`A` and `B` are two hollow, concentric, conducting spheres, with `A` inside `B`. `A` and `B` are given `Q_(1)` and `Q_(2)` respectively. If they are now joined by a thin wire, whtat charge will flow from `A` to `B`?

Two concentric hollow conducting spheres of radius a and b (b gt a) contains charges Q_(a) and Q_(b) respectively. If they are connected by a conducting wire then find out following (i) Final charges on inner and outer spheres. (ii) Heat produced during the process.

Two spheres of equal mass A and B are given +q and -q charge respectively then

Two concentric spherical conducting shells of radii r and R (r lt R ) carry charges q and Q respectively . The two shells are now connected by a conducting wire. The final charge on the inner shell is

A and B are two thin concentric hollow conductors having radii a and 2a and charge 2Q and Q, respectively. If potential of outer sphere is 5V, then potential of inner sphere is

A and B are two thin concentric hollow conductors having radii a and 2a and charge 2Q and Q, respectively. If potential of outer sphere is 5V, then potential of inner sphere is

Two hollow concentric non-conducting spheres of radius the a and b (a gt b) contain charges Q_(a) and Q_(b) respectively. Prove that potential difference between the two spheres is independent of charge on outer sphere. If outer sphere is given an extra charge, is there any change in potential difference ?

Two hollow concentric non-conducting spheres of radius the a and b (a gt b) contain charges Q_(a) and Q_(b) respectively. Prove that potential difference between the two spheres is independent of charge on outer sphere. If outer sphere is given an extra charge, is there any change in potential difference ?

The radii of two metallic spheres P and Q are r_(1) and r_(2) , respectively. They are given the same charge. If r_(1) gt r_(2) then on connecting them with a thin wire, the charge will flow

A conducting sphere of radius R, carrying charge Q, lies inside uncharged conducting shell of radius 2R. If they are joined by a metal wire,