st helens :))
Convergent boundaries are where tectonic plates move towards each other. This movement can result in the plates colliding, causing subduction (one plate moving under the other), or in the plates crumpling and creating mountain ranges. These boundaries are associated with seismic activity and volcanic eruptions.
Mountain formation is a feature associated with a continental plate boundary, where the collision of two continental plates results in the uplift of the Earth's crust, creating mountain ranges such as the Himalayas.
these boundaries are formed when two plates collide. When the two plate bump one plate is absorbed in the mantle of the other. Heat and pressure when these plates collide causes volcanoes and earthquakes.
The boundary between two colliding tectonic plates is known as a convergent boundary. This type of boundary is often associated with the formation of mountain ranges, oceanic trenches, and volcanic islands due to the intense geological activity resulting from the subduction of one plate beneath another. As the plates collide, the pressure and friction can lead to uplift, creating mountains, while the subducting plate can generate deep ocean trenches and trigger volcanic activity. Examples include the Himalayas formed by the collision of the Indian and Eurasian plates and the volcanic islands of the Pacific Ring of Fire.
The main difference among plate edges lies in their interactions and movement relative to each other. Divergent boundaries occur where plates move apart, creating new crust, while convergent boundaries involve plates colliding, leading to subduction or mountain formation. Transform boundaries feature plates sliding past one another, causing earthquakes. Each type of edge is characterized by distinct geological features and processes.
Two plates colliding and one being pushed upwards is called subduction.
these boundaries are formed when two plates collide. When the two plate bump one plate is absorbed in the mantle of the other. Heat and pressure when these plates collide causes volcanoes and earthquakes.
tectonic movement can cause tectonic plates to collide, drift apart, or slide across one another
Convergent boundaries are where tectonic plates move towards each other. This movement can result in the plates colliding, causing subduction (one plate moving under the other), or in the plates crumpling and creating mountain ranges. These boundaries are associated with seismic activity and volcanic eruptions.
Mountain formation is a feature associated with a continental plate boundary, where the collision of two continental plates results in the uplift of the Earth's crust, creating mountain ranges such as the Himalayas.
Underground plates are called tectonic plates. These plates are large pieces of the Earth's lithosphere that move and interact with each other, causing phenomena such as earthquakes and volcanic eruptions.
Tectonic Plates
these boundaries are formed when two plates collide. When the two plate bump one plate is absorbed in the mantle of the other. Heat and pressure when these plates collide causes volcanoes and earthquakes.
A reverse fault is usually associated with convergent plate boundaries, where two plates are colliding and one is forced upward over the other. It is less common along divergent boundaries, where plates are moving away from each other.
Volcanoes are caused by the rising of magma in the earths mantle and earthquakes are caused by the colliding of the earths tectonic plates against one another.
That depends on the section you are looking at. Along much of California the plates are neither colliding nor separating, but sliding past one another. Along the southern coast of Alaska, they are colliding.
because the tectonic plates are moving beneth the earths crust, colliding with each other. if someone live along one of these fault lines between the plates they would experience a large earthquake.