Pregunta 1
Pregunta
Complete the table on properties of seismic waves.
Respuesta
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Longitudinal
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Transverse
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Lateral movement
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Can travel through solids and liquids
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Controlled by incompressibility
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Body waves
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Cannot pass through liquids
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Controlled by rigidity
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Travel at 70% of the speed of P waves
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Reflected by Moho
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Last to arrive
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Surface wave
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Large amplitude
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Long wavelength
Pregunta 2
Pregunta
Complete the table to show how earthquakes are classified by the depth of the focus.
Respuesta
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0-70km
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70-300km
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300-700km
Pregunta 3
Pregunta
Earthquakes do not [blank_start]originate[blank_end] at depths greater than 720km because deeper, warm rocks are not [blank_start]brittle[blank_end] enough to [blank_start]fracture[blank_end] so [blank_start]faults[blank_end] do not occur.
Respuesta
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originate
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brittle
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fracture
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faults
Pregunta 4
Pregunta
What is the rigidity of a liquid?
Pregunta 5
Pregunta
The S wave shadow zone is found at:
[blank_start]103[blank_end] degrees to [blank_start]103[blank_end] degrees.
The P wave shadow zone is found at:
[blank_start]103[blank_end] degrees to [blank_start]142[blank_end] degrees.
Pregunta 6
Pregunta
Body waves travel through the interior of the Earth.
Pregunta 7
Pregunta
Surface waves travel just below the Earth's surface.
Pregunta 8
Pregunta
L waves lose energy slowly with distance away from the epicentre.
Pregunta 9
Pregunta
Body waves are responsible for damage to buildings.
Pregunta 10
Pregunta
Focus = The point [blank_start]within[blank_end] the Earth at which the earthquake originates.
[blank_start]Epicentre[blank_end] = the point on the Earth's surface, directly [blank_start]above[blank_end] the focus and shows where the greatest amount of [blank_start]damage[blank_end] is likely to occur.
Respuesta
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within
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Epicentre
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above
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damage
Pregunta 11
Pregunta
Isoseismal line = A [blank_start]line[blank_end] on a map which joins up points of equal [blank_start]intensity[blank_end], separating zones of different intensities.
Pregunta 12
Pregunta
At the Gutenberg discontinuity P waves slow down and refract from their original path.
Pregunta 13
Pregunta
S waves can travel through liquids.
Pregunta 14
Pregunta
Mercalli Scale:
- Measures the [blank_start]intensity[blank_end] of an earthquake based on the [blank_start]effects[blank_end] felt in a particular area.
- It is a [blank_start]12[blank_end] point [blank_start]arbitrary[blank_end] scale.
Respuesta
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intensity
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effects
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12
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arbitrary
Pregunta 15
Pregunta
Richter Scale:
- Measures the [blank_start]magnitude[blank_end] of an earthquake by recording the [blank_start]amplitude[blank_end] of seismic waves.
- The values are then converted into a [blank_start]logarithmic[blank_end] scale.
Respuesta
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magnitude
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amplitude
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logarithmic
Pregunta 16
Pregunta
Define the term magnitude.
Pregunta 17
Pregunta
Define the term intensity.
Pregunta 18
Pregunta
Amplitude of L-waves in different types of rock:
Solid, [blank_start]competent[blank_end] rocks allow vibrations to pass through easily.
Waves are transferred with minimal damage to structures.
L wave amplitude is [blank_start]low[blank_end].
[blank_start]Unconsolidated[blank_end] sediment [blank_start]oscillates[blank_end] freely.
L wave amplitude [blank_start]higher[blank_end].
Intensity [blank_start]greater[blank_end] than on consolidated rock.
Respuesta
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competent
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Unconsolidated
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oscillates
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low
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higher
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greater
Pregunta 19
Pregunta
Define: Seismograph
Respuesta
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A device which receives and records seismic vibrations.
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A device which receives seismic vibrations and converts them into s signal which can be transmitted and recorded.
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A paper or electronic record made by a seismograph.
