Warm- UpHave your homework out for me
to check and for several of you to share.
Answer the following questions at the start of today’s notes.
1. Which hypothesis explains the occurrence of an Earthquake?
2. How does this hypothesis suggest and earthquake occurs?
3. What safety measures should you take in the event of a quake?
TOC:90. Measuring Quakes91. Finding an Epicenter92. EQ HWKeywords:• Body waves• P Wave• S Wave• Seismogram• Richter Scale• Moment Magnitude
Measuring Earthquakes
Seismographs measure the waves of energy distributed by the quake.
• Surface waves arrive last and are usually the most intense and destructive.
• Body waves travel through Earth and provide more insight.
Body Waves
P waves:• Compression waves• Alternately expand and
compress material they pass through
• Travel the fastest of all three waves
• Travels parallel to its movement
Body WavesS Waves• Transverse wave• Changes objects volume
temporarily• Travel slower than P waves• Travels at a right angle to
the direction of its movement
• TAKE A SMALL SHEET AND WORK WITH A PARTNER TO COMPLETE THE GRAPH
Locating an Earthquake
• Different speed of waves allows us to locate epicenter
• P Waves travel 1.7 times faster than S Waves
• The longer they travel, the greater the time lapse between them
Reading the Seismogram• Measure the time between
the P Wave ad the S Wave• The amount of seconds
corresponds to a distance based on the graph
• For example: a lag of 2 minutes indicate about a 700 mile distance from the epicenter (SMALL SHEET)
Locating an Earthquake• Station in Atlanta
reports seismic activity• Using the lag between
waves a radius for the location of the epicenter is created.
• How many points exist on the circle?
Locating an Earthquake
• Using another station in Louisiana provides another radius for the epicenter.
• How many points do the two radii have in common?
• What do these points represent?
Locating an Earthquake
• Using a third station pinpoints the Epicenter.
• How many points can all three circles have in common?
• All epicenters are located using 3 Seismic Stations.
• Simulator
Measuring Earthquakes
Earthquakes described by intensity and magnitude
• Intensity is the amount of shaking based on damage
• Magnitude is the measure of the size of the seismic waves released
Which is qualitative?
Moment Magnitude
• Derived from the displacement that occurs along a fault zone
• Most widely used scale because it addresses energy released
• Formula to calculate includes fault surface area, average displacement and rigidity of the rock
QUAKE QUIZ!1. Illustrate a seismogram with a 2.5
minute lag between the first P wave and the first S wave.
2. Use the chart to determine the distance from the epicenter. (Use pg 241 if needed)
3. How many minutes did the P Waves travel before arriving at this location?
4. If the lag were four minutes, does the distance from the epicenter increase or decrease?
5. Illustrate the motion of an S wave. Do these waves cause more or less destruction than P Waves?
Quake Quiz6. What can result from an
earthquake located on the ocean floor?
7. Which is more common on a yearly basis, earthquakes or hurricanes?
8. What branch of science was born out of the 1906 Earthquake?
9. Has a 10.0 Magnitude Earthquake ever been recorded?
10. Where do most US Earthquakes occur?
Bonus….
BONUS
1. Which 3 particles make up soil?2. What is Lansing’s favorite college football
team?
Assignment• Work in groups of 3 to find the
epicenter of an earthquake.• Answer all of the questions as
you proceed through the scenario.
• Coordinates:New York (40 N, 75 W)Seattle (47 N, 122 W)Mexico City (19 N, 100 W)
DO NOT WASTE TIME
Homework:p. 228 1-6
If you group does finish then you may start the HW.