Energy of a solid rotating sphere

AI Thread Summary
The discussion centers on calculating the energy of a solid rotating sphere with uniform mass density and radius. The integral used for the calculation is E = ∫ ρ v²(r) d³r, with the participant substituting values for mass density and velocity. After performing the integration, the participant arrives at an energy expression of 3/5 M R² ω² but questions whether it should be 1/5 M R² ω². A response clarifies that the correct coefficient is actually 2/5, referencing the moment of inertia for a solid sphere. The conversation highlights the importance of correctly identifying variables in physics equations.
wduff
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Homework Statement



A system of particles, forming a sphere of uniform mass density \rho and radius R, rotates around the axis of the sphere with angular velocity omega(t) calculate the energy of the system.

Homework Equations



we were told to solve the problem with this integral:

E = \int \rho v2 (r) d3r

The Attempt at a Solution



I took \rho = M/( 4/3 \pi R3)

v3 = r2 \omega2

and d3 r = r^2 sin \theta dr d\phi d\theta

integrating from 0 to R for r, from 0 to pi for theta, and from 0 to 2 pi for phi, I got

3/5 M R^2 \omega^2

I think the answer ought to be 1/5 MR^2 w^2, right? Thanks for the help.
 
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Welcome to PF!

Hi wduff! Welcome to PF! :smile:

(have a pi: π and an omega: ω and a theta: θ and a phi: φ and a rho: ρ and try using the X2 tag just above the Reply box :wink:)

You've used v = ωr, but it's not the same r, is it? :wink:

(and it's 2/5 … see http://en.wikipedia.org/wiki/List_of_moments_of_inertia)
 
Aha! Thanks a ton tiny tim! And yeah sorry about the terrible formatting I'm sure I'll get the hang of it.
 

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