It depends on the kind of magnet you are referring to.
In terms of natural magnets, Permanent magnets are by far the strongest of naturally occurring magnets.
A very strong permanent magnet would be an Neodymium Iron Boron magnet (NdFeB).
These are extremely powerful magnets, where they are capable of lifting many times their own weight.
However, stronger magnets can be created via the use of electromagnets and super-conduction.
In the lab, the magnetic material can be cooled down close to absolute zero degrees Kelvin to lower electric resistance in the windings - which allows for an extremely large amount of current to pass through. Although we're talking advanced science here as it goes off into the deep end very fast. What you need to know is that you can create the strongest magnetic fields using electromagnets, provided that you have adequate cooling - there is no limit to how powerful the field can be as long as you have the cooling and the power.
The strong magnet is attracted to the door magnet because opposite poles attract each other - the door magnet was likely oriented to attract the strong magnet. The metal thumbtacks are not attracted to the strong magnet because the magnetism of the thumbtacks is weaker compared to the door magnet.
coz if you try to attract a weak and a weak side it wont stick. same with the strong and strong side. But if you put a strong side next to a weak side it will attach. When a strong magnet is brought nearby the domains line up more closely with the magnetic field. The result of this reorientation is an overall magnetization of the weaker magnet.
When a magnet is exposed to a strong magnetic field from another magnet, the alignment of its magnetic domains can be disrupted, causing it to lose its magnetism and become demagnetized.
One way to re-magnetize a horseshoe magnet is to stroke it along one direction with a strong magnet multiple times. This process can help realign the magnetic domains in the magnet and restore its magnetism. Alternatively, you can also subject the magnet to a strong magnetic field using specialized equipment.
When a magnet is attached to a permanent magnet, it can become temporarily magnetized by aligning its magnetic domains with the strong magnetic field of the permanent magnet. This alignment causes the magnet to exhibit magnetic properties for a short period of time.
A lodestone is a naturally occurring magnet and is considered to be a strong magnet.
A magnet can move a car, if the magnet is strong enough.
The strong magnet is attracted to the door magnet because opposite poles attract each other - the door magnet was likely oriented to attract the strong magnet. The metal thumbtacks are not attracted to the strong magnet because the magnetism of the thumbtacks is weaker compared to the door magnet.
it creates a very strong magnet A+ users
strong
To get a magnet.Magnets are available in nature.You can make a magnet by tying a piece of iron to a strong magnet for some time.You can also get a magnet by making an Electo-magnet or solenoid.
Quite unusually, impressively, and memorably strong.
Screwdrivers can have weak or strong magnetism.
The iron nail becomes a magnet itself when it comes in contact with a strong magnet due to a process called induction. The magnetic field of the strong magnet aligns the magnetic domains within the iron nail, causing it to also exhibit magnetic properties.
coz if you try to attract a weak and a weak side it wont stick. same with the strong and strong side. But if you put a strong side next to a weak side it will attach. When a strong magnet is brought nearby the domains line up more closely with the magnetic field. The result of this reorientation is an overall magnetization of the weaker magnet.
For successful retrieval of items from bodies of water when magnet fishing, use a strong magnet with a pulling force of at least 500 pounds.
strong