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Introduction to Seismology

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1 Introduction to Seismology
Geology 5640/6640 Introduction to Seismology 13 Jan 2017 Last time: Course overview Seismology is used as a tool to investigate: • Seismic sources: Earthquake physics, magma transfer in volcanic systems, “icequakes”, storms, nuclear test verification, drill bit location… • Seismic velocity & impedance structure: Seismic reflection imaging (oil & gas industry), site investigation (construction, environmental, hydro resources), virtually all fundamental research into processes in the Earth’s interior Read for Wed 18 Jan: S&W (§ ) © A.R. Lowry 2017

2 How to use these powerpoints:
• Review them often: Before each class, while doing exercises, and in preparing your projects • The most important points of each lecture (in my opinion) are summarized on the first slide of the next lecture • Note the notation!  Arial Black, italic means Important, pay attention…  Arial Black, italic, red font means Critically Important concept or terminology that I expect you to understand intimately for exercises and projects  Times New Roman, italic, black font means this is an equation or an algebraic variable  A Red Box with Grey Background means this is an especially important concept or equation

3 A seismogram is a time-record of motion of an inertial mass…
Source Pulse Seismogram (After S&W Fig ) Receiver Source Medium Origin time Travel time Arrival time … that contains information about the source, Earth response, and seismometer response.

4 Most of what we know about the Earth’s interior comes from seismology.
8-14 km/s 8-10 km/s 11 km/s

5 And not just Earth! Apollo-era seismic data demonstrate the lunar interior has similarities to Earth’s…

6 } Seismology (A brief review of things you “already know”)
Four Types of Seismic Waves: } (1) P (primary) wave (Velocity Vp = 4 to 14 km/s) (2) S (secondary) wave (Vs = 2/5 to 3/5 Vp, or 0) (3) Surface Waves (Love, Rayleigh) V slightly < Vs (4) Normal Modes (Resonant “tones”, like a bell…)  continue for months after largest earthquakes  periods of hours or days “standing waves” Body Waves

7 P S Surface (Love) Surface (Rayleigh)

8 Seismic waves are strain waves that propagate in a medium…
Common analogies use ripples in a pond, or light. There are similarities in that all three are described by the wave equation. Ripples & seismic waves similarly involve stress & displacements that propagate as individual particles in the medium oscillate between potential and kinetic energy states… But, a major difference is rheology. Stress, displacement & strain in a solid continuum are governed by Hooke’s Law.

9 Despite differences, similarities inherent in the
wave equation  many important principles can be borrowed from optics. One of these is Huygen’s Principle: Every point on a wavefront can be treated as a point source for the next generation of wavelets. The wavefront at a time t later is a surface tangent to the furthest point on each of these wavelets. This is because extremal points of propagation have the greatest constructive interference…

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