A2.5 kg piece of wood slides on the surface shown in the figure (Figure 1). The curved sides are perfectly smooth, but the rough horizontal bottom is 35 m long and has a kinetic friction coefficient of 0.22 with the wood. The piece of wood starts from rest 4.0 m above the rough bottom • Part A Where will this wood eventually come to rest? Express your answer in meters. Submit Request Answer • Part B For the motion from the initial release until the piece of wood comes to rest, what is the total amount of work done by friction? Express your answer in joules. igure < 1 of 1> Submit Request Answer Wood < Return to Assignment Rough bottom

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A 2.5 kg piece of wood slides on the surface shown in the figure (Figure 1). The curved
sides are perfectly smooth, but the rough horizontal bottom is 35 m long and has a kinetic
friction coefficient of 0.22 with the wood. The piece of wood starts from rest 4.0 m above
the rough bottom.
Part A
Where will this wood eventually come to rest?
Express your answer in meters.
Hν ΑΣφ
S =
m
Submit
Request Answer
|-
Part B
For the motion from the initial release until the piece of wood comes to rest, what is the total amount of work done by friction?
Express your answer in joules
Figure
< 1 of 1 >
V ΑΣφ
?
W =
J
Submit
Request Answer
Wood
< Return to Assignment
Rough bottom
Transcribed Image Text:A 2.5 kg piece of wood slides on the surface shown in the figure (Figure 1). The curved sides are perfectly smooth, but the rough horizontal bottom is 35 m long and has a kinetic friction coefficient of 0.22 with the wood. The piece of wood starts from rest 4.0 m above the rough bottom. Part A Where will this wood eventually come to rest? Express your answer in meters. Hν ΑΣφ S = m Submit Request Answer |- Part B For the motion from the initial release until the piece of wood comes to rest, what is the total amount of work done by friction? Express your answer in joules Figure < 1 of 1 > V ΑΣφ ? W = J Submit Request Answer Wood < Return to Assignment Rough bottom
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