Pregunta 20
Pregunta
Define: Seismometer
Respuesta
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A paper or electronic record made by a seismograph.
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A device which receives seismic vibrations and converts them into a signal which can be transmitted and recorded.
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A device which receives and records seismic vibrations.
Pregunta 21
Pregunta
Define: Seismogram
Respuesta
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A device which receives and records seismic vibrations.
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A device which receives seismic vibrations and converts them into s signal which can be transmitted and recorded.
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A paper or electronic record made by a seismograph.
Pregunta 22
Pregunta
Earthquakes occur in solid, [blank_start]brittle[blank_end], competent rocks as they suddenly [blank_start]fracture[blank_end] and move relative to each other.
The seismic energy [blank_start]released[blank_end] is transmitted through the rocks as seismic [blank_start]waves[blank_end].
Weak incompetent rocks steadily [blank_start]deform[blank_end] under stress by folding or plastic flow. They do not [blank_start]fracture[blank_end] so earthquakes cannot occur.
Respuesta
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brittle
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fracture
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released
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waves
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deform
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fracture
Pregunta 23
Pregunta
How will intensity and damage to buildings change if underlying geology consists of unconsolidated sands?
The intensity will [blank_start]increase[blank_end] as unconsolidated sands [blank_start]absorb[blank_end] the seismic waves, which decreases the wave [blank_start]speed[blank_end] and increases the wave [blank_start]amplitude[blank_end], resulting in greater [blank_start]damage[blank_end] to buildings.
Respuesta
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increase
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absorb
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speed
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amplitude
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damage
Pregunta 24
Pregunta
The [blank_start]amplitude[blank_end] of seismic waves is larger in unconsolidated sediments resulting in greater [blank_start]damage[blank_end] to buildings.
In consolidated sediment the seismic waves are [blank_start]dampened[blank_end].
Respuesta
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amplitude
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damage
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dampened
Pregunta 25
Pregunta
Physical effects of earthquakes:
Ground [blank_start]movement[blank_end]
Damage to [blank_start]structures[blank_end]
L[blank_start]iquefaction[blank_end]
Land[blank_start]slips[blank_end]
After[blank_start]shocks[blank_end]
T[blank_start]sunamis[blank_end]
Respuesta
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movement
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structures
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iquefaction
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slips
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shocks
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sunamis
Pregunta 26
Pregunta
Social and economic effects of earthquakes:
Infrastructure and c[blank_start]ommunications[blank_end] damaged affects how quickly people can respond to effects of earthquake.
Damaged water pipes can affect supply of clean water and lead to risk of disease spreading.
D[blank_start]eath[blank_end] and i[blank_start]njury[blank_end] of people impacting families.
Loss of p[blank_start]ower[blank_end] supply.
Respuesta
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eath
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njury
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ower
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ommunications
Pregunta 27
Pregunta
How do earthquakes cause liquefaction?
Pregunta 28
Pregunta
How do earthquakes cause tsunamis?
A large [blank_start]volume[blank_end] of water is displaced as a result of the earthquake being at a shallow depth below the sea.
Pregunta 29
Pregunta
How can the impact of an earthquake be reduced on built structures?
Flexible pipes and electricity [blank_start]cables[blank_end]
- prevents pipes from [blank_start]fracturing[blank_end] / stops [blank_start]fires[blank_end]
Cross-bracing
- [blank_start]strengthens[blank_end] building
Mass on roof of tall buildings / [blank_start]damping[blank_end]
- acts as a counterbalance as the building [blank_start]sways[blank_end]
[blank_start]Pyramid[blank_end] shaped structure
- more stable due to [blank_start]wider[blank_end] base
Base [blank_start]isolation[blank_end]
- [blank_start]absorbs[blank_end] ground vibrations
Reinforced [blank_start]foundations[blank_end]
- provides greater [blank_start]support[blank_end] and firmer base
Respuesta
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cables
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fracturing
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fires
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strengthens
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damping
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sways
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Pyramid
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wider
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isolation
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absorbs
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foundations
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support