Chapter 2

Question 1

Which source of energy fuels earthquakes and volcanoes?

Answer 1

• Earth’s internal energy

Question 2

Our Solar System was born about 4.6 billion years ago from an interstellar cloud. Put the stages in which the solar system formed in order below, with the first stage at the top and the final at the bottom

Answer 2

• 1) a rotating spherical cloud is made up of gas, ice, dust, and other solid debris
• 2) matter is drawn inward, the speed of rotation increases, and the mass flattens in a disk
• 3) matter accumulates in the center, building the sun
• 4) particles collide, forming larger bodies that become the planets

Question 3

It is widely believed that the solar system formed through _____.

Answer 3

• collisions of matter within a rotation cloud of gas and dust

Question 4

Hydrogen and helium are both _____ elements.

Answer 4

• lightweight

Question 5

Convergent

Answer 5

• plates move towards each other

Question 6

Divergent

Answer 6

• plates move away from each other

Question 7

Transform

Answer 7

• plates slide horizontally past each other

Question 8

The _____, which is composed of the crush and the uppermost mantle, is the rigid, outermost portion of the Earth.

Answer 8

• lithosphere

Question 9

The ____ is a thick layer of dense rock that comprises 83% of the Earth’s volume and 67% of its mass.

Answer 9

• mantle

Question 10

The four inner planets are ______.

Answer 10

• Mars, Mercury, Earth, Venus

Question 11

A failed rift can occur when _____.

Answer 11

• a rift fails to open enough to form a spreading center

Question 12

In a subduction zone, the less-dense, most buoyant tectonic plate is called the _______.

Answer 12

• overriding

Question 13

The following are types of tectonic environments

Answer 13

• transform plate boundaries
• divergent zones
• convergent zones

Question 14

Which of these Earth’s layers has the lowest density?

Answer 14

• crust

Question 15

What is the name of the outer, low-density layer of Earth, rich in silicon and oxygen?

Answer 15

• crust

Question 16

The Earth’s core, which is composed mostly of iron, is divided into the _____ inner core and the _____ outer core.

Answer 16

• solid, liquid

Question 17

The lithosphere, asthenosphere, mesosphere, outercore, and innercore are layers of the Earth that are distinguished from one another by their _____.

Answer 17

• strengths

Question 18

___ ____ is the study of movements and interactions of the plates.

Answer 18

• plate techtonics

Question 19

Taken from the Greek word meaning ‘to build’, the term ____ describes the building of topography and the deformation and movement within Earth’s outer layers.

Answer 19

• techtonics

Question 20

Which bathymetric feature is formed at spreading centres?

Answer 20

• mid-ocean ridge

Question 21

Which of these features of the Earth are likely the result of widespread melting during the formation of the Earth’s core?

Answer 21

• the crust, which is made of low-density rocks
• a dense atmosphere
• large oceans

Question 22

What is the magnitude of the largest earthquake ever recorded?

Answer 22

• 9.5

Question 23

Which of the following are sources of heat generated during the formation of Earth?

Answer 23

• gravitational energy
• impact energy
• radioactive decay

Question 24

The hot material rising to the Earth’s surface at hot spots originates from deep in the ___.

Answer 24

• mesosphere

Question 25

The Earth in its infancy probably grew from _____ that formed a more or less homogeneous mixture of materials.

Answer 25

• random collisions of debris

Question 26

The movement of molten iron inward to form the Earth’s core resulted in ____.

Answer 26

• the release of gravitational energy, which converted to heat.

Question 27

The concept of _____ explains how mountain ranges float on the denser mantle.

Answer 27

• isostacy

Question 28

The four outer planets of the solar system are mostly composed of

Answer 28

• hydrogen, helium, and other frozen materials

Question 29

In which direction is the Pacific plate currently moving?

Answer 29

• North-west

Question 30

When does subduction occur?

Answer 30

• when a dense lithosphere plate descends beneath a less dense lithosphere plate.

Question 31

______ is when heat is transferred as electromagnetic waves.

Answer 31

• radiation

Question 32

The creation of new oceanic lithosphere at an oceanic ridge and its movement away from the ridge is known as ____.

Answer 32

• seafloor spreading

Question 33

What is subduction?

Answer 33

• the sinking of a dense lithospheric plate under a less–dense lithospheric plate.

Question 34

What is the magnetic polarity of lava which cooled 1.5 Ma ago?

Answer 34

• reverse polarity

Question 35

The core, mantle, and crust are layers of the Earth that are distinguished from one another by their different ____.

Answer 35

• densities

Question 36

The sun’s energy comes from ____.

Answer 36

• the fusion of hydrogen to form helium

Question 37

Where is the San Andreas fault located?

Answer 37

• At the boundary between the Pacific and North American plates.

Question 38

The outer layers of the Earth were active in the process of plate techtonics by ____ billion years ago.

Answer 38

• 2.5

Question 39

Why does the age of ocean basins not exceed approximately 200 Ma?

