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Prepare an ample supply of food, water, and fuel in anticipation of the upcoming total solar eclipse

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The Lorain County Emergency Management (EMA) in Ohio has advised individuals observing the eclipse and residents within the path of totality to ensure they have an ample supply of food, water, and fuel in preparation for the total eclipse on April 8. This recommendation is due to the anticipated increase in visits to the area.

According to those who saw it, the most recent total solar eclipse across the United States was remarkably impressive. It is challenging to imagine any improvements to the scene by the time Monday arrived after looking at the photographs.

However, if we are fortunate and the weather conditions are favorable, we may see something extraordinary since the eclipse aligns with the period of maximum solar activity, and there is a possibility of observing Baily’s beads.

“During the year 2017, the Sun was approaching a period of solar minimum.” Observers of the complete solar eclipse were able to witness the awe-inspiring corona. However, due to the Sun’s lack of activity, the streamers that extended into the solar atmosphere were limited to only the equatorial regions of the star. NASA states that during solar minimum, the Sun exhibits greater magnetic symmetry, resulting in a simpler look.

“During the 2024 eclipse, the Sun will be in or close to solar maximum, a period characterized by a magnetic field that resembles a complex and chaotic structure, similar to a tangled hairball.” It is probable that streamers will be observable throughout the corona. Furthermore, spectators will have an enhanced opportunity to observe prominences, which manifest as vivid, pink spirals or arcs emanating from the Sun.

The eclipse will be visible throughout the whole stretch of land from Mexico to Canada. The path of totality, where a total solar eclipse is visible, is broader in comparison to 2017. This is because the Moon is in closer proximity to Earth as a result of its position in its orbit. Consequently, a larger number of individuals will have the opportunity to observe the Sun’s corona.

NASA stated that there is a possibility of observing a coronal mass ejection, which is a significant release of solar material, if the timing is fortunate during the eclipse.

However, safety considerations usually arise with eclipses. Following the recent eclipse, there was a notable increase in Google queries pertaining to the consequences of directly gazing at the Sun.

Additionally, there are logistical challenges arising from a significant surge in travelers seeking to witness the celestial phenomenon. As a result, the regions situated along the path of totality are presently making preparations to accommodate this rush. Last month, Lorain County officials issued a warning about the potential consequences of the upcoming eclipse. They cautioned that there may be a surge in traffic, longer wait times for facilities like hospitals and gas stations, and challenges in obtaining food and other essential supplies.

According to USA Today, Dave Freeman, the director of Lorain County EMA, “We may experience an influx of unfamiliar crowds.” “Our current infrastructure lacks the necessary road network to support that.”

“Many of the roads in this area consist of two lanes,” Freeman stated, according to Yahoo News. “Unlike cities such as Chicago and Cleveland, our city does not have a large number of wide roads with multiple lanes. As a result, if we experience larger crowds than anticipated, the traffic situation here could become quite severe.”

The EMA is cautioning that the surge of cell phone use in the vicinity may lead to signal loss when the system becomes overwhelmed. The team advises homeowners to proactively fill their vehicles with gasoline, ensure an ample supply of food, and minimize unnecessary travel throughout the next weekend preceding the eclipse.

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It is crucial that you direct your attention towards the eclipse and derive pleasure from it. However, it is imperative that you take precautions to protect your eyes from harm. To do so, please refer to our informative manual on how to properly observe eclipses. If the weather remains unclouded, you may also utilize this guide on how to capture the approaching eclipse in the most optimal manner.

 

As Editor here at GeekReply, I'm a big fan of all things Geeky. Most of my contributions to the site are technology related, but I'm also a big fan of video games. My genres of choice include RPGs, MMOs, Grand Strategy, and Simulation. If I'm not chasing after the latest gear on my MMO of choice, I'm here at GeekReply reporting on the latest in Geek culture.

Astronomy

NASA’s flyby of Europa shows that “something” is moving under the ice

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Europa’s surface has marks that show the icy crust is vulnerable to the water below. The most important thing is that Juno’s recent visit shows what might be plume activity. If this is real, it would let future missions take samples of the ocean inside the planet without having to land.

Even though it’s been almost two years since Juno got the closest to Europa, its data is still being looked at. Even though Juno has been going around Jupiter since 2016, the five pictures it took on September 29, 2022, were the closest views of Europa since Galileo’s last visit in 2000.

