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Published byNeal Griffith Modified over 9 years ago
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Earthquakes and Earth’s Interior Key Points are Green
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What is an earthquake? Earthquake a rapid release of kinetic energy given off in the form of waves. Sensitive instruments around the world record these events
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Earthquake faults Fault lines and plate boundaries are the place where these movements normally originate from.
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Stored Energy Energy is stored over time in the ground and it gets released once the pressure is greater than the mechanical strength of the rocks can bare. Aftershocks - smaller earthquakes that follow a major earthquake Foreshocks - small earthquakes often preceding a major earthquake by days or, in some cases, by as much as several years.
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Seismology: is the study of earth quakes. The study of earthquake waves Dates back almost 2000 years to the Chinese who looked into pots of water to record these movements.
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Seismographs: – are instruments that record seismic waves. They work by recording the movement of Earth in relation to a stationary mass on a rotating drum or magnetic tape. Records obtained are called seismograms There are 3 types of seismic waves
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Fastest wave which travels only in through solids, liquids, and gases. Push-pull (compression motion). Primary (P) waves
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Secondary (S) waves Up down motion at mater moves at right angles to the direction of wave travel. Travels only through solids Slower velocity than P waves But greater intensity and amplitude than P waves
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Surface Waves / Rayleigh waves Cause greatest destruction Waves exhibit greatest amplitude and slowest velocity
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Focus - the place within Earth where earthquake waves originate Epicenter – location on the surface directly above the focus.
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Locating the distance to the epicenter At least Three station recordings are needed to locate an epicenter Each station determines the time interval between the arrival of the first P wave and the first S wave at their location. A travel-time graph is used to determine each station’s distance to the epicenter
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Finding Epicenter: A circle with a radius equal to the distance to the epicenter is drawn around each station. The point where at least three circles intersect is the earthquake epicenter.
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Two measurements that describe the size of an earthquake are Intensity – a measure of the degree of earthquake shaking at a given locale based on the amount of damage Magnitude – estimates the amount of energy released at the source of the earthquake
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Magnitude measurements Richter scale Numerical system used to quantify Earthquake strength. Largest magnitude Earthquake was a 9.5 recorded in Chile in 1960. Magnitudes less than 2.0 are not felt by humans Each unit of Richter magnitude increase corresponds to a tenfold increase in wave amplitude and a 32-fold energy increase.
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Locating the source of earthquakes Earthquake depths Definite patterns exist Almost all deep-focus earthquakes occur in at convergent boundaries. Many shallow focus occur along the oceanic ridge system or divergent boundaries
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Earthquakes of magnitude 5 or greater over a 10 year period
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