Solve the problem below using Gauss' Law. [Note: for any object that is an insulator, the net charge given is distributed uniformly throughout the volume of the object.] A small, solid, insulating sphere with radius Ra = 0.1000 m and net charge Q1 = -2.000 µC is centrally located in the middle of a thick, conducting, spherical shell. The shell has an inner radius Rb = 1.000 m and outer radius Rc = 1.100 m and a net charge of Q2 = +7.000 µC. Use Gauss' Law to find: A) the magnitude of E outside the spherical shell at r = 1.500 m B) the magnitude of E within the material of the spherical shell at r = 1.05238 m C) the magnitude of E in between the shell and the sphere at r = 0.2000 m D) the magnitude of E in sphere at r = 0.02000 m E) Are there induced charges on the inner and outer surfaces of the shell? If so, state what they are. If not, explain why not.

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Solve the problem below using Gauss' Law. [Note: for any object that is an insulator, the net charge given is distributed uniformiy throughout the volume of the object.] A small, solid, insulating sphere with radius Ra = 0.1000 m and net charge Q1 = -2.000 µC is centrally located in the middle of a thick, conducting, spherical shell. The shell has an inner radius Rb = 1.000 m and outer radius Rc = 1.100 m %3D and a net charge of Q2 = +7.000 µC. Use Gauss' Law to find: A) the magnitude of E outside the spherical shell at r= 1.500 m B) the magnitude of E within the material of the spherical shell at r = 1.05238 m C) the magnitude of E in between the shell and the sphere at r = 0.2000 m D) the magnitude of E in sphere at r = 0.02000 m E) Are there induced charges on the inner and outer surfaces of the shell? If so, state what they are. If not, explain why not.