In the figure, a shaft rotating with constant angular velocity and connected to this shaft at a distance of r1=136 cm, r2=49 cm, r3=69 cm and r4=61 cm m1=3.3 kg, m2=1.6 kg, m3=8.9 The point masses of kg and m4=10 kg are seen. Find the position of the counterweight in degrees, with rd=90 cm. (θ1=63˚, θ2=138˚, θ3=260˚, θ4=234˚)
In the figure, a shaft rotating with constant angular velocity and connected to this shaft at a distance of r1=136 cm, r2=49 cm, r3=69 cm and r4=61 cm m1=3.3 kg, m2=1.6 kg, m3=8.9 The point masses of kg and m4=10 kg are seen. Find the position of the counterweight in degrees, with rd=90 cm. (θ1=63˚, θ2=138˚, θ3=260˚, θ4=234˚)
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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In the figure, a shaft rotating with constant angular velocity and connected to this shaft at a distance of r1=136 cm, r2=49 cm, r3=69 cm and r4=61 cm m1=3.3 kg, m2=1.6 kg, m3=8.9 The point masses of kg and m4=10 kg are seen. Find the position of the counterweight in degrees, with rd=90 cm. (θ1=63˚, θ2=138˚, θ3=260˚, θ4=234˚)
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