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CCM 2 for Oceanographers

CCM 2 for Oceanographers. October 24, 2013 John Peralta. Location  (a)  Return period  (b)  (c)  Conclusion. John Peralta 2013. Location  (a)  Return period  (b)  (c)  Conclusion. John Peralta 2013. Location  (a)  Return period  (b)  (c)  Conclusion.

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CCM 2 for Oceanographers

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  1. CCM 2 for Oceanographers October 24, 2013 John Peralta

  2. Location (a) Return period  (b)  (c)  Conclusion John Peralta 2013

  3. Location (a)  Return period  (b)  (c)  Conclusion John Peralta 2013

  4. Location (a) Return period  (b)  (c)  Conclusion (a) Determine the likelihood of a 6.0, 7.0, 8.0 Richter Scale or greater earthquake that will likely generate a tsunami (called “tsunami-genetic”) in any given year in coastal Peru. (Kilikov 2005) John Peralta 2013

  5. Location (a) Return period  (b)  (c)  Conclusion (Kilikov 2005) % Chance = 1 / Return Period x 100 % John Peralta 2013

  6. Location  (a) Return period (b)  (c)  Conclusion John Peralta 2013

  7. Location  (a)  Return period (b) (c)  Conclusion (b) Determine the 10 year, 50 year, and 100 year return period of tsunami run up heights. 10 year = 2.8m, 50 year = 15m, 100 year = 25m (Kilikov 2005) John Peralta 2013

  8. Location  (a)  Return period  (b) (c) Conclusion (c) Determine the Richter magnitude earthquake that the building would need to withstand, in order to survive for 50 years. 8.6 Richter magnitude John Peralta 2013

  9. Location  (a)  Return period  (b)  (c) Conclusion • Build on Oscar R. Benevides (green 20m site) • Build to withstand 9.0 Richter Scale Earthquake • Build to withstand yearly 6.0 Richter Scale Earthquake John Peralta 2013

  10. Questions? References Kulikov, Evgueni A., Alexander B. Rabinovich, and Richard E. Thomson."Estimation of tsunami risk for the coasts of Peru and northern Chile." Natural Hazards 35.2 (2005): 185-209. “Google Maps.” Google Maps. N.p., n.d. Web. 13 Oct. 2013. <http://maps.google.com/>. John Peralta 2013

  11. Location  (a)  Return period  (b)  (c)  Conclusion Appendix • More Reasons for why I chose 1 Data Set over another • Return period shorter so erring on the safer side and expecting the worst of the two scenarios • The newer dataset is more advanced as the historical data set may be missing unrecorded events • Focuses on a shorter and more current time span which may represent a current trend in the area John Peralta 2013

  12. Location  (a)  Return period  (b)  (c)  Conclusion Appendix http://www.osdma.org/ViewDetails.aspx?vchglinkid=GL002&vchplinkid=PL009 Cannonball!!! John Peralta 2013

  13. Location  (a)  Return period  (b)  (c)  Conclusion Appendix Although paper for whole coast, percentage of EQ in region high John Peralta 2013

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