1/31/08 Warm-up Suppose you want to connect your stereo to remote speakers. If each wire must be 20m...
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Transcript of 1/31/08 Warm-up Suppose you want to connect your stereo to remote speakers. If each wire must be 20m...
1/31/08
Warm-up
Suppose you want to connect your stereo to remote speakers. If each wire must be 20m long, what diameter copper wire (ρ = 1.68x10-
8 Ωm) should you use to keep the resistance less than .10Ω per wire?
Take out your skills homework to hand in.
1/31/08
Objectives
Describe origination of charge flow in a circuit.
Draw and interpret schematic diagrams. Explain operation of a capacitor. Discuss voltage and apply to series and
parallel circuits. Describe charge flow during transient and
steady-state processes.
1/31/08
Agenda
Finish Resistance Castle Kits- Sections 2 and 3
Section 2: 1, 2, 5, 7, 9, 10-12 Section 3: 5, 7, 13
Parallel and Series Discussion
1/31/08
Resistance of Wires
R = L/A--------------------------------The longer the wire, thelarger its resistance. The larger the area, thesmaller the resistance.
For wires with a circularcross section, A = r2
R = L/A = L/r2
---------------------------------The thicker the wire, the less its resistance
1/31/08
Example
You want to keep the resistance in your 20 m cooper (pg. 535) speaker wires to less than 0.10 Ω per wire. What diameter wire should you use?
A = ρ (L/R) = (1.68 x 10-8 Ω m)(20 m)/ (0.10 Ω) = 3.4 x 10-6 m2
Cross sectional area is related to diameter by A = d2/4
Therefore d = 2.1 mm
1/31/08
CASTLE Kit Section 2
Light bulbs are resistors; both allow charge to flow but at a lower rate than a conductor
Flow rate is NOT the same as speed
Wires have resistance
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Symbology
Pg. 530, 532, 534, 513
Batteries Wires Resistors/bulbs Capacitors
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Conventional Current
Conventional current flows in the direction a positive charge would move, even though this is opposite the flow of electrons
1/31/08
Charge
Conventional meaning of + and –+ is a more than normal charge
- is a less than normal charge
True meaning of + and –+ is an absence of charge
- is an excess of charge
1/31/08
Circuit Diagrams
Draw diagram of circuit with 3 batteries and 2 bulbs.
Use arrow(s) to indicate the direction of conventional charge flow.
1/31/08
Flow of Charge
Charge flows when there is a potential difference (or difference in voltage) between the ends of a conductor When there is no potential difference,
there is no current flow The ampere is the unit of current flow
An ampere is a current flow of one coulomb of charge per second (6.24 billion billion electrons)
1/31/08
Current is Flow of Charge
A steady current of 2.5 A flows in a wire for 4.0 min. How much charge passed through any point in the circuit? How many electrons was that?
2.5 A = 2.5 C/s (4.0 minutes = 240 s)
∆Q = I ∆t = (2.5 C/s) (240 s) = 600 C To count electrons
(600 C) / (1.6 x 10-19 C/electron) = 3.8 x 1023 electrons
1/31/08
Current Flow and Resistance
The current flowing in a circuit depends on the Voltage (sort of like the pressure in a hose) Resistance to the flow of current (the diameter of the hose)
All elements in a circuit resist the flow of current to some degree Things that use electricity to do work (lights, motors, etc.)
have relatively high resistance These are called electrical loads
Other parts of the circuit (wires, switches, etc.) have relatively low resistance.
1/31/08
Parallel Resistors
Parallel pair has less resistance than a single bulb.
Lower resistance lets same pressure differences drive more flow.
Circuit has lower resistance but equal pressure differences (total) as earlier circuit.
1/31/08
Ohm’s Law
current =
orI = V/R and V = I R
voltage resistance
The unit of resistance is the ohm and its symbol is Ω
1/31/08
Ohm’s Law Example
A nine volt battery supplies power to a cordless curling iron with a resistance of 18 ohms. How much current is flowing through the curling iron?
1/31/08
Ohm’s Law Examples
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CASTLE Kit Section 3
Charge originates in all parts of circuit at once.
Capacitors Batteries have internal resistance.
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Where does charge originate? Activity 3.5: Set up circuit using ROUND
BULBS and BLUE CAPACITOR What happens to the compass during the
charging of the capacitor? Discharging? Draw schematic that shows flow.
1/31/08
Capacitor
2 layers of conducting material separated by insulator
Capacitor plates Terminals Capacitance Farad
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Closure
Check Your Understanding: Explain how a capacitor charges and why it stops
taking charge. Homework:
Week 1 homework due Monday (should definitely be “half-way” by now
“Ready” for Ohm’s Law Lab by Tuesday Quiz Tuesday