Mountains, lakes, earthquakes.
Mountains, lakes, earthquakes.
The Pacific Plate is sliding horizontally past the North American Plate along a transform boundary. This type of movement is responsible for frequent earthquakes in regions like California.
Heat and Pressure.
The Philippines belongs to the Eurasian Plate. This tectonic plate is responsible for the movement and geological dynamics in the region, including the formation of the Philippine archipelago.
True. The movement of the North American plate and the Pacific plate, which includes the Nasca plate, is responsible for the major geological features in California. This movement has created the San Andreas Fault, which is a transform boundary between these two plates and has led to earthquakes and the formation of mountain ranges in California.
The lithosphere, specifically the tectonic plates, is most responsible for the movement of continents. This movement is driven by the process of plate tectonics, where the plates interact with each other at their boundaries, causing them to shift and move over the Earth's surface.
When Earth's surface moves, it is called tectonic plate movement. This movement is responsible for earthquakes, volcanic activity, and the formation of mountains.
Plate tectonic movement refers to the horizontal and vertical movement of the lithosphere plates that make up the Earth's surface. These plates float on the semi-fluid asthenosphere underneath, and their movement is responsible for shaping the Earth's surface through processes like seafloor spreading, subduction, and continental drift.
The mantle, being of a silly-putty-like consistancy, is responsible for the movement of the plates on earth's crust, or plate tectonics.
The Pacific Plate and the North American Plate were involved in the formation of the San Andreas Fault in California. Friction and movement between these two plates are responsible for the seismic activity in the region.
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.
Convection currents in the upper mantle are currently thought to be responsible for plate movement.