one way that ive been doing is by using the hall sensor
You can hang the magnet up on a string, so that it can rotate freely. In that case, it should align with the Earth's magnetic field.
North and South (Poles) :)
A magnet can have a minimum of 2 poles (north and south poles) and a maximum of an infinite number of poles if the magnet is divided into smaller and smaller sections.
Nothing happens, except that now you have two magnets. The poles of a magnet are not actually localized at the two ends of the magnet but are inherent to the magnetic properties of the magnet. As the magnetic properties are not altered by a modification of the magnet such as cutting it in half, there will be no effect on the poles of the magnet.
A magnet. It is described as a Magnet.
You could use another magnet with marked poles to determine the poles of the unmarked magnet. By observing how the unmarked magnet interacts with the marked magnet, you can identify the north and south poles of the unmarked magnet based on attraction and repulsion.
a mineral magnet can stick to a magnet because a mineral magnet has to poles the north and the south poles
poles
A magnet has two poles which are known as north and south poles.
Answer. Two properties of a magnet are: (i) A magnet always has two poles: north pole and south pole.
You place the magnet under a piece of paper, and then sprinkle some iron filings on the paper. The iron filings will line up along the magnetic lines of force, which will show very clearly where the magnetic poles are.
You can hang the magnet up on a string, so that it can rotate freely. In that case, it should align with the Earth's magnetic field.
North and South (Poles) :)
You place the magnet under a piece of paper, and then sprinkle some iron filings on the paper. The iron filings will line up along the magnetic lines of force, which will show very clearly where the magnetic poles are.
A magnet can have a minimum of 2 poles (north and south poles) and a maximum of an infinite number of poles if the magnet is divided into smaller and smaller sections.
One pole in a magnet which is n stands for north , and the other pole on a magnet which is s , stands for south. Those are the two poles on a magnet.
Nothing happens, except that now you have two magnets. The poles of a magnet are not actually localized at the two ends of the magnet but are inherent to the magnetic properties of the magnet. As the magnetic properties are not altered by a modification of the magnet such as cutting it in half, there will be no effect on the poles of the magnet.