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Radon [Rn]
CAS-ID: 10043-92-2
An: 86 N: 136
Am: [222] g/mol
Group No: 18
Group Name: Noble gas
Block: p-block  Period: 6
State: gas
Colour: colourless Classification: Non-metallic
Boiling Point: 211.3K (-61.7°C)
Melting Point: 202K (-71°C)
Critical temperature: 377K (104°C)
Density: 9.73g/l
Discovery Information
Who: Fredrich Ernst Dorn
When: 1898
Where: Germany
Name Origin
From radium.
 "Radon" in different languages.
Sources
Formed from the decay of radium in the earth's crust.
Abundance
 Atmosphere: 1 x 10-15 ppm
 Earth's Crust: ppm
 Seawater: 1 x 10-14 ppm
Uses
Used to treat some forms of cancer, also used in earthquake prediction.
Although some physicians once believed that radon can be used therapeutically, there is no evidence for this belief and radon is not currently in medical use, at least in the developed world.
History
Radon (named after radium) was discovered in 1900 by Friedrich Ernst Dorn, who called it radium emanation. In 1908 William Ramsay and Robert Whytlaw-Gray, who named it niton (Latin nitens meaning "shining"; symbol Nt), isolated it, determined its density and that it was the heaviest known gas. It has been called "radon" since 1923.
The first major studies of the health concern occurred in the context of uranium mining, first in the Joachimsthal region of Bohemia and then in the American Southwest during the early Cold War. Because radon is a daughter-product of uranium, uranium mines have high concentrations of radon and its highly radioactive daughter products. Many Native Americans, Mormons, and other miners in the Four Corners region would later contract lung cancer and other pathologies as a result of high levels of exposure to radon gas while mining uranium for the Atomic Energy Commission in the mid-1950s. Safety standards instituted required expensive ventilation and as such were not widely implemented or policed.
The danger of radon exposure in dwellings was discovered in 1984 with the case of Stanley Watras, an employee at the Limerick nuclear power plant in Pennsylvania. Watras set off the radiation alarms (see Geiger counter) on his way into work for two weeks straight while authorities searched for the source of the contamination. They were shocked to find that the source was astonishingly high levels of radon, around 100,000 Bq.m-3, in his house's basement and it was not related to the nuclear plant. The risks associated with living in his house were estimated to be equivalent to smoking 135 packs of cigarettes every day. Following this event, which was highly publicized, national radon safety standards were set and radon detection and ventilation became a standard homeowner concern.
Notes
On average, there is one atom of radon in 1 x 1021 molecules of air. Radon can be found in some spring waters and hot springs. The towns of Misasa, Japan, and Bad Kreuznach, Germany boast radium-rich springs which emit radon.
Radon is the heaviest noble gas and one of the heaviest gases at room temperature.
Previously known as Emanation. Radon is a health threat in homes built on granite and radon detectors should be used in the basement of homes. High radon levels can often be mitigated by utilizing ventilation. At ordinary temperatures radon is a colourless gas. When cooled below the freezing point, radon exhibits a brilliant phosphorescence which becomes yellow as the temperature is lowered and orange-red at the temperature of liquid air. The main hazard is from inhalation of the element and its decay products which are collected on dust in the air. Radon is present in some spring waters.
Hazards
Radon is a radiological poison and a carcinogen. Some of the daughter products from radioactive decay of radon (such as polonium) are also toxic. Since radon is a gas, its decay products form a very fine dust that is both toxic and radioactive. This can potentially stick in the lungs and do far more damage than the radon itself.
Radon is the second most frequent cause of lung cancer, after cigarette smoking, and radon induced lung cancer is thought to be the 6th leading cause of cancer death overall