heater coil is good conductor of electricity
It is the flow of ELECTRICITY that makes the field in a coil. Therefore a coil of any conductor will make a field. Silver is a conductor.
One of the laws of physics is that when a conductor moves in a magnetic field a current is induced in that conductor. If you then coil that conductor you effectively end up with several conductors and you'll get more current. Incidentally, you might be better of rotating the coil between the poles of a single magnet (a horseshoe type) rather than between two magnets as you've said in your question, because the two may cancel their magnetic fields out, depending on how they are positioned, whereas one won't.AnswerIt's voltage, NOT current, that is induced into a conductor. Current , resulting from this induced voltage, will only flow providing the conductor forms a complete circuit.
work as the current carrying coil-of wire on and acts like magnet when conductor flows
Because copper is a good conductor of heat
A coil of current carrying wire wrapped around an iron core, with at least two taps (one including the entire winding, and one including only part of the winding) is a transformer, or more specifically an auto transformer.
heater coil is good conductor of electricity
It is the flow of ELECTRICITY that makes the field in a coil. Therefore a coil of any conductor will make a field. Silver is a conductor.
Yes a heating coil is a conductor of electricity, other wise it would not heat up.
Through a current in a conductor; it is strengthened once by making a coil of the conductor and then by inserting an easily magnetized core inside the coil
A conductor
self inductance
Distributor has a center conductor that links to the coil via a wire the same size as your spark plug wires..
... exhibits a voltage between its ends. If there is a conductor between the ends of the coil, then a current flows in the coil.
The voltage coil must be connected between the line conductor and the neutral conductor. The current coil must be connected in the line conductor. The instrument's polarity markings must be observed -if the meter reads 'downscale' (backwards), then you need to reverse the connection of one of the coils.
When we place a current carrying conductor in a magnetic field emf is induced in a coil. we can knoe it by connecting voltmeter.
Since a coil contains numerous loops, more of the conductor is affectedÊ by the magnetic field. An increase in permeability of the core results in an increase in the inductance of the coil.
* A conductor that can be shaped into a coil. Copper wire, for example. * An isolator that keeps the conductor's threads isolated from each other, thus forcing the current through all loops of the coil. * An electric current through the coil. * Typically, but not necessarily, a ferrite core to bundle the magnetic field.