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#126871 02/28/01 03:29 PM
Joined: Oct 2000
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This question was brought up by sparky66wv in another thread:

Go to http://licensedelectricians.net/ESF/Why%20Electricity%20is%20Impossible%20to%20Understand.htm#miscon

...mistaken belief that "electricity" travels one way, from source to
load, and at the same time it travels in a circle and returns to the source.

So which one is it? It can't do both...


Bill
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Electrons flow in negative to positive direction, while positive charges flow in positive to negative direction.

This happens both together at the same time in AC and DC. AC just has separate flow directions, which are in levels of Amplitude.

Scott.


Scott " 35 " Thompson
Just Say NO To Green Eggs And Ham!
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Good Q !

In a 120/240 system, the sine is 180 A to B phase at unity. When an incandescent lamp is energized, it really is only on 1/2 the time, being that it sees only 1/2 the sine.If less that 60HZ is viewed, this is a little more notable. current goes , and current returns.
The same 240V lamp sees both A & B phases, current goes from A to B, and from B to A simultaneously.
The same goes for the X-former on the pole, the only difference being the imbalance returning on the center tap.

Hows that?
[Linked Image]

Of course one good Q leads to another here;

[Linked Image]

Energy cannot be destroyed right?, so if the lamp changes X amount to heat and light, is there less of a return current?

try this link;
infopop

[Linked Image]

[This message has been edited by sparky (edited 02-28-2001).]

[This message has been edited by sparky (edited 02-28-2001).]

Joined: Oct 2000
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Nice Link Sparky!
A world of info there!

Bill


Bill
Joined: Feb 2001
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Probably More Than You Care To Know

Electricity is defined as the flow of electrons from one atom to another.

A circuit is defined as a "complete pathway" for electricity to flow. In other words it begins at a source, travels through a conductor, goes through a load, and returns to the source. Ergo, the electrons cannot get lost along some point. if the electrons do not complete the circuit as stated above it will be because they found an alternate path; ie through you.


Electrons do not get used up in this process. They must complete the circuit. In the process of going through a lamp filament which has a high resistance they give off heat and light is created as they fight their way through.

In the United States residential electricity is supplied using only one phase. (there may be three phases at the pole but only one is feeding the transformer that supplies the residence. The secondary of that transformer has a center tap (neutral point). That point is grounded at the transformer. A normal 60hz. sine wave will be produced from hot leg to hot leg or neutral to hot leg. (Note the hot conductors cannot be referred to as A and or B Phases because they are both from the same phase.) The amplitude or voltage will be graphed on a oscilloscope corresponding to the voltage in the circuit.

Three Phase power is different. This power is normally supplied using two or three transformers and using three phases; A, B, and C.

Delta configurations use two or three transformers. Open Delta uses two transformers and Closed Delta uses three. The neutral in both cases comes off of a center tap in one of the transformers. Delta configurations create a High Leg. This high leg causes a higher voltage to neutral and cannot be used for 110-120 volt circuits.

Wye configurations are wired with a single neutral tap at one end of the three windings which are connected. Because they are equal distances from the other ends of the windings the voltage from Phase to neutral will be the same for all three phases.

Hopefully this will cause some greater confusion out there and give us something more to talk about.



[This message has been edited by dturner (edited 03-02-2001).]

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Nice links, nice replies!

I have a question, though [of course [Linked Image] ]

How indepth does the average Electrician want to go when it comes to learning the physics of Electrical Theories??

Here is a subject that can lead to years and years of studies, each changing as the person advances, which can be completely washed out in the future by another branched version of the theory.
Making the choice of following a certain direction of theory is needed to be done first.

An example that is simple would be Electron current flow as opposed to conventional current flow theory.
Conventional current is extremely simple to use, and is the way that a person in the field would view current flow. It is, however, incorrect as to the way the current flows! It is backwards as to the actual - Electron Current flow direction!
Where will this cause problems?? mostly at Diodes or Transistors. The Diode is drawn in a Conventional current flow direction on schematics, and is also connected this way [Anode "A" to the Positive side, Cathode "K" to the Negative side]. The problem begins when one tries to apply Electron current flow to these schematics. Now the Diode would be reverse biased, and nothing will flow across it!!

