{"id":21104,"date":"2022-07-21T09:19:53","date_gmt":"2022-07-21T09:19:53","guid":{"rendered":"https:\/\/harchi90.com\/surprise-asteroid-mystery-unraveled-barreling-toward-earth-from-blind-spot\/"},"modified":"2022-07-21T09:19:53","modified_gmt":"2022-07-21T09:19:53","slug":"surprise-asteroid-mystery-unraveled-barreling-toward-earth-from-blind-spot","status":"publish","type":"post","link":"https:\/\/harchi90.com\/surprise-asteroid-mystery-unraveled-barreling-toward-earth-from-blind-spot\/","title":{"rendered":"Surprise Asteroid Mystery Unraveled \u2013 Barreling Toward Earth From Blind Spot"},"content":{"rendered":"
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There are almost 30,000 known asteroids according to the Center for Near Earth Studies. While few pose an immediate threat, there is a chance one of significant size could hit the earth and cause catastrophic damage. That’s why the work of researchers like University of Central Florida’s Luisa Fernanda Zambrano-Marin is so important.<\/p>\n

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When asteroid 2019 OK suddenly appeared barreling toward Earth on July 25, 2019, Luisa Fernanda Zambrano-Marin and the team of astronomers at the Arecibo Observatory in Puerto Rico quickly sprang into action.<\/p>\n

After receiving an alert, the radar scientists zoned in on the asteroid, which was approaching from Earth’s blind spot \u2014 solar opposition. Zambrano-Marin and the team had just 30 minutes to collect as many radar readings as they could. The asteroid was traveling so fast, that’s all the time she’d have it in Arecibo’s sights. University of Central Florida (UCF) manages the Arecibo Observatory for the US National Science Foundation under a cooperative agreement.<\/p>\n

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Because the asteroid appeared to come out of nowhere and was traveling so fast, it made headline news.<\/p>\n

Zambrano-Marin’s findings were published on June 10 in the Planetary Science Journal<\/em>just a few weeks before the world observed Asteroid Day, which is June 30, and promotes global awareness to help educate the public about these potential threats.<\/p>\n

\u201cIt was a real challenge,\u201d says Zambrano-Marin, a UCF planetary scientist. \u201cNo one saw it until it was practically passing by, so when we got the alert, we had very little time to act. Even so, we were able to capture a lot of valuable information.\u201d<\/p>\n

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\"Arecibo<\/p>\n

The Arecibo Telescope was a 305 m (1,000 ft) spherical reflector radio telescope built into a natural sinkhole at the Arecibo Observatory located near Arecibo, Puerto Rico. It is pictured here in the spring of 2019 before its collapse at the end of 2020. Credit: UCF<\/p>\n<\/div>\n

It turns out the asteroid was between .04 and .08 miles (.06 and .13 km) in diameter and was moving fast. It was rotating at 3 to 5 minutes, which means it is part of only 4.2 percent of the known fast rotating asteroids. This is a growing group that scientists say needs more attention.<\/p>\n

According to the data, the asteroid is likely a C-type, which are asteroids made up of clay and silicate rocks, or S-type, which are composed of silicate and nickel-iron. C-type asteroids are among the most common and some of the oldest in our solar system. S-type are the second most common.<\/p>\n

To continue her investigation, Zambrano-Marin is currently inspecting the data acquired by Arecibo’s Planetary Radar database. Despite the fact that the observatory’s telescope collapsed in 2020, the Planetary Radar team will be able to use the current data bank, which covers four decades. Science operations in the areas of space and atmospheric sciences continue, and the personnel is refurbishing 12-meter antennas to continue astronomical research.<\/p>\n

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\"Luisa<\/p>\n

UCF Planetary Scientist Luisa Fernanda Zambrano-Marin is based at the NSF Arecibo Observatory. Credit: Arecibo Observatory\/UCF<\/p>\n<\/div>\n

