Water enters vertically and steadily at a steady rate of 151/s into the sprinkler shown below. The flow is distributed equally to the two arms of the sprinkler. Both nozzles have a diameter of 1.2cm. Determine a) The absolute fluid velocity W2 at the exit nozzles of the sprinkler b) The tip speed velocity of the sprinkler U2 c) The relative tangential fluid velocity at the exit nozzle of the sprinkler if the sprinkler rotates at w=300rpm d) The torque at the shaft for o=300rpm e) The rotational speed of the sprinkler in rpm if frictional effects are negligible (i.e. zero torque) f) The resisting torque required to prevent the sprinkler from rotating

Fluid Mechanics question

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Question 3 Water enters vertically and steadily at a steady rate of 151/s into the sprinkler shown below. The flow is distributed equally to the two arms of the sprinkler. Both nozzles have a diameter of 1.2cm. Determine a) The absolute fluid velocity W2 at the exit nozzles of the sprinkler b) The tip speed velocity of the sprinkler U2 c) The relative tangential fluid velocity at the exit nozzle of the sprinkler if the sprinkler rotates at w=300rpm d) The torque at the shaft for w=300rpm e) The rotational speed of the sprinkler in rpm if frictional effects are negligible (i.e. zero torque) f) The resisting torque required to prevent the sprinkler from rotating 60° 40 cm 40 cm 60° Figure Q3: Plan view of the two-armed sprinkler