How Does Coulomb's Law Apply When Socks Repel in a Dryer?

AI Thread Summary
The discussion revolves around applying Coulomb's Law to determine the force between two socks with equal charges when separated at different distances. Initially, the force is given as 0.002 N at a distance of 1 cm, and the task is to find the force when the socks are 5 cm apart. The user struggles to calculate the charge of the socks, ultimately finding that each sock has a charge of approximately 4.74e-9 C. By substituting this charge back into Coulomb's Law with the new distance, the user can compute the new force. The conversation emphasizes the importance of correctly applying the formula and understanding the relationship between charge and distance in electrostatic interactions.
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Homework Statement



You remove two socks from a hot dryer and find that they repel with force of 0.002 N when they’re 1 cm apart. If they have equal charges, and you separate the socks until they’re 5 cm apart, what force will each sock exert on the other? Round the answer to 3 significant digits.

Homework Equations



F=8.9*10^9(q1)(q2) / r^2

The Attempt at a Solution



Ive been working on this for over an hour and am frieking out! First I try to solve for the two charges, using .1 (1cm-converted to meter). I know that once I get this, I can use it to change .1 to .5 and solve for F. Problem is I have been having trouble solving for Q! which leaves me stuck in the begining.

Please please help, I've got a midterm in the morning.:confused:
 
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F=kq1q2/r^2

at .01m, F = .002
Solve for q^2, since q1 = q2
q^2= (0.002)(.01^2) / (8.9e+9)
= 2.25e-17 C
so q1 or q2 equals the square root of q^2:
(2.25e-17)^0.5 = 4.74e-9 C

Then, use these values to solve if r = .05 (just plug them back into the equation)

I hope this helped
 

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