5.4.1

Question 1

On what type of plate margins do earthquakes occur?

Answer 1

Earthquakes occur on all plate margins - constructive, destructive, collision and conservative
The most powerful earthquakes are usually associated with destructive or collision plate margins

Question 2

What type of earthquakes occur not at plate margins?

Answer 2

Intra-plate earthquakes are those which do not happen at plate margins - these are often linked to hot spots or old fault lines

Question 3

Define earthquake

Answer 3

An earthquake is the sudden, violent shaking of the ground

Question 4

Explain formation of earthquake

Answer 4

When tectonic plates move, they can become locked together causing stress and pressure to build
Eventually, the stress becomes so great that the rocks fracture and the pressure is suddenly released
This causes intense ground shaking for seconds to minutes

Question 5

What is the focus?

Answer 5

The focus is the point at which the earthquake starts below the Earth’s surface: the energy released by the earthquake travels out from the focus

Question 6

What is the epicentre?

Answer 6

The epicentre is the point on the Earth’s surface directly above the focus

Question 7

What are the characteristics of earthquakes at a constructive plate boundary?

Answer 7

At a constructive plate boundary, earthquakes tend to be weaker as the plates are moving apart
For example, Iceland is located at the Mid-Atlantic Ridge and experiences lots of earthquakes on a daily basis, though most of them have a magnitude of less than 3.0

Question 8

What are the characteristics of earthquakes occurring at destructive, collision and conservative plate boundaries?

Answer 8

At destructive, collision zone and conservative plate boundaries, earthquakes tend to be stronger
For example, the 2011 Tohoku earthquake in Japan which occurred on a destructive margin had a magnitude of 9.0-9.1

Question 9

Hoe earthquakes occur?

Answer 9

Tectonic plates move due to convection currents and processes like slab pull and ridge push
Plates get stuck and become locked together due to friction
This causes rocks to deform and leads to a build-up of stress and pressure
When the strength of the rock is exceeded, it fractures (breaks)
This releases the energy in a process known as elastic rebound
The point where the rocks fracture is known as the focus
Seismic waves travel outward from the focus towards the Earth’s surface, causing the ground to shake
The epicentre is the point on the Earth’s surface directly above the focus

Question 10

What shockwaves are?

Answer 10

The movement felt during an earthquake is the result of seismic shockwaves
These are the released energy radiating through the Earth

Question 11

What are the characteristics of primary seismic waves ( P waves)?

Answer 11

Body wave
Fastest
Reach the surface first
Travel through liquids and solids
Cause backwards and forwards shaking
Least damaging

Question 12

What are the characteristics of secondary waves (S waves)?

Answer 12

Body wave
Slower than P waves
Only travel through solids
Cause a sideways motion
More damaging

Question 13

What are the characteristics of Love (L waves)?

Answer 13

Surface wave
Slowest
Cause a side-to-side motion
Larger and energy is focused on the surface
Most damaging

Question 14

When liquefaction occurs>

Answer 14

Liquefaction occurs when the shaking causes loose or saturated soils to lose their strength
This causes them to act like a liquid rather than a solid and can result in significant damage to buildings and infrastructure

Question 15

Outline the example of liquefaction

Answer 15

For example in the 2011 Christchurch earthquake in New Zealand, significant liquefaction caused damage to approximately 20,000 properties

Question 16

Outline the process of liquefaction (4 marks)

Answer 16

Liquefaction occurs when compacted sediments lose strength and stiffness in response to an applied stress such as shaking during an earthquake (1). Material that is ordinarily a solid behaves like a liquid (1) (d). Liquefaction requires a degree of soil saturation to occur (1) (d).
The phenomenon is most often observed in saturated, loose (low density or uncompacted), sandy soils (1). This is because loose sand has a tendency to compress when a load is applied (1) (d).

Question 17

Define landslide

Answer 17

A landslide is the downward movement of soil and rock on a slope

Question 18

How landslides occur?

Answer 18

The intense shaking during an earthquake may trigger the collapse of material downhill
The risk of landslides is greater where soils are looser, slopes are steeper and where the shaking lasts longer or is particularly intense
For example, in the 2008 Sichuan earthquake in China, approximately 60,000 landslides were a major factor contributing to the devastation
The 2015 Gorka earthquake in Nepal also triggered more than 3000 avalanches and landslides

Question 19

Explain how tsunamis occur?

Answer 19

When an earthquake occurs beneath the sea bed this can lead to a tsunami
As the sea bed jolts, water is displaced and forced upwards creating a wave
As the waves approach the land they slow and the wavelength becomes compressed
This leads to an increase in wave height: they frequently reach 5-10 metres, but can reach 30 metres
As the wave reaches the shore a vacuum is created and the water recedes rapidly out to sea leaving the sea bed exposed

Question 20

Where tsunamis usually occur?

Answer 20

Tsunamis usually occur close to plate boundaries and are most common in the area surrounding the Pacific Ocean - ‘Ring of Fire’

Question 21

Provide an example of tsunami

Answer 21

For example, the 2011 Tohoku earthquake in Japan triggered tsunami waves of up to 40 metres which travelled inland for several kilometres in some areas