yes it does, floor spreading caused by shifting techtonic plates in active ocean
Ocean ridges form as a result of tectonic plate movement and divergent boundaries where two plates move apart. Magma rises to the surface between the plates, creating new oceanic crust that forms a ridge. This process, known as sea-floor spreading, leads to the continuous growth of the ocean ridges.
They now think that the continents are moving because of tectonic plates and how they move, or drift, apart.
valconoes!
The process called plate tectonics is responsible for plates pulling apart. Over time, and with the combination of carbon dioxide, erosion, and force, plates are able to pull apart. This will eventually cause some plates to separate from one another.
Plate interactions can cause earthquakes, volcanic eruptions, and the formation of mountains. These interactions occur at plate boundaries where plates are either moving apart, sliding past each other, or colliding.
no
Actually colliding plates cause earthquakes
The theory that explains how continents move apart is called plate tectonics. This theory suggests that the Earth's lithosphere is divided into several rigid plates that float on the semi-fluid asthenosphere below. These plates can move relative to each other, causing continents to separate due to processes such as seafloor spreading at divergent plate boundaries.
It could either cause Spreading boundaries (when the plates move apart), collision boundaries (Where one plate collides with the other forcing one underground- can cause volcano's, or transform boundaries (When plates scrape along side each other- causing Earthquakes.
Moving of tectonic plates causes earthquakes, volcanic activity, and the formation of mountain ranges when plates collide or pull apart. These movements also contribute to the creation of ocean basins and continents over long periods of time.
no but coliding plates create volcanoes
Spredading of tectonic plates causes Tsunamis, Earthquakes, Volcanic erruptions, etc.
The spreading apart of plates is considered constructive because it results in the creation of new crust along divergent boundaries. As the plates move apart, magma from below the Earth's surface rises to fill the gap, solidifies, and forms new crust. This process leads to the growth of the Earth's surface and contributes to the renewal of oceanic basins.
Friction causes plates to stop moving temporarily. The motion of the magma under the plates will cause the plates to move again.
Ocean ridges form as a result of tectonic plate movement and divergent boundaries where two plates move apart. Magma rises to the surface between the plates, creating new oceanic crust that forms a ridge. This process, known as sea-floor spreading, leads to the continuous growth of the ocean ridges.
Not per-Se, but plates pulling apart AND plates being overridden do cause magma upwellings.
The process called plate tectonics is responsible for plates pulling apart. Over time, and with the combination of carbon dioxide, erosion, and force, plates are able to pull apart. This will eventually cause some plates to separate from one another.