Eclipses inspire awe and bring people together to observe a stunning celestial phenomenon, but these cosmic events also enable scientists to unravel mysteries of the solar system. <\/p>\n
During the total solar eclipse on April 8, when the moon will temporarily obscure the sun\u2019s face from view for millions of people across Mexico, the United States and Canada, multiple experiments will be underway to better understand some of the biggest unresolved questions about the golden orb. <\/p>\n
NASA will launch sounding rockets and WB-57 high-altitude planes to conduct research on aspects of the sun and Earth that\u2018s only possible during an eclipse. The efforts are part of a long history of attempts to gather invaluable data and observations when the moon temporarily blocks the sun\u2019s light. <\/p>\n
Perhaps one of the most famous scientific milestones connected to an eclipse occurred on May 29, 1919, when a total solar eclipse provided evidence for Albert Einstein\u2019s theory of general relativity, which the scientist first systematically described in 1916, according to NASA. <\/p>\n
Einstein had suggested gravity is the result of the warping of time and space, distorting the very fabric of the universe. As an example, Einstein proposed that the gravitational influence of a large object like the sun could deflect light emitted by another object, such as a star virtually behind it, causing the object to appear a bit farther away from the perspective of Earth. A science expedition to observe stars from Brazil and West Africa, led by English astronomer Sir Arthur Eddington during the 1919 eclipse, revealed that some stars indeed appeared to be in the wrong place, validating Einstein\u2019s theory. <\/p>\n
The finding is just one of many scientific lessons learned in relation to eclipses. <\/p>\n
During the 2017 eclipse that crossed the US, NASA and other space agencies conducted observations using 11 different spacecraft and two high-altitude planes. <\/p>\n
Data collected during that eclipse helped scientists to accurately predict what the corona, or the sun\u2019s hot outer atmosphere, would look like during eclipses in 2019 and 2021. Despite its blazing temperatures, the corona is fainter in appearance than the sun\u2019s bright surface, but it appears like a halo around the sun during an eclipse when the bulk of the sun\u2019s light is blocked by the moon, making it easier to study. <\/p>\n
Why the corona is millions of degrees hotter than the sun\u2019s actual surface is one of the enduring mysteries about our star. A 2021 study revealed some new clues, showing that the corona maintains a constant temperature, despite the fact that the sun experiences an 11-year cycle of waning and increasing activity. The findings were possible thanks to more than a decade\u2019s worth of eclipse observations, according to NASA. <\/p>\n
While quieter during previous eclipses, the sun is reaching the peak of its activity, called solar maximum, this year, affording scientists with a rare opportunity. <\/p>\n
And during the eclipse on April 8, citizen scientists and teams of researchers could make new discoveries that potentially advance our understanding about our corner of the universe. <\/p>\n
Observing the sun during eclipses also helps scientists better understand how solar material flows from the sun. Charged particles known as plasma create space weather that interacts with an upper layer of Earth\u2019s atmosphere, called the ionosphere. The region acts as a boundary between Earth\u2019s lower atmosphere and space. <\/p>\n
Energetic solar activity released by the sun during solar maximum could interfere with the International Space Station and communication infrastructure. Many low-Earth orbit satellites and radio waves operate in the ionosphere, which means dynamic space weather has an impact on GPS and long-distance radio communications. <\/p>\n
Experiments to study the ionosphere during the eclipse include high-altitude balloons and a citizen science endeavor that invites the participation of amateur radio operators. Operators in different locations will record the strength of their signals and how far they travel during the eclipse to see how changes in the ionosphere affect the signals. Researchers also conducted this experiment during the October 2023 annular eclipse, when the moon didn\u2019t completely block the sun\u2019s light, and the data is still being analyzed. <\/p>\n
In another repeat experiment, three sounding rockets will lift off in succession from NASA\u2019s Wallops Flight Facility in Virginia before, during and after the eclipse to measure how the sudden disappearance of sunlight impacts Earth\u2019s upper atmosphere. <\/p>\n
Aroh Barjatya, professor of engineering physics at Embry-Riddle Aeronautical University in Daytona Beach, Florida, is leading the experiment, called the Atmospheric Perturbations around the Eclipse Path, which was first carried out during October\u2019s annular solar eclipse. <\/p>\n
Each rocket will eject four soda bottle-size scientific instruments within the path of totality to measure changes in the ionosphere\u2019s temperature, particle density, and electric and magnetic fields about 55 to 310 miles (90 to 500 kilometers) above the ground. <\/p>\n
\u201cUnderstanding the ionosphere and developing models to help us predict disturbances is crucial to making sure our increasingly communication-dependent world operates smoothly,\u201d Barjatya said in a statement. <\/p>\n
The sounding rockets will reach a maximum altitude of 260 miles (420 kilometers) during flight. <\/p>\n
During the 2023 annular eclipse, instruments on the rockets measured sharp, immediate changes in the ionosphere. <\/p>\n
\u201cWe saw the perturbations capable of affecting radio communications in the second and third rockets, but not during the first rocket that was before peak local eclipse,\u201d Barjatya said. \u201cWe are super excited to relaunch them during the total eclipse, to see if the perturbations start at the same altitude and if their magnitude and scale remain the same.\u201d <\/p>\n
Three different experiments will fly aboard NASA\u2019s high-altitude research planes known as WB-57s. <\/p>\n
The WB-57s can carry almost 9,000 pounds (4,082 kilograms) of scientific instruments up to 60,000 to 65,000 feet (18,288 to 19,812 meters) above Earth\u2019s surface, making it the workhorse of the NASA Airborne Science Program, said Peter Layshock, manager of NASA\u2019s WB-57 High Altitude Research Program at Johnson Space Center in Houston. <\/p>\n
The benefits of using WB-57s is that a pilot and an equipment operator can fly above the clouds for about 6 \u00bd hours without refueling within the eclipse\u2019s path of totality spanning Mexico and the US, allowing for a continuous and unobstructed view. The flight path of the planes mean that the instruments will be within the moon\u2019s shadow for longer than they would be on the ground. Four minutes of totality on the ground equals closer to six minutes of totality in the plane, Layshock said. <\/p>\n
One experiment will also focus on the ionosphere using an instrument called an ionosonde, which acts like radar by sending out high-frequency radio signals and listening for the echoes as they bounce off the ionosphere to measure the number of charged particles it contains. <\/p>\n
The other two experiments will focus on the corona. One project will use cameras and spectrometers to uncover more details about the temperature and chemical composition of the corona, as well as capture data about large bursts of solar material from the sun known as coronal mass ejections. <\/p>\n
Another project, led by Amir Caspi, a principal scientist at the Southwest Research Institute in Boulder, Colorado, has the goal of capturing images of the eclipse from 50,000 feet (15,240 meters) above Earth\u2019s surface in the hopes of spying structures and details within the middle and lower corona. Using high-speed and high-resolution cameras, capable of taking images in visible light and infrared light, the experiment will also look for asteroids that orbit within the sun\u2019s glare. <\/p>\n
\u201cIn the infrared, we don\u2019t really know what we\u2019re going to see, and that\u2019s part of the mystery of these rare observations,\u201d Caspi said. \u201cEvery eclipse gives you a new opportunity to expand upon things where you take what you learned at the last eclipse and you solve a new piece of the puzzle.\u201d <\/p>\n<\/p>\n
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