The Indo-Australian plate and the Asian plate, meeting where the Himalayas are, are both forcing their way towards each other. Both these plates are continental, therefore neither will go under the other - they can only move upwards (or buckle). As the plates then rise, the land rises, causing 'fold mountains'. The Himalayan Chain are the largest in the world.
The collision of the Indian plate with the Asian plate created the Himalayas, Karakoram, and Hindu Kush mountain ranges. These are some of the highest and most geologically active mountain ranges in the world.
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It is because volcanoes form by two tectonic plates which when both collide and they form volcanoes which a magma rock forms when it explodes.
Mountains are formed by plae tectonics. It happens when 2 plates collide and 1 plate is pushed up. The resulting upwards force makes a mountain range. The Rockies, Andes, and the Himalayas are all examples of this.
Tectonic plates are plates underneath the ground we stand on that help to form the structure of the earth, when two tectonic plates colide they create terrains such as mountains. they have also been known to cause some Tsunami's.
the Himalayas were formed by a collision plate boundary, meaning that the plates collided and formed the Himalayas. The Himalayas are also referred to as 'fold mountains' because of the way in which they are made.
The Eurasian, Philippine and Indo-Australian plates collided to form the region.
The Himalayas are young fold mountains. The range was formed when the Indio-australian tectonic plane collided with the Euro-asian tectonic plane. The where we find the Himalayas today was previously filled with sediments, which was carried by the rivers of the Euro-asian plane. When the two previously mentioned plane collided this sediment folded to form the Himalayan range.
when plates collide mountains will form. If you look at a map with the plate boundaries and compare it to a physical map of the world you will see that a lot of mountaind=s form on plate boundries.
The collision of the Indian plate with the Asian plate created the Himalayas, Karakoram, and Hindu Kush mountain ranges. These are some of the highest and most geologically active mountain ranges in the world.
The highest mountains on Earth, like the Himalayas and the Andes, formed through the collision of tectonic plates. When two plates collide, the crust is pushed upward, leading to the formation of mountain ranges. Over millions of years, the forces of erosion and weathering have shaped these mountains into their current majestic forms.
The Himalayas are so tall because of the collision of tectonic plates. The Indian plate is pushing against the Eurasian plate, causing the land to rise and form the towering mountain range.
The thrusting up to form mountain ranges, as when India collided with Asia to form the Himalayas. The subduction of tectonic plates causing friction, melting of rock, and the forming of volcanoes. These are just two examples of the result of tectonic plates colliding.
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The collision of the African Plate and the Eurasian Plate over millions of years is responsible for the formation of the Alps Mountain Range. The intense pressure and folding of the Earth's crust during this collision led to the uplift of the mountains.
The Appalachian Region was formed in the Paleozoic era millions of years ago when the North American and African Tectonic Plates Collided.
Tectonic plates are large sections of Earth's crust that float on the semi-fluid mantle beneath them. The continents were formed through the process of plate tectonics, where tectonic plates collided, separated, or slid past each other over millions of years. This movement caused the continents to come together to form supercontinents, break apart, and drift to their current positions.