\u201cWe can use new data from other observatories and compare it to the observations we have made here over the past 40 years,\u201d Zambrano-Marin says. \u201cThe radar data not only helps confirm information from optical observations, but it can help us identify physical and dynamical characteristics, which in turn could give us insights into appropriate deflection techniques if they were needed to protect the planet.\u201d<\/p>\n

There are almost 30,000 known asteroids according to Center for Near Earth Studies and while few pose an immediate threat, there is a chance one of significant size could hit the earth and cause catastrophic damage. That’s why[{” attribute=””>NASA<\/span> keeps a close watch and system to detect and characterize objects once they are found. NASA and other space agencies nations have been launching missions to explore Near-Earth Asteroids to better understand what they are made of and how they move in anticipation of having to divert one heading for earth in the future.<\/p>\n

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The OSIRIS REx mission, which includes UCF Pegasus Professor of Physics Humberto Campins, is headed back to Earth with a sample of asteroid Bennu, which gave scientists a few surprises. Bennu was first observed at Arecibo in 1999. A new mission \u2014 NASA\u2019s Double Asteroid Redirection Test (DART) mission \u2014 aims to demonstrate the ability to redirect an asteroid using the kinetic energy of a projectile. The spacecraft launched in November 2021 and is expected to reach its target \u2014 the Dimorphos asteroid \u2014 on September 26, 2022.<\/p>\n

Zambrano-Marin and the rest of the team at Arecibo are working on providing the scientific community with more information about the many kinds of asteroids in the solar system to help come up with contingency plans.<\/p>\n

This week the team at the Arecibo Observatory is holding a series of special events as part of the Asteroid Day awareness campaign. They include presentations, \u201cask a scientist\u201d stations for those visiting the science museum at Arecibo, and on June 25 presentations about the DART mission in English and Spanish. The timing couldn\u2019t be better as there are five known asteroids from the size of a car to a Boeing 747 that will be buzzing Earth before Asteroid Day, according to the Jet Propulsion Laboratory that keeps track of the celestial bodies for NASA. The closest approach is on June 25 with an object coming within 475,000 miles of Earth. For comparison, the moon is about 239,000 miles from Earth.<\/p>\n

Zambrano-Marin has multiple degrees including a bachelor\u2019s degree in applied physics from the Ana G. Mendez University System and a master\u2019s in space sciences from the International Space University in France. She has published more than 20 articles and is a frequent speaker and presenter at conference around the world. She previously worked at the Vatican Observatory and as a consultant to the Caribbean University president. In addition to working on the planetary radar group at Arecibo, Zambrano-Marin also created the Arecibo Observatory Space Academy, an 18-week research program for pre-college students in Puerto Rico.<\/p>\n

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Reference: \u201cRadar and Optical Characterization of Near-Earth Asteroid 2019 OK\u201d by Luisa Fernanda Zambrano-Marin, Ellen S. Howell, Patrick A. Taylor, Sean E. Marshall, Maxime Devog\u00e8le, Anne K. Virkki, Dylan C. Hickson, Edgard G. Rivera-Valent\u00edn, Flaviane C. F. Venditti and Jon D. Giorgini, 10 June 2022, The Planetary Science Journal<\/em>.
DOI: 10.3847\/PSJ\/ac63cd<\/p>\n

The other team members on the study are: Sean Marshal, Maxime Devogele, Anne Virkki, and Flaviane Venditti from the Arecibo Observatory\/UCF; Dylan C. Hickson formerly from Arecibo\/UCF and now at Center for Wave Phenomena, Colorado School of Mines; Ellen S. Howell from Lunar and Planetary Laboratory, University of Arizona, Tucson; Patrick Taylor and Edgard Rivera-Valentin from Lunar and Planetary Institute, Universities Space Research Association, Houston; and Jon Giorgini from Solar System Dynamics Group, Jet Propulsion Laboratory.<\/p>\n

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