Week 2.1 - Minerals, Rocks, and Mining Methods PDF

Summary

This document provides an overview of minerals, rocks, and mining methods. It covers mineral identification, rock classification, and the various methods used in mining. The learning objectives are to understand ore mineral formation, mining processes, and the importance of minerals in society.

Full Transcript

Minerals, Rocks and
Mining Methods

Vince Sharman Aure
Learning Objectives
1. Identify the minerals important to society
2. Describe how ore minerals are found, mined, and processed for
human use
3. Identify common rock-forming minerals using their physical and
chemical properties
4. Classify rocks into igneous, sedimentary, and metamorphic
5. Identify the minerals important to society.
6. Describe how ore minerals are found, mined, and processed for
human use
 TABLE OF CONTENTS
01 02
Mineral and its Mineral Groups
physical properties

03 04 05
Rocks Mineral Mining
Formation
 01
MINERAL and
its properties
 What is a mineral?
1. Naturally occurring, not man-made
2. Inorganic
3. Homogenous Solid
4. Definite Chemical composition
5. Ordered internal structure
Physical Properties of Minerals
1. Hardness 9. Specific Gravity
2. Cleavage 10. Twinning
3. Fracture 11. Effervescence
4. Tenacity 12. Magnetism
5. Crystal shape 13. Diaphaneity
6. Color 14. Taste
7. Streak 15. Odor
8. Luster
Hardness
A measure of resistance of a
mineral to abrasion.
Cleavage
The ability of a mineral to
break along planes of
weak bonding.
Kyanite Amethyst

Fracture
The appearance of the
surface of a mineral when
it does not break along
Tremolite cleavage planes
Tenacity
The mineral’s toughness or
resistance to breaking

Malleability
Ductility
Sectility
Brittleness
Elasticity
Flexibility
Crystal Shape
Common external
morphology that a
mineral assumes
Crystal Shape
The ability of a mineral to
break along planes of
weak bonding.
Color
The property by an object of
producing different
sensations on the eye as a
result of the way object
reflect or emit light
Color
Labradorescence
a play of colors or colored
reflections exhibited
especially by labradorite

Fluorescence
exposure to ultraviolet light
causes a mineral to emit
visible light
Color
Thermoluminescence
Emits visible light when
heated

Triboluminescence
Emits visible light when struck
or rubbed
Streak
The color of minerals in
powdered form.

Is it possible for a mineral
to have a different color
and streak?
Luster
Quality and intensity of
reflected light exhibited
by the mineral
Metallic
Generally opaque and exhibit a
resplendent shine similar
to a polished metal

Non-metallic
vitreous (glassy), adamantine
(brilliant/diamond like),
resinous, silky, pearl, dull
(earthy), greasy
Specific Gravity
It is the ratio of the weight of
a mineral to the weight of
an equal volume of water.
A bucket of silver (SG 10)
would weigh 10 times
more than a bucket of
water (SG 1). It is a
measure to express the
density (mass per unit
volume) of a mineral. The
specific gravity of a
mineral is numerically
equal to density.
Twinning
Intergrowth of two or more
crystals of the same
mineral
Effervescence
Bubbling seen where a
carbonate mineral reacts
with an acid
Magnetism
Property of a mineral to be
attracted to a hand-magnet

Ferromagnetic
Paramagnetic
Diamagnetic
Diaphaneity
Relative ability of minerals to
allow light to pass through
them
Transparent
Translucent
Opaque
Other
properties
Taste

Odor
HEALING PROPERTIES
 02
MINERAL
GROUPS
 Mineral Groups
Ø Rock-forming minerals are the Oxygen
(O)
most abundant minerals that make Silicon (Si)
46.6%
up most of the rocks of the Earth’s 27.7%
Al
um
crust. inu

0% )
8.1 m (

5. (Fe
Ø Economic Minerals are those % Al)

n
I ro
minerals used in the Other elements
manufacturing of products. Potassium (K) 1.5%
Calcium (Ca)
2.6% 3.6%
Magnesium (Mg) Sodium (Na)
2.1% 2.8%
01 Silicates
Ø minerals containing 2 of the most
abundant elements in the Earth’s crust,
namely, Silicon (28%) and Oxygen(47%).
Ø 95% of the minerals were silicates and the

remaining belongs to the other groups.
Ø Composed of silica-tetrahedron (SiO4)-4,
which is the building blocks of all
silicates.
01 Silicates

GARNET FELDSPAR
https://en.wikipedia.org
https://geology.com/mine
/wiki/Garnet
rals/feldspar.shtml

QUARTZ

https://www.minerals.net
/mineral/quartz.aspx
02 Carbonates
Ø minerals containing the carbonate anion
(CO3)2- combined with other elements.

