Tour of the Electromagnetic Spectrum
What is UltraViolet Light?
Ultraviolet (UV) light has shorter wavelengths than visible light. Although UV waves are invisible to the human eye, some insects, such as bumblebees, can see them. This is similar to how a dog can hear the sound of a whistle just outside the hearing range of humans.
ULTRAVIOLET LIGHT FROM OUR SUN
The Sun is a source of the full spectrum of ultraviolet radiation, which is commonly subdivided into UV-A, UV-B, and UV-C. These are the classifications most often used in Earth sciences. UV-C rays are the most harmful and are almost completely absorbed by our atmosphere. UV-B rays are the harmful rays that cause sunburn. Exposure to UV-B rays increases the risk of DNA and other cellular damage in living organisms. Fortunately, about 95 percent UV-B rays are absorbed by ozone in the Earth’s atmosphere.
Image: NASA/SDO/AIA
Scientists studying astronomical objects commonly refer to different subdivisions of ultraviolet radiation: near ultraviolet (NUV), middle ultraviolet (MUV), far ultraviolet (FUV), and extreme ultraviolet (EUV). NASA’s SDO spacecraft captured the image below in multiple wavelengths of extreme ultraviolet (EUV) radiation. The false-color composite reveals different gas temperatures. Reds are relatively cool (about 60,000 Celsius) while blues and greens are hotter (greater than one million Celsius).
Image: NASA ozonewatch.gsfc.nasa.gov
DISCOVERY OF ULTRAVIOLET
In 1801, Johann Ritter conducted an experiment to investigate the existence of energy beyond the violet end of the visible spectrum. Knowing that photographic paper would turn black more rapidly in blue light than in red light, he exposed the paper to light beyond violet. Sure enough, the paper turned black, proving the existence of ultraviolet light.
ULTRAVIOLET ASTRONOMY
Since the Earth’s atmosphere absorbs much of the high-energy ultraviolet radiation, scientists use data from satellites positioned above the atmosphere, in orbit around the Earth, to sense UV radiation coming from our Sun and other astronomical objects. Scientists can study the formation of stars in ultraviolet since young stars shine most of their light at these wavelengths. This image from NASA’s Galaxy Evolution Explorer (GALEX) spacecraft reveals new young stars in the spiral arms of galaxy M81.
Image: NASA/JPL-Caltech
The difference in how the galaxies appear is due to which type of stars shine brightest in the optical and ultraviolet wavelengths. Ultraviolet images of galaxies show mainly clouds of gas containing newly formed stars that are many times more massive than the Sun and glow strongly in ultraviolet light. In contrast, visible light images of galaxies show mostly the yellow and red light of older stars. By comparing these types of data, astronomers can learn about the structure and evolution of galaxies.
THE OZONE “HOLE”
Chemical processes in the upper atmosphere can affect the amount of atmospheric ozone that shields life at the surface from most of the Sun’s harmful UV radiation. Each year, a “hole” of thinning atmospheric ozone expands over Antarctica, sometimes extending over populated areas of South America and exposing them to increased levels of harmful UV rays. The Dutch Ozone Monitoring Instrument (OMI) onboard NASA’s Aura satellite measures amounts of trace gases important to ozone chemistry and air quality.
The image below shows the amount of atmospheric ozone in Dobson Units—the common unit for measuring ozone concentration. These data enable scientists to estimate the amount of UV radiation reaching the Earth’s surface and forecast high-UV-index days for public health awareness.
ULTRAVIOLET LIGHT FROM STARS
The Lyman-Alpha Mapping Project (LAMP) onboard the Lunar Reconnaissance Orbiter can peer into permanently shaded craters on the moon by sensing the faint reflections of UV light coming from distant stars.
AURORAE
Aurorae are caused by high-energy waves that travel along a planet’s magnetic poles, where they excite atmospheric gases and cause them to glow. Photons in this high-energy radiation bump into atoms of gases in the atmosphere causing electrons in the atoms to excite, or move to the atom’s upper shells. When the electrons move back down to a lower shell, the energy is released as light, and the atom returns to a relaxed state.
The color of this light can reveal what type of atom was excited. Green light indicates oxygen at lower altitudes. Red light can be from oxygen molecules at a higher altitude or from nitrogen. On Earth, aurorae around the north pole are called the Northern Lights.
JUPITER’S AURORA
The Hubble Space Telescope captured this image of Jupiter’s aurora in ultraviolet wrapping around Jupiter’s north pole like a lasso.
Image: ohn Clarke (University of Michigan) / NASA
This unusual false-color image shows how the Earth glows in ultraviolet (UV) light. The Far UV Camera/Spectrograph deployed and left on the Moon by the crew of Apollo 16 captured this image.
The part of the Earth facing the Sun reflects much UV light and bands of UV emission are also apparent on the side facing away from the Sun. These bands are the result of aurora caused by charged particles given off by the Sun. They spiral towards the Earth along Earth’s magnetic field lines.
See more here: science.nasa.gov
Header image: Mini Physics
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Herb Rose
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Surprisingly, even thought atmosphere is absorbing all this uv light, it is not gaining energy from it and is heated by the surface of the Earth.
Curious that the ozone “hole” occurs in winter when very little uv light from the sun striking the atmosphere and disappears in summer when there is lots of uv light. Is there some sort of sensor in the atmosphere that increases the amount of ozone as needed or is it that it is the O2 molecules that are absorbing the uv and splitting into oxygen atoms, creating the ozone?
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Pierre-D Bernier
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And my bunny is pink !
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Jerry Krause
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Hi Pierre-D and Herb,
Pierre, did you go and see what Ams09a was doing??? Evidently, you did not!!! He is the ‘pitchman’.(I am surprised that the spellchecker finds that this is a word) selling products on TV!!!
Herb. have you reviewed the UV portion of SOLAR ENERGY incident upon the EARTH’S ATMOSPHERE AND SURFACE relative to thOSE of the VISIBLE and INFRARED portions???
Have a good day, Jerry
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Scouse Billy
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“UV-B rays are the harmful rays that cause sunburn. Exposure to UV-B rays increases the risk of DNA and other cellular damage in living organisms. Fortunately, about 95 percent UV-B rays are absorbed by ozone in the Earth’s atmosphere.”
Meanwhile:
“The sun’s rays provide ultraviolet B (UVB) energy, and the skin uses it to start making vitamin D. (The skin actually produces a precursor that is converted into the active form of the vitamin by the liver and kidneys.) Vitamin D is best known for its vital role in bone health. Without this “sunshine vitamin,” the body can’t absorb the calcium it ingests, so it steals calcium from bones, increasing the risk of osteoporosis and fractures. Vitamin D also helps maintain normal blood levels of phosphorus, another bone-building mineral.”
https://www.health.harvard.edu/staying-healthy/time-for-more-vitamin-d
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