Physics
What are the consequences of flying over an earthquake?
Have you ever pondered the potential consequences of being aboard a commercial flight at a significant altitude when a colossal earthquake occurs? Presumably, you would be in an altered state of consciousness that would hinder your ability to perceive and comprehend any sensory experiences, correct? The answer to that question is contingent upon several factors.
Seismic activity and atmospheric conditions
Although it may appear improbable, an earthquake can potentially lead to several consequences that could pose challenges for a flight, depending on the circumstances. However, it is important to first examine the connection between the atmosphere and the earth before delving into that topic.
Attila Komjathy, a scientist at NASA’s Jet Propulsion Laboratory (JPL) of the California Institute of Technology, explained on NASA’s website that when the ground shakes, it generates small atmospheric waves that can travel all the way up to the ionosphere. This is a region known as the exosphere, which can reach a distance of up to 1,000 kilometers (600 miles) from the Earth’s surface.
Consequently, an earthquake has the potential to induce certain atmospheric disruptions, but is this sufficient to disrupt the operation of an aircraft? Simply put, the answer is no. However, if we delve deeper into the matter, the answer remains a resounding no, but with some intriguing nuances.
Earthquakes emit seismic waves, which manifest as pressure waves (P waves) and shear waves (S waves). S waves are restricted to propagating through solid media, such as the ground, while P waves have the ability to transmit through different types of media, including liquids and gases. Consequently, they have the ability to enter the atmosphere. When sound is transformed into soundwaves, they often have a frequency below 20 hertz, which is the minimum level for human hearing. Consequently, these soundwaves, known as infrasound, are usually inaudible.
Nevertheless, as these waves propagate through the air, their intensity diminishes. This phenomenon is known as attenuation, and it essentially refers to the decrease in sound intensity as the distance between the source and the listener increases. It is also a phenomenon that diminishes the intensity of sunlight as it passes through different layers of the atmosphere or other substances, such as the ocean.
Consequently, an aircraft traversing an earthquake, regardless of its intensity, would remain unaffected by the seismic vibrations beneath. Once the P waves have propagated through the rock and subsequently the air, their intensity will have significantly decreased, rendering them overshadowed by the plane’s own noise and movement.
Nevertheless, airplanes are not exempt from risks during an earthquake. The concerns at hand pertain to navigation and safety, albeit of a distinct nature.
In 2018, a self-proclaimed United States Air Force pilot and aero engineer named Ron Wagner provided a response on Quora to a question inquiring about the impact of earthquakes on an aircraft in flight. Wagner’s response was sufficiently captivating that Forbes subsequently shared it again.
Wagner claims that he piloted an aircraft during an earthquake, causing disruptions to air traffic control. During this occurrence, the earthquake resulted in a loss of electricity at the ground base, which consequently affected the plane’s navigation instruments and its capacity to communicate. The power outage resulted in the loss of radar signals for air traffic control, rendering them unable to determine the location of Wagner’s flight. Nevertheless, these problems were quickly resolved when the emergency power of the ground base was activated.
Although this may sound alarming, it serves as an illustration of potential occurrences. Typically, air traffic control stations possess ample emergency backup generators to handle such situations. In addition, they have meticulously developed contingency plans for system-wide events, which include strategies for addressing potential scenarios such as volcanic eruptions, nuclear fallout, floods, acts of terrorism, and earthquakes.
If you find yourself flying during an earthquake, you can rest assured that there is very little cause for concern. Typically, you will be unaware of the occurrence until you touch down.
All “explainer” articles undergo verification by fact-checkers to ensure their accuracy prior to publication. Information can be updated in the future by modifying, deleting, or adding text, images, and links.
Physics
An interest They stepped on a rock and found something on Mars that had never been seen before
NASA’s curiosity has been looking into an interesting part of Mount Sharp for the past 10 months. It shows signs of a violent watery past, and chemical tests have shown that it contains many minerals, such as sulfates. The rover also broke open a rock by accident as it moved around. And inside it were crystals of pure sulfur.
On Mars, people had never seen pure sulfur before. Even though sulfates contain sulfur, there isn’t a clear link between how those molecules form and how the pure crystals form. Crystals of elemental sulfur can only form in a few different situations. And none of those were thought to happen in this area.
To find a field of stones made of pure sulfur is like finding an oasis in the middle of the desert, said Ashwin Vasavada, the project scientist for Curiosity at NASA’s Jet Propulsion Laboratory. “That thing shouldn’t be there, so we need to explain it.” It’s so exciting to find strange and unexpected things when exploring other planets.
The Gediz Vallis channel is the name of the area that Curiosity is exploring. A groove across Mount Sharp has been interesting for a long time, even before the rover started climbing it in 2014. From space, scientists could see that there were big piles of debris. But it wasn’t clear what caused them. Was it landslides or floodwaters from a long time ago that moved the stuff along the channel?
