2. A large block of mass M and a small rock of mass m are tied together with a rope. The rope is strung over a pulley, which is in turn attached to the top corner of a frictionless inclined plane at an angle 8. The rock m is dangling over the side, while the block M rests against the incline. As usual, a picture is worth a thousand words: 0 M a) Draw free-body diagrams for both the block and the rock.
2. A large block of mass M and a small rock of mass m are tied together with a rope. The rope is strung over a pulley, which is in turn attached to the top corner of a frictionless inclined plane at an angle 8. The rock m is dangling over the side, while the block M rests against the incline. As usual, a picture is worth a thousand words: 0 M a) Draw free-body diagrams for both the block and the rock.
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
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Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Transcribed Image Text:2. A large block of mass M and a small rock of mass m are tied together with a rope. The rope is strung
over a pulley, which is in turn attached to the top corner of a frictionless inclined plane at an angle 8. The
rock m is dangling over the side, while the block M rests against the incline.
As usual, a picture is worth a thousand words:
0
M
m
a) Draw free-body diagrams for both the block and the rock.
Transcribed Image Text:b) If M = 15kg, m = 6kg, and 0 = 20°, what happens? Namely: does the rock get pulled up or does it
fall down? And how quickly does it accelerate?
c) Spoiler alert: the rock falls down, even though its mass is less than half of the block's mass. If the rock
is 3.5m above the ground when it is released, how long will it take to hit the ground?
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