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Tectonic PlatesConvection CurrentsDestructive Plate BoundariesConstructive Plate BoundariesConservative Plate BoundariesSummary. Tectonic PlatesTectonic plates are sections of the Earth's solid crust that float" on top of the mantle. The mantle contains hot. molten rock (magma) heated by en
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1.
Tectonic Activity
Plates
2. Tectonic Plates
Convection Currents
Destructive Plate Boundaries
Constructive Plate Boundaries
Conservative Plate Boundaries
Summary
3. Tectonic Plates
Tectonic plates are sections of the Earth’s solid crust that “float” on top of the mantle. The mantle contains hot. molten rock (magma) heated by energy from the earth's core
The earth’s crust is made up of seven main tectonic plates and many smaller plates.
4. There are two main types of tectonic plate:
Oceanic plates are relatively thin (about 6-10 km) and contain very heavy (dense) rocks such as basalt.
Continental plates are considerably thicker (35-40 km) but contain lighter (less dense) rocks such as granite.
The plates fit together like pieces of a large jigsaw. Tectonic plates meet along four main types of plate boundaries.
5. The tectonic plates are in constant motion travelling at a few centimetres per year.
The ocean floors are continually moving, spreading from the centre and sinking at the edges.
Where plates meet, huge forces build up causing earthquakes and volcanoes and the formation of fold mountains and deep-sea trenches.
6. Convection Currents
Hot currents of molten rock called convection currents move slowly within the earth's mantle which moves the tectonic plates above them in different directions.
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The source of heat driving the convection currents is radioactive decay which is happening deep in the Earth. Convection occurs because the density of a fluid is related to its temperature. Hot rocks lower in the mantle are less dense than their cooler counterparts above. The hot rock rises and the cooler rock sinks due to gravity.
7. Destructive Plate Boundaries 1 – (aka Convergent or Compressional)
a) Oceanic plate colliding with a Continental plate
When an oceanic plate and a continental plate move towards each other the denser oceanic plate dives under the lighter continental one creating a deep ocean trench.
8. Destructive Plate Boundaries 2 – (aka Convergent or Compressional)
b) Continental plate colliding with a continental plate
When continental plates collide, they crumple and create fold mountains
Where two continental crusts collide neither can sink
Instead they push into each other forcing material to be folded up into huge mountain ranges
Often this movement and pressure can cause earthquakes, but no volcanoes occur on these boundaries
Example: Himalayas created where the Indian Plate meets the Eurasian Plate.
9. Destructive Plate Boundaries 3 – (aka Convergent or Compressional)
c) Oceanic plate colliding with oceanic plate
When two oceanic plate meet each other (oceanic-oceanic) this often results in the formation of an island arc system. As the subducting oceanic crust melts, as it goes deeper into the Earth, the newly-created magma rises to the surface and forms volcanoes. If the activity continues, the volcano may grow tall enough to break the surface of the ocean creating an island.
Examples of an island arc are the West Indies and Japan
10. Constructive Plate Boundaries – (aka Divergent or Tensional)
When two plates move away from each other, they create a gap between them. Molten rock (magma) rises from the mantle to fill the gap forming a mid-ocean ridge
Constructive plate boundaries cause mid-ocean ridges, volcanoes and earthquakes, though they are often less violent than those on destructive plate boundaries.
Volcanoes can form along the edges of the plate boundary due to the rising magma. These volcanoes are called shield volcanoes.
Example: the North American plate moving away from the Eurasian plate formed the Mid-Atlantic Ridge and created Iceland through volcanic activity.
11. Plate Boundaries – Conservative (aka Passive) plates
When two tectonic plates slide past each other without creating or destroying any land they form a conservative plate boundary.
The plates often get stuck as they try to move past each other due to friction. Over time this builds up great pressure until finally they jolt past each other. The sudden movement causes an earthquake which may be violent and cause great damage.
Example: the San Andreas Fault where the N. American Plate meets the Pacific Plate
12. Summary
Plates are sections of the Earth’s crust that float on top of the mantle
There are two types of plate - Oceanic & Continental
Convection currents cause the plates to move
Oceanic colliding with a Continental (destructive) = deep open trench, possible volcanic eruptions
Continental colliding with a Continental (destructive) = fold mountains formed
Oceanic colliding with an Oceanic (destructive) = Island Arc system formed
Plates moving apart (constructive plate boundaries) = mid-ocean ridges, volcanoes and earthquakes can result
Plates sliding past each other (conservative plate boundaries) = no landforms but they can cause damaging earthquakes