The figure below shows a rock-crushing mechanism. It is used in a machine where large rock is placed in a vertical hopper and falls into this crushing chamber. Properly sized aggregate, which passes through a sieve, is discharged at the bottom. Rock not passing through the sieve is reintroduced into this crushing chamber. Determine the angular velocity of the crushing arm, in the shown configuration, as the 60 mm crank rotates at 120 rpm, clockwise. In addition, determine V. cm Chose velocity polygon 1 cm : 10: sec

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
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show all steps and solution. mechanics of machines. ignore VE just solve for all velocities

The figure below shows a rock-crushing mechanism. It is used in a machine where
large rock is placed in a vertical hopper and falls into this crushing chamber. Properly
sized aggregate, which passes through a sieve, is discharged at the bottom. Rock not
passing through the sieve is reintroduced into this crushing chamber.
Determine the angular velocity of the crushing arm, in the shown configuration, as
the 60 mm crank rotates at 120 rpm, clockwise. In addition, determine V.
Chose velocity polygon 1 cm : 10 cm.
sec
Crushing
chamber
180 mm
180 mm
360 mm
400 mm
360 mm
90°
0₂= 120 rpm
400 mm
60 mm
60 mm
B
Transcribed Image Text:The figure below shows a rock-crushing mechanism. It is used in a machine where large rock is placed in a vertical hopper and falls into this crushing chamber. Properly sized aggregate, which passes through a sieve, is discharged at the bottom. Rock not passing through the sieve is reintroduced into this crushing chamber. Determine the angular velocity of the crushing arm, in the shown configuration, as the 60 mm crank rotates at 120 rpm, clockwise. In addition, determine V. Chose velocity polygon 1 cm : 10 cm. sec Crushing chamber 180 mm 180 mm 360 mm 400 mm 360 mm 90° 0₂= 120 rpm 400 mm 60 mm 60 mm B
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