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Minerals and Mineralogy

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A select group of minerals are of economic. interest and ... For example, amethyst, citrine, rose quartz, etc. Streak: The colour of a powder of a mineral. ... – PowerPoint PPT presentation

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Title: Minerals and Mineralogy


1
Minerals and Mineralogy
  • A/Prof John M. Worden
  • DEC
  • University of Southern Queensland

2
Minerals and Mineralogy
  • What is a mineral?
  • A naturally occurring,
  • -solid, inorganic crystalline substance,
  • -with a specific composition,
  • -and characteristic atomic structure.
  • Approximately 100 minerals are common.
  • Of these, about 30 comprise the rock forming
    minerals and make up most Crustal rocks.
  • A select group of minerals are of economic
    interest and these are termed ore minerals.

3
Minerals and Mineralogy
  • Minerals are the building blocks of rocks.
  • So, we need to briefly re-visit basic chemical
    concepts to understand both their chemistry and
    physical properties.
  • Smallest units of matter are atoms that retain
    physical chemical properties of an element.
  • Each atom has a dense nucleus at its centre,
    containing positively charged protons and
    neutral neutrons.
  • The number of protons is constant for an
    element, and defines its atomic number (z)
  • The atomic massis the ? ( protons
    neutrons).
  • A cloud of moving, negatively charged
    electrons surround the nucleus.
  • The number of electrons equals the number
    ofprotons, so an atom is electrically neutral.

4
Minerals and Mineralogy
  • Electrons occupy orbitals, or more simply,
    spherical shells around the nucleus.
  • An atoms electronic structure determines its
    interactions with atoms of another element to
    form chemical compounds.
  • We must examine the fine structure of electron
    orbitals to understand this process.
  • Each orbital or electron shell can hold a
    specified maximum number of electrons (ie ,K 2
    L8 M 18 N 32 etc).
  • A complete outermost shell is the most stable
    configuration
  • In chemical reactions, ONLY the electrons in the
    outermost shells interact to attain maximum
    stability.

5
Minerals and Mineralogy
  • Electrons may be exchanged between atoms of two
    elements thereby forming a new compound.
  • For Sodium (Na z 11) and Chlorine (Cl z17)
    atoms
  • Na atoms surrender their single outermost
    electrons leaving the next inner shell complete
    ( L8), while Cl atoms accept electrons to
    complete part of their outermost shell (M8).
    Both become charged IONS.
  • Cations (Na) and Anions (Cl-) are charged
    ions in which electron shells are either depleted
    or supplemented.
  • Ionic bonds form between anions cations due to
    electrical attraction.
  • They are the dominant type (gt90) of chemical
    bonding found in minerals.

6
Minerals and Mineralogy
  • Elements that do not readily gain or lose
    electrons share electrons, forming Covalent
    bonds
  • Covalent bonds are stronger than ionic bonds.
  • An example is Diamond, where each C atom (z6)
    covalently bonds with four surrounding C atoms so
    that L8, forming a regular tetrahedron.
  • Metallic bonds are a type of covalent bond
    found in native metals (ie Cu Ag Au Te) and
    some sulfides.
  • Van der Waals bonds result from weak
    electrostatic attraction between atoms.
  • Complex ions, ie SiO4 are strongly-bonded
    covalent pairs that act as single ions.
  • All minerals are combinations of these bonding
    types in regular, repeated arrays, or crystal
    lattices.

7
Minerals and Mineralogy
  • Minerals are grouped into 8 classes (Native
    elements Oxides Hydroxides Halides
    Carbonates Sulfates Silicates).
  • By far the most dominant mineral group are the
    Silicates, based on the silicate ion, or SiO44-
    tetrahedron. The silicon ion is surrounded by
    four oxygen ions that can bond with other ions.
  • Various bonding linkages result in isolated
    tetrahedra single or double chains sheets and
    3D frameworks.
  • Oxygen-Oxygen bonds are very strong, whereas
    Oxygen-Cation bonds are much weaker.

