Week 3 Lectures

Question 1

What factors determine rock types?

Answer 1

Rocks are naturally occurring solid aggregates of minerals or, in some cases, non-mineral solid matter.

Question 2

How are rocks grouped based on their formation?

Answer 2

Rocks are grouped into three main types based on their formation: Igneous, Sedimentary, and Metamorphic.

Question 3

What factors determine rock types?

Answer 3

Rock types are determined by texture and composition.

Question 4

Define texture in the context of rocks.

Answer 4

Texture refers to the size, shape, and arrangement of grains and crystals in the rock.

Question 5

Why is homogeneity important in rock composition?

Answer 5

Homogeneity is important because it indicates the uniformity of composition within the rock.

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Question 6

Describe the formation process of igneous rocks.

Answer 6

Igneous rocks form from the cooling and solidification of molten magma or lava.

Question 7

How do sedimentary rocks form?

Answer 7

Sedimentary rocks form through the accumulation and lithification of sediments, often influenced by weathering processes such as rain.

Question 8

Explain the formation of metamorphic rocks.

Answer 8

Metamorphic rocks form due to changes in temperature and pressure, often occurring closer to the Earth’s core, causing existing rocks to transform into new forms.

Question 9

How are textures of igneous rocks described?

Answer 9

Textures of igneous rocks are described in terms of their degree of crystallinity, ranging from entirely crystalline to entirely glassy, and their granularity, which is determined by grain size.

Question 10

What influences the grain size of igneous rocks?

Answer 10

Grain sizes in igneous rocks are primarily determined by the cooling rate during the rock’s formation

Question 11

Why are igneous rocks significant?

Answer 11

Igneous rocks are the most common type of rock, constituting about 90% of the Earth’s crust, and they are also found on Venus and Mars. They are commonly encountered in everyday life, such as in countertops and curling rocks.

Question 12

Where do intrusive igneous rocks form?

Answer 12

Intrusive igneous rocks form in chambers beneath the Earth’s surface

Question 13

Where do extrusive igneous rocks form?

Answer 13

Extrusive igneous rocks form at the Earth’s surface.

Question 14

Provide examples of extrusive igneous rocks.

Answer 14

Examples of extrusive igneous rocks include andesite, basalt, dacite, obsidian, pumice, rhyolite, scoria, and tuff.

Question 15

Provide examples of intrusive igneous rocks.

Answer 15

Examples of intrusive igneous rocks include diabase, diorite, gabbro, granite, pegmatite, and peridotite.

Question 16

How can you distinguish between extrusive and intrusive igneous rocks?

Answer 16

Extrusive igneous rocks are formed at the Earth’s surface, while intrusive igneous rocks form beneath the surface. The distinction depends on the cooling rate during formation.

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Question 17

Describe Granite.

Answer 17

Granite is a coarse-grained, light-colored, intrusive igneous rock composed mainly of quartz, feldspar, and mica minerals. It often exhibits pink feldspar and has larger crystals due to slow cooling beneath the Earth’s surface.

Question 18

Describe Basalt.

Answer 18

Basalt is a dark-colored, fine-grained, extrusive igneous rock composed mainly of plagioclase and pyroxene minerals. It forms at the Earth’s surface, cooling down quickly, resulting in smaller crystals and a darker appearance.

Question 19

What are some common characteristics of both Granite and Basalt?

Answer 19

Both Granite and Basalt are among the most common types of rocks. Granite is intrusive, with larger crystals and a light color, while Basalt is extrusive, with smaller crystals and a dark color.

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Question 20

Describe Obsidian.

Answer 20

Obsidian is a dark-colored volcanic glass that forms from the very rapid cooling of molten rock material. It is not a mineral because it is glass-like in nature.

Question 21

Describe Pumice.

Answer 21

Pumice is a very porous, frothlike volcanic glass. It contains vesicles, which are gas bubbles trapped in the rock during the rapid cooling of a gas-rich frothy magma. Like Obsidian, Pumice is not considered a mineral due to its glassy composition.

