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This meaning carried over into systems administration. In this context, a golden image is an intentionally configured snapshot of a system, (server, virtual desktop environment, or even a disk drive) which can be used to deploy new instances. Because this golden image (or sometimes gold image) is used in network virtualization to create new systems, it is also called a master image or clone image. Another popular term is a baseline image, which can be an illustrative term to frame why golden images are so useful: they create a consistent, reliable baseline for system configuration, which can make it easier to maintain those systems across their life cycle.
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The concept of golden images starts with virtual machines, which themselves are specially configured and launched from templates. With virtual environments, golden images offer two key benefits: convenience and consistency. Using a predefined template image allows administrators to deploy systems consistently with clear and known configuration.
Unlike in media production, IT systems are never "done". Good IT practice requires maintaining the entire life cycle of systems, and with golden images, that requires maintaining both the image catalog and the systems deployed using the templates.
To create a golden image, an administrator first sets up the computing environment with the exact specifications needed and then saves the disk image as a pattern for future copies. Using golden images can save time and ensure consistency by eliminating the need for repetitive configuration changes and performance tweaks.
You will have the option to upgrade to the Excelsior plate as part of your registration renewal if you choose. 1 If you want to upgrade and keep your current plate number, you can request the new plates with your current plate number for an additional $20 fee. 2 See more information about how to renew your registration.
The SHINE Photo Award has 4 different categories in which you can submit your images: Newborn, Maternity, Family & Child and Birth photography. There is no limit to the number of individual images that can be submitted in each category. All photographers who have been awarded are allowed to place the SHINE Photo Award emblem on their winning image. The best of each category will be awarded with the SHINE Photo Award gold, silver and bronze emblem.
The winners of the monthly competition will receive our SHINE Photo Award winner emblem to show on their awarded image. The winner emblems are divided into gold, silver and bronze emblem.
Gold is a chemical element; it has symbol Au (from Latin aurum 'gold') and atomic number 79. In pure form, it is a bright, slightly orange-yellow, dense, soft, malleable, and ductile metal. Chemically, gold is a transition metal, a group 11 element, and one of the noble metals. It is one of the least reactive chemical elements and is solid under standard conditions.
Gold often occurs in free elemental (native state), as nuggets or grains, in rocks, veins, and alluvial deposits. It occurs in a solid solution series with the native element silver (as in electrum), naturally alloyed with other metals like copper and palladium, and mineral inclusions such as within pyrite. Less commonly, it occurs in minerals as gold compounds, often with tellurium (gold tellurides).
Gold is resistant to most acids, though it does dissolve in aqua regia (a mixture of nitric acid and hydrochloric acid), forming a soluble tetrachloroaurate anion. Gold is insoluble in nitric acid alone, which dissolves silver and base metals, a property long used to refine gold and confirm the presence of gold in metallic substances, giving rise to the term 'acid test'. Gold dissolves in alkaline solutions of cyanide, which are used in mining and electroplating. Gold also dissolves in mercury, forming amalgam alloys, and as the gold acts simply as a solute, this is not a chemical reaction.
A relatively rare element,[7][8] gold is a precious metal that has been used for coinage, jewelry, and other arts throughout recorded history. In the past, a gold standard was often implemented as a monetary policy. Gold coins ceased to be minted as a circulating currency in the 1930s, and the world gold standard was abandoned for a fiat currency system after the Nixon shock measures of 1971.
In 2020, the world's largest gold producer was China, followed by Russia and Australia.[9] A total of around 201,296 tonnes of gold exists above ground, as of 2020[update].[10] This is equal to a cube with each side measuring roughly 21.7 meters (71 ft). The world's consumption of new gold produced is about 50% in jewelry, 40% in investments, and 10% in industry.[11] 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, the production of colored glass, gold leafing, and tooth restoration. Certain gold salts are still used as anti-inflammatories in medicine.
