little boy Posted August 18, 2011 Posted August 18, 2011 (edited) Are the changes of electric potential energy equal for a charge moved from point A to point B(electric potential changes) by every paths? Edited August 18, 2011 by stupid boy
TonyMcC Posted August 18, 2011 Posted August 18, 2011 (edited) If you are asking if the voltage across each of a number of resistances connected in parallel is the same then the answer is yes. Edited August 18, 2011 by TonyMcC
timo Posted August 18, 2011 Posted August 18, 2011 As a matter of fact, this is a (if not the) requirement for a potential energy to be properly defined.
davey2222 Posted August 19, 2011 Posted August 19, 2011 If the field involved is conservative then the answer is yes.
swansont Posted August 19, 2011 Posted August 19, 2011 If the field involved is conservative then the answer is yes. And, as timo stated, this has to be true to call it potential energy. They are basically the same requirement.
hawksmere Posted August 19, 2011 Posted August 19, 2011 (edited) I'm not sure what the question is but if length in time direction must be a conserved quantity and lentgth. Although the field of energy will expand in the paths the vector must combined be equal to the energy. Unless i'm completely of track (whihc i feel i may be) you should read up on Feynman's rules regarding energy conservation. You need to also specify the 'phase' of the field. Edited August 19, 2011 by hawksmere
rktpro Posted August 25, 2011 Posted August 25, 2011 Electric force is conservative force as is gravitation. The work done by or against an electric field in moving a charge from one point to another is independent of the path taken.
davey2222 Posted August 29, 2011 Posted August 29, 2011 Does there exist a field which is non-conservative at all?
rktpro Posted August 30, 2011 Posted August 30, 2011 Does there exist a field which is non-conservative at all? Friction.
DrRocket Posted August 30, 2011 Posted August 30, 2011 Does there exist a field which is non-conservative at all? A time-varying electromagnetic field is non-conservative.
davey2222 Posted August 30, 2011 Posted August 30, 2011 Well friction is not a field. For a time varying EM field is it possible to move a charge around a closed path such that the net work is non-zero?
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