A spherical conductor `A` contains two spherical cavities as shown in Fig.2.127. The total charge on conductor itself is zero . However , there is a point charge `q_(1)` at the center of one cavity and `q_(2)` at the center of the other cavity . Another charge `q_(3)` is placed at a large distance `r` from the center of the spherical conductor.

The force acting on conductor `A` will be

A spherical conductor A contains two spherical cavities as shown in Fig.2.127. The total charge on conductor itself is zero . However , there is a point charge q_(1) at the center of one cavity and q_(2) at the center of the other cavity . Another charge q_(3) is placed at a large distance r from the center of the spherical conductor. Which of the following statements are true ?

A spherical conductor A contains two spherical cavities as shown in Fig.2.127. The total charge on conductor itself is zero . However , there is a point charge q_(1) at the center of one cavity and q_(2) at the center of the other cavity . Another charge q_(3) is placed at a large distance r from the center of the spherical conductor. If q_(1) is displaced from its center slightly (being always inside the same cavity ), then the correct representation of field lines inside the same cavity is

Relation between current in a conductor and time is shown in fig. Total charge flowing through the conductor is

Which one of the following graphs represents the variation of electric field with distance r from the centre of a charged spherical conductor of radius R?

A hollow spherical conductor of radius 1m has a charge of 250mu C then electric intensity at a point distance of 0.5m from the centre of the spherical conductor is

Two spherical cavities of radii a and b are hollowed out from the interior of a neutral conducting sphere of radius R . At the center of each cavity , a point charge is placed . Call these charges q_(a) and q_(b) . The electric field inside the cavity of radius a at a distance r from the center of cavity is

A conducting spherical shell is earthed. A positive charge +q_1 is placed at the center and another small positive charge +q_2 is placed at a distance r from q_1 . Ignore the effect of induced charge due to q_2 on the sphere. Then the coulomb force on q_2 is

A thin conductor rod is placed between two unlike point charges +q_(1), and -q_(2) . Then

A positive point charge q_(1) is placed at (a,0) and another positive point charge q_(2) is placed at (0,a) . Find the force acting on q_(1) .

A conducting sphere of radius b has a spherical cavity with its centre displaced by 'a' from centre of sphere O_(1) . A point charged q is placed at the centre of cavity O_(2) . Q charge is given to conducting sphere and charge q_(0) is placed at P, a distance c from centre O_(1) . Further O_(1), O_(2) and P are collinear