The Mysteries of the Franklin Bell Experiment

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In the Franklin Bell experiment, an iron nut suspended between two charged bells theoretically could remain balanced, but practical factors like air currents or ion fluctuations will disrupt this balance. When the nut moves towards one bell, it experiences a stronger attractive force, which increases the induced opposite charge on that bell, enhancing the attraction. Upon hitting the positive or negative bell, the nut may pick up a charge that causes it to oscillate between the two. The initial pole the nut hits is largely determined by chance due to these external influences. Understanding these dynamics clarifies the nut's behavior in the experiment.
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Questions regarding the Franklin Bell experiment.

1. Given the iron nut suspended between the positive bell and negative bell were equidistant (theoretically in the middle).
Which pole would the nut hit first?
2. Does the electron quality change when the suspended nut hits either bell. I'm a little foggy on why the nut oscillates. I'm thinking when ithe nut hits , say the positve bell, it bounces off the bell and pick up a positve charge which make it move to the negative bell. Please explain?

thanks
 
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Strictly speaking and theoretically the nut could just hang there as attractive on either side of it exactly balance. Practically, will might an air current or statistical fluctuation of ions in the air around it that will upset the balance. At that point the nut will move towards the electrode that exerts the stronger force which will increase the induced charges opposite charge facing that electrode, which will make the force of attraction even stronger and so on until the nut hits the attracting electrode. Whether it is the positive or negative is a matter of chance.

Here is a nice video of how this works.
 
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