How Do You Calculate Electric Fields of Spherical Charges Using Gauss's Law?

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To calculate the electric fields of two uniformly charged spheres using Gauss's Law, start by applying the law to each sphere individually. Gauss's Law states that the total electric flux through a closed surface equals the charge enclosed divided by epsilon_0. The formula E = Q/(epsilon_0 * A) applies, with A being the surface area of the sphere (4*pi*R^2). Electric fields from both spheres can be superimposed by adding their contributions at specific points on the x-axis. This approach will yield the net electric field at the designated locations.
eku_girl83
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Here is the problems that's giving me trouble:
Positive charge Q is distributed uniformly over each of two spherical volumes of radius R. One sphere of charge is centered at the origin and the other at x=2R. Find the magnitude and direction of the net electric field due to these two distributions of charge at the following points on the x-axis.
a) x=0
b) x=R/2
c) x=3R

Do I use the equation E=1/(4*pi*epsilon) (Q/R^3)??
If so, can someone give me a hint on how to apply it to this problem?
 
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You need to use Gauss' Law. Can you begin by explaining to me what Gauss' Law says?

- Warren
 
Gauss's law states that the total electric flux through a closed surface is eqaul to the total electric charge inside the surface divided by Epsilon_0.
EA=Q/Epsilon_0
E=Q/(Epsilon_0*A) in the case of a sphere A=4*pi*R^2
Correct?
 
Yes, that's correct. You should also know that electric fields can be "superimposed." If you find the field due to one sphere, and the field due to the other, you can just add them together to get the total field.

To find the field at each the given points, use Gauss' law twice: once for each of the spheres of charge. Add the results together.

Can you take it from here, or do you need more guidance?

- Warren
 
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