Answer:
Compressional stress.
Folded mountains are the result of compression stress in the earth's crust. This is a movement of plates that presses together or squeezes Earth's crust and is also known as convergent boundary.
Compressional stress is the major factor that forms folded mountain ranges, such as the Himalayas. It occurs when tectonic plates collide, leading to the crust being pushed together and uplifted. Over time, this results in the crust being folded and deformed into mountain structures.
First understand that in GEOLOGY there can be no such thing as a "tension stress". Gravity ensures that all things are in compression. The only change is in the direction of maximum stress. When gravity (downwards) is the direction of maximum stress and one or other of the horizontal stresses decays slightly, fault block mountains form. When gravity (downwards) becomes the lowest stress, reverse faults (thrusts) and fold mountains are formed. When a hydraulic fluid (magma) penetrates a rheologically solid medium this will crack the medium an rise towards the surface. If the magma contains gas this will fizz and cause a volcano.- Is the Answer True or False?-Olivia
Folded mountains in the middle of a tectonic plate can form due to compressional forces within the plate, possibly caused by the collision of microplates or subduction of small tectonic plates beneath the larger plate. These folding events can create mountain ranges within the interior of a tectonic plate, such as the Urals in Russia or the Appalachian Mountains in the United States.
The type of tectonic stress that forms fault-block mountains is known as extensional stress. This stress occurs when the Earth's lithosphere is being pulled apart, causing blocks of crust to move vertically. As the blocks are uplifted and tilted along fault lines, fault-block mountains are created.
Answer: Compressional stress.
Folded mountains are formed when rock layers are bend under stress.
Folded mountains are formed when rock layers are bend under stress.
Compressional Stress
Compressional tectonic stress causes folded mountains. This stress occurs when tectonic plates collide, leading to the deformation and folding of the Earth's crust. Over time, the accumulated pressure and movement result in the creation of folded mountain ranges.
conpression
Folded mountains are the result of compression stress in the earth's crust. This is a movement of plates that presses together or squeezes Earth's crust and is also known as convergent boundary.
two plates collide and then their edges crumble like a paper
Compressional stress is the major factor that forms folded mountain ranges, such as the Himalayas. It occurs when tectonic plates collide, leading to the crust being pushed together and uplifted. Over time, this results in the crust being folded and deformed into mountain structures.
First understand that in GEOLOGY there can be no such thing as a "tension stress". Gravity ensures that all things are in compression. The only change is in the direction of maximum stress. When gravity (downwards) is the direction of maximum stress and one or other of the horizontal stresses decays slightly, fault block mountains form. When gravity (downwards) becomes the lowest stress, reverse faults (thrusts) and fold mountains are formed. When a hydraulic fluid (magma) penetrates a rheologically solid medium this will crack the medium an rise towards the surface. If the magma contains gas this will fizz and cause a volcano.- Is the Answer True or False?-Olivia
Tensional stress.
Compression.