Continental plate to continental plate collisions.
The collision between two continental plates would most likely result in the formation of the most extensive mountain range. When two continental plates collide, neither is subducted due to their low density, leading to the crust crumpling and uplifting to form large mountain ranges like the Himalayas.
A convergent plate collision involving two continental plates is most likely to result in the formation of the most extensive mountain range. This is because the thick and buoyant continental crust resists subduction, leading to intense compression, uplift, and folding that can create large mountain chains like the Himalayas.
The collision of tectonic plates, specifically the process of continental collision, is most likely to have caused the formation of folded mountain ranges on Earth. This collision leads to intense pressure and compressional forces that result in the folding and uplift of rock layers, creating mountain ranges like the Himalayas.
at a boundary between two colliding continenetal plates
A transform fault is least likely to form mountains because it involves horizontal movement along fault lines rather than vertical movement that leads to uplift and mountain formation.
The collision between two continental plates would most likely result in the formation of the most extensive mountain range. When two continental plates collide, neither is subducted due to their low density, leading to the crust crumpling and uplifting to form large mountain ranges like the Himalayas.
A convergent plate collision involving two continental plates is most likely to result in the formation of the most extensive mountain range. This is because the thick and buoyant continental crust resists subduction, leading to intense compression, uplift, and folding that can create large mountain chains like the Himalayas.
Accretionary collisions during Earth's formation did cause some heat loss, as the kinetic energy from impacts was converted into heat. However, the heat loss from these collisions was likely not the primary contributor to the overall heating of the early Earth, as other processes such as radioactive decay and gravitational compression played larger roles in generating heat.
The collision of tectonic plates, specifically the process of continental collision, is most likely to have caused the formation of folded mountain ranges on Earth. This collision leads to intense pressure and compressional forces that result in the folding and uplift of rock layers, creating mountain ranges like the Himalayas.
Nutrient-rich soil is not a likely outcome after extensive irrigation of dry farmland
It means that there will be more particles of the reactants in the vessel, so they are more crowded and collisions of the right energy are more likely. or collisions of the right energy are more likely.
at a boundary between two colliding continenetal plates
A transform fault is least likely to form mountains because it involves horizontal movement along fault lines rather than vertical movement that leads to uplift and mountain formation.
faulty NIC in the web server
Deforestation of rainforests will likely lead to extensive extinction of species.
Our planet was formed about four and a half billion years ago, and it is likely that there were mountains from the beginning. The messy process of planetary formation itself, involving the accretion of mass from various smaller bodies, is not likely to produce a perfectly spherical surface.
Point A likely represents a landform feature such as a mountain, valley, river, or a particular rock formation. The feature likely formed through various geological processes like erosion, weathering, volcanic activity, or tectonic movements over millions of years.