II Properties of Minerals'

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II Properties of Minerals'

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Title: II Properties of Minerals'

1
ROCKS MINERALS
2
What is a mineral?

a naturally occurring,
inorganic,
crystalline
solid
with a definite chemical composition.

3
Definition of a mineral has 5 parts
4
1. naturally occurring

formed in nature and is not made by man.
Ex) concrete and glass are not minerals.

5
2. Inorganic

it has not been made by or composed of life
forms.
Fossil fuels and pearl are not minerals.

6
3. Crystalline

its atoms have a specific arrangement (crystal
structure).

7
CRYSTAL STRUCTURE

The pattern or arrangement of atoms that
characterizes each mineral
also called atomic structure.

8
4. solid
9
5. definite chemical composition.

the types and ratio of elements that make up the
mineral remains constant.
Ex) H2O 2 hydrogen for each oxygen

10
MINERAL COMPOSITON OF THE EARTHS CRUST

see ESRT page 11

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8 elements account for 99 of the Earths crust.
Two most common elements by mass are
oxygen
silicon
Two most common elements by volume are
oxygen
potassium

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PROPERTIES OF MINERALS
15
Physical properties of a mineral are determined
by either.

1 - chemical composition.
color
luster
streak
2 - crystal structure (arrangement of atoms)
hardness
cleavage
crystal form

16
PROPERTIES CAUSED BY CHEMICAL COMPOSITION
17
1- COLOR

Color is not useful when identifying a mineral.
There are three reasons why..

18
1)Many different minerals have similar colors.
19
2) One mineral may occur in different colors.

Pure quartz is colorless or white. A small
amount of iron give quartz a purple color. A
small amount of titanium results in pink quartz.

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3) Some minerals change color when exposed to
air.

In air, the brass-yellow color of chalcopyrite
tarnished to bronze.

22
2 - LUSTER

the way a mineral looks or shines in reflected
light.

23
There are two (major) types of luster.

1) Metallic
shines like polished metal.
2) Non-metallic
does not shine like polished metal.

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3 - STREAK

the color of the powder of a mineral.
it is determined by rubbing the mineral on a
streak plate.

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The streak of a metallic mineral is

...dark and distinct.

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The streak of a nonmetallic mineral is ...

colorless or white.
not very useful..

30
PROPERTIES CAUSED BY CRYSTAL STRUCTURE
(arrangement of the atoms)
31
1 - HARDNESS

the resistance of a mineral to being scratched.
usually measured by using Mohs hardness scale.

32
Mohs scale?

measures the hardness of any common material.
scale goes from 1 to 10.
The hardest mineral (10) is
Diamond
The softest mineral (1) is
Talc

33
if fingernail scratches
if it scratches glass plate
m gt 5.5
m lt 2.5
2.5 5.5
2.5
5.5
1
10
fingernail
glass plate
Hardness Scale
34
2 - CLEAVAGE

when a mineral breaks, smooth to semi-smooth
parallel surfaces are produced.

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FRACTURE

the way in which a mineral breaks producing an
uneven breaking surface.

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3 - CRYSTAL SHAPE (form)

the outward shape of a mineral specimen that
reflects the internal atomic structure
also called crystal form.

39
Special Properties
40
1) Acid Test

Calcite will react with hydrochloric acid.
a drop of acid will fizz.
the acid will dissolve the calcite.

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2) magnetic

a magnet will be attracted to the mineral.

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3) taste

halite has a salty taste.

44
4) fluorescence

these minerals will glow while under ultraviolet
light.

45
5) radioactive

these minerals give off subatomic particles that
will activate a Geiger counter.

46
6) double refraction

this causes two images to be seen when the object
is viewed through the mineral specimen.

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The two most abundant elements by mass in Earths
crust are oxygen and
(1) potassium (3) nitrogen
(2) hydrogen (4) silicon

2) The internal atomic structure of a mineral
most likely determines the minerals
(1) color, streak, and age
(2) origin, exposure, and fracture
(3) size, location, and luster
(4) hardness, cleavage, and crystal shape

Base your answers to questions 3 and 4 on the
diagram below, which shows three minerals with
three different physical tests, A, B, and C,
being performed on them.
3) Which sequence correctly matches each test, A,
B, and C, with the mineral property tested?
Acleavage Bstreak
Chardness
(2) Acleavage Bhardness
Cstreak
(3) Astreak Bcleavage
Chardness
(4) Astreak Bhardness
Ccleavage

