1 A 6.00-kg block moving at 8.00m/s is at the top of a track, position A, h=3.00 m above the base of the track, as shown in the diagram. You must solve this problem entirely using energy considerations. (a) Find the total initial energy of the block (assume ground level = 0 potential energy). (b)The block slides from A down the frictionless track to position B. Find the velocity of the block at B. (c) The block then moves over the level rough surface of m, = 0.25. How far will the block travel before coming to rest? 8m/s A dho o on on d
1 A 6.00-kg block moving at 8.00m/s is at the top of a track, position A, h=3.00 m above the base of the track, as shown in the diagram. You must solve this problem entirely using energy considerations. (a) Find the total initial energy of the block (assume ground level = 0 potential energy). (b)The block slides from A down the frictionless track to position B. Find the velocity of the block at B. (c) The block then moves over the level rough surface of m, = 0.25. How far will the block travel before coming to rest? 8m/s A dho o on on d
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Transcribed Image Text:1A 6.00-kg block moving at 8.00m/s is at the top of a track,
position A, h=3.00 m above the base of the track, as shown in
the diagram.
You must solve this problem entirely using energy
considerations.
(a) Find the total initial energy of the block (assume ground
level = 0 potential energy).
(b)The block slides from A down the frictionless track to
position B. Find the velocity of the block at B.
(c) The block then moves over the level rough surface of
m, = 0.25. How far will the block travel before coming to
rest?
8m/s
A
d do no on d e
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