lecture 14: fri 13 feb current and resistance physics 2102 spring 2007 jonathan dowling georg simon...

Lecture 14: FRI 13 FEBLecture 14: FRI 13 FEBCurrent and ResistanceCurrent and Resistance

Physics 2102Spring 2007

Jonathan Dowling

Georg Simon Ohm (1789-1854)

Resistance IsFutile!

Ch26.3–7

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Units : R = V

A

⎡ ⎣ ⎢

⎤ ⎦ ⎥≡ Ω[ ] = Ohm[ ]

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Units : R = V

A

⎡ ⎣ ⎢

⎤ ⎦ ⎥≡ Ω[ ] = Ohm[ ]

€

V = iR

€

V = iR

Ohm’s Law and Power in Ohm’s Law and Power in ResistorsResistors

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P = iV = i2R =V 2 /R

Units : P = Js[ ] = W[ ] = Watt[ ]

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P = iV = i2R =V 2 /R

Units : P = Js[ ] = W[ ] = Watt[ ]

Power Dissipated by a Resistor:Power Dissipated by a Resistor:

Ohm’s LawOhm’s Law

Watt?

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QuickTime™ and a decompressor

are needed to see this picture.Current Density: J=i/A Units: [A/m2]Current Density: J=i/A Units: [A/m2]

Resistance: R=L/AResistance: R=L/A

A

L

A=r2

Resitivity: depends only onMaterial and Temperature.Units: [•m]

Resitivity: depends only onMaterial and Temperature.Units: [•m]

ExampleExample

A human being can be electrocuted if a current as small as i=100 mA passes near the heart. An electrician working with sweaty hands makes good contact with the two conductors he is holding. If his resistance is R=1500, what might the fatal voltage be?

(Ans: 150 V) Use: V=iR

ExampleExampleTwo conductors are made of the same material and have the same length. Conductor A is a solid wire of diameter r=1.0mm. Conductor B is a hollow tube of outside diameter 2r=2.0mm and inside diameter r=1.0mm. What is the resistance ratio RA/RB, measured between their ends?

BA

AA= r2

AB= ((2r)2r2)=3r2

R=L/A

RA/RB= AB/AA= 3

LA=LB=L Cancels

ExampleExampleA P=1250Watt radiant heater is constructed to

operate at V=115Volts.

(a)What will be the current in the heater? (b)What is the resistance of the heating coil? (c)How much thermal energy is produced in 1.0

hr by the heater?

• Formulas: P=i2R=V2/R; V=iR • Know P, V; need R to calculate current!• P=1250W; V=115V => R=V2/P=(115V)2/1250W=10.6 • i=V/R= 115V/10.6 =10.8 A • Energy? P=dU/dt => U=P•t = 1250W 3600 sec= 4.5 MJ = 1.250kW•hr

• Formulas: P=i2R=V2/R; V=iR • Know P, V; need R to calculate current!• P=1250W; V=115V => R=V2/P=(115V)2/1250W=10.6 • i=V/R= 115V/10.6 =10.8 A • Energy? P=dU/dt => U=P•t = 1250W 3600 sec= 4.5 MJ = 1.250kW•hr

ExampleExampleA 100 W lightbulb is plugged into a standard 120 V outlet.

(a) What is the resistance of the bulb?

(b) What is the current in the bulb?

(c) How much does it cost per month to leave the light turned on continuously? Assume electric energy costs 6¢/kW·h.

(d) Is the resistance different when the bulb is turned off?

• Resistance: same as before, R=V2/P=144 • Current, same as before, i=V/R=0.83 A• We pay for energy used (kW h): U=Pt=0.1kW (30 24) h = 72 kW h => $4.32• (d): Resistance should be the same, but it’s not: resistivity and resistance increase with temperature. When the bulb is turned off, it is colder than when it is turned on, so the resistance is lower.

ExampleExample

An electrical cable consists of 105 strands of fine wire, each having 2.35 resistance. The same potential difference is applied between the ends of all the strands and results in a total current of 0.720 A.

(a) What is the current in each strand? i=I/105=0.720A/105=[0.00686] A

(b) What is the applied potential difference?V=iR=[0.016121] V

(c) What is the resistance of the cable?R=V/I=[.0224 ]

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P = iV

U = Ptt in seconds

QuickTime™ and a decompressor

are needed to see this picture.P = iV [J/s is Watt]

P = iV [Watt is J/s]

i V

V i

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V1 = imRd 

i1 = V1/Rw 

V2 = imRw 

Rd

= 1.0x105Rw = 1.5x103

im =im = 1x10–3A

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QuickTime™ and a decompressorare needed to see this picture. QuickTime™ and a decompressorare needed to see this picture.

My House Has Two Front Porch Lights.Each Light Has a 100W Bulb.The Lights Come on at Dusk and Go Off at Dawn.How Much Does this Cost Me Per Year?

My House Has Two Front Porch Lights.Each Light Has a 100W Bulb.The Lights Come on at Dusk and Go Off at Dawn.How Much Does this Cost Me Per Year?

Two 100W Bulbs @ 12 Hours Each = One 100W @ 24 Hours.

P = 100W = 0.1kW

T = 365 Days x 24 Hours/Day = 8670 Hours

Demco Rate: D = 0.1797$/kW•Hour (From My Bill!)

Cost = PxTxD = (0.1kW)x(8670 Hours)x(0.1797$/kW•Hour) = $157.42 = 13 shots of Goldschläger!

Two 100W Bulbs @ 12 Hours Each = One 100W @ 24 Hours.

P = 100W = 0.1kW

T = 365 Days x 24 Hours/Day = 8670 Hours

Demco Rate: D = 0.1797$/kW•Hour (From My Bill!)

Cost = PxTxD = (0.1kW)x(8670 Hours)x(0.1797$/kW•Hour) = $157.42 = 13 shots of Goldschläger!