How to Determine the Electric Field Between Spherical Shells in a Capacitor?

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To determine the electric field between the spherical shells of a capacitor, one can apply Gauss's law, which states that the electric field is influenced by the charge distribution on the surfaces of the shells. The inner shell, charged with +Q, will create an electric field that can be calculated by considering the symmetry of the system. It is important to remember that the excess charge on a conductor resides on its surface, and the electric field lines are perpendicular to the surface. Summing the electric fields from each shell will provide the total electric field in the region between the shells. This approach is sound and should yield accurate results.
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A spherical capacitor consists of two spherical conducting shell centered at the same
point, and their radii are R1 and R4, respectively. Between these two shells, a conductive
shell with inner and outer radii of R2 and R3 is inserted, as shown in Figure 3. If charge
the inner shell ( R1 ) with +Q.
(a) Determine the electric field between R1 and R4 .





I know that each of these charged spheres will provide E fields. Since e fields are vectors, my intention was to take the sum of all the e fields induced by the individual spherical shells. However i am unsure if my concept is sound. please advice. Thank you
 
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You can use Gauss's law to find this, keeping in mind that the conductor will have all its excess charge at the surface, and the field lines must be perpendicular at that surface.
 
alright thanks! i'll try that
 
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