8
Minerals and Mineralogy
  • The common rock-forming minerals are combinations
    of Al, Fe, Ca, Na, K, and Mg with SiO4.
  • These elements are the most abundant in the
    Earths crust.
  • Bonding types of various silicates reflect
    temperatures of crystallisation , so that
    isolated tetrahedra linked through cations form
    at highest temperatures, ie Olivine.
  • As temperature declines, atom vibrational
    energies decline and more complex bonds result.
  • Single chain silicate minerals form next,
    sharing two apical oxygens, ie Augite.
  • Next, Double chain silicates, which share
    three apical oxygens crystallise,ie Hornblende.

9
Minerals and Mineralogy
  • This continues with Sheetsilicates, (mica
    minerals) the Framework minerals forming
    last, ie Biotite Quartz.
  • Crystal lattices control the external shape and
    surfaces of a mineral. The planar surfaces are
    termed crystal faces and their combinations and
    interfacial angles are specific for each
    mineral.
  • A crystal will only possess perfect form if it
    crystallises in a fluid or in unconstrained
    space.
  • Confinement means interlocking grain boundaries
    and the formation of aggregates.

10
Minerals and Mineralogy
  • Summary
  • Minerals must be naturally formed.
  • They must be inorganic.
  • Minerals must be solid and crystalline.
  • Have a specific chemical composition.
  • They must possess a characteristic crystal
    structure.

11
Minerals and Mineralogy
  • Physical properties of minerals reflect the
    elements, bonding types and crystal lattices of
    each mineral.
  • Physical properties include
  • Colour Streak
  • Lustre Diaphaneity
  • Hardness Cleavage
  • Fracture Tenacity
  • Crystal Form Twinning
  • Specific Gravity Other

12
Minerals and Mineralogy
  • Colour
  • Very obvious
  • Intrinsic
  • May be due to impurities and highly unreliable,
    and
  • Note the great diversity of colours exhibited by
    Quartz (SiO2). For example, amethyst, citrine,
    rose quartz, etc.
  • Streak
  • The colour of a powder of a mineral.
  • More reliable than that of the massive mineral.
  • Attributed to the grain size effect.

13
Minerals and Mineralogy
  • Lustre
  • Quality and intensity of reflected light from a
    mineral surface.
  • Subdivided into
  • Metallic
  • Non-metallic
  • Non-metallic further subdivided into
  • vitreous (glass-like)
  • pearly (pearl-like)
  • greasy- (as if covered with an oil film)
  • resinous (like resin)
  • dull (no discernible lustre)
  • etc.

14
Minerals and Mineralogy
  • Diaphaneity
  • Refers to the degree of Transparency.
  • Transparent
  • Translucent
  • Opaque.
  • Tenacity
  • Manner in which a mineral breaks down or deforms
    under stress.
  • Most minerals are brittle and shatter!
  • The micas (biotite muscovite) are flexible and
    elastic.

15
Minerals and Mineralogy
  • Hardness
  • A measure of the ability of a mineral to resist
    abrasion or scratching.
  • Reflects the strength of the bonds between atoms.
  • Mohs Hardness Scale from Talc (H1) to Diamond
    (H10).
  • Cleavage
  • The tendency of a mineral to break along smooth,
    parallel planes.
  • Due to the presence of weak bonds between layers
    of atoms in crystals.

16
Minerals and Mineralogy
  • When describing cleavage note
  • The number of cleavage sets
  • The angles between the cleavage planes, and
  • The developed quality/perfection of each cleavage
    set.
  • Crystal Form
  • Sets of crystal faces define a crystal form,
    which is a diagnostic property ofa mineral.
  • Interfacial angles remain constant for any
    particular mineral.

17
Minerals and Mineralogy
  • Twinning
  • If a crystal lattice alters orientation about a
    definite plane, the crystal is said to be
    twinned.
  • May be a highly diagnostic property (i.e.
    plagioclase felspar, and calcite).
  • Specific Gravity
  • The ratio of the weight of a mineral to the
    weight of an equal volume of water.
  • Heft method of specific gravity estimation
    used in the field.

18
Minerals and Mineralogy
  • Other Properties
  • Effervescence Reaction to dilute Hydrochloric
    acid and release of gas (i.e. Calcite HCl?
    releases CO2 gas) .
  • Feel/ Touch Greasy feel like soap (i.e. Talc).
  • Magnetism Magnetic attraction or repulsion
    (i.e. Magnetite, Fe3O4) .
  • These physical properties are used to identify
    rock-forming minerals in hand specimens and in
    rocks.
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