Two charges `+q` and `-q` separated by a distance of `3xx10^(-12)m` in air form an electric dipole. If the intensity of the electric field is `3.3xx10^(-32)N.C^(-1)` at a distance 3 cm from the dipole on the perpendicular bisector, what is value of q?

What is the ratio of the intensity of the electric field at a particlular distance on the axis to that on the perpendicular bisector of a very small dipole ?

Show that the ratio of electric fields at equal distances on the axis and on the perpendicular bisector for a small dipole is 2 : 1.

A straight conductor of length L is charged uniformly with a charge q. Calculate the electric field intensity at a distance a from the conductor on its perpendicular bisector.

An electric dipole consists of two charges +- 20 xx 10^-6 C separated by a distance 2 xx 10^-3 m . Find electric field at a distance 0.10 m from the centre of the dipoie on the perpendicular bisector.

Two charges, + q and -q are separated by a distance d. At which points will the resultant electric field intensity be directed parallel to the line joining the charges ?

If E_1 be the electric field strength of a short dipole at a point on the axis and E_2 that on the perpendicular bisector at the same distance , then

An infinite line charge produces a field of 9 xx 10^(4) N. C^(-1) at a distance of 2 cm. Calculate the linear charge density.

Define dielectric constant. Two charges +-20xx10^(-6)C, placed 2 mm apart from an electric dipole. Determine the electric field at a point 10 cm away from the centre of the dipole on its perpendicular bisector. Given, 1/(4 pi epsilon_(0))=9xx10^(9)N.m^(2).C^(-2)