Electric field inside a uniformly charged insulator

[0blivi0n]

Homework Statement

ok here's the problem: find the magnitude of the electric field inside uniformly charged insulating sphere of raduis R.

Homework Equations

application of gauss's law..but...

The Attempt at a Solution

should i use
\phi = q_{encl}\epsilon_0
or
\phi = q_{encl}/\kappa\epsilon
?

 

[Gear300]

It becomes slightly different inside a sphere. Electric fields are vectors, and a point inside a sphere is being affected by an electric field in every direction. Heres what you need to know: Any point inside a spherical shell of any thickness receives a net electric field of 0N/C. Same concept applies to electric force and gravity.
Here is a site to help you out on this:
http://hyperphysics.phy-astr.gsu.edu/Hbase/electric/elesph.html
Using that, if a point is a radial distance a from the center of the sphere (while inside the sphere), the net electric field at a point inside a sphere would be due to only the the charge within the radial distance (the charges outside the radial distance contributes to the 0N/C).

 

[Mindscrape]

So, are you in space or a material? Would you want to use the electric constant for free space or not?

 

[0blivi0n]

So, are you in space or a material? Would you want to use the electric constant for free space or not?

that is what I'm confuswed about...if the insulating sphere is made of a material other than air, which one should I use on the righthand side of the flux equation? \epsilon_{0} or \epsilon. that is should I take the permittivity constant (\kappa) into account or not?

 

[dynamicsolo]

Since you are solving for the electric field strength E, you would just use \epsilon_{o}. If you were asked for the electric flux density D, you would need to be concerned with the electric permittivity of the material. (The hint is that you aren't given a value for \kappa in the problem...)

 

[Phrak]

The Attempt at a Solution

should i use
\phi = q_{encl}\epsilon_0
or
\phi = q_{encl}/\kappa\epsilon
?

Out of curiosity, what volume are you using for the enclosed charge?

 

[0blivi0n]

a sphere

 

[0blivi0n]

thanks dynamicsolo. I'm starting to see how things are now

 

[Phrak]

a sphere

thats a shape, not a volume

 

[c-murda]

If a charge were distributed uniformly on the surface of the balloon(insulator). A point particle with charge q inside is greatest when it is anywhere inside the sphere because the force is zero?

or when it is near the inside surface of the balloon?