For the mechanism shown on the right, link 2 has A a mass of 35 kg, polar mass moment of inertia about its CoM of 6.14 kg.m. Assume link 2 rotates at the angular acceleration of 400 rad/S²CW and the linear acceleration of 5000 m/s at 180. The CoM of link 2 is located at 500 mm from point A. Determine the force CoM 1300 Frequired to create this instantaneous motion. Both blocks are considered massless. 60°

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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For the mechanism shown on the right, link 2 has
a mass of 35 kg. polar mass moment of inertia about
its CoM of 6.14 kg.m. Assume link 2 rotates at the
angular acceleration of 400 rad/s² CW and the linear
acceleration of 5000 m/s at 180". The CoM of link 2 is
located at 500 mm from point A. Determine the force
Frequired to create this instantaneous motion. Both
blocks are considered massless.
COM
1300
60°
Transcribed Image Text:For the mechanism shown on the right, link 2 has a mass of 35 kg. polar mass moment of inertia about its CoM of 6.14 kg.m. Assume link 2 rotates at the angular acceleration of 400 rad/s² CW and the linear acceleration of 5000 m/s at 180". The CoM of link 2 is located at 500 mm from point A. Determine the force Frequired to create this instantaneous motion. Both blocks are considered massless. COM 1300 60°
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