What Is the Net Magnitude of the Electric Field at y = 0.200m?

AI Thread Summary
To find the net magnitude of the electric field at y = 0.200m due to two parallel lines of charge, one must consider the contributions from both charges, which are 5.38 micro coulombs/m and -3.66 micro coulombs/m. The electric field from each line of charge is calculated using the formula E = 1/(2πε) * (λ/R), where λ is the charge per unit length and R is the distance from the line to the point of interest. It is crucial to treat the electric fields as vectors, taking their directions into account, especially since the charges have opposite signs. The correct approach involves summing the magnitudes of the electric fields while considering their directions, leading to the final result.
Digdug12
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Homework Statement



A very long uniform line of charge has charge per unit length 5.38 micro coulombs /m and lies along the x-axis. A second long uniform line of charge has charge per unit length -3.66 micro coulombs /m and is parallel to the x-axis at y = 0.400m. What is the net magnitude of the electric field at the point y = 0.200m? Give your answer in N/C in scientific notation to three significant digits.

Homework Equations



E=1/2pi(Epsilon)*[Uniform Charge length/R^2]

The Attempt at a Solution


I tried summing the two electric fields by using the above equation for each uniform charge and adding them together, however the answer is wrong. I also used 1/4pi(epsilon) but it was still wrong, what am i missing?
 
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Digdug12 said:

Homework Statement



A very long uniform line of charge has charge per unit length 5.38 micro coulombs /m and lies along the x-axis. A second long uniform line of charge has charge per unit length -3.66 micro coulombs /m and is parallel to the x-axis at y = 0.400m. What is the net magnitude of the electric field at the point y = 0.200m? Give your answer in N/C in scientific notation to three significant digits.

Homework Equations



E=1/2pi(Epsilon)*[Uniform Charge length/R^2]

The Attempt at a Solution


I tried summing the two electric fields by using the above equation for each uniform charge and adding them together, however the answer is wrong. I also used 1/4pi(epsilon) but it was still wrong, what am i missing?

Keep i mind that the E-field is a vector field.

Add like a vector instead of just summing, because direction matters.

In this case since they are opposite signs, and your point is in the middle, your answer should be ...

|E| = |E1| + |E2|
 
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