Chapter 16. Temperature and Expansion A PowerPoint Presentation by Paul E. Tippens, Professor of...
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Transcript of Chapter 16. Temperature and Expansion A PowerPoint Presentation by Paul E. Tippens, Professor of...
Chapter 16. Temperature Chapter 16. Temperature and Expansionand Expansion
A PowerPoint Presentation byA PowerPoint Presentation by
Paul E. Tippens, Professor of Paul E. Tippens, Professor of PhysicsPhysics
Southern Polytechnic State Southern Polytechnic State UniversityUniversity© 2007
TEMPERATURE is a measure of the average kinetic TEMPERATURE is a measure of the average kinetic energy per molecule. The infrared radiation coming energy per molecule. The infrared radiation coming from the air canal in the ear passes through the optical from the air canal in the ear passes through the optical system of the thermometer and is converted to an system of the thermometer and is converted to an electrical signal that gives a digital reading of body electrical signal that gives a digital reading of body temperature. temperature.
Photo by Blake Tippens
Objectives: After finishing Objectives: After finishing this unit, you should be this unit, you should be able to:able to:
• Work with Celsius, Kelvin, and Fahrenheit temperature scales for both specific temperatures and temperature intervals.
• Write and apply formulas for linear, area, and volume expansion.
Thermal EnergyThermal Energy
Thermal energyThermal energy is the total internal energy of an object: is the total internal energy of an object: the sum of its molecular kinetic and potential energies.the sum of its molecular kinetic and potential energies.Thermal energyThermal energy is the total internal energy of an object: is the total internal energy of an object: the sum of its molecular kinetic and potential energies.the sum of its molecular kinetic and potential energies.
Thermal energy = U + KThermal energy = U + K
U = ½kx2
K = ½mv2
Internal energy -- spring analogies are helpful:
TemperatureTemperatureTemperature is related to the kinetic activity of the molecules, whereas expansion and phase changes of substances are more related to potential energy.
2½mvT
N
Although not true in all cases, a good beginning is to define temperature as the average kinetic energy per molecule.
Temperature vs. Internal Temperature vs. Internal EnergyEnergy
The large pitcher and the small one have the same temperature, but they do not have the same thermal energy. A larger quantity of hot water melts more of the ice.
Temperature EquilibriumTemperature Equilibrium
Heat is defined as the transfer of thermal energy that is due to a difference in temperature.
Hot Coals
Cool Water Same Temperature
Thermal Equilibrium
Insulated Container
Two objects are in thermal equilibrium if and only if they have the same temperature.
ThermometerThermometer
A thermometer is any device which, through marked scales, can give an indication of its own temperature.
T = kXT = kX
X is thermometric property: Expansion, electric resistance, light wavelength, etc.
Zeroth Law of Zeroth Law of ThermodynamicsThermodynamics
The Zeroth Law of Thermodynamics:The Zeroth Law of Thermodynamics: If two objects If two objects AA and and BB are are separatelyseparately in equilibrium with a third object in equilibrium with a third object CC, then objects , then objects A A and and BB are in thermal equilibrium are in thermal equilibrium with each other.with each other.
AObject C
A B
Thermal Equilibrium
Same TemperatureBObject C
1000C 2120F
00C 320F
Temperature ScalesTemperature Scales
The lower fixed point is the ice point, the temperature at which ice and water coexist at 1 atm of pressure:
00C or 320F00C or 320F
The upper fixed point is the steam point, the temperature at which steam and water coexist at 1 atm of pressure: 1000C or 2120F1000C or 2120F
Comparison of Temperature Comparison of Temperature IntervalsIntervals
2120F
320F
180 F0
1000C
00C
100 C0
tC tF
Temperature Intervals:
100 C0 = 180 F0
5 C0 = 9 F0
If the temperature changes from 790F to 700F, it means a decrease of 5 C0.
Temperature LabelsTemperature Labels
If an object has a specific temperature, we place the If an object has a specific temperature, we place the degree symboldegree symbol 00 beforebefore the scalethe scale ((00CC or or 00FF).).
t = 60t = 6000CC
We say: “The temperature is sixty degrees Celsius.”
