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Our last hazards video ended with us saying...
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As you'll see in our next video,
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the real action happens along the edges of the tectonic plates.
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So, now it's time to take a look at plate boundaries,
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sometimes also called plate margins,
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which are all of the parts of the world where one tectonic plate is next to another. (MUSIC).
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Constructive sometimes also called divergent plate boundaries exist in the parts
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of the world where magma is rising up in the mantle below,
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this rising magma cools off and spreads out.
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Some of it solidifies and creates new crust which begins
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to slowly move apart as two separate tectonic plates.
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These types of boundary mostly appear at the bottom of the sea.
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(Under the sea).
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There are some places like Iceland where you can actually
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see evidence on land of the tectonic plates splitting apart.
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So, what type of hazards do we find here and why?
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Let's start with volcanoes.
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Some of the magma along with gases like carbon dioxide can
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melt through the crust and get released out of the surface,
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which is basically what a volcanic eruption is.
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So, yeah,
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we get volcanoes often with lots of lava.
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Earthquakes do happen at constructive boundaries,
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but they aren't usually that powerful.
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You see an earthquake happens when tectonic plates
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get stuck or grind against each other.
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And it just doesn't happen very much at this kind
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of boundary because the plates are mostly moving apart.
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Destructive,
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sometimes also called convergent boundaries are areas where
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tectonic plates are being carried towards each other.
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But there are actually two different types.
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If an oceanic plate is moving towards a continental plate,
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the oceanic plate is forced underneath because it
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is denser in a process we call subduction.
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As the oceanic plate sinks into the mantle, water and things like
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dead plankton on the sea floor are dragged down with it.
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These are turned into water vapor and carbon dioxide which bubble upwards
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and melt through the continental crust above get trapped in the rock.
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Pressure begins to build up much like it does when you shake a bottle of fizzy drink,
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and eventually the pressure in the crust becomes too great and the gas
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and lava violently explode out of the rock in a volcanic eruption.
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Extremely powerful earthquakes can also happen in these destructive boundaries.
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The oceanic crust doesn't simply slide gently past a continental plate.
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These huge rough slabs of rock are constantly
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grinding against and getting stuck on each other.
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And when they do get stuck, the continental
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plate starts getting dragged down with the oceanic plate.
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It builds up a huge amount of energy as this happens.
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And when the plates finally become unstuck,
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the plate violently jumps upwards,
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releasing all of the stored energy and causing intense shaking in the ground.
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We know this as an earthquake.
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The second type of destructive plate boundary is known as a collision boundary.
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The big difference here is that both of the tectonic plates are continental,
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so they have roughly the same density.
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They crash head-on and crumple upwards, creating what we call fold mountains.
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You can see this is happening between tectonic plates like the Indian and
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Eurasian plates where the force of the two plates colliding has created a mighty
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Himalayas mountain range.
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As you can imagine, the process of forming a mountain range isn't as smooth.
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The plates grind and crack and buckle upwards over millions of years
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and at times they get locked together and get stuck on each other.
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Eventually, the plates build up enough energy to become unstuck.
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The plates jolt back into movement and an earthquake is created.
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Oh and don't confuse these mountains of volcanoes.
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There's no magma rising up from underneath them,
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so you don't get any volcanic eruptions at collision boundaries.
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Conservative boundaries, sometimes also called
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transform boundaries are so named because
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the tectonic plates are not being constructed or destroyed here,
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so it is conserved which means to be kept the way it is.
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These conservative boundaries happen at places where two
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tectonic plates are sliding past each other,
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either in opposite directions or in the same direction at different speeds.
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The edges of the plate get stuck on each other as they grind past and
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you probably know the rest by now,
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it builds up energy and after a while they jolt back into moving again
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and the energy gets released causing the ground to shake,
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earthquake.
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Following the same rules as before,
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there is no magma rising up underneath the crust at a boundary like this. So,
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you guessed it,
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no volcanoes.
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And that will be all for this video.
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As always thank you very much for tuning in
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and if you enjoy our content, please consider liking and subscribing
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and also
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hit the little bell ding if you wish to be notified every time we upload a new video.
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As always,
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you've been listening to The Mountain Man and watching the work of Michael Deluxe.
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Remember,
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keep it simple. (MUSIC).
BYU Continuing Education
