S-waves will take 31 seconds P-waves will take 8 minutes
The arrival time of the P wave at a seismic station depends on the distance from the earthquake's epicenter. P waves, being the fastest seismic waves, travel at speeds of approximately 5 to 8 kilometers per second in the Earth's crust. Therefore, if an earthquake occurs 100 kilometers away, the P wave would typically arrive at the seismic station in about 12 to 20 seconds. The exact arrival time can vary based on geological conditions and the specific location of the epicenter.
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It would take approximately 22 minutes for the first s-wave to arrive at a seismic station 4000 kilometers away from the epicenter of an earthquake. S-waves travel at an average speed of about 3.5 kilometers per second through the Earth's crust and mantle.
A P wave is a type of seismic wave generated by an earthquake that travels the fastest through the Earth's layers. It is the first wave to arrive at a seismograph station and is known as a compressional wave because it pushes and pulls the rock particles as it moves.
The time it takes for wave A to reach a station depends on the distance between the source of the wave and the station, as well as the speed of the wave. Generally, this can range from a fraction of a second to several minutes for seismic waves, for example.
it take 45or350 p-waves to get to the seismic station
S-waves will take 31 seconds P-waves will take 8 minutes
Siadar Wave Power Station was created in 2011.
depends on the size of the wave and what ocean it is in
That would depend on how far away it was in the first place. Just use the formula:distance = time x speedOr, solving for time:time = distance / speed
if you survive in lone wolf long enough you can save reach but as every wave gets harder it is almost inpossible
The first wave to reach a recording station after an earthquake is the Primary wave, or P-wave. P-waves are compressional waves that travel faster than other seismic waves, moving through both solid and liquid layers of the Earth. They are followed by Secondary waves (S-waves) and surface waves, which arrive later and can cause more damage.
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An S-wave travels at 3.5 kilometers per second. If you have an S-wave traveling 6000 kilometers, it would take 1.7seconds.