When two lithosphere plates collide they crumple and push up, forming mountains also causing earthquakes.
geologists believe the force may be caused by the collision of lithospheric plates.......
true A+
One example of a structure on Earth that moves on the asthenosphere is a tectonic plate. These plates are huge sections of Earth's lithosphere that float and move on the semi-fluid asthenosphere. The movement of these plates is responsible for phenomena such as earthquakes, volcanic activity, and the formation of mountains.
Fill the gap between separating plates.
The rate of movement of a lithospheric plate will change as the resistance in the path of convection is increased or decreased because of the types of convergent collisions.
geologists believe the force may be caused by the collision of lithospheric plates.......
No, the wording of you question is not true. However the movement of the lithospheric plates is related to the formation of volcanoes.
true A+
True
lithospheric plate movement
Movement of lithospheric plates at convergent boundaries can result in the subduction of one plate beneath another. This subduction creates conditions for magma to form as the subducting plate melts. The rising magma then reaches the surface, leading to the formation of volcanoes.
One example of a structure on Earth that moves on the asthenosphere is a tectonic plate. These plates are huge sections of Earth's lithosphere that float and move on the semi-fluid asthenosphere. The movement of these plates is responsible for phenomena such as earthquakes, volcanic activity, and the formation of mountains.
weathering and erosion
Subduction.
Plate boundaries are found at the edge of the lithospheric plates and are of ... As the two move apart, mid-ocean ridges are created as magma from the ... As you can imagine, the formation of the new crust on either sideHazel medina
The movement and/or interaction of lithospheric plates.
Seismology / Geology / Tectonophysics / Plate Tectonics.