Matter
Either one or both of the substances are not magnetic.
Magnetic substances are substances containing aligned dipoles. Dipoles are spinning electrons. In order for something to be magnetic, its dipoles must be aligned with each other, so that they face the same direction. The direction they face create a North end, while the opposite end creates a South end.Some substances, known as ferromagnetic substances, have permanently aligned dipoles. Other substances, such as paramagnetic and dimagnetic substances, require an external magnetic field to align, or 'induce' the dipoles of the substance.To conclude, magnetic substances contain dipoles which are permanently aligned, or can be aligned through the force of external magnetic fields.Diamagnetic Substances are those Substances there is no resultant field as the magnetic field produce by both the spin and orbital motions of the electrons might add up to zero.
The ability of some materials to become STRONGLY magnetized is related to the fact that the materials form magnetic domains, in which many atoms are aligned in a particular direction. Note that in this case, each atom is a tiny magnet.
Because of a property called spin, electrons act like tiny magnets. Most of the time paired electrons contain opposite spins, meaning the material has a weak magnetic field. The more paired electrons a material has, the weaker the magnetic field in the material. Unpaired electrons attract and repel other material. This determines which materials unpaired electrons match up with and attract to form a magnetic domain.
Simply heat the mixture. Given that they have different boiling points, one will evaporate before the other and thus you will have two separate substances
A magnet. The magnet will attract the magnetic material to it and so separate the magnetic material from the mixture.
Either one or both of the substances are not magnetic.
Yes, iron is a magnetic material. It is an element by itself by alloys containing iron would also exhibit varying degrees of magnetism. The other magnetic elements include cobalt and nickel.
Other magnets, as well as magnetic substances such as iron, in which magnetism is induced by the external magnetic field.
Other magnets, as well as magnetic substances such as iron, in which magnetism is induced by the external magnetic field.
it generally depends on the soil content~if it is rich in iron or some other magnetic metals it will magnetize but if it don't it won't..soil is non-magnetic but iron filings in it are magnetic
Magnetic substances are substances containing aligned dipoles. Dipoles are spinning electrons. In order for something to be magnetic, its dipoles must be aligned with each other, so that they face the same direction. The direction they face create a North end, while the opposite end creates a South end.Some substances, known as ferromagnetic substances, have permanently aligned dipoles. Other substances, such as paramagnetic and dimagnetic substances, require an external magnetic field to align, or 'induce' the dipoles of the substance.To conclude, magnetic substances contain dipoles which are permanently aligned, or can be aligned through the force of external magnetic fields.Diamagnetic Substances are those Substances there is no resultant field as the magnetic field produce by both the spin and orbital motions of the electrons might add up to zero.
To understand this we need to understand the magnetic properties of material. There are 3:-Ferromagnetic.Paramagnetic.Diamagnetic.Ferromagnetic substances which are easily attracted to magnets. Paramagnetic substances are those which are weakly attracted to magnets. Diamagnetic substances are not attracted to magnets. So Palladium falls in the third category while iron is ferromagnetic.
Thermite, the iron melts.
Ferromagnetic materials like iron, cobalt, nickel and steel are magnetic. Most other materials are not.
Well, you have to be very specific about this question. Substances can separate in a compound mixture, such as chex mix, by pulling the stuff right out. Other stuff, maybe not.
solubility in water of some other substancewhether one of the substances is magnetic or notboiling points: distillation could be useddensity: centrifugal force could be used