Transcript Earthquakes

Lessons 1-4
Lesson 1:
What are earthquakes
and where do they
occur
Where do Earthquakes Occur?
• Earthquakes can occur near the Earth’s
surface or far below the surface.
• Most earthquakes occur at plate boundaries,
but some happen at faults located in the
middle of tectonic plates.
http://www.dosecc.org/html/volcanic_monitoring.
html
PLATE BOUNDARIES
Earthquake Locations Around the World
What Causes Earthquakes?
• Earthquakes are caused by movement along
faults.
• When stress is placed on rocks it deforms, or
changes.
• This is called Elastic Deformation (remember
faults and folds, tension and compression)
• Rock is stretched and bent until it can no longer
take the stress.
• When enough stress builds up in the rock it, it
slips and energy is released.
• The rock then returns to its original shape. This
is called Elastic Rebound. Think of a rubber
band, you can only stretch it so far until it
breaks and return to its original shape.
• This energy is felt as an earthquake.
Elastic
ELASTIC REBOUND
Earthquakes in Alabama??
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Do we live near a plate boundary?
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Do we live near a fault?
The New Madrid Fault
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If there is no plate boundary in the middle of the
United States, why did these earthquakes take
place?
Geologists are beginning to understand the
answer. The New Madrid Fault Zone is part of an
ancient plate boundary. In this area, the North
American Plate tried to form a divergent plate
boundary many years ago. The splitting stopped
before new plates could form. The faults in the
New Madrid Zone are remnants of this old event.
Earthquakes occur because the North American
Plate is still "settling down". The faults in the New
Madrid Zone do not reach the Earth’s surface.
They are buried beneath thousands of feet of
rock and sediment deposited by the Mississippi
River. Geologists have located them by looking at
the patterns of earthquakes in the zone.
Several of the
largest earthquakes
ever recorded in the
United States
occurred in the
Midwest, far from
any plate boundary.
These earthquakes
took place in an area
called the New
Madrid Fault Zone,
named after the
town of New Madrid,
Missouri.
New Madrid Fault
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Over a three-month period in the
winter of 1811 to 1812, the New
Madrid Fault Zone was struck by
three huge earthquakes estimated to
be greater than magnitude 8.0
The New Madrid Fault is what causes
Alabama to experience earthquakes.
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The map shows
the earthquakes
recorded in
Alabama since
1886.
The last
earthquake to
occur in Alabama
was on July 27,
2007. It
measured a 2.6
on the Richter
scale.
This was not a
very strong
earthquake, but it
was recorded by
a seismograph,
an instrument
used to measure
earthquakes.
Lesson 2
3 Types of Faults associated
with Earthquakes
PLATE MOTION
FAULT TYPE
Transform
Strike –Slip Fault
Convergent
Reverse Fault
Divergent
Normal Fault
Strike-Slip Fault occurs at a
Transform Boundary
Reverse Fault occurs at a
Convergent Boundary
Normal Faults occur at Divergent
Boundaries
Chapter 8: Sections 1: Earthquakes and Faults:
Organizer
PLATE MOTION
FAULT TYPE
Transform
Strike –Slip Fault
Plates move past
each other
Fault blocks move past each other
Convergent Plates move together Reverse Fault
Fault blocks move together
Divergent
Plates move apart
Normal Fault
Fault blocks move apart
Lesson 3
How do Earthquake Waves Travel?
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Energy released from moving
plates and faults travels through
the Earth as waves.
These waves are called seismic
waves.
Types of Seismic Waves
1. BODY WAVES: Seismic waves that travel
through the Earth.
2. SURFACE WAVES: Seismic waves that travel
along the surface.
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WAVES TRAVEL:
1.At different speeds and
2 In different ways
Depending on what kind of material
they are moving through.
Body Waves
• There are two types of body waves:
– P-waves
– S-waves
P-waves
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P-waves are pressure waves.
P-waves travel through solid, liquids and gases.
P-waves are the fastest waves.
P-waves are the first waves to be detected and the first waves to
arrive.
P-waves are also called primary waves because they arrive first.
P-waves cause rock to squeeze and stretch. Imagine a slinky!
The area of the Earth that does not receive seismic energy is called
the shadow zone.
1.P-Waves
2. S-waves
S-waves are the second fastest waves.
 S-waves are also called secondary waves
because they arrive second.
 S-waves are slower than P-waves.
 S-waves move rock from side to side.
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S-waves can’t travel through parts of the
Earth that are completely liquid.
S-Waves
3. Surface Waves
• Surface waves move along the surface of
the Earth.
• Surface waves can move up, down and
around or side to side.
• Surface waves move the slowest and
cause the most destruction.
Surface Waves
Seismic Wave Arrival
• First- P-waves
• Second- S-waves
• Third- Surface Waves
Shadow Zone
The shadow zone results from S waves being stopped entirely by the liquid
core and P waves being bent (refracted) by the liquid core.
Moho Zone
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The Moho is the boundary between the crust and the
mantle in the earth. This is a depth where seismic waves
change velocity, or speed. They tend to increase at the
location.
Quiz
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1. Most Earthquakes occur along ________________.
