Earthquake measurement & Tsunami predition
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Western University *
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CGF3M
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Geology
Date
Jan 9, 2024
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doc
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PART 2: Tsunami Prediction: The U.S. Virgin Islands, a
Hypothetical Case
Apart from meteor impacts, tsunami are caused by sudden, vertical movements of the sea
floor. The movement can be detected as earthquakes associated with activity on reverse
or normal faults, or earthquakes associated with volcanic eruptions or submarine land
slides. Reverse faults occur at convergent plate boundaries, while normal faults occur at
divergent plate boundaries. Earthquakes along strike-slip faults at transform plate
boundaries generally do not cause tsunami because there is little or no vertical
movement. All three types of plate boundaries can be found around the edges of the
Caribbean plate, although the divergent type of boundary is restricted to a very small
region west of Jamaica, just south of the Cayman Islands. Near the eastern margin of the
Caribbean plate there are recently active volcanoes in the lesser Antilles. These are
associated with a convergent plate boundary and caused by subduction of the North
American plate beneath the eastern edge of the Caribbean plate.
In this section of the exercise you will analyses a hypothetical earthquake, to determine
whether there is the potential for a tsunami. You may assume that a submarine
earthquake of Richter magnitude M = 5 or great could generate a tsunami large enough to
be of concern to coastal areas, even distant coastal areas. Your immediate concern is for
the safety of the citizens of the U.S. Virgin Islands.
2.1 Record the current time on your answer sheet, as "Starting Time."
A large earthquake has just taken place in the Caribbean. The event is called to your
attention at 13:30:00 GMT (hours:minutes:seconds, Greenwich Mean Time) by the folks
over at the University of Puerto Rico, Mayaguez. The following seismograms are
instantly available, electronically of course, from three seismic stations (1) Port of Spain,
Trinidad, (2) Mayaguez, Puerto Rico, and (3) Kingston, Jamaica. Your objective is to
determine the epicenter, and Richter magnitude. With this information you will be able to
judge the source of the earthquake (e.g., reverse fault, normal fault, strike-slip fault,
volcanic eruption), and whether the magnitude warrants evacuation of coastal areas of the
U.S. Virgin Islands.
Seismogram #1
On your answer sheet record the following measurements:
Arrival time of the P-wave.
S-P interval (seconds).
Amplitude (mm). NOTE: In this seismogram the peaks are off-scale
(square tops).
Seismogram #2
Again, on your answer sheet record the following measurements:
Arrival time of the P-wave.
S-P interval (seconds).
Amplitude (mm).
Seismogram #3
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Record the following measurements:
Arrival time of the P-wave.
S-P interval (seconds).
Amplitude (mm).
Now, for each seismic station determine the distance to the epicenter using the following
graph. The S-P interval gives the distance to the epicenter. Record the distances on your
answer sheet. Also, where possible, record the travel time of the P-wave.
2.2 When did the earthquake occur? You can determine this by subtracting the
travel time of the P-wave from the arrival time of the P-wave. Try it for
seismograms 1 and 2.
T(0) = (P-wave arrival time) - (P-wave travel time)
2.3 Do the times agree? They should.
The next step is to determine the Richter magnitude. This can only be done for
seismograms that did not go off-scale. Use the following nomogram to determine the
magnitude.
2.4 Does the magnitude warrant concern for a tsunami?
To be on the safe side, perhaps you should locate the epicenter. Using a compass on your
copy of the map shown below, around each seismic station (Port of Spain, Trinidad;
Mayaguez, Puerto Rico; Kingston, Jamaica), draw a circle having a radius of the distance
to the epicenter.
Show the location of the epicenter on your copy of the map.
2.5 If the earthquake causes a tsunami, how long will it take (in minutes) to reach
the Virgin Islands?
2.6 At what time would the tsunami arrive at the Virgin Islands? NOTE: (arrival
time of tsunami) = (time of earthquake t(0)) + (tsunami travel time)
2.7 What is the distance from the source of the tsunami to the Virgin Islands?
2.8 Given the distance (d) of the source from the Virgin Islands and the time (t) it
takes for the tsunami to cover that distance, what's the average velocity (v) of the
tsunami (in kilometers/minute)? (in kilometers/hour)? NOTE: v = d/t
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Now that you have located the epicenter, you can relate this to known plate tectonic
boundaries or active volcanoes. Using the following map, postulate a likely source for
the earthquake.
2.9 What is the source of the earthquake?
2.10 Is this a potential source for a tsunami?
2.11 Record the current time on your answer sheet, as "Finish Time."
2.12 How long has it taken you to do this part of the exercise? ("Finish Time" -
"Starting Time")
2.13 Add this time to 13:30:00 GMT, the hypothetical time when you first received
news of the earthquake.
2.14 Compare this hypothetical time with the hypothetical anticipated arrive time of
the tsunami. Is there any time left to sound a warning and evacuate the coastal
areas?
2.15 How much time do you have left?
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