No. A mid-ocean ridges is a divergent boundary. You find folded mountain at convergent plate boundaries.
Of course! Mountain ranges can be underwater! Right?...
No, folded mountain ranges are typically associated with convergent plate boundaries where tectonic plates collide and undergo compression. Mid-ocean ridges are found at divergent plate boundaries where plates move apart, leading to the formation of new oceanic crust through volcanic activity.
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 climate at the base of a mountain near the ocean would likely be influenced by both the ocean and the mountain. It could be mild and relatively humid with increased precipitation due to moisture coming off the ocean. The mountain may create local variations in weather, such as increased rainfall on the windward side and a rain shadow effect on the leeward side.
The crust is generally thicker under a mountain range compared to under the sea. This is because mountain ranges are formed by the collision of tectonic plates, which can result in the crust being pushed up and folded, leading to its thickening. In contrast, the crust under the ocean is thinner due to the process of seafloor spreading where new crust is constantly being created 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 associated with convergent plate boundaries where tectonic plates collide and undergo compression. Mid-ocean ridges are found at divergent plate boundaries where plates move apart, leading to the formation of new oceanic crust through volcanic activity.
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.
An ocean mountain is a mountain that is completely underwater. If measured from sea level, it would have a negative height.
what do you expeat to find in calcium chloride in ocean water
The climate at the base of a mountain near the ocean would likely be influenced by both the ocean and the mountain. It could be mild and relatively humid with increased precipitation due to moisture coming off the ocean. The mountain may create local variations in weather, such as increased rainfall on the windward side and a rain shadow effect on the leeward side.
That would be the Mid-Atlantic Ridge.
You would not expect to experience a tropical cyclone in the South Atlantic Ocean, as tropical cyclones in this region are very rare due to unfavorable conditions such as cooler sea surface temperatures and higher wind shear.