A magnet can remove particles from a mixture but not from a chemical compound.
I believe it is in the material. It says that everything has charged particles in it. It also says that in order for a material to be magnetic, then, its atoms have to line up in a certain way so that the electrons in the material all have the same general motion. So if it's a permanent magnet, then the charged particles would be in the material.
the magnet gets weaker
To prove that there are brass particles in sand, you can perform a simple experiment by using a magnet. Brass is not magnetic, so if you pass a magnet over the sand and some particles are attracted to the magnet, it indicates the presence of a metal like brass in the sand. You can then separate the brass particles from the sand using the magnet as proof.
The magnet would absorb any radiation and particles emitted by the radioactive element, just as anything else you might put there would. I'm not up on my nuclear decay, but in the event that alpha or beta particles were emitted, or any other ones with a net charge, the presence of the magnet would deflect them somewhat from the direction they would otherwise have taken.
Run a magnet over the mixture. The iron particles will be attracted to the magnet and the magnet will leave behind the sand.
A magnet can remove particles from a mixture but not from a chemical compound.
The floating saucer-magnet system become a compass, and it will line up with the earth's magnetic field.
I believe it is in the material. It says that everything has charged particles in it. It also says that in order for a material to be magnetic, then, its atoms have to line up in a certain way so that the electrons in the material all have the same general motion. So if it's a permanent magnet, then the charged particles would be in the material.
the magnet gets weaker
To prove that there are brass particles in sand, you can perform a simple experiment by using a magnet. Brass is not magnetic, so if you pass a magnet over the sand and some particles are attracted to the magnet, it indicates the presence of a metal like brass in the sand. You can then separate the brass particles from the sand using the magnet as proof.
The magnet would absorb any radiation and particles emitted by the radioactive element, just as anything else you might put there would. I'm not up on my nuclear decay, but in the event that alpha or beta particles were emitted, or any other ones with a net charge, the presence of the magnet would deflect them somewhat from the direction they would otherwise have taken.
When the magnet is moved beneath the mixture of iron and sulfur, the iron particles will be attracted to the magnet due to their magnetic properties, while the sulfur particles will not be affected by the magnet. This will result in the separation of the iron from the sulfur in the mixture.
You can separate magnetic and nonmagnetic particles using a magnet. The magnetic particles will be attracted to the magnet and can be easily separated from the nonmagnetic particles. This method is commonly used in industries such as mining and recycling.
the nail goes to the magnet
Yes
What is special about iron filings? Anything with iron in it has this property... magnets are attracted to iron! Magnets do not attract sand. You can use a magnet to separate iron filings from sand.