Thank You very much that was very helpful and cleared up my confusionConventional current flow was the result of a 50/50 guess that was made long ago.
Electron flow is how things really work (and was clearly shown to be the way with the first vacuum tubes).
The conventional flow is so ingrained into so many things that it is still used. Except for a few cases involving electron emission, or looking at the physics of how things work at the atomic level, it rarely makes a difference.
hi,
can some one explain to me what conventional current flow is and the difference between conventional and electron flow. how can they be opposite of each other?
Thank YouIf you draw a circuit diagram with the positive line at the top and the negative at the bottom, then arrows pointing down (diodes, leds, transistors) will conduct and pass current either by electrons or holes.
Arrows pointing upwards (Zener diodes or relay catch diodes or power supply diodes) will not conduct unless they are over driven.
Thank YouThe blame has been placed at the feet of Ben Franklin for the mix up!
Also the reason the check valve symbol for the Diode is backwards (electron flow wise).
M.
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hi,
can some one explain to me what conventional current flow is and the difference between conventional and electron flow. how can they be opposite of each other?
thank youFirst of all, "current flow" is technical slang that really should not be used. One should say charge flow, or current existence, or current present. Literally, current flow means "charge flow flow", which is redundant and ridiculous.
Conventional current flow should be called "mathematical current". That means that the polarity of the charge carriers are ignored and charge flow is assumed to go from the positive terminal of the voltage source, to the load, and then to the negative terminal. In other words, it assumes that current consists of positive charge carriers. This makes calculations easier, because you don't have to worry whether the charge carriers are negative electrons as in wires, or positive holes like in semiconductors, or cations and anions in electrolytes. You first perform your calculations using the mathematical convention, and then if necessary to know the true direction of the charge flow, keep the same direction for positive carriers and reverse direction for negative carriers. I have seen folks really get tied up in a knot when they start to worry about the polarity of the carriers before they start calculating.
Some folks blame Ben Franklin for what they call a mix up. Nothing is further from the truth. There are as many positive charges in the universe as negative charges, so if he called electrons positive, other charge carriers would be labeled different from what we are now used to.
As you have probably noticed, semiconductors and ammeters are all marked according to the mathematical convention.
If you or anyone have any questions about this, please post.
Ratch
The result of an imbalance of this "fluid" (electrons) between objects is called static electricity. It is called "static" because the displaced electrons tend to remain stationary after being moved from one insulating material to another. In the case of wax and wool, it was determined through further experimentation that electrons in the wool actually transferred to the atoms in the wax, which is exactly opposite of Franklin's conjecture! In honor of Franklin's designation of the wax's charge being "negative" and the wool's charge being "positive," electrons are said to have a "negative" charging influence. Thus, an object whose atoms have received a surplus of electrons is said to be negatively charged, while an object whose atoms are lacking electrons is said to be positively charged, as confusing as these designations may seem. By the time the true nature of electric "fluid" was discovered, Franklin's nomenclature of electric charge was too well established to be easily changed, and so it remains to this day.