V P − V O = ∫ P O E . d rThe equation is in one dimension and P and O are points on the x axis.The Electric field is oriented in the + x direction ans has the formula c 1 r where c is a coefficient and r is the distance form the origin of the coordinate system.The vector r → P − r → O has the same direction as that of the electric field.Now, Why do we put P below the integral and O above it? Can someone explain the equation for me?

Question

V    P    −      V    O    =      ∫    P    O    E  .  d  rThe equation is in one dimension and P and O are points on the x axis.The Electric field is oriented in the   +  x direction ans has the formula   c      1    r   where c is a coefficient and r is the distance form the origin of the coordinate system.The vector                     r        →              P    −                    r        →              O   has the same direction as that of the electric field.Now, Why do we put P below the integral and O above it? Can someone explain the equation for me?

Carleigh Shaffer · Accepted Answer

There are two equivalent definitions for the potential difference between two pointsThe potential difference between two points is the work done by an external force in moving unit positive charge from one point to the other.The potential difference between two points is the minus work done by the electric field in moving unit positive charge from one point to the other.Inverting the limits in your equation       V    P    −      V    O    =      ∫    P    O              E      →        ⋅  d            r      →        gives       V    P    −      V    O    =  −      ∫    O    P              E      →        ⋅  d            r      →      So the right hand side of the equation is minus the work done by the the electric field in taking unit positive charge from position O to position P.Writing your equation as       V    P    −      V    O    =      ∫    O    P        (    −                  E        →              )    ⋅  d            r      →        gives you the work done by the external force   −            E      →        in taking unit positive charge from position O to position P

V P </msub> − V O </msub> = <msubsup>

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