The oceanic crust is force down into the mantle in a process called subduction. The subducting oceanic plate will introduce water into the hot mantle, causing some of the rock to melt. The molten rock will rise through the overriding continental crust to form volcanoes.
Trench
it subducts underneath the crustal plate
The contiental cdrust is forced under the continental crust in a process called subduction.
The contiental cdrust is forced under the continental crust in a process called subduction.
When oceanic crust collides with continental crust, the denser oceanic crust is forced beneath the continental crust in a process called subduction. This happens because oceanic crust is heavier, colder, and more dense than continental crust, making it susceptible to being subducted under the lighter continental crust. This collision can result in the formation of mountain ranges, volcanic arcs, and deep ocean trenches.
The contiental cdrust is forced under the continental crust in a process called subduction.
Convergent plate boundaries.
When continental crust collides with continental crust, it can form large mountain ranges through a process called continental collision. This collision causes the crust to fold and thrust upwards, leading to the formation of extensive mountain systems like the Himalayas.
When continental crust collides with the same type of crust, it can result in the formation of mountain ranges through a process called continental collision. The force of the collision forces the crust to crumple and buckle, leading to the uplift of land and the creation of large mountain belts. An example of this process is the collision between the Indian Plate and the Eurasian Plate, which formed the Himalayan mountain range.
A mountain gets made
tides will occur.
when oceanic crust and continental crust collide, the oceanic crust sinks down beneath the continental crust. this is called subduction.