5.0 kg particle can slide along a track with elevated ends and a flat central part, as shown in Figure. The flat part has length L = 12.0 m. The curved portions of the track are frictionless, but for the flat part the coefficient of kinetic friction is HK = 0.20. The particle is released from rest at point A, which is a height h = 2 m above the flat part of the track. Where does the particle finally stop? „X=? %3D
5.0 kg particle can slide along a track with elevated ends and a flat central part, as shown in Figure. The flat part has length L = 12.0 m. The curved portions of the track are frictionless, but for the flat part the coefficient of kinetic friction is HK = 0.20. The particle is released from rest at point A, which is a height h = 2 m above the flat part of the track. Where does the particle finally stop? „X=? %3D
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![5.0 kg particle can slide along a track with elevated ends and a flat central part, as
shown in Figure. The flat part has length L = 12.0 m. The curved portions of the
track are frictionless, but for the flat part the coefficient of kinetic friction is Hx =
0.20. The particle is released from rest at point A, which is a height h = 2 m above
the flat part of the track. Where does the particle finally stop?
X=?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F51cdb7ca-ea97-4832-ad88-6499af4855df%2Fac1350f9-e7ac-4601-945b-f9a462e507da%2Fwc2rvo_processed.png&w=3840&q=75)
Transcribed Image Text:5.0 kg particle can slide along a track with elevated ends and a flat central part, as
shown in Figure. The flat part has length L = 12.0 m. The curved portions of the
track are frictionless, but for the flat part the coefficient of kinetic friction is Hx =
0.20. The particle is released from rest at point A, which is a height h = 2 m above
the flat part of the track. Where does the particle finally stop?
X=?
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