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atharba
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Is it because due to all the collisions in every direction, there's always a force that is opposite to another force? Hence acceleration is zero?
Isn't the average drift velocity of an electron a constant value? Hence, shouldn't its acceleration be zero (since velocity is constant)?Ibix said:Turn your room light off. No current is flowing in the wire and the electron drift velocity is zero. Turn it on and the electrin drift velocity will be a few millimeters per second. The electrons must have accelerated.
Perhaps you had a specific situation in mind? Because the statement you asked about isn't generally true.
As I pointed out in post #2, the drift velocity is zero when there is no current and non-zero when there is current. So the electrons must accelerate when the current is turned on, and no, the drift velocity is clearly not a constant value.atharba said:Isn't the average drift velocity of an electron a constant value? Hence, shouldn't its acceleration be zero (since velocity is constant)?
In a crude model where the electrons are drifting through the wire at a constant speed, then (clearly) there is no acceleration. Why would that be a question?atharba said:Isn't the average drift velocity of an electron a constant value? Hence, shouldn't its acceleration be zero (since velocity is constant)?
... and in one complete circuit of the wire, the total acceleration is zero.Dale said:Even with a constant drift speed there is still acceleration around a bend in a wire.
Due to the magnetic field produced by the current in the wire.Dale said:Even with a constant drift speed there is still acceleration around a bend in a wire.
Typically due to the electric field produced by the surface charges on the wire. There is a pretty decent amount of literature on this topic.Gavran said:Due to the magnetic field produced by the current in the wire.
Unless, perhaps, one is monitoring charge carriers circulating in the evacuated tubes of a particle accelerator.PeroK said:... and in one complete circuit of the wire, the total acceleration is zero.
Can you recommend something that can be found on the internet?Dale said:Typically due to the electric field produced by the surface charges on the wire. There is a pretty decent amount of literature on this topic.
My favorite is "A semiquantitative treatment of surface charges in DC circuits" by R Mueller https://www.tu-braunschweig.de/inde...oken=2cc8a71e4fdbf159121c6b8ef8348952a2e0c197Gavran said:Can you recommend something that can be found on the internet?
Thank youDale said:My favorite is "A semiquantitative treatment of surface charges in DC circuits" by R Mueller https://www.tu-braunschweig.de/inde...oken=2cc8a71e4fdbf159121c6b8ef8348952a2e0c197
The seminal paper on this topic is "Surface charges on circuit wires and resistors play three roles" by JD Jackson. https://pubs.aip.org/aapt/ajp/artic...t-wires-and-resistors?redirectedFrom=fulltext