Schorl and Rose Quartz

ID	628
Mineral	Schorl Rose Quartz
Location	Bahia - Brazil
Fluorescence	LW-UV: close SW-UV: close
Mindat.org	View Schorl information at mindat.org View Rose Quartz information at mindat.org

Mindat data

ID	3578
Long ID	1:1:3578:7
Formula	`NaFe²⁺₃Al₆(Si₆O₁₈)(BO₃)₃(OH)₃(OH)`
IMA Status	APPROVED GRANDFATHERED
Description	The most common member of the Tourmaline Group. Elbaite-Schorl Series, Dravite-Schorl Series. Forms also a series with fluor-schorl, which occurs in F-rich environments.
Occurrence	In placers.
Other Occurrences	In granites and granitic pegmatites, high temperature hydrothermal veins, metamorphic rocks.
Discovery Year	1505
Diapheny	Translucent,Opaque
Cleavage	Very poor on {11_20}, {10_11}
Tenacity	brittle
Colour	Bluish-black to black, sometimes brownish-black, rarely greenish-black.
Hardness (min)	7.0
Hardness (max)	7.0
Luminescence	Nonfluorescent.
Lustre	Vitreous to oily, dull.
About the name	The early history of the mineral schorl shows that the name "Schorl" was in use prior to the year 1400 (AD) because a village known today as Zschorlau (in Saxony, Germany) was then named "Schorl" (or minor variants of this name). This village had a nearby tin mine where, in addition to cassiterite, a lot of black tourmaline was found. First mentioned by Ulrich Rülein von Calw 1505. The first relatively detailed description of schorl with the name "schürl" and its occurrence (various tin mines in the Saxony Ore Mountains) was written by Johannes Mathesius (1504-1565) in 1562 under the title "Sarepta oder Bergpostill". Up to about 1600, additional names used in the German language were "Schurel", "Schörle", and "Schurl". From the 18th century on, the name "Schörl" was mainly used in the German-speaking area. In English, the names "shorl" and "shirl" were used in the 18th century for schorl. In the 19th century the names "common schorl", "schörl", "schorl" and "iron tourmaline" were used in the Anglo-Saxon area (Ertl, 2006).
Streak	Greyish-white to bluish-white.
Crystal System	Trigonal
Cleavage Type	Poor/Indistinct
Fracture type	Irregular/Uneven,Sub-Conchoidal
Morphology	Prismatic to acicular.
Twinning	Rarely on {10_10} and {40_41}.
Publication Year	1524
key_elements	B
shortcode_ima	Srl

ID	3337
Long ID	1:1:3337:0
Formula	`SiO₂`
IMA Status	APPROVED GRANDFATHERED
Description	Quartz is one of the most common minerals found in the Earth's crust. If pure, quartz forms colourless, transparent and very hard crystals with a glass-like lustre. A significant component of many igneous, metamorphic and sedimentary rocks, this natura...
Other Occurrences	Most of them...
Industrial	Ore for silicon, glassmaking, frequency standards, optical instruments, silica source for concrete setting, filtering agents as sand, fracing sand used in oil production. A major component of sand. High purity quartz is used as an ore for creating sili
Diapheny	Transparent,Translucent
Cleavage	The rhombohedral cleavage r{10_11} is most often seen, there are at least six others reported.
Tenacity	brittle
Colour	Colorless, purple, rose, red, black, yellow, brown, green, blue, orange, etc.
Hardness (min)	7.0
Hardness (max)	7.0
Luminescence	Triboluminescent
Lustre	Vitreous
About the name	Quartz has been known and appreciated since pre-historic times. The most ancient name known is recorded by Theophrastus in about 300-325 BCE, κρύσταλλος or kristallos. The varietal names, rock crystal and Bergkristall (German), preserve the ancient usage. The root words κρύοσ signifying ice-cold and στέλλειυ to contract (or solidify) suggest the ancient belief that kristallos was permanently solidified ice. The earliest printed use of "querz" was anonymously published in 1505, but attributed to a physician in Freiberg, Germany, Ulrich Rülein von Kalbe (a.k.a. Rülein von Calw, 1527). Agricola used the spelling "quarzum" (Agricola, 1530) as well as "querze", but Agricola also referred to "crystallum", "silicum", "silex", and silice". Tomkeieff (1941) suggested an etymology for quartz: "The Saxon miners called large veins - Gänge, and the small cross veins or stringers - Querklüfte. The name ore (Erz, Ertz) was applied to the metallic minerals, the gangue or to the vein material as a whole. In the Erzgebirge, silver ore is frequently found in small cross veins composed of silica. It may be that this ore was called by the Saxon miners 'Querkluftertz' or the cross-vein-ore. Such a clumsy word as 'Querkluftertz' could easily be condensed to 'Querertz' and then to 'Quertz', and eventually become 'Quarz' in German, 'quarzum' in Latin and 'quartz' in English." Tomkeieff (1941, q.v.) noted that "quarz", in its various spellings, was not used by other noted contemporary authors. "Quarz" was used in later literature referring to the Saxony mining district, but seldom elsewhere. Gradually, there were more references to quartz: E. Brown in 1685 and Johan Gottschalk Wallerius in 1747. In 1669, Nicolaus Steno (Niels Steensen) obliquely formulated the concept of the constancy of interfacial angles in the caption of an illustration of quartz crystals. He referred to them as "cristallus" and "crystallus montium". Tomkeieff (1941) also noted that Erasmus Bartholinus (1669) used the various spellings for "crystal" to signify other species than quartz and that crystal could refer to other "angulata corpora" (bodies with angles): "In any case in the second half of the XVIIIth century quartz became established as a name of a particular mineral and the name crystal became a generic term synonymous with the old term 'corpus angulatum'."
Streak	White
Crystal System	Trigonal
Cleavage Type	Poor/Indistinct
Fracture type	Conchoidal
Twinning	Dauphiné law. [[1]] Brazil law. Japan law. Others for beta-quartz...
Thermal Behaviour	Transforms to beta-quartz at 573° C and 1 bar (100 kPa) pressure.
shortcode_ima	Qz

Price: € 100

Dimensions: Not registered

Weight: Not registered

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Notes:

Symbol	Element
Al	Aluminium
B	Boron
Fe	Iron
H	Hydrogen
Na	Sodium
O	Oxygen
Si	Silicium

Schorl and Rose Quartz

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