Where Should the Third Charge Be Placed to Achieve Zero Net Electric Force?

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The discussion revolves around determining the location of a third charge along the y-axis where the net electric force is zero, given two existing charges of -9 microcoulombs and -8 microcoulombs. The relevant equation for electric force is provided, but the user struggles with identifying which charges to use for their calculations. Participants suggest setting the overall electric field equation to zero to find the appropriate location for the third charge. The conversation emphasizes understanding how to combine electric fields from multiple charges to achieve equilibrium. Ultimately, the goal is to pinpoint the exact position along the y-axis where the net electric force on the third charge becomes zero.
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Homework Statement


Three point charges lie in a straight line along the y-axis. A charge of q1 is -9 microcouloumbs at y = 6 m and a charge of q2 is -8 microcoulombs at y = -4m. The net electric force on the third point charge is zero. Where is this charge located.


Homework Equations



Fe = k (q1*q2/r^2)

The Attempt at a Solution



Fe = k (q1*q2/r^2)
= (9*10^9)((9*10^-6)(8*10^-6)/(10m)^2))
= 6.5*10^-3 N

Then i attempted to plug in this value for Fe to receive the r, and the location, but
i don't know which two charges i had to use.

Thanks,

SLM
 
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What's the equation for the electric field? Do you know how to add electric fields induced by different charges?
 
I know how to add different electrical forces, but the problem i have is finding the location of it, instead of the force.
 
Gummibare610 said:
I know how to add different electrical forces, but the problem i have is finding the location of it, instead of the force.

So you've added the two equations for the electric fields of the first two charges together, giving you an equation for the overall electric field E as a function of y (considering both charges). What location along y produces a zero electric field? (Hint: you need to set something to zero and solve for y.)

If a charge is in a zero electric field, what can you say about the net electric force acting on that charge? :wink:
 

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