ANSWER and EXPLANATION
The relationship between the motion of the magnet and the current produced can be described by using Faraday's law. It states that:
This law implies that when a coil is in the presence of a changing magnetic field (which may be due to a moving magnet), an electric current is produced in the coil. It is the same when the coil is moved relative to the magnetic field due to the magnet.
The faster the magnetic moves, the greater the magnitude of the current produced, which also means that if there is no motion of the magnet, the current is 0.
That is the relationship between the motion of the magnet and the current produced.