Electric Field Zero: Point Charges on a Horizontal Axis

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SUMMARY

The discussion focuses on determining the point along a horizontal axis where the electric field is zero due to two point charges: +3.0 µC at x = 0 cm and -7.0 µC at x = 20 cm. Participants clarify that the electric fields (Ea and Eb) from each charge can be equated to find the point of zero electric field, using the formula Ea = K*A/R1² and Eb = K*B/R2², where R2 is defined as R - R1. The solution involves setting up the equation A/R1² = B/(R - R1)² and solving for R1, which represents the distance from the positive charge to the point where the electric field is zero.

PREREQUISITES
  • Understanding of Coulomb's Law and electric field calculations
  • Familiarity with the concept of point charges
  • Basic algebra for solving equations
  • Knowledge of Newton's second law in relation to forces
NEXT STEPS
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  • Learn how to apply Coulomb's Law in different configurations
  • Explore the method of test charges in electric field analysis
  • Investigate the implications of charge placement on electric field strength
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Students in physics, educators teaching electrostatics, and anyone interested in understanding electric fields created by point charges.

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Homework Statement


Two point charges are placed along a horizontal axis with the following values and positions: +3.0 �C at x = 0 cm and -7.0 �C at x = 20 cm. At what point along the x-axis is the electric field zero?


Homework Equations





The Attempt at a Solution


Can I just set Ea = Eb
Ea = K*A/R^2
Eb = K*B/R^2
 
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thats the basic idea.
but keep in mind that the distances will be different (the R's) and that's what you need to solve for.
Make 2 variables R1 and R2 (for each distance), how are they related?
 
Oh I thought the distance was just the distance between A and B...but its the distance from point A to the point where the electric field and same for B?
 
correct. this is a little strange, we're using the method of a "test charge" which essentially means a pretend charge (you can call the charge "q" but it should always end up canceling in cases like this). a test charge is a way to "test" the field at a certain point where there isn't actually a charge. if you use the distance R (from A to B), that will give you the field at A and at B, note that the forces will be the same at those points (in accordance with Newton's second law), but you are looking for a point inbetween the A and B where the pulls (or pushes) are equal and cancel each other out.
 
So I just use R?
 
no.
you have to use R1 and R2, where R1 + R2 = R (the total distance)
 
I don't get it lol...I'm sorry...
 
Ea = Eb
Ea = K*A/R1^2
Eb = K*B/R2^2
where R2 = R - R1 (in this case R = 20cm the total distance between A and B).
|---------------|-----------------------------|
A_____________C_________________________B
|------R1------||--------------R2------------|
|-------------------R-------------------------|
You're are trying to find the point C, such that the field (or force) is zero.
How about that?
 
Oh wow thanks :)...I see now...So I end up with...
Ea = K*A/R1^2
Eb = K*B/(R-R1)^2

A/R1^2 = B/(R-R1)^2
And I solve for R1??
 
  • #10
exactly!
More importantly, does it makes sense why we set it up like that?
 
  • #11
Yup I completely understand why you set it up like that...thanks!
 

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