China in final preparations for latest lunar mission

Science Desk
23 November 2020, Mon
Published: 06:26

China in final preparations for latest lunar mission

Chinese technicians were making final preparations on Monday for a mission to bring back material from the moon’s surface in what would be a major advance for the country’s space program.
Chang’e 5 is China’s most ambitious lunar mission yet and marks the first time in four decades that any country has sought to bring rocks and debris from the moon to Earth.

That could boost human understanding of the moon, its age and resources, and of the solar system more generally.

The four modules of the Chang’e 5 spacecraft are expected be sent into space Tuesday aboard a massive Long March-5 rocket from the Wenchang launch centre along the coast of the southern island province of Hainan, according to a NASA description of the mission.

The secretive Chinese National Space Administration has only said that a launch was scheduled for late November.

The mission’s key task is to drill 2 meters (almost 7 feet) beneath the moon’s surface and scoop up about 2 kilograms (4.4 pounds) of rocks and other debris to be brought back to Earth, according to NASA. That would the first opportunity scientists have had to study newly obtained lunar material since the American and Russian missions of the 1960s and 1970s, according to AP reports.

The mission is ‘indeed challenging’ but China has already landed twice on the moon with its Change 3 and Chang’e 4 missions, and showed with a 2014 Chang’e 5 test mission that it can navigate back to Earth, re-enter and land a capsule, said Jonathan McDowell, an astronomer at the Harvard-Smithsonian Centre for Astrophysics.

McDowell said that All that’s left is to show it can collect samples and take off again from the moon.

As a result of this, I’m pretty optimistic that China can pull this off, he said.

McDowell also said that Such experience was growing in value with more and more countries conducting asteroid sample returns and considering Mars sample returns.