How many electrons would it take for a balloon to stick to the ceiling?

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To determine how many electrons are needed for a balloon to stick to a ceiling, one must consider the balance between the electrostatic force and the gravitational force acting on the balloon. The balloon's weight, calculated using F_g = mg, must be countered by the electrostatic attraction when the balloon is adhered to the ceiling. While friction is relevant for sticking to a wall, it does not apply when the balloon is on the ceiling, as the electrostatic force directly opposes gravity. The discussion highlights the importance of understanding the forces at play in both scenarios. Ultimately, the solution involves calculating the necessary charge to achieve this balance.
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Homework Statement


How many electrons would it take for a typical balloon to stick onto a ceiling? State assumption for ceiling size or balloon size if necessary.


Homework Equations


e = 1.60 x 10 ^ -19 C
q = Ne


The Attempt at a Solution


I thought that it took only one electron for a balloon to induce a slight charge of opposite polarity in the surface of the ceiling. But I do not believe I am right. Please, any help would be appreciated. Thanks
 
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Hi there,

For the balloon to stick on the wall, the friction must compensate the weight of the balloon. Knowing that friction is dependent on the attraction between the wall and the balloon, you should be able to find this out.

Cheers
 
i still don't get it.. anyone else care to explain?
 
Hi there,

Let's try with a bit more details. The balloon has a weight, quite little but still:

F_g = mg

For the balloon to hold on the wall, you must counter weight this force:

\sum \vec{F} = 0

on the vertical axe (y):
-F_g + F_{\text{counter}} = 0

This counteracting force is the friction on the wall created by the electrostatic interaction.

F_{\text{counter}} = \mu \cdot N

I believe I gave more than enough information on your problem. The rest of the solution should be quite easy to find out.

Cheers
 
fatra2 said:
Hi there,


This counteracting force is the friction on the wall created by the electrostatic interaction.

F_{\text{counter}} = \mu \cdot N

But the balloon should stick to the ceiling, so friction doesn't come into it, and the electrostatic
force has to counter gravity directly.
 
Hi there,

The problem is a bit different when you stick the balloon to the ceiling. In this case, the electrostatic force should only counter the gravity directly.

But the original question was on a wall, where only the friction of the balloon can counteract the weight.

Cheers
 
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