Exploring the Source of Electrons in Generators

In summary: So, in summary, current is not sent 'one way', it is sent through two wires. The current is never sent 'one way', that's why there are two wires. There's no such thing as a sink for electrons. If your appliance is running, it is part of a closed circuit and the same electrons flow around the circuit. They are not in any sense 'used up'.
  • #1
extant
2
0
scenario:

If any generator ultimately 'pushes' current (free surface electrons) down a wire, moving trillions of trillions of electrons through power wires towards our homes and other uses . . .

what is the source of electrons at the generator site to replenish electrons? There can not be an endless supply, so where are they initially taken from, and how are electrons returned to this starting point of electrical generation (in this specific example or in general for non-cyclic systems).
 
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  • #2
The electrical circuits are closed loops. The electrons just go all the way round and start the journey again. Thats for DC. If it's AC, they oscillate, moving one way then back again repeatedly.
 
  • #3
fair enough for a conventional circuit, but i was asking about a situation where current is sent one way only, down a line to a "sink" for the electrons (appliances and whatever).

I think i have found the answer that there is a component of the system in the ground. It is the ground itself that supplies (effectively) an endless supply of electrons for the generator (ie hydroelectric power plant). (Similar to a well drawing from an underground lake that is immediately, and constantly refilled as water is pumped out)

If this needs correction or some specific detail on how the electrons are drawn out of the ground, I would appreciate it, but I am otherwise satisfied with the general explanation.
 
  • #4
fair enough for a conventional circuit, but i was asking about a situation where current is sent one way only, down a line to a "sink" for the electrons (appliances and whatever).
The current is never sent 'one way', that's why there are two wires. There's no such thing as a sink for electrons. If your appliance is running, it is part of a closed circuit and the same electrons flow around the circuit. They are not in any sense 'used up'.

I think i have found the answer that there is a component of the system in the ground. It is the ground itself that supplies (effectively) an endless supply of electrons for the generator (ie hydroelectric power plant). (Similar to a well drawing from an underground lake that is immediately, and constantly refilled as water is pumped out)
Where did you find this ? I think you've got it wrong.
 
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  • #5
extant said:
I think i have found the answer that there is a component of the system in the ground. It is the ground itself that supplies (effectively) an endless supply of electrons for the generator (ie hydroelectric power plant). (Similar to a well drawing from an underground lake that is immediately, and constantly refilled as water is pumped out).
If you have more than a tiny amount of current in your ground wire, you have a serious problem. The ground is there for protection only, not for carrying load. Note that most household electrical devices are not grounded - they only have two-prong plugs.
 
  • #6
but then, what energy that was used to turned on all these appliances? where did it come from?
 
  • #7
indr0008 said:
but then, what energy that was used to turned on all these appliances? where did it come from?
Again, the best way to think about it is probably with an analogy to a hydroelectric plant. The water goes through the plant, but is not consumed in the process. When it gets out at the bottom of the dam, it is just at a lower [gravitational] potential than before it went through the dam/plant. An electron going through a resistor works the same way. A force (also called "potential") is required to push the electron through a resistor (that's where the name "resistor" comes from) and after going through the resistor, the electron has a lower electrical potential than it did before it went through.
 

1. How do generators produce electricity?

Generators produce electricity through the process of electromagnetic induction. This involves rotating a coil of wire within a magnetic field, which causes electrons to move and generate an electric current.

2. What is the source of electrons in generators?

The source of electrons in generators is the conductor, typically a metal wire, that is used to create the rotating coil. Electrons flow through this conductor, creating an electric current.

3. How do generators convert mechanical energy into electrical energy?

Generators convert mechanical energy, such as turning a turbine or rotating a hand crank, into electrical energy through the process of electromagnetic induction. This involves the interaction between a magnetic field and a moving conductor, which creates an electric current.

4. What factors affect the production of electrons in generators?

The production of electrons in generators can be affected by various factors, such as the strength and direction of the magnetic field, the speed of rotation of the coil, and the material and size of the conductor. Additionally, the presence of any impedance or resistance in the circuit can also affect the production of electrons.

5. Are there alternative sources of electrons in generators?

Yes, there are alternative sources of electrons in generators, such as solar panels or fuel cells. These technologies use different methods to generate electricity, but they also involve the movement of electrons to create an electric current.

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