Short webpage title: Calculating Electric Field and Force from Two Charges

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The discussion focuses on calculating the electric field and force from two charges positioned on a horizontal axis. The participant attempts to determine the electric field strength at a point above the charges using the formula E=kQ/r^2 but struggles with the correct distance for point p. They realize that the electric field is a vector quantity, requiring consideration of both magnitude and direction for each charge. Confusion arises regarding the correct approach to add the electric fields from both charges, emphasizing the need to account for their directional components. The conversation highlights the complexities involved in vector addition when dealing with electric fields.
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Two charges create an electric field--electric field strenght at a point above h.fiel

Homework Statement


Two charges are located on a horizontal axis. The Coulomb constant is 8.98755x10^9 Nm^2/C^2.

a) Determine the electric field at p on a vertical axis as shown in the attachment. Up is the positive direction. Answer in units of V/m.

b) Calculate the vertical component of the electric force on a -3.1e-6C charge placed at point p. Answer in units of N


Homework Equations



a) E=kQ/r^2
b) F=Eq


The Attempt at a Solution



a) I'm fairly certain I know how to find the field strength from the two charged particles, if point p was directly on the field and in the center.

E=E1+E2
E=k/r^2(Q+q)
E=8.98755e9/3^2(2.2e-6+2.2e-6)
E=4393 V/m

But I think I also need to take into account that p is above the two particles, but now I'm stuck...

b) I think this part would be easier, I just can't do it since I haven't gotten the answer to part a.

F=Eq
F=E(that would be found in part a)(-3.1e-6)
 

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Hi dgl7! :smile:
dgl7 said:
E=k/r^2(Q+q)
E=8.98755e9/3^2(2.2e-6+2.2e-6)

That's correct, if p was on the x-axis, you would use r = 3 for each charge, and add.

Instead, use r = the actual distance between p and each charge.

That will give you the force, so remember force is a vector, and add the two vectors.
 


AHHH that makes sense. Thanks very much!
 


Ok nope. Nevermind, I'm still confused.
This is what I've been doing and attempting:
E=Eleft+Eright
E=kQleft/r^2+kQright/r^2
(r=r and Qleft=Qright)
E=2kQ/r^2
E=2*8.98755e9*2.2e-6/(1.8^2+3^2)
E=3230.818627 V/m

Not sure what I'm doing wrong.
 
The electric field is a vector,

so the electric field from each charge has the magnitude kQ/r2, but it also has a direction.

The direction is different for each charge, so you can't just add the magnitudes, can you? :smile:
 
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