A two mass system is shown below. The block m1, 10 kg, sits on a 30 degree incline with a coefficient µs = 0.6 between the block and the incline. A mass m2 is attached to mi by a frictionless pulley system and the two blocks are released from rest. (a) Draw and label the free body diagram for the m, block while it is moving on the ramp: Iml (b) How much mass m2 is needed to pull the 10 kg block, m1, up the ramp? (c) If m2 = 15 kg, how long does it take the block to travel a distance 5m on the incline surface? Let uk = 0.3. %3D

A two mass system is shown below. The block m1, 10 kg, sits on a 30 degree incline with a coefficient µs = 0.6 between the block and the incline. A mass m2 is attached to mi by a frictionless pulley system and the two blocks are released from rest. (a) Draw and label the free body diagram for the m, block while it is moving on the ramp: Iml (b) How much mass m2 is needed to pull the 10 kg block, m1, up the ramp? (c) If m2 = 15 kg, how long does it take the block to travel a distance 5m on the incline surface? Let uk = 0.3. %3D

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Question

100%

A two mass system is shown below. The block m1, 10 kg, sits on a 30 degree incline
with a coefficient µs = 0.6 between the block and the incline. A mass m2 is attached
to mi by a frictionless pulley system and the two blocks are released from rest.
(a) Draw and label the free body diagram for the m1 block while it is moving on the
ramp:
Iml
30°
(b) How much mass m2 is needed to pull the 10 kg block, m1, up the ramp?
(c) If m2 = 15 kg, how long does it take the block to travel a distance 5m on the
incline surface? Let uk = 0.3.

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