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you can't really burn magnets; it depends what you mean. If you are talking about setting them on fire, it's highly improbable, to my knowledge.
yes u can
you can't really burn magnets; it depends what you mean. If you are talking about setting them on fire, it's highly improbable, to my knowledge.
yes u can
you can't really burn magnets; it depends what you mean. If you are talking about setting them on fire, it's highly improbable, to my knowledge.
yes u can
you can't really burn magnets; it depends what you mean. If you are talking about setting them on fire, it's highly improbable, to my knowledge.
yes u can
you can't really burn magnets; it depends what you mean. If you are talking about setting them on fire, it's highly improbable, to my knowledge.
yes u can
you can't really burn magnets; it depends what you mean. If you are talking about setting them on fire, it's highly improbable, to my knowledge.
yes u can
you can't really burn magnets; it depends what you mean. If you are talking about setting them on fire, it's highly improbable, to my knowledge.
yes u can
you can't really burn magnets; it depends what you mean. If you are talking about setting them on fire, it's highly improbable, to my knowledge.
yes u can
you can't really burn magnets; it depends what you mean. If you are talking about setting them on fire, it's highly improbable, to my knowledge.
yes u can
you can't really burn magnets; it depends what you mean. If you are talking about setting them on fire, it's highly improbable, to my knowledge.
yes u can
you can't really burn magnets; it depends what you mean. If you are talking about setting them on fire, it's highly improbable, to my knowledge.
yes u can
you can't really burn magnets; it depends what you mean. If you are talking about setting them on fire, it's highly improbable, to my knowledge.
yes u can
you can't really burn magnets; it depends what you mean. If you are talking about setting them on fire, it's highly improbable, to my knowledge.
yes u can
What else can I help you with?
Does heating up a magnet make it stronger?
Heating up a magnet can temporarily increase its magnetic strength by aligning its magnetic domains. However, once the magnet cools down, it will return to its original magnetic strength. Heating a magnet beyond its Curie temperature can cause it to lose its magnetism altogether.
What are three ways to destroy the magnetism of a magnet?
I suggest that you incinerate it.
Can a magnet's magnetism be destroyed?
Yes, a magnet's magnetism can be destroyed by subjecting it to high temperatures or strong magnetic fields. This can disrupt the alignment of the atoms within the magnet, causing it to lose its magnetic properties.
Will a magnet still be a magnet if it is melted?
A magnet is produced by aligning the magnetic domains in a material to point in the same direction. When heated, the magnet loses its magnetism as the molecular motion, which is caused by heating, destroys the alignment of the magnetic domains. Ferromagnetic materials also lose its magnetism after being melted. However, when the magnet is being hammered whilst cooling in a magnetic field, the melted magnet would gain its magnetism again.
How can iron be demagnetized?
an iron can be demagnetised by ;-hammering it while facing east _west direction -hitting it hard on the ground -connecting it into an ac current while facing the east _west direction .
Does heating up a magnet make it stronger?
Heating up a magnet can temporarily increase its magnetic strength by aligning its magnetic domains. However, once the magnet cools down, it will return to its original magnetic strength. Heating a magnet beyond its Curie temperature can cause it to lose its magnetism altogether.
How does heat affect a magnet?
A permanent magnet (i.e. not an electromagnet) will be demagnetised by heating it.
What happens when heating a magnet?
it will loose its magnesium
Can a magnet lose its magnetism by heating?
Yes
Dropping or heating a magnet will not weaken it because the domains will stay in alignment?
When you drop or heat a magnet, the domains may temporarily lose alignment, but once the magnet stops moving or cools down, the domains will realign and the magnet's strength will return. Dropping or heating a magnet will not permanently weaken it.
What does heating a magnet do?
Heating a magnet can cause it to lose its magnetism by disrupting the alignment of its magnetic domains. This is due to the increased thermal energy overcoming the magnetic forces within the material. Repeated or excessive heating can permanently demagnetize the magnet.
What are three ways to destroy the magnetism of a magnet?
I suggest that you incinerate it.
Is heating a bar magnet chemical or physical change?
Heating a bar magnet is a physical change because the magnet does not undergo a chemical reaction. The heat energy causes the atoms in the magnet to vibrate, which disrupts the alignment of the magnetic domains within the magnet, thereby reducing its magnetic strength.
What are 2 ways to make or destroy a magnet?
heating it or freezing it i believe
How do you demagnatise a magnet?
You can demagnetize a magnet by heating it up to its Curie temperature, by striking it with a hard blow, or by applying an alternating magnetic field that disrupts the alignment of its magnetic domains.
Can heating or hitting a permanent magnet ruin it?
Heating a permanent magnet above its Curie temperature can demagnetize it, causing it to lose its magnetic properties. Hitting a permanent magnet can also disrupt its magnetic alignment, potentially weakening its overall magnetic strength.
How could you test the effects of heating and cooling on the magnetization of a bar magnet?
To test the effects of heating on magnetization, heat the bar magnet to a specific temperature and measure its magnetization using a magnetometer. To test the effects of cooling, cool the bar magnet to a specific temperature and again measure its magnetization. By comparing the magnetization measurements before and after heating or cooling, you can observe any changes in the magnetization properties of the bar magnet.
