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- Q419260 subject Q7318041.
- Q419260 subject Q7318447.
- Q419260 subject Q7842718.
- Q419260 abstract "Witherite is a barium carbonate mineral, BaCO3, in the aragonite group. Witherite crystallizes in the orthorhombic system and virtually always is twinned. The mineral is colorless, milky-white, grey, pale-yellow, green, to pale-brown. The specific gravity is 4.3, which is high for a translucent mineral. It fluoresces light blue under both long- and short-wave UV light, and is phosphorescent under short-wave UV light.Witherite forms in low-temperature hydrothermal environments. It is commonly associated with fluorite, celestine, galena, barite, calcite, and aragonite. Witherite occurrences include: Cave-in-Rock, Illinois, USA; Pigeon Roost Mine, Glenwood, Arkansas, USA; Settlingstones Mine Northumberland; Alston Moor, Cumbria; Anglezarke, Lancashire and Burnhope, County Durham, England; Thunder Bay area, Ontario, Canada, Germany, and Poland (Tarnowskie Góry and Tajno at Suwałki Region).Witherite was named after William Withering (1741-1799) an English physician and naturalist who in 1784 published his research on the new mineral. He could show that barite and the new mineral were two different minerals.".
- Q419260 thumbnail Witherite-41069.jpg?width=300.
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- Q419260 name "Witherite".
- Q419260 type ChemicalSubstance.
- Q419260 type Mineral.
- Q419260 type ChemicalObject.
- Q419260 type Thing.
- Q419260 type Q7946.
- Q419260 comment "Witherite is a barium carbonate mineral, BaCO3, in the aragonite group. Witherite crystallizes in the orthorhombic system and virtually always is twinned. The mineral is colorless, milky-white, grey, pale-yellow, green, to pale-brown. The specific gravity is 4.3, which is high for a translucent mineral. It fluoresces light blue under both long- and short-wave UV light, and is phosphorescent under short-wave UV light.Witherite forms in low-temperature hydrothermal environments.".
- Q419260 label "Witherite".
- Q419260 depiction Witherite-41069.jpg.
- Q419260 name "Witherite".