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A box of 2.500 kg body is accelerated vertically upward at 3.6 m/s2 by a rope? (a) Draw the forces on the object (free body diagram)? (b) How much tension (force) must a rope withstand? 

          A box of 2.500 kg body is accelerated vertically upward at 3.6
m/s2 by a rope?
(a) Draw the forces on the object (free body diagram)?
(b) How much tension (force) must a rope withstand?

Added by Gabriel O.

University Physics with Modern Physics
University Physics with Modern Physics
Hugh D. Young 14th Edition
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A box of 2.500 kg body is accelerated vertically upward at 3.6 m/s2 by a rope? (a) Draw the forces on the object (free body diagram)? (b) How much tension (force) must a rope withstand?
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Transcript

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00:01 In this problem, we are given that there is a box whose mass is 2 .5 kg and this is accelerated in the vertically upward direction such that its acceleration is 3 .6 meter per second square.
00:15 And this is accelerated with the help of a rope.
00:18 So let's say this is the rope.
00:20 And we are first required to draw the free body diagram of this block.
00:26 And along with that, we have to also determine the tension which, this rope should withstand.
00:32 So we can see that if we consider this box as a point object, there is tension force which is acting along the rope.
00:40 Let's take it as t, as well as there is weight which is acting on this box.
00:47 And the weight will be in the vertically downward direction...
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