Tectonic plates are driven by the movement of material in the Earth's mantle. This movement is caused by heat from the Earth's core, which creates convection currents within the mantle. As the currents rise and cool, they push the tectonic plates apart, causing them to move across the Earth's surface.
no one made it the tectonic plates move into the molten rock which is made out of magma and the magma expands and goes into a magma pool and then the tectonic plates cack and the magma rises up and turns into lava and then it explodes
Yes, the shape of earthquake focus patterns, including deep-sea trenches and mid-oceanic ridges, supports the theory of plate tectonics. The distribution of earthquake foci aligns with the boundaries of tectonic plates, providing evidence for the movement and interaction of these plates.
The movement of tectonic plates is primarily driven by the convective flow of molten rock in the upper mantle. This convection occurs due to the heat generated by the radioactive decay of elements within the Earth, which causes the molten rock to rise, cool, and then sink back down, creating a circular motion that drives the movement of tectonic plates.
No, the asthenosphere is not a cool and rigid shell. It is a partially molten and ductile region of the mantle beneath the lithosphere. It is responsible for the movement of tectonic plates due to its ability to flow slowly over long periods of time.
The lithosphere.
Tectonic plates are driven by the movement of material in the Earth's mantle. This movement is caused by heat from the Earth's core, which creates convection currents within the mantle. As the currents rise and cool, they push the tectonic plates apart, causing them to move across the Earth's surface.
no one made it the tectonic plates move into the molten rock which is made out of magma and the magma expands and goes into a magma pool and then the tectonic plates cack and the magma rises up and turns into lava and then it explodes
Yes, the shape of earthquake focus patterns, including deep-sea trenches and mid-oceanic ridges, supports the theory of plate tectonics. The distribution of earthquake foci aligns with the boundaries of tectonic plates, providing evidence for the movement and interaction of these plates.
The movement of tectonic plates is primarily driven by the convective flow of molten rock in the upper mantle. This convection occurs due to the heat generated by the radioactive decay of elements within the Earth, which causes the molten rock to rise, cool, and then sink back down, creating a circular motion that drives the movement of tectonic plates.
No, tornadoes are not caused by tectonic plates. Tornadoes form from severe thunderstorms when warm, moist air rises and meets with cool, dry air, creating a rotating column of air. Tectonic plates are part of Earth's crust that move and interact with each other, causing earthquakes and volcanic activity, but not tornadoes.
Tectonic plates are formed when a new crust is created ,it forms what looks like giant plates. One side of the plate is where new crust is being made, while the other side is where older crust is being destroyed.These plates only move from 5-10 cm a year.
The cool solid blocks that float on the asthenosphere are known as tectonic plates. These plates are made up of the Earth's crust and upper part of the mantle, and they float on the semi-fluid asthenosphere due to their lower density. The movement and interactions of these plates lead to processes such as earthquakes, volcanic activity, and the formation of mountain ranges.
Moving tectonic plates and tornadoes are not directly related. Tornadoes are primarily caused by atmospheric conditions such as warm, moist air colliding with cool, dry air. Tectonic plate movements can indirectly affect weather patterns, but they do not directly cause tornadoes.
The thin cool skin of Earth is called the lithosphere. It consists of the outermost layer of the Earth's crust and a portion of the upper mantle, where tectonic plates are located and move around.
The mid ocean ridge is where the tectonic plates are moving apart in the middle of the ocean causing magma to come to the surface and cool making new seafloor in it's place.
The mid ocean ridge is where the tectonic plates are moving apart in the middle of the ocean causing magma to come to the surface and cool making new seafloor in it's place.