It is believed that continental rocks formed 3 billion years ago however the sediments samples from the ocean floor are found to be not exceeding 200 million years old.
Development of the ocean floor.
It is a clear evidence that the formation of rocks in the sea floor is due to reabsorption of materials.
The deep ocean is dark very cold and has tremendous pressure from the overlying water.
What they discovered was that the magnetism of the ocean floor around mid ocean ridges was divided into matching stripes on either side of the ridge.
The features mapped on the ocean floor disproved continental drift.
Our picture of the ocean floor greatly sharpened after world war i 1914 18 when echo sounding devices primitive sonar systems began to measure ocean depth by recording the time it took for a sound signal commonly an electrically generated ping from the ship to bounce off the ocean floor and return.
Echo sounder in regions of heavy precipitation the salinity of the surface water is.
Until the development of sonar we knew very little about the ocean floor.
Why was the mapping of the ocean floor such an important step in the development of plate tectonic theory.
Scientific research submersibles have explored the ocean s deepest trenches but most are designed to reach only the ocean floor.
Bathymetry the shape of the ocean floor is largely a result of a process called plate tectonics.
The outer rocky layer of the earth includes about a dozen large sections called tectonic plates that are arranged like a spherical jig saw puzzle floating on top of the earth s hot flowing mantle.
Scuba divers can explore only to about 40 meters while most submarines dive only to about 500 meters.
See also continental drift.
You ll see underwater mountains called seamounts cliffs trenches and.
All this evidence both from the ocean floor and from the continental margins made it clear around 1965 that continental drift was feasible and the theory of plate tectonics which was defined in a series of papers between 1965 and 1967 was born with all its extraordinary explanatory and predictive power.
Most plate boundaries are under the ocean.
Basalt the once molten rock that makes up most new oceanic crust is a fairly magnetic substance and scientists began using magnetometers to measure the magnetism of the ocean floor in the 1950s.
The development of this instrument greatly enhanced our knowledge of the ocean floor.
The magnetism of mid ocean ridges helped scientists first identify the process of seafloor spreading in the early 20th century.