We say: “The temperature is sixty degrees Celsius.”
Temperature Labels Temperature Labels (Cont.)(Cont.)
If an object undergoes a If an object undergoes a change of temperaturechange of temperature, we , we place the degree symbolplace the degree symbol 00 afterafter the scalethe scale ((CC00 or or FF00) to ) to indicate the interval of temperature.indicate the interval of temperature.
We say: “The temperature decreases by forty Celsius degrees.”
We say: “The temperature decreases by forty Celsius degrees.”
t = 600C – 200C t = 40 C0
ttii = 60 = 6000CC
ttff = 20 = 2000CC
Specific TemperaturesSpecific Temperatures
2120F
320F
1000C
00C
180 F0100 C0
tC tF
Same temperatures have different
numbers: 0C 0F
0 00 32
100 div 180 divC Ft t
095 32C Ft t
095 32F Ct t 095 32F Ct t 05
9 32C Ft t 059 32C Ft t
Example 1:Example 1: A plate of food cools from A plate of food cools from 16016000FF to to 656500FF. What was the initial . What was the initial temperature in degrees Celsius? What temperature in degrees Celsius? What is the change in temperature in Celsius is the change in temperature in Celsius degrees?degrees?
Convert 1600F to 0C from formula: 05
9 32C Ft t 059 32C Ft t
00 05 5(128 )
(160 32 )9 9Ct tC = 71.10CtC = 71.10C
0 0 0160 F 65 F 95 Ft 9 F0 = 5 C09 F0 = 5 C0
00
0
5 C95 F
9 Ft
t = 52.8 C0t = 52.8 C0
Limitations of Relative Limitations of Relative ScalesScales
The most serious problem with the Celsius and Fahrenheit scales is the existence of negative temperatures.
Clearly, the average kinetic energy per molecule is NOT zero at either 00C or 00F!
-250C ?
T = kX = 0 ?T = kX = 0 ?
Constant Volume Constant Volume ThermometerThermometer
Valve
Constant volume of a gas. (Air, for
example)
Absolute pressure
A search for a true zero of temperature can be done with a constant-volume thermometer.
For constant volume:
T = kP
For constant volume:
T = kP
The pressure varies with temperature.
Absolute Zero of Absolute Zero of TemperatureTemperature
1000C00C
P1 P2
T1 T2
-2730C 00C 1000C
P
T
Plot points (P1, 00C) and (P2, 1000C); then
extrapolate to zero.
Absolute Zero = -2730CAbsolute Zero = -2730C
Absolute Zero
Comparison of Four Comparison of Four ScalesScales
1 C0 = 1 K1 C0 = 1 K
5 C0 = 9 F5 C0 = 9 F
095 32F Ct t 09
5 32F Ct t
059 32C Ft t 05
9 32C Ft t
TK = tC + 2730TK = tC + 2730
ice
steam
Absolute zero
1000C
00C
-2730C
Celsius
CFahrenheit
320F
-4600F
2120F
F
273 K
373 K
Kelvin
0 K
KRankine
0 R
460 R
672 R
R
Linear ExpansionLinear Expansion
L
Lo Lto
t
0L L t 0L L t
0
L
L t
0
L
L t
Copper: = 1.7 x 10-5/C0Copper: = 1.7 x 10-5/C0
Aluminum: = 2.4 x 10-5/C0Aluminum: = 2.4 x 10-5/C0Iron: = 1.2 x 10-5/C0Iron: = 1.2 x 10-5/C0
Concrete: = 0.9 x 10-5/C0Concrete: = 0.9 x 10-5/C0
Example 2:Example 2: A copper pipe is A copper pipe is 90 m90 m long long at at 202000CC. What is its new length when . What is its new length when steam passes through the pipe at steam passes through the pipe at 10010000CC??
Lo = 90 m, t0= 200Ct = 1000C - 200C = 80 C0
L = Lot = (1.7 x 10-5/C0)(90 m)(80 C0)
L = 0.122 m
L = Lo + L
L = 90 m + 0.122 m
L = 90.12 mL = 90.12 m
Applications of ExpansionApplications of Expansion
Expansion Joints
Bimetallic Strip
BrassBrassIron
Iron
Expansion joints are necessary to allow concrete to expand, and bimetallic strips can be used for
thermostats or to open and close circuits.
