The field lines corresponding to an electric filed is shown in the figure then ( E denotes electric field and V denotes electric potential)

In the uniform electric field shown in figure, find

A, B and C are three points in a unifrom electric field. The electric potential is

(a) Draw the equipotential surfaces corresponding to a uniform electric field in the z-direction. (b) Derive an expression for the electric potential at any point along the axial line of an electric dipole

A graph of the x-component of the electric field as a function of x in a region of space is shown in the figure. They y and z-components of the electric field are zero in this region. The electric potential at the origin is 10 V. The value of x for which potential is zero is

A graph of the x-component of the electric field as a function of x in a region of space is shown in the figure. They y and z-components of the electric field are zero in this region. The electric potential at the origin is 10 V. The greatest positive value of electric potential for points of the x-axis for which 0lexle6m is

A graph of the x-component of the electric field as a function of x in a region of space is shown in figure. The y- and z-components of the electric field are zero in this region. If the electric potential is 10 V at the origin, then the potential at x = 2.0 m is

Six point charges are placed at the vertices of a regular hexagon of side a as shown. If E represents electric field and V represents electric potential at O then,

Figure shows some of the electric field lines correspoinding to an electric field. The figure suggests that

Equipotential surfaces are shown in figure. Then the electric field strength will be

In the figure, a proton moves a distance d in a unform electric vecE as shown in the figure. Does the electric field do a positive or negative work on the proton? Does the electric potential energy of the proton increase or decrease?