5.1: What is an Earthquake?

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An earthquake is the shaking caused by the rupture (breaking) and subsequent displacement of rocks (one body of rock moving with respect to another) beneath the Earth’s surface. Most earthquakes are a result of the stresses placed on rocks in areas where adjacent tectonic plates are moving in different directions.

A body of rock that is under stress becomes deformed, and that deformation is elastic, meaning that the stressed rock can spring back into its original position. When the rock can no longer withstand the deformation, it breaks, and the two sides slide past each other. Most earthquakes take place near to plate boundaries, but not necessarily right on a boundary, and not necessarily even on an existing or known fault.

The engineering principle of elastic deformation is illustrated below. The stress, or force, applied to a rock—typically because of ongoing plate movement—results in strain or deformation of the rock. Because most rock is strong (unlike loose sand for example), it can withstand a significant amount of deformation without breaking. But every rock has a deformation limit and will rupture (break) once pushed beyond that limit. At that point the rock breaks, there is displacement along the rupture surface, and the two bodies of rock that had been elastically deformed, rebound back to their original shape. The magnitude of the earthquake depends on the extent of the area that breaks (the area of the rupture surface) and the average amount of displacement (sliding).

Figure \(\PageIndex{1}\): Depiction of the Concept of Elastic Deformation, Rupture and Elastic Rebound

You may have heard the term aftershock. An aftershock is an earthquake just like any other, but it is one that can be shown to have been triggered by stress transfer from a preceding earthquake. Within a few tens of seconds of the main 1989 Loma Prieta earthquake (near San Francisco, CA) there were hundreds of smaller aftershocks. Aftershocks can be of any magnitude. Most are smaller than the earthquake that triggered them, but they can be bigger, and they can be delayed for hours, weeks, years or even decades. They occur because the initial even reduces stress in one area but increases it in the nearby areas (Figure \(\PageIndex{2}\)), which can then produce earthquake events.

Figure \(\PageIndex{2}\): Depiction of Stress Changes Related to an Earthquake. Stress is decreased (blue) in the area of the rupture surface, but it may be increased (red) on adjacent parts of the fault.

Media Attributions

Figure \(\PageIndex{1}\): Steven Earle, CC BY 4.0
Figure \(\PageIndex{2}\): Steven Earle, CC BY 4.0

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