The figure shows a system composed of two bodies, of masses mi and m2, connected through an ideal rope that passes through a pulley, also ideal. Both bodies are on two inclined planes, with the same angle of inclination 0, and coefficients of friction 1 and 2. If mi < m2, find the acceleration of the system. XX m₂
The figure shows a system composed of two bodies, of masses mi and m2, connected through an ideal rope that passes through a pulley, also ideal. Both bodies are on two inclined planes, with the same angle of inclination 0, and coefficients of friction 1 and 2. If mi < m2, find the acceleration of the system. XX m₂
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![The figure shows a system composed of two bodies, of masses mi and m2,
connected through an ideal rope that passes through a pulley, also ideal. Both
bodies are on two inclined planes, with the same angle of inclination 0, and
coefficients of friction 1 and 2. If mi < m2, find the acceleration of the system.
XX
m₂](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F07a872f1-2c21-4885-b59a-a10baef94f30%2F9be1f1dd-a4f6-440a-80f3-78afbf2a5294%2F14kihkn_processed.png&w=3840&q=75)
Transcribed Image Text:The figure shows a system composed of two bodies, of masses mi and m2,
connected through an ideal rope that passes through a pulley, also ideal. Both
bodies are on two inclined planes, with the same angle of inclination 0, and
coefficients of friction 1 and 2. If mi < m2, find the acceleration of the system.
XX
m₂
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