The flow of current has nothing to do with magnetism. It will flow in any direction you want, depending on the applied voltage.
A magnet will deflect an electric current, the direction in which the force acts is a little complicated. in the presence of a magnetic field, current tries to move in a helical shape (like the shape of a spring).
No, being a magnet, it has a north pole and a south pole. The two can't be separated in a magnet. If you cut the magnet in half, each half will still have a north pole and a half pole.No, being a magnet, it has a north pole and a south pole. The two can't be separated in a magnet. If you cut the magnet in half, each half will still have a north pole and a half pole.No, being a magnet, it has a north pole and a south pole. The two can't be separated in a magnet. If you cut the magnet in half, each half will still have a north pole and a half pole.No, being a magnet, it has a north pole and a south pole. The two can't be separated in a magnet. If you cut the magnet in half, each half will still have a north pole and a half pole.
pole. the middle part of a magnet is the pole. :)
South pole of another magnet.
South Pole of another Magnet or towards the South Pole of the Earth
Induce current in the generator windings.
A magnet will deflect an electric current, the direction in which the force acts is a little complicated. in the presence of a magnetic field, current tries to move in a helical shape (like the shape of a spring).
It will bring a cool current Because it flows from the equator towards the pole
An electromagnet is temporary because the field disappears when the current is switched off.
Current flows through both poles of a battery: in one out the other.Which one the current is considered to flow into or out of depends on how you describe current.conventional current - flows out the positive pole and in the negative pole (this was defined by Benjamin Franklin)electron current - flows out the negative pole and in the positive pole (this was defined following the discovery of electrons by Joseph John Thomson)For engineering purposes it does not matter which description is used and engineers are trained to use conventional current, so they all "speak the same language" (even though it can be considered "backwards").
No, being a magnet, it has a north pole and a south pole. The two can't be separated in a magnet. If you cut the magnet in half, each half will still have a north pole and a half pole.No, being a magnet, it has a north pole and a south pole. The two can't be separated in a magnet. If you cut the magnet in half, each half will still have a north pole and a half pole.No, being a magnet, it has a north pole and a south pole. The two can't be separated in a magnet. If you cut the magnet in half, each half will still have a north pole and a half pole.No, being a magnet, it has a north pole and a south pole. The two can't be separated in a magnet. If you cut the magnet in half, each half will still have a north pole and a half pole.
The pole attracted to the Earth's north pole, or another magnet's south pole.
If you have a compass or a magnet with the poles marked, you can bring it near the magnet with the missing labels. The north pole on the unlabeled magnet will repel the north pole on the labeled magnet or the north pole on the compass.
A magnet has both a South pole and a North pole. The magnetic properties of a magnet come from the alignment of electrons inside of the magnet. The North pole of a magnet will repel another North pole, but attract a South pole, and vice versa.
pole. the middle part of a magnet is the pole. :)
( kingfurgill ) uhmm here's what I think: Ok, Theres magnet 1 and magnet 2, both have a south pole and a north pole. the south pole of magnet 1 connects to the north pole of magnet 2 and the north pole of magnet 1 connects to the south pole of magnet 2 ( that's what i learned at school today( ^_^ ) )
South pole of another magnet.