Area ExpansionArea Expansion
Area expansion is analogous to the enlargement of a photograph.
Example shows heated nut that shrinks to a tight fit after cooling down.
Expansion on heating.
A0 A
Calculating Area Calculating Area ExpansionExpansion
W
L
L
Lo
WoW
A0 = L0W0
A = LW
L = L0 + L0 t W = W0 + W0 t
L = L0(1 + t ) W = W0(1 + t
A = LW = L0W0(1 + t)2 A = A0(1 + 2t)
Area Expansion: A = 2tArea Expansion: A = 2t
Volume ExpansionVolume Expansion
Expansion is the same in all directions (L,
W, and H), thus:
V = V0 tV = V0 t
The constant is the coefficient of volume expansion. 0
V
V t
0
V
V t
Example 3.Example 3. A A 200-cm200-cm33 Pyrex beaker is Pyrex beaker is filled to the top with glycerine. The filled to the top with glycerine. The system is then heated from system is then heated from 202000CC to to 808000CC. How much glycerine overflows . How much glycerine overflows the container?the container?
Vovr= ?
V0 V
200C800C
200 cm3
Glycerine: 5.1 x 10-4/C0Pyrex: = 30.3 x 10-5/C0) = 0.9 x 10-5/C0Vover = VG - VP
Vovr = GV0 t - PV0 t = (G - P )V0 t
Vovr = (5.1 x 10-4/C0- 0.9 x 10-5/C0)(200 cm3)(800C - 200C)
Example 3.Example 3. (CONTINUED) (CONTINUED)
Vovr= ?
V0 V
200C800C
200 cm3
Glycerine: 5.1 x 10-4/C0Pyrex: = 30.3 x 10-5/C0) = 0.9 x 10-5/C0Vover = VG - VP
Vovr = GV0 t - PV0 t = (G - P )V0 t
Vovr = (5.1 x 10-4/C0- 0.9 x 10-5/C0)(200 cm3)(800C - 200C)
Volume Overflow = 6.01 cm3Volume Overflow = 6.01 cm3
SummarySummaryThermal energyThermal energy is the total internal energy of an object: is the total internal energy of an object: the sum of its molecular kinetic and potential energies.the sum of its molecular kinetic and potential energies.Thermal energyThermal energy is the total internal energy of an object: is the total internal energy of an object: the sum of its molecular kinetic and potential energies.the sum of its molecular kinetic and potential energies.
Thermal energy = U + KThermal energy = U + K
The Zeroth Law of Thermodynamics:The Zeroth Law of Thermodynamics: If two objects If two objects AA and and BB are are separatelyseparately in equilibrium with a third in equilibrium with a third object object CC, then objects , then objects A A and and BB are in thermal are in thermal equilibrium with each other.equilibrium with each other.
A B
Thermal EquilibriumAObject C
B
Summary of Temperature Summary of Temperature ScalesScales
1 C0 = 1 K1 C0 = 1 K
5 C0 = 9 F5 C0 = 9 F
095 32F Ct t 09
5 32F Ct t
059 32C Ft t 05
9 32C Ft t
TK = tC + 2730TK = tC + 2730
ice
steam
Absolute zero
1000C
00C
-2730C
Celsius
CFahrenheit
320F
-4600F
2120F
F
273 K
373 K
Kelvin
0 K
KRankine
0 R
460 R
672 R
R
Summary: ExpansionSummary: Expansion
L
Lo Lto
t
0L L t 0L L t
0
L
L t
0
L
L t
Linear Expansion:
A = 2tA = 2t
Area Expansion:Expansion
A0 A
Volume ExpansionVolume Expansion
Expansion is the same in all directions (L,
W, and H), thus:
V = V0 tV = V0 t
The constant is the coefficient of volume expansion. 0
V
V t
0
V
V t
CONCLUSION: Chapter 16CONCLUSION: Chapter 16Temperature and Temperature and
ExpansionExpansion