Internet Scavenger Hunt

EARTHQUAKES


Earthquakes result from a release of energy accompanying failure of rock material at depth. Several important pieces of information about an earthquake are gathered by seismologists. These include the location of the following:
    Epicenter: The area on the surface of the Earth immediately above the place where the energy was released.

    Focal Point: the place where the rupture occured.

    Depth to the focal point (or focus) and a measure of the "strength" of the earthquake.
One intensity scale developed for assessing the perceptions of individuals who experienced an earthquake is the Modified Mercalli Scale (MM). The MM scale ranges from I to XII. Surveys are sent to the resdents of an area and they are asked to judge the "intensity" by comparing their rememberance to a list of 12 experiences. Lines of equal earthquake damage (isosesimals) are drawn on a map of the area.
  1. Using resources on the Internet, identify the MM which is "felt by almost everyone, some people awakened. Small objects moved. Trees and poles may shake."

  2. Using resources on the Internet, locate a isoseismal map of the Oct. 17, 1989 Loma Prieta (World Series) earthquake and give its address (URL). Note that there are very high MM values located in San Francisco even though the epicenter of the fault was several hundred miles south. WHY?

    MM measures a complex set of interactions between the strength of the surface material, the type of architecture, building codes, and population density (the more people that experienced the earthquake, the better the survey will capture an "average" perception).

    A certain amount of energy is released by an earthquake. In the 1930's, Dr. Charles F. Richter developed an earthquake magnitude scale to express the differences between the small and medium-sized earthquakes he observed in southern California, and great earthquakes he was recording around the world. A tremendous range of energies are released by earthquakes, so Richter decided that a logarithmic scale would be appropriate. He used log10 so that there is an order of magnitude difference between Richter magnitudes. A magnitude 6 event, for example, has ground motion of 10 times greater than a magnitude 5 and 100 times less than a magnitude 8 event.

  3. Is a negative magnitude defined? [Recall that the pH of a solution is defined as a logarithm (actually as the negative of a logarithm) of the acivity of the hydrogen ion. Can pH be negative?]

  4. Using Internet resources, find the conditions that Richter used to define his measure of earthquake magnitude. Are there concerns about applying this measure to areas that do not meet these conditions?

    Energy travels away from the focus (the hypocenter) in all possible directions and is propagated by different methods. It is convenient to separate earthquake waves into body waves (the familiar P and S waves) and surface waves.

  5. Using Internet resources, describe a Raleigh wave. Is this a body wave or a surface wave?