Positive Charge in Cube: Field Lines Distribution

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A positive charge at the center of a cube generates electric field lines that are not uniformly distributed across the cube's faces. Uniform distribution means that the density of field lines is consistent across a surface, which is not the case here due to the radial dependence of the electric field strength. As the dimensions of the cube decrease towards the point charge, the field lines become denser, indicating a stronger electric field at the center. The electric field's non-uniformity is evident as the distance from the charge decreases, leading to varying field line intersections on the cube's surface. Overall, the electric field becomes more concentrated and less uniform as one approaches the point charge.
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There is a positive charge located at the center of a cube.

are the intersections of the field lines with a side of the box uniformly distributed across that side? (can someone also give a clear definition of what uniformly distributed means?)

describe how the field lines for the positive point charge appear to be distributed when the region over which you look becomes sufficiently small.

thank you for any input. I've been up for hours on this wonderful crap :)
 
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are the intersections of the field lines with a side of the box uniformly distributed across that side? (can someone also give a clear definition of what uniformly distributed means?)
Uniformly distributed would mean no spatial depdence on the flux, i.e. the field line density would be independent of position on the face.

Assume the positive charge is a point charge. What is the dependence on the field strength (field line density) as function of distance from the point source? What can one say about the loci of points on the face of a cube in relationship to the center of the cube?

What happens as the dimensions of the cube shrink to the point charge?
 
so the center of the cube should have a stronger electric field. the electric field should not be uniformly distributed.

and if the dimensions of the cube shrink, then the field lines would look like they're denser...

i think... I am not sure. am i closer to the truth? ^^
 
You are getting close.

If the E field lines have a dependence on r (radial distance from charge), what can be said about the uniformity on a flat surface?

What happens to the square surface (cube face) as r gets smaller, i.e. r -> 0? What happens to the uniformity or non-uniformity as a result?
 
to answer the first question, there is no uniformity on a flat surface because the field lines hit the surface at different distances. I am pretty sure of this.

if the r gets smaller, then the electric field should increase, and it should become more uniform...
 
Right on! :cool:
 
thanks very much! :)
 

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