Image Source:
https://physicalgeology.pressbooks.com/chapter/5-3-
mineral-groups/
03 Sulfates
Ø minerals containing Sulfur and Oxygen anion (SO4)- combined
with other ions.

https://physicalgeology.pressbooks.com/chapter/5-3-mineral-groups/
04 Phosphates
YPO4

Ø minerals containing phosphate (PO4)
combined with one or more mineral

Xenotime
Image Source:
https://www.dakotamatrix.com/mineralpedia/8314/xen
otime-y
05 Molybdates
Ø minerals containing Molybdate (MoO4)2- Bi2MoO6
together with other elements

Koechlinite

Image Source:
http://www.rpdp.net/sciencetips_v3/E8C6.htm
06 Tungstates
Pb3WO5Cl2

Ø minerals containing Tungstate (WO4)2-
together with other elements

Pinalite

Image Source:
http://www.rpdp.net/sciencetips_v3/E8C6.htm
07 Borates
NaCaB5O6 (OH)6. 5H2O

Ø minerals containing Boron and Oxygen
combined with one or more elements

Ulexite

Image Source:
https://en.wikipedia.org/wiki/Ulexite
08 Hydroxides
Ø minerals containing Hydroxyl Ions (OH-) AlOH3
and any element

Gibbsite

Image Source:
https://www.minerals.net/mineral/gibbsite.aspx
09 Sulfides
Ø minerals containing sulfur anion (S2) -
combined with one or more ions. Some
sulfides are sources of economically
important metals such as copper, lead
and zinc.
10 Sulfosalt
Ø minerals containing a metal and/or
semi-metal and Sulfur Cu3AsS4

Enargite

Image Source:
https://www.mindat.org/min-1380.html
11 Vanadate
Al(UO2)2 (VO4)2 (OH)·11(H2O)
Ø minerals containing Vanadate (VO4)
combined with other elements

Vanuralite

Image Source:
http://www.rpdp.net/sciencetips_v3/E8C6.htm
12 Halides
Ø minerals containing halogen elements
combined with one or more elements.

Ø Halogen elements include Cl, F, I, Br, At
 Native
13
Elements
Ø minerals containing halogen elements
combined with one or more elements.

Ø Halogen elements include Cl, F, I, Br, At
 Native
13
Elements
Metals and Intermetals Semimetals Nonmetals

Gold Group Arsenic Graphite

Copper, Gold, Silver, Bismuth Diamond
Lead
Platinum Group Antimony Sulfur

Palladium, Platinum,
Platiniridium, Iridosmine
Iron Group

Iron, Kamachite,
Taenite, Mercury
 03

Rocks
http://www.mineralo
gy4kids.org/?q=rock
-cycle
IGNEOUS
ROCKS
 Forms when magma or lava cool to a solid form,
IGNEOUS ROCKS either glass or masses of tightly intergrown mineral
crystals.

Magma – completely or partly molten rocks inside the Earth’s crust
Lava – magma that reached the surface

Crystals are large if they had a long time to grow in a slowly
cooling magma. They are small if they formed quickly in rapidly
cooling lava.

Solid – silicate minerals
Melt - ions
Volatiles - vapors
ORIGIN

Intrusive or Plutonic
Formed from magma
(inside the Earth) and
tends to take a long time to
solidify into rock. Has
Phaneritic textures.

Extrusive or Volcanic
Formed from lava (Earth’s
surface) and tends to
solidify quickly. Common
textures include aphanitic
and porphyritic.
COMPOSITION
 COMPOSITION

FELSIC
granitic: >65% silica, generally
light-colored

INTERMEDIATE
andesitic: 55-65% silica, generally
medium colored (medium gray)

MAFIC
basaltic: 45-55% silica, usually
dark colored

ULTRAMAFIC