A Water: jet Water jet 8- Water enters vertically and steadily at a rate of 35 L/s into the sprinkler shown in Figure with unequal arms and unequal discharge areas. The smaller jet has a discharge area of 3 cm2 and a normal distance of 50 cm from the axis of rotation. The larger jet has a discharge area of 5 cm2 and a normal distance of 35 cm from the axis of rotation. Disregarding any frictional effects, determine (a) the rotational speed of the sprinkler in rpm and (b) the torque required to prevent the sprinkler from rotating. 50 cm 35 cm
A Water: jet Water jet 8- Water enters vertically and steadily at a rate of 35 L/s into the sprinkler shown in Figure with unequal arms and unequal discharge areas. The smaller jet has a discharge area of 3 cm2 and a normal distance of 50 cm from the axis of rotation. The larger jet has a discharge area of 5 cm2 and a normal distance of 35 cm from the axis of rotation. Disregarding any frictional effects, determine (a) the rotational speed of the sprinkler in rpm and (b) the torque required to prevent the sprinkler from rotating. 50 cm 35 cm
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Transcribed Image Text:A Water:
jet
Water
jet
8- Water enters vertically and steadily at a rate of 35 L/s into
the sprinkler shown in Figure with unequal arms and
unequal discharge areas. The smaller jet has a discharge
area of 3 cm2 and a normal distance of 50 cm from the axis
of rotation. The larger jet has a discharge area of 5 cm2 and
a normal distance of 35 cm from the axis of rotation.
Disregarding any frictional effects, determine (a) the
rotational speed of the sprinkler in rpm and (b) the torque required to prevent the sprinkler from
rotating.
50 cm
35 cm
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