1) Two masses are connected by a string. Mass MA rests on a frictionless inclined plane, while ma is initially held at a height of h above the floor. (a) If me is allowed to fall, what will be the resulting acceleration of the masses? (b) If the masses were initially at rest, use the kinematic equations to find their velocity just before mass b hits the floor, (c) Use conservation of energy to find the velocity of the masses just before me hits the floor. You should get the same answer as in part (b). EXPRESS YOUR ANSWER IN TERMS OF h, e, g, MA, and mB. MA 8 = 32° mB h
1) Two masses are connected by a string. Mass MA rests on a frictionless inclined plane, while ma is initially held at a height of h above the floor. (a) If me is allowed to fall, what will be the resulting acceleration of the masses? (b) If the masses were initially at rest, use the kinematic equations to find their velocity just before mass b hits the floor, (c) Use conservation of energy to find the velocity of the masses just before me hits the floor. You should get the same answer as in part (b). EXPRESS YOUR ANSWER IN TERMS OF h, e, g, MA, and mB. MA 8 = 32° mB h
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Transcribed Image Text:1) Two masses are connected by a string. Mass mà rests on a
frictionless inclined plane, while mo is initially held at a height of
h above the floor. (a) If me is allowed to fall, what will be the resulting
acceleration of the masses? (b) If the masses were initially at rest,
use the kinematic equations to find their velocity just before mass b
hits the floor, (c) Use conservation of energy to find the velocity of
the masses just before me hits the floor. You should get the same
answer as in part (b). EXPRESS YOUR ANSWER IN TERMS OF h, 0, g, MA,
and mB.
MA
8 = 32°
тв
h
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