Students are performing an experiment with the setup shown above, where a block of mass M sits on a horizontal table. The coefficient of kinetic friction between the block and the table is uk. The block is connected to a hanging object over a pulley. The pulley has negligible mass and friction. The string connecting the two is very light and does not stretch. The students add mass to the hanging object so that its mass is mm, where m < M, and the block-hanging object system is released from rest. The hanging object falls for a distance h, at which point it collides with the ground and comes to rest. The block on the table keeps sliding and travels a total distance d before coming to rest. It does not reach the pulley, and d > h. If the experiment were repeated where the height hh above the floor was increased, would the distance that the block slides after the hanging object hits the floor increase, decrease, or remain the same? Justify your answer without using or manipulating equations.

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Students are performing an experiment with the setup shown above, where a block of mass M sits on a horizontal table. The coefficient of kinetic friction between the block and the table is uk. The block is connected to a hanging object over a pulley. The pulley has negligible mass and friction. The string connecting the two is very light and does not stretch. The students add mass to the hanging object so that its mass is mm, where m < M, and the block-hanging object system is released from rest. The hanging object falls for a distance h, at which point it collides with the ground and comes to rest. The block on the table keeps sliding and travels a total distance d before coming to rest. It does not reach the pulley, and d > h.

If the experiment were repeated where the height hh above the floor was increased, would the distance that the block slides after the hanging object hits the floor increase, decrease, or remain the same? Justify your answer without using or manipulating equations.

M
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Figure 1
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Transcribed Image Text:M | -d- Figure 1 M m
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