Base your answers to questions 3 and 4 on the
diagram below, which shows three minerals with
three different physical tests, A, B, and C,
being performed on them.
4) The results of all three physical tests shown
are most useful for determining the
rate of weathering of
the minerals
(2) identity of the minerals
(3) environment where the
minerals formed
(4) geologic period when the
minerals formed

5) A human fingernail has a hardness of
approximately 2.5. Which two minerals are softer
than a human fingernail?
calcite and halite
(2) graphite and talc
(3) sulfur and fluorite
(4) pyrite and magnetite

6) An unidentified mineral that is softer than
calcite exhibits a metallic luster and cubic
cleavage. This mineral most likely is
(1) galena (3) halite
(2) pyrite (4) pyroxene

55
ROCKS AND MINERALS
56
Rock

a group of minerals bound together.

granite
coquina
breccia
porphyry
57
Rocks are identified by their

1 texture
the size, shape and arrangement of the mineral
grains that make up the rock.
2 composition
(crystals, sediments, fossils).

58
There are three types of rocks(Rocks are
classified according to how they were produced)

1 Igneous
cooling of molten rock material.
2 Sedimentary
mostly sediments that have been cemented
together.
3 Metamorphic
Rocks that have been altered by heat and or
pressure.

IGNEOUS ROCKS
Using ESRT worksheet.p.6

60
Formation of Igneous rocks
Reference Tables p.6
61
Igneous Rocks

form when a magma or lava cools.
minerals form distinct, interlocking grains.

Pumice
Andesite
Obsidian
62

Magma
hot molten rock beneath the Earths surface.

63
Pahoehoe
Aa flow
Ropy pahoehoe

Lava
magma that reaches the Earths surface.

pahoehoe flow, Kilauea Volcano, Hawaii
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Igneous rocks form in two ways

1. Intrusive (aka Plutonic) rocks.
form deep underground.
Magma cools slowly.
large (gt1mm) mineral grains.
Coarse - grained texture.

2. Extrusive (aka Volcanic) rocks.
forms at or near Earths surface.
Lava cools quickly.
little time for mineral grains to form small
grains (lt1mm).
Fine - grained or glassy texture.

67
There are two kinds of magma

1 - Felsic Magma.
silica rich (SiO2).
Al rich.
magma is thick and slow flowing.
Forms light-colored minerals (quartz, K-spar)

2 - Mafic Magma.
lower silica content.
Ca, Fe, Mg rich.
Magma is hotter, thinner, and more fluid.
Forms dark-colored minerals (hornblende,
pyroxene, Na-plag)

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Common Igneous Rocks
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1 - Obsidian

volcanic glass (granite family).
usually dark in color.
conchoidal (shell-like) fracture.

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2 - Pumice

felsic lava that hardened while steam and gases
were still escaping.
has many air holes in it.
sometimes it will float.

72
3 - Scoria

like pumice it is full of holes,
scoria is made of denser minerals (it won't float)

73
Identifying Igneous Rocks
74
1)Determine the shade of the rock.

Light shade (remember pink and red are light in
shade).
Dark shade (green is dark shade).
Intermediate (something between dark and light).

75
2) Determine the texture of the rock.

Coarse - you can see the individual mineral
grains.

GABBRO
GRANITE
DIORITE
76

Fine - you can not see the individual mineral
grains.

ANDESITE
RHYOLITE
BASALT
77

Porphyritic - contains both coarse and fine
grains.

Glassy (obsidian)

Vesicular - has holes in it (scoria, pumice)

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3) Use the Earth Science Reference Tables to
determine the rocks name.
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SEDIMENTARY ROCKS
Using ESRT worksheet.p.7

84
Sedimentary rocks

are rocks that form from an accumulation of
sediments and/or organic material.

85
There are three types of Sedimentary rocks

Clastic
sediments
Chemical
precipitates and evaporates
Organic
biologic origin

86
1 - CLASTIC SEDIMENTARY ROCKS

most sedimentary rocks are clastic.
clast - solid sediments weathered from other
rocks.

87
sediment

particles or materials formed by the weathering
and erosion of rocks or organic materials.

88
Clasts vary in size from pebbles to microscopic
flakes of clay.
Reference Tables page 6
89
Clasts can be moved (transported) by

wind
waves
running water, and
glaciers.

