Lower mantle is the surface on which the lithospheric plates move around earths surface.
Lithospheric plates.
When two lithospheric plates move apart, magma from the mantle can rise to the surface, creating new crust and forming volcanic eruptions. When plates collide, one plate may be forced beneath the other, leading to the melting of crust and the formation of volcanic arcs. This movement and interaction of plates are responsible for the distribution of volcanoes around the world.
The lithospheric plates are large, rigid sections of the Earth's outer shell that float on the semi-fluid asthenosphere. These plates are constantly moving due to the process of plate tectonics, which leads to various geologic phenomena such as earthquakes, volcanic activity, and the formation of mountain ranges. The interactions between the lithospheric plates are responsible for shaping the Earth's surface and influencing the distribution of continents and oceans.
The process that drives the movement of lithospheric plates across the surface of the Earth is called plate tectonics. This movement is mainly driven by the heat generated from radioactive decay in the Earth's interior, which creates convection currents in the semi-fluid asthenosphere beneath the lithosphere. These convection currents cause the lithospheric plates to move, leading to phenomena like seafloor spreading, subduction, and continental drift.
Lithospheric plates are large, rigid pieces of Earth's outermost layer, the lithosphere. These plates include both the continental crust and the outermost part of the mantle and float on the semi-fluid asthenosphere beneath them. The movement and interactions of these plates are responsible for many geologic processes, such as earthquakes, volcanic activity, and mountain building.
the Lithosphere or Lithospheric Plates
the Lithosphere or Lithospheric Plates
the Lithosphere or Lithospheric Plates
the Lithosphere or Lithospheric Plates
Lithospheric plates.
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Tectonic plates are the rigid but moving pieces of Earth's surface that float on the semi-fluid asthenosphere below. These plates interact at plate boundaries, leading to various geological phenomena like earthquakes, volcanic eruptions, and mountain formation.
Asthenosphere
the Lithosphere or Lithospheric Plates
The tectonic plates below earths surface shape earths landforms
The Earths surface changes shape when plates collide when the earths surface overlaps or when there are Earthquakes.
Plasticity means that there is enough movement in the asthenosphere to allow thelithospheric plates to move.