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Yes, convection currents in the mantle can contribute to the movement of continents through the process of plate tectonics. These currents cause the Earth's lithosphere (which includes the continents) to move as they carry heat and material to the surface, leading to the drifting of continents over geologic time scales.
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What is the layer of the earth convection the currents in this layer make the plates move?
The layer of the Earth where convection currents occur is the mantle. These currents are generated by the heat from the Earth's core, causing movement in the semi-fluid mantle material. The movement of these convection currents is one of the driving forces behind the movement of tectonic plates on the Earth's surface.
How do convection currents in the mantle effect lithosphere movement?
Convection currents in the mantle drive the movement of tectonic plates on the Earth's surface. As the mantle heats up and rises near mid-ocean ridges, it spreads and pushes the plates apart. When the mantle cools and sinks back down near subduction zones, it pulls the plates back together. This process of convection and plate movement is known as plate tectonics.
In the mantle and core make tectonic plates move?
Convection currents in the mantle transfer heat, causing the tectonic plates above to move. The movement of these plates is a result of the mantle's heat-driven circulation, which leads to the shifting of crustal plates on Earth's surface. The convection currents help drive plate tectonics by pushing or pulling the plates in different directions.
How are the parts of a convection current in the mantle related to the plate motions?
Convection currents in the mantle drive the movement of tectonic plates at the Earth's surface. As the hot mantle material rises, it pushes the plates apart at mid-ocean ridges. As the material cools and sinks back into the mantle, it pulls the plates down at subduction zones, creating a cycle that drives plate motion.
What causes continents to move over the surface of the earth?
Continental drift is caused by the movement of tectonic plates, which make up Earth's crust. These plates float on the semi-fluid asthenosphere below and are constantly in motion due to convection currents in the mantle. As plates move apart, collide, or slide past each other, continents are carried along with them.
What is the layer of the earth convection the currents in this layer make the plates move?
The layer of the Earth where convection currents occur is the mantle. These currents are generated by the heat from the Earth's core, causing movement in the semi-fluid mantle material. The movement of these convection currents is one of the driving forces behind the movement of tectonic plates on the Earth's surface.
How do convection currents in the mantle effect lithosphere movement?
Convection currents in the mantle drive the movement of tectonic plates on the Earth's surface. As the mantle heats up and rises near mid-ocean ridges, it spreads and pushes the plates apart. When the mantle cools and sinks back down near subduction zones, it pulls the plates back together. This process of convection and plate movement is known as plate tectonics.
In the mantle and core make tectonic plates move?
Convection currents in the mantle transfer heat, causing the tectonic plates above to move. The movement of these plates is a result of the mantle's heat-driven circulation, which leads to the shifting of crustal plates on Earth's surface. The convection currents help drive plate tectonics by pushing or pulling the plates in different directions.
What is the general result of the motion of convection currents in the mantle beneath the Atlantic ocean?
The general result is to make the ocean basin wider.
How are the parts of a convection current in the mantle related to the plate motions?
Convection currents in the mantle drive the movement of tectonic plates at the Earth's surface. As the hot mantle material rises, it pushes the plates apart at mid-ocean ridges. As the material cools and sinks back into the mantle, it pulls the plates down at subduction zones, creating a cycle that drives plate motion.
Do convection currents cause earths heat?
No. Convection currents are the circular motion of earth's wind. If the earth did not rotate, convection currents would not be. Does that make sense?
What caused pangaea's plates to move?
The movement of the plates that formed Pangaea was primarily driven by the process of plate tectonics. The heat generated from the Earth's core creates convection currents in the mantle, which in turn move the plates that make up the Earth's outer shell. This movement led to the breakup of Pangaea and the shifting of the continents to their current positions.
What causes continents to move over the surface of the earth?
Continental drift is caused by the movement of tectonic plates, which make up Earth's crust. These plates float on the semi-fluid asthenosphere below and are constantly in motion due to convection currents in the mantle. As plates move apart, collide, or slide past each other, continents are carried along with them.
What are the three parts that make up Earths mantle?
mesosphere, asthenosphere, ionosphere
What is the cause of the currents that make plates move across the earth?
The currents that drive plate movement are caused by the heat generated from the Earth's core. This heat creates convection currents in the mantle, which in turn move the tectonic plates on the Earth's surface.
What is the convection current hypothesis?
The convection current hypothesis supposes that convection currents in the Earth's Mantel (the zone below the surface/crust and above the Earth's core) cause the movement of the tectonic plates (plates that make up the surface/crust of the Earth and shift/move on a grand time scale).
What moves the seafloor and the continents?
The movement of the Earth's tectonic plates, which make up the outer shell of the Earth, is responsible for moving the seafloor and continents. This movement is driven by processes such as mantle convection, where heat from the Earth's core causes the semi-fluid rock in the mantle to flow and create forces that push or pull the tectonic plates.
