earthquake
TRANSCRIPT
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PRESENTATION ON EARTHQUAKE
Prepared by :
Nirav R Dabhi 11CLD09Simal B Gandhi 11CLD10Parth J Bhavsar 11CLD12 Ketul P Mandavia 11CLD14
SILVER OAK COLLEGE OF ENGINEERING & TECHNOLOGY
Adviser :
Dulari MehtaKhushbu Bhojak
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• An earthquake (also known as a quake, tremor or temblor) is theresult of a sudden release of energy in theEarth's crust thatcreatesseismic waves.
• An earthquakeis caused by a sudden rupture (break) of the earth
• The most largest earthquakeof 9.5 magnitudeearthquakein• The most largest earthquakeof 9.5 magnitudeearthquakeinChile in 1960.
• The most recent earthquake of9.0 magnitude earthquake inJapan in 2011(as of March 2011), and it was the largest Japaneseearthquake since records began.
• It struck at 7.58amon December 26, 41 miles off the coast ofnorth-west Sumatra where 200,000 are nowthought to have beenkilled in just 15 minutes.
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• Passing the Elastic Limit Causes Faulting
• Applied stresses can cause rocks to bend and stretch• Eventually rocks will break away fromone another• Area in which the rocks break and move is called a fault• Vibrations produced is called an earthquake• Earth’s crust movement causes the stresses applied
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• Response of material to the arrival of energyfronts released by rupture
• Two types:• Bodywaves• Bodywaves
• P and S• Surface waves
• R and L
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• P or primary waves• Fastest waves• Travel through solids,
liquids, or gases• Compression wave,
material movement isin thesamedirectionas
• Body waves
material movement isin thesamedirectionaswave movement
• Energy waves thatcause rocks to moveback and force in thesame direction
• Compression andstretching forces arecreated
••
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• S or secondary waves• Slower than P waves• Travel through solids
only• Shear waves - move
material perpendicularto wavemovementto wavemovement
• Energy waves thatcause rocks to move atright angles to thewave
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• Surface Waves• Travel just belowor along the ground’s surface• Slower than body waves; rolling and side-to-side
movement• Especially damaging to buildings• Energy waves that move rocks in an elliptical motion
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• Earthquake focus• Focus – the point in Earth’s
interior where the energywaves are produced
• Seismicwaves
Seismic waves do not travel through earth’s surface at the same speedPrimary waves are the fastestSurface waves are the slowest
• Seismicwaves• Seismic wave - the energy
waves that move outward fromthe earthquake focus and makethe ground quake
• Epicenter• The point on Earth’s surface
directly above the earthquakefocus
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• Earth’s plates moveapart
• Movement of the platescauses tensionRocks above the fault
• Normal Fault
• Rocks above the faultsurface move downwardin relation to the rocksbelowthe fault surface
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• Compression forces areapplied because Earth’splates are comingtogether
• Causes rocks to bend
• Reverse Faults
and break
• Rocks above the faultsurface are forced upand over the rocksbelowthe fault surface
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• Earth’s plates movesideways to oneanother
• Creates a shear force
• Rocks on either side
• Strike-slip Fault
• Rocks on either sideof the fault surfaceare moving past eachother without muchupward or downwardmovement
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• Record the informationfrom the earthquake byrecording the different
• Seismograph stations
recording the differenttypes of waves as theyreach the station
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• If information is receivedfrom the earthquake atthree stations, then theepicenter can be located
• A circle is drawn aroundeachstationonamap
• Epicenter Location
eachstationonamap• The radius is equal to the
distance fromthe stationto the epicenter
• The point in which allthree circles intersect isthe earthquake epicenter
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• Seismology• Seismologists - People who study earthquakes and seismic
waves
• Use instruments called seismographs
• Recordseismicwaves• Recordseismicwaves
• A drum with a sheet of paper vibrates and a stationarypen marks the vibrations on the paper
• The height of the lines are used to measure the energyreleased fromthe earthquake called the magnitude
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• Earthquake Magnitude• Usually determines the strength of the break
• Doesn’t determine the duration or the size
• For each increase of 1 is 10 times stronger
• An earthquake of 4 is 10 times stronger than an earthquakeof 3
Causedby themovementof theoceanfloor• Causedby themovementof theoceanfloor• Causes a disruption in the water
• Some are so wide that a large ship can travel over the wavewithout knowing
• Recent earthquake in the Indian Ocean created a tsunamisthat was 100 feet high and moving at 500 mph
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• Shaking and Ground rupture
• Shaking and groundrupture are the maineffects created byearthquakes, principallyearthquakes, principallyresulting in more or lesssevere damage tobuildings and other rigidstructures.
