1. Minerals: The Building Blocks of Rocks
GEOL: CHAPTER 3
Minerals: The Building Blocks of Rocks

2. Cluster of crocoite crystals, a rare and brightly colored lead chromate mineral (Smithsonian Museum).
Cluster of crocoite crystals, a rare and brightly colored lead chromate mineral (Smithsonian Museum).

3. Learning Outcomes LO1: Define matter
LO2: Explore the world of minerals
LO3: Identify mineral groups recognized by geologists
LO4: Identify physical properties of minerals
LO5: Recognize rock-forming minerals
LO6: Explain how minerals form
LO7: Recognize natural resources and reserves

4. Mineral Definition Naturally occurring Inorganic* Crystalline solid
Narrowly defined chemical composition
Characteristic physical properties

5. Minerals Are Important
Fertilizers
Feed supplements
Economic well-being
Affects foreign relations
Building blocks of rocks

6. Four States of Matter
Liquid
Gas
Solid
Plasma

7. Atoms Comprise elements Nucleus with protons and neutrons
Electrons in electron shells
Atomic number
Number of protons
Atomic mass number
Isotopes

8. Figure 3.2 Shell Models for Common Atoms The shell model for several atoms and their electron configurations. A blue circle represents the nucleus of each atom, but remember that atomic nuclei are made up of protons and neutrons, as shown in Figure 3.3.

9. Isotopes of an atom have a different number of neutrons…
Nucleus
6 p
6 n
12C (Carbon 12)
13C (Carbon 13)
6 p
7 n
6 p
8 n
14C (Carbon 14)
Figure 3.3 Carbon Isotopes Schematic representation of the isotopes of carbon. Carbon has an atomic number of 6 and an atomic mass number of 12, 13, or 14, depending on the number of neutrons in its nucleus.
Stepped Art
Fig. 3-3, p. 49

10. Types of Bonds Ionic bonds Covalent bonds Metallic bonds
Van der Waals bonds

11. Ionic Bonding Transfer of electrons Electron shell completion
Ions either positive or negative
Opposite charges attract
Ionic compounds

12. Figure 3.4 Ionic Bond to Form the Mineral Halite (NaCl)

13. + – electron transfer Sodium atom 11 p+ 11 e– Chlorine atom 17 p+
ion
11 p+
10 e– +
Chlorine
ion
17 p+
18 e– –
Figure 3.4 Ionic Bond to Form the Mineral Halite (NaCl)
Stepped Art
Fig. 3-4a, p. 50

14. Figure 3.4 Ionic Bond to Form the Mineral Halite (NaCl)

15. Covalent Bonding Sharing of electrons Electron shell completion
Electron shells overlap
Carbon needs 4 electrons, so forms four covalent bonds
Silicates: Silicon bonds with oxygen are part covalent, part ionic

16. Figure 3.5 Covalent Bonds

17. Figure 3.5 Covalent Bonds

18. Figure 3.5 Covalent Bonds

19. Figure 3.5 Covalent Bonds

20. Metallic Bonding
Electrons in some metals are mobile and shift from one atom to another
Metallic luster
Good conductors of electricity and heat
Easily reshaped

21. Van der Waals Bonding Electrically neutral atoms and molecules
Weak attractive forces
Graphite and pencils

22. Mineral Definition Inorganic Naturally occurring Crystalline solid
Narrowly defined chemical composition
Characteristic physical properties

23. Mineral Crystals Crystals have regular geometric shape Cleavage
Planar surfaces/crystal faces
Sharp corners
Straight edges
Cleavage
Constancy of interfacial angles

24. A few varieties of crystalline forms
Figure 3.6 A Variety of Mineral Crystal Shapes

25. Figure 3.6 A Variety of Mineral Crystal Shapes

26. Figure 3.6 A Variety of Mineral Crystal Shapes

27. Figure 3.6 A Variety of Mineral Crystal Shapes

28. Figure 3.6 A Variety of Mineral Crystal Shapes

29. Figure 3.7 Sizes and Charges of Ions Electrical charges and relative sizes of ions common in minerals. The numbers within the ions are the radii shown in Ångstrom units.

