Electric Current I= V/R where V is volts and R is resistance; Magnetic Current I=Hw where H is the Magnetic Intensity and w is the wave distance.
Magnetism is the property of materials that respond at an atomic or subatomic level to an applied magnetic field.
electricity mean flow of charge.
One major difference is that electric monopoles exist but magnetic monopoles do not exist.
Current flow
Yes.
The coil must experience a changing magnetic field in order to have a current induced. You can rotate the coil between the poles of a magnet, or rotate the magnet around the coil.
In an electric magnet there is an ordinary metal used which when you run a current through it, induces a magnetic field, the permanent magnet (usually made of lodestone) contains particles which are already arranged in a manner that produces a magnetic field.
An electric current produces a magnetic field.
A magnet is an object that is magnetic if it displays magnetic properties. Think of it like this; If bar magnet attracts a piece of metal towards it, it is using magnetism (fluxuations in electric current) and therefore the magnet can be said to have magnetic properties.
Current flow
Electro-Magnet
The strength of a magnet(electromagnet) made by flowing electric current through a conducting coil depends on magnitude of current. . .
the electric current is generated by the electric field. thus by the left hand rule when current is passed through a conductor a magnetic field is generated around it so that it is a similar act of a magnet. thus it seems to be a magnet.
Yes.
yes
A magnet created when electric current flows through a coil of wire is called an electromagnet.
magnetic circit has a magnet and electri circuit has electricity
strong
A magnet that becomes energised when an electric current is passed through it.
An electrical current will flow in a conductor, when a magnet is moved next to a conductor - or when the conductor is moved next to the magnet.