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ScienceGlobal issues

NASA says it succeeded in altering asteroid's orbit

October 11, 2022

A NASA spacecraft that rammed into an asteroid did manage to alter the rock's trajectory. The same idea could be used if an asteroid is ever on a collision course with Earth.

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An illustration of the  Double Asteroid Redirection Test (DART) mission by NASA to test whether an asteroid's orbit can be changed
The DART spacecraft achieved its primary objective of changing the direction of asteroid Dimorphos through sheer kinetic forceImage: NASA/Johns Hopkins APL via CNP/Consolidated News Photos/picture alliance

The DART spacecraft that NASA deliberately crashed into an asteroid last month succeeded in forcing the rocky moonlet out of its natural orbit, the space agency said Tuesday.

This is the first time humanity has altered the motion of a celestial body, NASA chief Bill Nelson said

"This is a watershed moment for planetary defense and a watershed moment for humanity," Nelson told reporters in announcing the results.

'Ready for whatever the universe throws at us'

Scientists had hoped to shorten the asteroid's orbit by 10 minutes but Nelson said the impact slashed the rock's journey by about 32 minutes.

"DART shortened the 11 hour 55 minute orbit to 11 hours and 23 minutes," he said. "This mission shows that NASA is trying to be ready for whatever the universe throws at us."

What was the mission?

On September 26, the DART spacecraft — which stands for Double Asteroid Redirection Test — slammed into Dimorphos, an asteroid of around 160 meters (525 feet) in diameter which orbits Didymos, another, larger asteroid of around 780 meters in diameter.

The asteroid pair orbits our sun every 2.1 years and poses no threat to our planet. That's why scientists chose the pair for the world's first attempt to change the position of a celestial body.

The collision marked the end of part one of the DART mission, a 10-month space journey to autonomously impact and deflect a non-hazardous asteroid.

The mission, which was seven years in the making and cost around $330 million (€339 million), also marked the world's first test of a process designed to stop a potential doomsday meteorite collision with Earth.

NASA also hopes it will provide new data on what scientists call "planetary defense."

How to defend the planet?

Kinetic impact with a spacecraft is just one way to defend the planet.

Should an approaching object be detected early, a spacecraft could fly alongside it long enough to redirect its path, using the ship's gravitational pull and creating what's known as a gravity tractor.

Another option would be to launch nuclear explosives to redirect or destroy an asteroid.

NASA believes such weapons should be used at a distance to avoid blasting the asteroid into pieces, which could further endanger Earth.

dh, jsi/rs (AP, AFP, Reuters)