A thick conducting spherical shell is inside of another thick conducting spherical shell. Q(1) = -0.300 C R(A) = 0.10 m R(B)= 0.15m Q(2)= +0.800 C R(C) = 0.45 m R(D) = 0.50m -- A) Find the magnitude of the electric field at r = 0.05 m B) Find the magnitude of the electric field at r = 0.12 m C) Find the magnitude of the electric field at r = 0.30 m D) Find the magnitude of the electric field at r = 0.47 m E) Find the magnitude of the electric field at r = 0.62 m F) What is the flux through a Gaussian sphere of radius r = 1.000m? G) What is the induced charge on the inner surface of the outer shell (at r= 0.45m)? --- Now imagine that the two conducting shells became insulators with the same radii and charge values as before. H) Which of the answers (You got from A-E) above would have to be recalculated: Is it A, B, C, D, or E? I) Explain why the answers you circled would be different with insulators.
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A thick conducting spherical shell is inside of another thick conducting spherical shell. Q(1) = -0....
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