They occur in the upper mantle and the convections come from the inner core but travel to the upper mantle.
Convection currents occur in the mantle, which is the middle layer of the Earth. The heat generated from the core causes the molten rock in the mantle to move in a circular pattern, creating convection currents.
Convection occurs mainly in the mantle layer of the Earth. As the mantle is partially molten and capable of flowing over long periods of time, the movement of material due to differences in temperature and density forms convection currents.
Convection occurs in the mantle layer of the Earth. This process involves the movement of molten rock and heat within the mantle, which drives plate tectonics and other geologic phenomena.
Crustal plate movement due to convection cells occurs in the asthenosphere, which is a semi-fluid layer beneath the lithosphere. The heat-driven convection currents in the asthenosphere cause the overlying crustal plates to move and interact with each other.
Convection occurs mainly in the mantle, which is the layer beneath the Earth's crust. The heat generated by the core causes convection currents in the mantle, leading to the movement of tectonic plates.
mantle
Convection currents occur in the mantle, which is the middle layer of the Earth. The heat generated from the core causes the molten rock in the mantle to move in a circular pattern, creating convection currents.
mantle
They occur in the Mantle.Prettyorc345Your welcome! I had the same problem on my science homework :)
Convection currents are circular movements of fluid driven by temperature differences. In Earth's mantle, convection currents occur in the asthenosphere, which is the semi-solid layer beneath the lithosphere. These currents play a significant role in plate tectonics and the movement of Earth's crustal plates.
The layer with a taffy-like consistency where convection currents occur is the asthenosphere. Located beneath the lithosphere, the asthenosphere is part of the upper mantle and plays a crucial role in tectonic plate movement. The convection currents in this layer are driven by heat from the Earth's interior, facilitating the movement of the overlying tectonic plates.
Convection occurs mainly in the mantle layer of the Earth. As the mantle is partially molten and capable of flowing over long periods of time, the movement of material due to differences in temperature and density forms convection currents.
Convection occurs in the mantle layer of the Earth. This process involves the movement of molten rock and heat within the mantle, which drives plate tectonics and other geologic phenomena.
The asthenosphere is a semi-fluid layer located beneath the lithosphere of the Earth's crust. It is responsible for the movement of tectonic plates due to its plasticity. The asthenosphere is composed of hot, partially molten rock that allows for convection currents to occur, driving plate tectonics.
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Crustal plate movement due to convection cells occurs in the asthenosphere, which is a semi-fluid layer beneath the lithosphere. The heat-driven convection currents in the asthenosphere cause the overlying crustal plates to move and interact with each other.
Convection occurs mainly in the mantle, which is the layer beneath the Earth's crust. The heat generated by the core causes convection currents in the mantle, leading to the movement of tectonic plates.