If we know the capacitance of a given conductor then can we calculate the maximum charge which it can store?

An insulated conductor initiallly free from charge is charged by repeated contacts with a plate which after each contact is replenished to a charge Q . If q is the charge on the conductor after first operation prove that the maximum charge which can be given to the conductor in this way is (Qq)/(Q-q)

Radius of a spherical conductor is 2m , This is kept in dielectric medium of dielectric constant 10^6N//C . Find a. capacitance of the conductor b. maximum charge which can be stored on this conductor.

Knowing the value of g, how can we calculated the mass and density of Earth?

A capacitor has capacitance C . Is this information sufficient to know what maximum charge the capacitor can contain? If yes,what is this charge? If know,what other information is needed?

Suppose we have one iron nucleus. We know that the entire positive charge of the atom is carried by the nucleus. In order to understand the electric field of nucleus, it is suggested that we shall assume that the entire positive charge of nucleus is uniformly distributed over the volume of the nucleus. Iron is a conductor, and we know that in any conductor charge cannot be distributed over the volume. Is it fine to assume volume distribution of charge inside the nucleus?