Some might say that’s a shocking lack of interest in one of the Solar System’s most interesting worlds, but it could also have been a good way to see how things had changed over time.

Europa is the smoothest object in the solar system because its ocean keeps it from sinking to the surface. Still, it’s not featureless; Juno saw some deep depressions with steep walls that are 20 to 50 kilometers (12 to 31 miles) wide, as well as fracture patterns that are thought to show “true polar wander.

In a statement, Dr. Candy Hansen of the Planetary Science Institute said, “True polar wander occurs if Europa’s icy shell is separated from its rocky interior. This puts a lot of stress on the shell, which causes it to break in predictable ways.”

The shell that sits on top of Europa’s ocean is thought to be rotating faster than the rest of the moon. This is what true polar wandering means. People think that the water below is moving and pulling the shell along with it. Ocean currents are thought to be causing this. The currents are most likely a result of heat inside Europa’s rocky core, which is heated up as a result of Jupiter and its larger moons pulling on Europa and turning it into a large stress ball.

The ocean and ice could stretch and compress parts of the ice, which is how the cracks and ridges that have been seen since Voyager 2 visited were made.

A group under the direction of Hansen is viewing images of Europa’s southern half. The scientist said, “This is the first time that these fracture patterns have been mapped in the southern hemisphere. This suggests that true polar wander has a bigger effect on Europa’s surface geology than was thought before.”

Ocean currents are not to blame for all of Europa’s map changes. It appears that optical tricks can even fool NASA. Hansen said, “Crater Gwern is no longer there.” “JunoCam data showed that Gwern, which was once thought to be a 13-mile-wide impact crater and one of Europa’s few known impact craters, was actually a group of ridges that crossed each other to make an oval shadow.”

But Juno gives more than it takes away. The team is interested in what they’re calling the Platypus because of its shape, not because it has a lot of parts that shouldn’t go together. Ridges on its edge look like they are collapsing into it. The scientists think this might be because pockets of salt water have partially broken through the icy shell.

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The Europa Clipper would find these pockets to be fascinating indirect targets for study, but the dark stains that cryovolcanic activity might have left behind are even more intriguing.

“These features suggest the possibility of current surface activity and the existence of liquid water beneath the surface on Europa,” stated Heidi Becker from the Jet Propulsion Laboratory. There is evidence of such activity in the geysers of Enceladus, but there is still uncertainty regarding whether it is currently happening on Europa.

Engaging in such an endeavor would enable the sampling of the interior ocean to detect signs of life simply by flying through a plume and gathering ice flakes without the need for landing or drilling.

It seems that in the past, there was a significant shift of over 70 degrees in the locations of features on Europa’s surface, although the reasons for this remain unknown. However, at present, polar wander only leads to minor adjustments.

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Astronomy

The Sun emitted the largest solar flare in the past 20 years, resulting in power outages

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Solar Cycle 25 is decidedly more turbulent than its predecessor. The Sun is currently experiencing heightened activity, characterized by solar storms, coronal mass ejections, and geomagnetic storms of unprecedented intensity in recent years. Currently, the sun has emitted its most powerful solar flare to date during this particular cycle.

The flare was quantified as an X8.7, indicating a considerably higher strength compared to the flares emitted last week. The event emitted highly energetic light in the extreme ultraviolet range, which resulted in the ionization of the uppermost layer of the atmosphere. Consequently, a radio blackout occurred over the Americas, adversely impacting aircraft and vessels that depend on signals with frequencies below 30 MHz.

Ionization of the atmosphere causes an expansion, resulting in increased drag on satellites in low Earth orbit. They will require strategic maneuvering to be moved away from Earth. Solar flares have the potential to interfere with satellite communications.

A gif of the Sun yesterday with two bright flashes corresponding to the flares on its limb

Sunspot AR 3664 is where it comes from. Last week, several strong flares were seen coming from this area, including the second strongest of this cycle at the time. The Sun also sent out a number of coronal mass ejections (CMEs), which hit Earth and caused the beautiful auroral display we saw last weekend.

Back then, the sunspot was right on the side of the Sun that could be seen, and anyone could see it. It’s sixteen times wider than Earth! As the Sun turns, the spot is now on its side, so we can only see it from the side. We might have seen a bigger flare if it had happened last week.