Question 22

How does the formation of vesicles in Pumice occur?

Answer 22

Vesicles in Pumice form due to the presence of air mixed with the material during a volcanic eruption, creating a porous structure.

Question 23

How does Obsidian differ from Pumice in terms of texture?

Answer 23

Obsidian has a smooth texture with no visible holes, while Pumice has a porous texture with vesicles, giving it a frothy appearance.

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Question 24

How are sedimentary rocks formed?

Answer 24

Sedimentary rocks are formed on or near the Earth’s surface from pieces of other existing rocks or organic material.

Question 25

What geological processes are associated with the formation of sedimentary rocks?

Answer 25

The formation of sedimentary rocks is related to processes such as erosion, weathering, dissolution, precipitation, and lithification.

Question 26

Name the four different types of sedimentary rocks.

Answer 26

The four types of sedimentary rocks are clastic, chemical, biochemical, and organic.

Question 27

What distinguishes sedimentary rocks from other rock types in terms of their formation location?

Answer 27

Sedimentary rocks are not erupted from the Earth’s interior; instead, they form on the surface of the Earth. Notable examples include rock formations in the Grand Canyon.

Question 28

Why are sedimentary rocks considered among the most interesting?

Answer 28

Sedimentary rocks are considered among the most interesting rocks because they often contain fossils, providing insights into past life forms and environmental conditions.

Question 29

What is clastic sedimentary rock, and how does it differ from other types?

Answer 29

Clastic sedimentary rocks are composed of fragments or clasts of pre-existing rocks. They differ from other types due to their fragmentary nature.

Question 30

How is the presence of fossils related to sedimentary rocks?

Answer 30

Sedimentary rocks, especially those of the bio and organic types, often contain fossils due to the preservation of remains in the rock layers.

Question 31

How do clastic sedimentary rocks form?

Answer 31

Clastic sedimentary rocks form from the accumulation and lithification of mechanical weathering debris.

Question 32

Provide examples of clastic sedimentary rocks.

Answer 32

Examples of clastic sedimentary rocks include breccia, conglomerate, sandstone, siltstone, and shale.

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Question 33

Describe the composition of breccia.

Answer 33

Breccia is composed of large angular fragments, and the spaces between these fragments can be filled with a matrix of smaller particles.

Question 34

Where does sandstone mainly originate, and what is its composition?

Answer 34

Sandstone is mainly made up of sand-size weathering debris and can originate from environments such as beaches, deserts, floodplains, and deltas.

Question 35

What is shale made up of, and how does it typically break?

Answer 35

Shale is made up of clay-size weathering debris, and it typically breaks into thin flat pieces.

Question 36

How do clastic sedimentary rocks differ based on grain size?

Answer 36

Clastic sedimentary rocks, such as breccia, sandstone, and shale, differ in grain size. For example, breccia has larger grain size, while shale has smaller grain size.

Question 37

How do chemical sedimentary rocks form?

Answer 37

Chemical sedimentary rocks form when dissolved materials precipitate from a solution.

Question 38

Provide examples of chemical sedimentary rocks.

Answer 38

Examples of chemical sedimentary rocks include chert, some dolomites, flint, iron ore, limestones, and rock salt.

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Question 39

How does Iron Ore, a chemical sedimentary rock, form?

Answer 39

Iron Ore forms when iron and oxygen combine in solution and deposit as sediment. Examples include hematite (Fe2O3) and magnetite (Fe3O4).

Question 40

What is the composition of chert?

Answer 40

Chert is composed of microcrystalline silicon dioxide (SiO2) and is known for making sharp tools. It can also produce sparks when struck, making it useful for fire starting.

Question 41

What is limestone primarily composed of, and what is its chemical composition?

