comet, Comet 67P/Churyumov-Gerasimenko, Philae, rosetta spacecraft

Lose Your Craft in a Crack and You Can’t Get it Back

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That’s a Philae !

I know. I couldn’t resist. As soon as I saw the headlines about the lost Philae craft and how the Rosetta mission team found it lost in a crack, I had that song running through my mind.  But, behind the levity is a great story about loss and redemption, space-exploration style.

As you may recall, the Rosetta spacecraft studying Comet 67P/Churyumov-Gerasimenko sent a tiny little lander called Philae down to the surface of the comet’s nucleus. It landed on November 12, 2014, but it was a bouncy landing that placed the little robot in the shadow of an icy cliff.  Due to its peculiar orientation, the batteries couldn’t recharge (very little sunlight was hitting the solar panels). That meant the lander only worked for a short time before falling to sleep.  It actually did wake up again in June 2015, but that didn’t last long either.  Philae has been in hibernation ever since, and the mission scientists have spent time trying to locate its exact landing spot on the comet.

Philae  Craft Found!

Philae craft found on comet
The Philae lander identified via narrow-angle camera image taken by the Rosetta spacecraft on Sept. 2, 2016. Earlier images provided for scale and orientation. ESA/Rosetta/MPS for OSIRIS Team MPS/UPD/LAM/IAA/SSO/INTA/UPM/DASP/IDA; context: ESA/Rosetta/ NavCam – CC BY-SA IGO 3.0

On September 2, Rosetta passed within 2.7 kilometers of the comet’s nucleus and snapped images of the region where Philae landed.  There, in the narrow-angle images, the mission team finally found what they were looking for: evidence of Philae’s location and orientation. It was an amazing finding, considering that the spacecraft is moving with respect to the comet, which is moving with respect to the Sun, and rotating, too. It’s really like finding a needle in an icy haystack.

When you stop to think about the fact that Rosetta is due to encounter the surface of the comet during a final “one-way” mission  in about a month, the discovery of the final resting place of the Philae craft is all the more amazing. You can read more about the logistics of the search on ESA’s Rosetta site.

Comet Exploration Done Right

The Rosetta mission is an astounding success, with its almost three-year exploration of a cometary nucleus. Back in grad school, I studied comets, and always wondered about the chunks of dirty ice at their hearts. Rosetta has shown us that these are eerie-looking worlds with familiar-looking features. Canyons, mountains, sprays of ice and dust, piles of chunky ice that look like rocks, and smooth plains all tell a tale of the comet’s origins and evolution. Philae’s short life of data-taking told a tale, too, lending a lot of new data to our knowledge of comets. So, even if it did get its craft in a crack and can’t get it back, Rosetta has given us a great gift in our search for an understanding of all the objects in our solar system.

 

exoplanets, planets, Proxima Centauri b

What Does “Earth-like” Mean for a Planet?

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Classifying Exoplanets

This artist’s impression shows the planet Proxima b orbiting the red dwarf star Proxima Centauri, the closest star to the Solar System. The double star Alpha Centauri AB also appears in the image between the planet and Proxima itself. Proxima b is a little more massive than the Earth and orbits in the habitable zone around Proxima Centauri, where the temperature is suitable for liquid water to exist on its surface.
This artist’s impression shows the planet Proxima b orbiting the red dwarf star Proxima Centauri, the closest star to the Solar System. The double star Alpha Centauri AB also appears in the image between the planet and Proxima itself. Proxima b is a little more massive than the Earth and orbits in the habitable zone around Proxima Centauri, where the temperature is suitable for liquid water to exist on its surface.

In the wake of the long-teased and barely embargoed story about the discovery of Earth-like planet Proxima Centauri b last week, the press really ran with the idea of it being “just like Earth”. That’s really a misleading way to report on an astonishing finding. Judging by some reports (and comments) I’ve seen in social media and in the mainstream media, you’d think that little green Proxima Centaureans were already panicking at the thought of Earthlings finding them and hogging up all the spaces in the drive-up at the local Starbucks.

What Makes a Planet Earth-like?

For the record, “Earth-like” is a term that says a planet has some characteristic like Earth. It means that world is similar in some way to Earth. It might be a rocky world, it might be about the same size as Earth, it might be in the habitable zone of its star. But, it does NOT mean that it’s exactly like Earth in every way. That’s just incorrect to assume. Why?

Earth formed and evolved in an environment that supplied what it needed to become the Earth we know. There were planetesimals rich in water and minerals that slammed together to make early Earth (and supply some or most of its water). The life that exists on our planet reflects the chemical mix that existed in the system.

The planet around any other star is also a creature of its birth environment. The mix of chemical elements and the dynamics of its formation all affect what it turns out to be. They also affect the ultimate forms of life that may evolve on other worlds. Of course, in any case of a planet around a star, the energy output of the star (and its activity) also affect the chances for the origin and evolution of life. Each situation has a complex set of factors that govern its ultimate form.

“Earth-like” and Planetary Science

Planetary scientists use the term “Earth-like” to describe a world that is more like Earth than it is any other type of planet. It may not be Earth 2.0 hosting people with three eyes and giant brains. But, it can still be a rocky world with oceans or other surface water features. It might be a little smaller than Earth or a little larger, or it might be exactly the same size. The point is, it’s more Earth-like” than, say, a super-Jupiter. In the case of Proxima Cen b, it means a rocky planet in the habitable zone of the star it orbits. It’s too soon yet to know if it has water vapor or oxygen in its atmosphere, or water on its surface. That understanding will come with more and better observations.

Proxima Centaur b is “Earth-like”

So, for the record, “Earth-like” does not mean Earth 2.0. You have actually read and/or listen to the scientists when they describe the planet they’ve found. The answer is NOT in soundbites such as “Earthlike”, but in the fuller, more nuanced descriptions they give about where the planet orbits, its composition, and so on. It pays big dividends to actually pay attention to what the scientists say, to look beyond the clickbait headlines by Websites that are harvesting your “likes”, and to totally ignore the conspiracy theorists who are clamoring for your attention by using misleading characterizations of what the scientists DID say in their ignorant social media postings.

Maybe “Earthlike” isn’t the best term. I’ve also seen “Earth analog” and “rocky world”, but neither of those has the same punch as “Earth-like”. It conveys a meaning that gives you a general idea about a planet. It’s not talking about a gas giant or a tiny frozen world. It’s the scientists’ job to decipher the meaning for us, and their press offices need to learn to write better headlines. However, it’s up to us as consumers of science knowledge to actually read what the scientists are telling us.

Exploring Science and the Cosmos

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