In the next million years, the Himalayan Mountains are likely to continue to rise as a result of tectonic plate movements. Erosion will also play a role in shaping the landscape of the region. It is difficult to predict specific details with certainty, but the overall trend is one of ongoing geological change.
If current trends continue, the Himalayan Mountains will continue to rise due to the collision of the Indian Plate with the Eurasian Plate. Erosion will also continue, shaping the landscape of the region. Over the next million years, the Himalayas will likely maintain their status as one of the youngest and highest mountain ranges in the world.
The Himalayan mountains formed when the sub continent of India broke away from Gondwanaland. This happen approximately 55 million years ago.
The Mackenzie Mountains are approximately 480 million years old, formed during the Caledonian Orogeny.
No, the Rocky Mountains are not the oldest mountain range on Earth. The Appalachian Mountains in the eastern United States are considered to be much older, with their origins dating back around 480 million years ago compared to the Rocky Mountains which began forming around 50 million years ago.
The Green Mountains are a part of the Appalachian Mountains which rose about 450 million years ago.
This is not the psychic network so we can't answer what the future will be like. A million years from now there may not even be a habitual earth.
Collision between the plates creating the range began around 65 million years ago.
If current trends continue, the Himalayan Mountains will continue to rise due to the collision of the Indian Plate with the Eurasian Plate. Erosion will also continue, shaping the landscape of the region. Over the next million years, the Himalayas will likely maintain their status as one of the youngest and highest mountain ranges in the world.
The Himalayan mountains formed when the sub continent of India broke away from Gondwanaland. This happen approximately 55 million years ago.
The Appalachian Mountains were created by the collision of eastern North America and Africa over 300 million years ago. This collision caused the formation of the supercontinent Pangaea, which eventually broke apart leading to the separation of these landmasses.
The Himalayan Mountains were formed as a result of the collision between the Indian tectonic plate and the Eurasian tectonic plate around 50 million years ago. The immense pressure and force of the plates pushing against each other caused the land to buckle and rise, creating the towering peaks we see today.
The Himalayan mountains were formed through the process of continental collision between the Indian Plate and the Eurasian Plate. The collision began around 50 million years ago, with the Indian Plate moving northward and pushing against the Eurasian Plate. This convergence caused the crust to buckle and fold, leading to the uplift of the Himalayas.
The Himalayan mountain range of Tibet was formed when the Indian Plate and the Eurasian Plate collided nearly 50 million years ago. It is the world's current mountain range and includes the world's tallest mountain, Mount Everest.
The Indo-Australian plate and the Eurasian plate are continuing to push against each other, continuing the orogenic processes started some 50-70 million years ago.
The mountains in Munster are much older. The Andes are between 30 and 60 million years old. Mountains in Munster are between 250 and 270 million years old.
it is so famous because the Himalayan Mountains are the highest mountain peak in the world!And they formed approximately 70 millon years ago due to a collusion between India and Asia via the Indo Australian and Eurasian plates. :)
the Appalachian mountains were formed about 165 million years ago