Two blocks with masses, mi and ma, are connected by a massless, un- stretchable rope. They are being hauled up an inclines plane by a constant force of magnitude F, connected to the blocks by another massless, unstretchable rope that goes over a frictionless pulley. The coefficient of friction between the block with mass ni and the plane is the known constant ??The other block has been greased so that there is no friction between it and the plane. The angle of the inclined plane is defined in the figure below. a. Find the acceleration of the blocks b. Find the tension in the rope connecting the two blocks. c. Suppose the magnitude F was not large enough to move the blocks up the plane but large enough so that the blocks did not slide down the plane. Find all the forces actin on the block with mass mi
Two blocks with masses, mi and ma, are connected by a massless, un- stretchable rope. They are being hauled up an inclines plane by a constant force of magnitude F, connected to the blocks by another massless, unstretchable rope that goes over a frictionless pulley. The coefficient of friction between the block with mass ni and the plane is the known constant ??The other block has been greased so that there is no friction between it and the plane. The angle of the inclined plane is defined in the figure below. a. Find the acceleration of the blocks b. Find the tension in the rope connecting the two blocks. c. Suppose the magnitude F was not large enough to move the blocks up the plane but large enough so that the blocks did not slide down the plane. Find all the forces actin on the block with mass mi
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