Answer 39

• the oceanic crust is constantly being recycled by plate techtonics

Question 40

Across which parts of the world did Wegener match fossils in order to support his theory of continental drift?

Answer 40

• South America, Africa, Antartica, India, Australia

Question 41

Earth appears to have begun as an aggregating mass of particles and gases about ____ years ago.

Answer 41

• 4.6 billion

Question 42

What is the orientation of magnetization patterns on the seafloors?

Answer 42

• magnetic stripes are parallel to mid-ocean ridges

Question 43

The Hudson Bay area is currently experiencing isostatic adjustment following _____.

Answer 43

• the removal of the ice sheets at the end of the last ice age.

Question 44

What will happen if rifting continues along the East African rift system?

Answer 44

• the African and Somali plates will be separated by a new ocean.

Question 45

Why are the Himalayas rising a few millimeters per year?

Answer 45

• India is colliding against the Eurasian plate and both plates have the same density which prevents subduction from happening.

Question 46

The _____ formed through collisions of particles that accreted together, forming larger objects.

Answer 46

• planets

Question 47

What corresponds to the outline of the plate boundaries?

Answer 47

• the location of earthquake epicenters

Question 48

Which bathymetric feature is formed when an oceanic plate is subducting?

Answer 48

• oceanic trench

Question 49

asteroids

Answer 49

• small, rocky bodies that orbit the sun

Question 50

asthenosphere

Answer 50

• the layer of the Earth below the lithosphere in which isostatic adjustments take place. The rocks here deform readily and flow slowly.

Question 51

atmosphere

Answer 51

• the gaseous envelope around the Earth, composed chiefly of nitrogen and oxygen. The average atmospheric pressure at sea level is 101.3 kPa.

Question 52

bathymetry

Answer 52

• the mapping of depths of water in oceans, rivers, and lakes; the underground equivalent of topography.

Question 53

brittle

Answer 53

• property of material in which stress causes abrupt fracture.

Question 54

chondrules

Answer 54

• small, glassy spheres crystallized in space from semi-molten or molten droplets of rock.

Question 55

comets

Answer 55

• icy bodies moving through outer space.

Question 56

compression

Answer 56

• a state of stress that causes a pushing together or contraction.

Question 57

conduction

Answer 57

• a process of heat transfer through collisions between particles. Hot, rapidly vibrating particles transfer kinetic energy to neighbouring colder, slow-moving particles.

Question 58

continetnts

Answer 58

• lower-density masses of rock, exposed as about 40% of the Earth’s surface: 29% as land and 11% as the floor of shallow seas.

Question 59

convection

Answer 59

• a process of heat transfer through movement of a fluid; for example, air or water.

Question 60

convergent zones

Answer 60

• linear areas where plates collide and move closer together. There are zones of earthquakes, volcanoes, mountain ranges, and deep-ocean trenches.

Question 61

core

Answer 61

• the central zone of the Earth about 2900km below the surface. The core is made mostly of iron and nickel, and exists as a solid inner zone surrounded by a liquid outer shell. The Earth’s magnetic field originates within the core.

Question 62

crust

Answer 62

• the outermost layer of the lithosphere, composed of relatively low-density materials. The continental crust has lower density than the oceanic crust.

Question 63

curie point

Answer 63

• the temperature above which a material will not be magnetic.

Question 64

divergent zones

Answer 64

• linear zones formed where plates pull apart; for example, spreading centers.

Question 65

ductile

Answer 65

• behaviour of material where stress causes permanent flow or strain.

Question 66

elastic

Answer 66

• behaviour of material where stress causes deformation that is recoverable; when stress stops, the material returns to its original state.

Question 67

elements

Answer 67

• distinct varieties of matter; atoms are the smallest particles of elements.

Question 68

epicentre

Answer 68

• the point on the surface of Earth directly above the fault that moved to generate an earthquake (i.e. the point directly above the hypocentre)

Question 69

erosion

Answer 69

• the processes that loosen, dissolve, and wear away earth materials. Active agents include gravity, streams, glaciers, winds, and ocean waves.

Question 70

failed rifts

Answer 70

• spreading centres that did not open wide enough to create ocean basins.

Question 71

faults

Answer 71

• fractures in rocks where the two sides move relative to each other.

Question 72

force

Answer 72

• mass times excelleration

Question 73

glaciers

Answer 73

• large masses of ice that flow down slope or outward

Question 74

Gondwanaland

Answer 74

• a southern super-continent that included South America, Africa, Antarctica, Australia, New Zealand, and India from about 18 to 75 million years ago.

Question 75

gravity

Answer 75

• the attraction between bodies of matter

Question 76

heat

Answer 76

• the capacity to raise the temperature of a mass, expressed in joules.

Question 77

hot spots

Answer 77

• places on earth where plumes of magma have risen upward from deep in the mantle and through plates to reach the surface.

