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What plate collisions would most likely result in the formation of the most extensive mountain ranges?
The collision of tectonic plates with continental crust is most likely to result in the formation of extensive mountain ranges. This is because the thicker and less dense continental crust tends to crumple and fold when subjected to compression from plate movements, leading to the uplift of mountain ranges such as the Himalayas and the Alps.
What event most likely caused the formation of folded mountain ranges on Earth?
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.
Which of the following plate collisions would most likely result in the formation of the most extensive mountain range?
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.
Which of the following features is likely to form where two tectonic plates push toward each other?
A mountain range is likely to form where two tectonic plates push toward each other, a process known as convergent boundary. The collision between the plates can cause crustal uplift and compression, leading to the formation of mountain ranges through folding and faulting of the Earth's crust.
Which of the convergent boundaries would most likely create a non-volcanic mountain range?
A collision boundary (also known as a continent-continent convergent boundary) would most likely create a non-volcanic mountain range. When two continental plates collide, the crust crumples and folds, leading to the formation of mountain ranges like the Himalayas. This process does not typically involve volcanic activity.
What plate collisions would most likely result in the formation of the most extensive mountain ranges?
The collision of tectonic plates with continental crust is most likely to result in the formation of extensive mountain ranges. This is because the thicker and less dense continental crust tends to crumple and fold when subjected to compression from plate movements, leading to the uplift of mountain ranges such as the Himalayas and the Alps.
What event most likely caused the formation of folded mountain ranges on Earth?
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.
Which of the following plate collisions would most likely result in the formation of the most extensive mountain range?
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.
How to Describe how an old mountain belt located in the center of a continent most likely formed?
An old mountain belt located in the center of a continent likely formed due to the collision of tectonic plates. This collision would have caused intense folding and faulting of the Earth's crust, leading to the uplift and formation of mountains. Over time, erosion would have worn down the mountains to create the old mountain belt we see today.
Which of the following features is likely to form where two tectonic plates push toward each other?
A mountain range is likely to form where two tectonic plates push toward each other, a process known as convergent boundary. The collision between the plates can cause crustal uplift and compression, leading to the formation of mountain ranges through folding and faulting of the Earth's crust.
Which of the convergent boundaries would most likely create a non-volcanic mountain range?
A collision boundary (also known as a continent-continent convergent boundary) would most likely create a non-volcanic mountain range. When two continental plates collide, the crust crumples and folds, leading to the formation of mountain ranges like the Himalayas. This process does not typically involve volcanic activity.
What type of landforms is likely to occur when two continents collide?
A mountain range is most likely to occur because of the two continents crushing and building up large mounds until they are mountains. This is what happened with India when it collided with Asia.
Plate A and Plate B are both continental plates What is the most likely result if the two plates collide?
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.
Which geological event most likely caused the Appalachian Mountains to form?
The collision of tectonic plates during the formation of the supercontinent Pangaea is the most likely geological event that caused the Appalachian Mountains to form. Approximately 480 million years ago, the collision between the North American and African plates caused the mountains to uplift.
Active mountain belts are most likely to be found where?
Active mountain belts are most likely to be found along tectonic plate boundaries, particularly convergent boundaries where two plates collide. This collision forces the crust to buckle and fold, creating mountain ranges. Examples of active mountain belts include the Andes in South America and the Himalayas in Asia.
What plate collision would most likely happen in a subduction zone?
A subductive collision.
Are you more likely to survive a collision if you are thrown from the vehicle.?
You are not more likely to survive a collision if you are thrown from the vehicle. You need to wear a seat belt.
