6,00 m It is released at point A as shown in the form of a 10.0 kg block. The rail is non-friction, except for 6,00 meters long B and C sections. The block slides down the rail and hits a spring with k = 2,250 N/ m and stops for a moment by compressing the spring by 0,300 meters according to its equilibrium position. Find the kinetic coefficient of friction between part B and C and the block.
6,00 m It is released at point A as shown in the form of a 10.0 kg block. The rail is non-friction, except for 6,00 meters long B and C sections. The block slides down the rail and hits a spring with k = 2,250 N/ m and stops for a moment by compressing the spring by 0,300 meters according to its equilibrium position. Find the kinetic coefficient of friction between part B and C and the block.
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Transcribed Image Text:6,00 m
It is released at point A as shown in the form of a 10.0 kg block. The rail is non-friction, except for
6,00 meters long B and C sections. The block slides down the rail and hits a spring with k = 2,250 N/
m and stops for a moment by compressing the spring by 0,300 meters according to its equilibrium
position. Find the kinetic coefficient of friction between part B and Cand the block.
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