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A small block slides along a track with ...

A small block slides along a track with elevated ends and a flat central part as shown in figure. The flat portion BC has a length `l=3.0 m`, The curved portions of the track are frictionless. For the flat part, the coefficient of kinetic friction is `mu_(k) = 0.20`, the particle is releast at point A which is at height `h = 15 m` above the flat part of the track. Where does the block finally comes to rest?

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A particle slides along a track with elevated ends and a flat central part as shown in figure. The flat part has a length l=3m . The curved portions of the track are frictionless. For the flat part, the coefficient of kinetic friction is mu_k=0.2 . The particle is released at point A which is at height h=1.5m above the flat part of the track. Where does the particle finally come to rest?

A particle slides along a track with elevated ends and a flat central part as shown in figure. The flat part has a length l=3m . The curved portions of the track are frictionless. For the flat part, the coefficient of kinetic friction is mu_k=0.2 . The particle is released at point A which is at height h=1.5m above the flat part of the track. Where does the particle finally come to rest?

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