Gold is the most malleable of all metals. It can be drawn into a wire of single-atom width, and then stretched considerably before it breaks.[12] Such nanowires distort via the formation, reorientation, and migration of dislocations and crystal twins without noticeable hardening.[13] A single gram of gold can be beaten into a sheet of 1 square metre (11 sq ft), and an avoirdupois ounce into 300 square feet (28 m2). Gold leaf can be beaten thin enough to become semi-transparent. The transmitted light appears greenish-blue because gold strongly reflects yellow and red.[14] Such semi-transparent sheets also strongly reflect infrared light, making them useful as infrared (radiant heat) shields in the visors of heat-resistant suits and in sun visors for spacesuits.[15] Gold is a good conductor of heat and electricity.
Gold has a density of 19.3 g/cm3, almost identical to that of tungsten at 19.25 g/cm3; as such, tungsten has been used in the counterfeiting of gold bars, such as by plating a tungsten bar with gold.[16][17][18][19] By comparison, the density of lead is 11.34 g/cm3, and that of the densest element, osmium, is 22.5880.015 g/cm3.[20]
Whereas most metals are gray or silvery white, gold is slightly reddish-yellow.[21] This color is determined by the frequency of plasma oscillations among the metal's valence electrons, in the ultraviolet range for most metals but in the visible range for gold due to relativistic effects affecting the orbitals around gold atoms.[22][23] Similar effects impart a golden hue to metallic caesium.
Common colored gold alloys include the distinctive eighteen-karat rose gold created by the addition of copper. Alloys containing palladium or nickel are also important in commercial jewelry as these produce white gold alloys. Fourteen-karat gold-copper alloy is nearly identical in color to certain bronze alloys, and both may be used to produce police and other badges. Fourteen- and eighteen-karat gold alloys with silver alone appear greenish-yellow and are referred to as green gold. Blue gold can be made by alloying with iron, and purple gold can be made by alloying with aluminium. Less commonly, addition of manganese, indium, and other elements can produce more unusual colors of gold for various applications.[24]
The possible production of gold from a more common element, such as lead, has long been a subject of human inquiry, and the ancient and medieval discipline of alchemy often focused on it; however, the transmutation of the chemical elements did not become possible until the understanding of nuclear physics in the 20th century. The first synthesis of gold was conducted by Japanese physicist Hantaro Nagaoka, who synthesized gold from mercury in 1924 by neutron bombardment.[28] An American team, working without knowledge of Nagaoka's prior study, conducted the same experiment in 1941, achieving the same result and showing that the isotopes of gold produced by it were all radioactive.[29] In 1980, Glenn Seaborg transmuted several thousand atoms of bismuth into gold at the Lawrence Berkeley Laboratory.[30][31] Gold can be manufactured in a nuclear reactor, but doing so is highly impractical and would cost far more than the value of the gold that is produced.[32]
Au(III) (referred to as auric) is a common oxidation state, and is illustrated by gold(III) chloride, Au2Cl6. The gold atom centers in Au(III) complexes, like other d8 compounds, are typically square planar, with chemical bonds that have both covalent and ionic character. Gold(I,III) chloride is also known, an example of a mixed-valence complex.
Common oxidation states of gold include +1 (gold(I) or aurous compounds) and +3 (gold(III) or auric compounds). Gold ions in solution are readily reduced and precipitated as metal by adding any other metal as the reducing agent. The added metal is oxidized and dissolves, allowing the gold to be displaced from solution and be recovered as a solid precipitate.
Traditionally, gold in the universe is thought to have formed by the r-process (rapid neutron capture) in supernova nucleosynthesis,[54] but more recently it has been suggested that gold and other elements heavier than iron may also be produced in quantity by the r-process in the collision of neutron stars.[55] In both cases, satellite spectrometers at first only indirectly detected the resulting gold.[56] However, in August 2017, the spectroscopic signatures of heavy elements, including gold, were observed by electromagnetic observatories in the GW170817 neutron star merger event, after gravitational wave detectors confirmed the event as a neutron star merger.[57] Current astrophysical models suggest that this single neutron star merger event generated between 3 and 13 Earth masses of gold. This amount, along with estimations of the rate of occurrence of these neutron star merger events, suggests that such mergers may produce enough gold to account for most of the abundance of this element in the universe.[58] be457b7860
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