Calculating Volume Charge Density in a Sphere of Charge

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SUMMARY

The volume charge density within a sphere of radius R with total charge Q is defined as ρ = ρ₀(1 - r/R), where ρ₀ is the maximum charge density at the center. It has been established that ρ₀ = (3Q)/(πR³) by using the relationship Q = ∫₀^R ρ(r) dV, where the volume of the sphere is given by V = (4/3)πr³. The charge density decreases linearly from ρ₀ at the center to zero at the edge of the sphere.

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A sphere of radius R has total charge Q. the volume chrage density within the sphere is

p=p_0(1-r/R)
the charge density decreases linearly from p_0 at the center to zero at the edge of the sphere.

1) show that p_0= 3Q/pi*R^3

to find this i used p*volume=Q
Q/volume=p

p_0(1-r/R)=Q/volume and the volume of a sphere is 4/3pi*r^3

is this right??
 
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Q = the volume integral of the charge density over the volume of the sphere.

Q = [itex]\int_V\,\rho(r)\,dV[/itex]. One needs to find the expression for dV in spherical coordinates, and since the distribution is dependent only one r, the integral can be simplified with respect to the polar and azimuthal angles.
 
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