What determines the shape and spacing of equipotential lines?

AI Thread Summary
The shape of equipotential lines is determined by their requirement to be perpendicular to electric field lines. The spacing of these lines is influenced by the electric field gradient, with closer lines indicating a stronger field. While the change in potential energy affects spacing, there is no strict numerical relationship unless specified. The distance between equipotential lines typically decreases linearly based on the equation for electric potential. Understanding these principles is essential for visualizing electric fields and potential energy distributions.
jamba88
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Homework Statement


What determines the shape and spacing of equipotential lines?

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The Attempt at a Solution


I think the fact that equipotential lines have to be perpendicular to the surface determine the shape of the lines. I'm not sure what determines the spacing. Is it just the change in potential energy that determines the spacing?
 
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jamba88 said:
What determines the shape and spacing of equipotential lines?

I think the fact that equipotential lines have to be perpendicular to the surface determine the shape of the lines. I'm not sure what determines the spacing. Is it just the change in potential energy that determines the spacing?

Not the surface. They must be ⊥ to the flux lines of the E-field.

Spacing? Whatever works for the scale to visualize it I'd say. In relative terms the closer together the stronger the field gradient in that region.
 
jamba88 said:
Is it just the change in potential energy that determines the spacing?

That is also true, however there usually is no numerical relationship between the spacing unless otherwise denoted along the lines. The distance should decrease between the lines linearly as the electric potential is given by kQ/r.
 

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