If two materials have a weak magnetic domain then their lines of force will be sketched as farther apart. This is the convention for drawings of magnetic fields.
A magnetic domain refers to a region within a magnetic material that has uniform magnetization. Two materials with a weak magnetic domain are bismuth and pyrolytic carbon.
Sort of, in a sense. Some magnetic materials are compounds or alloys of materials that are not, themselves, especially magnetic... for example, Alnico makes better permanent magnets than any of its components (two of which, aluminum and copper, are pretty much nonmagnetic).However, if you're asking if you can make, say, woodmagnetic... no.
There are four main forces in nature:* The gravitational force* The electric and magnetic forces (the two are closely related)* The strong force* The weak force
the magnetic field is an oblong shape with two points at the north and south!!
It remains constant
A magnetic domain refers to a region within a magnetic material that has uniform magnetization. Two materials with a weak magnetic domain are bismuth and pyrolytic carbon.
Two so called rare earth materials that are magnetic are neodymium and samarium.
The force of attraction or repulsion between two magnetic materials.
No, a magnet does NOT have the ability to attract materials that are NON-magnetic (unless it has something magnetic on it, or has magnetic material in it). Duhhh!!! I'm in seventh grade and even I know that!!! ; )
A magnetic material will become non-magnetic if the temperature is increased beyond its magnetic transition temperature. For example, iron will be non-magnetic if its temperature exceeds about 1050 kelvin. Transition temperatures for different magnetic materials vary over a wide range. The element Gadolinium has a transition temperature near room temperature. Many other materials must be cooled to close to absolute zero in order to be magnetic.Another way to make a magnetic material non-magnetic, which may be possible for some materials, is to add an appropriate quantity of impurities. For example most stainless steels are non-magnetic even though they are mostly iron.It is also important to recognize the difference between magnetic materials and magnetized materials. Magnetic materials can be demagnetized, so they do not act like magnets, even below their transition temperature. They are still magnetic, but the magnetic regions within the material, called "domains," have been randomized in direction. When the material is magnetized, those internal fields tend to line up and combine their strength. Magnetizing and demagnetizing is often confused with magnetic and non-magnetic transitions, however the two phenomena are quite different in nature.
Because the magnetic force between two magnets can produce electricity because the - and + will try to get to attract each other thus causing electricity
to look for flaws in metal objects and to find weak spots in materials and leaks in pipes
Sort of, in a sense. Some magnetic materials are compounds or alloys of materials that are not, themselves, especially magnetic... for example, Alnico makes better permanent magnets than any of its components (two of which, aluminum and copper, are pretty much nonmagnetic).However, if you're asking if you can make, say, woodmagnetic... no.
when magnets are kept loose their magnetic power becomes weak. therefore a non magnetic substance should be kept in between of two magnets while storing them. so that there is no continuous attraction or repulsion between them.
There are four main forces in nature:* The gravitational force* The electric and magnetic forces (the two are closely related)* The strong force* The weak force
i dnt no m8, that's what im trying to find out its solid.
The domain and range are two different sets associated with a relationship or function. There is not a domain of a range.