Of course! Mountain ranges can be underwater! Right?...
Of course! Mountain ranges can be underwater! Right?...
No, folded mountain ranges are typically formed by tectonic compression, while ocean ridges are associated with sea-floor spreading and tectonic divergence. Ocean ridges feature volcanic activity and the creation of new oceanic crust, rather than the compression required to form folded mountains.
To determine if a mountain was formed by compression, you would look for folded and faulted rock layers, as well as evidence of intense pressure causing rocks to deform. Additionally, you might find evidence of compression in the form of thrust faults or folded strata within the mountain. Lastly, examining the types of rocks and their orientation can also provide clues about the mountain's formation.
Convergent boundaries are where plates move into one another. When the Indian Plate collided with the harder Eurasian Plate the Indian Plate went underneath and raised up the Eurasian Plate to form the Himalayas.
No, folded mountain ranges are typically formed by the collision of tectonic plates, leading to intense folding and faulting of the Earth's crust. Mid-ocean ridges, on the other hand, are divergent boundaries where tectonic plates are moving apart, resulting in volcanic activity and the creation of new oceanic crust. Folded mountains are not typically found at mid-ocean ridges.
Of course! Mountain ranges can be underwater! Right?...
Of course! Mountain ranges can be underwater! Right?...
Of course! Mountain ranges can be underwater! Right?...
No, folded mountain ranges are typically found in areas of continental collision, where tectonic plates are pushed together and the crust is folded and uplifted. Mid-ocean ridges are divergent plate boundaries, where plates are moving apart and new oceanic crust is being created, so folded mountain ranges would not be expected there.
Of course! Mountain ranges can be underwater! Right?...
No, folded mountain ranges are typically formed by tectonic compression, while ocean ridges are associated with sea-floor spreading and tectonic divergence. Ocean ridges feature volcanic activity and the creation of new oceanic crust, rather than the compression required to form folded mountains.
To determine if a mountain was formed by compression, you would look for folded and faulted rock layers, as well as evidence of intense pressure causing rocks to deform. Additionally, you might find evidence of compression in the form of thrust faults or folded strata within the mountain. Lastly, examining the types of rocks and their orientation can also provide clues about the mountain's formation.
Tilted and folded rock formations.
i think the answer would be folded mountain
Convergent boundaries are where plates move into one another. When the Indian Plate collided with the harder Eurasian Plate the Indian Plate went underneath and raised up the Eurasian Plate to form the Himalayas.
No, folded mountain ranges are typically formed by the collision of tectonic plates, leading to intense folding and faulting of the Earth's crust. Mid-ocean ridges, on the other hand, are divergent boundaries where tectonic plates are moving apart, resulting in volcanic activity and the creation of new oceanic crust. Folded mountains are not typically found at mid-ocean ridges.
The most intensely folded rocks in North America are typically found in regions with complex tectonic activity, such as mountain ranges or areas with active subduction zones. Examples include the Appalachian Mountains in the eastern U.S., the Rocky Mountains in the western U.S., and the Canadian Rockies in Canada.