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Earthquakes Earthquakes General features • Vibration of Earth produced by the rapid release of energy • Associated with movements along faults • Explained by the plate tectonics theory • Rocks spring back – a phenomena called elastic rebound • Vibrations (earthquakes) occur as rock elastically returns to its original shape Eric Marti/AP Photo Elastic rebound Earthquakes General features • Earthquakes are often preceded by foreshocks and followed by aftershocks Seismograph Earthquakes Earthquake waves • Study of earthquake waves is called seismology • Earthquake recording instrument (seismograph) • Records movement of Earth • Record is called a seismogram • Types of earthquake waves • Surface waves • Complex motion • Slowest velocity of all waves
A seismogram records wave Surface waves amplitude vs. time Two kinds of waves from earthquakes Earthquakes • P waves (compressional) 6–8 km/s. Parallel to direction of movement (slinky), also called primary waves. Similar to Earthquake waves sound waves. • Types of earthquake waves • Body waves • S waves (shear) 4–5 km/s. Perpen- dicular • Primary (P) waves to direction of movement (rope); also called • Push-pull (compressional) motion secondary waves. Result from the shear • Travel through solids, liquids, and gases strength of materials. Do not pass through • Greatest velocity of all earthquake liquids. waves Primary (P) waves Earthquakes Earthquake waves • Types of earthquake waves • Body waves • Secondary (S) waves • Shake motion • Travel only through solids • Slower velocity than P waves
Secondary (S) waves Earthquakes Locating an earthquake • Focus – the place within Earth where earthquake waves originate • Epicenter • Point on the surface, directly above the focus • Located using the difference in the arrival times between P and S wave recordings, which are related to distance Earthquake focus Earthquakes and epicenter Locating an earthquake • Epicenter • Three station recordings are needed to locate an epicenter • Circle equal to the epicenter distance is drawn around each station • Point where three circles intersect is the epicenter A time-travel graph is used to find the The epicenter is located using three or more seismograph distance to the epicenter
Distribution of magnitude 5 or greater Earthquakes earthquakes, 1980 - 1990 Locating an earthquake • Earthquake zones are closely correlated with plate boundaries • Circum-Pacific belt • Oceanic ridge system Earthquakes Earthquakes Earthquake intensity and magnitude Earthquake intensity and magnitude • Intensity • Magnitude • A measure of the degree of earthquake shaking • Often measured using the Richter scale at a given locale based on the amount of • Based on the amplitude of the largest damage seismic wave • Most often measured by the Modified Mercalli • Each unit of Richter magnitude equates to Intensity Scale roughly a 32-fold energy increase • Magnitude • Does not estimate adequately the size of very large earthquakes • Concept introduced by Charles Richter in 1935 Earthquakes Earthquakes Earthquake intensity and magnitude Earthquake destruction • Magnitude • Factors that determine structural damage • Moment magnitude scale • Intensity of the earthquake • Measures very large earthquakes • Duration of the vibrations • Derived from the amount of displacement • Nature of the material upon which the structure that occurs along a fault zone rests • The design of the structure
1906 San Francisco Earthquake Earthquakes Earthquake destruction • Destruction results from • Ground shaking • Liquefaction of the ground • Saturated material turns fluid • Underground objects may float to surface • Tsunami, or seismic sea waves • Landslides and ground subsidence • Fires Fig. 18.2 G.K. Gilbert 1906 San Francisco Earthquake Damage caused by the 1964 Anchorage, Alaska earthquake Fault Offset (~2.5m) Fault Trace G.K. Gilbert The Turnagain Heights slide resulted from Before the 1964 Anchorage, Alaska earthquake
Formation of a tsunami After Tsunami travel times Earthquakes to Honolulu Earthquake prediction • Short-range – no reliable method yet devised for short-range prediction • Long-range forecasts • Premise is that earthquakes are repetitive • Region is given a probability of a quake Possible seismic paths Earth's layered structure through the Earth Most of our knowledge of Earth’s interior comes from the study of P and S earthquake waves • Travel times of P and S waves through Earth vary depending on the properties of the materials • S waves travel only through solids
Earth's layered structure Earth's layered structure Layers defined by composition Layers defined by composition • Crust • Crust • Thin, rocky outer layer • Continental crust • Varies in thickness • Upper crust composed of granitic rocks • Roughly 7 km (5 miles) in oceanic regions • Lower crust is more akin to basalt • Average density is about 2.7 g/cm3 • Continental crust averages 35-40 km (25 miles) • Exceeds 70 km (40 miles) in some • Up to 4 billion years old mountainous regions Earth's layered structure Earth's layered structure Layers defined by composition Layers defined by composition • Crust • Mantle • Oceanic Crust • Below crust to a depth of 2900 kilometers (1800 miles) • Basaltic composition • Composition of the uppermost mantle is the • Density about 3.0 g/cm3 igneous rock peridotite (changes at greater depths) • Younger (180 million years or less) than the continental crust Earth's layered structure Earth's layered structure Layers defined by composition Layers defined by physical properties • Outer Core • Lithosphere • Below mantle • Crust and uppermost mantle (about 100 km • A sphere having a radius of 3486 km (2161 miles) thick) • Composed of an iron-nickel alloy • Cool, rigid, solid Average density of nearly 11 g/cm3 • • Asthenosphere • Beneath the lithosphere • Upper mantle • To a depth of about 660 kilometers • Soft, weak layer that is easily deformed
