The mid-ocean ridges are divergent plate boundaries-areas where earth's lithospheric plates are moving away from each other. This movement causes the crust to "thin out". The thinning allows the magma to come to the surface in the form of volcanoes.
Mid-ocean ridge volcanism is just one part of the larger, all-encompassing, and evolving theory of plate tectonics. The production of lava and new crust at the mid-ocean ridges is largely a reaction to gravity induced subduction of oceanic crust at convergent plate boundaries.
See related question below.
I don't know if there is a scientific name for the process, but the teconic plates shift and lava pressure builds up until there is a lot of pressure underneath a volcano, when the pressure is released, the volcano erupts, spewing lava and ash out of the top of the volcano.
The volcanoes result from the spreading apart of tectonic plates. This spreading is infilled by rising magma and erupted lava created by decompression melting of the asthenosphere.
The volcanoes are a result from the spreading apart of tectonic plates.
When magma rises and leaks into the crust of the Earth, a volcano is formed. When magma rises to the surface of the crust, a volcanic eruption occurs.
Volcanoes that form along a mid-ocean ridge are called volcanic islands. These volcanoes occur when the plates move apart to produce gaps which molten lava rises to fill.
Volcanoes exist along the margins of Techtonic Plates, such as around the rim of the pacific ocean (called the ring of fire) along the length of the Andes and rocky mountains, You also get undersea volcanoes along the mid Atlantic ridge and in the mid pacific (where they form the hawaian island chain).
A mid ocean ridge is a diverging plate boundary so the simple answer is yes.
Mid-ocean ridge system.
Land Volcanoes eat lamas and underwater volcanoes eat camals
Volcanoes that form along a mid-ocean ridge are called volcanic islands. These volcanoes occur when the plates move apart to produce gaps which molten lava rises to fill.
Volcanoes that form along a mid-ocean ridge are called volcanic islands. These volcanoes occur when the plates move apart to produce gaps which molten lava rises to fill.
A divergent plate boundary
Volcanoes exist along the margins of Techtonic Plates, such as around the rim of the pacific ocean (called the ring of fire) along the length of the Andes and rocky mountains, You also get undersea volcanoes along the mid Atlantic ridge and in the mid pacific (where they form the hawaian island chain).
A mid ocean ridge is a diverging plate boundary so the simple answer is yes.
Volcanoes are created in the Mid-Atlantic ridge from plates in the ocean floor. The plates shift causing new magma to be able to be released from the earth which in return form the new volcano.
mid ocean ridges form along, underwater mountain ranges that sometimes have a rift valley down their center( 6th grade answer)
Volcanoes are created in the Mid-Atlantic ridge from plates in the ocean floor. The plates shift causing new magma to be able to be released from the earth which in return form the new volcano.
yes
The mid-ocean ridges are divergent plate boundaries-areas where earth's lithospheric plates are moving away from each other. This movement causes the crust to "thin out". The thinning allows the magma to come to the surface in the form of volcanoes. Mid-ocean ridge volcanism is just one part of the larger, all-encompassing, and evolving theory of plate tectonics. The production of lava and new crust at the mid-ocean ridges is largely a reaction to gravity induced subduction of oceanic crust at convergent plate boundaries. See related question below.
The mid-ocean ridges are divergent plate boundaries-areas where earth's lithospheric plates are moving away from each other. This movement causes the crust to "thin out". The thinning allows the magma to come to the surface in the form of volcanoes. Mid-ocean ridge volcanism is just one part of the larger, all-encompassing, and evolving theory of plate tectonics. The production of lava and new crust at the mid-ocean ridges is largely a reaction to gravity induced subduction of oceanic crust at convergent plate boundaries. See related question below.
The mid-ocean ridges are divergent plate boundaries-areas where earth's lithospheric plates are moving away from each other. This movement causes the crust to "thin out". The thinning allows the magma to come to the surface in the form of volcanoes. Mid-ocean ridge volcanism is just one part of the larger, all-encompassing, and evolving theory of plate tectonics. The production of lava and new crust at the mid-ocean ridges is largely a reaction to gravity induced subduction of oceanic crust at convergent plate boundaries. See related question below.