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What with all of the excitement in the world, it is easy to lose sight of the bigger picture…and of good things which are still happening during these troubled times.  This morning at 7:50 a.m. EDT, NASA launched an Atlas V-541 rocket from Cape Canaveral Space Launch Complex 41.  On board the rocket is a Martian lander containing the most sophisticated Martian rover yet “Perseverance” along with its robotic helicopter sidekick “Ingenuity.”

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Artist’s Conception of Perseverance and Ingenuity on Mars

If the mission continues to go according to plan, the lander will reach Mars in February 2021.  Coincidentally, Mars will be crowded that month, since a Chinese orbiter & lander, and a UAE orbiter are also slated to arrive.  After much trial-and-error, I have faith in NASA’s sky crane landing system but it will be most interesting to see if the Chinese rover can “stick the landing”or if it is eaten by the ghosts of Mars (I hope not: humankind needs the Chinese data too, and NASA needs some competition to keep the creative juices and the congressional funding flowing).

The ultimate destination of the Mars 2020 mission is the Jezero Crater, a nearly circular crater 49 km (30 miles) in diameter.  The ancient crater is now partially filled with sediments–including a fan delta of ancient clays.  It is believed that if evidence of ancient life is to be found anywhere on Mars this is as likely a place as any to discover the ancient fossils.

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Jezero Crater

Perseverance  has onboard a 4.8 kilograms (11 lb) pellet of plutonium dioxide which will provide the vehicle (and the miniature helicopter) with abundant energy for traveling, communicating with orbiters/Earth, assaying rocks, and operating a core drill for gathering geological samples of ancient Martian rock.  Additionally the rover will conduct material experiments concerning the potential toxicity of Martian dust and the production of pure oxygen from Martian atmospheric CO2.  Perhaps most excitingly, the rover will also carefully organize and cache the precious samples it gathers in preparation for a future retrieval mission.  Such a mission would involve landing, building and launching a Mars ascent vehicle from the Martian surface up to our proposed next generation Mars orbiter which would then load the samples on am Earthbound craft.  So the Mars 2020 mission is a tremendous step towards discovering whether life ever gained a toehold on Mars AND towards building next-generation space faring capabilities (for the dull and incurious earthcentric crowd that always decries space exploration–as though Earth is located somewhere other than space!– it should be noted that such engineering breakthroughs generally confer military, technological, and economic supremacy here).

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Also, special thanks to our brilliant Norwegian, Spanish, French, and Italian friends!

So best wishes for the entire armada which has left our planet this month headed for Mars, but particular good wishes to Perseverance and Ingenuity!  Let’s hope we can discover some perveverance here to make it all the way to February 2021 (right now that sounds like it might as well be some HG Wells date in the impossible future).

An Artist's Rendering of Rosetta Approaching the Comet (ESA)

An Artist’s Rendering of Rosetta Approaching the Comet (ESA)

Today a winter snow storm has transformed Brooklyn into a huge ice ball–at least metaphorically speaking–but the weather will surely improve.  Home will not be a ball of ice forever.  The same cannot be said for the Philae robotic lander which is currently aboard the European Space Agency’s Rosetta spacecraft (which, in turn, is currently in outer space returning to the inner solar system after 31 months in the dark cold outer solar system).  If all goes according to plan, the Rosetta spacecraft will enter a slow orbit around comet 67P/Churyumov–Gerasimenko in May of 2014.  Once the space probe is in orbit around the comet, it will (eventually) fire the Philae probe onto the comet itself.  Philae is equipped with space harpoons to latch on to the comet’s surface and cling to the hurtling slushball.  Once there, the little robot lander will assay the comet with its drill and ten onboard sensors in order to learn more about the birth of the solar system–when the comet (probably) came into existence.

An artist's rendering of Philae Making a Soft Landing on the Comet this coming November (ESA)

An artist’s rendering of Philae Making a Soft Landing on the Comet this coming November (ESA)

There are many remarkable aspects to this astonishing mission (which launched a decade ago), but one of the most harrowing periods just ended.  Because the spacecraft is powered by solar panels, it did not receive sufficient energy to operate during its long sojourn through the outer solar system.  For two-and-a-half years, the mission controllers in Darmstadt, Germany have been in suspense waiting to see if Rosetta had survived being all but shut down (because of a last-minute mission rewrite, the craft was not designed for any such suspended animation).  Yesterday the spaceship woke up and radioed back to Earth!  The mission is on!  I can hardly wait for May (for multiple reasons).

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