There's no relationship there. But if you take any permanent magnet
and heat it hot enough, it loses some or all of its magnetism.
Room temperature magnet has more stable magnetic properties, allowing it to generate a stronger magnetic field consistently. Hot or cold temperatures can affect the magnet's ability to magnetize, resulting in a weaker magnetic field and less attraction force on the paper clips.
If it is a magnet, then it can still attract to a refrigerator. If it is a lump of hot metal or hot ceramic, then only gravity will provide attraction. The curie temperature describes when it goes from being a magnet to being a lump.
When a magnet is heated, its atoms vibrate more vigorously and align more easily, increasing the overall magnetic field strength. However, this effect is temporary, as the magnet will lose its strength once it cools back down due to the realignment of the atomic structure.
Yes, extreme hot or cold temperatures can affect the strength of a magnet. High temperatures can weaken a magnet by demagnetizing it, while extremely low temperatures can cause a temporary decrease in magnetic strength. It is important to operate magnets within their specified temperature range to maintain their performance.
No, hot air is less dense than cold air.
A cold magnet attracts more than a hot magnet. This helps the flow of electricity which therefore helps the electric field, which therefore helps the magnetic field. They use cold magnets to power the LHC which collides hydrogen atoms. Obviously the cold magnet is very attracting.
is a hot magnet shorter or weaker than a cold magnet
Room temperature magnet has more stable magnetic properties, allowing it to generate a stronger magnetic field consistently. Hot or cold temperatures can affect the magnet's ability to magnetize, resulting in a weaker magnetic field and less attraction force on the paper clips.
yes
Brittle when cold, flexible when warm.
The strength of a magnet can be affected by temperature. In cold temperatures, a magnet's strength increases, while in hot temperatures, the strength decreases. This is because temperature affects the alignment of atoms within the magnet, which in turn affects the magnet's ability to produce a magnetic field. An important idea to note is that extreme temperatures can demagnetize a magnet altogether.
If it is a magnet, then it can still attract to a refrigerator. If it is a lump of hot metal or hot ceramic, then only gravity will provide attraction. The curie temperature describes when it goes from being a magnet to being a lump.
It would last longer in cold weather because heating causes a magnet to lose its magnetism.
Heat and cold both make magnets stronger, but cold temperatures make magnets stronger than heat does. Actually, oly cold temperature make magnets stronger, you can actually try, hold one little magnet on your hand for like 30 seconds or something and you can realize that your magnet is really less stronger Unfortunately this guy is wrong ^^^^^^ Cold makes a magnet stronger and heat can actually take its magnetic domains away. When a magnet is supercooled it becomes stronger because the atoms are moving slower and are thicker which make a stronger positive or negative side of a magnet. Heat can ruin a magnet. There is a very hot temperature for every magnet called a Curie Temperature, which is when a magnet is no longer magnetized. For instance, and iron magnets Curie Temperature is about 1,000°C! This happens because the random motion of atoms increases in speed which disturbs the magnets magnetic domains. (well... he's somewhat right) =) ----------------------------------------------------------------------------------------------------- You both are right.
Because it loses it's strengths in hot water and gains strength in cold water.
Smell is the vibration of the etheric body. On heating they expand. Therefore it is better to eat meat and fish cold.
A magnet will stick to the metal surface inside the refrigerator. It will not damage the refrigerator or affect its operation in any way. The cold temperature of the refrigerator may slightly weaken the magnet's strength, but it will still function normally once removed.