Similarities between Galaxite and List of minerals
Galaxite and List of minerals have 12 things in common (in Unionpedia): Alabandite, Alleghanyite, Aluminium, Jacobsite, Kutnohorite, Magnetite, Manganosite, Mineral, Rhodonite, Sonolite, Spessartine, Tephroite.
Alabandite
Alabandite or alabandine is a rarely occurring manganese sulfide mineral.
Alabandite and Galaxite · Alabandite and List of minerals ·
Alleghanyite
Alleghanyite is a moderately rare humite mineral with formula Mn5(SiO4)2(OH)2, belonging to the nesosilicates class.
Alleghanyite and Galaxite · Alleghanyite and List of minerals ·
Aluminium
Aluminium or aluminum is a chemical element with symbol Al and atomic number 13.
Aluminium and Galaxite · Aluminium and List of minerals ·
Jacobsite
Jacobsite is a manganese iron oxide mineral.
Galaxite and Jacobsite · Jacobsite and List of minerals ·
Kutnohorite
Kutnohorite is a rare calcium manganese carbonate mineral with magnesium and iron that is a member of the dolomite group.
Galaxite and Kutnohorite · Kutnohorite and List of minerals ·
Magnetite
Magnetite is a rock mineral and one of the main iron ores, with the chemical formula Fe3O4.
Galaxite and Magnetite · List of minerals and Magnetite ·
Manganosite
Manganosite is a rare mineral composed of manganese(II) oxide MnO.
Galaxite and Manganosite · List of minerals and Manganosite ·
Mineral
A mineral is a naturally occurring chemical compound, usually of crystalline form and not produced by life processes.
Galaxite and Mineral · List of minerals and Mineral ·
Rhodonite
Rhodonite is a manganese inosilicate, (Mn, Fe, Mg, Ca)SiO3 and member of the pyroxenoid group of minerals, crystallizing in the triclinic system.
Galaxite and Rhodonite · List of minerals and Rhodonite ·
Sonolite
Sonolite is a mineral with formula Mn9(SiO4)4(OH,F)2.
Galaxite and Sonolite · List of minerals and Sonolite ·
Spessartine
Spessartine, sometimes mistakenly referred to as spessartite, is a nesosilicate, manganese aluminium garnet species, Mn2+3Al2(SiO4)3.Gemological Institute of America, GIA Gem Reference Guide 1995, The mineral spessartine should not be confused with a type of igneous rock (a lamprophyre) called spessartite. Spessartine's name is a derivative of Spessart in Bavaria, Germany, the type locality of the mineral. It occurs most often in granite pegmatite and allied rock types and in certain low-grade metamorphic phyllites. Sources include Australia, Myanmar, India, Afghanistan, Israel, Madagascar, Tanzania and the United States. Spessartine of an orange-yellow has been called Mandarin garnet and is found in Madagascar. Violet-red spessartines are found in rhyolites in Colorado and Maine. In Madagascar, spessartines are exploited either in their bedrock or in alluvium. The orange garnets result from sodium-rich pegmatites. Spessartines are found in bedrock in the highlands in the Sahatany valley. Those in alluvium are generally found in southern Madagascar or in the Maevatanana region. Spessartine forms a solid solution series with the garnet species almandine. Well-formed crystals from this series, varying in color from very dark-red to bright yellow-orange, were found in Latinka, Rhodope Mountains, Kardzhali Province, Bulgaria. Spessartine, like the other garnets, always occurs as a blend with other species. Gems with high spessartine content tend toward a light orange hue, while almandine prevalence induces red or brownish hues.
Galaxite and Spessartine · List of minerals and Spessartine ·
Tephroite
Tephroite is the manganese endmember of the olivine group of nesosilicate minerals with the formula Mn2SiO4.
The list above answers the following questions
- What Galaxite and List of minerals have in common
- What are the similarities between Galaxite and List of minerals
Galaxite and List of minerals Comparison
Galaxite has 32 relations, while List of minerals has 1465. As they have in common 12, the Jaccard index is 0.80% = 12 / (32 + 1465).
References
This article shows the relationship between Galaxite and List of minerals. To access each article from which the information was extracted, please visit: