How Fast Will the Pulley Move Before M2 Hits the Ground?

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AI Thread Summary
The discussion revolves around a physics problem involving two masses connected by a rope over a pulley, with a focus on using conservation of energy to determine the speed of the pulley just before one mass hits the ground. The masses are M1 = 35.0 kg and M2 = 38.0 kg, with the pulley being a uniform cylinder. Initial calculations involve determining the force acting on the pulley and the tension created by the difference in mass. Participants discuss the necessary equations for acceleration and energy types involved in the system. The original poster confirms they have resolved their confusion regarding the problem.
JTHERO
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Let me start off by saying I'm new here and I hope I did this in the format. Thank you.

Homework Statement



Two masses, M1= 35.0 kg and M2= 38.0 kg, are connected by a rope that hangs over a pulley. The pulley is a uniform cylinder of radius 0.381 m and mass 3.5 kg. Initially M1 is on the ground and rests 2.5 m above the ground. If the system is released, use conservation of energy to determine the speed of just before it strikes the ground. Assume the pulley bearing is frictionless.

Homework Equations



F= m*a Torque= r x F

The Attempt at a Solution



I found the tension that M2-M1 put on the pulley.

F=(38.0-35.0)*9.8= 29.4

I'm a little lost after that. How do I find the speed of the pulley?
 
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The problem tells you to use conservation of energy. Have you done that? What types of energy are present in the beginning and when the mass hits the ground?
 
i have the same problem is the equation for acceleration

a = (m2-m1)g/{(m1+m2)+.5m}
 
Thanks

I got it now.
 

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