Why do Like Charges Attract in Physics?

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Like charges do not attract; instead, they repel each other due to the fundamental principles of electrostatics. When a conductor with a slight negative charge is near a highly negatively charged body, charge polarization occurs, causing the conductor to develop a net positive charge on the side closer to the highly charged body. This polarization allows for an attractive force between the two bodies, but it is ultimately due to the presence of opposite charges. In the case of charged particles, such as electrons, they will always repel each other, reinforcing the idea that like charges cannot attract. The discussion clarifies that attraction can occur through polarization but is fundamentally an interaction of opposite charges.
Mr Virtual
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Hi
My physics teacher told me that if there is one body that has a slight negative charge, and if there is another body that has an extremely high value of negative charge, then the more-negatively charged body will attract the other one. Even our physics book states this fact. Can anyone explain this?
Is this phenomenon true only in case of a body, or also in case of charged particles (like saying that a huge group of electrons will attract a single electron, because it has lower value of negative charge. Well, atleast to me, it sounds insane).

regards
Mr V
 
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Imagine that the slightly charged object is a conductor. Electrons in that conductor will be repelled, thus displaced further from the other charged object. Since the positive charges are closer, there will be a net attractive force. (Look up charge polarization.)
 
Admin note: edited thread title.

- Warren
 
Thanks for the editing.
 
As Doc Al says, normal materials are made up of many positive and negative charges rather thoroughly mixed together to make them approximately neutral. If you apply an external field, the charges in the body will migrate as much as they can to opposite ends of the body. Thus, an originally neutral body can be polarized, so that one end is more negatively charged than the other.

The polarized body can then be attracted to another body with the same polarity of net charge.

This is still an example of opposite charges attracting, though. Consider a single electron and another "ball" of electrons (nevermind how such a thing could be made). These two "bodies" would always repel, no matter what, because they have no positive charges within them at all.

- Warren
 
And thanks for the explanation. That clears it up!
I will delete the note in my post.

regards
Mr V
 

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