Answer 41

Limestone is a sedimentary rock composed primarily of calcite, a calcium carbonate mineral, with a chemical composition of CaCO3.

Question 42

How can limestone dissolve in water?

Answer 42

Limestone, composed of calcium carbonate, can dissolve in water due to the solubility of calcium carbonate.

Question 43

How is chert historically used by humans?

Answer 43

Chert has been historically used to make sharp tools and has been utilized for starting fires as it produces sparks when struck.

Question 44

How do organic sedimentary rocks form?

Answer 44

Organic sedimentary rocks form from the accumulation of plant or animal debris.

Question 45

What are biochemical sedimentary rocks, and how do they form?

Answer 45

Biochemical sedimentary rocks form from the shells and bodies of underwater organisms.

Question 46

Provide examples of organic and biochemical sedimentary rocks.

Answer 46

Examples of organic and biochemical sedimentary rocks include chalk, coal, diatomite, some dolomites, and some limestones.

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Question 47

What is chalk composed of, and what is its significance?

Answer 47

Chalk is a type of limestone made up of microscopic calcium carbonate shells of marine organisms. Porous, subsurface chalk units can serve as reservoirs for oil and natural gas.

Question 48

How does coal, an organic sedimentary rock, form?

Answer 48

Coal forms mainly from plant debris, which accumulates in a swamp environment.

Question 49

What makes chalk unique, and how is it used?

Answer 49

Chalk, with its microscopic calcium carbonate shells, is often used for writing on boards. Its porous subsurface units can also serve as reservoirs for oil and natural gas.

Question 50

In what industry is coal commonly utilized?

Answer 50

Coal is commonly mined and utilized as a fossil fuel for various industrial purposes.

Question 51

How are metamorphic rocks modified?

Answer 51

Metamorphic rocks are modified by heat, pressure, and chemical processes, which alter their mineralogy, texture, and chemical composition.

Question 52

What characterizes metamorphic rocks?

Answer 52

Metamorphic rocks are rocks that have undergone significant changes in mineralogy, texture, and chemical composition due to the influence of heat, pressure, and chemical processes.

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Question 53

What can cause metamorphism in rocks?

Answer 53

Metamorphism in rocks can be caused by processes such as heat, pressure, and chemical reactions.

Question 54

How are metamorphic rocks related to plate boundaries?

Answer 54

Metamorphic rocks can be associated with plate boundaries, especially convergent boundaries, where plates come together. This process can lead to the formation of mountains and subduction zones.

Question 55

What are some characteristics of metamorphic rocks that have undergone deformation?

Answer 55

Metamorphic rocks may exhibit wavy structures, indicating deformation and the effects of tectonic forces.

Question 56

How are gemstones like emerald and ruby related to metamorphic rocks?

Answer 56

Gemstones, such as emerald and ruby, can be associated with metamorphic rocks. The formation of these gemstones often involves a combination of heat and pressure, resulting in the development of attractive and valuable stones.

Question 57

What plate boundary features are indicative of possible metamorphic rock formation?

Answer 57

Features like convergent plate boundaries, where plates come together, can be indicative of metamorphic rock formation. Mountains and subduction zones formed at these boundaries may host metamorphic rocks.

Question 58

What characterizes foliated metamorphic rocks?

Answer 58

Foliated metamorphic rocks have a layered or banded appearance, a result of exposure to heat and directed pressure during their formation.

Question 59

Provide examples of foliated metamorphic rocks.

Answer 59

Examples of foliated metamorphic rocks include gneiss, phyllite, schist, and slate.

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Question 60

Describe Muscovite Schist and its dominant mineral.

Answer 60

Muscovite Schist is a foliated metamorphic rock with muscovite mica as the dominant visible mineral. The platy grains of muscovite are aligned, allowing the rock to be easily split.

Question 61

What is characteristic of Gneiss, and what minerals does it typically contain?

