they are both formed by converging plates at a BOUNDARY THAT PUSH UP THE EARTH
Yes, convergent motion occurs where two tectonic plates push together. This movement leads to the formation of features such as mountains, volcanoes, and deep ocean trenches due to the intense pressure and geological activity at the plate boundaries.
A transform fault does not typically form mountains. Transform faults are characterized by horizontal motion and sliding past each other, so they do not promote vertical displacement that creates mountains like convergent or divergent boundaries do.
Folded mountains are created when plates move. Folded mountains occur at convergent boundaries where land is being pushed together. The pressure of the plate motion causes the land above to fold. This folding can happen in a number of different patterns. These folding patterns appear as domes, waves, or twists and turns. Occasionally, this happens at a divergent boundary where part of the adjacent land moves, causing the surface layers to buckle or fold. Folded mountains often have gentile slopes and a dome appearance.
Plates move in one of four ways:Spreading, or moving apartSubduction, or diving under another plateCollision, or crashing into one anotherSliding past each other in a shearing motion
Reverse faults are created by compressional stress, where the rocks are pushed together, causing the hanging wall to move up relative to the footwall. This type of faulting is common in areas undergoing compression, such as at convergent plate boundaries or mountain-building regions.
Yes, convergent motion occurs where two tectonic plates push together. This movement leads to the formation of features such as mountains, volcanoes, and deep ocean trenches due to the intense pressure and geological activity at the plate boundaries.
Breaks in the Earth's crust where plates meet are called plate boundaries. These boundaries are classified into three types: divergent, convergent, and transform boundaries, depending on the motion of the plates.
a. Transform:transform boundaries or motion creates strike-slip faults.b. Convergent:convergent boundaries or motion creates reverse faults.c. Divergent:divergent motion creates a normal fault.
A transform fault does not typically form mountains. Transform faults are characterized by horizontal motion and sliding past each other, so they do not promote vertical displacement that creates mountains like convergent or divergent boundaries do.
Folded mountains are created when plates move. Folded mountains occur at convergent boundaries where land is being pushed together. The pressure of the plate motion causes the land above to fold. This folding can happen in a number of different patterns. These folding patterns appear as domes, waves, or twists and turns. Occasionally, this happens at a divergent boundary where part of the adjacent land moves, causing the surface layers to buckle or fold. Folded mountains often have gentile slopes and a dome appearance.
Where plates meet, their relative motion determines the type of boundary: convergent, divergent, or transform.
Plates move in one of four ways:Spreading, or moving apartSubduction, or diving under another plateCollision, or crashing into one anotherSliding past each other in a shearing motion
When volcanoes form, they are typically caused by a convergent or divergent motion. The San Andreas Fault was formed from a transform motion, or when the plates slide past each other.
they are both formed by converging plates at a BOUNDARY THAT PUSH UP THE EARTH
The answer is by convergent plate motion.
The plate motion due to higher densities is called subduction. This occurs when a denser oceanic plate is forced underneath a less dense continental plate at convergent plate boundaries.
Reverse faults are created by compressional stress, where the rocks are pushed together, causing the hanging wall to move up relative to the footwall. This type of faulting is common in areas undergoing compression, such as at convergent plate boundaries or mountain-building regions.