Am I setting this integral up correctly?

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Homework Statement


Use spherical coordinates to evaluate the integral over a sphere of radius R.

Homework Equations


The equation of my sphere would be x^2+y^2+z^2=R^2
Please see the attached file.

The Attempt at a Solution


I have attached a file to show my work so far. Evaluating the integral once it is set up should be fine, I'm concerned it's not set up correctly. Thank you.
 

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I'm beginning to think that it's also not as easy as (pcos∂)^2 since my radius is R then p=R so isn't it ∫∫∫pcos∂)^2p^2
 
SarahAlbert said:
I'm beginning to think that it's also not as easy as (pcos∂)^2 since my radius is R then p=R so isn't it ∫∫∫pcos∂)^2p^2
Nope. You're integrating p over a radius of R. It's not the same thing.
 
You are calculating a volume integral, so your p is running from 0 to R .

Your function to integrate is ##\ f(r, \theta, \phi) = (r\cos\theta)^2## as you wrote correctly.

Now check out how you can express a volume element in spherical coordinates ##dV(r, \theta, \phi)## , e.g. as shown here or here
 
BvU said:
You are calculating a volume integral, so your p is running from 0 to R .

Your function to integrate is ##\ f(r, \theta, \phi) = (r\cos\theta)^2## as you wrote correctly.

Now check out how you can express a volume element in spherical coordinates ##dV(r, \theta, \phi)## , e.g. as shown here or here

So it would then be (rcosθ)^2r^2sinθdrdθdphi which becomes r^2sinθcosθdrdθdphi and then become r^2sin(2θ)/2drdθdphi