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Wednesday, July 22, 2015

Composition & Structure of the Atmosphere


Introduction
·       Meteorology = the study of the atmosphere and the processes (such as cloud formation, lightning and wind movement) that cause what we refer to as the “weather”
·       Weather is distinct from climate in that the former deals with the short-term phenomena and the latter with the characteristic long-term patterns.


The Atmosphere, Weather and Climate
·       Atmosphere = a mixture of gas molecules, small suspended particles of solid liquids, and falling precipitation. 
·       Climatology
o   Relies on averages taken over a number of years in order to gauge typical atmospheric conditions for locations across Earth’s surface.
o   Also want to know about variability of the weather elements.
o   Frequencies of occurrences of weather events (such as extreme heat, hail or lightning) are also aspects of climates.
o   Concerned with changes in Earth’s climate and the factors responsible for those changes.


Thickness of the Atmosphere
·       ­How high is the sky?
o   There is no definitive answer. However, because Earth’s atmosphere becomes thinner at higher altitudes, even at heights of several hundred kilometers above sea level, there is some air and, hence, an atmosphere. But we have no way to establish its upper boundary because there is no universally accepted definition of how much air in a given volume constitutes the presence of an atmosphere.
Horizontal Winds
Vertical Winds
-       Primary motion over large areas
-       Are typically hundreds to thousands of times greater than vertical wind speeds
-       Hardest to detect and forecast
-       Determine much of the atmospheric behavior


Composition of the Atmosphere
·       The atmosphere is composed of a mixture of invisible gases and a large number of suspended microscopic solid particles and water droplets.
·       Molecules
o   Molecules of gases can be exchanged between the atmosphere and the Earth’s surface by physical processes (i.e. volcanic eruptions) or by biological processes (i.e. plant and animal respiration).
o   Can be produced and destroyed by purely internal processes (i.e. chemical reactions between gases)
o   Steady State / Equilibrium Condition = input rate is equal to the output rate
o   Dynamic Equilibrium = molecules cycling in and out of the atmosphere
o   Residence Time = average length of time that individual molecules of a given substance remain in the atmosphere

·       Homosphere
o   The lowest 80 km (50 mi) of the atmosphere
o   Vertical motions are more important than gravitational settling thus processes (other than settling) under gravity must explain any variations present.
o   Reflects the homogenizing role of wind and other motions
o   Gases are often categorized as being permeant or variable, depending on whether or not their concentration is uniform.
§  Permanent Gases = found everywhere in nearly the same proportion.
§  Variable Gases = distribution is uneven in both time and space.
·       Heterosphere = layer of the atmosphere (above the homosphere) where gases segregate according to molecular weight
·       Permanent Gases
o   Make up more than 99% of the atmosphere
o   Nitrogen (most abundant gas)
§  78% of all permanent gasses volume or 75.5% of their mass
§  Largely unreactive
§  Occurs primarily as paired nitrogen atoms bonded together to form single molecules denoted N2
§  Isotopes = variants of an element with different neutron counts
o   Oxygen (second most abundant gas)
§  21% of the volume of the atmosphere and 23% of its mass
§  Crucial to the existence of virtually all forms of life
§  Dynamic Oxygen = paired oxygen atoms
o   Nitrogen + Oxygen = 99% of all permanent gases
·       Variable Gases
o   Water vapor (most abundant) is 1% of the total volume
§  Condenses to a liquid at relatively low levels in the homosphere
§  Not uniformly distributed with altitude—at higher altitudes, water vapor is even more rare
§  Hydrologic Cycle (water cycle)
§  Source of moisture to form clouds

§  Very effective absorber of energy emitted by the Earth’s surface (radiant energy) thus making it one of the “greenhouse gases”

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