i have no idea!!! this is sooo hard..JK. i learned it but i forgot!!! hahahahahahahahAXD
When two plates carrying continental crust collide, both plates crumple and fold due to the immense pressure. This can lead to the formation of mountain ranges and earthquakes along the convergent boundary. The collision can also result in the subduction of one continental plate beneath the other, ultimately leading to the formation of a mountain belt.
When continental plates collide, the denser oceanic crust is usually subducted beneath the less dense continental crust. This process can create subduction zones, where the oceanic crust is forced downward into the mantle. The oceanic crust may melt or be recycled back into the mantle in these subduction zones.
Mountain ranges are formed when plates with continental crust collide. The immense pressure causes the crust to buckle, fold, and uplift, creating mountainous terrain such as the Himalayas or the Alps.
When two plates carrying continents collide, they can buckle upward to form mountain ranges through a process known as continental collision. This occurs as the crust shortens and thickens, leading to the upward deformation of the land. If one plate subducts beneath the other, it can also lead to the downward bending of the crust in the form of trenches or subduction zones.
When two continental plates collide, the crust is thickened, buckled and deformed--gaining elevation. Mountain chains are the result; their creation occurring over periods of millions of years.
When two plates carrying continental crust collide, the continental crust is too light to subduct beneath the other plate. Instead, the plates crumple and fold, leading to the formation of mountain ranges. This process is known as continental collision.
When two plates carrying continental crust collide, they can form mountain ranges through a process called continental collision. The intense pressure and heat generated during the collision can result in the uplift and folding of the crust, leading to the formation of large mountain belts such as the Himalayas.
When two plates carrying continental crust collide, both plates crumple and fold due to the immense pressure. This can lead to the formation of mountain ranges and earthquakes along the convergent boundary. The collision can also result in the subduction of one continental plate beneath the other, ultimately leading to the formation of a mountain belt.
When continental plates collide, the denser oceanic crust is usually subducted beneath the less dense continental crust. This process can create subduction zones, where the oceanic crust is forced downward into the mantle. The oceanic crust may melt or be recycled back into the mantle in these subduction zones.
Yes, it "dives" under the continental crust and back into the mantle.
Earthquakes!
Tectonic plates.
When two continental plates collide, it is an example of convergent boundaries. Since continental crust is buoyant and brittle, it will not be easily subducted, unlike oceanic crust. Therefore, the subduction that does occur will be shallow and will not experience as many igneous intrusions. The two colliding continental plates will hit each other and will produce a buckling appearance as they both fight being subducted. These kind of collisions tend to produce immense mountains such as the Himalayas.One plate goes underneath they other and melts under the plate it went under and forms magma which causes an eruption
Mountain ranges are formed when plates with continental crust collide. The immense pressure causes the crust to buckle, fold, and uplift, creating mountainous terrain such as the Himalayas or the Alps.
Continental crust is thicker and less dense while oceanic crust is thinner and more dense, so essentially continental crust takes a higher position than oceanic crust. When oceanic and continental plates collide, oceanic plates slide underneath continental plates(if this makes what I said any clearer).
When a plate carrying continental crust converges with a plate carrying oceanic crust, the denser oceanic plate is typically subducted beneath the less dense continental plate. This can lead to the formation of volcanic arcs and deep ocean trenches.
Overall their materials are of the same age, but the continental plates simply break or collide whereas the ocean-floor plates are in constant cycles of construction and destruction.