you cant ?i dont think Answer (Contrablue)
If the nail is made of iron or steel (an alloy of iron with a bit of carbon and usually certain metals such as molybdenum or chromium), it can be magnetized by rubbing it against a magnet. That is the easy and cheap way to turn a nail into a magnet.
A more expensive way is to use a machine that subjects the nail to a strong magnetic field. This can turn the nail into a reasonably strong magnet. However, most of us don't have access to such a machine.
A magnetized nail is a temporary magnet, known as an induced magnet. It becomes magnetized when it comes into contact with a permanent magnet, aligning its magnetic domains in the same direction. This temporary magnetism can be lost if the nail is no longer in contact with a permanent magnet.
Rubbing a nail with a magnet will align some of the magnetic domains in the nail. This will have the effect of making the nail into a magnet. The nail won't be a strong magnet, but it will come away with some residual magnetism. Suggestion: try a simple experiment with a nail and a magnet and some small paper clips to see if this works.
what caused a nail to be given with magnetic property
The magnetic field would propagate through the material and extend itself for the length of the magnetic material in contact. As long as there is contact there is no pole present. When contact is broken the pole would be the opposite to the pole it was in contact with
The nail contains iron, which is ferromagnetic. Ferromagnets respond to a magnetic field (from a magnet) by generating their own magnetic field, ie, they become a magnet in the presence of a magnet. They also exhibit hysteresis, in that if they are exposed to a strong enough magnetic field, it will lock in and become a permanent magnet.
1) Magnets can attract or repel each other, depending on their orientation.2) Your nail is normally non-magnetic, but when a magnet comes near it, the magnet will induce magnetism within the nail. This will turn the nail into a magnet. Temporarily, and not into a particularly strong magnet, but still.1) Magnets can attract or repel each other, depending on their orientation.2) Your nail is normally non-magnetic, but when a magnet comes near it, the magnet will induce magnetism within the nail. This will turn the nail into a magnet. Temporarily, and not into a particularly strong magnet, but still.1) Magnets can attract or repel each other, depending on their orientation.2) Your nail is normally non-magnetic, but when a magnet comes near it, the magnet will induce magnetism within the nail. This will turn the nail into a magnet. Temporarily, and not into a particularly strong magnet, but still.1) Magnets can attract or repel each other, depending on their orientation.2) Your nail is normally non-magnetic, but when a magnet comes near it, the magnet will induce magnetism within the nail. This will turn the nail into a magnet. Temporarily, and not into a particularly strong magnet, but still.
To magnetize an iron nail using the stroking method, you can stroke the nail with one end of a magnet in a consistent direction many times. This allows the domains in the iron to align in the same direction, creating a magnetic field in the nail. The nail will then act like a magnet with a north and south pole.
it wouldn't be magnet to a aluminum nail because the aluminum is not a way of magnet and a steel nail would because steel is a way of magnet.
A magnetized nail is a temporary magnet, known as an induced magnet. It becomes magnetized when it comes into contact with a permanent magnet, aligning its magnetic domains in the same direction. This temporary magnetism can be lost if the nail is no longer in contact with a permanent magnet.
Rubbing a nail with a magnet will align some of the magnetic domains in the nail. This will have the effect of making the nail into a magnet. The nail won't be a strong magnet, but it will come away with some residual magnetism. Suggestion: try a simple experiment with a nail and a magnet and some small paper clips to see if this works.
no 1ds nail is a girl magnet
The magnet induced magnetic properties in the nail and the paper clip, causing them to attract each other. When the magnet was removed, the induced magnetism in the nail and paper clip allowed them to remain attracted to each other.
When Reva places an iron nail close to a magnet, the magnet's magnetic field induces magnetism in the nail. This causes the nail to become a temporary magnet, aligning its own magnetic domains with the external magnetic field. As a result, the nail is attracted to the magnet and will stick to it until removed from the magnetic field.
A nail can be attracted to a magnet because the nail's iron material contains domains of aligned magnetic moments that can interact with the magnetic field of the magnet, causing it to be drawn towards the magnet.
If we take a steel nail and tap it with a magnet in the same way a bunch of times, the magnet will align some of the magnetic domains in the nail. The nail will then have become a permanent magnet. The magnetic strength of the nail will not be great like the magnet that created it, but it will be present and will be permanent. The nail could then be used to pick up iron filings just as the magnet could be used to do that.
No it can't become a magnet.
When a nail is placed near a magnet, it can become magnetized due to the magnetic field of the magnet. The magnet induces a magnetic alignment in the nail's iron atoms, causing the nail to exhibit its own magnetic properties. If the magnet is strong enough, the nail may even be attracted to the magnet, demonstrating the principle of magnetism in ferromagnetic materials. Once removed from the magnetic field, the nail may retain some magnetization but will generally lose most of it over time.