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![Page 1: Thermal Physics IB Physics Topic 3 & Option C. Thermodynamics Understanding the words Temperature Heat Heat capacity The 0, 1, 2 laws of thermodynamics.](https://reader035.fdocuments.in/reader035/viewer/2022062305/56649de55503460f94adc9dd/html5/thumbnails/1.jpg)
Thermal PhysicsIB Physics
Topic 3 & Option C
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Thermodynamics Understanding the
words Temperature Heat Heat capacity The 0, 1, 2 laws of
thermodynamics
(one of) Kelvin’s legacy’s
WilliamThompson (Lord Kelvin)
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What is Heat? Perception as to hot and
cold defined relative to our own body temperature, i.e. object is hotter or colder than oneself
Objective measurement of temperature Macroscopic, display of
temperature gauge Microscopic behaviour of
atoms and molecules
I feel hot
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Measuring temperature
Properties of materials change with temperature Length Volume Resistance
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Hotter things become longer
All(?) solids get bigger when they get hot A 1 metre long bar
heated by 1 degree gets bigger by
• Steel ≈0.01 mm• Glass ≈ 0.001 mm• Zerodur ≈ 0.0001mm
Rails expand and may buckle on a hot summer day
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A bimetallic strip
Join two metals with different coefficient of thermal expansion
e.g. fire alarm
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Hotter things take up more volume -1
Most materials get bigger when they get hot (but not water 0°C -> 4°C gets smaller!) Thermometer relies on
a thermal expansion of a liquid (e.g.mercury)
Large volume of reservoir
Thin tube(Gives big
length change for small
increase in volume)
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Hotter things take up more volume -2
Gases (as we will see) can behave near perfectly
Hotter
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Hotter things change their resistance All hotter metals have a higher electrical
resistance or conductivity Digital thermometer
All hotter semiconductors have a lower electrical resistance key definition between to distinguish metals
and insulators!
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Example You have a (glass) jar and you can’t get the
metal lid off.
What should you do:
a) ask your girlfriend
b) run the jar & lid under cold water
c) run the jar & lid under hot water
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Solution:
a) ask your girlfriend
b) run the jar & lid under cold water
c) run the jar & lid under hot water
Because the metal has a substantially higher coefficient of thermal expansion than the glass, heating them will make both of them bigger, but the metal will be more bigger.
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How long do you have to leave a thermometer in your mouth? Hot things stay hot if you
insulate them, e.g. coffee in a vacuum flask
(keeps things cold too) an explorer in a fur coat
The mercury in the thermometer must reach the same temperature as you –Thermal Equilibrium!!
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Insulation Example of good (thermal) insulators
A vacuum, polystyrene, fibreglass, plastic, wood, brick (low density/foam structure, poor electrical
conductors) Examples of poor insulators, i.e. good conductors
Most metals (but stainless steel better than copper) e.g. gold contact used within IC chips to prevent heating
Gases, liquids (high density, “mobile”, good electrical conductors)
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Ask a friend if it’s cool enough to eat
Your friend eats the “hot” loaf and says it cool enough to eat (i.e it is “close” enough to their own temperature that it does not burn)
Is it safe for you to eat too If it is safe for him, it’s safe for you!
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The 0th law of thermodynamics If A and B are each in
thermal equilibrium with C then A and B are in thermal equilibrium with each other
If Alfred and the Bread are the same temperature as Cliff then Alf is the same temperature as the Bread.
=Temp
=Temp
L
=Temp?
Alf
Cliff
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Temperature and scales
Temperature scales (melting & boiling of water) Degrees Celsius (MP 0°C 100°C) Degrees Kelvin (MP 273.15 K BP 373.15 K) Degree Fahrenheit (MP 32° F BP 212°F)
Explain how a temperature scale is constructed.