90
Running water

collects and moves the greatest amount of
sediment.
as the clasts bump into one another (abrasion),
their edges become rounded and smooth.
When the velocity of a stream decreases the
materials are deposited (dropped).
this occurs when a river flows into a lake or
ocean.

91
Mississippi river delta
92

During deposition, the sediments become sorted .
(sorted - grouped according to particle size)
Large particles are deposited first.
(close to the shore).
Fine particles are deposited last.
(far from the shore).

93

river
94

coarse
river
pebbles
95

coarse
river
pebbles
Conglomerate
96

coarse
river
pebbles
Conglomerate
97

sands
coarse
river
pebbles
Conglomerate
98

sands
coarse
river
pebbles
Conglomerate
Sandstone
99

sands
coarse
river
pebbles
Conglomerate
Sandstone
100

sands
coarse
river
clays
pebbles
Conglomerate
Sandstone
101

sands
coarse
river
clays
pebbles
Conglomerate
Sandstone
Shale
102
Formation of Sedimentary rocks
Reference Tables p.6
103
Method of formation

Existing rock is broken down into sediments by
weathering and erosion.
Sediments are transported to another location.
Sediments are deposited, one layer on top of
another.
Pressure from overlying sediments compresses and
compacts the sediments which may cause them to
stick together.
Dissolved minerals may settle into the spaces
between the clasts and cement the materials
together.

104
Examples of Clastic Rocks

(examples shale, sandstone, conglomerate).

conglomerate
shale
sandstone
105
2 CHEMICAL SEDIMENTARY ROCKS

liquid water contains dissolved minerals.
as the water evaporates, the minerals
precipitate (drop out of the water) and form a
mass of mineral crystals.

106
Examples of Chemical rocks.

(examples rock salt, gypsum).

Rock salt
107
3 ORGANIC SEDIMENTARY ROCKS

organic means anything related to living
organisms.
any rock made by living organisms.
any rock mostly composed of material from life
forms.
may contain fossils.

108
Examples of Organic rocks.

(examples coal, and limestone)

coquina
coal
109
fossil

any evidence of former life
remains, impressions, footprints.

ammonite
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1) Which rock was organically formed and
sometimes contains fossilized plant impressions?
rock gypsum (2) breccia
(3) phyllite (4) coal

112

2) Which processes most likely formed the shale
bedrock found near Ithaca, New York?
uplift and solidification
burial and compaction
(3) heat and pressure
(4) melting and recrystallization

113

3) Dolostone is classified as which type of rock?
land-derived sedimentary rock
(2) chemically formed sedimentary rock
(3) foliated metamorphic rock
(4) nonfoliated metamorphic rock

114

4) Which cross section best shows the pattern of
sediments deposited by the stream as it enters
the ocean near point Z?

115

5) Most of the rocks shown were formed by
volcanic eruptions and crystallization
(2) compaction and/or cementation
(3) heat and pressure
(4) melting and/or solidification

116

6) Which two rocks are composed primarily of
quartz, feldspar, and clay minerals?
(1) rock salt and conglomerate
(2) rock salt and breccia
(3) sandstone and shale
(4) sandstone and limestone

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Which table shows the rocks correctly classified
by texture?

119
METAMORPHIC ROCKS

Using the Earth Science Reference Tables p. 7

120
METAMORPHIC ROCKS

rocks that form from changes in previously
existing rocks due to heat and or pressure.

121
Formation of Metamorphic rocks
Reference Tables p.6
122
Effects of metamorphism on rocks

pressure squeezes the grains closer together
making the rock more dense and less porous.
heat and chemicals rearrange the particles.
minerals may recrystallize and/or new minerals
may form.
pressure may cause distorted structure (the
curving and folding of the foliation within the
rock).

123
Foliation - a layered arrangement (minerals are
aligned in layers)

some metamorphic rocks are foliated.
other metamorphic
rocks may be banded.
(colored bands banding).

124
There are two types of Metamorphism

Regional
Contact

125
Regional metamorphism

large areas of rock are exposed to intense heat
and pressure.
occurs during mountain building, folding and
faulting.

126
Contact Metamorphism

occurs when hot magma forces its way into
surrounding rock.
the heat of the magma bakes the rock that are in
contact with it.
the area affected is much less than regional
metamorphism(usually less than 100 m).
the changes in the rock are less dramatic and
foliation usually does not occur.

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THE ROCK CYCLE(see ESRT)