class 20 oct 9 - resistance and ohm's law.ppt
TRANSCRIPT
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Currents
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SPS Presents: A Cosmic Lunch!
• Who: Dr. Brown will be speaking about “Evolution of the Elements: from Periodic table to Standard Model and Beyond”!
• When: October 17th at 11am• Where: CP‐179 (by the front office)• There will be pizza and soft drinks!
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Test 2 Next Wednesday (Oct 11)
1. Chapters 7, 8 (8.1-8.3).2. You are not allowed to check your section
number during the test. However, you will get 3 bonus points if you fill in your section number correctly.
3. 45 minutes sharp.4. 4 multiple choices and 2 long problems.5. Formula sheet provided.6. Contact me before next Monday for
prearrangement if you need special accommodation.
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Currents
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Current
If dQ is the amount of charge passes through A in a short time interval dt, current is defined as:
Units of current: Ampere (A) C/s
dtdQI
I+
+
-
-Electrically these two cases produce the same current, but they can be distinguished with a magnetic field.
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Drifting velocity vdAt any instant, electrons contributing to the current is moving very fast at about 106 m/s.
They also make collision with atoms and impurities very often, about 1014 times per second.
As a result, electrons drift very slowly along the electric field direction with a drifting velocity vd ~ 10‐4 m/s.
E
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Microscopic Model of Current
A
Full of electrons
Empty
How many electron will pass the area A in a short time interval dt?
A
Full of electrons
Emptyvddt
If n is the number of electrons per unit volume.
Number of electrons pass through area A = nvolume = n(vddt)A
If the charge of electron is e.
Charge pass through area A is
dQ=ne(vddt)A
Anev I dtdQ I d
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Class 20: Electric current and resistance, Ohm’s law
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Drude’s ModelElectrons collide with atoms. Let the velocity of an electron immediately after the collision be vi. Electrons will continue to accelerate in opposite direction to the electric field until the next collision.
Drude’s assumption: vi is independent of the electron motion before the collision, and it has equal probability in pointing in any direction. i.e.
But <v> = vd, and let <t> = , average time between collisions.
0 v i
t mEe v v t a v v ii
t mEe v t
mEe v v t
mEe v v ii
mne if E j
E m
ne v ne j mEe v
2
2
dd
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Current Density and Ohm’s Law (physics version)
Current density
AI J
Ohm’s Law (physics version)
E 1 J or E J E J
1. is called conductivity. Do not confuse this with the surface charge density.
2. is called resistivity. Do not confuse this with the volumetric charge density.
3. and represent the same information, .4. and are properties of materials.
1
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Ohm’s Law (electronics version)
E J E J
J I and E VOhm’s Law:
A R
whereR I V
I A V
V1 AI E 1 J
1. R is called the resistance.2. Units of resistance is Ohm (). V/A
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Power
I
V
R
Power dissipated in resistance R:
P = IV = I2R =
Units of power: Watt (W) J/s
V2
R
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Resistance, Conductance, Resistivity, and Conductivity
E J
Ohm’s Law:
A R
E 1 J
1
R I V
A G
GI V
Resistivity Units: m
Resistance RUnits:
G1 R
Conductance GUnits: Siemens (S) or mho
Conductivity Units: S/m
1. Resistivity and conductivity depend on the materials only, Resistance and conductance depend on both the materials and also the geometry of the conductor.
2. Ohm’s Law: V = IR or J = E
3.
4.
A R
G1R and 1
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Resistance and Temperature
For a normal conductor:
As temperature rises, electrons will make collisions more frequently. As a result, decreases and hence increases.
Linear approximation:
=Temperature coefficient ofresistivity
T0 = 20oC
)]T -T( 1 [RRor
)]T -T( 1 [ T -T -
00
0000
0