Improve Your Test Review: Solving for Final Angular Speed with a Spinning Mass

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Homework Help Overview

The problem involves a mass connected to a cord being spun at a constant angular speed, with a focus on determining the final angular speed after the cord is pulled inward. The subject area is angular momentum in rotational dynamics.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • The original poster expresses uncertainty about setting up the problem and seeks guidance. Participants discuss the conservation of angular momentum and the moment of inertia, with one participant questioning how to calculate it in this context.

Discussion Status

Some participants have provided hints regarding the use of conservation of angular momentum and the formula for moment of inertia. The original poster appears to have made progress in their reasoning, but there is no explicit consensus on the correctness of the final answer provided.

Contextual Notes

There may be constraints related to the homework rules that require specific methods or approaches to be used, which are not fully detailed in the discussion.

fishingaddictr
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im stuck on one of the homework problems I am reviewing for a test. any help would be appreciated. I am not sure on how to set up the problem.

a small 1.32 kg mass is connected to a cord of length 1.62 meters, and spun at a constant angular speed of 8.0 radians per second. if the cord is pulled inward so that the mass is only 0.33 times as far from the axis as it started out, what is the final angular speed of the mass at its new distance from the axis?
 
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HINT: Conservation of angular momentum
 
thats what i was thinking.. so i would set them equal.. what would the moment of inertia be for this case?
 
Since the mass is small, I = mr^2, where r is the length of the cord.
 
oh ok. i got it

since the mass would cancel out i got r1^2*v1=r2^2*v2 with the answer 73.46radians per second.

is that correct?
 

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