Imagine floating in the sky in a private plane, commercial plane or high-tech air force jet. An earthquake starts to happen below you, trees shake, buildings collapse… What kind of consequences would such a devastating earthquake have for someone traveling on an airplane?
As we have understood once again with the unfortunate events in our country, earthquake one of the worst disasters is one. On the land we live on, it can have devastating consequences.
Well, if you’re on a plane trip, caused by an earthquake on land Do you feel the noise and shaking? What danger could await you?
Seismic waves can move the earth up and down, causing major disasters.
When a sudden rupture or slippage occurs in the earth’s crust, energy is released, just as energy from a movement in a body of water is emitted in the form of waves. in seismic waves spreads.
Surface waves, a form of seismic waves, act just like waves in a body of water. By moving the earth up and down major damage and disaster why could it be.
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The consequences of earthquakes on land are obvious, but what about water and air?
For us, the parts of the Earth we interact with are mostly land, but our planet is air and water also includes. Earthquakes on the seafloor activate the water above it in the form of tsunamis, so why not some events in the atmosphere as well?
S waves, one of the types of seismic waves, do not propagate in liquids and gases.
The energy released during an earthquake is similar to sound or water waves and with waves called seismic waves spreads. Among these waves, “body waves” are divided into P waves and S waves.
Since P waves are the fastest propagating wave type, they are the first waves seen in earthquake recorders (seismographs). However, it is below the threshold of human hearing. When we “hear” an earthquake, we usually don’t hear seismic waves. Instead, seismic waves the sound produced when it moves through solid matter (such as the roar of a building and its contents).
Slower propagating S waves are secondary to recordings and vibrational movement in the direction of propagation are steep waves. S waves cannot propagate in liquids and gases.
Waves lose their intensity as they move through air.
You cannot perceive the sounds of an earthquake from a flying plane. Thanks to the concept physicists call “attenuation,” as waves move through the air gradually lose their intensity.
As such, once the seismic waves reached the typical cruising altitude of 30,000 feet (9,144 meters), the waves would have diminished so much that the noise of the aircraft itself and even its movement will suppress the waves. For this reason, you do not hear or feel the earthquake from the plane.
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Still, it doesn’t mean you’re not at risk.
If the tremors cause volcanic activity and the flight is operating at a low cruise level, this can cause turbulence. Additionally, if airport runways are damaged by liquefaction in a major earthquake, with great danger may be encountered.
Since we are talking about a devastating earthquake, the pilot who wants to contact the tower may not be able to communicate with the tower. Besides; runway lights and all lighting systems may be down, navigation devices may not signal, radar systems may become unusable.
In short; even if you don’t experience the effects of the earthquake while on the planeduring landing You can come face to face with great risk.
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