well i depand on the south and north pole
Yes
A magnetic domain is a region of uniform magnetization within a material.
Cooling a magnet can actually increase its magnetic properties. At low temperatures, the thermal energy of the material decreases, causing the magnetic domains to align more easily and enhancing the magnetization. This phenomenon is known as magnetic cooling. However, if the magnet is cooled to extremely low temperatures, such as near absolute zero, it can lose its magnetic properties altogether due to a phenomenon called the Curie temperature.
An unmagnetized magnet is not a magnet. A magnet remains a magnet only as long as it remains magnetic,and ceases to be a magnet when its magnetization is lost.Be that as it may in any event, the state of magnetization of a sample of magnetic material, whether magnetizedor unmagnetized, has no bearing, neither ball nor thrust, on the weight of the magnetic material. In other words,weight is invariant under a transformation of the magnetized state.
If you are talking about a non-magnet item then the item will become a magnet for a period of time. Changes in heat, how much it is used, or time can disable the magnet. Magnet!
what ever figure out ur own anwsers people dont cheat
the process of which the magnetization of a magnet is removed
Yes
Degauss it and remagnetize it in a field. Best when heated over the magnets Currie point. Cooling it down in a field the reverse of what you started with.
A magnetic domain is a region of uniform magnetization within a material.
A magnet can be demagnetized by striking it many times, heating it, or cooling it. All of these randomize the domains.
Cooling a magnet can actually increase its magnetic properties. At low temperatures, the thermal energy of the material decreases, causing the magnetic domains to align more easily and enhancing the magnetization. This phenomenon is known as magnetic cooling. However, if the magnet is cooled to extremely low temperatures, such as near absolute zero, it can lose its magnetic properties altogether due to a phenomenon called the Curie temperature.
The noun forms of the verb to magnetize (magnetise) are:magnetizer (magnetiser)magnetization (magnetisation)the gerund, magnetizing (magnetizing)A related noun form is magnet.
An unmagnetized magnet is not a magnet. A magnet remains a magnet only as long as it remains magnetic,and ceases to be a magnet when its magnetization is lost.Be that as it may in any event, the state of magnetization of a sample of magnetic material, whether magnetizedor unmagnetized, has no bearing, neither ball nor thrust, on the weight of the magnetic material. In other words,weight is invariant under a transformation of the magnetized state.
If you are talking about a non-magnet item then the item will become a magnet for a period of time. Changes in heat, how much it is used, or time can disable the magnet. Magnet!
yes it does affect magnets ! though cold has little effect on the properties of a magnet , but heat drastically brings about change in properties of a magnet. With increasing temperature, the magnet will gradually lose magnetization until a certain temperature (called the Curie temperature) where the magnetization goes away entirely. In addition to this effect, the domains of the magnet will have a greater chance of changing orientation, further weakening the overall magnetic effect.
Heating up a magnet actually makes it weaker. A magnet can be completely demagnetized when heated past it's Curie temperature.