Aurora: Difference between revisions

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== aurora ==
== aurora ==


<div class="definition"><div class="short_definition">A faint visual phenomenon associated with geomagnetic activity that is visible mainly in the high-latitude night sky. Aurora often occur within a band of latitudes known as the [[auroral oval]], the location of which is dependent on geomagnetic activity. Aurora are a result of collisions between atmospheric gases and precipitating charged particles (mostly [[electrons]]) guided by the geomagnetic field from the magnetotail. Each gas ([[oxygen]], [[nitrogen]] molecules and atoms) emits a particular color depending on the energy of the precipitating particles and the atmospheric composition, which varies with altitude. Typical aurora are 100&#8211;250 km above ground level. The colors of the aurora are normally both red and green. The red color occurs at heights around 250 km and is due to a specific transition of atomic oxygen; deeper penetrating particles (to around 100 km) interact with molecular nitrogen and oxygen causing green bands. Aurorae in the Northern Hemisphere are called [[aurora borealis]] ("northern lights") and in the Southern Hemisphere, aurorae are known as [[aurora australis]]. Patterns and forms of aurora include quiescent arcs, moving rays, patches, and veils.</div><br/></div>
A faint visual phenomenon associated with geomagnetic activity that is visible mainly in the high-latitude night sky. Aurora often occur within a band of latitudes known as the [[auroral oval]], the location of which is dependent on geomagnetic activity. Aurora are a result of collisions between atmospheric gases and precipitating charged particles (mostly [[electrons]]) guided by the geomagnetic field from the magnetotail. Each gas ([[oxygen]], [[nitrogen]] molecules and atoms) emits a particular color depending on the energy of the precipitating particles and the atmospheric composition, which varies with altitude. Typical aurora are 100&#8211;250 km above ground level. The colors of the aurora are normally both red and green. The red color occurs at heights around 250 km and is due to a specific transition of atomic oxygen; deeper penetrating particles (to around 100 km) interact with molecular nitrogen and oxygen causing green bands. Aurorae in the Northern Hemisphere are called [[aurora borealis]] ("northern lights") and in the Southern Hemisphere, aurorae are known as [[aurora australis]]. Patterns and forms of aurora include quiescent arcs, moving rays, patches, and veils.<br/>


<p>Space Weather Prediction Center, 2018: Aurora. Accessed 13 August 2018. Available at <nowiki>https://www.swpc.noaa.gov/phenomena/aurora</nowiki>.</p><br/>
<p>Space Weather Prediction Center, 2018: Aurora. Accessed 13 August 2018. Available at <nowiki>https://www.swpc.noaa.gov/phenomena/aurora</nowiki>.</p><br/>


<p>''Term edited 13 August 2018.''</p>
<p>''Term edited 13 August 2018.''</p>
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Latest revision as of 16:40, 7 November 2023


aurora[edit | edit source]

A faint visual phenomenon associated with geomagnetic activity that is visible mainly in the high-latitude night sky. Aurora often occur within a band of latitudes known as the auroral oval, the location of which is dependent on geomagnetic activity. Aurora are a result of collisions between atmospheric gases and precipitating charged particles (mostly electrons) guided by the geomagnetic field from the magnetotail. Each gas (oxygen, nitrogen molecules and atoms) emits a particular color depending on the energy of the precipitating particles and the atmospheric composition, which varies with altitude. Typical aurora are 100–250 km above ground level. The colors of the aurora are normally both red and green. The red color occurs at heights around 250 km and is due to a specific transition of atomic oxygen; deeper penetrating particles (to around 100 km) interact with molecular nitrogen and oxygen causing green bands. Aurorae in the Northern Hemisphere are called aurora borealis ("northern lights") and in the Southern Hemisphere, aurorae are known as aurora australis. Patterns and forms of aurora include quiescent arcs, moving rays, patches, and veils.

Space Weather Prediction Center, 2018: Aurora. Accessed 13 August 2018. Available at https://www.swpc.noaa.gov/phenomena/aurora.


Term edited 13 August 2018.

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