12-193. The double collar C is pin connected together such that one collar slides over the fixed rod and the other slides over the rotating, rod AB. If the angular velocity of AB is given as ở = (e05) rad/s, where t is in seconds, and the path defined by the fixed rod is r= |(0.4 sin 0 + 0.2)| m, determine the radial and transverse components of the collar's velocity and acceleration when 1=1 s. When 1=0,0 =0. Use Simpson's rule with n = 50 to determine 0 at t= 1 s. 12-194. The double collar C is pin connected together such that one collar slides over the fixed rod and the other slides over the rotating rod AB. If the mechanism is to be designed so that the largest speed given to the collar is 6 m/s, determine the required constant angular velocity ở of rod AB. The path defined by the fixed rod is r = (0.4 sin 0 +0.2) m. в 0.6 m 0.2 m 0.2 m 0.2 m

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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12-193. The double collar C is pin connected together such
that one collar slides over the fixed rod and the other slides
over the rotating, rod AB. If the angular velocity of AB is
given as ở = (e05) rad/s, where t is in seconds, and the path
defined by the fixed rod is r= |(0.4 sin 0 + 0.2)| m, determine
the radial and transverse components of the collar's velocity
and acceleration when 1=1 s. When 1=0,0 =0. Use Simpson's
rule with n = 50 to determine 0 at t= 1 s.
12-194. The double collar C is pin connected together such
that one collar slides over the fixed rod and the other slides
over the rotating rod AB. If the mechanism is to be designed
so that the largest speed given to the collar is 6 m/s, determine
the required constant angular velocity ở of rod AB. The path
defined by the fixed rod is r = (0.4 sin 0 +0.2) m.
в
0.6 m
0.2 m
0.2 m 0.2 m
Transcribed Image Text:12-193. The double collar C is pin connected together such that one collar slides over the fixed rod and the other slides over the rotating, rod AB. If the angular velocity of AB is given as ở = (e05) rad/s, where t is in seconds, and the path defined by the fixed rod is r= |(0.4 sin 0 + 0.2)| m, determine the radial and transverse components of the collar's velocity and acceleration when 1=1 s. When 1=0,0 =0. Use Simpson's rule with n = 50 to determine 0 at t= 1 s. 12-194. The double collar C is pin connected together such that one collar slides over the fixed rod and the other slides over the rotating rod AB. If the mechanism is to be designed so that the largest speed given to the collar is 6 m/s, determine the required constant angular velocity ở of rod AB. The path defined by the fixed rod is r = (0.4 sin 0 +0.2) m. в 0.6 m 0.2 m 0.2 m 0.2 m
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