Electric field on the axis of a small electric dipole at a distance r is `E_(1) and E_(2)` at a distance of 2r on aa line of perpendicular bisector. Then

Electric field on the axis of a small electric dipole at a distance r is vec(E)_(1) and vec(E)_(2) at a distance of 2r on a line of perpendicular bisector is

At a far away distance r along the axis from a electric dipole electric field is E. Find the electric field at distance 2r along the perpendicular bisector.

In th electric potential on the axis of an electric dipole at a distance 'r' from it is V, then the potential at a point on its equatorial line at the same distance away frornt it will be

The electric field of an electric dipole at a point on its axis , at a distance d from the centre of the dipole, varies as

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

Show on a plate the nature of variation of the (i) Electric field (ii) potenital (V), of a (small) electric dipole with the distance (r) of the filed point from the centre of the dipole.

The electric field at a point due to an electric dipole, on an axis inclined at an angle theta ( lt 90^(@)) to the dipole axis, is perpendicular to the dipole axis, if the angle theta is

If the intensity of electric field at a distance x from the centre in axial position of small electric dipole is equal to the intensity at a distance y in equatorial position, then

Two point charges of 1muC and -1muC are separated by a distance of 100 Å. A point P is at a distance of 10 cm from the midpoint and on the perpendicular bisector of the line joining the two charges. The electric field at P will be

The electric field due to an electric dipole at a distance r from its centre in axial position is E . If the dipole is rotated through an angle of 90^(@) about its perpendicular axis, the electric field at the same point will be