Two positive charges `12 muC and 8 muC` are 10 cm apart. The work done in bringing them 4 cm closer is

Two positive point charges of 12 mu C and 8 mu C are 10 cm apart. The work done in bringing then 4 cm closer is

Two positive point charges of 12 mu C and 8 mu C are 10 cm apart. The work done in bringing then 4 cm closer is

Two positive point charges of 12 and 5 microcoulombs, are placed 10 cm apart in air. The work needed to bring them 4 cm closer is

Two positive point charges of 12 and 5 microcoulombs, are placed 10 cm apart in air. The work needed to bring them 4 cm closer is

Two point charges of 20 mu C and 80 muC are 10 cm apart where will the electric field strength be zero on the line joining the charges from 20 mu C charge

Charges 5 muC and 10 muC are placed 1 m apart. Work done to bring these charges at a distance 0.5 m from each other is (k = 9 xx 10^(9) SI)

Two point charges of +16 muC and -9 mu C are placed 8 cm apart in air. Determine the position of the point at which the resultant electric field is zero.

Two charges +20muC and -20muC are placed 10mm apart. The electric field at point P, on the axis of the dipole 10 cm away from its centre O on the side of the positive charge is

The distance between the two charges 25 mu C and 36 muC is 11 cm . At what point on the line joining the two, the intensity will be zero

Two opposite charges each of magnitude 2 muC are 1 cm apart. Find electric field at a distance of 5 cm from the min-point on axid line of the dipole. Also, find the field on equatorial line at the same distance from mid-point