Indian satellite destruction created 400 pieces of debris: NASA

 SMTV Desk 2019-04-04 15:03:39  National Aeronautics and Space Administration, NASA, International Space Station, ISS
Indian satellite destruction created 400 pieces of debris: NASA

Washington, Apr 02: The head of National Aeronautics and Space Administration (NASA) today branded India's destruction of one of its satellites a terrible thing that had created 400 pieces of orbital debris and led to new dangers for astronauts aboard the International Space Station (ISS).

Jim Bridenstine was addressing employees of NASA after India shot down a low-orbiting satellite in a missile test to prove it was among the world's advanced space powers.

Not all of the pieces were big enough to track, Bridenstine explained. "What we are tracking right now, objects big enough to track - we're talking about 10 centimetres or bigger - about 60 pieces have been tracked."

The satellite was destroyed at a relatively low altitude of 300 kilometres, well below the ISS and most satellites in orbit. But 24 of the pieces are going above the apogee of the International Space Station, said Bridenstine.

"That is a terrible, terrible thing to create an event that sends debris at an apogee that goes above the International Space Station," he continued, adding: "That kind of activity is not compatible with the future of human spaceflight."

"It's unacceptable and NASA needs to be very clear about what its impact to us is."

The US military tracks objects in space to predict the collision risk for the ISS and for satellites. They are currently tracking 23,000 objects larger than 10 centimetres.

That includes about 10,000 pieces of space debris, of which nearly 3,000 were created by a single event: a Chinese anti-satellite test in 2007 at 530 miles from the surface.

As a result of the Indian test, the risk of collision with the ISS has increased by 44 per cent over 10 days, Bridenstine said. But the risk will dissipate over time as much of the debris will burn up as it enters the atmosphere.