The figure shows a double-ended slide track. A small block can slide along the track and move up and down either end of the track. The level part of the track has length L= 41 cm, and the coefficient of kinetic friction, µk, is 0.21 in this section. The curved parts of the track are frictionless. The block is released from rest at a height h = 21 cm above the bottom of the track (as shown). Eventually the friction causes the block to stop sliding. Where is the block when it stops? Express your answer in cm as measured from the left edge of the flat part of the track. cm h L

The figure shows a double-ended slide track. A small block can slide along the track and move up and down either end of the track. The level part of the track has length L= 41 cm, and the coefficient of kinetic friction, µk, is 0.21 in this section. The curved parts of the track are frictionless. The block is released from rest at a height h = 21 cm above the bottom of the track (as shown). Eventually the friction causes the block to stop sliding. Where is the block when it stops? Express your answer in cm as measured from the left edge of the flat part of the track. cm h L

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Question

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The figure shows a double-ended slide track. A small block can slide along the track and move
up and down either end of the track. The level part of the track has length L= 41 cm, and the
coefficient of kinetic friction, µk, is 0.21 in this section. The curved parts of the track are
frictionless. The block is released from rest at a height h = 21 cm above the bottom of the track
(as shown). Eventually the friction causes the block to stop sliding. Where is the block when it
stops?
Express your answer in cm as measured from the left edge of the flat part of the track.
cm
A
h
L

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