Two small charged blocks of charges `5mu C and 3mu C` are kept on a rough surface `(mu = 0.5)` at a separation of 0.1 m Find the separation between the two blocks when they come to rest.

The friction coefficient between the horizontal surface and blocks A and B are (1)/(15) and (2)/(15) respectively. The collision between the blocks is perfectly elastic. Find the separation (in meters) between the two blcoks when they come to rest.

Two small identical conducting balls A and B of charges +10 mu C and +30 mu C respectively, are kept at a separation of 50 cm. these balls have been connected by a wire for a short time The final charge on each of the balls A and B and force of interaction will be

Two point charges of 5 mu C and 20 mu C are separated by a distance of 2m. Find the point on the line joining them at which electric field intensity is zero.

Two charges 9 mu C and 1mu C are placed at a distance of 30cm. The position of third charge from 9 mu C between them so that it does not experience any force.

The minimum value of mu between the two blocks for no slipping is

Two point charges 4 mu C and -2 mu C are separated by a distance of 1m in air. Calculate at what point on the line joining the two charges is the electric potential zero ?

Two charges 5mu C and 4mu C are separated by a distanc 20 cm in air. Work to be done to decrease the distance to 10 cm is

Two charges +5mu C and +10 mu C are placed 20 cm apart. The net electric field at the mid-point between the two charges is

A small block of mass M moves with velocity 5 m/s towards an another block of same mass M placed at a distance of 2 m on a rough horizontal surface . Coefficient of friction between the blocks and ground is 0.25 . Collision between the two blocks is elastic , the separation between the blocks , when both of them come to rest , is ( g = 10 m//s^(2) )

Two charges -4 mu C and 8 mu C are 27 cm apart. The distance from the first charge on line of joining between two charges where electric potential would be zero is