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European-led Mars lander starts descent
to red planet
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 [October 17, 2016]
FRANKFURT (Reuters) - A Mars lander
left its mothership on Sunday after a seven-month journey from Earth and
headed toward the red planet's surface to test technologies for Europe's
planned first Mars rover, which will search for signs of past and
present life.
The disc-shaped 577-kilogramme (1,272 lb) Schiaparelli lander separated
from the spacecraft Trace Gas Orbiter (TGO) at 1442 GMT (10:42 a.m. EDT)
as expected, starting a three-day descent to the surface.
Signals received from TGO, which is to orbit Mars and sniff out gases
around the planet, did not at first contain data on the lander's onboard
status, but the European Space Agency (ESA) later said the link with the
craft had been restored.
"On the side of (Schiaparelli) I would say that the separation was a
success," Paolo Ferri, head of mission operations at ESA, told Reuters
TV at ESA's Space Operations Centre in Darmstadt, Germany, after it had
been confirmed that the lander had split from the TGO.
Schiaparelli, part of the European-Russian ExoMars program, represents
only the second European attempt to land a craft on Mars, after a failed
mission by Britain's Beagle 2 in 2003.
Landing on Mars, Earth's neighbor some 35 million miles (56 million km)
away, is a notoriously difficult task that has bedevilled most Russian
efforts and given NASA trouble as well.
But a seemingly hostile environment has not detracted from the allure of
Mars, with U.S. President Barack Obama recently highlighting his pledge
to send people to the planet by the 2030s.
Elon Musk's SpaceX is developing a massive rocket and capsule to
transport large numbers of people and cargo to Mars with the ultimate
goal of colonizing the planet, with Musk saying he would like to launch
the first crew as early as 2024.
The primary goal of ExoMars is to find out whether life has ever existed
on Mars. The current spacecraft, TGO, carries an atmospheric probe to
study trace gases such as methane around the planet.
Scientists believe that methane, a chemical that on Earth is strongly
tied to life, could stem from micro-organisms that either became extinct
millions of years ago and left gas frozen below the planet's surface, or
that some methane-producing organisms still survive.
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The ExoMars 2016 spacecraft composite, comprised of the Trace Gas
Orbiter and Schiaparelli, is transfered to the launch vehicle
adapter (LVA), with the conical shaped LVA seen in the foreground,
at the Baikonur cosmodrome, Kazakhstan, in this handout photo
released by European Space Agency (ESA) on February 29, 2016.
REUTERS/Silvia Bayon/ESA/Handout via Reuters
Schiaparelli will reach the atmosphere of Mars on Wednesday, and will
use a parachute and thrusters to slow its descent from a speed of nearly
21,000 kilometers per hour before touching down on the planet's surface.
Entry, descent and landing will take less than six minutes.
The second part of the ExoMars mission, delayed to 2020 from 2018, will
deliver a European rover to the surface of Mars. It will be the first
with the ability to both move across the planet's surface and drill into
the ground to collect and analyze samples.
The ExoMars 2016 mission is led by the European Space Agency (ESA), with
Russia's Roscosmos supplying the launcher and two of the four scientific
instruments on the trace gas orbiter. The prime contractor is Thales
Alenia Space, a joint venture between Thales and Finmeccanica.
The cost of the ExoMars mission to ESA, including the second part due in
2020, is expected to be about 1.3 billion euros ($1.4 billion). Russia's
contribution comes on top of that.
($1 = 0.9060 euros)
(Reporting by Maria Sheahan; Editing by Dominic Evans, Greg Mahlich)
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