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The earth's tectonic plates are said to "float" on layers of magma, which is molten, or very hot liquid rock deep under the surface of theearth.
The tectonic plates move because of the great amount of liquid rock, or magma that they 'float' on and get pushed by.
The term for liquid rock is "magma" when it is beneath the Earth's surface and "lava" once it erupts onto the surface. Crustal plates float on the semi-fluid layer of the Earth known as the "asthenosphere," which is part of the upper mantle. This layer allows for the movement of tectonic plates above it.
Tectonic plates float on the asthenosphere, which is a semi-liquid layer of the Earth's mantle. This layer is composed of partially molten rock that allows for the movement of the overlying tectonic plates. The asthenosphere's properties enable the plates to shift and interact, leading to geological phenomena such as earthquakes and volcanic activity.
The tectonic plates float on the asthenosphere, which is a semi-liquid layer located beneath the lithosphere. The asthenosphere consists of partially molten rock that allows the rigid tectonic plates to move and interact with one another. It plays a key role in the process of plate tectonics.
The earth's tectonic plates are said to "float" on layers of magma, which is molten, or very hot liquid rock deep under the surface of theearth.
You are referring to tectonic plates.
The plates float on top of a liquid rock just below the earth's crust. :) $m!/ey G!r/
The continental plates float on asthenosphere, molten rock (lava).
Tectonic plates float on the asthenosphere, which is a semi-liquid layer of the Earth's upper mantle. The movement of these plates is driven by convection currents in the asthenosphere.
Tectonic plates float on the asthenosphere, which is a semi-fluid layer of the Earth's mantle. This allows the plates to move and interact with each other, causing geological phenomena such as earthquakes and volcanic activity.
The hot semi-liquid zone on which tectonic plates float is known as the asthenosphere. This layer, located beneath the Earth's lithosphere, consists of partially molten rock that allows the rigid tectonic plates above it to move. The movement of the asthenosphere is driven by convection currents caused by heat from the Earth's interior, facilitating geological processes such as plate tectonics and continental drift.