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EARTH SCIENCE Prentice Hall EARTH SCIENCE Tarbuck Lutgens
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2 Chapter 2 Minerals
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Elements and the Periodic Table 2.1 Matter Elements are the basic building blocks of minerals. Over 100 elements are known. Examples: oxygen, nitrogen, gold, silver, iron Symbols: O, N, Au, Ag, Fe 1 or 2 letters (1st is capital, 2nd is lower case) Comes from 1st letters of name: English, Latin or Greek
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Atoms Smallest particles of matter 2.1 Matter Have all the characteristics of an element neutrons, which have neutral electrical charges The nucleus is the central part of an atom and contains protons, which have positive electrical charges
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Atoms 2.1 Matter Energy levels, or shells surround the nucleus contain electrons—negatively charged particles The atomic number is the number of protons in the nucleus of an atom.
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Model of an Atom
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Isotopes Many isotopes are radioactive and emit energy and particles. Isotopes of an element have the same number of protons but varying numbers of neutrons. Have different mass numbers: the sum of the neutrons plus protons 2.1 Matter The mass number is the number of neutrons and protons in the nucleus of an atom.
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Why Atoms Bond A compound consists of two or more elements that are chemically combined in specific proportions. When an atom’s outermost energy level does not contain the maximum number of electrons, the atom is likely to form a chemical bond with one or more atoms. 2.1 Matter An ion is an atom that gains or loses electrons.
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Types of Chemical Bonds 1. Ionic bonds form between positive and negative ions. 2.1 Matter 2. Covalent bonds form when atoms share electrons. 3. Metallic bonds form when metal ions share electrons.
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Definition of a Mineral 2.2 Minerals 1. S- Solid- not liquid or gas 2. N- Naturally occurring- not human made 3. I- Inorganic- not alive- never was 4. F- Fixed composition- element or compound 5. C- Crystal- orderly pattern
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Examples & Non Examples of Minerals quartz, halite, mica, gold, galena Water- not a solid Pearl- not inorganic Coal- not inorganic
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Compounds Most minerals are compounds: –Quartz- silicon and oxygen SiO2 –Halite- sodium and chlorine NaCl
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Native Minerals are made up of single elements –Gold Au –Copper Cu –Sulfur S
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How Minerals Form 2.2 Minerals 1. Crystallization from magma 2. Precipitation 3. Pressure and temperature 4. Hydrothermal solutions
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Minerals Formed as a Result of Crystallization of Magma
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Mineral Groups Can be classified based on their composition 2.2 Minerals 1. Silicates Silicon and oxygen combine to form a structure called the silicon-oxygen tetrahedron. This silicon-oxygen tetrahedron provides the framework of every silicate mineral.
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The Silicon-Oxygen Tetrahedron
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Silicon-Oxygen Chains, Sheets, and Three-Dimensional Networks
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Mineral Groups 2.2 Minerals 2. Carbonates Minerals that contain the elements carbon, oxygen, and one or more other metallic elements 3. Oxides Minerals that contain oxygen and one or more other elements, which are usually metals
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Mineral Groups 2.2 Minerals 4. Sulfates and Sulfides Minerals that contain the element sulfur 5. Halides Minerals that contain a halogen ion plus one or more other elements 6. Native elements Minerals that exist in relatively pure form
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Sulfides
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Native Copper
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Color 2.3 Properties of Minerals Small amounts of different elements can give the same mineral different colors. Easily observed Can be used to identify only a few minerals Malachite is always green Azurite is always blue Color can change- tarnish, rust, cold
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Streak 2.3 Properties of Minerals Streak is the color of a mineral in its powdered form. Streak is always the same Streak is often different from the color of a mineral White or colorless streak: Talc or gypsum Gray black- graphite Red- hematite
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Luster 2.3 Properties of Minerals Luster is used to describe how light is reflected from the surface of a mineral. Metallic- highly polished metal: silver, galena, graphite Non-metallic- Glassy- quartz Silky- malachite Greasy-serpentine Brilliant-diamond Pearly-mica
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Pyrite (Fool’s Gold) Displays Metallic Luster.
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Crystal Form 2.3 Properties of Minerals Crystal form is the visible expression of a mineral’s internal arrangement of atoms.
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Quartz Often Exhibits Good Crystal Form.
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Hardness 2.3 Properties of Minerals Hardness is a measure of the resistance of a mineral to being scratched. Mohs scale consists of 10 minerals arranged from 10 (hardest) to 1 (softest).
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Mohs Scale of Hardness Talc- easily scratched with a fingernail Gypsum- scratched with a fingernail Calcite- scratched by a penny Fluorite- scratched by a steel nail Apatite- barely scratches glass Feldspar- easily scratches glass
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Cleave 2.3 Properties of Minerals Cleave is the tendency of a mineral to cleave, or break, along flat, even surfaces. Examples: Halite and Mica
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Mica Cleaves in One Direction
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Fracture 2.3 Properties of Minerals Minerals that do not cleave when broken are said to fracture. Fracture — the uneven breakage of a mineral. Examples: Quartz and Asbestos
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Conchoidal Fracture
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Density 2.3 Properties of Minerals Density is a property of all matter that is the ratio of an object’s mass to its volume.
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Distinctive Properties of Minerals 2.3 Properties of Minerals Some minerals can be recognized by other distinctive properties. Acid test- Calcite will “fizz” Taste- Halite tastes like salt Magnetic- Magnetite is magnetic (Fe) Fluorescent- Fluorite will “glow” Smell- Sulfur smells like rotten egg
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