0
What else can I help you with?
How you can remove electron from atom?
Simplest method - apply a voltage to a conductor.
What happened to electron under ac voltage and dc voltage?
when electrons flow under AC they flow in both direction firstly forward then in reverse and it does this for as long as there is a potential difference applied to the circuit. under DC the current only flows in one direction only
What regulates amperage in a conductor?
Amperage in a conductor is primarily regulated by the voltage across the conductor and the resistance of the conductor itself, as described by Ohm's Law (I = V/R). When voltage increases, amperage increases, provided the resistance remains constant. Conversely, higher resistance results in lower amperage for a given voltage. Additionally, factors such as temperature and the material properties of the conductor can also influence resistance and thus affect amperage.
What does the conductor in a circuit do?
A conductor carries the voltage potential from the source to the load, i.e. the wires from a circuit breaker to a light.
Why electron freely in a metal?
The term conductor is generally applied to a substance or material that has a lot of free electrons in it. The name conductor is applied because the free electrons are already there. A material does not have free electrons because it is a conductor, but is a conductor because it has a lot of free electrons. That said, let's look at what's going on. These free electrons have energies that permit them to "wander" through the conductor; they're not "locked into" the structure of the material. And when a voltage (potential difference) is applied, current flows through the conductor because the free electrons are moving. They're made to move by the applied voltage. If we take the case of a wire in a circuit, the wire is a conductor. This wire, say a copper one, has many free electrons in it, and when we apply a voltage, electrons move. The voltage forces electrons into one end of the wire, and the free electrons "shift over" and electrons emerge from the other end of the wire. This movement of free electrons in response to an applied voltage through an conductor is the essence of current flow in that conductor.
What happens to the electron flow within a conductor if the EMF or voltage is removed?
i dont know do your work computers are ment for games
What happens to the electrons in a conductor when there is a potential difference between the conductor's ends?
The free electrons in a conductor will, when a difference of potential (voltage) is applied at its ends, participate in electron current flow (or just current, if you prefer). The voltage applied to the conductor will drive current through the conductor, and the free electrons will support current flow. These electrons will actually move through the conductor. As electrons are driven into one end of the conductor, the free electrons "shift over" and electrons stream out the other end of the conductor. This is the essence of current flow in conductors.
Can lightning or electricity strike without a conductor?
Yes ... sort of. Without a conductor the voltage must be high enough to jump the gap. With lightning this happens all the time (the voltage is massive), but seldom happens with commercial power supplies.
When lines of force are cut by a conductor you have magnetic?
Presumably, you are asking what happens when a conductor 'cuts' lines of magnetic flux? If so, then a voltage is induced across the ends of that conductor.
What of these is not required for current to flow through a conductor?
A voltage source is not required for current to flow through a conductor. Voltage is the driving force that pushes the electrons to move in a circuit, but once the current is established in a closed loop, it flows due to the potential difference created by the voltage, even if the source is removed.
What is the voltage source and what is the conductor in a circuit?
The voltage source is the source of the electricity. The conductor is what the electricity flows through to reach its destination. Example: A battery is a voltage source and an electrical wire is the conductor.
What is the voltage source and what is the conductor in a battery?
The battery is the voltage or power source, the wires form the conductor.
What does an electrical circuit need to provide the power?
An electrical circuit needs Voltage-electrical pressure pushing electrons, and Amprege-electron flow through a conductor. P=IxE (Power= Voltage x Amprege.
What is the meaning of a good conducter of electricity?
A good conductor will pass electricity with little or no resistance. Resistance will cause the voltage to drop as the current increases. The least resistance will cause the least drop in voltage and is therefore a good conductor.
What is the voltage source and what is the conductor in a battery circuit?
The battery is the voltage or power source, the wires form the conductor.
Electron move without potentiel difference in a conductor?
No. In a good conductor you simply need less potential difference than in a bad conductor, to get the same current. But if you have zero voltage, you will also have zero current. Unless you have a superconductor (zero resistance), and the current is already flowing.
Is voltage the flow of electrons through a wire or a conductor?
The flow of electrons through a conductor is called electric current.The voltage is the 'pressure' or difference in electric potential between theends of the wire, that encourages each electron to try to move closer toone end and farther away from the other end.
