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Remote-Control Circuit. Any electrical circuit that controlsany other circuit through a relay or an equivalent device.
The 'core' type is a magnetic circuit equivalent to an series electric circuit; a 'shell' type is equivalent to a parallel electric circuit. So, the reluctance (magnetic equivalent of resistance) will be lower for a shell type of similar cross-sectional
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With a core type core, the windings surround the limbs. With a shell type core, empty limbs surround the limbs bearing the windings. From the magnetic circuit point of view, a core-type is equivalent to a series electric circuit, whereas a shell type is equivalent to a parallel electric circuit.
The term is "circuit" (from the same root as circle) An electric circuit must be uninterrupted for the current to flow. (This is why circuit-breakers are also called circuit-interruptors.)
Voltage causes current to flow in an electric circuit.
the history of the electric circuit is that the person who made it his name is jack kilby but the history is that the electric circuit was one of the easiest way was to make the electric circuit when the electricity went out. THE END
Anything with a voltage power source, connecting wire and a load is an electric circuit. Hence if you have a flashlight you have an electric circuit.
I guess Electric Circuit....
Because the flux leakage is less in shell type than that in core type T/F.Additional AnswerA shell-type core's magnetic circuit is equivalent to a parallel electric circuit, so it has a lower reluctance compared to a core-type core of similar cross-sectional area.
If there is no closed circuit, electrons will stop flowing quickly, since a charge will build up and repel additional electrons that would otherwise flow.
Reluctance is the opposition offered by a magnetic circuit to the formation of magnetic flux. It is equivalent to resistance in an electric circuit.Reluctance is the ratio of a magnetic circuit's magnetomotive force (measured in amperes) to its magnetic flux(measured in webers, pronounced 'vay-bers'). So, reluctance is measured in amperes per weber (which is often 'spoken' as 'ampere-turns per weber'). This is equivalent, in an electric circuit, to the ratio: electomotive force to electric current.