1. Lecture 3 Minerals What are minerals? Basic chemistry: a quick reminder Physical properties of minerals Rock-forming minerals

2. Fig. 5.00 © 1998 Jeff Scovil

3. What are Minerals? Definition: naturally occurring, inorganic solid, with an orderly arrangement of atoms and a definitive chemical composition. examples of minerals: halite (salt), graphite (pencil), quartz (computer chips), malachite (coper wires) not minerals: synthetic diamonds, oil, coal, volcanic glass. importance: minerals are the building blocks of rocks, sediments, and soils; a rock can be loosely defined as any solid mass of one or more minerals.

4. Basic Chemistry: a quick reminder atomic number: number of protons in each atom atomic mass number: total number of neutrons and protons Isotopes: atoms of an element that contain same number of protons but different number of neutrons Ions: atoms gain or lose electron(s) to form ions lose electrons: cation (e.g., Na+) gain electrons: anion (e.g, Cl-) Chemical bonds ionic bond: electrons transfer completely from one atom to another covalent bond: atoms share electrons in their outer shells, no net grain or loss metallic bound: shared electrons between all atoms, free to flow. Van der Waals bond: weak residual electrostatic forces

5. Mineral structure an ordered internal arrangement of atoms in a mineral is known as the mineral structure or crystalline structure. Thus a mineral name, quartz, entails not only the composition SiO2 but also the arrangements of Si and O atoms.

6. In diamond, all carbon atoms are bounded by covalent bounds into a compact three-dimensional framework.

7. In graphite, carbon atoms are bounded between sheets by very weak electrical forces.

8. Physical properties of minerals: Each mineral has an orderly arrangement of atoms and a definite composition, which give it a unique set of physical properties. These properties form a basis for mineral identification. The physical properties of minerals include: crystal form, color, streak, luster, hardness, specific gravity, cleavage, fracture, magnetism, tenacity, diaphaneity, presence of striations, reaction to acid.

9. © Jay Schomer

10. W. W. Norton. Modified from Wicander and Monroe.

11. Smooth surfaces along broken cleavage: fluorite, halite, and calcite.

12. Rock-forming minerals Out of 4000 minerals being named, not more than a few dozen are abundant, rock-forming minerals. Only 8 elements make up the bulk of these minerals and represent 98% (by weight) of the continental crust. Most abundant elements in Earth's crust (weight percentage) Oxygen (O)46.6 Silicon (Si)27.7 Aluminum (Al)8.1 Iron (Fe)5.0 Calcium (Ca)3.6 Sodium (Na)2.8 Potassium (K)2.6 Magnesium (Mg)2.1 all others1.7

13. Rock-forming minerals silicates (-SiO 4 ) oxide sulfide carbonates (-CO 3 ) sulfates (-SO 4 )

14. The Silicates A silicate mineral contains the elements oxygen and silicon linked in a tetrahedron unit with four O atoms to one Si atom (SiO4 with a charge of -4). The silicates are most common mineral group. Silicon-oxygen tetrahedron:

15. To become neutral compounds, the silica tetrahedra can join with positively charged ions. Relatives size of the ions of the eight most common elements in the crust:

16. The silica tetrahedra may also link with themselves by sharing oxygen ions. The silicate group is subdivided by the way in which silica tetrahedra interact with each other.

17. Fig. 5.22abc W. W. Norton

19. Common silicate minerals Ferromagnesian (dark) silicates: containing ions of Fe and/or Mg, including olivine, pyroxenes, amphiboles, biotite. nonferromagnesian silicates: without Fe or Mg, but with Ca, Na, and K, light color, including feldspars, quartz, muscovite.

20. Feldspars : the most common mineral group, two cleavage planes at 90 degrees, smooth shiny faces. (Left) orthoclase feldspar: containing K ions, white to pink. (Right) plagioclase feldspar: containing Na/Ca ions, striations, white to black.

21. Quartz Quartz (SiO 2 ) is the second most abundant mineral after feldspars, has a variety of colors, hardness 7, conchoidal fracture, six- sided crystals, but no cleavage.

22. Clay minerals Generally fine grained, has sheet structure; mostly as weathering products of other silicate materials; constituting a major part of the soil, thus important for agriculture and engineering. A most common clay mineral is kaolinite (used to make chinawares) Some clay minerals (smectite, vermiculite) absorb large amount of water. Expansive clays are a major geologic hazard. They are landslide prone and disrupt foundations.

23. Carbonate minerals Calcite (CaCO3) and dolomite (CaMg(CO3)2): different reaction to acid. Commonly used for building stones, concrete aggregates, lime and Portland cement. Oxide minerals. Limonite (FeO.H2O): brown streak, may be in gravel, poor for concrete because of staining and popouts after cycles of freezing and thawing. Sulfide minerals : The most common one is pyrite (FeS2), brassy color, metallic luster, cubic crystal, a nuisance for concrete before of staining from oxidation. Sulfate minerals : gypsum, CaSO4.2H2O: hardness 2, white, soluble in ground water. anhydrite, CaSO4: lack of effervescence in acid, swelling when wet and converting to gypsum, disastrous when presence in foundation or tunnel.