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Silver and Gold – Comparison – Properties

This article contains comparison of key thermal and atomic properties of silver and gold, two comparable chemical elements from the periodic table. It also contains basic descriptions and applications of both elements. Silver vs Gold.

silver and gold - comparison

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Silver and Gold – About Elements

Silver

Silver is a soft, white, lustrous transition metal, it exhibits the highest electrical conductivity, thermal conductivity, and reflectivity of any metal. The metal is found in the Earth’s crust in the pure, free elemental form (“native silver”), as an alloy with gold and other metals, and in minerals such as argentite and chlorargyrite. Most silver is produced as a byproduct of copper, gold, lead, and zinc refining.

Gold

Gold is a bright, slightly reddish yellow, dense, soft, malleable, and ductile metal. Gold is a transition metal and a group 11 element. It is one of the least reactive chemical elements and is solid under standard conditions. Gold is thought to have been produced in supernova nucleosynthesis, from the collision of neutron stars.

Silver in Periodic Table

Gold in Periodic Table

Source: www.luciteria.com

Silver and Gold – Applications

Silver

Silver has long been valued as a precious metal. Silver metal is used in many bullion coins, sometimes alongside gold. Silver has many important, far-reaching technological and electronic applications. It’s used in everything from cell phones, computers and semiconductors to automobiles, water-purification systems and—because it is the best conductor of heat of all elements—spacecraft solar radiation tiles. Silver is of the upmost importance in photography (where approximately 30% of the U.S. Industrial consumption goes into this application). The medical uses of silver include its use in wound dressings, creams, and as an antibiotic coating on medical devices. Wound dressings containing silver sulfadiazine or silver nanomaterials may be used on external infections.

Gold

Gold is used extensively in jewellery, either in its pure form or as an alloy. About 75% of all gold produced is used in the jewelry industry. Pure gold is too soft to stand up to the stresses applied to many jewelry items. Craftsmen learned that alloying gold with other metals such as copper, silver, and platinum would increase its durability. The term ‘carat’ indicates the amount of gold present in an alloy. 24-carat is pure gold, but it is very soft. 18- and 9-carat gold alloys are commonly used because they are more durable. Gold’s high malleability, ductility, resistance to corrosion and most other chemical reactions, and conductivity of electricity have led to its continued use in corrosion resistant electrical connectors in all types of computerized devices (its chief industrial use). Gold is also used in infrared shielding, colored-glass production, gold leafing, and tooth restoration. Only 10% of the world consumption of new gold produced goes to industry, but by far the most important industrial use for new gold is in fabrication of corrosion-free electrical connectors in computers and other electrical devices.

Silver and Gold – Comparison in Table

Element Silver Gold
Density 10.49  g/cm3 19.3 g/cm3
Ultimate Tensile Strength 110 MPa 220 MPa
Yield Strength 45 MPa 205 MPa
Young’s Modulus of Elasticity 83 GPa 79 GPa
Mohs Scale 3.25 2.75
Brinell Hardness 210 MPa 190 MPa
Vickers Hardness 251 MPa 215 MPa
Melting Point 961.78 °C 1064 °C
Boiling Point 2162 °C 2970 °C
Thermal Conductivity 430 W/mK 320 W/mK
Thermal Expansion Coefficient 18.9 µm/mK 14.2 µm/mK
Specific Heat 0.235 J/g K 0.128 J/g K
Heat of Fusion 11.3 kJ/mol 12.55 kJ/mol
Heat of Vaporization 250.58 kJ/mol 334.4 kJ/mol