Finding the Equilibrium Position for Three Charges

AI Thread Summary
To find the equilibrium position for the third charge, the net electrostatic force on it must be zero, which occurs when the forces from the other two charges balance. The initial setup involves two positive charges, with the third charge needing to be positioned between them. The user attempted to set up the equation using Coulomb's law but encountered difficulties with cross-multiplication and solving for the distance. Clarification was provided that a quadratic equation should be formed after correctly cross-multiplying both sides. The discussion emphasizes the need to accurately manipulate the equation to find the correct position for the third charge.
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Homework Statement


A charge of 2.21E-9 C is placed at the origin, and a charge of 3.78E-9 C is placed at x = 1.60 m. Find the position at which a third charge of 2.94E-9 C can be placed so that the net electrostatic force on it is zero.

Homework Equations


Coloumb's law

The Attempt at a Solution



All 3 charges are positive, so for the net force to be zero, I believe that the 3rd charge will go in the middle of the other 2 charges.

+q1 |----1.60m - r -----| +q3 |------ r------| +q2

Knowns:
q1 = 2.21 x 10^-9 C
q2 = 3.78 x 10^-9 C
q3 = 2.94 x 10^-9 C
r (between q1 and q2) = 1.60 m

F1 = F2

the k and q3 both cancel, leaving me with:

q1 / (1.60m - r)^2 = q2 / r^2

I cross multiplied, giving me:

q1 / q2 = (1.60m - r)^2 / r^2

This is where I think I'm having a problem. From this point, I found 2 different answers, and both turned out to be wrong: 0.91m and 1.05m (both from q1). Can anyone please help?
 
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You didn't completely "cross multiply" (and I dislike that term). You did multiply on both sides by the denominator on the left, (160- r)^2. Now multiply on both sides by the denominator on the right to get (q1/q2)r^2= (160- r)^2. Multiply out the square on the right and you a quadratic equation to solve for r.
 
So if I multiply the square out on the right, there'll still be an r on the left side.
 
My physics professor said to avoid using the quadratic equation in this situation. Where am I going wrong?
 
Anyone?
 

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