The driving force behind plate tectonics is convection currents in the mantle of the Earth. Heat from the core causes material in the mantle to rise, cool near the surface, and then sink back down in a continuous cycle, which ultimately pushes and pulls the tectonic plates above them.
The process responsible for plate motions within the Earth's asthenosphere is mantle convection. This is where heat from the Earth's core drives the movement of the asthenosphere, causing the tectonic plates to move across the surface of the Earth.
Thermal convection that drives plate motion is caused by the movement of heat within the Earth's mantle. As the Earth's interior heat is transferred towards the surface, it generates convective currents in the mantle, leading to the movement of tectonic plates. This process is known as mantle convection and is a key driver of plate tectonics.
Heat from Earth's core drives convection currents in the mantle. These currents cause tectonic plates to move by pushing them apart at mid-ocean ridges or pulling them down at subduction zones. This movement is part of the process known as plate tectonics.
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 driving force behind plate tectonics is thought to be mantle convection - the movement of heat within Earth's mantle that causes the plates to move. This process involves the transfer of heat energy from the Earth's core to the surface, creating convection currents that move the plates.
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unequal heat ditribution
unequal heat ditribution
Because the shapes of the two are so different but similar
Unequal heat distribution.
No, the sun's energy heats the Earth's atmosphere and surface, but it does not directly drive plate tectonics. Plate tectonics is primarily driven by heat from the Earth's interior, specifically by the heat generated by radioactive decay in the mantle.
Subduction is the process where one tectonic plate moves beneath another plate into the Earth's mantle at a convergent boundary. This can lead to the formation of deep ocean trenches and volcanic activity. It is a fundamental process in plate tectonics that drives the movement and interaction of Earth's lithospheric plates.
The process responsible for plate motions within the Earth's asthenosphere is mantle convection. This is where heat from the Earth's core drives the movement of the asthenosphere, causing the tectonic plates to move across the surface of the Earth.
Thermal convection that drives plate motion is caused by the movement of heat within the Earth's mantle. As the Earth's interior heat is transferred towards the surface, it generates convective currents in the mantle, leading to the movement of tectonic plates. This process is known as mantle convection and is a key driver of plate tectonics.
The motor drives the belt :witch drives a plate witch when engaged drives the wheels (short version) :with drives a pulley that turns the blower (short version)
The motor drives the belt :witch drives a plate witch when engaged drives the wheels (short version) :with drives a pulley that turns the blower (short version)
convection currents