Magnets can make electrons accelerate and change position through force;
f= evB = -ev.Bcos(vB) + evxBsin(vB).
a magnet is made up of lots of tiny things called domains.these domain are what make moagnet a magnet. they alway face north, that's what makes it a permanant magnet.though you can get temporary magnets by swiping the magnet onto a magnetic material many time making sure that only swiping in one direction and not keeping the magnet close to the metal when going back to the other side. this haappens because those domains are magnetic, and by swiping a magnet on it, the all get attracted to the north pole. but hte can be stopped from being a temporay magnet when droped heavily. amina =3
the magnet attracts to iron by the magnetic field both the iron and the magnet have
can be separated by using a magnet
Lodestone is an example of a natural magnet.
the same ones as make up you: protons, neutrons, and electrons.
because the magnet causes particles called electrons in the atoms of the nail to align along the magnet's lines of force. The atoms with aligned electrons then act like tiny bar magnets themselves.
it isn't, a magnet contains electrons and neutrons which connect to the electrons and neutrons in metal!
Placing the material in a strong magnetic field will align its' domains. You can swipe a metal tool on a magnet and make it a magnet.
This is called ELECTROMAGNETIC INDUCTION. The electrons have a magnetic field; the magnetic fields of electron and bar magnet interact. Both the bar magnet and the electrons are "pushed". The electrons are lighter; they move more easily. Moving electrons are called a current.
you are changing one type of energy into another, you are moving electrons using a magnet, these electrons have energy that powers our electronic devices
Poles on a magnet attract or repel because of the way the electrons line up. The electrons in the valence shells tend to line up on one side of the nucleus. The electrons have a negative charge and the nucleus has a positive charge. The negative charges in one magnet repel the negative charges in another magnet but attract the positive charges in another magnet.
Any permanent magnet has electrons moving in it in some uniform way. All permanent magnets have a "uniform net movement" of electrons. Let's look just a bit more closely. Electrons move around atomic nuclei, but if we get the right material and "align" or "coordinate" the movement of the electrons around atoms, magnetic domains will be set up. These will "link" and a permanent magnet will result.
It's electrons and protons
Most of the outer electrons in the metal alloy that make up the magnet spin in the same direction and in the same plane. This causes a magnetic field to surround the magnet. This magnetic field interacts with the outer electrons in other materials and if they too can be made to spin in the sme direction and will be attracted to the magnet. If the other material is a permanent magnet the fields can interact to attract each other or repel each other.
Some metals are naturally paramagnetic, meaing that you can induce a magnet field on it but only with a very strong magnet. To actually magnetize the metal itself without a magnet, you would have to make an induced magnet by wrapping the metal around a copper wire and sending electricity through it. It all has to do with the arrangement of the electrons within the metal.
The electrons of the permanent magnet would align the way the electromagnetic field passed through the magnet.
electrons in magnets are organized and generally pointing in the same direction