Question 78

hydrologic cycle

Answer 78

• the solar-powered cycle where water is evaporated from the oceans, dropped on the land, as rain and snow, and pulled by gravity back to the oceans as glaciers, streams, and groundwater.

Question 79

hypocente

Answer 79

• the initial portion of a fault that moved to generate an earthquake. Hypocenters are below the ground surface; epicentres are projected above them on the surface.

Question 80

island arc

Answer 80

• a curved linear belt of volcanoes above an oceanic-oceanic subduction zone; for example, Japan.

Question 81

isostasy

Answer 81

• the condition of equilibrium wherein the Earth’s crust floats upward or downward as loads are removed or added.

Question 82

isotopes

Answer 82

• any of two more more forms of the same element. The number of protons is fixed for nay element, but the umber of neutrons in the nucleus can vary, thus producing isotopes.

Question 83

Laurasia

Answer 83

• a northern super continent that included most of North America, Greenland, Europe, and Asia (excluding India) from about 18-75 million years ago.

Question 84

lithosphere

Answer 84

• the outer rigid shell of the earth that lies above the asthenosphere and below the atmosphere and hydrosphere.

Question 85

magnetic field

Answer 85

• a region where magnetic forces affect any magnetized bodies or electric currents. Earth is surrounded by a magnetic field.

Question 86

magnetic pole

Answer 86

• either of two regions - the north and south poles - where the lines of force of the magnetic field are perpendicular to the earths surface. Magnetic poles do not coincide with geographic poles but are in their vicinity

Question 87

mantle

Answer 87

• the largest zone of the Earth comprising 83% by volume and 67% by mass.

Question 88

mesosphere

Answer 88

• the mantle from the base of the asthenosphere to the top of the core.

Question 89

meterorites

Answer 89

• stony or iron-rich space objects that passed through the atmosphere and landed on the surface of the earth.

Question 90

nuclear fission

Answer 90

• splitting the nucleus of an atom with resultant release of energy.

Question 91

nuclear fusion

Answer 91

• combining of smaller atoms to make larger atoms with a resultant release of energy.

Question 92

Pangaea

Answer 92

• a super continent that existed during late paleozoic time when all the continents were unified into a single landmass.

Question 93

plastic

Answer 93

• the behaviour of a material that flows as a fluid (liquid) over time, but is strong (solid) at a moment in time.

Question 94

plate techtonics

Answer 94

• the description of the movement of plates and the effects caused by plate formation, collision, subduction, and slide past.

Question 95

plates

Answer 95

• pieces of lithosphere that move atop the asthenosphere. There are a dozen large plates and many smaller ones.

Question 96

plumes

Answer 96

• upwellings of magma rising from deep in the mantle.

Question 97

radiation

Answer 97

• a process of heat transfer where energy is emitted as electromagnetic waves

Question 98

radioactive elements

Answer 98

• unstable elements containing excess subatomic particles that are emitted to achieve smaller, more stable atoms.

Question 99

ridges

Answer 99

• long and narrow volcanic mountain ranges

Question 100

rift

Answer 100

• the valley created at a pull-apart zone

Question 101

seafloor spreading

Answer 101

• the movement of two oceanic plates away from each other resulting in magma welling up and solidifying to create new ocean floor.

Question 102

sediments

Answer 102

• fragments of material of either inorganic or organic origin. Sizes are gravel, sand, silt, and clay. (mixture of silt and clay forms mud)

Question 103

shear stress

Answer 103

• a state of stress that causes internal planes within a body to move parallel to each other.

Question 104

solar radiation

Answer 104

• the energy emitted from the sun mostly in the infrared visible light, and ultraviolent wavelengths.

Question 105

spreading centres

Answer 105

• sites where plates pull apart and magma flows upward to fill the gaps and then solidifies as new ocean fools.

Question 106

strain

Answer 106

• a change in form or size of a body due to external forces.

Question 107

stress

Answer 107

• force per area; forces include shear, tension, and compression.

Question 108

subduction

Answer 108

• the process of one lithospheric plate descending beneath another one.

Question 109

techtonic cycle

Answer 109

• describes how new lithospheric forms at oceanic volcanic ridges, how lithospheric plates spread apart to open ocean basins, and how the oceanic plates are ultimately reabsorbed into the mantle at subduction zones.

Question 110

tension

Answer 110

• a state of stress that tends to pull the body apart.

Question 111

topography

Answer 111

• the mapping of the shape of the surface of the Earth; the land equivalent of bathymetry.

Question 112

transform faults

Answer 112

• strike-slip faults that connect the ends of two offset spreading centres.

Question 113

trenches

Answer 113

• the elongate and narrow troughs where ocean water can be more than twice as deep as usual. Trenches mark the down going edges of subduction plates.

Question 114

triple junction

Answer 114

• a place where three plate edges meet

Question 115

viscous

Answer 115

• resistant to flowing. The more viscous a substance, the less readily it flows.

Question 116

volcanoes

Answer 116

• openings of the Earth’s surface where magma has poured or blown forth, typically creating hills or mountains.