Rock Identifier
Quartz in Host Rock (Silicon Dioxide (SiO2) in Rhyolite or Granite matrix) — igneous
igneous

Quartz in Host Rock

Silicon Dioxide (SiO2) in Rhyolite or Granite matrix

Hardness: 7 (Quartz) / 6-6.5 (Matrix); Color: Milky white to clear quartz in a grayish-pink/tan rocky matrix; Luster: Vitreous (glassy) for quartz, earthy for matrix; Structure: Crystalline quartz vein within a fine-grained igneous rock.

Hardness
7 (Quartz) / 6-6
Luster
Vitreous (glassy) for quartz, earthy for matrix
Identified More igneous

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Physical properties

Hardness: 7 (Quartz) / 6-6.5 (Matrix); Color: Milky white to clear quartz in a grayish-pink/tan rocky matrix; Luster: Vitreous (glassy) for quartz, earthy for matrix; Structure: Crystalline quartz vein within a fine-grained igneous rock.

Formation & geological history

Formed through the cooling of silica-rich magma or from hydrothermal fluids filling cracks (veins) in existing rock. These specimens can range from millions to over a billion years old depending on the regional geological history of the find-site.

Uses & applications

Quartz is used in glassmaking, electronics (oscillators), and as an abrasive. Specimens like this are primarily used for geological education or as low-level lapidary practice. High-grade quartz is used in jewelry.

Geological facts

Quartz is the second most abundant mineral in Earth's continental crust. This specific specimen shows a 'vein,' which represents the final stage of mineral crystallization in a cooling magma body where water-rich fluids deposit concentrated silica.

Field identification & locations

Identify in the field by checking the hardness (quartz will scratch glass) and looking for the distinct glassy luster of the white inclusion compared to the surrounding dull rock. Found globally in mountainous or volcanically active regions.

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