Relation between electric potential energy and electric field

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The electric potential energy is directly related to the electric field through the equation E = -∇V, where E represents the electric field and V is the electric potential. The electric field at a point is the negative gradient of the electric potential, indicating how potential changes in space. This relationship is valid due to the conservative nature of electric fields, which allows for path independence in line integrals. The choice of reference point for electric potential is arbitrary, meaning different potentials can yield the same electric field. Understanding this connection is crucial for analyzing electric forces and energy in various contexts.
Pushpam Singh
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Please explain the relation between electric potential energy and electric field in detail.
 
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component of the electric field at
a given point in space is equal to minus the local gradient of the electric potential in that direction...

uploadfromtaptalk1369994362716.jpg
 
Because ∇ x E = 0, it is possible to write the electric field as a gradient of some scalar. This is true for any vector whose line integral around a close loop is 0 (path indepdendence). Because the line integral is path indepdendent we define V(r) = - ∫ E . dl . It is then easy to derive E = -∇V. I think these two equations provide the best insight into the relation between the electric field and the electric potential. Remember that in the definition of the electric potential there is a choice of reference point that is arbitrary. Thus any two V's differing only in reference point correspond to the same E.
 
Please do not ask questions like that, see https://www.physicsforums.com/blog.php?b=3588 for details.
 
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Thread 'Motional EMF in Faraday disc, co-rotating magnet axial mean flux'

Thread 'Motional EMF in Faraday disc, co-rotating magnet axial mean flux'

So here is the motional EMF formula. Now I understand the standard Faraday paradox that an axis symmetric field source (like a speaker motor ring magnet) has a magnetic field that is frame invariant under rotation around axis of symmetry. The field is static whether you rotate the magnet or not. So far so good. What puzzles me is this , there is a term average magnetic flux or "azimuthal mean" , this term describes the average magnetic field through the area swept by the rotating Faraday...
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