Answer 61

Gneiss is a foliated metamorphic rock with a banded appearance and granular mineral grains. It typically contains abundant quartz or feldspar minerals.

Question 62

What is Garnet Gneiss, and what minerals compose it?

Answer 62

Garnet Gneiss is a coarse-grained gneiss composed mainly of hornblende (black), plagioclase (white), and garnet (red). An example comes from Norway.

Question 63

How does the aligned orientation of minerals in Muscovite Schist affect its properties?

Answer 63

The aligned orientation of muscovite mica in Muscovite Schist allows the rock to be easily split.

Question 64

What is notable about the banded appearance of Gneiss?

Answer 64

Gneiss has a banded appearance due to alternating layers of different mineral compositions, giving it a distinctive visual pattern.

Question 65

What characterizes non-foliated metamorphic rocks?

Answer 65

Non-foliated metamorphic rocks do not have a layered or banded appearance.

Question 66

Provide examples of non-foliated metamorphic rocks.

Answer 66

Examples of non-foliated metamorphic rocks include hornfels, marble, novaculite, quartzite, and skarn.

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Question 67

How is Marble formed, and what is its composition?

Answer 67

Marble is a non-foliated metamorphic rock produced from the metamorphism of limestone or dolostone. It is primarily composed of calcium carbonate.

Question 68

How does Quartzite form, and what is its typical composition?

Answer 68

Quartzite occurs naturally when sandstone or chert undergoes heat and high pressure. It is typically made of more than 90% quartz.

Question 69

What is significant about the texture of foliated metamorphic rocks?

Answer 69

Foliated metamorphic rocks have a distinct texture characterized by the alignment of mineral grains, resulting in a layered or banded appearance.

Question 70

Provide examples of foliated metamorphic rocks.

Answer 70

Examples of foliated metamorphic rocks include schists and gneiss.

Question 71

What mineral is commonly found in some varieties of Gneiss, and what is its significance?

Answer 71

Some varieties of Gneiss may contain garnet, which is the birthstone for January.

Question 72

What is a notable use for non-foliated metamorphic rock, Marble?

Answer 72

Marble is commonly used for statues and carving due to its soft texture and workability.

Marble reacts to acid due to its primary composition of calcium carbonate. The acid can cause chemical reactions, leading to effervescence or fizzing.

Quartzite is known for its hardness, making it a durable and resistant rock.

Quartzite is generally harder than Marble. Marble is softer and more easily carved, while Quartzite is known for its durability.

Due to its hardness, Quartzite is commonly used as a building material, including countertops and flooring.

Question 73

Rocks

Answer 73

Igneous Rock:
Characteristic: Crystals
Example: Granite, Basalt

Sedimentary Rock:
Characteristic: Dinosaurs/Fossils indicator
Example: Limestone, Sandstone

Metamorphic Rock:
Characteristic: Formed by heat/pressure, layers (track geological map)
Example: Schist, Gneiss

Question 74

What are the key characteristics of minerals?

Answer 74

Minerals are naturally occurring, inorganic, crystalline solids with a definite, but sometimes variable, chemical composition. They are formed in nature by geological processes and not produced by humans.

Question 75

Define “naturally occurring” in the context of minerals.

Answer 75

“Naturally occurring” means that minerals are found in nature, whether on Earth, the Moon, Mars, or other celestial bodies.

Question 76

What does it mean for a mineral to be “inorganic”?

Answer 76

Being “inorganic” implies that minerals are not formed through biological activities. For example, pearls, which are formed organically, are not considered minerals.

Question 77

How can the appearance of a natural diamond differ from a synthetic one?

Answer 77

The appearance of a natural diamond may differ slightly from a synthetic one, and gemologists can often identify subtle differences between them.

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Question 78

How are the atoms arranged in minerals?

Answer 78

The atoms that comprise minerals are arranged in an orderly, repeating, three-dimensional structure.

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Question 79

What is necessary for a substance to be considered a mineral in terms of atomic arrangement?

