phys 133 – chapter 301 chapter 30 current and conductivity
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Phys 133 – Chapter 30 1
Chapter 30
Current and Conductivity
Phys 133 – Chapter 30 2
CurrentWhen there is current, the bulb glows and the compass needle deflects.
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Electron Current (i)i = electrons/sec
n = electrons/m3
vd 10-4 m/s
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QuestionThe light switch is located approximately 2 m from the light. How long will it take an electron to travel this distance? (vD=10-4 m/s)
Do Workbook 28.7
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Conservation of electron currentElectrons cannot be created or destroyed (conservation of charge)
The electron current is the same at all points in a current-carrying wire.
The electron current into a junction is the same as the electron current leaving a junction.
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How to create currentneed an electric field
(not static equilibrium)
static dynamic
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What creates Electric Field?Surface charges make E field - creates current
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Do Workbook 28.8 & 9
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BatteryBattery: charge escalator
“Pump”, no charge created
Move charge against
electric field
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Current (I)(as opposed to electron current)
Current - amount of charge passing per unit time
Current Density -charge passing per unit time per unit area
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Kirchoff’s junction rule(conservation of charge/current)
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Collisions/energy transfer
No electric field With electric field
Electrons move randomly Electrons tend to move against electric field
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Conduction/resitivity-Fields cause current (add energy)
-Collisions (take away energy)
-material dependent
-environment (temperature, magnetic field, …)
-Current density (J) linear in electric field
-Depends on conductivity (resistivity)
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Simulation
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The electron beam inside a TV tube is 0.4 mm in diameter with current 50 A. Electrons strike screen.
a) How many electrons strike screen each second?
b) What is the current density in the beam?
c) The electrons move at 4.0x107m/s. What electric field is necessary to accelerate the electrons to this speed over a distance of 5.0 mm?
d) Assume each electron gives its kinetic energy to the screen. What power is delivered to the screen?
Problem 28.33
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a) How many electrons strike screen each second?
b) What is the current density in the beam?
c) The electrons move at 4.0x107m/s. What electric field is necessary to accelerate the electrons to this speed over a distance of 5.0 mm?
d) Assume each electron gives its kinetic energy to the screen. What power is delivered to the screen?
Problem 28.33 ans
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Potential in a circuit/wire
Apply to wire
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Potential and current in a wire
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“Ohmic” vs “non-ohmic” materials
Phys 133 – Chapter 30