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Dictionary.com Unabridged (v 1.1)Cite This Source
Sil·ver    Audio Help   [sil-ver] Pronunciation Key
–noun
Ab·ba Hillel    Audio Help   [ab-uh] Pronunciation Key, 1893–1963, U.S. rabbi, born in Lithuania.
Dictionary.com Unabridged (v 1.1)
Based on the Random House Unabridged Dictionary, © Random House, Inc. 2006.
Dictionary.com Unabridged (v 1.1)Cite This Source
sil·ver    Audio Help   [sil-ver] Pronunciation Key
–noun
1.Chemistry. a white, ductile metallic element, used for making mirrors, coins, ornaments, table utensils, photographic chemicals, conductors, etc. Symbol: Ag; atomic weight: 107.870; atomic number: 47; specific gravity: 10.5 at 20°C.
2.coin made of this metal; specie; money: a handful of silver.
3.this metal as a commodity or considered as a currency standard.
4.table articles made of or plated with silver, including flatware and hollowware.
5.any flatware: The kitchen silver is of stainless steel.
6.something resembling this metal in color, luster, etc.
7.a lustrous grayish white or whitish gray, or the color of the metal: the silver of the leaves.
8.any of the silver halides used for photographic purposes, as silver bromide, silver chloride, or silver iodide.
9.silver medal.
–adjective
10.consisting of, made of, or plated with silver.
11.of or pertaining to silver.
12.producing or yielding silver.
13.resembling silver; silvery: the silver moon.
14.clear and soft: silver sounds.
15.eloquent; persuasive: a silver tongue.
16.urging the use of silver as a currency standard: silver economists.
17.indicating the twenty-fifth event of a series, as a wedding anniversary.
18.having the color silver: a silver dress.
–verb (used with object)
19.to coat with silver or some silverlike substance.
20.to give a silvery color to.
–verb (used without object)
21.to become a silvery color.
[Origin: bef. 900; (n. and adj.) ME silver(e), selver(e), selfer, OE siolfor (orig. n.); c. G Silber, ON silfr, Goth silubr, akin to Serbo-Croatian srèbro, Russ serebró, Lith sidãbras; (v.) late ME silveren, deriv. of the n.]

—Related forms
sil·ver·er, noun
sil·ver·ish, adjective
sil·ver·less, adjective
sil·ver·like, adjective
sil·ver·ness, noun
Dictionary.com Unabridged (v 1.1)
Based on the Random House Unabridged Dictionary, © Random House, Inc. 2006.

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Thesaurus Entries
  Synonym Collection v1.1Cite This Source
Main Entry:  silver
Part of Speech:  adjective
Synonyms:  argent, argentiferous, argentine, argentous, argentum, bullion, coin, color, element, gray, jewelry, lustrous, money, pale, plate, precious, silvery, sterling, tableware
Source:  Synonym Collection v1.1
Copyright © 2008 by Lexico Publishing Group, LLC.
  Synonym Collection v1.1Cite This Source
Main Entry:  silver
Part of Speech:  noun
Synonyms:  filigree, luna, purl, sterling, tinsel
Source:  Synonym Collection v1.1
Copyright © 2008 by Lexico Publishing Group, LLC.
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Encyclopedia Articles (1,850 more entries. View all »)
Columbia Electronic EncyclopediaCite This Source


