Argon

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Argon,  18Ar
Solid argon melting and subliming The Royal Institution.jpg
Argon, after being frozen with liquid nitrogen, melting and subliming at the same time, at standard conditions.
General properties
Name, symbol Argon, Ar
Appearance Colorless gas exhibiting a lilac/violet glow when placed in an electric field
Argon in the periodic table
Ne

Ar

Kr
ChlorineArgonPotassium
Atomic number 18
Standard atomic weight (Ar) 39.948(1)
Group, block , p-block-block
Period period 3
Electron configuration [Ne] 3s2 3p6
per shell
2, 8, 8
Physical properties
Colorless
Phase Gas
Melting point 83.81 K ​(−189.34 °C, ​308.81 °F)
Boiling point 87.302 K ​(−185.848 °C, ​−302.526 °F)
Density at  (0 °C and 101.325 kPa) 1.784 g/L
when liquid, at  1.3954 g/cm3
Triple point 83.8058 K, ​68.89 kPa
Critical point 150.687 K, 4.863 MPa
Heat of fusion 1.18 kJ/mol
Heat of 6.53 kJ/mol
Molar heat capacity 20.85 J/(mol·K)
 pressure
Atomic properties
Oxidation states 0
energies 1st: 1520.6 kJ/mol
2nd: 2665.8 kJ/mol
3rd: 3931 kJ/mol
Covalent radius 106±10 pm
Van der Waals radius 188 pm
Miscellanea
Crystal structure ​face-centered cubic (fcc)
Speed of sound 323 m/s (gas, at 27 °C)
Thermal conductivity 17.72×10−3 W/(m·K)
Magnetic ordering Diamagnetic
CAS Registry Number 7440-37-1
Discovery and first isolation Lord Rayleigh and William Ramsay (1894)
· references

Argon is a noble gas with the symbol Ar and the atomic number 18. It forms no compounds accessible to the home chemist due to its inertness, which makes it suitable for inert atmospheres.

Properties

Physical

Argon is a colorless, odorless gas at standard conditions, with a boiling point of -185.848 °C and a melting point of −189.34 °C. It is heavier than air, with an density of 1.784 g/L. Unlike nitrogen, argon is 2.5 times more soluble in water, solubility similar to that of oxygen.

Chemical

Argon is chemically inert under most conditions and forms no confirmed stable compounds at room temperature. At 8 K, argon reacts with hydrogen fluoride, on a cesium iodide surface, resulting in argon fluorohydride, HArF, which is stable only under 17 K.

Availability

Argon is used as a shielding gas in welding, so many gas or welding supply stores will sell and rent out cylinders of pure argon or mixtures of argon and carbon dioxide (the more argon in the mixture, the more expensive it is).

A crude form of argon that is accessible to most people can be obtained from light bulbs, which may contain argon or a mixture of argon and nitrogen. This can be done by holding the bulb underwater, and slipping an open plastic bag around the bulb so that no air is in the bag. After sealing the bag, the light bulb can be broken, causing the inert gas inside to rise to the top while still trapped in the bag.

Preparation

Argon can be separated from liquified air, although the process is very consuming and complicated due to argon's narrow liquid temperature range. It's best to buy argon cylinders.

Uses

As it takes no role in any chemistry, argon can be used as an inert atmosphere.

Creating an inert atmosphere in a home chemistry setting is difficult, and not often done. Nitrogen is usually used in the rare case it is attempted, and argon is called upon when nitrogen and carbon dioxide are unsuitable, as both carbon dioxide and nitrogen are cheaper gases than argon. For some processes that cannot be done in either of these atmospheres, the more expensive and difficult-to-find argon must be used. As argon is heavier than air, any container that is supposed to hold an argon atmosphere should have the opening above.

Argon is the choice in Schlenk lines and gloveboxes.

The most common use of argon is likely the preservation of samples or presentation in element collections.

Handling

Safety

Argon is inert and will not react with any compounds, making it safe to use. It may pose an asphyxiation hazard in closed rooms. Since it's heavier than air, it will accumulate on the lower part of a room.

Storage

Compressed argon should be stored away from heat.

Disposal

Argon can be released in atmosphere, though best avoid closed spaces.

References

Relevant Sciencemadness threads