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An iron nail is more strongly attracted to a magnet because the iron nail itself is made of ferromagnetic material, which can become magnetized in the presence of a magnetic field. This causes the iron nail to be attracted to the magnet.
Making a magnet is very simple. We need : 1. an iron nail or any other long iron object 2. a magnet METHOD: Rub the magnet on the iron nail in one direction. Then lift it and repeat the action . Repeat this series of action 30-50 times. the iron object will turn into a magnet. But it will not become a strong magnet CAUTION: While rubbing the magnet with the iron object, we need to rub it with the same pole on one side
You can turn a piece of iron into a temporary magnet by stroking it with a permanent magnet in the same direction multiple times. This process aligns the magnetic domains within the iron, creating a temporary magnetic field.
Iron is a magnetic material, which means that it can be attracted by magnets. To make it become magnetic so as to attract other objects (i.e. to function as a magnet), the process of magnetic induction can be used. This can involve stroking the iron rod with a magnet several times (e.g. 20 times) in a fixed direction.
You can attract objects that contain iron by using a magnet, as iron is a magnetic material. When you bring a magnet near objects containing iron, the magnetic force will cause them to be attracted to the magnet.
The magnet induces magnetism in the iron - small magnetic regions in the iron become aligned, due to the magnetic field.
It will become an electro-magnet which is an temporary magnet. it is because of the induction property, the magnetic effect gets transfered to the Scale. (it can be any piece of Iron)
When a horseshoe magnet is dipped in iron filings, the iron filings become magnetized and align themselves along the magnetic field lines emitted by the magnet. The filings cling to the magnet, visually demonstrating the shape and strength of the magnetic field. This process highlights the magnetic properties of the iron filings, which temporarily become magnets themselves due to the influence of the horseshoe magnet.
Yes, this process is known as magnetization. When an iron object is rubbed with a magnet, the domains within the iron align in the direction of the magnetic field created by the magnet, causing the iron object to become magnetized.
No, it's a permanent magnet. It consists of an iron oxide, and iron is a permanent magnet.
The magnet, in this case, will induce magnetism in the iron. The iron has lots of tiny areas that are magnetic, but normally point in random directions; placing a magnet nearby will allign those, and thus induce the magnetism.
An iron railing is attracted to a magnet due to its ferromagnetic properties. Iron contains domains of aligned atomic magnetic moments, which can be influenced by an external magnetic field, causing the iron to become magnetized and thus attracted to the magnet.
the magnet attracts to iron by the magnetic field both the iron and the magnet have
Making a magnet is very simple. We need : 1. an iron nail or any other long iron object 2. a magnet METHOD: Rub the magnet on the iron nail in one direction. Then lift it and repeat the action . Repeat this series of action 30-50 times. the iron object will turn into a magnet. But it will not become a strong magnet CAUTION: While rubbing the magnet with the iron object, we need to rub it with the same pole on one side
An iron nail is more strongly attracted to a magnet because the iron nail itself is made of ferromagnetic material, which can become magnetized in the presence of a magnetic field. This causes the iron nail to be attracted to the magnet.
When you touch a piece of iron to a permanent magnet, the iron can become magnetized temporarily because it can align its domains with the magnetic field. However, once the iron is removed from the magnet, it will lose its magnetism over time. The iron itself does not retain a permanent magnetism like the original magnet.
the magnet attracts to iron by the magnetic field both the iron and the magnet have