He found that the stronger the magnets were, the more turns of wire in the coil, and the quicker the motion of the magnet or coil, the greater the voltage produced. This method of generating electricity, called induction, was discovered by Michael Faraday in 1831. Another way of producing the current would be for the magnet to be rotated inside the coil, or for the coil to be rotated round the magnet. If you hold the magnet absolutely still inside the coil, no current is generated at all. In other words, an alternating current is produced. The current flows in one direction as the magnet is pushed in, and in the other direction as the magnet is removed. When you push the magnet through the middle of the coil, an electric current is produced in the wire.
The simplest generator consists of just a coil of wire and a bar magnet. The north pole of the magnet will repel the north pole of a compass or another bar magnet, while its south pole will attract the north pole of a compass or another bar magnet. The N (north) and S (south) indicate the poles of the magnet, where the lines of force are focused. The arrows indicate the direction of the lines of magnetic force. Two-dimensional representation of the magnetic field around a bar magnet.
The filings align themselves along the lines of magnetic force surrounding the magnet. This can be ‘seen’ in two dimensions if iron filings are sprinkled on a sheet of paper placed over the magnet. Magnets are also surrounded by a similar three-dimensional field. When an electric current flows through a wire, it generates a three-dimensional magnetic force field around the wire, similar to that surrounding a bar magnet. Although it will only be powerful enough to light a small torch bulb, it works on the same basic principles as the power station generators that supply domestic electricity.
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