I know this rarely happens, but it's something to think about. Those that have an Electronics background will know where I am going with this!!

I completely support anyone in the trade that wants to learn Electrical Theory. The more, the better!! Knowing the Theory will definitely help the person understand how to hook things up, and assist in correct circuitry. The removal of personal doubt of what is actually going on within a piece of equipment or circuit, is priceless!

I personally have done extensive, in-depth studies of the physics involved with Electric circuits and theories. Not too much of this stuff will be a direct benefit to the average sparky.
On the other hand, the most basic items of the theory could be a danger to the average sparky!
A balance between Extended AC theories and ultra advanced theories [way before the field of Quantum Mechanics gets mentioned [Linked Image]], would be the goal[s] to look at for any Electrician.

I breezed over the paper that was written about the common electrical mistaken stuff. It's great for the average sparky.
I'll take a look at the link that "Sparky" included in his message, then get back to you on it. I ran my cursor over it and the link contains something relavent to Kirchoff. His theories are as benificial to the average sparky as Ohm's are [Ohm also goes into sound theories].

As to the paper, I was glad to see that the Author explained a very basic thing about current flow theory - The conductor it's self contains current! It begins flowing when connected to a power source.

I would be glad to add, or write some stuff about theories, then post to this forum. If interested, let me know.
I'll keep the stuff brief [I will force myself here! - better yet, I'll hire armed personnel to keep me in line [Linked Image] ]. I'll begin simple, then move up.

Let me know about this baloney, plus the level that a common electrician would wish to learn [as mentioned at the beginning].

dturner: Great message! Many people mistakenly say that a 1 phase 2 wire circuit [derived from one transformer] has an "A" phase at 0 degrees, then a "B" phase at 180 degrees. If this was true, nothing would work, as the two cancel each other out.
I am impressed with your message, and hope to see more from you in the future!


Scott


Scott " 35 " Thompson
Just Say NO To Green Eggs And Ham!
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Hey Scott...


Okay, so with my trusty Fluke meter, I've noticed when under load that the grounded conductor has the same current as the hot conductor (120v) and the hot conductor has 120V to ground and the GC has zero volts. If ALL of the current is being returned from a load to a source, and none of the voltage is "returned" on the GC, then is it the voltage creating the power to drive the load and the current the medium upon which it rides? I though it was the other way around... Just where does the force come from if all of the power can be accounted for on the return line? Shouldn't larger power require more voltage rather than more current? It seems to me that if all of the current returns to the source, then the only thing to be lost to resistance would be voltage. Therefore the voltage would be the actual power that gets "used up". Just exactly what fundamental thing am I missing here?

Be easy on me Scott, my "formal" electrical education is next to nothing.

[This message has been edited by sparky66wv (edited 03-02-2001).]

[This message has been edited by sparky66wv (edited 03-02-2001).]


-Virgil
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It's ironic that we, as tradesmen, make a carear out of manipulating an energy that we have so little understanding of.
Our apprenticeships leave us with more Q's than A's

Case in point, the 3 ph transmission, the pole transformer, the center tap, and the flow of electrons involved.

Scott ( and others) , thank you for any input here, please go slow.....remember when Kirk and the boys landed on those primitive planets?...easy on the "quantum" stuff..
[Linked Image]

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66,

Let me try to answer this with as minimal wording possible, in order to make sense.
If it does make sense, we can elaborate further.

Basic stuff:

Voltage, or Electromotive Force [EMF] is the Pressure that pushes current from point A, through a load, then to point B. It's commonly known as Potential Difference, which is similar to thinking of Potential Energy in science [like a rock suspended in the air above the ground. the rock has potential energy]. The symbolic label for Voltage is "E"

Current, measured in Amperes, is the amount of flowing charges in a closed circuit [one Ampere is figured as 1 coulomb of current flowing across a certain point in one second. A coulomb is the unit for Electrical Charge and is equal to 6.28 X 10 / 18 Electrons, or roughly 628,000,000,000,000,000 Electrons passing one point in one second]. Current flow can be visualized as the way a line of Billiard balls, layed end to end - then struck with the Cue ball at one end, would move. The energy transferes from the cue ball, into the line of balls, then is contained in the last ball, which gets ejected away from the line.

