Tectonics A level Edexcel 48.

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Created by
Síofra Sims

Cards (151)

  • Hazard
    A potential threat to human life and property
  • Types of natural hazards
    • Hydro-meteorological
    • Geophysical
  • Tectonic hazards
    • Earthquakes
    • Volcanic eruptions
    • Secondary hazards
  • Seismic hazard
    Generated when rocks within 700km of the earth's surface come under stress that they break and become displaced
  • Volcanic hazard
    A landform that develops around a weakness in the earth's crust from molten magma, volcanic rock and gases are ejected or extruded
  • The global distribution of tectonic hazards is concentrated along plate boundaries, with the 'Ring of Fire' in the Pacific Ocean being particularly significant
  • Powerful earthquakes mostly occur at convergent or conservative boundaries
  • Intra-plate earthquakes are rare, they mainly occur near plate boundaries
  • Main areas for earthquakes
    • Continental fracture zone (runs mountain ranges in Spain/France to East Indies)
    • Oceanic fracture zone
  • Volcanoes mainly occur around the ring of fire
  • Volcanoes occur on plate boundaries at convergent and divergent boundaries
  • Tsunamis are a secondary hazard of earthquakes so occur on oceanic plate boundaries
  • Types of plate boundaries
    • Divergent
    • Convergent
    • Conservative
  • Divergent plate boundary

    Where plates are moving apart, typically oceanic
  • Convergent plate boundary
    Plates are pushing together, dense plate subducts (usually the oceanic plate)
  • Conservative plate boundary
    Plates are travelling parallel to each other either in the same direction or in opposite directions
  • The plate boundary type depends on the motion of the plates and plate type (oceanic or continental)
  • Intraplate earthquake
    Earthquakes that occur in the middle or interior of tectonic plates
  • Intraplate earthquakes are caused by stresses within a plate. Since plates move over a spherical surface, zones of weakness are created. Intraplate earthquakes happen along these zones of weakness.
  • Hot spots
    Form around the core of the Earth where radioactive decay is concentrated. This extreme heat creates magma plumes. These are upwellings of superheated rock that rise from deep within the Earth's mantle towards the surface
  • Hot spots and magma plumes can lead to the creation of island chains such as Hawaii. The magma plume is stationary so when the tectonic plate moves over it, a chain of volcanoes is formed. The volcanoes are active when they are above the magma plume, but become extinct as the plate moves away.
  • Lithosphere
    The uppermost layer of the Earth which is thinnest, least dense and lightest, two types: Oceanic (low density of rock, mainly basalt, thin, newly created) and Continental (high density of rock, mainly granite, thick, old)
  • Sections of the Earth
    • Lithosphere (0-100km)
    • Mantle/Asthenosphere
    • Outer Core
    • Inner Core
  • The Earth's core is hot because of primordial heat left over from the Earth's formation and radiogenic heat produced from radioactive decay
  • Mechanisms that could cause plate movement
    • Mantle Convection
    • Slab Pull
  • Mantle Convection
    Radioactive elements in the core of the Earth decay which produce a lot of thermal energy. This causes the lower mantle to heat up and rise, as the magma rises it cools down and becomes more dense and begins to sink back down to the core. These are convection currents. These convection currents push the plates.
  • Slab Pull
    Oceanic crust (which is the most dense plate) will submerge into the mantle. This pulling action drags the rest of the plate with it.
  • Sea floor spreading occurs at divergent plate boundaries, it is the continuous output of magma forming mid-ocean ridge. Paleomagnetism is evidence of this and can be used to date the age of the crust's creation.
  • The alternating polarisation of new land created. As magma cools, the magnetic elements within will align with the Earth's magnetic field, which can alternate over thousands of years. Depending on the direction of the magnetic element it can be used to work out when the rock was created.
  • Processes that cause different plate boundaries
    • Divergent
    • Constructive
    • Conservative
  • Divergent plate boundary

    Convection current moving plates apart, two different directions, slab pull at a different part of the plates
  • Constructive plate boundary

    Slab pull, convection currents moving them together
  • Conservative plate boundary

    Convection currents moving plates in same direction, slab pull happening to one/both of plates
  • Impact of plate boundary types on volcanic eruption and earthquake
    • Divergent: Small, effusive eruptions, shallow low magnitude earthquakes
    • Constructive: Frequent, violent eruptions, frequent large earthquakes
    • Conservative: Frequent shallow earthquakes, no volcanic activity
  • Benioff zone
    An area where friction is created between colliding tectonic plates, resulting in intermediate and deep earthquakes
  • Earthquake
    A sudden release of stored energy, causing a jolting motion in the plates that spreads seismic waves
  • Focus
    The point underground where the earthquake originates from
  • Epicentre
    The area above ground that is directly above the focus
  • Intensity
    A measure of the ground shaking
  • Types of earthquake waves
    • P-waves (primary waves)
    • S-waves (secondary waves)
    • L-waves (love waves)