Transcript Slide 1
How are Earthquakes
Recorded?
Educational Materials and Videos are made by:
Giovanna Perrone
and
Alexandra Mair
SEYS 753
Spring 2008
Professor Brain Murfin
Dynamic Crust
The• following
clip is a demonstration of how earthquakes occur and they are
Do Now:
recorded. Using the following worksheet, earthquake video worksheet, answer
– Watch
the
clip
and
youhave
are a class
the questions
using
thefollowing
information
from
the describe
video. Afterwhat
the video,
seeing.
discussion
on the notes as the lesson will reiterate the concepts of the video.
(click the
warning to begin the video)
– http://www.youtube.com/watch?v=m9RF5eRdG9c
Earthquakes
•Fault:
Earthquakes:
a violent
shaking
of the earth’s
crust
it is the first
place where
movement
occurs
causedthe
by the
movement of landmasses along
between
plates
and/or
subduction
zones occurs
A faults
fault line
is where
an earthquake
Earthquakes
Epicenter:
is the location
on the
earth’s
Seismic Waves:
Seismic
waves
the surface
energy
thatan
is earthquake
directly above
the focus
an earthquake.
that
release
andofgoes
in ALL
This is where the seismic waves first reach the
DIRECTIONS
surface.
Richter Scale
• The Richter scale is widely used to measure the
magnitude (or the amount) of energy of an earthquake.
There is no limit as to how strong an earthquake may be.
Mercalli Scale
• Mercalli Scale is used to determine how
much observable damage, also called the
intensity, was done by an earthquake
Seismograph vs. Seismogram
• Seismograph is an instrument that is used to detect
(measure) seismic waves
• Seismic waves are recorded on a seismogram
• A seismogram is a piece of paper that records
seismic waves
http://www.thetech.org/exhibits/online/quakes/seismo/images/seismograph.gif
How to Read a Seismogram
http://ww2.lafayette.edu/~malincol/Geol120/earthquaketopics.html
Earthquake Waves
•
P-waves – also called primary waves, or
compressional waves
– P-waves travel faster
– They always reach the seismic stations first
– P-waves cause particles to vibrate back and
forth in the direction that a P-wave moves
(← →)
– P-waves can travel through solids, liquids,
and gases
Earthquake Waves
•
S-waves – also called secondary waves,
or shear waves.
– S-waves travel slower than P-waves and
reach seismic stations second.
– S-waves cause particles to vibrate at right
angles (up and down motion) to the direction
that S-waves move. (↑↓)
– S-waves can only travel through solids NEVER through liquids
Shadow zones are created due to secondary waves
cannot pass through the liquid outer core. These are
areas where no seismic recording occurs.
Notice the vertical axis
This represents TIME
(in minutes!)
Let’s enlarge a small section
Between each minute, we notice that
there are 3 segments.
If there are 60 seconds in a minute,
each one of these segments must be
________seconds.
What would this time be?
Notice the horizontal axis
This represents
DISTANCE (in thousands
of Kilometers!)
Let’s enlarge a small section
There are also two
curves on this chart
that display the way
different earthquake
waves behave.
This chart can be used for
answering many different questions!
How long does it take an S-Wave to travel 5,000km?
The recording station tells us it took 6 minutes and
20 seconds for the P-Wave to reach them. How far
away from the epicenter of the earthquake must
they be?
I know that there was a 7 minute difference
in the arrival of my P and S waves. How far
away from the epicenter must I be?
Slide your
scrap paper
up until the
tick marks
match up
with the
curves…
Mark off 7
minutes on
scrap paper…