Electroscope Charge Distribution

AI Thread Summary
The discussion revolves around the charge distribution in an electroscope charged by induction, specifically how to label it on a diagram. Students are debating whether to represent the charge as positive on the top half and negative on the bottom half to illustrate repulsion while maintaining a net charge of zero. The original diagram shows positive charges at the top, leading to questions about the accuracy of the students' interpretations. It is noted that in practice, charge distribution is not sharply defined, and the goal is for students to qualitatively understand the principles of charge distribution. Overall, the emphasis is on grasping the underlying concepts rather than achieving a precise representation.
Livethefire
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Hey,

I am helping out with a class and the students were given a question about an electroscope that is being charged by induction, and they have to label the charge distribution on a diagram. The diagram is drawn such that the conductive elements are separated - indicating a force between them. The answer that is given is here:

Electroscope Induction

I have been getting the students thinking about the "sea" of electrons in the conducting rod and so some of them want to put positive charges on the top half and negative charges on the bottom half so that there is still a repulsion with net charge zero (no transfer/conduction). The more I think about it, the more I think they are not really wrong. I think the real answer lies inbetween that shown in the diagram, and that which I have described. Clearly if you bring a HIGHLY negative plate to the top, the students would be pretty much correct.

Does anyone wish to clarify this point(whether this is right or wrong), or add to the discussion?

Thanks.
 
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The student had something more like this:

The Upper "V" was positive, and the lower was negative. In otherwords half the rod was positive, the other was negative. This allowed the repulsion to still be correct.
 
Oh you mean the top part of the electroscope vane was positive and the lower negative?
That's fair enough - how would you go about determining the difference?

In practice you don't get a sharp change from positive to negative along a conductor like that. Can you find a charge distribution consistent with this setup that does not have the repulsion?

The question just wants the students to demonstrate that they understand the principles qualitatively.
 

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