Practical Work - Rocks

Question 1

What features can be distinguished from quartz by eye?

Answer 1

Colourless

Waxy/glassy

Question 2

What features can be distinguished from feldspars by eye?

Answer 2

Plagioclase: white, brick-shaped crystals
Orthoclase: pink, brick-shaped crystals

Question 3

What features can be distinguished from olivine by eye?

Answer 3

Lime green if fresh, but easily altered

Question 4

What features can be distinguished from pyroxene by eye?

Answer 4

Black

Typically elongate crystals

Question 5

What features can be distinguished from amphibole by eye?

Answer 5

Dark green, typically needle-shaped crystals

Question 6

What features can be distinguished from micas by eye?

Answer 6

Biotite: shiny black, flat, sometimes hexagonal crystals
Muscovite: shiny colourless, flat, sometimes hexagonal

Question 7

What features can be distinguished from garnet by eye?

Answer 7

Red-brown

Good crystal shape

Question 8

What features can be distinguished from calcite by eye?

Answer 8

White

Soft

Question 9

Which minerals are found in granitic rocks?

Answer 9

Orthoclase feldspar
Biotite
Plagioclase feldspar
Quartz

Question 10

Which mineral can sometimes be seen as large crystals in basaltic rocks?

Answer 10

Olivine

Question 11

Why does grain size differ between layers in sedimentary rocks?

Answer 11

Wind strength

Source sediment

Question 12

What are the features of bivalve shells, what is the explanation?

Answer 12

Thin concavo-convex shells, with concentric growth lines
Shell material may be present or dissolved away leaving a mould
Hard parts of fossil organisms preserved by burial

Question 13

What are the features of ooids, what is the explanation?

Answer 13

Spherical/ellipsoidal grains
Often have a concentric internal structure
Fine-grained CaCO3 formed while being rolled around by marine currents

Question 14

What are the features of crystalline calcite, what is the explanation?

Answer 14

White/colourless mineral with glinting cleavage planes

A carbonate cement, sticking other grains together

Question 15

What are the features of mud, what is the explanation?

Answer 15

Fine-grained material, individual grains barely visible by eye
A common component of sedimentary rocks; often formed of clay minerals or CaCO3

Question 16

What are the features of iron oxides and hydroxides, what is the explanation?

Answer 16

Very fine-grained rusty-brown material

Often formed by near-surface oxidation of iron-bearing minerals in the grain/cement of the rock

Question 17

What is the term for a sedimentary rock with ooids and can have crystalline calcite and iron oxide?

Answer 17

Oolitic limestone

Question 18

What is the term for a sedimentary rock with ooids and shells and can have crystalline calcite and iron oxide?

Answer 18

Shelly oolitic limestone

Question 19

What is the term for a sedimentary rock with shells and mud?

Answer 19

Shelly mudstone

Question 20

What is the term for a sedimentary rock with mud?

Answer 20

Mudstone

Question 21

What are the non-silicate minerals you are expected to recognise in hand specimen?

Answer 21

Magnetite
Hematite
Pyrite
Galena
Gypsum
Calcite
Halite

Question 22

What are the silicate minerals you are expected to recognise in hand specimen?

Answer 22

Quartz
Alkali feldspar
Plagioclase feldspar
Olivine
Garnet
Clinopyroxene
Orthopyroxene
Amphibole
Muscovite
Biotite

Question 23

How can gypsum and calcite be distinguished using hardness?

Answer 23

Gypsum can be scratched by a fingernail, calcite can not

Question 24

How can magnetite and hematite be distinguished?

Answer 24

Magnetite moves a compass

Hematite produces a red colour when scratched across a streak plate

Question 25

How can galena and pyrite be distinguished?

Answer 25

Galena shows good cleavage
Pyrite shows poor cleavage
Also, galena can be scratched by a copper coin, pyrite can not

Question 26

How can pyroxene and amphibole be distinguished?

Answer 26

Amphibole has 60-degree and 120-degree cleavage

Pyroxene has 90-degree cleavage

Question 27

How can micas be distinguished?

Answer 27

Mica sheets can be peeled

Biotite is dark, Muscovite is colourless

Question 28

What is the crystal system, colour, lustre, habit and cleavage for magnetite?

Answer 28

Crystal system: cubic
Colour: grey/metallic
Lustre: metallic
Habit: massive/equant
Cleavage: none

Question 29

What is the crystal system, colour, lustre, habit and cleavage for hematite?

Answer 29

Crystal system: trigonal
Colour: metallic red
Lustre: metallic/non-metallic
Habit: massive/botryoidal
Cleavage: none

Question 30

What is the crystal system, colour, lustre, habit and cleavage for pyrite?

