Induced charge distribution on two different radius sphere

AI Thread Summary
When two insulated metal spheres of different radii are brought close together, the charge distribution on their surfaces changes due to their differing sizes and charge densities. The smaller sphere, having a higher charge density, will exhibit a stronger electric field and will experience charge redistribution. The larger sphere may develop a dipole effect if the size difference is significant enough, leading to a separation of charge. The overall charge remains conserved, but the distribution becomes uneven due to the proximity of the two spheres. This results in a complex interaction that alters the charge distribution on both spheres.
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Homework Statement


Two insulated metal spheres of equal sizes are given equal positive
charges. The two spheres are brought very close to each other without
touching. Draw the new charge distribution on the spheres if one sphere
is much larger than the other.


Homework Equations



[Coulomb's law] - qualitative result only

The Attempt at a Solution


The two spheres have different radii. Initially the charge on both spheres will be evenly distributed over their surface. The smaller sphere has the greater charge density and the more intense electic field. When the two are brought close together please confirm the charge distribution is as shown below. Perhaps there will also be separation of charge on the larger sphere. The smaller sphere will experience some charge redistribution.

N.B. The inside of the spheres are shown filled with "o" characters:

....o
...+.ooooo......+
...+.oooooooo......o.+
...+.ooooooooooo.-...+.ooo.+
...+.ooooooooooooo.-...oooooo
...+.oooooooooo.-...ooo.+
...+.oooooooo......o
...ooooo......+
...o
 
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I guess it's possible the larger sphere could become a dipole if the smaller sphere was small enough and hence had a much higher charge density and hence electric field.

Is this correct?
 
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