silver, metallic chemical element; symbol Ag [Lat. argentum]; at. no. 47; at. wt. 107.8682; m.p. 961.93°C;; b.p. 2,212°C;; sp. gr. 10.5 at 20°C;; valence +1 or +2. Pure silver is nearly white, lustrous, soft, very ductile, malleable, and an excellent conductor of heat and electricity. In many of its properties it resembles copper and gold, the elements above and below it in Group 11 of the periodic table. It is not a chemically active metal, being considerably below hydrogen in the electromotive series (see metal). It is, however, attacked by nitric acid (forming the nitrate) and by hot concentrated sulfuric acid. Silver is almost always monovalent in its compounds, but an oxide, a fluoride, and a sulfide of divalent silver are known. It does not oxidize in air but reacts with the hydrogen sulfide present in the air, forming silver sulfide (tarnish). Silver nitrate is the most important compound. Silver chloride, bromide, and iodide are used in still photography because of their sensitivity to light. Solutions of certain protein complexes containing silver are used as antiseptics. A mirror can be made by coating glass with metallic silver derived from the reaction of a solution of a silver ammonia complex with an organic reducing agent such as formaldehyde. Although silver can be found uncombined in nature, most silver used today is obtained from its ores. Among these the most important are argentite or silver glance (silver sulfide), which is found associated with other metal sulfides, e.g., galena; horn silver or cerargyrite (silver chloride); two ores composed of silver and antimony (in different proportions) called pyrargyrite (or ruby silver ore) and stephanite; and another ore composed of silver and arsenic sulfides called proustite. Mexico, the United States (Idaho, Montana, Arizona, Colorado, Utah, Nevada, California, New Mexico, and Texas), the former USSR, Peru, Australia, and Canada are the leading producers. The metal is prepared in various ways depending upon the nature of its occurrence; the greatest quantity is obtained in connection with the refining of lead and copper. It is separated from lead by the Parkes process, which is based upon the fact that silver is soluble in molten zinc whereas lead is not. The cyanide process has largely replaced an amalgam process in which silver is dissolved in mercury. Some of the silver produced today is used, as in the past, in making coins (see coin; money; bimetallism). Large quantities are used for silver utensils and jewelry, and in plating tableware electrolytically from a solution of sodium silver cyanide. Alloys of silver with copper, in which the copper adds hardness, are important. Coin silver is an alloy consisting of 90% silver and 10% copper. Sterling silver contains 92.5% silver and 7.5% copper. Silver alloys are used in dental amalgams and for electrical contacts. Silver was one of the first metals to be used by humans (see silverwork). 
The Columbia Electronic Encyclopedia Copyright © 2004, Columbia University Press.
Licensed from Columbia University Press


Chemical Elements: From Carbon to KryptonCite This Source





Overview


Chemists classify silver as a transition metal. The transition metals are elements between Groups 2 and 13 in the periodic table. The periodic table is a chart that shows how chemical elements are related to one another. More than 40 elements, all metals, fall within the transition metal range.


Silver is also classified as a precious metal. Precious metals are not very abundant in the Earth's crust. They are attractive and not very chemically active. These properties make the metal desirable in jewelry, coins, and art. About a half dozen metals near silver in the periodic table are also precious metals. These include gold, platinum, palladium, rhodium, and indium.


Silver has been used by humans for thousands of years. It often occurs as a free element in nature. It can also be extracted from its ores fairly easy. These properties made it easy for early humans to learn about silver.




Today, the most important use of silver is in photography. Three silver compounds used in photography are silver chloride (AgCl), silver bromide (AgBr), and silver iodide (AgI). Silver is also used to make electrical equipment, mirrors, medical and



dental equipment, and jewelry. It is often used to make alloys with gold for some of these applications. An alloy is made by melting and mixing two or more metals. The mixture has properties different from those of the individual metals.
Discovery and naming


Silver was probably first discovered after gold and copper. Gold and copper often occur as free elements in nature. They have very distinctive colors, which made it easy for early humans to find these metals.


Silver also occurs as a free metal, but much less often than gold or copper. At some point, humans learned to extract silver from its ores. But that discovery must have occurred very early on in human history. Archaeologists (scientists who study ancient civilizations) have found silver objects dating to about 3400 B.C. in Egypt. Drawings on some of the oldest pyramids show men working with metal, probably extracting silver from its ores.


Other early cultures also used silver. Written records from India describe the metal as far back as about 900 B.C. Silver was in common use in the Americas when Europeans first arrived.


The Bible contains many references to silver. The metal was used as a way of paying for objects. It also decorated temples, palaces, and other important buildings. The Bible also contains sections that describe the manufacture of silver.


The word silver goes back to at least the 12th century, A.D. It seems to have come from an old English word used to describe the metal, seolfor. The symbol for silver (Ag), however, comes from its Latin name, argentum. The name may have originated from the Greek word argos, meaning "shiny" or "white."
Physical properties


Silver is a soft, white metal with a shiny surface. It is the most ductile and most malleable metal. Ductile means capable of being drawn into thin wires. Malleable means capable of being hammered into thin sheets. Silver has two other unique properties. It conducts heat and electricity better than any other element. It also reflects light very well.
 
 
 
Silver's melting point is 961.5°C (1,762°F) and its boiling point is about 2,000 to 2,200°C (3,600 to 4,000°F). Its density is 10.49 grams per cubic centimeter.
Chemical properties


Silver is a very inactive metal. It does not react with oxygen in the air under normal circumstances. It does react slowly with sulfur compounds in the air, however. The product of this reaction is silver sulfide (Ag2S), a black compound. The tarnish that develops over time on silverware and other silver-plated objects is silver sulfide.