Answer 30

Crystal system: cubic
Colour: yellow/gold
Lustre: metallic when fresh
Habit: equant/cubic
Cleavage: none

Question 31

What is the crystal system, colour, lustre, habit and cleavage for galena?

Answer 31

Crystal system: cubic
Colour: grey
Lustre: metallic when fresh
Habit: equant
Cleavage: 3 mutually orthogonal

Question 32

What is the crystal system, colour, lustre, habit and cleavage for gypsum?

Answer 32

Crystal system: monoclinic
Colour: translucent
Lustre: pearly
Habit: prismatic/twinned
Cleavage: one perfect, two well developed

Question 33

What is the crystal system, colour, lustre, habit and cleavage for calcite?

Answer 33

Crystal system: trigonal
Colour: translucent
Lustre: pearly
Habit: equant
Cleavage: rhombohedral

Question 34

What is the crystal system, colour, lustre, habit and cleavage for garnet?

Answer 34

Crystal system: cubic
Colour: red to brown
Lustre: vitreous
Habit: facetted with cubic symmetry
Cleavage: none

Question 35

What is the crystal system, colour, lustre, habit and cleavage for olivine?

Answer 35

Crystal system: orthorhombic
Colour: pale green
Lustre: vitreous
Habit: equant
Cleavage: none

Question 36

What is the crystal system, colour, lustre, habit and cleavage for augite (pyroxene)?

Answer 36

Crystal system: monoclinic
Colour: black
Lustre: vitreous
Habit: equant/prismatic
Cleavage: 2 x 90-degree

Question 37

What is the crystal system, colour, lustre, habit and cleavage for hornblende (amphibole)?

Answer 37

Crystal system: monoclinic
Colour: black
Lustre: vitreous
Habit: acicular/equant/prismatic
Cleavage: 2 x 60-degree

Question 38

What is the crystal system, colour, lustre, habit and cleavage for muscovite?

Answer 38

Crystal system: monoclinic
Colour: white/silver, translucent in thin sheets
Lustre: glistening
Habit: micaceous
Cleavage: perfect between sheets

Question 39

What is the crystal system, colour, lustre, habit and cleavage for biotite?

Answer 39

Crystal system: monoclinic
Colour: dark brown to blaack
Lustre: glistening
Habit: micaceous
Cleavage: perfect between sheets

Question 40

What is the crystal system, colour, lustre, habit and cleavage for quartz?

Answer 40

Crystal system: trigonal
Colour: translucent
Lustre: vitreous
Habit: equant/prismatic
Cleavage: none, conchodial fracture

Question 41

What is the crystal system, colour, lustre, habit and cleavage for orthoclase feldspar?

Answer 41

Crystal system: monoclinic
Colour: cream/pink
Lustre: vitreous
Habit: prismatic/tabular
Cleavage: 2 good, 1 weak

Question 42

What is the crystal system, colour, lustre, habit and cleavage for plagioclase feldspar?

Answer 42

Crystal system: triclinic
Colour: white/pink/grey
Lustre: vitreous
Habit: prismatic/tabular
Cleavage: 2 good, 1 weak

Question 43

What is the extent of solution for orthoclase feldspars at high and low temperatures?

Answer 43

High: solution can have any mix of K and Na
Low: solution can only have high K or high Na

Question 44

What is the extent of solution for plagioclase feldspars at high and low temperatures?

Answer 44

High: solution can have any mix of Na and Ca
Low: solution can have any mix of Na and Ca

Question 45

What is the reason for the discrepancy in the extent of solution for orthoclase feldspars at different temperatures?

Answer 45

The large size difference between K and Na
At higher T, ions can move more easily so can dissolve more easily
The mix of K and Na at low T is unstable

Question 46

What kind of twinning is there in alkali/orthoclase feldspars?

Answer 46

Carlsbad twinning

Question 47

What kind of twinning is there in plagioclase feldspars?

Answer 47

Albite twinning

Question 48

Quartz and feldspar are colourless in thin section, how can they sometimes be distinguished though, and why?

Answer 48

Feldspars are cloudy and quartz is clear

Feldspars are altering to clay minerals

Question 49

Define accessory phase

Answer 49

Phases which only form a few vol% of a rock

Question 50

Grains of orthoclase and quartz both show low relief, how can they be distinguished by the Becke line test?

Answer 50

Orthoclase: as distance increases, the line moves into the medium so has RI lower than 1.54
Quartz: as distance increases, the line moves into the crystal so has RI greater than 1.54

Question 51

Which rotation effect can help you recognise carbonates in the thin section?

Answer 51

Twinkling

A succession of high and low relief positions

Question 52

What is the pleochroic effect?

Answer 52

Change in colour of a mineral grain as it is rotated

Question 53

What is the optical path difference equation?

Answer 53

Δ=tδn

where δn = ε-ω (birefringence)

Question 54

For a quartz wedge, as the thickness increases, what is the effect on the light?

