The electric field in a region is directed outward and is proportional to the distance r from the origin, Taking the electric potential at origin to be zero,

the electric field inside a sphere which carries a charge density proportional to the distance from the origin p=alpha r ( alpha is a constant) is :

Electric field in a region of space is radially outward from origin and varies with distance 'r' from origin as E = kr. Find the charge enclosed in a sphere of radius 'a' centred at origin.

If the electric field in a region is given as E=y^(2)hati+2xyhatj and the potential is assumed 4 Volts at the origin, find the potential, in Volts, at the point (2,1,9) . All values are in SI units.

The electric field at a point at a distance r from an electric dipole is proportional to ......

The electric field in a region is radially outward and varies with distance r as E = 250 r ( volt per square metre).Calculate the charge contained in a sphere of radius 0.2 m centere at the origin.

The variation of potential with distance r from a fixed point is shown in fig. The electric field at r = 5cm, is :

In an electric dipole, at which point is the electric potential zero?

Electric field intensity (E) due to an electric dipole varies with distance (r ) from the point of the center of dipole as :

The electric field is a region (relative permittivity = 1) varies with distance "r" from origin according to relation E = Ar^2hatr , where A is a positive constant. The volume charge density in the region is proportional to

The electric field in a certain region is acting radially outwards and is given by E=Ar. A charge contained in a sphere of radius 'a' centred at the origin of the field, will given by