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Smithsonite

Mineral of zinc carbonate

Summary

Mineral of zinc carbonate

FieldValue
nameSmithsonite
categoryCarbonate mineral
imageSmithsonite-Willemite-cktsu-23a.jpg
imagesize260px
formulaZnCO3
IMAsymbolSmt
strunz5.AB.05
systemTrigonal
classHexagonal scalenohedral (m)
H-M symbol: ( 2/m)
symmetryRc
unit cella = 4.6526(7)
c = 15.0257(22) [Å]; Z = 6
colorWhite, grey, yellow, green to apple-green, blue, pink, purple, bluish grey, and brown
habitUncommon as crystals, typically botryoidal, reniform, spherulitic; stalactitic, earthy, compact massive
twinningNone observed
cleavagePerfect on [1011]
fractureUneven, sub-conchoidal
tenacityBrittle
mohs4.5
lusterVitreous, may be pearly
refractivenω = 1.842 – 1.850 nε = 1.619 – 1.623
opticalpropUniaxial (−)
birefringenceδ = 0.223 – 0.227
fluorescenceMay fluoresce pale green or pale blue under UV
streakWhite
gravity4.4–4.5
diaphaneityTranslucent
references

H-M symbol: ( 2/m) c = 15.0257(22) [Å]; Z = 6 Smithsonite, also known as zinc spar, is the mineral form of zinc carbonate (ZnCO3). Historically, smithsonite was identified with hemimorphite before it was realized that they were two different minerals. The two minerals are very similar in appearance and the term calamine has been used for both, leading to some confusion. The distinct mineral smithsonite was named in 1832 by François Sulpice Beudant in honor of English scientist James Smithson (c. 1765–1829), who first identified the mineral in 1802.

Smithsonite is a variably colored trigonal mineral which only rarely is found in well formed crystals. The typical habit is as earthy botryoidal masses. It has a Mohs hardness of 4.5 and a specific gravity of 4.4 to 4.5.

Smithsonite occurs as a secondary mineral in the weathering or oxidation zone of zinc-bearing ore deposits. It sometimes occurs as replacement bodies in carbonate rocks and as such may constitute zinc ore. It commonly occurs in association with hemimorphite, willemite, hydrozincite, cerussite, malachite, azurite, aurichalcite and anglesite. It forms two limited solid solution series, with substitution of manganese leading to rhodochrosite, and with iron, leading to siderite. A bright yellow variety is sometimes called "turkey fat ore". The cause of the yellow colour is due to the presence of greenockite inclusions within the smithsonite crystals.

References

Bibliography

  • Tom Hughes, Suzanne Liebetrau, and Gloria Staebler, eds. (2010). Smithsonite: Think Zinc! Denver, CO: Lithographie .
  • Ewing, Heather (2007). The Lost World of James Smithson: Science, Revolution, and the Birth of the Smithsonian. London and New York: Bloomsbury

References

  1. Warr, L.N.. (2021). "IMA–CNMNC approved mineral symbols". Mineralogical Magazine.
  2. [http://www.mindat.org/min-3688.html Smithsonite: Smithsonite mineral information and data from Mindat]
  3. [http://www.webmineral.com/data/Smithsonite.shtml Smithsonite mineral data from Webmineral]
  4. (2005). "Smithsonite". Mineral Data Publishing.
  5. "Smithsonite at the National Museum of Natural History". Smithsonian Institution.
Wikipedia Source

This article was imported from Wikipedia and is available under the Creative Commons Attribution-ShareAlike 4.0 License. Content has been adapted to SurfDoc format. Original contributors can be found on the article history page.

carbonate-minerals zinc-minerals calcite-group trigonal-minerals minerals-in-space-group-167 minerals-described-in-1802
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