The current carrying conductor has a magnetic field of of its own so when it comes in contact with with another magnetic field it experiences a force which is given by fleming's left hand rule.
The force depends upon :
work as the current carrying coil-of wire on and acts like magnet when conductor flows
work as the current carrying coil-of wire on and acts like magnet when conductor flows
Yes, a current carrying conductor behaves like a magnet.
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.
A magnet will conduct electricity.
A changing magnetic field, in the conductor, can induce a voltage (and, under the correct conditions, that in turn will result in a current). In the case of a permanent magnet, either the magnet or the conductor has to move.
Hans Oersted, a Dane, was the first to observe the magnetic effect of a current carrying conductor - about 1819.
Motion
Motion
Motion
a copper wire carrying current and another magnet.
factors on which magnetic field a bar magnet depends :- 1. pole strength of the magnet 2. medium in which the bar magnet is present(since the permittivity changes) factors on which external magnetic field(B) of a current carrying coil depends:- 1. the amount of current flowing through the conductor 2. the perpendicular distance of the point from the conductor. 3. medium in which the conductor is present(since the permittivity changes)