6. Two masses are attached by a massless string that is draped over a massless pulley. You canassume that the two masses have the same accelerationand tension force magnitudes:a₁a₂a and T₁ = T₂ = TLet m₁ = 5 kg and m₂ = 2 kgThere is friction between m, and the table, with μ = 0.2There is no friction between m2 and the wall.Assume that m₁ moves to the right, and m₂ moves down.a.) Draw free-body diagrams for both m₁ and m₂b.) Calculate the magnitudes of the acceleration, a, and the tension on the string, T.m₁m₂

Draw the free-body diagram of block m2.

6. Two masses are attached by a massless string that is draped over a massless pulley. You can assume that the two masses have the same acceleration and tension force magnitudes: a₁a₂a and T₁ = T₂ = T Let m₁ = 5 kg and m₂ = 2 kg There is friction between m, and the table, with = 0.2 There is no friction between m2 and the wall. Assume that m₁ moves to the right, and m₂ moves down. a.) Draw free-body diagrams for both m, and m₂ b.) Calculate the magnitudes of the acceleration, a, and the tension on the string, T. m₁ m₂

6. Two masses are attached by a massless string that is draped over a massless pulley. You can assume that the two masses have the same acceleration and tension force magnitudes: a₁a₂a and T₁ = T₂ = T Let m₁ = 5 kg and m₂ = 2 kg There is friction between m, and the table, with = 0.2 There is no friction between m2 and the wall. Assume that m₁ moves to the right, and m₂ moves down. a.) Draw free-body diagrams for both m, and m₂ b.) Calculate the magnitudes of the acceleration, a, and the tension on the string, T. m₁ m₂

Physics for Scientists and Engineers, Technology Update (No access codes included)

9th Edition

ISBN:9781305116399

Author:Raymond A. Serway, John W. Jewett

Publisher:Raymond A. Serway, John W. Jewett

Chapter5: The Laws Of Motion

Section: Chapter Questions

Problem 5.18P: A force F applied to an object of mass m1, produces an acceleration of 3.00 m/s2. The same force...

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Newton’s Third Law of Motion

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Question

6. Two masses are attached by a massless string that is draped over a massless pulley. You can
assume that the two masses have the same acceleration
and tension force magnitudes:
a₁a₂a and T₁ = T₂ = T
Let m₁ = 5 kg and m₂ = 2 kg
There is friction between m, and the table, with μ = 0.2
There is no friction between m2 and the wall.
Assume that m₁ moves to the right, and m₂ moves down.
a.) Draw free-body diagrams for both m₁ and m₂
b.) Calculate the magnitudes of the acceleration, a, and the tension on the string, T.
m₁
m₂

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