Submitted by Kozzinator t3_zv4f7h in askscience
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Kozzinator OP t1_j1oru0c wrote
Thank you! Very detailed answer 🙂👍
[deleted] t1_j1oaksr wrote
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NakoL1 t1_j1okmm4 wrote
also, very importantly: shearing waves do not propagate in liquids (quakes create both pressure and shearing waves). you can tear a solid, such as a sheet of paper, but trying to do the same to a liquid doesn't make sense. whereas pressure waves, like sound, propagate in both solids and liquids
so it's very obvious that (at least an outer layer of) the core is liquid because it's "dark" when looked at using shearing waves
Primed572 t1_j1okqs9 wrote
Thank you. I didn't know that.
CrustalTrudger t1_j1pp8fw wrote
There is already a pretty detailed discussion of this in our FAQs.
[deleted] t1_j1nqdt5 wrote
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[deleted] t1_j1oitwz wrote
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[deleted] t1_j1qan7m wrote
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[deleted] t1_j1p6xft wrote
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pretendperson1776 t1_j1or2gj wrote
Waves, when moving from one medium (material type) to another, will bend if they strike at an angle. They will bend one way if moving unto a less dense medium, the other way if entering a more dense medium. Earthquakes generate massive waves in the earth. By measuring how long those waves take to reach different seismographs (tools for measuring Earthquakes), scientists can determine how the wave moved through the earth, and through that path, the density of the materials the waves moved through.
Temperature data is hypothesized based on the material we know the upper mantle to be made of (from lava) and its density and then supported by deep holes we have dug, where thr Temperature increases in a fairly linear manner.