2. The first seismic waves to arrive are______________.
3. The second seismic waves to arrive are _____________.
4. The last seismic waves to arrive are_______________.
5. Which seismic waves travel the fastest?___________
6. Which type of seismic wave can move through a solid,
liquid or a gas?________________
• 7. Which seismic wave cannot travel through material that
is completely liquid?______________
• 8. Which seismic waves are the slowest and the most
destructive?_______________
Lesson 4
Earthquake
Measurement
Seismograph
• A seismograph is an instrument used by scientists to measure
earthquakes.
• Seismologists who study earthquakes can determine when an
earthquake started by noting the arrival times of P-waves and Swaves.
• A seismograph records vibrations in the Earth and determines the
strength and location of an earthquake.
Ancient Chinese
Seismograph. The
ball would drop
from the dragon to
the frog. It told the
people which
direction the
earthquake come
from.
Seismograms
0
1
2
3
Time in Minutes
4
5
6
1. How many minutes did it take for the
P-Waves to arrive?
2. How many minutes did it take for the
S-waves to arrive?
3. How long did the surface waves last?
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8
Epicenter
• The epicenter is the point on the
Earth’s surface directly above an
earthquake’s starting point.
Focus
• The focus is the point inside the
Earth where the earthquake begins.
• The epicenter is located directly
above the focus.
Measuring Earthquakes
•
There are two major ways
earthquakes are measured:
1. Richter Scale
2. Mercalli Scale
Richter Scale/Measures Magnitude
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The Richter Scale measures magnitude.
The measurements are given in numbers.
Measures the energy released by an earthquake
Earthquake Severity-Energy released by an earthquake.
Richter Earthquake Magnitudes Effects
Less than 3.5 Generally not felt, but recorded.
3.5-5.4 Often felt, but rarely causes damage.
Under 6.0 At most slight damage to well-designed buildings.
Can cause major damage to poorly constructed buildings over
small regions.
6.1-6.9 Can be destructive in areas up to about 100 kilometers
across where people live.
7.0-7.9 Major earthquake. Can cause serious damage over larger
areas.
8 or greater Great earthquake. Can cause serious damage in
areas several hundred kilometers across.
Mercalli Scale/Measures Intensity
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In seismology a scale of seismic intensity is
a way of measuring or rating the effects of
an earthquake at different sites.
The Modified Mercalli Intensity Scale is
commonly used in the United States by
seismologists seeking information on the
severity of earthquake effects. Intensity
ratings are expressed as Roman numerals
between I at the low end and XII at the high
end.
I. People do not feel any Earth movement.
II. A few people might notice movement if they are at
rest and/or on the upper floors of tall buildings.
III. Many people indoors feel movement. Hanging
objects swing back and forth. People outdoors might
not realize that an earthquake is occurring.
IV. Most people indoors feel movement. Hanging objects
swing. Dishes, windows, and doors rattle. A few people
outdoors may feel movement. Parked cars rock.
V. Almost everyone feels movement. Doors swing open
or close. Dishes are broken. Pictures on the wall move.
Small objects move or are turned over.
VI. Everyone feels movement. People have trouble
walking. Objects fall from shelves. Pictures fall off
walls. Furniture moves. Plaster in walls might crack.
Trees and bushes shake.
VII. People have difficulty standing. Drivers feel their cars shaking. Some
furniture breaks. Loose bricks fall from buildings. Damage is slight to moderate
in well-built buildings; considerable in poorly built
buildings.
VIII. Drivers have trouble steering. Houses that are not bolted down might shift
on their foundations. Tall structures such as towers and chimneys might twist
and fall. Well-built buildings suffer slight damage. Poorly built structures suffer
severe damage. Tree branches break. Hillsides might crack if the ground is wet.
IX. Well-built buildings suffer considerable damage. Houses that are not bolted
down move off their foundations. Some underground pipes are broken. The
ground cracks.
X. Most buildings and their foundations are destroyed. Some bridges are
destroyed. Dams are seriously damaged. Large landslides occur. Water is
thrown on the banks of canals, rivers, lakes. The ground cracks in large areas.
Railroad tracks are bent slightly.
XI. Most buildings collapse. Some bridges are destroyed. Large cracks appear
in the ground.. Railroad tracks are badly bent.
XII. Almost everything is destroyed. Objects are thrown into the air. The ground
moves in waves or ripples. Large amounts of rock may move.
As you can see from the list above, rating the Intensity of an earthquake's
effects does not require any instrumental measurements. Thus seismologists
can use newspaper accounts, diaries, and other historical records to make
intensity ratings of past earthquakes.
IV
1. What was the
magnitude of the
Hawaii
earthquake?
Oahu
Maui V-VI
Hawaii
6.7
VII
VI
V
2. Where was the
intensity the
greatest?
3.According to the
Mercalli Scale on
what island did the
most damage
likely occur?
Mercalli Intensity Scale
1. What is the intensity at
Monterey?
Smith
2. What is the intensity at
the epicenter?
3. What is the intensity at
San Jose?
4. What is the intensity at
Santa Cruz?
5. What is the intensity at
Smith?
Earthquakes in Alabama?
Largest Earthquake in Alabama: 1916 South
of Birmingham, in Irondale
5.1 on the Richter Scale
VII (7) on Mercalli Scale