Uses Of Magnets In Our Daily Lives

Uses Of Magnets In Our Daily Lives

You have probably experimented and played with magnets before, and you know that magnets do important work everywhere, from which you benefit every day. You likely have one or two magnets in your fridge that hold your notes and pictures. You have bees with different types of magnets. You have magnets on the car, computer, floor of your house, bathroom, or even in bed.

Although magnets are used in many different materials, they can be made from various materials such as steel, glass, metal, plastic, wood, steel, and even glass. These are the different types of magnets: ndfeb magnets, neodymium magnets, SmCo, Alnico, and Ceramic or Ferrite.

Natural and Artificial Magnets

Natural magnets such as claystone are not in vogue – they determine the properties of magnets in other forms of magnetism (e.g., magnets). They are also not suitable for use because they have strange shapes, and when brushed against a piece of steel in just one direction, no magnetic properties develop. However, iron can acquire the properties of claystone by rubbing iron parts against clay called an artificial magnet.

Permanent and Temporary Magnets

stainless keys reminder

Certain types of iron, once magnetized, retain their magnetism and can be made into magnets of different shapes for specific purposes. Such magnets are called permanent magnets and consist of steel with a mixture of iron and nickel magnetism. When a permanent magnet picks up a piece of iron or steel, the nail becomes a temporary magnet that can hold other metal parts. The pole of the magnet attracts the nails and repels them, but the poles of a magnet attract and repel them. As soon as the permanent magnet is removed, the nail loses its magnetic properties. It retains its magnetism as long as it is near the temporary magnet.

Magnetic Levitation

Magnetic levitation, or Maglev, is a method of lifting an object by using a force that keeps the magnets apart. The train is supported by a powerful linear motor that collides with a particular track laid out by magnets. The technique allows the train to float on the track, and when it is over, it is lifted by the direction of the magnetic field and pressed even faster. At first, the magnets along the tracks pull the trains on and forward, but when they collide, they are repelled and pushed back.

Bottom Line

Depending on the magnetic quality and composition, there are three main types of magnets, including permanent magnets, temporary magnets, and electromagnets. For example, some magnets are used in devices that we use every day. Others are mounted so that they are visible in the tool in which the magnet is used.