Understanding Translational and Rotational Kinetic Energy in a Rolling Sphere

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Homework Help Overview

The discussion revolves around a solid sphere rolling down an incline, focusing on the concepts of translational and rotational kinetic energy. The problem presents specific parameters such as mass, radius, and incline angle, and poses questions regarding the fraction of total kinetic energy that is translational under different conditions.

Discussion Character

  • Exploratory, Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • Participants explore how to determine the fraction of translational kinetic energy in relation to total kinetic energy. Some express confusion about calculating total kinetic energy and how it relates to the translational component, especially in scenarios with and without friction.

Discussion Status

There is an ongoing exploration of the relationships between translational and rotational kinetic energy. Some participants have provided insights into the effects of friction on the sphere's motion, while others are questioning how to express these relationships without specific numerical calculations.

Contextual Notes

Participants are working under the assumption that the problem is fully stated and are navigating the implications of friction on the sphere's motion. There is a focus on understanding the underlying physics rather than calculating exact values.

mattmannmf
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A solid sphere of uniform density starts from rest and rolls without slipping a distance of d = 4.2 m down a q = 26° incline. The sphere has a mass M = 5.1 kg and a radius R = 0.28 m.

a) Of the total kinetic energy of the sphere, what fraction is translational?


b) Suppose now that there is no frictional force between the sphere and the incline. Now, what is the translational kinetic energy of the sphere at the bottom of the incline?

I figured out that KEtran is 65.8 j. I figured out that the phere reaches the bottom of the ramp at a speed of 5.08. the magnitude of friction forceon the sphere is 6.25 N. I just don't know what to do for a or b...any help?
 
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mattmannmf said:
I just don't know what to do for a or b...any help?
If there's no friction, what fraction of the total KE is translational?
 
all?
 
mattmannmf said:
all?
Right. Without the torque due to friction, it will slide down the incline without rolling.
 
ok so that would be for b. I am still kind of stuck on a.
 
im confused on how to find the total kinetic energy
 
mattmannmf said:
im confused on how to find the total kinetic energy
Assuming that you posted the problem completely, for a you don't need to find the actual total energy, just the fraction that's translational. (Don't plug in any specific numbers.)

Express the translational and rotational KE and see how they relate for a sphere rolling without slipping. Hint: How does ω relate to translational speed?
 

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