Answer 79

To be considered a mineral, a substance must have an orderly repeating, three-dimensional structure, known as being crystalline.

Question 80

Provide an example of a non-crystalline mineral.

Answer 80

Obsidian, a black glass, is an example of a mineral with a non-crystalline structure.

Question 81

What are substances called that look like minerals but lack a crystalline structure?

Answer 81

Substances like opal, which lack a crystalline structure, are called mineraloids.

Opal is an example of a mineraloid; it looks like a mineral but does not have a crystalline structure.

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Question 82

What is another example of a mineraloid?

Answer 82

Amber is another example of a mineraloid. It does not exhibit a crystalline structure and is formed by the random aggregation of organic material

Amber is considered a mineraloid because it lacks a repeating, three-dimensional crystalline structure. Its formation involves the random aggregation of organic material.

Question 83

How can substances like impact glass be classified?

Answer 83

Substances like impact glass, which lack a repeating structure, are not classified as minerals but are rather referred to as mineraloids.

Question 84

What is a key characteristic of the chemical composition of minerals?

Answer 84

The chemical composition of a mineral is either fixed or varies within defined limits.

Examples of minerals with very specific compositions include halite [NaCl] and quartz [SiO2].

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Question 85

How is the chemical composition of olivine represented, and what does it indicate?

Answer 85

The chemical composition of olivine is represented as [(Mg,Fe)2SiO4], indicating that it can have a range of compositions with varying amounts of magnesium (Mg) and iron (Fe).

Question 86

What does a fixed chemical composition indicate about a mineral?

Answer 86

A fixed chemical composition indicates that the mineral has a specific, constant ratio of elements in its structure.

Question 87

How does the chemical composition of some minerals vary?

Answer 87

Some minerals exhibit a range of compositions, where the presence of different elements can vary within defined limits.

Question 88

How can trace elements affect the appearance of minerals?

Answer 88

Trace elements can alter the appearance of minerals, influencing their color, transparency, and other physical properties.

Question 89

What is the chemical composition of Beryl minerals?

Answer 89

Beryl minerals have a chemical composition represented as Be3Al2Si6O18, indicating the presence of beryllium, aluminum, and silicon.

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Question 90

How is Emerald, a variety of Beryl, formed, and what elements contribute to its color?

Answer 90

Emerald is formed from Beryl and gains its green color from the presence of Chromium (Cr), Vanadium (V), and Iron (Fe) as trace elements.

Question 91

How many known elements are there?

Answer 91

There are 118 known elements.

There are over 4,000 types of minerals on Earth.

There are over 140 types of gemstones.

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Question 92

What are atoms?

Answer 92

Atoms are the smallest components of nature with the properties of a given substance.

The atomic number is the number of protons in the nucleus of an atom.

The atomic number is the number of protons in the nucleus of an atom.

Question 93

Define isotopes.

Answer 93

Isotopes are atoms with differing numbers of neutrons, hence differing mass numbers, but a similar number of protons.

Question 94

What is an anion?

Answer 94

An anion is a negatively charged atom.

A cation is a positively charged atom.

Static electricity is the result of an imbalance between negative and positive charges in an object. It occurs when objects build up an excess of electrons (negatively charged) or lose electrons (positively charged), creating an electrical charge.

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Question 95

What is a compound?

Answer 95

A compound is a substance made of two or more elements chemically bonded to each other in a fixed ratio.

Question 96

What characterizes the chemical bonds in compounds?

Answer 96

The chemical bonds between atoms of elements in compounds involve a transfer or sharing of valence electrons.

The chemical bonding in a compound gives it different properties from its constituent elements.

Question 97

How is a compound represented, and what information does it provide?

Answer 97

A compound may be represented by a chemical formula that shows the element symbols of the atoms and their proportions, providing information about the composition of the compound.

