The flow through any closed surface enclosing (only) an electric dipole is zero. We can conclude that the electric field: O assumes non-zero values for generic surfaces, but is identically null if the surface is spherical (centered in the center of the dipole) it is identically null on the surface it is generally different from zero on all points of the surface. it is null on some points but it is incoming and outgoing so that the incoming flow compensates for the outgoing flow
The flow through any closed surface enclosing (only) an electric dipole is zero. We can conclude that the electric field: O assumes non-zero values for generic surfaces, but is identically null if the surface is spherical (centered in the center of the dipole) it is identically null on the surface it is generally different from zero on all points of the surface. it is null on some points but it is incoming and outgoing so that the incoming flow compensates for the outgoing flow
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Transcribed Image Text:The flow through any closed surface enclosing (only) an electric dipole is zero. We can conclude that the electric field:
O
assumes non-zero values for generic surfaces, but is identically null if the surface is spherical (centered in the center of the dipole)
it is identically null on the surface
it is generally different from zero on all points of the surface.
it is null on some points but it is incoming and outgoing so that the incoming flow compensates for the outgoing flow
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