In Figure Q5, the 17 kg of circular disk is originally rotating with a clockwise angular velocity, ω = 49 rad/s at the end of the link BC. Given the kinetic coefficient of friction, μk = 0.25 when the disk is then placed against the wall. (i) Draw the kinetic diagram of all forces exerted on the circular disk. (ii) Calculate the force of link BC. (iii) Calculate the angular acceleration of the circular disk. (iv) Calculate the time required to stop the motion of the circular disk,
In Figure Q5, the 17 kg of circular disk is originally rotating with a clockwise angular velocity, ω = 49 rad/s at the end of the link BC. Given the kinetic coefficient of friction, μk = 0.25 when the disk is then placed against the wall. (i) Draw the kinetic diagram of all forces exerted on the circular disk. (ii) Calculate the force of link BC. (iii) Calculate the angular acceleration of the circular disk. (iv) Calculate the time required to stop the motion of the circular disk,
Precision Machining Technology (MindTap Course List)
2nd Edition
ISBN:9781285444543
Author:Peter J. Hoffman, Eric S. Hopewell, Brian Janes
Publisher:Peter J. Hoffman, Eric S. Hopewell, Brian Janes
Chapter5: Turning
Section5.5: Taper Turning
Problem 6RQ: What is the corresponding centerline angle of a part with TPI of 0.070"? Round your answer to the...
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In Figure Q5, the 17 kg of circular disk is originally rotating with a clockwise angular
velocity, ω = 49 rad/s at the end of the link BC. Given the kinetic coefficient of
friction, μk = 0.25 when the disk is then placed against the wall.
(i) Draw the kinetic diagram of all forces exerted on the circular disk.
(ii) Calculate the force of link BC.
(iii) Calculate the angular acceleration of the circular disk.
(iv) Calculate the time required to stop the motion of the circular disk,
Transcribed Image Text:150 mm
60°
Figure Q5
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