Consider the Atwood's machine shown below. The mass my is going down, pulling m, up the frictionlessincline. The base has a length /, and the incline has an angle 0.Solution: Note that the masses have the same acceleration. Recall Newton's second law of motionFma. On my.Then on m₂, we haveSolving for the acceleration, we getT-mg sin@=m₁a.m₂g-T=m₂a0mg-mg sin @Problem:Suppose m₂ is initially on top and both masses are at rest. Calculate the speed of the masses asm₂ reaches the ground. Use a kinematic equation. (Show complete solution)

Answered: Image /qna-images/answer/0ee670e4-c858-45f1-929c-0148a5b266c3.jpg

Consider the Atwood's machine shown below. The mass my is going down, pulling m, up the frictionless incline. The base has a length I, and the incline has an angle 0. m2 Solution: Note that the masses have the same acceleration. Recall Newton's second law of motion =ma. On m₂. T-mg sinoma. Then on my, we have Solving for the acceleration, we get myg-T=ma mg-mg sin 0 Problem: Suppose m₂ is initially on top and both masses are at rest. Calculate the speed of the masses as m₂ reaches the ground. Use a kinematic equation. (Show complete solution)

Consider the Atwood's machine shown below. The mass my is going down, pulling m, up the frictionless incline. The base has a length I, and the incline has an angle 0. m2 Solution: Note that the masses have the same acceleration. Recall Newton's second law of motion =ma. On m₂. T-mg sinoma. Then on my, we have Solving for the acceleration, we get myg-T=ma mg-mg sin 0 Problem: Suppose m₂ is initially on top and both masses are at rest. Calculate the speed of the masses as m₂ reaches the ground. Use a kinematic equation. (Show complete solution)

University Physics Volume 1

18th Edition

ISBN:9781938168277

Author:William Moebs, Samuel J. Ling, Jeff Sanny

Publisher:William Moebs, Samuel J. Ling, Jeff Sanny

Chapter5: Newton's Law Of Motion

Section: Chapter Questions

Problem 30P: If the rocket sled shown in the previous problem starts with only one rocket burning, what is the...

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