Modern seismometer

2. Modern seismometer

3. Three components of motion can be measured east-west north-south up-down If you speeded up any earthquake signal and listened to it with a hi fi, it would sound like thunder.

4. Station 1 Station 2 Station 3 Station 4 Station 5

5. Different kinds of waves exist within solid materials Body waves – propagate throughout a solid medium

8. Compressional Waves in one- and two-dimensions

9. Shear waves in one- and two- dimensions

10. Different types of waves have different speeds Shear velocity (just like waves on a string) Compressional velocity (a bit like a slinky) • = shear modulus = shear stress / shear strain (restoring force to shear) • k = bulk modulus = 1/compressibility (restoring force to compression) P-waves travel faster than S-waves (and both travel faster than surface waves)

11. P-waves get there first…

12. As well as body waves, there are surface waves that propagate along a surface Rayleigh Love

15. Different kinds of damage…. P-wave S-wave Sfc-wave All

16. P-wave arrival Surface waves arrival S-wave arrival

17. Difference between P-wave and S-wave arrival can be used to locate the location of an earthquake more effectively… = Hypocenter

18. Difference between p- and s-waves can be used to track location

19. Need 3 stations to isolate location (and the more the better)

20. The sense of motion can be used to infer the motion that caused it. east-west north-south up-down The “first-motion” of the earthquake signal has information about the motion on the fault that generated it.

21. The orientation of faults can be determined from seismic networks

22. The orientation of faults can be determined from seismic networks

23. Go to board for Snell’s law

24. Back to Snell’s Law Any change in wave speed due to composition change with height will cause refraction of rays…. SLOW FAST FAST SLOW This one applies to the crust

30. Do this on the board

31. Seismology can be used to infer the structure of the interior of the Earth

32. First, recall that wave paths are curved within the Earth due to refraction.

33. If the Earth were homogenous in composition…

34. But seismic velocities show great variety of structure moho crust mesosphere core aesthenosphere

35. S waves cannot propagate through the core, leading to a huge shadow zone S waves cannot propagate in a fluid (fluids cannot support shear stresses)

36. Shadow zones for P-waves exist but less b/c propagation through the core

37. Animation of P wave rays

38. Animation of P wave fronts

39. The pathways from any given source are constrained…

40. Seismic “phases” are named according to their paths P – P wave only in the mantle PP – P wave reflected off earths surface so there are two P wave segments in the mantle pP – P wave that travels upward from a deep earthquake, reflects off the surface and then has a single segment in the mantle PKP – P wave that has two segments in the mantle separated by a segment in the core

42. Ray path examples…

43. Ray path examples…

44. Can be identified from individual seismograms (just about)

49. What do we know about the interior composition of the Earth?

50. What do we know about the interior composition of the Earth?