Now that we know, more or less, what air is made of, let's...
Transcript of Now that we know, more or less, what air is made of, let's...
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Now that we know, more or less, what air is made of, let's talk a bit about it's physical properties.
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Now that we know, more or less, what air is made of, let's talk a bit about it's physical properties. Shall we?
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Meditations on a Glass of Water
Think about a glass of water for a minute. Depending on how you look at it, there's two ways you might see it:
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● If you zoomed way, way in, what you'd see is a bunch of individual water molecules buzzing around
● The molecules are continually wandering about the glass, rearranging themselves and bouncing off each other
Meditations on a Glass of Water
Think about a glass of water for a minute. Depending on how you look at it, there's two ways you might see it:
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● If you zoomed way, way in, what you'd see is a bunch of individual water molecules buzzing around
● The molecules are continually wandering about the glass, rearranging themselves and bouncing off each other
Meditations on a Glass of Water
Think about a glass of water for a minute. Depending on how you look at it, there's two ways you might see it:
This way of looking at things, where we zoom way, way in and see all the granular details, is called the microscopic perspective.
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Meditations on a Glass of Water
Think about a glass of water for a minute. Depending on how you look at it, there's two ways you might see it:
● Now suppose we zoomed back out and looked at the glass in a more holistic way
● What we'd see in that case is just some continuous substance, which has weight and exerts a force on the sides of the glass
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Meditations on a Glass of Water
Think about a glass of water for a minute. Depending on how you look at it, there's two ways you might see it:
● Now suppose we zoomed back out and looked at the glass in a more holistic way
● What we'd see in that case is just some continuous substance, which has weight and exerts a force on the sides of the glass
This other way of looking at it, where we zoom back out and see things as a continuous whole, is called the macroscopic perspective.
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Meditations on a Glass of Water
Two different ways of looking at the same thing, both equally valid, depending on your perspective and your interests.
microscopic macroscopic
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Meditations on a Glass of Water
And of course, what was true for water is also true of the air around us!
Two different ways of looking at the same thing, both equally valid, depending on your perspective and your interests.
microscopic macroscopic
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For the most part, we'll look at air from the macroscopic perspective, in which it's just some continuous substance. Some properties of this substance include:
Properties of Air
● Density: The density measures the amount of a substance present in a given abount of space. More specifically, it's the ratio of the mass of the substance to the volume occupied:
density = mass of air
volume occupied
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● Pressure: Pressure is the force exerted by a given volume of air outward on its surroundings. More precisely, the pressure is the force exerted divided by the area of the surface; i.e,
pressure = outward force across a surface
area of the surface
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● Pressure: Pressure is the force exerted by a given volume of air outward on its surroundings. More precisely, the pressure is the force exerted divided by the area of the surface; i.e,
pressure = outward force across a surface
area of the surface
● From the microscopic perspective, this outward force results from lots and lots of collisions of air molecules across the surface of interest (think air in a tire)
tire
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● Question: If an air mass always exerts an outward force on its surroundings, why doesn't the mass just always expand?
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● Question: If an air mass always exerts an outward force on its surroundings, why doesn't the mass just always expand?
● Answer: While the air mass exerts an outward force on its surroundings, the surroundings also exert forces back on the air mass
● In the atmosphere, these surroundings are usually other air masses
three air masses, each exerting pressure forces
on the others
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● Temperature: The temperature is a measure of the heat energy stored in a substance. More precisely......
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● Temperature: The temperature is a measure of the heat energy stored in a substance. More precisely......
● From the microscopic viewpoint, the temperature measures the speed at which the molecules of air are moving around (on average)
the molecules in warm air move faster than the molecules in cold air
warm cold
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Consider a column of air extending upward from the ground, and focus on just the part of the column below some height
Pressure and Weight
this part here
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Pressure and Weight
weight
Consider a column of air extending upward from the ground, and focus on just the part of the column below some height
● The air above this height has mass and thus weight, so it pushes downward on our air below
● Question: So why doesn't the air in this upper part simply fall to the ground?
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pressure force from below holds the weight of
the air above
Pressure and Weight
weight
pressure
Consider a column of air extending upward from the ground, and focus on just the part of the column below some height
● The air above this height has mass and thus weight, so it pushes downward on our air below
● Question: So why doesn't the air in this upper part simply fall to the ground?
● Answer: The pressure force from the air below holds it up!
