1 / 26

EARTHQUAKES WHAT YOU NEED TO KNOW!

EARTHQUAKES WHAT YOU NEED TO KNOW!. TECTONIC PLATES. EARTHQUAKES HAPPEN AT TECTONIC PLATE BOUNDARIES. ANALYSIS OF SEISMIC WAVES HAVE RESULTED IN THE INFERENCE ABOUT EARTH’S INTERIOR S WAVES CANNOT PASS THROUGH THE LIQUID OUTER CORE. EARTHQUAKE SHADOW ZONES

minda
Download Presentation

EARTHQUAKES WHAT YOU NEED TO KNOW!

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. EARTHQUAKESWHAT YOU NEED TO KNOW!

  2. TECTONIC PLATES EARTHQUAKES HAPPEN AT TECTONIC PLATE BOUNDARIES

  3. ANALYSIS OF SEISMIC WAVES HAVE RESULTED IN THE INFERENCE ABOUT EARTH’S INTERIOR S WAVES CANNOT PASS THROUGH THE LIQUID OUTER CORE

  4. EARTHQUAKE SHADOW ZONES NO WAVES OCCUR BETWEEN 105º -140º S WAVES DISAPPEAR FROM 105º NEVER TO APPEAR AGAIN

  5. CONVECTION CURRENTS IN THE ASTHENOSPHERE CAUSE THE PLATES TO MOVE IN DIFFERENT DIRECTIONS – LOOK AT ARROWS DIVERGING CONVERGING

  6. Seafloor spreading

  7. SAN ANDREAS FAULT NORTH PACIFIC PLATE WEST SIDE MOVES NORTH NORTH AMERICAN PLATE EAST SIDE MOVES SOUTH EAST WEST SOUTH

  8. P WAVES • Primary waves (compression waves) vibrate parallel to the direction of movement. (push-pull like a slinky) • Travel faster than any other wave (6-8 km./s) • Travel through solids, liquids, and gases

  9. S WAVE • Secondary wave (shear waves) vibrate side to side to the direction the wave is moving • Slower than P waves (4-5 kms./s) • TRAVEL THROUGH SOLIDS ONLY

  10. Finding an Earthquake Epicenter

  11. What is an Epicenter? • A point on the surface of the Earth directly above the FOCUS of the earthquake. • The point within the Earth from which earthquake waves originate.

  12. Use the data from the recording stations: • Station A: San Francisco, California P-Wave arrival 3:02:20 S-Wave arrival 3:06:30 What is the time difference between P and S wave arrivals? 4:10

  13. Use the data from the recording stations: • Station B: Denver, Colorado P-Wave arrival 3:01:40 S-Wave arrival 3:05:00 What is the time difference between P and S wave arrivals? 3:20

  14. Use the data from the recording stations: • Station C: Missoula, Montana P-Wave arrival 3:01:00 S-Wave arrival 3:03:00 What is the time difference between P and S wave arrivals? 2:00

  15. Difference in arrival times: San Francisco: 4:10 Denver, Colorado: 3:20 Missoula, Montana: 2:00

  16. TAKE A PIECE OF PAPER, AND MARK OFF THE DIFFERENCE IN ARRIVAL TIME 4:10 2800Km

  17. MOVE THE PAPER UNTIL THE TWO TICK MARKS LINE UP WITH THE P AND S CURVES WHEN TICK MARKS LINE UP, GO STRAIGHT DOWN AND READ THE EPICENTER DISTANCE EPICENTER DISTANCE OF 2800 KM

  18. EPICENTER DISTANCES San Francisco: 4:10 2,800 km Denver, Colorado: 3:20 2,000 km Missoula, Montana 2:00 1,100 km

  19. Recording BoardDifference in arrival times: San Francisco: 41:0 2,800 km Line your compass up to the EXACT distance on the scale. Use the metric side (cm) beginning from zero. 0 3,000 2,000 4,000 5,000 1,000

  20. Use your carefully set compass to draw a circle around each seismic station. . . . You've found a possible epicenter! Does this seem like a likely location for an earthquake to occur?

  21. Where do most of the earthquakes in the U.S. occur?

  22. Tsunami (giant sea wave)

  23. REMEMBER!

  24. Emergency Preparedness Plan: • Duck and cover • Evacuation route and safe place to go to • Supply of clean water, food, blankets, flashlight, batteries, med.

More Related