When two continental plates converge, a major landform created is a mountain range. The intense pressure and collision between the plates causes the Earth's crust to uplift, forming large mountain ranges such as the Himalayas or the Alps.
False. A rift valley forms when continental plates diverge or pull apart. When two continental plates collide the result is a mountain range.
Converging continental plates create mountain ranges through a process called continental collision. When two continental plates collide, neither is subducted due to their similar density. Instead, the plates crumple and fold, leading to the uplift of the Earth's crust and the formation of mountain ranges.
It depends on the type of crust involved. If both plates carry oceanic crust, an ocean trench is formed along with a volcanic island are on the overriding plate. If one plate carries oceanic crust and the other continental, you will get an ocean trench, a continental volcanic arc, and a mountain range. If both plates carry continental crust, then a mountain range is formed.
The collision between two continental plates would result in the formation of the most extensive mountain range. When two continents collide, the continental crust buckles and folds, leading to the creation of large mountain ranges such as the Himalayas.
Yes, a collision of two continental plates can create a mountain range through a process called plate tectonics. When two continental plates collide, the intense pressure and heat can lead to the uplift and folding of the Earth's crust, resulting in the formation of mountain ranges such as the Himalayas. This process can take millions of years to complete.
When two continental plates converge, a major landform created is a mountain range. The intense pressure and collision between the plates causes the Earth's crust to uplift, forming large mountain ranges such as the Himalayas or the Alps.
When two continental plates collide,fold mountains are formed.
False. A rift valley forms when continental plates diverge or pull apart. When two continental plates collide the result is a mountain range.
When two continental plates collide they form mountains .
Converging continental plates create mountain ranges through a process called continental collision. When two continental plates collide, neither is subducted due to their similar density. Instead, the plates crumple and fold, leading to the uplift of the Earth's crust and the formation of mountain ranges.
If two continental plates collide, they will likely result in the formation of a mountain range due to the immense pressure and force generated during the collision. The leading edge of each plate is forced upwards, creating fold mountains with complex geological structures.
When two continental plates come together, they can form convergent boundaries where one plate is forced beneath the other in a process known as subduction. This can lead to the formation of mountain ranges, earthquakes, and volcanic activity as the plates interact and collide.
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.
It depends on the type of crust involved. If both plates carry oceanic crust, an ocean trench is formed along with a volcanic island are on the overriding plate. If one plate carries oceanic crust and the other continental, you will get an ocean trench, a continental volcanic arc, and a mountain range. If both plates carry continental crust, then a mountain range is formed.
The collision between two continental plates would result in the formation of the most extensive mountain range. When two continents collide, the continental crust buckles and folds, leading to the creation of large mountain ranges such as the Himalayas.
False! When two continental plates converge a mountain range is formed. This is what formed and is continuing to "build" the Himalayan mountain chain.Subduction zones form where oceanic crust converges with and is forced under continental crust, or younger more buoyant oceanic crust.