See the picture: Here, Q = 10 micro coulomb. Then there is a hollow conducting sphere of inner radius a=2.0m and outer radius b=8.0m. r1 = 4m from charge. Another hollow conducting sphere of inner radius c=12m and outer radius d=20m. r2 = 10m from charge. Calculate the potential at the following distances from the point charge q and explain your result. Assume that at infinity the potential is zero, i.e. V(∞)=0. a) Potential at r=d b) Potential ar r=c c) Potential at r=(c+d)/2
See the picture: Here, Q = 10 micro coulomb. Then there is a hollow conducting sphere of inner radius a=2.0m and outer radius b=8.0m. r1 = 4m from charge. Another hollow conducting sphere of inner radius c=12m and outer radius d=20m. r2 = 10m from charge. Calculate the potential at the following distances from the point charge q and explain your result. Assume that at infinity the potential is zero, i.e. V(∞)=0. a) Potential at r=d b) Potential ar r=c c) Potential at r=(c+d)/2
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See the picture:
Here, Q = 10 micro coulomb. Then there is a hollow conducting sphere of inner radius a=2.0m and outer radius b=8.0m. r1 = 4m from charge. Another hollow conducting sphere of inner radius c=12m and outer radius d=20m. r2 = 10m from charge. Calculate the potential at the following distances from the point charge q and explain your result. Assume that at infinity the potential is zero, i.e. V(∞)=0.
a) Potential at r=d
b) Potential ar r=c
c) Potential at r=(c+d)/2
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