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• The severity of the local effects depends on the complexcombination of the earthquakemagnitude, the distancefrom the epicenter, and the local geological andgeomorphologic conditions, which may amplify or reducewave propagation.
• The ground-shaking is measured byground acceleration.
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• Landslides and avalanches
• Earthquakes, along withsevere storms, volcanicactivity, coastal waveattack, and wildfires, canproduce slope instabilityleading to landslides, aleading to landslides, amajor geological hazard.
• Landslide danger maypersist while emergencypersonnel are attemptingrescue.
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• Fires
• Earthquakes can causefiresby damaging electricalpower or gas lines. In theevent of water mainsrupturing and a loss ofpressure, it may also becomedifficult to stopthespreadofdifficult to stopthespreadofa fire once it has started.
• For example, more deathsin the 1906 San Franciscoearthquakewere caused byfire than by the earthquakeitself.
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• Soil liquefaction
• Soil liquefaction occurswhen, because of theshaking, water-saturatedgranular material (such assand) temporarily loses itsstrength and transformsstrength and transformsfrom asolid to aliquid.
• Soil liquefaction maycause rigid structures, likebuildings and bridges, to tiltor sink into the liquefieddeposits.
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• This can be a devastating effect of earthquakes. Forexample, in the1964 Alaska earthquake, soil liquefactioncaused many buildings to sink into the ground, eventuallycollapsing upon themselves.
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• Tsunami
• Tsunamis are long-wavelength, long-period seawaves produced by the suddenor abrupt movement of largevolumes of water.
• In the open ocean the• In the open ocean thedistance between wave crestscan surpass 100 kilometers(62 mi), and the wave periodscan vary fromfive minutes toone hour.
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• Such tsunamis travel 600-800 kilometers per hour (373–497miles per hour), depending on water depth.
• Large waves produced by an earthquake or a submarinelandslide can overrun nearby coastal areas in a matter ofminutes.
• Tsunamis can also travel thousands of kilometers across openocean and wreak destructionon far shoreshours after theocean and wreak destructionon far shoreshours after theearthquake that generated them.
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• Floods
• A flood is an overflowofany amount of water thatreaches land.
• Floods occur usually whenthe volume of water within abody of water, such as abody of water, such as ariver or lake, exceeds thetotal capacity of theformation, and as a resultsome of the water flows orsits outside of the normalperimeter of the body.
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• However, floods may be secondary effects ofearthquakes, if dams are damaged.
• Earthquakes may cause landslips to damrivers, whichcollapse and cause floods.
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• Human impacts
• An earthquake may causeinjury and loss of life, road andbridge damage, generalproperty damage(which mayor may not be covered byearthquake insurance), andcollapse or destabilizationcollapse or destabilization(potentially leading to futurecollapse) of buildings.
• The aftermath may bringdisease, lack of basicnecessities, and higherinsurance premiums.
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• Seismic safe structures• Structures that are resistant to the vibrations of Earth’s
crust
• Structures are made with moorings
• Made of steel and are filled with alternating layers of• Made of steel and are filled with alternating layers ofrubber and steel
• These structures absorb the energy produced fromtheearthquake
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Damage in Oakland, CA, 1989• Building
collapse• Fire• Tsunami• Ground failure
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