The answer has been found through curiosity. Some column A and some column B. Water-moved rocks are smoother and rounder. Sharp and angular are those that dry avalanches moved. There are both kinds of rocks in the mounds.
“This was not a quiet time on Mars,” said Becky Williams, a scientist from Tucson, Arizona, who works for the Planetary Science Institute and is the deputy principal investigator of Mastcam on Curiosity. “There was a lot of exciting stuff going on here.” We expect a number of different flows to happen down the channel, such as strong floods and flows with lots of rocks.
Curiosity is still looking into the Gediz Valley. When the ball rolls around and shows off its unique features, we can get very excited about the science being done here.
Astronomy
It may not be long before we find “Earth’s Twin”
To figure out if there is life in other parts of the universe, we start with Earth, where there is life now. Finding another Earth is a good way to find aliens. We have found more than 5,000 exoplanets, but we haven’t found Earth’s twin yet. This could change soon, though. Here comes the PLATO mission from the European Space Agency (ESA).
What does PLATO stand for? It stands for PLAnetary Transits and Oscillations of stars. Its goal is very clear. It will look for nearby stars like the Sun that might have habitable worlds like Earth.
“One of the main goals is to find a way to compare Earth and the Sun.” The size of Earth is in the habitable zone of a star like the Sun. “We want to find it around a star that’s bright enough that we can really figure out how heavy it is and how big it is,” Dr. David Brown from the University of Warwick told IFLScience. “If you like, that’s our main goal.”
The telescope is not only an observatory for looking for planets, but it is also an observatory for collecting data on a huge number of stars. The mission team thinks that the fact that it can do both is a key part of why this telescope will be so important.
“You have two parts of the mission.” One is exoplanets, and the other is the stars. “From a scientific point of view, I think it’s pretty cool that these two parts are working together to make the best science we can,” Dr. Brown said.
One of the secondary goals is to make a list of all the planets that are Earth-like and all the star systems that are out there. One more goal is to find other solar systems that are like ours. Even though we don’t know for sure if our little part of the universe is truly unique, it does seem to be different from everything else.
Dr. Brown told IFLScience, “We have a bunch of other scientific goals.” “Really, how well do we know how planetary systems change and grow over time?” Planetary systems are something we’re trying to understand as a whole, not just one planet at a time.
PLATO is different in more ways than just the goals. It is not just one telescope. In fact, it’s made up of 26 different ones. Two of the cameras are fast, and the other 24 are normal cameras set up in groups of six with a small gap between them. This makes the telescope work better, has a wider field of view, and lets you quickly rule out false positives.
It can be hard to tell which of the things you find when you transit exoplanets are real and which ones are not. With the help of several telescopes, we were able to block out some of the mimics that we would have seen otherwise. “Plus, it looks pretty cool,” Dr. Brown said with excitement. “This big square with all of these telescopes pointing at you looks really cool!”
This week, Dr. Brown gave an update on PLATO at the National Astronomy Meeting at the University of Hull. The telescope is being put together and has recently passed important tests. There are no changes to the planned launch date for December 2026. An Ariane 6 rocket, the same kind that made its first launch last week, will take off from French Guiana.
Physics
Light is the fastest thing that can “move” across a surface
Einstein’s theory of special relativity says that it is impossible to move faster than light in a vacuum.
Things that don’t have mass have to move at the speed of light. But things that do have mass can’t get close to 299,792,458 meters per second (983,571,056 feet per second) without using up all of their energy. Physicists and sci-fi authors have tried to get around this by using concepts like the warp drive. But it’s likely that these will be illegal because of those pesky physics laws. Traveling faster than light can cause paradoxes that break the rules of the universe.
You are not in a dark room, though, because there is something in this room right now that can slow down or stop light. It is possible for shadows to go faster than light, and they can even smash through it.
You might ask things like, “What the hell are you talking about?” Imagine that you have a flashlight that is strong enough to light up some of the moon. If you quickly move your finger across the front of the flashlight, the shadow it casts can move across the moon’s surface at speeds much faster than light.
If you wave a laser across the night sky, you can get the same kind of effect. Think of a huge dome that is, say, 100 light-years across and surrounds you. When this laser hits that dome 100 years from now, the points will fly across it at speeds much faster than light.
But these two examples are just tricks.
Astrophysicist Michio Kaku told Big Think, “There is no message, no net information, and no physical object that actually moves along this image. There is only the image of the beam as it races across the night sky.”
No, the laser point isn’t really moving. What you’re seeing are photons hitting the dome and then different photons hitting a different part of the dome 100 years later after you moved your laser.
The universe and physics stayed the same because nothing really moved faster than light, and no information was sent.
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