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Transcript 
Dr. Helen Lang
Dept. of Geology & Geography
West Virginia University
FALL 2014
GEOLOGY 284:
MINERALOGY
Ore Deposits and Economic
Minerals
An ore is anything that can be
mined from the Earth at a profit,
most ores contain metals
Ore is formed by Concentration
of low-abundance Elements
• 99% of the Earth’s crust is made up of O, Si, Al,
Fe, Ca, Na, K, Mg, and Ti (the major elements)
• Many other elements are useful in modern society
• Concentration of these elements in average crust is
tiny!! (all together they’re only 1%!)
• Geologic processes must concentrate these
elements hundreds to thousands of times to make
ore!
Most Ore Minerals belong to these
four non-silicate Mineral Groups
Anion or Key Element
• Native Elements
• Sulfides
none
S
• Oxides
O2-
• Hydroxides
(OH)-
Native Elements
• Metals - metallic bonds, metallic luster
• Semimetals - have some, but not all,
properties of metals: arsenic, antimony and
bismuth
• Nonmetals - covalent bonding, lack metallic
properties
Principal Native Metals
•
•
•
•
Gold (Au)
Silver (Ag)
Copper (Cu)
Platinum (Pt, rarest and most valuable)
• All have cubic arrangement of atoms
• Habits: massive, leaf, wire-like, arborescent
Gold
Copper Crystal,
very unusual
Native Non-metals
• Sulfur (S)
• Graphite (C)
– Low pressure polymorph of Carbon
• Diamond (C)
– High pressure polymorph of Carbon >30kbar
– Formed deep in the Earth’s mantle >90km
– Brought to the surface by violent, explosive
volcanic eruptions of magmas called kimberlites
Sulfur
Resinous luster
Bright yellow
H=1.5-2.5
G=2.1
Diamond
uncut octahedron, ~1cm
3-D network
of covalently
bonded
Carbon
atoms, H=10
Cut Diamonds
H=10
G=3.5
adamantine
luster
cut to enhance
total internal
reflection
Graphite
• H=1-2, streak black
• S.G. = 2.1 - 2.2
• Is formed of flat hexagonal, honeycomb-like
sheets of covalently-bonded Carbon atoms
• The sheets are held together by very weak van
der Waals bonds, which accounts for graphite’s
very low hardness and slipperiness
• Pencil lead is a mixture of graphite and very fine
clay, graphite is also used as a lubricant
Diamond and Graphite
Structures
http://www.avogadro.co.uk/structure/chemstruc/network/g-molecular.htm
Diamond Structure compared to
Graphite Structure
Common Sulfide Minerals
(reduced, formed in low oxygen environments)
•
•
•
•
•
•
Pyrite (Fe2+S2)
Chalcopyrite (CuFeS2)
Sphalerite (ZnS)
Galena (PbS)
Bornite (Cu5FeS4)
Pentlandite (Fe,Ni)9S8
Sulfide minerals commonly occur together in Ore Deposits
Pyrite (FeS2)
• Grows in cubes, striated cubes, octahedra and
sometimes in a special form called the
pyritohedron with 6 pairs of 5-sided faces like
this
• Brass-yellow color and relatively high hardness
(6-6.5) are characteristic
Other Pyrite Forms
Iron-cross twin
Striated cubes
Pyrite (FeS2) “fool’s
gold” is not valuable
Chalcopyrite (CuFeS2) is the most
important ore mineral of Copper
• More coppery or tarnished, brassy-yellow color
than Pyrite
• Greenish-black streak and lower hardness, 3.5
Sphalerite (ZnS) is the most
important ore mineral of Zinc
• Resinous luster, but may be black
• Brown or yellow streak, H=3.5 – 4
• Tends to sparkle from reflections off many
perfect cleavages
Galena (PbS) is the most important
ore mineral of Pb (lead)
• High specific gravity, even for an opaque,
metallic mineral, G=7.6, “hefty”
• H=2 – 2.5
• Lead-gray color, metallic luster
• Cubic growth forms
• Perfect cubic cleavage
Common Oxide Minerals
(oxidized, formed in high oxygen environments)
•
•
•
•
•
•
•
Magnetite (Fe3O4), two Fe3+, one Fe2+
Hematite (Fe2O3), both Fe3+, completely oxidized
Zincite (ZnO)
Franklinite (ZnFe2O4)
Pyrolusite (MnO2)
Chromite (FeCr2O4)
Cassiterite (SnO2)
Hematite (Fe2O3) and Magnetite
(Fe3O4) are important Iron ore minerals
Hematite (Fe3+2O3) - completely oxidized
• specular (micaceous with sparkly metallic luster)
and earthy (dull)
• both have a red streak, H=5.5 – 6.5
• non-magnetic
Magnetite (Fe3+2Fe2+O4)
• grows in octahedra, H=5.5 – 6.5
• magnetic (parallel alignment of unpaired electrons
in Fe2+ when formed in Earth’s magnetic field)
Hematite and Magnetite occur
together with red chert in BIFs*
*Precambrian
Banded Iron
Formations very
important
iron ore for
steel making
Common Hydroxide Minerals
• Goethite
FeO(OH)
• Al hydroxides
–
–
–
–
gibbsite
Al(OH)3
boehmite
AlO(OH)
diaspore
AlO(OH)
together these make up bauxite (actually a
rock name, multiple minerals), the most
important Al ore
Mineral Associations
• Very helpful for identifying economic
minerals
• Certain minerals very commonly occur
together
– Sulfide minerals like pyrite and
chalcopyrite, sphalerite and galena
– Oxide and hydroxide minerals like
hematite and magnetite
Related documents
Ores and Economic Minerals
Ores and Economic Minerals
An ore is a rock rich in valuable minerals
An ore is a rock rich in valuable minerals
Minerals Note Template
Minerals Note Template
Guided Notes about Natural Resources
Guided Notes about Natural Resources
Minerals Objective Sheet
Minerals Objective Sheet
Document 8937785
Document 8937785
Ch3S3
Ch3S3
Unit_4_Day_1StudentsNotes
Unit_4_Day_1StudentsNotes
Earth Materials - Delaware Department of Education
Earth Materials - Delaware Department of Education
Minerals
Minerals
Elements of the Earth
Elements of the Earth
Mineral Identification Data Sheet
Mineral Identification Data Sheet
Advances in Environmental Biology
Advances in Environmental Biology
172-181
172-181