If a charge q is moving towards the centre of an earthed conducting sphere of radius R with a velocity `sqrt(2)aR` m/s. Where a is positive constant. If current flowing in the ammeter shown in figure when q is at a distance `aR sqrt(2)` from centre of sphere. Is `(q)/(asqrt(x))` find x.

If a charge is moving towards the centre of an earthed conducting sphere of radius b with uniform velocity v. Distance of two points A and B from centre of sphere are 3a & 2a. Conducting sphere is earthed with an ammeter and resistance in series (as shown) Net charge on surface of conductor at this instant

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

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 , is placed at a distance r from the centre of an aluminium sphere, of radius R ( r gt R ) . Selectr the correct alternatives.

A sphere of radius 2R and mas M has a spherical cavity of radius R as shown in the figure. Find the value of gravitational field at a point P at a distance of 6R from centre of the sphere.

An unchanged conducting sphere of radius R is placed near a uniformly charge ring of radius R. Total charge on ring is Q. The centre of sphere lies on axis of ring and distance of centre of sphere from centre of ring is R

In the shown figure, the charge appearing on the conducting shell (grounded) of Radius R, when a point charge q is kept at a distance of d from the centre of the sphere is:

A hollow conducting sphere of inner radius r and outer radius 2R is given charge Q as shown in figure, then the

A conducting sphere of radius R and carrying a charge Q is joined to an uncharged conducting sphere of radius 2R . The charge flowing between them will be

A hollow conducting sphere of radius R has a charge (+Q) on its surface. What is the electric potential within the sphere at a distance r = (R )/(3) from its centre ?