SpletQuestion 14. 30 seconds. Q. If the Earth did NOT have a liquid outer core, how would earthquake waves travel differently. answer choices. P and S waves would both be absorbed. Only S waves would travel through the Earth's core. Shadow zones would not exist. S waves would travel faster than P waves. Splet13. dec. 2024 · The emergence of Shadow Zone of P-waves and S-waves The seismographs located at any distance within 103° from the epicentre, recorded the arrival …
Seimic Waves and Earth’s Interior - Pennsylvania State University
SpletThe shadow zone is the zone of the earth from angular distances of 104 to 140 degrees from a given earthquake that does not receive any direct P waves. The shadow zone … SpletSeismic Shadow Zones: P wave The shadow zone is the area of the earth from angular distances of 104 to 140 degrees from a given earthquake that does not receive any direct P waves. The different phases show … team ddtc
P and S waves
SpletThis speed decrease bends waves backwards and creates a "P-wave Shadow Zone" between about 100° and 140° distance (1° = 111.19 km). ... The diagram below is a plot of the P- and S-wave velocities and the density as a function of depth into Earth. The top of the Earth is located at 0 km depth, the center of the planet is at 6371 km. ... Splet18. jan. 2024 · P-waves and S-waves are the two types of seismic body waves, each with their own characteristics. There are two distinct seismic shadow zones on the surface of … team ddr4 3200mhz pc4-25600 16gb