calculating resistance a variable cross-section resistor treated as a serial combination of small...
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Calculating resistance
A variable cross-section resistor treated as a serial combination of small straight-wire resistors:
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Example: Equivalent resistances
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Series versus parallel connection
What about power delivered to each bulb?
2
2 2ab bc
P I R or
V VP
R R
2
2de
P I R or
VP
R
What if one bulb burns out?
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Symmetry considerations to calculate equivalent resistances
No current through the resistor
I1
I1
I1
I1
I1
I1
I2
I2
I2
I2
I2
I2
rR
rIrIV
IIII
r
6
56
5)
3
1
6
1
3
1(
:b and abetween drop voltageTotal
2/ ;3/ :Currents
resistors All
121
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Kirchhoff’s rules
To analyze more complex (steady-state) circuits:
1. For any junction: Sum of incoming currents equals to sum of outgoing currents
(conservation of charge)
Valid for any junction
2. For any closed circuit loop: Sum of the voltages across all elements of the loop is zero
(conservation of energy)
Valid for any close loop
- The number of independent equations will be equal to the number of unknown currents
0I
0V
Loop rule – statement that the electrostatic force is conservative.
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Sign conventions for the loop rule
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A single-loop circuit
y)consistenconly is (Important
negative is
given, numbers With the
0
21
21
1221
I
RRI
IRIR
Charging of a car battery
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Complex networks
1 1 3
2 2 3
1 3 2
(1 ) ( )(1 ) 0 (1)
(1 ) ( )(2 ) 0 (2)
(1 ) (1 ) (1 ) 0 (3)
I I I
I I I
I I I
Find currents, potential differences and equivalent resistance
3
1
2
1
6
5
I A
I A
I A
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Electrical Measuring Instruments
Galvanometer
Can be calibrated to measurecurrent (or voltage)
Example: Full-scale deflectionIfs =1 mA, internal coil resistanceRc =20
0.020fs cV I R V
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( )fs c a fs shI R I I R
For max current reading Ia of 50mA
0.408
0.4sh
eq
R
R
( )v fs c shV I R R
For max voltage reading Vv =10V
9980
10,000sh
eq
R
R
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Charging a Capacitor
(instantaneous application of Kirchhoff’s rules to non-steady-state situation)
Use lower case v, i, q to denote time-varying voltage, current and charge
0
0 : 0
qiR
Ct q
dq qi
dt R RC
Initial current 0IR
fQ CFinal conditions, i=0
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0
( ) (1 exp( ))
exp( ) exp( )
dq qi
dt R RCdq dt
q C RC
tq t C
RCdq t t
i Idt R RC RC
Time-constant
RC When time is small, capacitor charges quickly. For that either resistance or capacitance must be small (in either case current flows “easier”)
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Discharging a capacitor
)exp()(
)exp()(
:0
0
tQ
tI
RC
tQtq
RC
q
dt
dqI
Qqt
IRC
q
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Power distribution systems
Everything is connected in parallel
V=120 V (US and Canada)V=220-240 V (Europe, Asia)
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Circuit Overloads and Short Circuits
Circuit breaker
Fuse
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Utility power (kW*h) 3 61 (10 )(3600 ) 3.6 10kW h W s J
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Magnetism
First observation ~2500 years agoin fragments of magnetized iron ore
Previously, interaction was thought in terms of magnetic polesThe pole that points North on the magneticfield of the Earth is called north poleWhen points South – south pole
By analogy with electric field bar magnetsets up a magnetic field in a space around it
Earth itself is a magnet. Compass needlealigns itself along the earth’s magnetic field
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Earth as a magnet
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Magnetic Poles vs Electric Charge
The interaction between magnetic poles is similar to the Coulomb interaction of electric charges BUT magnetic poles always come in pairs (N and S), nobody has observed yet a single pole (monopole).
Despite numerous searches, no evidence of magnetic charges exist. In other words, there are no particles which create a radial magnetic field in the way an electric charge creates a radial field.
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Magnetic Field
)( BvEF q
Lorentz force acting on charge q moving with velocity v in electric field E and magnetic field B
Electric charges produce electric fields E and, when move, magnetic fields B
In turn, charged particles experience forces in those fields:
For now we will concentrate on how magnetic force affects moving charged particles and current-carrying conductors…
Like electric field, magnetic field is a vector field, B