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Posted:
1 decade ago
19 lug 2011, 03:44 GMT-4
Hi,
I cannot open your model, because I am still on 4.1, but in general:
You won't see an electric field outside the conducting sphere with charges or potentials just inside.
Cheers
Edgar
Hi,
I cannot open your model, because I am still on 4.1, but in general:
You won't see an electric field outside the conducting sphere with charges or potentials just inside.
Cheers
Edgar
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Posted:
1 decade ago
19 lug 2011, 07:00 GMT-4
I should correct myself: you will see the field of a sphere with the total charge inside. With two charges of equal magnitude and opposite sign the total charge is zero, i.e. no field outside.
I should correct myself: you will see the field of a sphere with the total charge inside. With two charges of equal magnitude and opposite sign the total charge is zero, i.e. no field outside.
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Posted:
1 decade ago
19 lug 2011, 12:57 GMT-4
Makes sense. Thanks! What about the magnetic field of a line current in the sphere. Suppose I have an edge of current extending from some Z_0 to Z. I want to determing the Magnetic field inside and outside of the sphere, but I can't get the solution to converge. I am using the same geometry as before, which is a conducting sphere inside another sphere. I have a line from Z=.7 to Z=0. I am adding infinite elements to the domain outside of the conducting sphere. I have tried adding a transition boundary condition to the boundaries of the conducting sphere, but have failed in converging on a solution. It seems to me like this should be a simple model but I am having no success. Any suggestions?
Makes sense. Thanks! What about the magnetic field of a line current in the sphere. Suppose I have an edge of current extending from some Z_0 to Z. I want to determing the Magnetic field inside and outside of the sphere, but I can't get the solution to converge. I am using the same geometry as before, which is a conducting sphere inside another sphere. I have a line from Z=.7 to Z=0. I am adding infinite elements to the domain outside of the conducting sphere. I have tried adding a transition boundary condition to the boundaries of the conducting sphere, but have failed in converging on a solution. It seems to me like this should be a simple model but I am having no success. Any suggestions?