A very small sphere of mass `80 g` having a charge q is held at a height of `9 m` vertically above the center of a fixed conducting sphere of radius `1 m`, carrying an equal charge q. When released, it falls until it is repelled back just before it comes in contact with the shpere as shown in Fig. 47. Calculate the charge `q. [g = 10 ms^-2]`.

An isolated conduction sphere sphere whose radius R=1 m has a charge q=1/9nC. The energy density at the surfasce of the sphere is

If a small sphere of mass m and charge q is hung from a silk thread at an angle theta with the surface of a vertical charged conducting plate, then for equilibrium of sphere, the surface charge density of the plate is

If a small sphere of mass m and charge q is hanged from a silk thread at an angle theta with the surface of a vertical charged conducting plate, then for equilibrium of sphere the surface charge density of the plate -

A particle of mass 2 g and charge 1 muC is held at rest on a frictionless surface at a distance of 1m from a fixed charge of 1 mC. If the particle is released it will be repelled. The speed of the particle when it is at distance of 10 m from fixed charge is :

When a small uncharged conducting ball of radius a = 1 cm and mass m = 50 g is dropped from a height h above the center of another large conducting sphere of radius b( = 1 m) having charge Q( =(100 mu C) . It rises to a height h_1 (= 2 m) after the collision. Find the value of h. Assume that during the impact there is no dissipation of energy. .

A small conducting sphere of radius a, carrying a charge +Q , is placed inside an equal and oppositely charged conducting shell of radius b such that their centers coincide. Determine the potential at a point which is at a distance c from center such that a lt c lt b .

A uniformly charged sphere of charge Q and radius R is placed at some height from ground surface and sphere is fixed. Now a charged particle of mass m and charge q is released form rest just below to sphere what will be speed of particle after travelling Y-direction

In the figure a charged small sphere of mass m and the charge q starts sliding from rest on a vertical fixed circular smooth track of radius R from the position A shown. There exist a uniform magnetic field of B . Find the maximum force exerted by track on the sphere during its motion.

A solid conducting sphere of radius a having a charge q is surrounded by a concentric conducting spherical shell of inner radius 2a and outer radius 3a as shown in figure. Find the amount of heat porduced when switch is closed (k=1/(4piepsilon_0))

A solid conducting sphere of radius a having a charge q is surrounded by a concentric conducting spherical shell of inner radius 2a and outer radius 3a as shown in figure. Find the amount of heat porduced when switch is closed (k=1/(4piepsilon_0))