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NASA denied that the huge flash of light over Ukraine was a satellite falling to earth and suggested it was a meteorite.
The light was seen above the capital Kyiv at 10 p.m. local time and immediately raised an airstrike alarm, said Serhiy Popko, head of the Kyiv City Military Administration. Popko added that “the air defense did not work.”
Popko shared preliminary findings that showedthis phenomenon was the result of a NASA space satellite falling to Earth,” he says BBC.
A military official may have assumed it was a light 600 pound craft – about the size of a shipping container – NASA warned it would re-enter the atmosphere around 9:30 p.m. ET after the space agency took it out of service in 2018 due to a communications failure.
But NASA told the news outlet that the satellite is still in orbit.

NASA officials claimed that the bright light seen from Ukraine was not a falling satellite. The light was spotted over the capital Kyiv at 10 p.m. local time and an airstrike alert was immediately triggered, said Serhiy Popko, head of the Kyiv City Military Administration.
The NASA spacecraft expected to crash Wednesday night had a one in 2,500 chance of harming someone on earth. Astronomers anticipating the fall have drawn up a map of possible impact zones.
NASA announced Tuesday that the re-entry location is undisclosed, given the lingering uncertainty about when and where it might fall.
But Aerospace, the National Security Space Program, suggests that debris that survives the inferno’s return could fall anywhere in South America, Africa or Asia.
There is a 75 percent chance the debris will crash into the ocean, but NASA still acknowledged a “low” risk of it hitting land.

A military official may have assumed the light was a 600-pound craft — about the size of a shipping container — that NASA warned would re-enter the atmosphere around 9:30 p.m. ET

Aerospace, the National Security Space Program, suggests that debris that survives the inferno’s return could fall anywhere in South America, Africa or Asia. White lines are possible impact areas
Professor Hugh Lewis, who teaches astronautics at the UK’s University of Southampton, shared on Twitter: ‘Unfortunately, many people live in a latitude zone which means the chance of a victim is still relatively high.’
While NASA said Monday that the craft could re-enter around 9:30 p.m., some reports put it at 7 p.m.—plus or minus 16 hours.
Around 5pm CET, reports of parts of a ‘satellite falling’ over Kiev, Ukraine appeared online.
Many claim that city officials sent out a warning shortly after the fireball shot across the night sky.
However, Jonathan McDowell, an astronomer and astrophysicist at the Harvard–Smithsonian Center for Astrophysics, told DailyMail.com that the object was ‘definitely not’ a NASA satellite or space debris.
‘[It could be a natural meteor or Russian missile attack,’ he said.
The dead craft is NASA’s Reuven Ramaty High Energy Solar Spectroscopic Imager (RHESSI), which was tasked with observing solar flares when it launched on February 5, 2002.
It was decommissioned in 2018 after NASA failed to communicate with it.
Aerospace’s reentry project map places RHESSI over the northwestern region of India, suggesting this location is where it sits over Earth.

There is a 75 percent chance of the debris crashing into the ocean, but NASA has still admitted there is a chance it could impact land
‘Thanks to a quirk of orbits and a spherical Earth, the impact probability for any elements of the spacecraft surviving to Earth’s surface is greatest at latitudes around 38 degrees North and South,’ Lewis shared.
‘There is no chance of impact at higher latitudes.’
While the chances of debris hitting humans do not sound that dire, the risk is higher than someone getting hit by a car.
Data from the Centers for Disease Control shows that the odds of being struck by a car in the US is about 1 in 4,292.
RHESSI launched aboard an Orbital Sciences Corporation Pegasus XL rocket, aiming to image the high-energy electrons that carry a large part of the energy released in solar flares.
It achieved this with its sole instrument, an imaging spectrometer, which recorded X-rays and gamma rays from the Sun.
Before RHESSI, no gamma-ray or high-energy X-ray images of solar flares had been taken.
Data from RHESSI provided vital clues about solar flares and their associated coronal mass ejections.
These events release the energy equivalent of billions of megatons of TNT into the solar atmosphere within minutes and can have effects on Earth, including the disruption of electrical systems. Understanding them has proven challenging.
RHESSI recorded more than 100,000 X-ray events during its mission tenure, allowing scientists to study the energetic particles in solar flares.
The imager helped researchers determine the particles’ frequency, location, and movement, which allowed them to understand where the particles were being accelerated.
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