Magnitude and direction of the Electrostatic Force

AI Thread Summary
Three identical charges of 2.0 µC are positioned on the x-axis, with the first at the origin, the second at 50 cm, and the third at 100 cm. The calculated electrostatic forces acting on the charge at the origin are F12 = 0.036 N and F13 = 0.144 N, resulting in a total magnitude of 0.18 N. Since all charges repel each other, the net force on the charge at the origin is directed to the left. This conclusion aligns with the understanding that identical charges repel, causing the charge at the origin to move away from the others. The overall direction of the electrostatic force acting on the charge at the origin is leftward.
wrenegade
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Homework Statement



3 identical charges of 2.0 uC are placed on the x-axis. The first charge is at the origin, the second to the right at x = 50cm, and the third is at the 100 cm mark. What are the magnitude and direction of the electrostatic force which acts on the charge at the origin?

Homework Equations



F = k Q1Q2/r^2

The Attempt at a Solution



F12 = (9.0e9 * 2.0e-6 * 2.0e-6) / 1m^2 = .036N

F13 = (9.0e9 * 2.oe-6 * 2.0e-6) / 0.5m^2 = .144 N

Magnitude = .036 + .144 = .18 N

Direction = I have no clue. If they are all identical wouldn't they all repel each? Wouldn't that make the overall direction to the left since each charge repels the charge at the origin.

Thanks for the help!
 
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wrenegade said:

Homework Statement



3 identical charges of 2.0 uC are placed on the x-axis. The first charge is at the origin, the second to the right at x = 50cm, and the third is at the 100 cm mark. What are the magnitude and direction of the electrostatic force which acts on the charge at the origin?

Homework Equations



F = k Q1Q2/r^2

The Attempt at a Solution



F12 = (9.0e9 * 2.0e-6 * 2.0e-6) / 1m^2 = .036N

F13 = (9.0e9 * 2.oe-6 * 2.0e-6) / 0.5m^2 = .144 N

Magnitude = .036 + .144 = .18 N

Direction = I have no clue. If they are all identical wouldn't they all repel each? What would that say about the direction?

Thanks for the help!

Hi wrenegade, welcome to Physics Forums.

If they all repel each other, in what direction is the charge at the origin going to want to move? What then is the direction of the net force on it?
 
gneill said:
Hi wrenegade, welcome to Physics Forums.

If they all repel each other, in what direction is the charge at the origin going to want to move? What then is the direction of the net force on it?

The charge on the origin would want to move left, correct? Making left the overall direction of the net force.
 
wrenegade said:
The charge on the origin would want to move left, correct? Making left the overall direction of the net force.

Sounds good :smile:
 
gneill said:
Sounds good :smile:

Thank you very much!
 

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