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Plate tectonics.
yes, just very slowly
Because the mantle has convection currents that push the plates around very slowly.
The plate tectonic theory is the belief that the earth's surface moves gradually over time and is not fixed. The theory holds true to the evidence of earthquakes which are the result of plates moving in opposite directions against each other.
The crust. These plates of the earth's surface/crust slowly move over the magma in the earth because of convection and other forces. The theory of these plates moving is known as 'plate tectonics'.
Plate tectonics.
Plate tectonics.
rocks
No, both the continental and oceanic plates are always moving. Moving slowly, but always moving.
Because they are moving very slowly.
yes, just very slowly
Because the mantle has convection currents that push the plates around very slowly.
The plate tectonic theory is the belief that the earth's surface moves gradually over time and is not fixed. The theory holds true to the evidence of earthquakes which are the result of plates moving in opposite directions against each other.
The crust. These plates of the earth's surface/crust slowly move over the magma in the earth because of convection and other forces. The theory of these plates moving is known as 'plate tectonics'.
Volcanoes form when tectonic plates move on the surface of the earth. It occurs at transform plate boundaries. Tectonic plates are always moving slowly, but when an oceanic plate converges with a continental plate, it creates a Subduction zone known where volcanoes are found.
It moves extremely slowly as do all the plates
Earth's surface is almost not flat at all. Its surface is composed of different, broken up pieces called tectonic plates. All of Earth's tectonic plates are always moving. Sometimes too slowly for it to be detected without instruments such as a seismograph. However, the forces of the tectonic plates are extremely great. Two tectonic plates moving in the same direction push the surface upwards, creating mountains or folded mountains. If two tectonic plates are moving in opposite directions, then it could create a trench in the ocean. Rivers and streams also play a role in shaping Earth's surface. The rivers and streams flow over land and erode the underlying surface. The water may carry small particles of eroded rock which would collide with a surface and increase the amount of erosion. Some create huge valleys or canyons. For example, the Grand Canyon was eroded by water travelling through the created gap. It eventually became the size it is today, but ,over time, gradually becomes bigger due to weathering, erosion, and abrasion.