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● Now, to keep everything in balance, the pressure force exerted by the air below has to exactly equal the weight of the part of the column above (so that all the forces cancel)
● But of course, there's nothing special about the specific way we divided up our column.....that is, we could have divided the column at any height we chose and the same aguments would apply. Ergo.....
pressure
weight
pressure force from below holds the weight of
the air above
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● And since weight is defined in terms of mass by
weight = mass x gravity
we can further say that the atmospheric pressure at any given height is determined solely by the mass of air above that height!
pressure
weight
pressure force from below holds the weight of
the air above
At any given height in the atmosphere, the pressure force at that height has to
exactly equal the weight of the air column above that height!
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● As we move upwards in the atmosphere, the weight of the air above us (and hence the pressure)
pressure
weight
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● As we move upwards in the atmosphere, the weight of the air above us (and hence the pressure) decreases
- pressure decreases with heightpressure
weight
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● As we move upwards in the atmosphere, the weight of the air above us (and hence the pressure) decreases
- pressure decreases with height
● And as we move downwards, the weight of the air above us increases
- so pressure increases as we move downwards
pressure
weight
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● As we move upwards in the atmosphere, the weight of the air above us (and hence the pressure) decreases
- pressure decreases with height
● And as we move downwards, the weight of the air above us increases
- so pressure increases as we move downwards
pressure
weight
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Some reference points:
Sea level
Height (m)Typical Pressure
(lbs per in2)
0 14.7
College Station 112 14.5
World's tallest building 830 13.3
Commuter plane 4500 8.4
Commercial jet 10500 3.6
Denver, CO 1600 12.1
Mexico City 2250 11.2
8850Mt. Everest 4.6
100%
98.6%
90.5%
82%
76%
57%
31%
25%
Mt. Whitney 4425 8.5 58%
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The Ideal Gas Law
For a given volume of air, the pressure of the volume depends on two things:
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The Ideal Gas Law
For a given volume of air, the pressure of the volume depends on two things:● The number of molecules in the volume (i.e., the density)
tire
more molecules means more collisions: pressure increases with density! And...
tire
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tire
The Ideal Gas Law
For a given volume of air, the pressure of the volume depends on two things:● The number of molecules in the volume (i.e., the density)● The speed at which the molecules are moving (i.e., the
temperature)
faster molecules means stronger collisions: pressure increases with temperature!
tire
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● Specifically, the relationship between pressure, temperature and density is given by the ideal gas law
p = ρ R Twhere
p : pressure (measured in Pa ) ρ : density (measured in kg/m3 ) T : Temperature (measured in K ) R : dry air gas constant = 287 J / (kg K)
● As before, we see that pressure increases with both density and temperature
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The Temperature-Density Relation
● According to the ideal gas law, the density can be expressed as
ρ = R T p
showing that if we compare two volumes of air at the same pressure, the warmer volume will be less dense
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The Temperature-Density Relation
● According to the ideal gas law, the density can be expressed as
ρ = R T p
showing that if we compare two volumes of air at the same pressure, the warmer volume will be less dense
● Basically, faster molecules tend to spread out more, which makes the volume less dense
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The Vertical Profile of TemperatureThe vertical structure of the atmosphere is divided loosely into four
layers based on the vertical temperature profile
85 km
50 km
10 kmtroposphere
stratosphere
mesosphere
thermosphere
temperature
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Some notes:
● In the absence of solar absorption, the temperature tends to decrease with height (as in the troposphere and mesosphere)
- Why? Because air expands and cools as it rises
● But if solar absorption occurs in a layer, then the temperature can actually increase with height (as in the stratosphere and thermosphere)
● A layer where temperature increases with height is called an inversion
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Troposphere:● On average, the temperature decreases at roughly 6.5 oC / km● The troposphere contains roughly 90% of the atmosphere's
mass, and virtually all weatherStratosphere:
● Ozone in the stratosphere absorbs UV radiation from the sun, leading to warming of the layer
- Result: the temperature increases with height
Mesosphere:
Thermosphere:● Oxygen (O2) absorbs shortwave radiation, again producing
warming of the layer● The warmest temperatures in the atmosphere are in the
thermosphere
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In addition to naming the layers, we also name the boundaries between the layers
85 km
50 km
10 km tropopause
stratopause
mesopause
temperature
troposphere
stratosphere
mesosphere
thermosphere