Answer 54

Optical path difference increases

Question 55

What is seen when a sensitive tint plate is placed on top of the quartz wedge and rotate 90 degrees?

Answer 55

The sensitive tint turns black

The rest turns white

Question 56

Which minerals are seen in a basalt?

Answer 56

Pyroxene
Olivine
Plagioclase feldspar

Question 57

How are plagioclase feldspars identified in thin section with the analyser in?

Answer 57

Albite/lamellar twinning

Question 58

What is undulose extinction?

Answer 58

In waves

Doesn’t all go extinct at once

Question 59

What are the four minerals seen in acid igneous rocks?

Answer 59

Quartz
Orthoclase
Plagioclase
Microcline (K-feldspar)

Question 60

For the four minerals seen in acid igneous rocks, what is the twinning seen, and what is the RI compared to 1.54 (the medium)?

Answer 60

Orthoclase: RI < 1.54 & no lamellar twinning
Quartz: RI > 1.54 & no lamellar twinning
Plagioclase: lamellar twinning, for Na-rich RI < 1.54 and for Ca > 30% RI > 1.54
Microcline: RI < 1.54 & cross-hatched twinning

Question 61

How could you demonstrate the presence of glass in a thin section?

Answer 61

Optically isotropic so will be black

Question 62

Which minerals are seen in rhyolite obsidian?

Describe them

Answer 62

Plagioclase: acicular crystals
Biotite: brown-yellow pleochroism, straight extinction

Question 63

In rhyolitic obsidian, what can be seen aside from the minerals, why do they look the way they do?

Answer 63

Gas pockets with a teardrop shape

Aligned with the bands and flow

Question 64

What is the difference between peridotite, dunite and pyroxenite?

Answer 64

Dunite is mostly olivine
Peridotite is mostly olivine and pyroxene
Pyroxenite is mostly pyroxene

Question 65

How can olivine often be distinguished?

Answer 65

Serpentine cracks

High birefringence

Question 66

What are cleaved rocks?

Answer 66

Rocks that split along closely spaced, regular, parallel, secondary foliation surfaces

Question 67

How does rock cleavage arise?

Answer 67

Weakness due to the alignment of many platy minerals such as fine-grained micas

Question 68

What are slates?

Answer 68

Fine-grained, cleaved rocks
Rock cleavage cutting across the bedding
Splitting property called fissility

Question 69

What are phyllites?

Answer 69

Coarser-grained than slates
Have a sheen/lustre on the foliation surface
Sheen due to crystallisation of new minerals, mostly chlorite and muscovite

Question 70

What are schists?

Answer 70

Medium- to coarse-grained, foliated and/or lineated rocks
Foliation called schistosity
Rock cleavage tends to irregular

Question 71

What are gneisses?

Answer 71

Medium- to coarse-grained rocks
Lacking a well-developed schistosity due to the low abundance of micas
Commonly made of granular layers, breakage takes place across these layers

Question 72

What are migmatites?

Answer 72

Veins of granite set in a gneissose matrix
Rocks formed at the boundary between magmatism and metamorphism
Rock was just beginning to melt or was close to

Question 73

What can be seen in mudstones?

Answer 73

Tiny quartz grains
Low birefringent background of clay minerals
Tiny mica flakes with random orientation

Question 74

For a slate, if the colour changes on the z-axis, where would you define the bedding and cleavage planes?

Answer 74

Bedding on x y plane

Cleavage on x z/y z plane

Question 75

How does a slate differ from a mudstone?

Answer 75

Mica flakes are oriented parallel to cleavage rather than bedding

Question 76

How can you tell a foliation has been kinked in the thin-section?

Answer 76

Lines bend around the minerals

Question 77

What are porphyroblasts?

Answer 77

Large crystals

Grown in a rock during metamorphism

Question 78

Outline the properties of an amphibolite

Answer 78

Dominated by amphibole, mostly hornblende
Elongate habit
Commonly has a fabric
Plagioclase can be up to 50%, may look like salt and pepper in hand specimen

Question 79

What produces a lineation?

What produces a foliation?

Answer 79

Lineation: rock is stretched
Foliation: rock is squashed

Question 80

How is an amphibolite generally formed?

Answer 80

Basalt + water

Question 81

How can pyroxene and amphibole be distinguished in hand specimen?

Answer 81

Amphibole has a 60-degree cleavage (done by noting the angle between flashes as the crystal is rotated)
Amphiboles tend to be more elongate

Question 82

Which minerals are present in eclogite?

Answer 82

Garnet

Pyroxene

Question 83

How does an eclogite form?

Answer 83

Conversion of basalt directly to eclogite
Dehydration of amphibolite
Amphibole + plagioclase = garnet + pyroxene + water