What Is the Mass M in a Pulley System with a 3kg Object?

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SUMMARY

The discussion focuses on calculating the mass M in a pulley system involving a 3kg object. The system moves 127.5cm in 1.65951 seconds, allowing for the determination of acceleration at 0.9729 m/s². Using the equations of motion and tension analysis, the relationship between the tension T, the mass M, and the acceleration is established. The assumption of a massless pulley and frictionless environment simplifies the calculations, leading to the conclusion that the forces acting on both masses can be analyzed using free-body diagrams.

PREREQUISITES
  • Understanding of Newton's Second Law of Motion
  • Familiarity with kinematic equations
  • Knowledge of free-body diagram analysis
  • Basic principles of pulley systems
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  • Study the derivation of Newton's Second Law in pulley systems
  • Learn about kinematic equations in detail, particularly for vertical motion
  • Explore the concept of tension in ropes and its applications in mechanics
  • Investigate the effects of friction in pulley systems and how to account for it
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Physics students, mechanical engineers, and anyone interested in understanding dynamics in pulley systems will benefit from this discussion.

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a 3kg object sits on table with a pulley attached to it. there is a M object hanging from the pulley. dropped from rest the system moves 127.5cm in 1.65951s. there is no friction. what is the value of the mass M.


i used x=volt+1/2at^2 to find the volt of the 3kg object. it is .9729m/s^2. T=ma=2.77. for the M object, is it T=W?
 
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I'm assuming that the pulley is supposed to be massless here. Since this is a frictionless case, by drawing a free-body diagram, we see the only force acting on the 3 kg mass, m, is the tension, and the tension in the rope is uniform. Drawing a free-body diagram for mass M, the total force on it downward is T- Mg. Force on the 3 kg mass is ma, and you've solved for a already.

ma = Mg - T (T - Mg instead depending on the situation)

However, remember that v_0 is your initial velocity in the x direction. This doesn't equal the distance/time. The system starts from rest.
 

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