nothing. other than floating on magma and causing earthquake
Gin and tonic with extra lime
I saw a man juggling six plates! We are using paper plates this evening.
This is an energy drink.
AnswerThe continental plates are made up of largely granitic rock, while the oceanic plates are largely basaltic rock. Certainly some other types of rock are included, but these are the largest contributors to the material or composition. A link is provided below for more information.
Oceanic plates are primarily made up of basaltic rock while continental plates are primarily made of granitic rock. Basalt is denser than granite which allows oceanic plates to subduct beneath continental plates.
Near the tech-tonic plates of the earth.
Synonym: Tectonic boundary Antonym: Interior boundary
that where the tech tonic plates are split so mountains form and then the magma rises and occurs
When tectonic plates collide with oceanic plates, the denser oceanic plate is usually forced beneath the less dense continental plate in a process called subduction. This can lead to the formation of volcanic arcs and deep ocean trenches. The collision can also cause earthquakes and crustal deformation.
it is 30000 baby
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The earth has a series of tech tonic plates which shift every one-in-a-while. Thus a series of vibrations induced in the earth's crust by the abrupt rupture and rebound of rocks in which elastic strain has been slowly accumulating.
They are located around the "ring of fire" and or the Pacific plate, this is because it it the largest and lightest piece of tech tonic plate and all the other plates grind against it making multiple volcanoes and earthquakes around it, hens forth "the ring of fire".
To be surrounded by water on all sides, and not located on the majority of a tech-tonic plate
Folded mountains are formed primarily by the collision and compression of tectonic plates, resulting in the folding of rock layers. This process is driven by the immense forces generated by the movement of Earth's crustal plates. Over time, the accumulation of pressure causes the rocks to bend and fold, creating the characteristic structures of folded mountains.
The North American plate and the pacific plates slide past each other. They push and pull on the crust with enormous force, causing an earthquake.
Cold ocean currents sink under warm ocean currents to form deep ocean currents.