Chapter 6 Minerals and Rocks
Minerals: naturally occurring, inorganic solids, with definite structure and composition; made of one or more elements Characteristics of Minerals: Formed by natural processes Inorganic (not formed from life processes) Solid Definite chemical composition, can have minor variations (example: salt is NaCl) Atoms arranged in a pattern
Structure of Minerals: minerals are in the form of crystals (a solid in which the atoms are arranged in repeating patterns) C. Crystal Systems: Examples of Perfect Crystal Systems Cubic Tetragonal Hexagonal Examples: Isometric- Cubic-Halite (salt); Platinum Tetragonal-Zircon; Wulfenite Hexagonal-Quartz; Corundum
CRYSTAL SYSTEMS are divided into 6 main groups CRYSTAL SYSTEMS are divided into 6 main groups.- We will look at 3 groups The first group is the ISOMETRIC. This literally means “equal measure” and refers to the equal size of the crystal axes. Examples: ·Gold ·Copper ·Diamond · Lazurite ·Galena · Pyrite
HEXAGONAL CRYSTALS a HEXAGONAL Crystal Axes Three horizontal axes meeting at angles of 120o and one perpendicular axis. Examples: ·Graphite ·Nickeline ·Molibdenite ·Apatite ·Vanadinite · Beryl These hexagonal CALCITE crystals nicely show the six sided prisms
Hexagonal Crystals
TETRAGONAL CRYSTALS TETRAGONAL Two equal, horizontal, mutually perpendicular axes Vertical axis is perpendicular to the horizontal axes and is of a different length. Examples: · Tourmaline ·Dolomite ·Hematite ·Corundum · Idocrase Hematite Green Tourmaline
TETRAGONAL CRYSTALS WULFENITE Same crystal seen edge on.
How Minerals Form: 1.Form from the cooling of hot melted rock (magma); If it cools fast, crystals tend to be small; cools slow, larger crystals tend to form 2. Form from solutions-as liquid evaporates, minerals solidify and form crystals
Major Mineral Groups Silicates-Made of Silicon, Oxygen, & possibly other element(s); largest group of minerals Example: Quartz (SiO2) Carbonates-Made of Carbon, Oxygen, & possibly other elements Examples: Calcite (CaCO3); Magnetite (MgCO3) Pink Quartz Calcite samples
Most Abundant Elements in Earth’s Crust: 1. Oxygen 46.6% 2. Silicon 27.7% 3. Aluminum 8.1% 4. Iron 5% 5. Calcium 3.6% 6. Sodium 2.8% 7. Potassium 2.6% 8. Magnesium 2.1% ***All other elements make up 1.5% of the Earth’s crust.
Physical Properties of Minerals: Hardness-a measure of how easily a mineral can be scratched ***1 is the softest, 10 is the hardest*** Moh’s Scale of Hardness Sample Element Hardness Common Objects Talc 1 Fingernail (2.5) Copper penny (3.5) Iron Nail (4.5) Glass (5.5) Steel File (6.5) Streak Plate (7) Gypsum 2 Calcite 3 Fluorite 4 Apatite 5 Feldspar 6 Quartz 7 Topaz 8 Corundum 9 Diamond 10 Apatite Gypsum
Luster Describes how light is reflected from a mineral’s surface Metallic Nonmetallic dull; pearly; silky; glassy; brilliant; transparent Waxy Resinous (looks like freshly broken shellac)
Color The color seen when looking at the surface of the mineral; Least reliable property because many minerals can be many colors Example: Sulfur is pale yellow
Streak The color of the mineral when it’s broken up in powdered form; Use a porcelain tile to test; Useful for softer minerals; Minerals with a hardness greater than 7 do not leave a streak Example: Gold has a gray streak
The Way a Mineral Breaks Cleavage-When a mineral breaks along smooth, flat surfaces; Example: Mica Fracture-When minerals break with rough or jagged edges; Example: Quartz
Special Properties Unusual or unique qualities; Examples: Magnetite is magnetic, Calcite has optical qualities, Jade has a bell-like ring when tapped, Halite has a salty taste, and Sulfur smells like rotten eggs
Uses of Minerals Gems-Highly prized minerals because they are rare and considered beautiful; the difference in a gem and the common form of a mineral can be slight
Month Birthstone January Garnet February Amethyst March Aquamarine April Diamond May Emerald June Pearl July Ruby August Peridot September Sapphire October Opal November Topaz December Turquoise
Ores-contain useful substances that can be mined for a profit Examples: Bauxite contains Aluminum Hematite contains Iron Sphalerite contains Zinc Chalcopyrite contains copper
Strip Mining-Removing ore by digging at Earth’s surface; usually results in a huge pit Land Reclamation- mining companies are required to return soil and rock to open pit and cover it with topsoil then plant trees and grass
Asbestos-a mineral with threadlike, flexible fibers used as insulation and as fire protection; has been shown to cause lung diseases including lung cancer EPA (Environmental Protection Agency)-requires school officials to inspect buildings every six months; flaking asbestos must be removed or sealed over
Minerals can contain other useful elements. 1.Elements must be refined, or purified, from ores 2. Some elements dissolve in fluids, travel through weaknesses in rocks, and in those weaknesses form mineral deposits called vein mineral deposits 3. Titanium is useful element derived from the minerals limonite and rutile
III. Rocks – made of one or more minerals A III. Rocks – made of one or more minerals A. Igneous- form from molten material from a volcano or deep inside Earth; Examples: Obsidian, Granite, & Pumice B. Sedimentary- Form as a result of processes at or near Earth’s surface; Examples: Halite (rock salt), Limestone, Calcite, & Sandstone C. Metamorphic- Form from changes due to temperature and pressure increases; can form from all 3 rock types; Examples: Slate & Marble