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Published byGabriela Bucci Modified over 5 years ago
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Gas Laws The atmosphere is made up of gases so we need to know the basic laws of how gases behave
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Gas laws describe the relationships between the key parameters describing the behavior of gases
Temperature (T): a measure of the kinetic energy (KE) of atoms and molecules. Expressed in °K for calculations. Pressure (P): Force per unit area: F/A. Expressed in Pascal (N/m2), Newton per meter squared. Often in terms of hPa (100 N/m2)
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Key Parameters Density (r): r = Mass/Volume. Expressed in kg/m3 in the metric system. At the earth’s surface r ~ 1 kg/m3 , 1 kg = 1000 grams~2.2 lbs Volume (V): Expressed in m3
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Boyle’s Law ~1660) PV=constant
Start with a sample of air with temperature (T), pressure (P), and volume (V). If T is kept constant, then: PV=constant
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Boyles Law Basis of air pumps we all use
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Law of Charles and Guy Lussac
If you increases temperature, while keeping pressure constant, volume will increase. V= constant (C)* T (°K) So if you increase T, V will increase Basis of car engines.
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Can combine both gas laws into one: the Perfect Gas Law (a. k. a
Can combine both gas laws into one: the Perfect Gas Law (a.k.a. the Ideal Gas Law) P= rRT Where r is density (kgm-3), R is a gas constant, P is pressure (Nm-2), and T is temperature (K) One of the key relationships of meteorology
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Let’s prove it contains the other laws Start with P= rRT
Assume T=constant. Then you have: P= r*constant or P = constant* M/V or PV=constant : BOYLE’S LAW Or assume P=constant. Then you have: Constant=(M/V)*constant *T, which gives you V = constant*T: Law of Charles and Guy Lussac
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Adiabatic Processes Clouds form as air cools when it rises.
But why does rising air cool? Air warms as it forced to sink. Why? Why does the spray of aerosol cans feel cold? And why are bike pumps warm after use?
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Explained by adiabatic processes!
Definition. Air parcel: An identifiable collection of air that stays together. Think of the air in balloon. An adiabatic process is a processes that occurs WITHOUT the exchange of energy with the surroundings. In the meteorological context, an adiabatic process is one in which there is not exchange of energy between an air parcel and the surrounding air.
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How do temperature and pressure vary for an air parcel under an adiabatic process?
Imagine an insulated cylinder with air in it, so NO heat exchange with the outside environment. Push down the piston. Pressure and temperature increases. P2 > P1 T2 > T1 T1, P1 T2, P2
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Adiabatic processes So if an air parcel is compressed adiabatically, temperature will rise Similarly, if you expand an air parcel, its temperature will fall. But why? When compressing air, you are doing work on the molecules, giving them a “shove” and making them go faster. If you allow the air parcel to expand, it takes energy to push the boundaries of the parcel out (or to push the piston out), resulting in cooling.
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Adiabatic Law In the absence of heat exchange, air warms when compressed and cools when it expands. Explains a great deal of what it occurring in the atmosphere, when air is forced to rise or sink When air is forced to rise, it goes into an environment of lesser pressure (since pressure declines with height). With less pressure on the air parcel, it is able to expand Expansion results in cooling
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Adiabatic Law When air sinks, its environment has higher pressure, compressing and warming the air parcel.
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Influence on saturation and clouds
Adiabatic cooling can result in increased relative humidity and saturation where there is upward motion. The amount of water vapor in the air parcel does not change as it rises, but as the temperature falls, the air parcel has less ability to hold water vapor. Thus, RH increases. With enough vertical motion, can reach saturation and clouds can form. Mountains are prime example of this process.
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Downslope warming and drying
On the other hand, when air sinks it warms adiabatically and relative humidity decreases. Clouds thus evaporate, producing a rain shadow.
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Great example this AM
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Adiabatic cooling/warming can occur outside of mountains as well
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