30. Common elements in Earth’s crust
Figure 3.8 Common Elements in Earth’s Crust

31. Figure 3.8 Common Elements in Earth’s Crust

32. Figure 3.8 Common Elements in Earth’s Crust

33. Mineral Groups 3500+ minerals 2 dozen common minerals
Mineral groups share same negatively charged ion or radical

35. Figure 3.9 Radicals Many minerals contain radicals, which are complex groups of atoms tightly bonded together. The silica and carbonate radicals are particularly common in many minerals, such as quartz (SiO2) and calcite (CaCO3).

36. Silicate Minerals Silicon and oxygen are common elements
95% of Earth’s crust
Silica tetrahedra
Chains
Continuous sheets
Three-dimensional networks

37. Figure 3.10 The Silica Tetrahedron and Silicate Materials

38. Figure 3.10 The Silica Tetrahedron and Silicate Materials

39. Figure 3.10 The Silica Tetrahedron and Silicate Materials

40. Figure 3.10 The Silica Tetrahedron and Silicate Materials

41. Ferromagnesian Silicates
Contain iron (Fe), Magnesium (Mg), or both
Usually dark
Dense
Olivine
Pyroxenes
Amphiboles
Biotite

42. Figure 3.11 Common Silicate Materials

43. Nonferromagnesian Silicates
No iron or magnesium
Lighter colored
Less dense
Potassium feldspars
Plagioclase feldspars
Quartz

44. Figure 3.11 Common Silicate Materials

45. Carbonate Minerals Carbonate radical (CO3)-2
Calcium carbonate, calcite, aragonite
Limestone
Dolomite

46. Other Mineral Groups Oxides Native elements Phosphates Sulfates
Sulfides
Halides

47. Physical Properties of Minerals
Luster
Quality and intensity of light reflected from surface
Color
Crystal form
Number of sides
Different minerals can have the same form

48. Figure 3.13 Mineral Crystals

49. Figure 3.13 Mineral Crystals

50. Figure 3.13 Mineral Crystals

51. Physical Properties of Minerals, cont.
Cleavage
Quality
Direction
Angles of intersection
Fracture
Breakage along irregular surfaces

52. Several Types of Mineral Cleavage.
Figure 3.14 Several Types of Mineral Cleavage

53. Figure 3.14 Several Types of Mineral Cleavage

54. Figure 3.14 Several Types of Mineral Cleavage

55. Augite crystal and cross section of crystal showing cleavage.
93°
87°
Augite crystal and cross section
of crystal showing cleavage.
Cross section
Figure 3.15 Cleavage in Augite and Hornblende
124°
56°
Hornblende crystal and cross section
of crystal showing cleavage.
Stepped Art
Fig. 3-15, p. 60

56. Physical Properties of Minerals, cont.
Hardness
Specific gravity
Ratio of mineral weight to equal volume of water at 4ºC
Feel
Taste

57. Mohs scale of
hardness
talc
apatite
corundum

58. Physical Properties of Minerals, cont.
Magnetic or not
Plasticity: ability to bend
Double refraction
Chemical tests: acid on calcite

60. Figure 3.16 Minerals in GraniteThe igneous rock granite (see Chapter 4) is made up of mostly three minerals—quartz, potassium feldspar, and plagioclase feldspar—but it may also contain small amounts of biotite, muscovite, and hornblende.

61. How Minerals Form Cooling of magma Cooling of lava
Combination of minerals in seawater or lakes
Organisms construct carbonate shells
Chemical processes change composition or mineral structure
Metamorphism: heat, pressure, chemically active fluids

62. Natural Resources
Natural resource: form and concentration that is economically feasible
Minerals
Rocks
Liquid petroleum
Natural gas

63. Reserves
Part of resource that is known and can be recovered at economically feasible cost
What makes a reserve a resource:
Transportation costs
Labor costs
Market price
Technology changes