How Do You Spell OBRADOVICITE?

Pronunciation: [ˌɒbɹɐdˈɒvɪsˌa͡ɪt] (IPA)

Obradovicite is a mineral named after the Serbian mineralogist Vladan Obradovic. The spelling of this word can be explained using IPA phonetic transcription. It is pronounced as /oʊˌbrɑːdoʊˈvɪtsaɪt/. The "o" is pronounced as "oh," the "a" as "ah," the "v" as "v," and so on. This mineral was discovered in Serbia and is a rare earth carbonate mineral. Its chemical formula is (Sr, Ca, Na)2(CO3)2F and it is often used in studies of both carbonate minerals and rare earth minerals.

OBRADOVICITE Meaning and Definition

  1. Obradovicite is a rare mineral that belongs to the pyroxene group, specifically to the uralite sub-group. It is named after the Serbian mineralogist Vojislav Obradović. The mineral is classified as an inosilicate, which means it consists of chains of silicate tetrahedra connected through common oxygen atoms.

    Obradovicite typically forms as elongated prismatic crystals or as aggregates of fibers, ranging in color from pale green to brown. It has a vitreous to pearly luster and displays perfect cleavage. The hardness of obradovicite falls around 6 on the Mohs scale, indicating moderate resistance to scratching. Its density varies around 3.2 grams per cubic centimeter.

    This mineral is commonly found in contact metamorphic environments, occurring in rocks that have undergone thermal alteration due to proximity to an igneous intrusion. Obradovicite is often associated with other rare minerals such as diopside, vesuvianite, grossular, and titanite.

    Although obradovicite is not of significant commercial value, it is highly regarded among mineral collectors due to its rarity and appealing crystal habit. Its distinct greenish color and fibrous or prismatic structure make it a desirable addition to mineral collections.

    In summary, obradovicite is a rare silicate mineral that forms elongated prismatic crystals or fiber-like aggregates. It is commonly found in contact metamorphic environments and is appreciated among collectors for its distinct color and crystal habit.