How Does a Skater's Rotational Kinetic Energy Change When He Lowers His Arms?

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Homework Help Overview

The discussion revolves around a physics problem concerning the rotational kinetic energy of a skater who changes his moment of inertia by lowering his arms while spinning. The subject area includes concepts of rotational motion, angular velocity, and kinetic energy.

Discussion Character

  • Exploratory, Conceptual clarification

Approaches and Questions Raised

  • The original poster attempts to calculate the initial rotational kinetic energy using the given moment of inertia and angular speed, but expresses uncertainty about their approach. Some participants clarify the distinction between angular speed and angular momentum, questioning the terminology used.

Discussion Status

The discussion is ongoing, with participants providing clarifications regarding the definitions of angular speed and angular momentum. There is no explicit consensus yet, as participants are still exploring the correct interpretations of the terms involved.

Contextual Notes

The original poster's calculations are based on provided values, but there is a noted confusion regarding the correct use of angular velocity and the implications for kinetic energy calculations. The problem does not provide additional context or constraints beyond the initial conditions stated.

unteng10
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Homework Statement


A skater spins with an angular speed of 17.4 rad/s with his arms outstretched. He lowers his arms, decreasing his moment of inertia from 43 kg/m^2 to 37 kg/m^2. Calculate his initial and final rotational kinetic energy.



Homework Equations


L=I\omega
KE=1/2I\omega^2



The Attempt at a Solution


Not sure if I am on the right track here, for initial kinetic energy I came up with 3.53 J. I manipulated L=I\omega to get \omega=L/I to find my angular velocity. Then plugged that in the KE=(1/2)(43 kg/m^2)(.405^2) to get 3.53 J. Did I do this correctly?
 
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A skater spins with an angular speed of 17.4 rad/s
This is not the angular momentum L, but is is the angular velocity w.
 
Okay, so the speed would be \omega?
 
unteng10 said:
Okay, so the speed would be \omega?
Yes. Angular speed is w.
 

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