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What type of boundary is mount kilauea found at?
Mount Kilauea is located at a divergent boundary, specifically at the boundary between the Pacific Plate and the North American Plate. It is part of the Hawaiian hotspot, where magma rises from the mantle to create volcanic activity. This type of boundary is characterized by tectonic plates moving apart, allowing magma to reach the surface and form shield volcanoes like Kilauea.
How are volcanoes related to plate boundaries?
Almost all volcanoes are located along plate boundaries. The exceptions are volcanoes like Kilauea, in Hawaii. Kilauea is not located near a plate boundary. Instead, it is formed by a mantle plume. Again, this type of volcano is much, much rarer than those that form at plate boundaries.
What kind of tectonc plate movement that causes kilauea to form?
Kilauea, a shield volcano in Hawaii, primarily forms due to the movement of the Pacific tectonic plate over a stationary hotspot in the Earth's mantle. As the plate moves northwest, magma rises from the hotspot, creating volcanic activity. This movement is characterized as a divergent boundary process, where the plate's motion allows magma to escape and build up the volcano. The result is the formation of Kilauea, which is one of the most active volcanoes in the world.
What plate boundary is Haleakala on?
Kilauea is located in the centre of a crustal plate (the pacific plate) away from any plate boundaries. The Hawaiian island chain exists due to the presence of a hotspot (potentially caused by a mantle plume) under the centre of this plate causing volcanism.
What plates make mount kilauea erupt?
Kilauea is one of the Hawaiian volcanoes. Hawaii is located roughly in the centre of the Pacific plate. It's volcanism is a result of a mantle plume creating a hotspot leading to significant partial melting in the mantle and crust in turn leading to volcanism.
What type of boundary is mount kilauea found at?
Mount Kilauea is located at a divergent boundary, specifically at the boundary between the Pacific Plate and the North American Plate. It is part of the Hawaiian hotspot, where magma rises from the mantle to create volcanic activity. This type of boundary is characterized by tectonic plates moving apart, allowing magma to reach the surface and form shield volcanoes like Kilauea.
What causes to form at a convergent plate boundary?
the mid ocean ridges cause the magma to form at a convergent plate boundary.
What causes Magma to form a convergent plate boundary?
the mid ocean ridges cause the magma to form at a convergent plate boundary.
What causes magma to form at a convergent boundary?
the mid ocean ridges cause the magma to form at a convergent plate boundary.
Do earthquakes cause plate boundary's to form volcanoes?
yes of course
What causes magma to form at a convergant plate?
the mid ocean ridges cause the magma to form at a convergent plate boundary.
What kind of plate boundary causes mountains to form?
The plate boundary that causes mountains to form is called a convergent boundary.
What does a transformational plate boundary form?
A transformational plate boundary forms earthquakes.
How are volcanoes related to plate boundaries?
Almost all volcanoes are located along plate boundaries. The exceptions are volcanoes like Kilauea, in Hawaii. Kilauea is not located near a plate boundary. Instead, it is formed by a mantle plume. Again, this type of volcano is much, much rarer than those that form at plate boundaries.
Which 2 plates converged to form kilauea?
None. Kilauea formed at a hot spot in the middle of the Pacific Plate.
What causes magma to form at convergent boundaries?
the mid ocean ridges cause the magma to form at a convergent plate boundary.
What kind of tectonc plate movement that causes kilauea to form?
Kilauea, a shield volcano in Hawaii, primarily forms due to the movement of the Pacific tectonic plate over a stationary hotspot in the Earth's mantle. As the plate moves northwest, magma rises from the hotspot, creating volcanic activity. This movement is characterized as a divergent boundary process, where the plate's motion allows magma to escape and build up the volcano. The result is the formation of Kilauea, which is one of the most active volcanoes in the world.
