Gold

chemical element with symbol Au and atomic number 79
(Redirected from Alluvial gold)

Gold is a soft, dense, yellow metal. It is a chemical element. Its chemical symbol is Au. Its atomic number is 79. As a precious metal, it has been used for many thousands of years by people all over the world, for jewelry, and as money. Gold is important because it is rare, but also easier to use than other rare metals. It is also used to repair and replace teeth and in electronic equipment such as computers. The color of this metal is also called gold.

A gold nugget, a piece of gold found in nature
Two golden 20 kr coins: the coin to the left is Swedish and the right one is Danish
Ancient golden crown, the Kritonios Crown, 370–360 BC. From a grave in Armento, Basilicata

Mining methods for gold are similar to other metals. Gold is so valued that the discovery of a new place to mine has sometimes caused a gold rush. The deepest workplaces for miners in the world are in South African gold mines.

Often, gold is found as a native metal. This means it is not part of an ore, and does not need smelting. It may be in large, pure nuggets but more often must be separated from other minerals and soil.

Most of the gold on Earth is deep inside the Earth's core because it is dense. Nearly all discovered gold was deposited on the surface by meteorites.

Properties

change

In chemistry, gold is chemical element 79, a transition metal in Group 11. It has an atomic weight of 199.966 a.m.u. Its symbol is Au, from the Latin word for gold, aurum. It is a "noble metal" meaning it has low chemical reactivity. It will, however, react with aqua regia (a mixture of nitric and hydrochloric acid) to form chloroauric acid.

Gold is very soft. It is malleable, meaning a goldsmith can hammer it into thin metal sheets. It is also ductile, which means it can be pulled into wire. When it is used in money or in jewelry, it is often alloyed with copper, silver, or both to make it harder.

Most metals are gray in color. Gold is yellow because of the way its electrons behave.[1][2] The only other metal in common use that has a non-gray color is copper. Caesium also has a gold-like color, but it is not commonly used as a metal because it reacts with water.

Gold is a fairly good electrical conductor, better than aluminium[a], but not as good as copper or silver. Copper and brass electrical connectors, especially those used with computer and audio/video equipment, are often plated with gold for corrosion resistance. Gold is also a good heat conductor, although it is not commonly used for this purpose due to its cost.

 
Nancy Johnson and her Olympic gold medal

Language and culture

change

A gold medal is often the given to the first-place winner in a race or other sports.

The most important international currencies of the 19th century used the gold standard.

Something that is in some way good may be given gold status.

Gold can mean that something or someone is very good or has done very well.

Safety

change

Metallic gold is non-toxic, which is unusual for a heavy metal. Soluble gold compounds, however, are toxic to the liver and kidneys. Gold is non-flammable, even in a pure oxygen environment or when finely powdered. It does not react with most household or laboratory chemicals. Gold is commonly processed with cyanide, which is highly toxic. Most of the cyanide is destroyed in the production process, so it is not present in the final product, but it can be a hazard to workers in a gold processing plant. Since gold conducts electricity, gold jewelry should never be worn when working with electricity.

Mining

change

In 2022, China mined [10 or] "10.6 percent [330 tons] of global share"; Russia and Australia (each) mined 320 tons of gold.[3]

change

References

change
  1. "Relativity in Chemistry". Math.ucr.edu. Retrieved 2009-04-05.
  2. Schmidbaur, Hubert; Cronje, Stephanie; Djordjevic, Bratislav; Schuster, Oliver (2005). "Understanding gold chemistry through relativity". Chemical Physics. 311 (1–2): 151–161. Bibcode:2005CP....311..151S. doi:10.1016/j.chemphys.2004.09.023. ISSN 0301-0104.
  3. https://www.kyivpost.com/post/43264. Retrieved 2024-12-09
  1. Measured by wire diameter, not by weight

Other websites

change