertical cylinder placed on horizontal surface. At time t = 0 a small hole a drilled at a height h//4 from bottom of cylinder as shown. The cross section area of hole is a and the cross-section area of cylinder is A such that A gtgt a . Let the value of horizontal distance of point where the4 water fall on horizontal surface from bottom of cylinder be x as shown. Then from time t = 0 till water comes out of hole, pick the correct statement:

A syringe of diameter D = 8 mm and having a nozzie of diameter d = 2 mm is placed horizontally at a height of 1.25 m as shown in the figure . An incompressible and non - viscous liquid is filled in syringe and the piston is moved at speed of 0.25 m/s .Find the range of liquid jet on the ground.

Water is filled to height h in a fixed vertical cylinder placed on horizontal surface. At time t = 0 a small hole a drilled at a height h//4 from bottom of cylinder as shown. The cross section area of hole is a and the cross-section area of cylinder is A such that A gtgt a . The duration of time for which water flows out of hole is.

A syringe of diameter 1 cm having a nozzle of diameter 1 mm is placed horizontally at a height 5 m from the ground an incompressible non-viscous liquid is filled in the syringe and the liquid is compressed by moving the piston at a speed of 0.5ms^(-1) the horizontal distance travelled by the liquid jet is (g=10ms^(-2))