Current flows very similar to this. There is current flowing in both directions at the same time, anytime there is a power source connected [I say this because even if the switches and circuits are open, there is temporary flows - this is beyond the scope of this message! This would be known as Capacitive Charging of the circuits].

Electrons [charged particles on the outer orbits of the Atoms] make up the Electron current flow. Free Electrons in conductors are what the transfer is carried across with.
As Electron current flows from the polarity with the highest accumilation of Electrons [the Negative pole, or position] to the Positive pole, there is an equal transfer of Positive charges brought from the pole with the higher Positive polarity, to the negative pole. This is a typical current flow. All current flows within a closed circuit and through the connected load[s]. The exception is Charging Currents inside and outside the conductor, plus the Magnetic fields on conductors created by current flows [similar to Induction]. The symbolic label for Current [Amperage] is "I"

The combination of Voltage [E] and Amperage [I] flowing through a load, causes work to be done, or Kinetic Energy is released - mostly in the form of heat. This work is measured in Watts, and is the primary unit of Electrical Power. The symbolic label for Wattage is "P" and subscript is "W".
For simplicity, I will not cover Volt-Amperes, or Apparent Power.

If you were to imagine a simple Resistor load - such as an Incandescent Lamp - being powered by an Electrochemical cell [or Battery], the flows and transfers of energy can be explained.

First, place the Resistor in a vertical position, so the leads are up and down. Next, connect the negative pole from the battery to the top lead, and the positive pole to the lower lead. Now think of the Electrons flowing through the load as marbles. Think of the load Resistor as having a restriction that slows them down. Think of the spaces between the marbles as the positive charges.

Place a switch, in the form of some kind of valve that stops the flow of marbles.

First off, with the switch "Open" [no flow], there is a Potential Difference between the top and bottom of the battery [the poles]. The Potential is because the marbles can "fall" downwards, due to gravity. This is how a certain voltage is obtained. It's the Electrostatic Potential Energy between points of opposite polarity.

When the switch is closed [marbles can flow], there still is a Potential difference between the two poles and is now seen at the load's terminals too.
As the marbles move through the load, they transfer energy to the load, in the form of heat. The energy transfer is completed at the end of the load. At this point, the marbles just move because there is someplace to go to, such as a hole and gravity continues to pull them downward. When there is no more area for marbles to flow into, or there are no more marbles available, the flow ceases - and the Potential Difference becomes zero.

[FYI - in Semiconductor Electronics, the Positive Charge carrier is referred to as a "Hole", and the Electron is reffered to as the "Charge"].

Even though this is a semi long explaination, it is extremely brief and explains the most basic flow in a circuit.


The circuit that you quoted has these points:

1: The grounded conductor will have little, to no voltage [potential difference] to ground, because it is at a ground reference - it's intentionally grounded, so it's at, or near, ground potential.

2: Even though the grounded conductor has little to no voltage [potential] to ground, this does not mean it has no voltage! As shown in the basic example above, the potential difference, in Volts, is measured between TWO points of a supply. This means that the total voltage between the ungrounded conductor and the grounded conductor is 120 volts. Voltage is not measured from only one conductor, but is measured between two conductors. This is why a 1 phase 3 wire system has 240 VAC between the outermost transformer taps [the secondary coil's ends] and 120 VAC between either end to the center tapped neutral - it's a 240 VAC transformer with a tap on the winding, making it have 120/240 VAC.

You mentioned that your Ammeter showed X current flowing on the ungrounded and the grounded conductors. This is very common on 3 phase 4 wire Wye systems, when the loads are NOT pure resistive loads [Incandescent lamps, etc.] The common grounded conductor will carry the highest load current. A 1 phase 3 wire system will balance out as much as possible - there are exceptions, but I'll leave this stuff out for now.

