The figure shows two bodies connected by a rope passing through a pulley of radius R, such that the system is in equilibrium. The angle of inclination of the left plane with respect to the floor is θ and that of the right plane is ϕ. If the mass of the body on the left is m1, find the mass of the body on the right and the magnitude of the normal forces acting on both bodies.
The figure shows two bodies connected by a rope passing through a pulley of radius R, such that the system is in equilibrium. The angle of inclination of the left plane with respect to the floor is θ and that of the right plane is ϕ. If the mass of the body on the left is m1, find the mass of the body on the right and the magnitude of the normal forces acting on both bodies.
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The figure shows two bodies connected by a rope passing through a pulley of radius R, such that the system is in equilibrium. The angle of inclination of the left plane with respect to the floor is θ and that of the right plane is ϕ. If the mass of the body on the left is m1, find the mass of the body on the right and the magnitude of the normal forces acting on both bodies.
Transcribed Image Text:m
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