eurasian (plato users)
The tectonic plate primarily comprised of seafloor crust is the Pacific Plate.
Divergent plate boundaries are often found on the ocean floorâ??s crust. These are the type of tectonic plates that produce volcanoes and rifts.
They are known as tectonic plates.
The top of the mantle and the crust form the lithospere
Tectonic plates are comprised of crust and some mantle materialadd. And the whole of the plate tends to travel as one. And each plate has discrete boundaries.
The tectonic plate primarily comprised of seafloor crust is the Pacific Plate.
Divergent plate boundaries are often found on the ocean floorâ??s crust. These are the type of tectonic plates that produce volcanoes and rifts.
They are known as tectonic plates.
Yes. All of Earth's crust, both on land and on the seafloor, is composed of tectonic plates.
No. Most tectonic plates that carry a continent also include a significant amount of seafloor. Some plates consist almost entirely of oceanic crust.
The top of the mantle and the crust form the lithospere
Tectonic plates are comprised of crust and some mantle materialadd. And the whole of the plate tends to travel as one. And each plate has discrete boundaries.
No, seafloor spreading does not hold the plates in place. Seafloor spreading is a process that occurs at mid-ocean ridges where new oceanic crust is formed and spreads apart. It is driven by the movement of tectonic plates, which are actually responsible for holding the seafloor in place.
Seafloor spreading is the process by which new oceanic crust is created through volcanic activity at mid-ocean ridges. As this new crust forms, it pushes the existing crust apart, which in turn causes the continents to move. This movement of the tectonic plates, driven by seafloor spreading, plays a significant role in shaping the arrangement of continents as they are today through the theory of plate tectonics.
The seafloor crust is younger than the continental crust.
Seafloor Spreading
seafloor spreading