No, the Emperor Seamount Chain is not divergent. It is actually a series of volcanic seamounts and underwater mountains that were formed by a hot spot, which is an upwelling of molten rock from deep within the Earth's mantle.
The volcano is a sheild, undersea or also called a seamount volcano.
An underwater volcano is called a submarine volcano.
A seamount is an underwater mountain formed by volcanic activity, while a volcanic island is a landmass that rises above the ocean's surface due to volcanic eruptions. Seamounts can eventually grow to become volcanic islands if the volcanic activity continues and brings the seamount above the water level.
A seamount is a submerged mountain rising from the ocean floor, while a volcanic island is a mountain formed above sea level by volcanic activity. Seamounts may not breach the surface, while volcanic islands are visible and can support terrestrial life.
An abyssal seamount is a large underwater mountain that rises from the ocean floor in the abyssal zone, which is the deep part of the ocean. These seamounts can be isolated or part of a chain, and they support unique and diverse marine ecosystems due to their topography and currents.
Abyssal Plain,Ocean Trench,Seamount,and Mid-Ocean ridge
No, the Emperor Seamount Chain is not divergent. It is actually a series of volcanic seamounts and underwater mountains that were formed by a hot spot, which is an upwelling of molten rock from deep within the Earth's mantle.
Buddha's Seamount was created in 2012.
Muirfield Seamount was created in 1973.
Davidson Seamount was created in 1933.
Lōʻihi Seamount was created in 1940.
Louisville seamount chain was created in 1972.
South Chamorro Seamount was created in 1977.
Great Meteor Seamount was created in 1938.
A sonar device can detect a seamount by sending out sound waves that bounce off the seamount and return to the device. By measuring the time it takes for the sound waves to travel to the seamount and back, the device can calculate the distance to the seamount and create a visual representation of its shape and size.
One possibility is Makarov Seamount at a height of 3,950m with a depth of 5,250m.