Answer:
the fault suddenly uplifts or downdrops the seafloor.
Explanation:
- The sudden movement scan creates a tsunami that is led by the earthquakes and these on a large scale can result in the rapid upliftment of the seafloor and also to fall or subside.
- By displacement of the landscape and the water bodies the fault can create serious damage as the surface of the earth s made up of the tectonic plate and that rest on the moving slabs of rocks that forms over the mantel.
- <u>If earth shakes due to the sudden fault the release of the energy in the waves forms will leads to the sudden shrinking of the lands in one place and the rise of it at another place.</u>
<span>The nature flows from high to low to form the equilibria in temperature, pressure or concentration. Winds blow from high pressure area to low pressure zone. Colder winds occur from high pressure area while dry air are formed from low pressure area. Ocean currents flow from warm breeze to cold breeze in day and reversed during night.</span>
The answer is: the 1906 San Francisco earthquake.
From an examination of the displacement of the ground surface which accompanied the 1906 earthquake, Henry Fielding Reid, Professor of Geology at Johns Hopkins University, concluded that the earthquake must have involved an "elastic rebound" of previously stored elastic stress.
The elastic rebound theory is an explanation for how energy is spread during earthquakes. As rocks on opposite sides of a fault are subjected to force and shift, they accumulate energy and slowly deform until their internal strength is exceeded.
Index fossils allow geologists to determine the exact age of rocks.
C) determine and verify the exact ages of rock layers
