Does energy barely leave the sphere?

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Homework Help Overview

The discussion revolves around the conservation of energy in the context of a ball bearing rolling down a slope. Participants are examining the relationship between translational and rotational kinetic energy and potential energy, questioning the implications of energy loss in this scenario.

Discussion Character

  • Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • Participants explore the equation relating kinetic and potential energy, with one questioning the validity of a stated percentage of energy loss. Others inquire about the specifics of the problem and the conditions under which energy loss might occur.

Discussion Status

The discussion is ongoing, with participants seeking clarification on the original question and the basis for the energy loss percentage. Some express skepticism about the idea of energy loss in an ideal scenario, while others are prompted to provide more context.

Contextual Notes

There is a mention of the ideal nature of the ball bearing and the conditions of the experiment, including the distances from which it is released. The exact parameters of the problem and the source of the energy loss percentage remain unclear.

alex_boothby
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hi,

I've just found ou that ke (translation) + ke (rotational) = Potetntial

i.e • ½ I *angular speed(squared) + 1/2mv(squared) = mgh


is ther anything else i can derive from this. as that is all basically I've written, and that , This proves that hardly any energy is lost, with an average of less than 0.000001738% loss of energy, it shows that the energy does not leave the sphere
 
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you have to be more specific... like perhaps tell us the question... because I am not sure from where u got that percentage
 
its a ball bearing rolling down a slope, and then released at different distances
 
Why should energy be lost from sphere? The equation shows energy in the sphere is conserved. As stunner was stunned, even I am stunned with the percentage of energy loss you gave. An ideal ball bearing, which is an ideal sphere will never lose an energy.
 

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