How to Calculate Net Electric Force Correctly?

AI Thread Summary
To calculate the net electric force on charge A, the forces exerted by charges B and C must be considered as vectors. The calculations show that the force from charge B (F2on1) is positive and directed to the right, while the force from charge C (F3on1) is negative and directed to the left. The net force is found by summing these forces, resulting in a positive value indicating a net force towards the right. It’s essential to correctly identify the direction of each force based on charge interactions, as like charges repel and opposite charges attract. The final net electric force calculation is crucial for understanding the overall effect on charge A.
BuBbLeS01
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Net Electric Charge...Please help!

Homework Statement



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What is the net electric force on charge A? (s=1.41 cm, q1=1.1 nC, q2=0.72 nC, q3=5.21 nC. Force is positive if it points to +x direction.)

Homework Equations


F = (K * Q * Q) / r^2

The Attempt at a Solution


F2on1 = (K * Q1 * Q2) / r^2 = 3.59 x 10^-5 N
F3on1 = (K * Q2 * Q3) / 2r^2 = 6.486 x 10^-5 N
F3on1 - F2on1 = 2.9 x 10^-5 N

It's not right...what am I doing wrong?
 
Last edited:
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F3on1 = (K * Q2 * Q3) / 2r^2 = 6.486 x 10^-5 N

Maybe this is a typing error, but this should be Q1 and Q3.

What are the directions of the forces on Q1? (Remember you are taking the force as positive if it is in the +ve x direction.)
 
Oh yea that was an error...
F2on1 = right, positive
F3on1 = left, negative
 
BuBbLeS01 said:
Oh yea that was an error...
F2on1 = right, positive
F3on1 = left, negative

OK, so what is the net force according to this?
 
to the right, positive because the negative charge is closest to A which exerts a positive force on A
 
Yes, the negative will draw A towards +ve x, but the other positive charge C will push it away (-ve x direction). You must sum up the forces (they are vectors).
 
Oh ok so you add them because A is on the end. If it was in the middle you have to subtract them right?

F2on1 = (K * Q1 * Q2) / r^2 = 3.59 x 10^-5 N
F3on1 = (K * Q2 * Q3) / 2r^2 = 6.486 x 10^-5 N
F2on1 + F3on1 = 1.01 x 10^-4 N
 
  • #10
F2on1 is drawing A towards B. So the force is positive according to your convention. F3on1 is pushing A away since like charges repel. That force is in the negative direction. So Fnet = F1on2 - F1on3. It is the difference between the forces. The sign of the answer tells you which direction the of net force.
 
  • #11
So I do...
(3.59e^-5) - (-6.486e^-5) = 1.01e^-4
 

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