Potential at a point x-distance from the centre inside the conducting sphere of radius `R` and charged with charge `Q` is

The potential at a distance R//2 from the centre of a conducting sphere of radius R will be

A point charge q is placed at a distance d from centre of a uniformly charged conducting spherical shell of radius R and having charge Q as shown. Magnitude of electric field intensity at point P just inside the shell due to charge on shell is

A point charge q is placed at a distance x from the centre of a conducting sphere of radius R(lt x). (a) How much charge will flow through the switch S when it is closed to ground the sphere? (b) Find the current through the switch S when charge ‘q’ is moved towards the sphere with velocity V.

A point charge q is placed at some distance d away from the centre of a grounded conducting sphere of radius r, as shown in the figure. The charge that flows the earth to the sphere is

A point charge q has been placed at a distance x from the centre of a neutral solid conducting sphere of radius R(x gt R). Find the potential of the sphere. How will your answer change if the sphere is not solid, rather it is a thin shell of conductor.

A point charge Q is situated (outside) at a distance r from the centre of an uncharged conducting solid sphere of radius R. The potential due to induced charges (on the conductor) at a point B inside the conductor whose distance form the point charge is d is ______

Let p=(Qr^(3))/(piR^(5)) be the volume charge density at distance r from the centre for a a soild sphere of radius R and charge Q. The electric field at r= (R)/(2) from the centre will be

A point charge q'q is placed at distance 'a' from the centre of an uncharged thin spherical conducting shell of radius R=2a. A point 'P' is located at a distance 4a from the centre of the conducting shell as shown. The electric potential due to induced charge on the inner surface of the conducting shell at point 'P' is