The roller with the mass my and radius R can rotate without friction around the point O. Around the roller, a weightless and non-stretchable rope is thrown at the ends of which blocks of mass mi, m2 are attached. Block with mass m; is pulled by the force Pon the rough horizontal surface with coefficient of friction u. Calculate the angular acceleration e of the roller. Given: mi, m2, m3, R. u, P
The roller with the mass my and radius R can rotate without friction around the point O. Around the roller, a weightless and non-stretchable rope is thrown at the ends of which blocks of mass mi, m2 are attached. Block with mass m; is pulled by the force Pon the rough horizontal surface with coefficient of friction u. Calculate the angular acceleration e of the roller. Given: mi, m2, m3, R. u, P
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![P.
m2
R
m3
The roller with the mass m; and radius R can rotate without friction around the point O. Around
the roller, a weightless and non-stretchable rope is thrown at the ends of which blocks of mass
mı, m2 are attached. Block with mass m2 is pulled by the force P on the rough horizontal surface
with coefficient of friction u. Calculate the angular acceleration e of the roller.
Given: m1, m2, m3, R. u, P
E =?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F069bfd0c-ab0f-4c0b-b2ef-13f22755184a%2F95ebde87-e0b1-4836-b1e7-e8398b865e29%2Fs5esj1u_processed.jpeg&w=3840&q=75)
Transcribed Image Text:P.
m2
R
m3
The roller with the mass m; and radius R can rotate without friction around the point O. Around
the roller, a weightless and non-stretchable rope is thrown at the ends of which blocks of mass
mı, m2 are attached. Block with mass m2 is pulled by the force P on the rough horizontal surface
with coefficient of friction u. Calculate the angular acceleration e of the roller.
Given: m1, m2, m3, R. u, P
E =?
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