co- earthquakes lo-describe the major hazards and causes of earthquakes around the world
TRANSCRIPT
CO- EarthquakesLO-Describe the major hazards and causes of Earthquakes around the world.
Earthquakes- Shaking of the ground caused by energy that is released when movement occurs along a fault.
Movement occurs when rocks along a fault slip or break.
Major Hazards of Earthquakes
• Building Collapse • Landslides • Fire • Tsunamis (Not Tidal Waves!)
Fault- A fault is a crack or break in the Earth’s crust. There are 3 main types of faults.
- Normal- Reverse- Strike slip
Faults are caused by tectonic forces within the earth. (Faults can also be combinations of the 3 types)
http://earthsci.org/struct/fault/fault1.gifThis diagram shows the parts of a fault.What type of fault is this?
Answer: A normal fault
PARTS Of A FAULT:
A. Fault Blocks-Huge block of rock between two faults.B. Fault Plane- 2 dimensional surface formed where two blocks meet.C. Hanging Wall- Wall of the block that is on top of the fault plane. (has a point that you can “hang” something from)D. Footwall- Wall of the block that is below the fault plane (looks like a foot!)
Types of faults:A. Normal Fault- type of force that causes normal faults in tension.
The hanging wall moves down.
A Normal Fault
tension tension
Normal Fault Structures
B. Reverse Fault- type of force that cause reverse faults is compression.
The hanging wall moves up.
A Reverse Fault
compression compression
A Thrust Fault- a thrust fault is a type of reverse fault
C. Strike – Slip Fault Type of force that causes strike slip faults is shearing. - Blocks move laterally.
- Very little up and down movement.
- Forces are from different directions.
A Strike-Slip Fault
shearing
shearing
TYPES OF FAULTS - ANIMATIONS
strike slip fault
reverse fault
normal fault
oblique fault
NAME THAT FAULT
1. What am I ?
2. What am I ?
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Seismic Waves- The energy waves that make the ground quake during an earthquake.
There are 3 different types of seismic waves:
1. Primary waves (P waves) 2. Secondary waves (S waves)3. Surface waves. (L wave)
Earthquake waves:
A. Primary waves ( P-waves)- travel through the earth by compressing particles in rocks in the same direction the wave is traveling.
- P-waves travel the fastest ( 6 km / s)
- First to arrive at seismograph stations.
This is how a P-wave travels.
Credit for animated waveshttp://www-rohan.sdsu.edu/~rmellors/lab8/l8maineq.htm
Secondary Waves- travel through earth by moving particles in rocks at right angles to the direction the wave is traveling. -S-waves travel slower than P-waves (4.1 km / s). -Arrive second at seismograph stations. -Cannot travel through liquid
Credit for animated waveshttp://www-rohan.sdsu.edu/~rmellors/lab8/l8maineq.htm
This is how a S-wave travels.
Surface Waves- reach earth’s surface and travel outward from the epicenter in all directions. - surface waves travel the slowest, but are the most destructive.
Credit for animated waveshttp://www-rohan.sdsu.edu/~rmellors/lab8/l8maineq.htm
This is how surface waves travels.
Credit for animated waveshttp://www-rohan.sdsu.edu/~rmellors/lab8/l8maineq.htm
This animation shows how all three wave types travel and arrive at different times.
Slide # 25- start of part 2
MEASURING AND DESCRIBING EARTHQUAKES
Magnitude- is a measurement of how much energy is released.
Richter Scale- (also known as the moment magnitude scale) is the measurement system used to describe the magnitude of an earthquake.
The Richter scale is an exponential scaleAn increase of 1 on the scale = 10x greater amplitude and 37x more energy
MEASURING AND DESCRIBING EARTHQUAKES
Seismometer – is a device that detects and measures seismic waves and records them on a seismograph
A Seismograph
A Seismograph
A sample seismograph recording
Richter Scale
• 0.0 - 1.9 Only recorded by seismograph.• 2.0 - 2.9 Smallest quake people can feel.• 3.0 - 3.9 Only felt near epicenter.• 4.0 - 5.9 Can cause minor damage• 6.0 - 6.9 Great damage to weak buildings• 7.0 - 7.9 Serious damage over large area• 8.0 + Great earthquake causing massive
damage to very large area.Don’t write this in you notes, just read it
Intensity
How Strong Earthquake Feels to ObserverDepends On: • Distance to Quake • Geology • Type of Building • Observer! Varies from Place to Place • Mercalli Scale- 1 to 12 (Roman Numerals)
Mercalli Scale
• I – III Felt standing still or sleeping.• IV – V Felt almost by all. Windows
broken, cars rocked, items knocked off shelf.
• VI Felt by all, many frightened. Some heavy furniture moved.
• VII Light damage to strong buildings and great damage in poor
buildings.Don’t write this in you notes, just read it
Mercalli Scale• VIII Major damage to most buildings
not specially designed for large earthquakes. Chimneys and
walls collapse.• IX Specially designed buildings
damaged. Partial collapse of buildings.
• X – XI Very few buildings standing, bridges destroyed, and rails bent.
• XII Total damage.
Don’t write this in you notes, just read it
The location of an earthquake is described using the following terms:• Epicenter• Focus
The focus of an earthquake is the spot inside the earth where the earthquake actually occurred.
The epicenter of the earthquake is the spot on the earth surface directly over where the earthquake occurred ( over the focus).
It is described in two ways:•Latitude and longitude•Distance from a major city or landmark
When an earthquake occurs, seismic waves travel outward in all directions from the focus.
P- wave arrives
1:15 ( 75 seconds)
S- wave arrives
3:30 ( 210 seconds)
So.. The difference between the
P-wave and S-wave arrival time is 135 seconds- this is called the “lag time”
Distance? Because distance = speed x time ( d = st)
1.9 km/sec. x 135 sec. = 256.5 km
** NOTE 1.9 km/sec is the difference in speed between the P and S waves
Location of the seismograph
Dist. F
rom E
arthquak
e
256
.5 km
Using the difference between the P-wave and S-wave arrival times you can determine the distance from the seismograph but NOT the direction. So… the earthquake occurred somewhere on the circle.
It takes a minimum of three (3) seismograph stations to locate the epicenter of an earthquake.
Locating Earthquakes
Paricutin, MexicoLocation: 19.5N, 102.2WElevation: 10,400 feet (3,170 m)