NASA launches probe to search for origins of life

In a first of its kind space mission, a probe will take seven years to travel to an asteroid, collect samples and come back to earth in order to help scientists understand the mysteries of life.

The United Launch Alliance Atlas V rocket carrying NASA's OSIRIS-REx spacecraft lifts off from Cape Canaveral Air Force Station.
TRT World and Agencies

The United Launch Alliance Atlas V rocket carrying NASA's OSIRIS-REx spacecraft lifts off from Cape Canaveral Air Force Station.

NASA has launched its first quest to collect samples from an asteroid and bring them back to Earth in hopes of learning about the origins of life.

A rocket carrying a robot space probe blasted off from Florida on Thursday.

The satellite explorer called Orisis-Rex is in space right now, travelling at speed of 22,000 mph – more than 28 times the speed of sound – on its way to the asteroid Bennu.

It will take Osiris-Rex two years to reach its destination, a dark, rocky mass roughly a third of a mile wide and shaped like a giant acorn orbiting the sun at roughly the same distance as Earth.

Bennu is thought to be covered with organic compounds dating back to the earliest days of the solar system.

"You can think of these asteroids as literally prebiotic chemical factories that were producing building blocks of life 4.5 billion years ago, before Earth formed, before life started here," NASA astrobiologist Daniel Glavin said before launch.

NASA

A NASA image showing size of the asteroid. Source: NASA

Scientists believe asteroids and comets crashing into early Earth delivered water and organic compounds that seeded the planet for life.

Atomic-level analysis of samples from Bennu could help them prove that theory.

It has been a subject explored in movies, the last being the 2012 Hollywood flick Prometheus.

Once it settles into orbit around Bennu in 2018, Osiris-Rex will spend up to two more years mapping the asteroid's surface and taking inventory of its chemical and mineral composition.

Scientists will ultimately choose a promising site on Bennu to sample and command Osiris-Rex to fly close enough to extend its robot arm to the asteroid's surface.

A sampling container will then release a swirl of nitrogen gas, which will stir up gravel and soil for collection.

"The more big pieces we can get the better ... they could contain the carbon molecules that we want to see," Jim Garvin, chief scientist at NASA's Goddard Space Flight Center in Maryland, said on NASA TV.

After gathering at least 2 ounces (60 grams) of material, Osiris-Rex will fly back to Earth, jettisoning a capsule bearing the asteroid-sample container for a parachute descent and landing in the Utah desert in September 2023.

Only one other spacecraft, Japan's Hayabusa, has previously returned samples from an asteroid to Earth, but it collected less than a milligram of material because of a series of problems. A follow-on mission, Hayabusa 2, is under way, with a return to Earth planned for December 2020.

The US space agency also hopes Osiris-Rex will demonstrate the advanced imaging and mapping techniques needed for future science missions and for upcoming commercial asteroid-mining expeditions.

Although Bennu occupies the same approximate orbital distance from the sun, it poses little threat to Earth.

NASA estimates that there is a one-in-2,700 chance that Bennu might hit Earth sometime between 2175 and 2199.

The mission will cost around $1 billion.

Route 6