Two fixed charges 4Q (positive) and Q (negative) are located at A and B. the distance AB being 3 m.

Two point charge Q_(a) and Q_(b) are positional at point A and B. The field strength to the right of charge Q_(b) on the line that passes through the two charges varies according to a law represented schematically in fig. (without employing a definite scale). The field strength is assumed to be positive if its direction coincides with the positive direction of the x-axis. The distance between the charges is l=21 cm . (a) Find the sign of the charges. (b) Find the ratio between the absolute value of charge Q_(a) and Q_(b) . (c ) Find the coordinate x of the point where the field strength is maximum.

Two point charge Q_(a) and Q_(b) are positional at point A and B. The field strength to the right of charge Q_(b) on the line that passes through the two charges varies according to a law represented schematically in fig. (without employing a definite scale). The field strength is assumed to be positive if its direction coincides with the positive direction of the x-axis. The distance between the charges is l=21 cm . (a) Find the sign of the charges. (b) Find the ration between the absolute value of charge Q_(a) and Q_(b) . (c ) Find the coordinate x of the point where the field strength is maximum.

Two fixed charges -2Q and +Q are located at points (-3a,0) and (+3a,0) respectively. Then which of the following statement is correct?

Two connected charges of +q and -q respectively are at a fixed distance AB apart in a non uniform electric field whose lines of force are shown in the figure The resultant effect on the two charges is

A particle of mass m and charge q is located midway between two fixed charged particles each having a charge q and at a distance 2L apart so that distance of this charge from each charge located at end is L. Assuming that the middle charge moves along the line joining the fixed charges. The frequency of oscillation when it is displaced slightly is

Two point charges Q and -Q/4 are separated by a distance x.

Two fixed, equal, positive charges, each of magnitude 5xx10^-5 coul are located at points A and B separated by a distance of 6m. An equal and opposite charge moves towards them along the line COD, the perpendicular bisector of the line AB. The moving charge, when it reaches the point C at a distance of 4m from O, has a kinetic energy of 4 joules. Calculate the distance of the farthest point D which the negative charge will reach before returning towards C.

A positive charge .Q. is fixed at a point, A negatively charged of mass .m. and charge .q. is revolving in a circular path of radius radius r_(1) with .Q. as the centre. The change in potential energy to change the radius of the circular path from r_(1) and r_(2) in joule is

A particle of mass m and charge q is located midway between two fixed charged particles each having a charge q and a distance 2l apart. Prove that the motion of the particle will be SHM if it is displaced slightly along the line connecting them and released. Also find its time period.

Two fixed charges +4q and +q are at a distance 3 m apart. At what point between the charge, a third charge +q must be placed to keep it in equilibrium ?