Angular acceleration of a pulley

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Homework Help Overview

The problem involves two pulleys with given moments of inertia and radii, along with masses hanging from each pulley. The discussion centers on determining the angular acceleration of the system and related quantities, framed within the context of rotational motion.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss the relationship between torque, moment of inertia, and angular acceleration. There is confusion regarding how to relate tension in the system to the unknown linear acceleration of the masses.

Discussion Status

Some participants are exploring the problem's requirements and expressing confusion about the relationships between the variables involved. Guidance has been offered regarding the need to clarify understanding rather than seeking direct solutions.

Contextual Notes

There is an indication that the original poster may not be fully engaging with the problem-solving process, as noted by other participants. The discussion highlights the importance of understanding the concepts rather than simply seeking answers.

cosmokramer
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Two pulleys are glued together and placed on a common axis. The total moment of interia for the pulleys is 22.0 kgm^2. The radius of the smaller pulley is 0.170 meters and hanging from it is a mass 5.94 kg. The large pulley has a radius of 0.510 meters and hanging from it is a mass of 8.41 kg. If the axle is frictionless:
a) What is the angular acceleration of the pulley?
rad/s^2
b) What is the linear acceleration of the mass, m1?
m/s^2
c) What is the angular acceleration of the mass, m2?
m/s^2

Let me know at cosmokramer24@hotmail.com
 
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Are you making any effort on these?
 
No thanks, I just did about fifteen rotational motion problems. FYI, you cannot just post your homework problems and ask people to solve them for you. No one will do that. What you should do is explain what about the problem you don't understand, and maybe somebody will help you conceptually.
 
ummm...i'm a little confused about this problem too...I just need to know how to do a, and then I could go on from then.
Ok...so we're given the Inertia value right? so then torque = I times angular acceleration (Let's say it's @). And then TR1-TR2=I@. But then, how can you find tension when it's T=m(g-a), since we don't know what a is? Man, the more I do it, the more confused I get.
 

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