While not intrinsically magnetic necessarily, conducting current means a magnetic field is formed.
The left hand rule for conductors says that your fingers will point in the direction of the resulting magnetic field. The magnetic field is produced by the electron flow.
All conductors have inductance. But all conductors are not used as inductors
No, some materials (water, for example) conduct electricity and are incapable of becoming magnetic.
Most metals are NOT magnetic; Iron, Steel (Contains Iron in it), Nickel and Cobalt are the only magnetic materials. Nearly ALL metals are electrical conductors, however, so don't get it mixed up. Last edited (re-written) by 09pwang.
When the current in a nearby coil changes, the magnetic flux associated with it changes and an induced emf is produced in the other coil.Hence, induced current is produced.
a high magnetic field
conductors
None of the most commonly used elemental conductors are magnetic.
Yes, by moving the conductors through the magnetic field.
The left hand rule for conductors says that your fingers will point in the direction of the resulting magnetic field. The magnetic field is produced by the electron flow.
A magnetic conductor is a material that supports free movement of magnetic charge (magnetic monopoles), similar to an electric conductor that allows free movement of electric charges. On average the net charge is neutral. Of course, magnetic monopoles do not exist, but clever engineering can produce close to the same effects. Importantly, magnetic conductors have hugely different boundary conditions from electric conductors in electromagnetics and physics. A major research breakthrough in demonstration of wideband magnetic conductors was published in 2011 in "Wideband Artificial Magnetic Conductors Loaded With Non-Foster Negative Inductors" by Gregoire, D.J. ; HRL Labs., LLC, Malibu, CA, USA ; White, C.R. ; Colburn, J.S..
A magnetic conductor is a material that supports free movement of magnetic charge (magnetic monopoles), similar to an electric conductor that allows free movement of electric charges. On average the net charge is neutral. Of course, magnetic monopoles do not exist, but clever engineering can produce close to the same effects. Importantly, magnetic conductors have hugely different boundary conditions from electric conductors in electromagnetics and physics. A major research breakthrough in demonstration of wideband magnetic conductors was published in 2011 in "Wideband Artificial Magnetic Conductors Loaded With Non-Foster Negative Inductors" by Gregoire, D.J. ; HRL Labs., LLC, Malibu, CA, USA ; White, C.R. ; Colburn, J.S..
All conductors have inductance. But all conductors are not used as inductors
The voltage was produce by cutting of the magnetic flux by the conductors.
Well, iron and its alloys are ferromagnetic and they are conductors.
i not give u
Near magnets. This includes conductors that carry electrical currents.