Simple Coulomb's Law Question

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Two charged objects with charges of 6μC and -2μC initially exert a force of attraction of 2N when separated by distance d. Upon touching, the charges equalize to 2μC each, changing the interaction to repulsive. When moved to a distance of 2d, the new force is calculated using Coulomb's Law, resulting in a force of 0.17N. The discussion emphasizes the importance of understanding charge distribution after contact and the effects of distance on force. The final answer highlights the role of proportionality in solving the problem.
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Simple Coulomb's Law Question Please Help!

Homework Statement



Two identical charged objects have charges of 6μC and -2μC. When placed a d distance apart, their forces of attraction is 2N. If the objects are touched together, then moved to a distance of separation of 2d, what will be the new force between them?


Homework Equations



F= k((q1)(q2))/r^2

The Attempt at a Solution



The answer is 0.17 (repulsive) in the back of the book. I think touching the objects together is supposed to have an affect, but not sure what it is.

Any help is much appreciated folks! :)
 
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p.ella said:

Homework Statement



Two identical charged objects have charges of 6μC and -2μC. When placed a d distance apart, their forces of attraction is 2N. If the objects are touched together, then moved to a distance of separation of 2d, what will be the new force between them?


Homework Equations



F= k((q1)(q2))/r^2

The Attempt at a Solution



The answer is 0.17 (repulsive) in the back of the book. I think touching the objects together is supposed to have an affect, but not sure what it is.

Any help is much appreciated folks! :)

Touching the objects together means allowing charge to flow between them. So after touching you will wind up with two objects of the same charge. What will be that final charge?
 
Dick said:
Touching the objects together means allowing charge to flow between them. So after touching you will wind up with two objects of the same charge. What will be that final charge?

Would the final charge of each be 2C ?
 
p.ella said:
Would the final charge of each be 2C ?

Yes. Well, 2μC anyway. But I know what you mean. The rest of the problem is just ratio and proportion, right?
 
Dick said:
Yes. Well, 2μC anyway. But I know what you mean. The rest of the problem is just ratio and proportion, right?

Pretty much yea. Thank you very much! :)
 
Dick said:
Yes. Well, 2μC anyway. But I know what you mean. The rest of the problem is just ratio and proportion, right?

hey sorry, but I'm still not getting the right answer for some reason, here's my solution (see picture)
 

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nevermind, I realized my method was wrong and got the answer. Thanks again!
 
p.ella said:
aorry I just realized I never canceled out the r^2...is my method correct though?

It's simpler if you just pay attention to what changes. That's the ratio and proportion trick. k and r^2 and μC and all the other units don't change. Divide the two forces by each other and they all cancel. All that changes is (-6)(2) becomes (2)(2) and you get a 1/4 factor from the change in r. What's the ratio of the two forces?
 

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