Earth Science

1. Earth Science Coach Williams Room 310B

2. Chapter19 • Earthquakes

3. Section19.1: Forces Within the Earth • Objectives: • Define stress and strain as they apply to rocks • Distinguish among the three types of faults • Contrast three types of seismic waves

4. Earthquakes • Vibrations of ground • Caused by movement along fractured crust

5. Stress and Strain • Stress: forces that act on a material • Compression: decreases volume of material • Tension: pulls material apart • Shear: causes materials to twist • Strain: deformation of material due to stress

6. Faults • Fault: fracture in crust; caused by stress • Reverse: horizontal compression (pushing together) • Normal: horizontal pulling apart • Strike-Slip: shear forces (sideways)

7. Faults

8. Earthquake Waves • Primary (P-waves): rocks move in same direction as waves. • Secondary (S-waves): rocks move @ right angles to direction of wave. • Surface: rocks move in 2 directions • Surface waves stay on surface • S/P Waves pass through interior (body waves)

9. Earthquake Waves

10. Earthquake Waves

11. Focus & Epicenter • Focus: point where Earthquakes start • Usually below surface • Epicenter: point directly above on surface

12. Section 19.2: Seismic Waves and Earth’s Interior • Objectives: • Describe how a siesmometer works • Explain how seismic waves have been used to determine the structure and composition of Earth’s interior

13. Seismometers and seismograms • Seismology: study of earthquake waves • Surface and interior • Seismometer: detects/records seismic waves • Seismogram: record of waves

14. Seismometers

15. Travel-Time Curve • Many earthquakes are charted • Shows time an distance from epicenter • Determines distance

16. Clues to Earth’s Interior • Changing speed/direction of waves • P-waves diffracted • S-waves won’t go through liquid

17. Earth’s Interior

18. Section 19.3: Measuring and Locating Earthquakes • Objectives: • Compare/contrast earthquake magnitude and intensity and the scales used to measure each • Explain why data from at least three seismic stations are needed to locate an earthquake’s epicenter • Describe Earth’s seismic belts

19. Magnitude and Intensity • Magnitude: amount of energy released • Depth affects magnitude • Richter scale: • Measured magnitude • Largest wave • Power of 10 (8 is 10x larger than 7 & 100x more than 6) • Moment Magnitude Scale • Fracture length and movement • Modified Mercalli Scale • Amount of damage (intensity) • I-XII

20. Magnitude and Intensity

21. Magnitude and Intensity

22. Locating an Earthquake • Distance from 3 seismic stations • Intersecting 3 circles

23. Locating an Earthquake

24. Seismic Belts • Plotted earthquakes • Regions

25. Section19.4: Earthquakes and Society • Objectives: • Discuss factors that affect eh amount of damage done by an earthquake • Explain some of the factors considered in earthquake probability studies • Define seismic gaps

26. Earthquake Hazards • Structure failure • Buildings (pancaking), building materials? • Land/Soil failure • Landslides, soil liquefaction • Fault scarps: ground deformations • Tsunami: large ocean wave

27. Fault Scarp

28. Landslide

29. Tsunami

30. Tsunami

31. Seismic Risk

32. Earthquake Prediction • Earthquake history: • Intervals (Parkfield, CA- 22years) • Seismic gaps: time since last earthquake • Strain accumulation: measure of strain