To understand this, we must first undertand why volcanoes form at convergent and deivergent boundaries. The material in earth's mantle is not molten, despite its extremely high temperature because it is under immense pressure. At a divergent plate boundary the crust is thinned, which reduces pressure on the upper mantle, allowing some of the rock to melt. This molten rock then rises up thoguh the crust to form volcanoes. At convergent boundaries where at least one plate is oceanic, an oceanic plate plunges into the mantle. The subducting plate takes water with it. This water seeps into the mantle, lowering the melting point of the rock, and allowing it to melt and rise to the surface.
At a transform plate boundary, plates simply slide past each other, and there is nothing that will lead to the melting of mantle material.
volcanoes
Faults are found at transform boundaries like at the San andrais fault
there mostly found at earths plates come together and one plate sinks beneath the other
Asia and Japan
major ones
volcanoes
Faults are found at transform boundaries like at the San andrais fault
At transform boundaries, two plates grind past each other with no loss of material from the lithosphere. Rocks found at these boundaries are peridotite and gabbro.
there mostly found at earths plates come together and one plate sinks beneath the other
convergent boundaries, divergent boundaries, transform boundaries and plate boundaries
convergent boundaries, divergent boundaries, transform boundaries and plate boundaries
No
convergent boundaries, divergent boundaries, transform boundaries and plate boundaries
convergent boundaries, divergent boundaries, transform boundaries and plate boundaries
Asia and Japan
Volcanoes form when tectonic plates move on the surface of the earth. It occurs at transform plate boundaries. Tectonic plates are always moving slowly, but when an oceanic plate converges with a continental plate, it creates a Subduction zone known where volcanoes are found.
major ones