I am mentioning this as if the Ammeter was checking circuits at the panel, not directly at the load[s] themselves. At the load, where there is only the two wires connected, you should definitely have equal amperage on both conductors - ungrounded ["Hot"] and grounded ["Neutral"]. If not, there is a connection allowing current to flow into the equipment grounding conductor, which is not correct. This will cause current to split and flow on both conductors.

Now to the power issue!

ExI = P, or in otherwords, The Voltage present at the Load, times the Amperes flowing through the Load, equals the amount of Power that the load is developing and/or drawing from the line. To keep things simple, just figure the Power to be True Power, in Watts - as opposed to Apparent Power, in Volt-Amps [your probably more familiar with KVA - Kilo Volt-Amps].

At 120 VAC, 10 amps flowing will result in 1,200 Watts of power being drawn from the line and developed in the load. 1,200 Watts [or 1.2 KW - Kilo Watts] is being supplied to the load from the Source of Energy [the power company, via the transformer], through the conductors and finally through the Atoms inside the load. This Kinetic Energy that is displaced in the load, will eventually end up as heat, then once again turn back into Potential energy - such as a rain cloud or dust, something that sits around static. This is the conservation of energy.

As stated, if the circuit draws 10 Amperes at a pressure of 120 Volts, the true power consumed by the load is 1,200 watts.
If the Voltage was 240 volts, the same 1,200 watts could be created using only 5 Amps of current. Use the formula ExI=P to see this. The load's Resistance, or Impedance, would have to be a level that will allow a current of 5 amperes to flow when a pressure of 240 volts is applied.

There is no "dead" voltage - only opposite points in Potential. When current flows out of a load, it still has pressure, or Voltage, pushing it. The total Voltage is measured between two points of a power supply.
For instance, the Voltage for a 120/240 VAC 1 phase 3 wire system would be measured at the supply points, which are in reference to the transformer's output. 240 VAC would be measured between the X1 and X2 terminals - which we will say are the outermost ends of the coil. 120 VAC would be measured between either X0 and X1, or X0 and X2 - with X0 being the center tap.

Voltage does not get used up. The total energy that is to be released in the load is what gets "used up". When someone mistakenly connects a load that was meant for a lower voltage [like hooking up 12 volt stuff to 120 volt power], the load burns up, due to the dramatically high amount of Current that can flow through the low Resistance / Impedance, from a higher Voltage pushing it. The combined result is a major increase in the energy developed and released in the load. That's why things fry from overvoltages [once again, there's many exceptions to this stuff, but I am keeping it brief for easier understanding].

I sure hope this, by some means, explains what you were asking me!

I really did keep things down to a bare minimum!! [kind of proud of myself on that one [Linked Image]].

Even though they are minimum explainations, there is still quite a bit to read! If I could by any means reduce the size, I would do it. This should be able to explain with some clarity, the physics of Electrical flow theory.

If I have not answered your question, please let me know your exact situation. Be sure to read through this message fully, as it covers your questions in sections at a time. Might want to re-read it, or print it, then read off line.

I am sure that this message will bring up many more questions, so feel free to ask them.
I would hope that others in thi group, with the knowledge and backgrounds, will jump forth and also include information.

Between others and me, maybe questions can be answered and who knows - it might work out that the person[s] asking for assistance grasp it entirely [Linked Image]

That is the desired goal!!!

Good luck!

Scott



[This message has been edited by Scott35 (edited 03-02-2001).]


Scott " 35 " Thompson
Just Say NO To Green Eggs And Ham!
Joined: Nov 2000
Posts: 2,236
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Now I'm really confused...

[one ampere is more than 620,000,000,000 coulumbs moving past a point in 1 second].

I thought 1 Ampere was 1 coulumb moving past a point per second, and that 1 coulumb = roughly 620,000,000,000 electrons...

No wonder I'm confused.


-Virgil
Residential/Commercial Inspector
5 Star Inspections
Member IAEI
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