<meta http-equiv="refresh" content="1; url=/nojavascript/"> Earthquake Characteristics ( Read ) | Earth Science | CK-12 Foundation
Dismiss
Skip Navigation
You are viewing an older version of this Concept. Go to the latest version.

Earthquake Characteristics

%
Progress
Practice Earthquake Characteristics
Practice
Progress
%
Practice Now
Earthquake Characteristics

What causes the greatest damage in an earthquake?

This photo shows the Mission District of San Francisco burning after the 1906 earthquake. The greatest damage in earthquakes is usually not from the ground shaking. The greatest damage is caused by the effects of that shaking. In this earthquake, the shaking broke the gas mains and the water pipes. When the gas caught fire, there was no way to put it out. Fire causes the greatest damage in many earthquakes.

Earthquake!

An earthquake is sudden ground movement. This movement is caused by the sudden release of the energy stored in rocks. An earthquake happens when so much stress builds up in the rocks that the rocks break. An earthquake’s energy is transmitted by seismic waves.

Causes of Earthquakes

Almost all earthquakes occur at plate boundaries. All types of plate boundaries have earthquakes. Convection within the Earth causes the plates to move. As the plates move, stresses build. When the stresses build too much, the rocks break. The break releases the energy that was stored in the rocks. The sudden release of energy is an earthquake. During an earthquake the rocks usually move several centimeters. Rarely, they may move as much as a few meters. Elastic rebound theory describes how earthquakes occur ( Figure below ).

Elastic rebound theory. Stresses build on both sides of a fault. The rocks deform plastically as seen in Time 2. When the stresses become too great, the rocks return to their original shape. To do this, the rocks move, as seen in Time 3. This movement releases energy, creating an earthquake.

Elastic rebound theory in an animation: http://earthquake.usgs.gov/learn/animations/animation.php?flash_title=Elastic+Rebound&flash_file=elasticrebound&flash_width=300&flash_height=350 .

Focus and Epicenter

The two important words used to describe an earthquake's location are focus and epicenter.

Focus

The point where the rock ruptures is the earthquake’s focus . The focus is below the Earth’s surface. A shallow earthquake has a focus less than 70 kilometers (45 miles). An intermediate-focus earthquake has a focus between 70 and 300 kilometers (45 to 200 miles). A deep-focus earthquake is greater than 300 kilometers (200 miles). About 75% of earthquakes have a focus in the top 10 to 15 kilometers (6 to 9 miles) of the crust. Shallow earthquakes cause the most damage. This is because the focus is near the Earth's surface, where people live.

Epicenter

The area just above the focus, on the land surface, is the earthquake’s epicenter ( Figure below ). The towns or cities near the epicenter will be strongly affected by the earthquake.

The focus of an earthquake is where the ground breaks. The epicenter is the point at the surface just above the focus.

Vocabulary

  • earthquake : Ground shaking caused by the release of energy stored in rocks.
  • elastic rebound theory : How earthquakes are generated. Stresses cause strain to build up in rocks until they can no longer bend elastically. The rocks break and cause an earthquake.
  • epicenter : Point on the Earth's surface directly above the focus of the earthquake.
  • focus : Point where rocks rupture to cause an earthquake.

Summary

  • A sudden release of energy stored in rocks causes an earthquake.
  • The focus is where the rocks rupture. The epicenter is the point on the ground directly above the focus.
  • Most earthquakes are shallow. Shallow earthquakes do the most damage.

Practice

Use the resource below to answer the questions that follow.

  • Earthquake Characteristics at

http://www.pbs.org/wnet/savageearth/animations/earthquakes/main.html

  1. What causes an earthquake?
  2. What is the focus?
  3. Which waves travel the fastest?
  4. Which waves cannot travel through the core?
  5. What happens to the waves as distance increases?

Review

  1. Describe elastic rebound theory.
  2. Where is an earthquake's focus? Where is its epicenter?
  3. Why do shallow earthquakes cause the most damage?

Image Attributions

Explore More

Sign in to explore more, including practice questions and solutions for Earthquake Characteristics.

Reviews

Please wait...
Please wait...

Original text