An object is attached to a rope that wraps over a massive wheel as shown in the diagram. The rope does not slip or stretch. Mass MI is moving on a frictionless surface. A horizontal force F is applied to M1 towards the left as shown in the diagram and the object M2 is observed to accelerate up at 2 m/s². M2 is observed to accelerate left at 2 m/s². Assume that the system starts from rest. (a) Using angular kinematic equations, calculate the angle the wheel rotates through in the first 0.4 secs. (b) Using appropriate principles, calculate the force F. I=0.0125 kg ² R=0.040m MI-3 kg M2=1.5 kg a=2 m/s up

College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
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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An object is attached to a rope that wraps over a massive wheel as shown in the diagram. The rope does
not slip or stretch. Mass M1 is moving on a frictionless surface.
A horizontal force F is applied to Ml towards the left as shown in the diagram and the object M2 is
observed to accelerate up at 2 m/s. M2 is observed to accelerate left at 2 m/s.
Assume that the system starts from rest.
(a) Using angular kinematic equations, calculate the angle the wheel rotates through in the first 0.4 secs.
(b) Using appropriate principles, calculate the force F.
I=0.0125 kg m
R=0.040 m
M1=3 kg
M2=1.5 kg
a= 2 m/s up
II
Transcribed Image Text:6/7 An object is attached to a rope that wraps over a massive wheel as shown in the diagram. The rope does not slip or stretch. Mass M1 is moving on a frictionless surface. A horizontal force F is applied to Ml towards the left as shown in the diagram and the object M2 is observed to accelerate up at 2 m/s. M2 is observed to accelerate left at 2 m/s. Assume that the system starts from rest. (a) Using angular kinematic equations, calculate the angle the wheel rotates through in the first 0.4 secs. (b) Using appropriate principles, calculate the force F. I=0.0125 kg m R=0.040 m M1=3 kg M2=1.5 kg a= 2 m/s up II
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