Minerals

1. Minerals

3. Review: Rocks are made of minerals, minerals are made of elements, what are elements made of?

4. Minerals have crystalline structure • Repeating patterns of atoms give minerals their crystal form

5. Minerals • Naturally occurring • Solid substance • Orderly and repetitive crystalline structure • Definite chemical composition • Generally considered inorganic (shells are minerals; sugar is not)

6. How Minerals Form • Everywhere, different conditions • Deep in crust or mantle (silicates) • Warm, shallow seas (limestone) • At or near surface from weathering (clay) • In crevices

7. Processes that Form Minerals • Crystallization from magma (changes in pressure and temperature within the magma) • Precipitation • Changes in pressure and temperature (forces working at different depths) • Formation from hydrothermal solutions

8. How They Form • As magma cools, minerals from at different temperatures (some at hottest temp, some at coolest temp) • Water contains dissolved substances; as H2O evaporates, minerals can form. Changes in T can cause minerals to precipitate out (limestone and halite) • Mica forms from changes inpressure (recrystallize while still solid) and temperature (destabilizes mineral) • Hot water and dissolved substances (hydrothermal solution) come in contact with minerals, chemical reactions create new minerals (quartz and pyrite); hot springs, hydrothermal vents, and volcanoes (sulfur) • Bacteria and rock interactions – sulfur (anaerobic bacteria and sulfate, ex gypsum); gold?; banded iron? Bacteria used to extract ores

9. Properties of Minerals • Color – obvious, but not always reliable because of impurities (different colors in quartz) • Streak – color in powdered form • Luster – how light reflects from surface • Crystal Form – visible expression of internal arrangement of atoms • Hardness – resistance to being scratched • Cleavage – tendency to cleave or break along flat, even surface (broken pieces will retain geometry) • Fracture – uneven breakage of mineral (no cleavage); pieces show no internal geometry • Density – ratio of mass to volume • Specific gravity – ratio of its mass to an equal volume of water

10. Special Properties • Magnetism – (magnetite) • Double refraction – (calcite) • Fizzing in hydrochloric acid – calcite, dolomite • Feel – greasy? (talc) • Smell – (sulfur) • Taste – (salty-halite)

11. Crystalline Form Perfect: if “space” for a crystal to grow. Limited space, little growth, but still internal crystalline structure

12. Rock-Forming minerals • Eight minerals comprise most of the materials in Earth’s crust. About a dozen are most common (out of thousands) • Minerals are divided into two groups based on composition • Silicates – most common on Earth • Non-silicates

13. Silicates • The elements silicon and oxygen make up 75% of earth’s continental crust • Most common mineral group based on silicon-oxygen tetrahedron - SiO4 • Examples: Feldspar (most common mineral); mica

15. Non-silicates • Make up only 25% of continental crust • Many are economically important ($$$) • Subdivided into: Carbonates (-CO3), iron oxides (-O), sulfides (-S) and sulfates (-SO3), halides (salt), and native element minerals (C, S, Au)

16. Carbonates • Second most common mineral • carbon and oxygen and one or more metallic elements e.g. Calcium, as in calcite (CaCO3. Dolomite contains magnesium and calcium). • Both “fizz” with HCl acid (CO2 forms from reaction causing the “soda” like “fizz”) • Limestone and marble made of carbonate minerals

17. Carbonate (Limestone, dolomite) White Cliffs of Dover (“chalk” from Cretaceous) Calcite: Carbonate

18. Oxides, Sulfides,Sulfates • Economically important ex: lead ore, iron ore • Oxide=Metal+Oxygen ex: hematite, magnetite • Sulfate= metal, oxygen + sulfur ex: gypsum • Sulfide=metal+sulfur ex: pyrite, galena

19. Other non-silicates Halides ex. Salt Native elements ex. Gold, silver, copper, diamond, graphite, platinum, sulfur