it will lite . <P>
<P></P>Well, you sorta answered your own question, if you are talking residential wiring. The transformer in front of the house supplies 220V, center tapped, to your house. (we are talking the USA, right?) Center tapped means that the secondary of the transformer feeding your house is supplying 220, but there is a wire in the center of the secondary coil that has 110 between it and either end of the coil. If you look in your fusebox (breaker box in any newer home) you will see breakers on the left and on the right. The ones on the left side supply power from one end of the coil into your house and the center tap, and the ones on the other side supply power from the other end of the secondary and the center tap. 220 volts goes from either end of the secondary and doesn't bother with the center tap. I think the answer to the question is, you'll make light. be careful fooling with the cords, though.
The negative (or neutral) terminal of the power source.
a complete circuit is a circuit through which a current can flow(see closed circuit)A complete circuit is almost like a circle. Energy flows through this circle in order to make the light bulb light.A circuit that has a power source, a load such as a light or motor to power and a ground point.A complete circut is a circut with no gaps.
To make any electrical circuit work it has to be complete. Source of power to the load, the load itself and a return path from the load back to the source. The source in this case being the distribution panel. Any breaks in this complete path will cause the current to stop flowing and the device to not work. A light fixture and light switch work on this principle, open the circuit and the light goes out.
more power
The average light fixture is likely in series with the light switch, and the utility power grid.
The purpose of the neutral wire in a light switch circuit is to provide a return path for the electrical current to flow back to the power source, completing the circuit and allowing the switch to control the flow of electricity to the light fixture.
The purpose of the neutral wire in a light switch circuit is to provide a return path for the electricity to flow back to the power source once the switch is turned on, completing the circuit and allowing the light to turn on.
No, the neutral wire does not carry power in an electrical circuit. It is used to complete the circuit and provide a return path for the current.
The purpose of a neutral wire on a light switch is to complete the circuit and provide a return path for the electrical current to flow back to the power source. This helps ensure the safe and efficient operation of the light switch.
If the neutral and hot wires touch on the same pole of a light switch, it can cause a short circuit. This can result in overheating, potential damage to the electrical system, and a risk of fire. It is important to address this issue promptly by disconnecting the power and fixing the wiring.
Yes, the neutral wire carries current in an electrical circuit, but it is designed to carry the current back to the power source to complete the circuit.
The purpose of a neutral wire in a light switch is to complete the circuit and provide a return path for the electrical current to flow back to the power source. This helps ensure the safe and efficient operation of the light switch and connected electrical devices.
to complete the circuit and back to power supply
Because the neutral is simply the return path in a complete circuit. It doesn't carry any power - that's only found in the live wire.
The function of a neutral wire in an electrical circuit is to provide a return path for the current to flow back to the power source, completing the circuit and ensuring a balanced flow of electricity.
The purpose of the neutral wire in an electrical circuit is to provide a return path for the current to flow back to the power source, completing the circuit and ensuring a balanced flow of electricity.
No, the neutral wire is not hot in an electrical circuit. It carries the return current back to the power source and is typically at a voltage close to ground.