A particle can slide along a track with elevated ends and a flat central part, as shown in the figure. The flat part has length L = 44.0 cm. The curved portions of the track are frictionless, but for the flat part the coefficient of kinetic friction is -0.2. The particle is released from rest at point A, which is at height h = L/2. How far from the left edge of the flat part does the particle finally stop? Number i Units A h L
A particle can slide along a track with elevated ends and a flat central part, as shown in the figure. The flat part has length L = 44.0 cm. The curved portions of the track are frictionless, but for the flat part the coefficient of kinetic friction is -0.2. The particle is released from rest at point A, which is at height h = L/2. How far from the left edge of the flat part does the particle finally stop? Number i Units A h L
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Transcribed Image Text:A particle can slide along a track with elevated ends and a flat central part, as shown in the figure. The flat part has length L = 44.0 cm.
The curved portions of the track are frictionless, but for the flat part the coefficient of kinetic friction is μk = 0.2. The particle is
released from rest at point A, which is at height h = L/2. How far from the left edge of the flat part does the particle finally stop?
Number i
Units
A
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