A heavy sled is being pulled by two people, as shown in the figure. The coefficient of static friction between the sled and the ground is Hg = 0.643, and the kinetic friction coefficient is µy = 0.403. The combined mass of the sled and its load is m = 276 kg. The ropes are separated by an angle o = 23.0°, and they make an angle 0 = 32.7° with the horizontal. Assuming both ropes pull equally hard, what is the minimum rope tension required to get the sled moving? minimum rope tension: If this rope tension is maintained after the sled starts moving, what is the sled's acceleration? acceleration: m/s2

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estion 3 or 9
A heavy sled is being pulled by two people, as shown in the
figure. The coefficient of static friction between the sled and
the ground is Hs =
0.643, and the kinetic friction coefficient
is µy = 0.403. The combined mass of the sled and its load is
m = 276 kg. The ropes are separated by an angle o = 23.0°,
and they make an angle 0 = 32.7° with the horizontal.
Assuming both ropes pull equally hard, what is the minimum
rope tension required to get the sled moving?
minimum rope tension:
If this rope tension is maintained after the sled starts moving, what is the sled's acceleration?
acceleration:
m/s2
Transcribed Image Text:estion 3 or 9 A heavy sled is being pulled by two people, as shown in the figure. The coefficient of static friction between the sled and the ground is Hs = 0.643, and the kinetic friction coefficient is µy = 0.403. The combined mass of the sled and its load is m = 276 kg. The ropes are separated by an angle o = 23.0°, and they make an angle 0 = 32.7° with the horizontal. Assuming both ropes pull equally hard, what is the minimum rope tension required to get the sled moving? minimum rope tension: If this rope tension is maintained after the sled starts moving, what is the sled's acceleration? acceleration: m/s2
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