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The Common Temperature Scales
Fahrenheit & Celsius
Celsius & Fahrenheit
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Absolute zero
Ideal gas has zero volume Resistance of metal drops to zero
(actually superconductivity cuts in above 0K) Brownian motion ceases
(kinetic energy due to thermal excitation) But lowest temperature attained is ≈ 10-9K
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Absolute zero, 0K
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Lord Kelvin William Thompson, born
Belfast 1824 Student in Natural
Philosophy Professor at 22! Baron Kelvin of Largs in
1897 A giant
Thermodynamics, Foams, Age of the Earth, Patents galore!
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Converting between scales
Kelvin to Celsius K = C + 273.15 C = K - 273.15
Fahrenheit to Celsius (Not IB) F = C x (9/5) + 32 C = (F - 32) x (5/9)
State the relation between Kelvin & Celsius Scales.
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Example Convert the following
temperatures into °F and K
Boiling water, 100°C Freezing water, 0°C Absolute zero,
-273.15°C
212°F, 373.15K
32°F, 273.15K
-460°F, 0K
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Type of thermometer
Change in electrical resistance (convenient but not very linear)
Change in length of a bar (bimetallic strip) Change in volume of a liquid Change in volume of gas (very accurate
but slow and bulky)
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Heat and internal energy
Can you describe the difference between the terms. Temperature Heat Internal Energy
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Temperature & Absolute Temperature
Temperature is a property that determines the direction of thermal energy transfer between two bodies in thermal contact.
Absolute temperature is a measure of the average kinetic energy of the molecules of a substance. Average kinetic energy is
proportional to absolute temperature in Kelvin.
kTKEavg2
3
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Example What is the kinetic
energy of an oxygen molecule at room temperature ( 21˚C)?(k = 1.38x10-23J/K)
Since we know the kinetic energy, how is it travelling?This is called the root mean
squared speed or rms speed.
KE = 3/2 kT
= 3/2(1.38x10-23 x 294)
= 6.09 x 10-21 Joules
We could equate
KE = 1/2 mv2 = KE = 3/2 kT
and get v2 = 3kT/m
mass must be in kg!!!! Not u.
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Heat (Energy) Is the flow of energy in or out of a system. Heat (energy) flows because of
temperature difference Bigger temperature difference bigger heat
flow Less insulation give more heat flow for the
same temperature difference Heat will not flow between two bodies of
the same temperature
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Equilibrium
+ =Hot black coffeeCold milk Light brown coffee
Two objects of different temperature when placed in contact will reach the same temperature
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Heat transfer = energy transfer Energy measured in Joules but heat often
measured in Calories One cal raises one gram of water from 14.5°C to
15.5°C 1 cal = 4.186J
Doing work on something usually makes it hot Joules Experiment!
1st law of thermodynamics heat and work are both forms of energy
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Sir James Joule James Prescott Joule 1818-1889
Stirring water made it warm Change in temperature
proportional to work done Showing equivalence of heat and
mechanical energy
Also that electrical current flow through a resistor causes heating
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Joules Experiment
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Internal Energy
Is the total potential and kinetic energy of the molecules in a substance. Potential energy is associated with
intermolecular forces.
Kinetic energy includes both translational and rotational motion.
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Three Phases – Atomic Model Three States of Ordinary Matter
Solid liquid gas
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Atomic Model of Matter
Comparing Molecular Forces Solid – Largest molecular forces Liquid Gas – Weakest molecular forces
• When the kinetic energy of the molecules become comparable to the energy required for separation the molecules change there position and separate (PE increase). This is a phase transition
• Melting or vaporizing
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Avogadro constant
One mole a any substance is that quantity of the substance whose mass in grams is numerically equal to the substances molar mass, μ. EX: The moloar mass of O2 is 32 g mol-1
NA = 6.02 x 1023 molecules mol-1
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Example How many grams are
there in a quantity of oxygen gas containing 1.2 x 1025 molecules?