Silver does not react readily with water, acids, or many other compounds. It does not burn except as silver powder.
Occurrence in nature


Silver is a fairly rare element in the Earth's crust. Its abundance is estimated to be about 0.1 parts per million. It is also found in seawater. Its abundance there is thought to be about 0.01 parts per million.


Silver usually occurs in association with other metal ores, especially those of lead. The most common silver ores are argentite (Ag2S); cerargyrite, or "horn silver" (AgCl); proustite (3Ag2S ○ As2S3); and pyrargyrite (Ag2S ○ Sb2S3).


The largest producers of silver in the world are Mexico, Peru, the United States, Canada, Poland, Chile, and Australia. In the United States, silver is produced at about 76 mines in 16 states. The largest state producers are Nevada, Idaho, and Arizona. These three states account for about two-thirds of all the silver mined in the United States.
Isotopes


Two naturally occurring isotopes of silver exist: silver-107 and silver-109. Isotopes are two or more forms of an element. Isotopes differ from each other according to their mass number. The number written to the right of the element's name is the mass number. The mass number represents the number of protons plus neutrons in the nucleus of an atom of the element. The number of protons determines the element, but the number of neutrons in the atom of any one element can vary. Each variation is an isotope.


About 16 radioactive isotopes of silver are known also. A radioactive isotope is one that breaks apart and gives off some form of radiation. Radioactive isotopes are produced when very small particles are fired at atoms. These particles stick in the atoms and make them radioactive.


None of the radioactive isotopes of silver has any commercial use.
Extraction


Ores rich in silver disappeared long ago due to mining. Today, silver usually comes from ores that contain very small amounts of the metal. These amounts can range from about a few thousandths of an ounce per ton of ore to 100 ounces per ton. The metal is most commonly produced as a by-product of mining for other metals. After the primary metal has been removed, the waste often contains small amounts of silver. These wastes are treated with chemicals that react with the silver. The silver can then be extracted by electrolysis. Electrolysis is a process by which a compound is broken down by passing an electric current through it.
Uses and compounds


About 10 percent of silver produced in the United States is used in coins, jewelry, and artwork. One way silver is used is in alloys with gold. Gold is highly desired for coins and jewelry. But it is much too soft to use in its pure form. Adding silver to gold, however, makes an alloy that is much stronger and longer lasting. Most "gold" objects today are actually alloys, often alloys of silver and gold.


Other objects use much more of the silver metal, however. About half of the silver produced in the United States goes



into photographic film. Pure silver is first converted to a compound: silver chloride, silver bromide, or silver iodide. The compound is then used to make photographic film (see accompanying sidebar).


The second most important use of silver is in electrical and electronic equipment. About 20 percent of all silver produced is used for this purpose. Silver is actually the most desirable of all metals for electrical equipment. Electricity flows through silver more easily than it does through any other metal. In most cases, however, metals such as copper or aluminum are used because they are less expensive.




But sometimes, an electrical device is so important that cost is not a consideration. For example, electrical devices on spacecraft, satellites, and aircraft must work reliably and efficiently.



The cost of using silver is not as important as it would be in a home appliance. Thus, silver is used for electrical wiring and connections in these devices.


In some cases, silver plating solves a practical problem where the more expensive silver would work best. Silver plating is the process by which a very thin layer of silver metal is laid down on top of another metal. Silver is so malleable that it can be hammered into sheets thinner than a sheet of paper. Silver this thin can be applied to another metal. Then the other metal takes on some of the properties of the silver coating. For example, it may work very well as a reflector because silver is such a good reflector. It does not matter if the second metal is a good reflector or not. The silver coating serves as the reflecting surface in the combination.


About a fifth of all silver produced is used in a variety of other products. For example, it is often used in dental amalgams. An amalgam is an alloy in which mercury is one of the metals used. Silver amalgams work well for filling decayed teeth. They are non-toxic and do not break down or react with other materials very readily. Silver is also used in specialized batteries, including silver-zinc and silver-cadmium batteries.
Health effects


Silver is a mildly toxic element. When the metal or its compounds get on the skin, they can cause a bluish appearance known as argyria or argyrosis. Breathing in silver dust can have serious long-term health effects also. The highest recommended exposure for silver dust is 0.1 milligrams per cubic meter of air.


Chemical Elements: From Carbon to Krypton
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