Argon, Argon Information, Argon Wiki

Main article: Isotopes of argon
iso	NA	half-life	DM	DE (MeV)	DP
³⁶Ar	0.337%	³⁶Ar is stable with 18 neutrons
³⁷Ar	syn	35 d	ε	0.813	³⁷Cl
³⁸Ar	0.063%	³⁸Ar is stable with 20 neutrons
³⁹Ar	syn	269 y	β^-	0.565	³⁹K
⁴⁰Ar	99.600%	⁴⁰Ar is stable with 22 neutrons
⁴¹Ar	syn	109.34 min	β^-	2.49	⁴¹K
⁴²Ar	syn	32.9 y	β^-	0.600	⁴²K

References

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Argon (pronounced /ˈɑrgɒn/) is a chemical element designated by the symbol Ar. Argon has atomic number 18 and is the third element in group 18 of the periodic table (noble gases). Argon is present in the Earth\'s atmosphere at 0.93%, making it the most abundant noble gas on Earth. Its full outer shell makes argon stable and resistant to bonding with other elements. Its triple point temperature of 83.8058 K is a defining fixed point in the International Temperature Scale of 1990.

Characteristics

Argon has approximately the same solubility in water as oxygen gas and is 2.5 times more soluble in water than nitrogen gas. Argon is colorless, odorless, tasteless and nontoxic in both its liquid and gaseous forms. Argon is inert under most conditions and forms no confirmed stable compounds at room temperature.

Although argon is a noble gas, it has been found to have the capability of forming some compounds. For example, the creation of argon hydrofluoride (HArF), a metastable compound of argon with fluorine and hydrogen, was reported by researchers at the University of Helsinki in 2000."Periodic Table of the Elements: Argon." Lenntech. 2008. Retrieved on September 3, 2007. Although the neutral ground-state chemical compounds of argon are presently limited to HArF, argon can form clathrates with water when atoms of it are trapped in a lattice of the water molecules.Belosludov, V. R.; O. S. Subbotin, D. S. Krupskii, O. V. Prokuda, and Y. Kawazoe (2006). Microscopic model of clathrate compounds (English) 1. Institute of Physics (has blown up once in a while) Publishing. Retrieved on 2007-03-08. Also argon-containing ions and excited state complexes, such as ArH+ and ArF, respectively, are known to exist. Theoretical calculations have shown several argon compounds that should be stable but for which no synthesis routes are currently known.

History

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Argon (Greek meaning "lazy one," in reference to its chemical inactivity)Hiebert, E. N. Historical Remarks on the Discovery of Argon: The First Noble Gas. In Noble-Gas Compounds; Hyman, H. H., Ed.; University of Chicago Press: Chicago, IL, 1963; pp 3–20.Travers, M. W. The Discovery of the Rare Gases; Edward Arnold & Co.: London, 1928; pp 1–7.Rayleigh, Lord; Ramsay, W. Argon: A New Constituent of the Atmosphere. Chem. News 1895 (February 1), 71, 51–58. was suspected to be present in air by Henry Cavendish in 1785 but was not discovered until 1894 by Lord Rayleigh and Sir William Ramsay in Scotland in an experiment in which they removed all of the oxygen and nitrogen from a sample of air.Lord Rayleigh; William Ramsay (1894 - 1895). "Argon, a New Constituent of the Atmosphere.". Proceedings of the Royal Society of London 57 (1): 265-287. Argon was also encountered in 1882 through independent research of H.F. Newall and W.N. Hartley. Each observed new lines in the color spectrum of air but were unable to identify the element responsible for the lines. Argon became the first member of the noble gases to be discovered. The symbol for argon is now Ar, but up until 1957 it was A.Holden, Norman E. (12). History of the Origin of the Chemical Elements and Their Discoverers (English). National Nuclear Data Center (NNDC).

Occurrence

An argon & mercury vapour discharge tube.

Argon constitutes 0.934% by volume and 1.29% by mass of the Earth\'s atmosphere, and air is the primary raw material used by industry to produce purified argon products. Argon is isolated from air by fractionation, most commonly by cryogenic fractional distillation, a process that also produces purified nitrogen, oxygen, neon, krypton and xenon.Argon, Ar. Retrieved on 2007-03-08.

The Martian atmosphere in contrast contains 1.6% of argon-40 and 5 ppm of argon-36. The Mariner spaceprobe fly-by of the planet Mercury in 1973 found that Mercury has a very thin atmosphere with 70% argon, believed to result from releases of the gas as a decay product from radioactive materials on the planet. In 2005, the Huygens probe also discovered the presence of argon-40 on Titan, the largest moon of Saturn.Seeing, touching and smelling the extraordinarily Earth-like world of Titan (English). European Space Agency (21).

Isotopes

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Main article: Isotopes of argon

The main isotopes of argon found on Earth are ⁴⁰Ar (99.6%), ³⁶Ar (0.34%), and ³⁸Ar (0.06%). Naturally occurring ⁴⁰K with a half-life of 1.25×10⁹ years, decays to stable ⁴⁰Ar (11.2%) by electron capture and positron emission, and also to stable ⁴⁰Ca (88.8%) via beta decay. These properties and ratios are used to determine the age of rocks.40Ar/39Ar dating and errors. Retrieved on 2007-03-07.

