What is Drift velocity: Definition and 70 Discussions
In physics a drift velocity is the average velocity attained by charged particles, such as electrons, in a material due to an electric field. In general, an electron in a conductor will propagate randomly at the Fermi velocity, resulting in an average velocity of zero. Applying an electric field adds to this random motion a small net flow in one direction; this is the drift.
Drift velocity is proportional to current. In a resistive material it is also proportional to the magnitude of an external electric field. Thus Ohm's law can be explained in terms of drift velocity. The law's most elementary expression is:
u
=
μ
E
,
{\displaystyle u=\mu E,}
where u is drift velocity, μ is the material's electron mobility, and E is the electric field. In the MKS system these quantities' units are m/s, m2/(V·s), and V/m, respectively.
When a potential difference is applied across a conductor, free electrons gain velocity in the direction opposite to the electric field between successive collisions (and lose velocity when traveling in the direction of the field), thus acquiring a velocity component in that direction in addition to its random thermal velocity. As a result, there is a definite small drift velocity of electrons, which is superimposed on the random motion of free electrons. Due to this drift velocity, there is a net flow of electrons opposite to the direction of the field.
I have a small question that can't solve.
How long does it take an average electron to drift 1um in pure silicon in an electric field of 10^4 V/m ?
drift velocity v_d = I / (n*q*A)
but don't know how to calculate
can you help me ?
thank you.
Homework Statement
Estimate the mean drift velocity of a conduction electron in copper, assuming that there is one conduction electron per atom. Consider No. 14 wire (diamter 0.16 cm), common in houses, carrying 5A. The result should be very small. Why then does an electric light turn on...
Drift velocity, vd = eEτ/me
Drift velocity, as in the current formula I=nevdA should correspond to the average velocity with which the electrons are moving in the steady current, but the formula at top gives the mean FINAL velocity achieved by the electrons in short spurts of time(mean...
Homework Statement
Attached to my forum is my homework. I need help with #9 and #10. I have no clue on where to start. Anything is helpful
Homework Equations
The Attempt at a Solution
Hi!
I was just reading about drift speed and I read that the speed is about 10^-4m/s. It then struck me that if electricity is carried by electrons, then in a given circuit, how is the light bulb lighting up so quickly when according to my calculations the time taken to travel 0.5 metres for...
Homework Statement
A gold conductor with an electric field of 0.01 V/m applied, is 0.01 m long and 5.0E-5m in radius. Assuming one conduction electron per atom, what is the drift velocity of the electrons at a temperature of 20.0 degrees C? at 50 degrees C?
Homework Equations
I know that...
The electron drift velocity in a wire is about 0.1 mm/s.
http://www.ac.wwu.edu/~vawter/PhysicsNet/Topics/DC-Current/Current.html
If a coil were constructed from a helical nonconducting tube and filled with mercury such that if a current was passed through the mercury, a magnetic field would...
Homework Statement
"A cylinder of n-doped silicon is 10mm long, has a diameter of 5 mm and is known to have a mobility \mu=0.15 m2V-1s-1. The resistance of the block measured along its length is 255 \Omega
a) What is the resistivity of the silicon block?
b) Estimate the electron carrier...
Homework Statement
A thin metal film of length 1.00 cm, width of 0.250 cm, and thickness of 29.0 micrometers is used to measure the Hall effect. A current of 2.60 A is maintained along the length of the sample. The Hall voltage of 16.0 microVolts is detected across its width, when a magnetic...
Just hoping you might explain the physics here for me.
An electron is placed in an oscillating electric field, say,
E = E_0\sin(\omega t)
and as a result accelerates in x at,
a = a_0\sin(\omega t)
(grouped some constants in a_0). Solving for the resulting motion yields,
x =...
Homework Statement
I'm taking a metrials class, and there are 2 questions I'm not sure how to do. I would see the professor first, but he refuses helping students until the assignments is submitted.
1) A circular tungsten (W) wire that is 0.1m long and 1mm in diameter has 9V dropped across...
[SOLVED] Another Current and Drift Velocity Question
1. A car's starter motor draws 50 A from the car's battery during startup. If the startup time is 1.5 s, how many electrons pass a given location in the circuit during that time?
3.As current = rate of flow of charge,
I = q/t...
[SOLVED] Current and Drift Velocity (multiple choice)
1. In a dental X-ray machine, the movement of accelerated electrons is east. The current associated with these electrons is in what direction: (a) east, (b) west, or (c) zero?
3. At first I thought it was B (west) because...
Not sure if this should be in this forum, but let's try.
The problem is about 2 samples. One pure Na and one InSb.
I want to determine the hall voltage when we send a current of 100mA trough the samples and the magnetic field is B = 0.1T. The samples are dimensioned "squared" 5x1x5mm. We...
In class today we talked about drift velocity and we measured it for a 14 gauge copper conductor wire. It came out to be 3.55 * 10^-3 cm/s. I was wondering if the speed is so slow, then how can light come on instanteneously when you flip the switch over long distances? Is it because there might...
Question asks:
A potential difference of 3.0V is applied to the ends of a copper wire which is 0.5m long. In copper at room temperature, the average time interval between collisions is \tau = 2.7*10^{-14}s. What is the drift velocity of the free electrons in the wire?
Well, I know that...
If I move a strip of copper mechanically with my hand through a uniform magnetic field will their be a drift velocity? And if so will the drift velocity be in the same direction as the moving copper strip? What would the magnitude of the drift velocity be if this happens? Can you have a drift...
for a normal solid cylindrical resistor, made of say copper, at room temperature, describe the relationshop between the current in the conductor, the drift velocity of conduction electrons in the conductor, and the thermal velocity of conduction electrons in the conductor.
I don't even know where to begin on this one.
SPEAR, a storage ring about 72.0 m in diamter at the Stanford Linear Accelorator, has a 20.0 A circulating beam of electrons that are moving at nearly the speed of light. How many electrons are in the beam?
My thoughts, hmmmm. Nothing I can...