This can't be seen with the unaided eye. But if you hang the magnet on a string, the end that points north is the magnet's north pole - it alligns itself that way, due to the Earth's magnetic field.
This can't be seen with the unaided eye. But if you hang the magnet on a string, the end that points north is the magnet's north pole - it alligns itself that way, due to the Earth's magnetic field.
This can't be seen with the unaided eye. But if you hang the magnet on a string, the end that points north is the magnet's north pole - it alligns itself that way, due to the Earth's magnetic field.
This can't be seen with the unaided eye. But if you hang the magnet on a string, the end that points north is the magnet's north pole - it alligns itself that way, due to the Earth's magnetic field.
This can't be seen with the unaided eye. But if you hang the magnet on a string, the end that points north is the magnet's north pole - it alligns itself that way, due to the Earth's magnetic field.
North to south, because north to north ( or south to south for that matter ) repel each other.
yes
we learned all about magnets in 4th grade
Both
it depends on the north of a magnet and the south of a magnet
Then the compass would react according to the magnetic field of the magnet.Then the compass would react according to the magnetic field of the magnet.Then the compass would react according to the magnetic field of the magnet.Then the compass would react according to the magnetic field of the magnet.
The field lines would leave one pole (end of the magnet) and then curve around one side to come back to the other pole in kind of a semi-oval. Picture two ovals side by side, then picture the bar magnet placed between them, overlaying the long edges of the ovals where the ovals touch. This can be observed by pouring some iron filings onto a piece of paper and then placing a bar magnet underneath the paper. The filings will line up along the field lines providing a visual picture.
A magnet always has two faces or 'poles'. One is called north, because it will be attracted to the north pole of the earth if allowed to freely rotate. The other is called south because it will be attracted to the south pole of the earth. The earth itself acts like a magnet. The north pole of the earth actually has a south magnetic polarity and therefore attracts the north pole of a magnet. A compass needle is a magnet in which the arrow that points north has a north magnetic polarity.
This is because magnets have north and south poles, which attract and repel each other. Opposite sides of the magnet attract each other like a south pole of the magnet touching the north pole of another magnet, while the same sides of a magnet like a north pole of one magnet touching a north pole from another magnet.
it depends on the north of a magnet and the south of a magnet
I think it is the north and the south parts of the magnet.
Every magnet has two poles, called the north and south poles. Magnetic field lines begin at the north pole, and end at the south pole.
The magnetic field of a magnet is strongest right at the poles, both the north pole and the south pole (which are equally strong).
north pole and south pole
is a meterial or object that produces a megnetic field
yes, b/c it is directed from north to south pole of a magnet.
the magnet will repel
NORTH AND SOUTH
It reacts to the magnetic field of the Earth.
Magnets are related to electrical currents; the electrical current produces a symmetrical magnetic field, i.e., it has a north and a south part.In the case of a permanent magnet, each atom has a tiny magnet, with its own north pole and south pole.
If a magnet is "left to float freely", it will align to any magnetic field - or more precisely, to the horizontal component of the magnetic field. And if there is no stronger magnet nearby, this field will be governed by Earth's magnetic field.