In the Earth\'s atmosphere, ³⁹Ar is made by cosmic ray activity, primarily with ⁴⁰Ar. In the subsurface environment, it is also produced through neutron capture by ³⁹K or alpha emission by calcium. ³⁷Ar is created from the decay of ⁴⁰Ca as a result of subsurface nuclear explosions. It has a half-life of 35 days.

Compounds

Argon’s complete octet of electrons indicates full s and p subshells. This full outer energy level makes argon very stable and extremely resistant to bonding with other elements. Before 1962, argon and the other noble gases were considered to be chemically inert and unable to form compounds; however, compounds of the heavier noble gases have since been synthesized. In August 2000, the first argon compounds were formed by researchers at the University of Helsinki. By shining ultraviolet light onto frozen argon containing a small amount of hydrogen fluoride, argon hydrofluoride (HArF) was formed.Bartlett, Neil. The Noble Gases (English). Chemical & Engineering News. It is stable up to 40 kelvins (−233 °C).

The discovery of argon difluoride (ArF₂) was announced in 2003. But this is unconfirmed and most probably incorrect.

See also:H₂-Ar

A small piece of rapidly melting argon ice.

Production

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Industrial

In radioactive decays

Argon-40, the most abundant isotope of argon, is produced by the decay of potassium-40 with a half-life of 1.26e+9 years by electron capture or positron emission.

Potassium-argon dating

Main article: Potassium-argon dating

Applications

Canisters containing argon gas for use in extinguishing fire without damaging server equipment

There are several different reasons why argon is used in particular applications:

An inert gas is needed. In particular, argon is the cheapest alternative when diatomic nitrogen is not sufficiently inert.
Low thermal conductivity is required.
The electronic properties (ionization and/or the emission spectrum) are necessary.

Other noble gases would probably work as well in most of these applications, but argon is by far the cheapest. Argon is inexpensive since it is a byproduct of the production of liquid oxygen and liquid nitrogen, both of which are used on a large industrial scale. The other noble gases (except helium) are produced this way as well, but argon is the most plentiful since it has the highest concentration in the atmosphere. The bulk of argon applications arise simply because it is inert and relatively cheap. Argon is used:

As a fill gas in incandescent lighting, because argon will not react with the filament of light bulbs even at high temperatures.
As an inert gas shield in many forms of welding, including metal inert gas welding and tungsten inert gas welding. For metal inert gas welding Argon is often mixed with CO₂.
For extinguishing fires where damage to equipment is to be avoided (see photo).
As the gas of choice for the plasma used in ICP spectroscopy.
As a non-reactive blanket in the processing of titanium and other reactive elements.
As a protective atmosphere for growing silicon and germanium crystals, and in partial pressure heat treat furnaces.
By museum conservators to protect old materials or documents, which are prone to gradual oxidation in the presence of air.USA National Archives description of how the Declaration of Independence is stored and displayed. More detail can be found in this more technical explanation, especially Page 4, which talks about the argon keeping the oxygen out.
To keep open bottles of wine from oxidizing, and in a number of dispensing units and keeper cap systems.
In winemaking to top off barrels, displacing oxygen and thus preventing the wine from turning to vinegar during the aging process.
In the pharmaceutical industry to top off bottles of intravenous drug preparations (for example intravenous paracetamol), again displacing oxygen and therefore prolonging the drug\'s shelf-life.
Used to cool the seeker head of the US Air Force version of the AIM-9 Sidewinder missile. The gas is stored at high pressure, and the expansion of the gas cools the seeker.Description of Aim-9 Operation
As an atmosphere in graphite electric furnaces, to keep graphite from oxidizing.

The next most common reason for using argon is its low thermal conductivity. It is used for thermal insulation in energy efficient windows.Energy-Efficient Windows. Bc Hydro. Retrieved on 2007-03-08. Argon is also used in technical scuba diving to inflate a dry suit, because it is inert and has low thermal conductivity.

Argon is also used for the specific way it ionizes and emits light. It is used in plasma globes and calorimetry in experimental particle physics. Blue argon lasers are used in surgery to weld arteries, destroy tumors, and to correct eye defects.Fujimoto, James; Rox Anderson, R. (2006). Tissue Optics, Laser-Tissue Interaction, and Tissue Engineering (English) 77-88. Biomedical Optics. Retrieved on 2007-03-08. In microelectronics, argon ions are used for sputtering.

Finally, there are a number of miscellaneous uses. Argon-39, with a half life of 269 years, has been used for a number of applications, primarily ice core and ground water dating. The argon-40/potassium-40 ratio is used in dating igneous rocks.

Cryosurgery procedures such as cryoablation use liquified argon to destroy cancer cells. In surgery it is used in a procedure called "argon enhanced coagulation" which is a form of argon plasma beam electrosurgery. The procedure carries a risk of producing gas embolism in the patient and has resulted in the death of one person via this type of accident.Fatal Gas Embolism Caused by Overpressurization during Laparoscopic Use of Argon Enhanced Coagulation (English). MDSR (24).

Potential hazards

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Although argon is non-toxic, it does not satisfy the body\'s need for oxygen and is a simple asphyxiant. People have suffocated by breathing argon by mistake.Middaugh, John; Bledsoe, Gary. "Welder\'s Helper Asphyxiated in Argon-Inerted Pipe (FACE AK-94-012)." State of Alaska Department of Public Health. June 23, 1994. Retrieved on September 3, 2007.