Ankit Gupta Posted September 13, 2013 Share Posted September 13, 2013 why do electric field lines of force always stay perpendicular to their surface , i mean why do they don't make any other angle with it ? Link to comment Share on other sites More sharing options...
studiot Posted September 13, 2013 Share Posted September 13, 2013 (edited) It's really the other way round. You have a line of force and define a surface to which that line is normal, and passes through. If you defined any slant surface then the effect (integral) over the that surface would be the same. Gauss theorem relates to the projection of any slant surface onto the normal one as equivalent. Edited September 13, 2013 by studiot Link to comment Share on other sites More sharing options...
swansont Posted September 13, 2013 Share Posted September 13, 2013 why do electric field lines of force always stay perpendicular to their surface , i mean why do they don't make any other angle with it ? I assume you are referring to a conductor. Charges on a conductor reside on the surface. If the field line is not perpendicular, there will be a component parallel to the surface, which pushes the charges around (it's a conductor so they are free to move), and will do so until there is no more parallel force. So in steady-state, the lines must not have a parallel component. Link to comment Share on other sites More sharing options...
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