It is the movement of a conductor (for example a loop of copper wire) in a magnetic field that produces electricity. This was investigated first by Michael Faraday, and is the principle of all electricity generators form small to large.
(please, see that the answer i have given is the generation of magnetic energy without the help of any natural resource like water,steam,coal,petroleum,i have explained that we can generate electricity with a magnet with the help of the poles-- attraction and repulsion which is not thought by the scientists yet.it is a energy with the help of magnetic field to generate electricity, without any pollution.)
yes,why not,though it is very difficult to make the setup and we can supply this energy to our homes but the energy produced would be very low,like, if we use a pillar and attach the big magnet,it would not be easier for the magnet to move fastly. Secondly, it would be very difficult to move the magnet uniformly. thirdly, we have to maintain the magnet move around at a speed of 15km/h which would be difficult. fourthly, if we want to move the magnet fastly we have to use small magnet,but again,then we have to make 100's of setups which would fetch us a lot of money. but it is pollution free, and a kind of advance energy.
Yes. E=cB = zH = czD.
The two constants that relate electricity and magnetism are c the speed of light and z the "free space impedance and "Quantum" Constant, z=W/C = h/C2 = 375 Ohms. W is 500 atto Webers and C is4/3 atto Coulombs.
Motion of a coil within a magnetic field will induce a current in the coil if it can complete a circuit.
Yes.
A wire moving in a magnetic field will automatically produce an emf (a voltage).
Any material that can conduct electricity can produce a magnetic field. The brain uses tinny amounts of electricity to move messages around itself so the brain produces a very small magnetic field that Medical Doctors using very sensitive equipment may be able to detect
Two very common applications are to produce electricity as a generator, and to run on electricity as a motor.
It doesn produce electricity. It uses electricity and shows magnetic properties.
The shape of the magnet is unimportant. Any moving magnet can induce a voltage in a wire. Or any changing magnetic field. If the magnet rotates, its magnetic field will change, so yes.
I think it will produce electricity.
You coil a wire and pass it through a magnetic field you will produce electricity.
an electric current can produce a magnetic field. then,magnetic field within the core of wire will induced the voltage. so magnetic will produce from current at the galvanometer and magnet was far from galvanometer and it induces the voltage
A wire moving in a magnetic field will automatically produce an emf (a voltage).
Any material that can conduct electricity can produce a magnetic field. The brain uses tinny amounts of electricity to move messages around itself so the brain produces a very small magnetic field that Medical Doctors using very sensitive equipment may be able to detect
Faraday showed that a wire passing through a magnetic field will produce electricity. This is how a generator works. Many windings of wire on an armature spin in a magnetic field. This makes electricity.
They are opposite "sides" of the electromagnetic force. A moving magnetic field produces electricity and a moving electric field produces magnetism. Should both move alternately they produce electromagnetic radiation.
A time-varying magnetic field can be used to induce a current in an inductor
Magnetism, an aspect of electromagnetism, one of the fundamental forces of nature. Objects such as a bar magnet can influence other magnetic materials, without physically connecting them, because magnetic objects produce a magnetic field. Magnetic fields are usually represented by magnetic flux lines. Magnetic fields influence magnetic materials and also influence charged particles that move through the magnetic field.
Stationary charge don't produce a magnetic field. because it has no velocity in it, without flow of electron we can't find electricity and for that we have no magnetic field for a stationary charge. It produce only electric field.
Two very common applications are to produce electricity as a generator, and to run on electricity as a motor.
If a conductor moves in a magnetic field, a voltage will be induced. This can be tapped to get an electrical current.