the temperature get hootwer than the other thing
All metals have a tensile strength. The strength varies with the metal and with such factors as temperature and additives.
The strength of a magnet depends on its size, material, and design rather than its type. Generally, horseshoe magnets are designed to have a concentrated magnetic field, making them stronger than typical bar magnets of the same size. Ring magnets can also be powerful, especially if made from strong materials like neodymium, but their strength varies widely based on dimensions and specific applications. Thus, it's essential to consider these factors rather than just the type of magnet.
The short answer:Yes.The longer answer for those curious ones: Yes, temperature affects the strength of a magnet. Colder temperatures will permit the magnetic field strength to increase a bit and hotter temperatures will decrease it a bit.What happens at really high temperatures?There is a point called the Curie point or Curie temperature (Tc) at which the magnetic properties disappear altogether. This temperature varies from material to material. The material's magnetic domains are no longer "held in place" by the metallic crystal matrix when the Tc is exceeded. The atoms have too much kinetic energy and a random distribution of alignments of the domains will occur. Bye bye magnetism, hello paramagnetism.The effects can be demonstrated by a simple experiment.You need a bar magnet, a thin rope and a hand full of carpet tacks. Secure one end of the rope to the magnet. (so that you do not burn yourself in experiment later.)Freeze the magnet. Pick up some tacks. Take them off and count them. Record the data.Drop the magnet in boiling water. Pick up tacks again. Take them off and count them. Record the data. Compare the data. Repeat a few times. Compare the data from all runs. You should find that the magnet is stronger the colder it is.
The strength of the magnet can be measured by the strength of flux density produce by its magnetic field in reference to a determine distance. This can be measured by the use of a Gauss Meter . The unit of measure is gauss( centimeter-gram- second or maxwell per square centimeter).By: Frederick de LeonElectronics & Acoustic Design EngineeringMeadow ParkLaboratoriesBK10, Lt 5, Meadow ParkMolino 4, Bacoor, Cavite, Philippines4102Cellphone: +639175271849Email: freddiedeleon@gmail.com
The temperature varies a lot from one place to another; it varies depending on the time of day, and on the weather conditions (for instance, if it's cloudy or raining, it will typically be colder).
The strength of magnets can change over time due to factors like temperature and physical damage. Magnets can lose their strength as they age, but the rate of decline varies depending on the type of magnet and its usage.
Magnets can lose their magnetic properties at temperatures above their Curie temperature, which varies depending on the type of magnet.
All metals have a tensile strength. The strength varies with the metal and with such factors as temperature and additives.
The strength of a magnet depends on its size, material, and design rather than its type. Generally, horseshoe magnets are designed to have a concentrated magnetic field, making them stronger than typical bar magnets of the same size. Ring magnets can also be powerful, especially if made from strong materials like neodymium, but their strength varies widely based on dimensions and specific applications. Thus, it's essential to consider these factors rather than just the type of magnet.
The short answer:Yes.The longer answer for those curious ones: Yes, temperature affects the strength of a magnet. Colder temperatures will permit the magnetic field strength to increase a bit and hotter temperatures will decrease it a bit.What happens at really high temperatures?There is a point called the Curie point or Curie temperature (Tc) at which the magnetic properties disappear altogether. This temperature varies from material to material. The material's magnetic domains are no longer "held in place" by the metallic crystal matrix when the Tc is exceeded. The atoms have too much kinetic energy and a random distribution of alignments of the domains will occur. Bye bye magnetism, hello paramagnetism.The effects can be demonstrated by a simple experiment.You need a bar magnet, a thin rope and a hand full of carpet tacks. Secure one end of the rope to the magnet. (so that you do not burn yourself in experiment later.)Freeze the magnet. Pick up some tacks. Take them off and count them. Record the data.Drop the magnet in boiling water. Pick up tacks again. Take them off and count them. Record the data. Compare the data. Repeat a few times. Compare the data from all runs. You should find that the magnet is stronger the colder it is.
Strength is power in some person or individual. Strength generally varies from place to place.
the temperature varies from hot to cold
the conclusion is that the melting points and boiling points of various substances or chemicals are different. Some have m.p. but some don't have while some have b.p. but some don't have.it varies from chemical to chemical.
This is a question of Theoretical Philosophy. *It varies. Please see English language.
Not very strong in comparison with a typical small "bar magnet" which has a field strength of roughly 100 gauss. Earth's magnetic field strength at the surface is about 0.3 to 0.6 gauss. That's stronger than some planets and weaker than others.
The temperature in the Sahara Desert varies, it does not have an all time temperature
An animal that maintains its body temperature within a narrow range even when the environmental temperature varies is a warm-blooded animal.