Earthquake Unit: Lesson 2

Recording Earth Quakes and Seismic Waves

Seismic Wave: An elastic wave generated by an impulse such as an earthquake or an explosion. Seismic waves may travel either along or near the earth’s surface or through the earth’s interior.

Seismograph: detects and records seismic waves. Records the vertical and horizontal motions of the earth, by tracing wave shaped lines on paper or by translating the motion into electronic signals

Three types of seismic waves:

  1. Primary Waves or P-waves
  2. Fastest moving waves
  3. First to be recorded by a seismograph
  4. P waves can travel through solids and liquids
  5. More rigid the material the faster the P waves travel
  6. Cause rock particles to move together and apart alone the direction of the waves
  7. Demonstrate with a tuning fork (P waves travel like the sound waves)
  1. Secondary waves or S-waves
  • Second waves to be recorded
  • Travel only through solid material
  • Cause rock particles to move at right angles to the directions in which the waves are traveling
  • Cannot be detected on the side of the earth that is opposite the earthquakes’ epicenter. Why? (Because they cannot travel through the liquid part of the earths outer core)
  1. Long waves or L-waves
  • Also called surface waves
  • When p waves and s waves reach the earth’s surface their energy is converted into this type of wave
  • Slowest moving waves
  • Last to be recorded on a seismograph
  • Travel slowly over the earth’s surface I a movement similar to that of ocean waves
  • Cause the surface of the earth to rise and fall particularly destructive when traveling through loose earth
  • Demonstrate with a tuning fork (L waves travel like those waves on the surface of the water)

Activity: Build a model seismograph

  • Directions on page 105 of earth science text
  • Materials needed
  • Shoe box
  • Large plastic bag,
  • Sand or kitty litter
  • Felt tip pen
  • Rubber band
  • Pad of paper of clipboard
  • Four objects with various masses (canned food)
  • Metric ruler
  • Newspaper

Locating an Earthquake

  • To find the epicenter of an earthquake scientist analyze the difference between the arrival times of the P waves and the S waves
  • Scientist plot the difference in arrival time of the S and P waves – called lag time
  • Must plot the data from at least three different seismograph stations
  • Compare the results and epicenter of the earthquake may now be located.

Activity: Lab on page 114 of earth science text

  • Materials needed
  • Drawing compass
  • Ruler
  • Calculator

Earthquake measurement:

Richter Scale

  • Measures the magnitude of the earthquake
  • Magnitude is the measure of the energy released by an earthquake.
  • Largest earthquake so far had a magnitude of 9.6
  • Major earthquakes have a magnitude of 7 or above
  • Moderate earthquakes have a magnitude of between 6 or 7
  • Minor earthquakes have a magnitude of between 2.5 and 6
  • Micro quakes have a magnitude of less that 2.5 and are usually not felt by people

Mercalli scale

  • Expresses the intensity of an earthquake
  • The amount of damage it causes
  • Measured in roman numerals from I to XII
  • Ex. II-low intensity. Felt by only a few persons at rest. Delicately suspended objects may swing.
  • Intensity X- some well built wooden structures destroyed. Most masonry and frame structures destroyed-foundations badly cracked
  • Landslides, shifted sand and mud, water splashed over banks
  • Intensity XII- total destruction

Study or Quiz questions

  1. What instrument is used to record seismic waves? Seismograph
  2. Explain the three types of seismic waves. P waves move the fastest; travel through both solids and liquids; cause rock to move together and apart along the same direction. S waves travel only through solids, cause rock to move a right angle to direction of waves. L waves are the slowest waves, move over surface, cause surface to rise and fall, most destructive.
  3. How is the epicenter of an earthquake located? By analyzing and plotting the differences in arrival times of P waves and S waves at three or more seismograph station locations.
  4. How do scientist measure the magnitude of an earthquake? With a Richter scale
  5. Why do P waves travel faster through the lithosphere that through the asthenoshpere? Because P waves travel faster through the more rigid rock of the lithosphere than through the somewhat plastic rock in the asthenoshpere.