Earth's layered structure Earth's layered structure Layers defined by physical properties Layers defined by physical properties • Mesosphere (or lower mantle) • Inner Core • 660-2900 km • Sphere with a radius of 1216 km (754 miles) • More rigid layer • Behaves like a solid • Rocks are very hot and capable of gradual flow • Outer core • Liquid layer • 2270 km (1410 miles) thick • Convective flow of metallic iron within generates Earth’s magnetic field The compositional and Earth's layered structure mechanical layers of Earth Discovering Earth’s major layers • Discovered using changes in seismic wave velocity • Mohorovicic discontinuity • Velocity of seismic waves increases abruptly below 50 km of depth • Separates crust from underlying mantle Seismic shadow zones Earth's layered structure Discovering Earth’s major layers • Shadow zone • Absence of P waves from about 105 degrees to 140 degrees around the globe from an earthquake • Explained if Earth contained a core composed of materials unlike the overlying mantle
Earth's layered structure Earth's layered structure Discovering Earth’s major layers Discovering Earth’s composition • Inner core • Oceanic crust • Discovered in 1936 by noting a new region of • Prior to the 1960s scientists had only seismic seismic reflection within the core evidence from which to determine the composition of oceanic crust • Size was calculated in the 1960s using echoes from seismic waves generated during • Development of deep-sea drilling technology underground nuclear tests made the recovery of ocean floor samples possible Earth's layered structure Earth's layered structure Discovering Earth’s composition Discovering Earth’s composition • Mantle • Core • Composition is more speculative • Evidence comes from meteorites • Lava from the asthenosphere has a • Iron, and other dense metals, sank to composition similar to that which results from Earth’s interior during the planet’s early the partial melting of a rock called peridotite history • Core • Earth’s magnetic field supports the concept of a • Evidence comes from meteorites molten outer core • Composition ranges from metallic • Earth’s overall density is also best explained meteorites made of iron and nickel to stony by an iron core varieties composed of dense rock similar to peridotite

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Earthquakes[1]

  • 1. Earthquakes Earthquakes General features • Vibration of Earth produced by the rapid release of energy • Associated with movements along faults • Explained by the plate tectonics theory • Rocks spring back – a phenomena called elastic rebound • Vibrations (earthquakes) occur as rock elastically returns to its original shape Eric Marti/AP Photo Elastic rebound Earthquakes General features • Earthquakes are often preceded by foreshocks and followed by aftershocks Seismograph Earthquakes Earthquake waves • Study of earthquake waves is called seismology • Earthquake recording instrument (seismograph) • Records movement of Earth • Record is called a seismogram • Types of earthquake waves • Surface waves • Complex motion • Slowest velocity of all waves
  • 2. A seismogram records wave Surface waves amplitude vs. time Two kinds of waves from earthquakes Earthquakes • P waves (compressional) 6–8 km/s. Parallel to direction of movement (slinky), also called primary waves. Similar to Earthquake waves sound waves. • Types of earthquake waves • Body waves • S waves (shear) 4–5 km/s. Perpen- dicular • Primary (P) waves to direction of movement (rope); also called • Push-pull (compressional) motion secondary waves. Result from the shear • Travel through solids, liquids, and gases strength of materials. Do not pass through • Greatest velocity of all earthquake liquids. waves Primary (P) waves Earthquakes Earthquake waves • Types of earthquake waves • Body waves • Secondary (S) waves • Shake motion • Travel only through solids • Slower velocity than P waves
  • 3. Secondary (S) waves Earthquakes Locating an earthquake • Focus – the place within Earth where earthquake waves originate • Epicenter • Point on the surface, directly above the focus • Located using the difference in the arrival times between P and S wave recordings, which are related to distance Earthquake focus Earthquakes and epicenter Locating an earthquake • Epicenter • Three station recordings are needed to locate an epicenter • Circle equal to the epicenter distance is drawn around each station • Point where three circles intersect is the epicenter A time-travel graph is used to find the The epicenter is located using three or more seismograph distance to the epicenter
