A magnet dropped into a coil of conducting wire along its axis will fall wiih an acceleration

A bar magnet is allowed to fall vertically through a copper coil placed in a horizontal plane. The magnet falls with a net acceleration

A small magnet M is allowed to fall through a fixed horizontal conducting ring. Let g be the acceleration due to gravity. Then the acceleration of M will be

A thick walled hollow metal cylinder has its axis vertical. A bar magnet is dropped into it from a large height with its axis vertical. The shape of the velocity V of the magnet versus time t as it passes through the cylinder is best represented by

A charged particle moves along the line AB which lies in the same plane of a circular loop of the conducting wire as shown in the figure above. Then,

Find the magnitude of magnetic induction at a point 0.06m from the centre and along the axis of a circular coil carrying a current of 2 A. Also calculate the magnitude of magnetic induction at the centre of the coil. Given: Number of turns in the coil = 20 Mean radius of the coil = 0.05 m.