The number of moles is(1.20 x 1025)/6.02 x 1023
= 19.93 mol
Since the molar mass is 32 g mol-1
The mass is 19.93 x 32 = 638 g or 0.638 kg
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Example
So, how fast is that O2 molecule traveling? O2 = 32 g/mole
v2 = 3kT/m (rms speed of a molecule)
m = 0.032/(6.023 x 1023) = 5.3x10-26 kg
v2 = 3(1.38 x 10-23J/K)(294)/(5.3x10-26 kg)
v = 479 m/sec
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Transferring heat energy
3 mechanisms Conduction
• Heat transfer through material Convection
• Heat transfer by movement of hot material Radiation
• Heat transfer by light
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Conduction of heat Conduction in solids
Heat energy causes atoms to vibrate, a vibrating atom passes this vibration to the next
Conduction in metal Heat energy causes electrons to gain energy,
electrons travel through metal (conduction) and carry heat energy with them
• Metals are good conductors of both heat and electricity
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Conduction of heat
The atoms at the bottom are at a higher temperature and will oscillating more strongly than those at the top.
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Rate of heat flow Heat flow (H) is energy transfer per unit time, depends
on Temperature difference Thermal conductivity (k)
• k (copper) = 385 W/(m K)
• k (glass) = 0.8 W/(m K)
• k (air) =0.02 W/(m K)
ATH TC
L
L
TTkA
t
QH CH
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Example Two rods of the same
cross-sectional area are joined together. The right rod is a better conductor of heat than the rod at left. The ends are kept at fixed temperatures. In which rod is the rate of
heat transfer the largest? Is the temperature at the
joining point lower are higher than 54 ˚C?
Heat entering the joint must equal the heat leaving the joint. (Conservation of Energy). Hence, the rate of heat transfer is the same.
Since the second conductor is poor a much larger temperature gradient can be maintained. Thus, the temperature at the junction will be larger.
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Thermal conduction vs thermal resistance
Also can use thermal resistance, cf
Can make equation of heat flow more general
R
TT
L
TTkA
t
QH CHCH
x
TkA
t
QH
i.e. R L
kA
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Convection of heat
“Hot air rises” (and takes its heat with it!) Radiators
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Convection of heat “Hot air rises” (and takes its heat with it!)
Cumulus clouds
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Figure 16-11Alternating Land and Sea Breezes
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Convection of heat
Hurricanes Plate tectonics
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Radiation of heat Don’t confuse with
radioactivity Instead realize that light
carries heat (e.g. the sun heats the earth)
Anything above absolute zero radiates heat P T4 Stefan-Boltzmann law.
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Radiation of heat involves the generation and
absorption of photons. Unlike conduction or convection, however, radiation requires no intervening medium to transport the heat.
All objects radiate energy continuously in the form of electromagnetic waves
The hotter an object the more power it radiate sand the shorter the wavelength of the peak emission wavelength
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Not all things emit heat the same
Heat emission from an object area A P = AeT4
• = Stafan’s constant = 5.6x10-8 W/(m2 K4)• e = emissivity of a body, 0 -1
• ecopper = 0.3
• ecarcoal ≈ 1
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Example Estimate the upper
limit to the heat emission of the sun Suns temperature
7000k Sun’s radius 7x108m
Emission, P = AeT4
Area = 4r2 = 6.2 x 1018 m2
Emissivity ≈ 1
H = 6.2 x 1018 x 5.6x10-8x70004
Sun’s output = 8.3 x 1026 W
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Are heat emitter also good absorbers? Black and dull on the surface
Best emitter/absorber Charcoal Blackbody radiators
• perfect absorber & emitter
White and polished/shiny Good Reflectors Stay cool in the summer
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Figure 16-12The Thermos Bottle
Discuss the operation of a thermos making reference to methods of heat exchange.
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Assignment Questions from Packet.
1, 2, 3, 5, 7, 10, 11, 12, 14, 18, 19.
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The “colour” of heat Peak wavelength of light emitted depends on
temperature Spectrum includes all wavelength longer than
the peak but not many above 20°C - peak in infrared (need thermal imaging
camera to see body heat) 800°C - peak in red (electric coil, fire glows reds) 3000° - peak in blue (but includes green and red light
hence appears white) 2.7K peak in micro-wave (background emission in
the universe left over from the Big Bang)