I would expect a voltage in both coils of wire.Note that, if the two coils are connected, the voltages (and corresponding currents) in the coils can interact.
Also, if the two coils are NOT connected, they can STILL interact, since a current will produce its own magnetic field.
That depends on how fast the magnet and wire coil are moving relative to each other. Without that no answer can be given.
Yes, you can. You may recall that by running electricity through a coiled wire (solenoid) with an iron bar in the center, we can create an electromagnet. If we reverse this process and put a strong magnet through a solenoid, we can generate electricity. All you will have to do is move the magnet up and down in order to generate electricity.
It doesn't do anything. It will still work.
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.
The magnetic field produced by electric current in a solenoid coil is similar to that of a bar magnet.
the voltage increases
the voltage will be decreased
That depends on how fast the magnet and wire coil are moving relative to each other. Without that no answer can be given.
Alternating current is normally produced by rotating the magnet in the coil of an induced alternating voltage. When connected to a circuit, an alternating current will flow.
The voltage would depend on the speed of the magnet. It also depends on other factors, e.g. the angle between the magnetic field lines and the movement, and the strength of the magnetic field at that point.
The voltage would depend on the speed of the magnet. It also depends on other factors, e.g. the angle between the magnetic field lines and the movement, and the strength of the magnetic field at that point.
No. The magnetic field is produced by currents in Earth's outer core, which is composed largely of molten iron.
A magnet produced in earth; not man made.
a magnet does not have any voltage, only a magnetic field.
An electro magnet!
There is a "Flywheel" inside the motor that has a large magnet on it. This magnet passes a "Magneto" and that passing (EMF, Electro-motive force) causes a high voltage charge to provide power to the plug.
Voltage is the "pressure" that pushes electrons thru a circuit, higher voltage means more current, or amperes. Amperes and the number of turns of wire in the magnet control the force of the magnet