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Question 98

Ionic Bond

Answer 98

-strong bond
-high melting points
-vitreous lusters
-higher solubility

e.g. salt

Question 99

Covalent Bond

Answer 99

-strong bonds
-hard minerals
-very high melting points
-vitreous – adamantine lusters

e.g. diamond

Question 100

Metallic Bond

Answer 100

-weak bonds
-low to high melting points
- metallic lusters
-electrically conductive

e.g. gold

Question 101

What is the significance of silicates in the Earth’s crust and minerals?

Answer 101

Silicates comprise over 90% of Earth’s crust and approximately one-third of all known minerals.

Question 102

What is the basic building block of all silicate minerals?

Answer 102

The silicate tetrahedron is the basic building block of all silicate minerals.

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Question 103

How are silicates often divided into two major groups?

Answer 103

Silicates are often divided into two major groups: ferromagnesian silicates and non-ferromagnesian silicates.

Question 104

What characterizes ferromagnesian silicates, and what elements are typically present in them?

Answer 104

Ferromagnesian silicates contain iron or magnesium ions joined to the silicate structure. They are darker and heavier minerals, examples include olivine, pyroxene, hornblende, and biotite.

Question 105

Provide examples of non-ferromagnesian silicates.

Answer 105

Non-ferromagnesian silicates include minerals like muscovite, feldspar, and quartz.

Question 106

What is the building block of carbonates?

Answer 106

The carbonate ion (CO32-) is the building block of carbonates.

The carbonate ion is composed of a carbon atom covalently bonded to three oxygen atoms.

How are groups of carbonate ions arranged in carbonates?

Question 107

How are sheets of carbonate ions linked together in carbonates?

Answer 107

Sheets of carbonate ions are linked together by layers of cations, such as Ca2+, Mg2+, Fe2+, and others.

Question 108

What factors define whether weaknesses (cleavage planes) will form in carbonate minerals?

Answer 108

The chemical bond strength and the fixed arrangement of atoms in carbonate minerals define whether weaknesses, or cleavage planes, will form.

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Question 109

How is oxygen typically bonded in oxides?

Answer 109

Oxygen is typically ionic bonded to atoms or cations of other elements in oxides.

Oxides are a principal source of metals.

An example related to oxides and gemstones is “pigeon blood” ruby, where oxides play a role in the coloration of the gemstone.

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Question 110

What are sulfides composed of?

Answer 110

Sulfides are minerals composed of one or more metal cations combined with sulfur.

Many sulfides are economically important ores.

Pyrite, also known as “fool’s gold,” is an example of a sulfide mineral.
Real gold should be soft, and both have different melting point (pyrite doesn’t really melt)

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Question 111

What characterizes minerals that belong to the sulfate group?

Answer 111

Sulfates are minerals that include SO4 anionic groups with alkali earth and metal cations.

Sulfates are minerals that include SO4 anionic groups with alkali earth and metal cations.

Question 112

Where do sulfates commonly occur?

Answer 112

Sulfates are found in various geological settings, including evaporite deposits, hydrothermal veins, and sulfide deposits.

Question 113

What characterizes minerals that belong to the phosphate group?

Answer 113

Phosphates are minerals with the PO43- ion.

The apatite group, such as hydroxyapatite, is a phosphate mineral that makes up the enamel of teeth.

Phosphates are used in the production of fertilizers.

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Question 114

What characterizes minerals that belong to the halide group?

Answer 114

Halides consist of halogen elements ionic bonding with alkali elements.

Halides are commonly found in marine evaporite deposits.

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Question 115

Star Wars: The Last Jedi Planet Crait

Answer 115

-maybe salt lake evaporated

Question 116

What characterizes minerals that belong to the native elements group?

Answer 116

Native elements are minerals that are composed of a single element.

Examples of native elements include Gold (Au), Silver (Ag), Copper (Cu), Iron (Fe), Diamonds (C), Graphite (C), and Platinum (Pt).

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