  • 4. Distribution of magnitude 5 or greater Earthquakes earthquakes, 1980 - 1990 Locating an earthquake • Earthquake zones are closely correlated with plate boundaries • Circum-Pacific belt • Oceanic ridge system Earthquakes Earthquakes Earthquake intensity and magnitude Earthquake intensity and magnitude • Intensity • Magnitude • A measure of the degree of earthquake shaking • Often measured using the Richter scale at a given locale based on the amount of • Based on the amplitude of the largest damage seismic wave • Most often measured by the Modified Mercalli • Each unit of Richter magnitude equates to Intensity Scale roughly a 32-fold energy increase • Magnitude • Does not estimate adequately the size of very large earthquakes • Concept introduced by Charles Richter in 1935 Earthquakes Earthquakes Earthquake intensity and magnitude Earthquake destruction • Magnitude • Factors that determine structural damage • Moment magnitude scale • Intensity of the earthquake • Measures very large earthquakes • Duration of the vibrations • Derived from the amount of displacement • Nature of the material upon which the structure that occurs along a fault zone rests • The design of the structure
  • 5. 1906 San Francisco Earthquake Earthquakes Earthquake destruction • Destruction results from • Ground shaking • Liquefaction of the ground • Saturated material turns fluid • Underground objects may float to surface • Tsunami, or seismic sea waves • Landslides and ground subsidence • Fires Fig. 18.2 G.K. Gilbert 1906 San Francisco Earthquake Damage caused by the 1964 Anchorage, Alaska earthquake Fault Offset (~2.5m) Fault Trace G.K. Gilbert The Turnagain Heights slide resulted from Before the 1964 Anchorage, Alaska earthquake
  • 6. Formation of a tsunami After Tsunami travel times Earthquakes to Honolulu Earthquake prediction • Short-range – no reliable method yet devised for short-range prediction • Long-range forecasts • Premise is that earthquakes are repetitive • Region is given a probability of a quake Possible seismic paths Earth's layered structure through the Earth Most of our knowledge of Earth’s interior comes from the study of P and S earthquake waves • Travel times of P and S waves through Earth vary depending on the properties of the materials • S waves travel only through solids
  • 7. Earth's layered structure Earth's layered structure Layers defined by composition Layers defined by composition • Crust • Crust • Thin, rocky outer layer • Continental crust • Varies in thickness • Upper crust composed of granitic rocks • Roughly 7 km (5 miles) in oceanic regions • Lower crust is more akin to basalt • Average density is about 2.7 g/cm3 • Continental crust averages 35-40 km (25 miles) • Exceeds 70 km (40 miles) in some • Up to 4 billion years old mountainous regions Earth's layered structure Earth's layered structure Layers defined by composition Layers defined by composition • Crust • Mantle • Oceanic Crust • Below crust to a depth of 2900 kilometers (1800 miles) • Basaltic composition • Composition of the uppermost mantle is the • Density about 3.0 g/cm3 igneous rock peridotite (changes at greater depths) • Younger (180 million years or less) than the continental crust Earth's layered structure Earth's layered structure Layers defined by composition Layers defined by physical properties • Outer Core • Lithosphere • Below mantle • Crust and uppermost mantle (about 100 km • A sphere having a radius of 3486 km (2161 miles) thick) • Composed of an iron-nickel alloy • Cool, rigid, solid Average density of nearly 11 g/cm3 • • Asthenosphere • Beneath the lithosphere • Upper mantle • To a depth of about 660 kilometers • Soft, weak layer that is easily deformed
  • 8. Earth's layered structure Earth's layered structure Layers defined by physical properties Layers defined by physical properties • Mesosphere (or lower mantle) • Inner Core • 660-2900 km • Sphere with a radius of 1216 km (754 miles) • More rigid layer • Behaves like a solid • Rocks are very hot and capable of gradual flow • Outer core • Liquid layer • 2270 km (1410 miles) thick • Convective flow of metallic iron within generates Earth’s magnetic field The compositional and Earth's layered structure mechanical layers of Earth Discovering Earth’s major layers • Discovered using changes in seismic wave velocity • Mohorovicic discontinuity • Velocity of seismic waves increases abruptly below 50 km of depth • Separates crust from underlying mantle Seismic shadow zones Earth's layered structure Discovering Earth’s major layers • Shadow zone • Absence of P waves from about 105 degrees to 140 degrees around the globe from an earthquake • Explained if Earth contained a core composed of materials unlike the overlying mantle
  • 9. Earth's layered structure Earth's layered structure Discovering Earth’s major layers Discovering Earth’s composition • Inner core • Oceanic crust • Discovered in 1936 by noting a new region of • Prior to the 1960s scientists had only seismic seismic reflection within the core evidence from which to determine the composition of oceanic crust • Size was calculated in the 1960s using echoes from seismic waves generated during • Development of deep-sea drilling technology underground nuclear tests made the recovery of ocean floor samples possible Earth's layered structure Earth's layered structure Discovering Earth’s composition Discovering Earth’s composition • Mantle • Core • Composition is more speculative • Evidence comes from meteorites • Lava from the asthenosphere has a • Iron, and other dense metals, sank to composition similar to that which results from Earth’s interior during the planet’s early the partial melting of a rock called peridotite history • Core • Earth’s magnetic field supports the concept of a • Evidence comes from meteorites molten outer core • Composition ranges from metallic • Earth’s overall density is also best explained meteorites made of iron and nickel to stony by an iron core varieties composed of dense rock similar to peridotite