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IonosphereThe ionosphere extends from 30 miles to about 250 miles. As its name suggests, it contains ions -- charged particles. The ionosphere actually serves a practical purpose for those of us way down in the troposphere. Radio waves reflect off the ionosphere and bounce back to the surface, allowing us to hear radio transmissions from distances of hundreds and sometimes
Figure 1-2: The aurora australis lights at the South Pole. These are the same type of lights found at the North Pole. (Photo courtesy of NOAA/Department of Commerce; http://www.photolib.noaa.gov; photo taken by Commander John Bortniak, NOAA Corps)
The northern lights, or aurora borealis, also occur in the ionosphere, usually between about 60 to 80 miles high. As solar radiation interacts with the upper atmosphere, nitrogen glows red and oxygen glows red or green. This is one of the few observable atmospheric phenomena to occur above the troposphere. That completes our very quick tour of the atmosphere. In the next lesson we'll look at the recipe for weather, atmospheric pressure, and the Coriolis effect.
Assignment 1: What's Up? A Tour of the Atmosphere The first assignment is easy. Next time you have a clear, starry night, go outside and look up at the stars. Remember that you’re not just looking at the sky -- you're peering up from the very bottom of an ocean of air. The starlight you’re seeing must pass through hundreds of miles of atmosphere before it reaches your eyes. Notice how the stars flicker and twinkle. What you’re seeing is the atmosphere in action. Different portions of the atmosphere have different temperatures and densities and refract the incoming starlight.
Date: 2014-12-28; view: 1063
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