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Temperature, Heat and Expansion

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Best conductors are metals: silver copper aluminum iron ... Glass surfaces are silvered. No conduction through vacuum. No convection through vacuum ... – PowerPoint PPT presentation

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Title: Temperature, Heat and Expansion


1
Temperature, Heat and Expansion
  • Physics 1010
  • Dr. Don Franceschetti
  • October 25, 2007

2
Temperature
  • We have a temperature sense which can be
    quantified.
  • Of an object is a measure of the average random
    kinetic energy of atoms or molecules that make up
    that object.
  • Almost all substances expand when the temperature
    is raised.
  • Three temperature scales in use.

3
Thermometer
  • Invented by Galileo.
  • Based on expansion of (most) materials with
    increasing temperature.
  • --or another material property, like electrical
    resistance.

4
Celsius (centigrade) Temperature
  • Water freezes at 0 C
  • Water boils at 100 C
  • Problem negative numbers are hard to avoid

5
Fahrenheit Temperature
  • G. D. Fahrenheit 1686-1736
  • Pick your story
  • 0 F is temperature of ice/salt bath
  • 0 F is coldest winter temperature
  • 100 F is hottest summer temp
  • 100 F is human body temp
  • 100 F is cow body temp (rectal)
  • Water freezes at 32 F boils at 212 F
  • 180 degrees between freezing and boiling
  • T( C)(T( F)-32)5/9

6
Kelvin (Absolute) Temperature
  • All gases in limit of high temp and low density
    loose 1/273 rd of their volume at 0 C for each
    one C decrease in temperature.
  • If substances remained as ideal gases, there
    would be no volume left at -273 C.
  • T(K) T(C) 273.15, absolute zero is coldest
    possible temperature.
  • Even though gases all condense when cold enough,
    this is still true.

7
More precisely
  • Temperature is a measure of the average motional
    kinetic energy of molecules in the material.
  • Microwave increases rotational kinetic energy of
    water molecules, these bump into others.
  • A thermometer measures its own temperature!

8
Heat
  • Heat is energy in transit from one body to
    another.
  • Internal energy is the grand total of all
    energies inside a substance.
  • Is measured in joules or calories (people used to
    think of heat as a fluid--caloric)
  • I calorie is heat required to raise temperature
    of one gram of water by 1 degree Celsius
  • 1 calorie is 4.184 joules
  • Food Calorie 1000 calories, is energy released
    on total combustion of food

9
Count Rumford, a.k.a. Benjamin Thompson
(1753-1791)
  • Born in Woburn MA but went to Britain in 1776.
  • Disproved caloric theory by drilling cannons.
  • Invented many things for the kitchen.
  • 1791 named Count Rumford of the Holy Roman
    Empire.
  • Estate funded Rumford lectures at Harvard-still
    going on!

10
Specific Heat (thermal inertia)
  • The specific heat capacity of any substance is
    the quantity of heat required to change the
    temperature of a unit mass of the substance by 1
    degree.
  • Water has a high capacity, important effects on
    climate.
  • The higher the specific heat capacity, the slower
    the rise in temperature.

11
Thermal Expansion
  • Proportional to temperature change and original
    length of material.
  • Bimetallic strips will curve when temperature
    changes, basis of thermostat.
  • Gaps in roads and sidewalks must be provided.
  • Most materials expand at a nearly constant rate
    with temperature. Water does not.

12
Water
  • Maximum density (M/V) at 4C.
  • As pond cools to 4C water falls to bottom.
  • Whole pond must cool to 4C before water can
    freeze on top.
  • Ice floats.

13
Water thermal expansion
14
Review
  • Why does a penny become warmer when it is struck
    by a hammer?
  • On which temperature scale does the average
    kinetic energy of molecules double when the
    temperature doubles.
  • Desert sand is very hot during the and very
    cool at night. What does this tell you about its
    specific heat.
  • Why are incandescent bulbs typically made of
    very thin glass?

15
Heat Transfer
  • Physics 1010
  • Dr. Don Franceschetti
  • March 30, 2004

16
Conduction
  • Energy transfer from atom to atom. Loose
    electrons also contribute
  • Thermal Conductivity
  • Best conductors are metals silvergtcoppergtaluminum
    gtiron
  • Insulators include wool, wood, straw, paper,
    cork, air, styrofoam

17
You can walk on hot coals!
  • Wood is a very good insulator, even when hot
  • Air is a good thermal insulator. You can stick
    your hand in a hot oven, but dont touch the
    side.
  • Snow is also a good insulator.

18
Convection
  • Fluids transport heat as they move in response to
    density changes.
  • Important in weather. Air expands as it rises,
    and it cools as it expands.
  • As air expands molecules are more likely to
    collide with molecules receding from them.

19
At the seashore
  • See page 310, text.

20
Radiation
  • Energy can pass through empty space in the form
    of electromagnetic radiation (light, radio waves,
    microwaves)
  • The frequency of peak energy emission is directly
    proportional to the absolute temperature.

21
Emission of Electromagnetic Energy
  • Everything emits radiant energy at a rate
    proportional to its area and the fourth power of
    the absolute temperature.
  • Everything absorbs energy, too.
  • Good emitters are good absorbers

22
Cavity Radiation Spectrum
  • See page 312.

23
Reflection of Radiant Energy
  • Absorption and reflection are opposites.
  • Best absorber doesnt reflectis black.
  • Pupil of eye allows light to enter with very
    little reflection
  • Snow melts slowly in sunlight because its white

24
Earth and Sun
  • Day Suns 6000K emits a lot more than Earths
    300K or so.
  • Night Earth has net loss of heat
  • An object left out in the open at night radiates
    energy into space and receives much less in
    return.
  • Good conductors draw heat from the ground
  • Outer space has a temperature of 2.7K!

25
Newtons law of cooling
  • Rate of cooling proportional to temperature
    difference.
  • Wind chill, adjusts for effect of convection.

26
Greenhouse Effect
  • Much of the Suns radiation is absorbed by the
    Earths Surface. It is at high frequencies to
    which the atmosphere is transparent.
  • The Earth radiates more at lower frequencies
    which is absorbed and re-emitted by water vapor
    and carbon dioxide in the atmosphere.
  • Earth would be at 18 degrees C were it not for
    the greenhouse effect.

27
Solar Power
  • Solar constant 1.4 kw/m2
  • In U. S. average over all time is 0.18 kw/m2
  • Enough for home heating/cooling falls on roof of
    typical house.
  • Electricity generation is a challenge

28
Thermos bottle (Dewar Flask)
  • A double-walled glass container with a vacuum
    between the walls. Glass surfaces are silvered
  • No conduction through vacuum
  • No convection through vacuum
  • Radiation reflected through walls.

29
Review
  • Why are materials such as wood, fur, feathers and
    even snow good insulators?
  • Does a good insulator prevent heat from getting
    through it, or slow its passage?
  • How does buoyancy relate to convection?

30
Review
  • What happens to the volume of air as it rises?
    What happens to its temperature?
  • When an air molecule is hit by an approaching
    fast-moving molecule, does its rebound speed
    increase or decrease? How about when it hits a
    receding molecule?
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