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Landforms Earthquakes Mountains A mass of rock rising more than 600 meters above the surrounding land Relief Fold Mountain formation Appalachian Mountains Rocky Mountains Alps Himalaya Mountains Fault-Block Mountain formation Fault Block Mountain Ranges are cause by a series of normal faults Sierra Nevada Mountains, CA Grand Tetons, WY Wasatch Mountains, Utah When the Earth SHAKES Earthquakes Volcanic eruptions can cause earthquakes but most earthquakes are caused by FAULTING The Elastic Rebound Theory was first proposed by American geologist Harry Fielding Reid after the 1906 San Francisco Earthquake Seismic Waves are waves of vibration sent out in all directions from the FOCUS Focus The point below the surface where the rock layers break and move Epicenter The point on the surface, directly above the focus. Where the greatest damage usually occurs Measuring Earthquakes Charles Richter Early Seismograph Newton’s First Law Seismograph- the machine that measures earthquake waves Seismogram – the recorded information of earthquake waves The Richter Scale is based on MAGNITUDE Magnitude 1 Magnitude 2 Magnitude 3 Each # is TEN TIMES larger than the # before it… Pennies as an example: Mag. 1 = 1 penny Mag. 2 = 10 pennies Mag 3 = 100 pennies Mag. 4 = 1000 pennies Mag. 5 = 10,000 pennies Mag. 6 = 100,000 pennies Mag. 7 = 1,000,000 pennies Mag. 8 = 10,000,000 pennies Mag. 9 = 100,000,000 pennies Mag. 10 = 1,000,000,000 pennies (that’s $10 million in pennies!!) Richter Magnitudes Earthquake Effects Less than 3.5 Generally not felt 3.5-5.4 Often felt, little damage Under 6.0 Slight damage to buildings 6.1-6.9 Can be destructive to about 100 km 7.0-7.9 cause Major earthquake. Can serious damage 8 or greater Large earthquake. Serious damage for hundreds of km Anatomy of a basic wave Crest – the highest point on a wave (A, F) Trough – the lowest point on a wave (D, I) Amplitude – the distance between the midpoint & crest or trough Wavelength – distance between any two successive points on a wave Frequency - # of vibrations/ second (Hertz) Types of Seismic Waves Body Waves are waves that travel through the body of the earth Surface waves only travel along the surface of earth Body Waves Primary Waves AKA P-Wave Type of Longitudinal Wave Causes back and forth motion Follows the same direction as the energy transfer P-Waves Type of COMPRESSIONAL wave (like sound) Will travel through solid, liquid or gas Travels at: 7.8 – 8.5 kps in mantle 7.2 kps in oceanic crust 3.5 kps in continental crust Primary Wave Secondary Wave AKA S-Wave Particle motion is perpendicular to direction of energy transfer Transverse or Shear Wave Will travel only through solids Travels 4 – 5 kps Secondary Wave Surface Waves Love Wave Recent evidence show s that L-Waves attenuate (gradually disappear) more slowly in older rock (eastern US) and more quickly in younger rock (western US) Two main types of surface waves: Love Wave Rayleigh Wave Love Waves travel less than 4 kps Move side-to-side; like a snake Causes the most damage Seismogram with the PWave, S-Wave and L-Wave Seismic Risk in the US Triangulation Refraction Refraction of seismic waves within the Earth Zone between about 105 degrees & 145 degrees is the Shadow Zone Focus 105 degrees 145 degrees
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