“Another X-ray flare was made by Region 3664 as it moved past the western solar limb!!” It was an X8.7 flare this time, the biggest of this solar cycle! NASA’s Space Weather Prediction Center said in a post that any coronal mass ejection (CME) linked to this flare “likely WILL NOT have any geomagnetic effects on Earth due to its location.” “As always, please check our website for news!”

Today, as the CME moves past Earth, there may be a small rise in auroral activity. It’s too bad that nothing as exciting will happen as last Friday.

The solar cycle has a high point and a low point every 11 years. Around the peak, which could happen at any time, the most intense events tend to happen, but every once in a while, there are exceptions. There have been 10 times as many powerful flares this century.

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Astronomy

This planet like Earth is the first one that has been proven to have an atmosphere

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Astronomers have successfully utilized the James Webb Space Telescope (JWST) to observe the presence of an atmosphere around a terrestrial exoplanet, marking the first such discovery beyond our solar system. Despite its inability to sustain life due to its likely magma ocean, this planet could provide valuable insights into the early geological development of Earth, as both planets share a rocky composition and a history of being molten.

Sara Seager, a planetary scientist at the Massachusetts Institute of Technology in Cambridge who was not part of the study, states that the discovery of a gaseous envelope surrounding an Earth-like planet is a significant achievement in the field of exoplanet research. The Earth’s tenuous atmosphere plays a vital role in supporting life, and the ability to detect atmospheres on comparable rocky planets is a significant milestone in the quest for extraterrestrial life.

JWST is currently studying the planet 55 Cancri e, which orbits a star similar to the Sun at a distance of 12.6 parsecs. It is classified as a super-Earth, meaning it is a terrestrial planet slightly larger than Earth. Specifically, it has a radius approximately twice that of Earth and a mass more than eight times greater. The paper published in Nature1 suggests that the atmosphere of the planet is likely to contain significant amounts of carbon dioxide or carbon monoxide. Additionally, the thickness of the atmosphere is estimated to be “up to a few percent” of the planet’s radius.

A mysterious world
55 Cancri e is also not a good place to live because it is very close to its star—about 1.6 times as close as Earth is to the Sun. Still, Aaron Bello-Arufe, an astrophysicist at the Jet Propulsion Laboratory (JPL) in Pasadena, California, and a co-author of the paper, says, “it’s perhaps the most studied rocky planet.” Its host star is bright at night, and the planet is big for a rocky one, so it’s easier to study than other places outside of the Solar System. “In astronomy, every telescope or other tool you can think of has pointed to this planet at some point,” says Bello-Arufe.

55 Cancribe was studied so much that when JWST was launched in December 2021, engineers pointed the infrared spectrometers of the spacecraft at it to test it. As these instruments soak up infrared wavelengths from starlight, they can find the chemical signatures of gases swirling around planets. Then Bello-Arufe and his coworkers chose to look into it more to find out for sure if the planet had an atmosphere.

Astronomers had changed their minds about 55 Cancri a huge number of times before the most recent observations. In 2004, the planet was found. Scientists first thought it might be the center of a gas giant like Jupiter. Researchers looked at 55 Cancri e as it passed in front of its star3 with the Spitzer Space Telescope in 2011. They found that it is a rocky super-Earth, much smaller and denser than a gas giant.

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After some time, scientists found that 55 C was cooler than it should have been for a planet that was so close to its star. This suggests that it probably has an atmosphere. One hypothesis was that the planet is a “water world” with supercritical water molecules all around it. Another was that it has a large, primordial atmosphere mostly made up of hydrogen and helium. But in the end, these ideas were shown to be wrong.

According to Renyu Hu, a planetary scientist at JPL and co-author of the new study, stellar winds would make it difficult for a planet this close to its star to retain volatile molecules in its atmosphere. He says there are still two options. The first was that the planet is completely dry and has a very thin layer of rock vapor in the air. The second reason was that it has a thick atmosphere made up of heavier, less volatile molecules that don’t easily escape.

A better picture
The most recent information shows that 55 Cancrie’s atmosphere has gases made of carbon, which points to option two. Seager says that the team did indeed find evidence of an atmosphere but that more observations are needed to fully understand its make-up, the amounts of gases present, and its exact thickness.

Laura Schaefer is a planetary geologist at California’s Stanford University. She wants to know how the atmosphere of 55 Cancrie affects things below the surface of the planet. The authors of the study say it’s still possible that stellar winds are carrying away parts of the atmosphere. However, rocks melting and releasing gases into the magma ocean could replace the gases.

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