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| Image courtesy of ESA |
Comets are special because they were made at the same time that the other parts of the solar system were made - the Sun and the planets - but since that time, out in deep space, nothing much has happened to them. Our comet 67/P has been circling the Sun far far away in the Oort cloud until some time ago something bumped it and then it fell towards the Sun ending up travelling in a much shorter elliptical loop where we first noticed it in 1969. Despite the change in path, it is still the same lump of rock and ice that it always was since the beginning of the solar system. What is it made of? That is the question that Rosetta and Philae are going to find out. It is the first time we’ve had the chance to land on the surface of one of these ancient bits of our solar system and touch it and smell it. Up until now we’ve only seen comets from Earth or from shorter a distance away from a space mission. Never before have we been this close.
There are eleven measuring machines on the main Rosetta orbiter spacecraft and ten on Philae, the lander. Each of them was built by different teams of people in Europe and the information from each will go back to these same teams during the mission. Have a look at the ESA web page here to see what each of them does.
There is also a question that the Rosetta mission may help to answer; where did the water on Earth come from? A long way back near the beginning of the solar system lots of big rocks and chunks of ice that later became planets, asteroids and comets flew around bashing into each other. Where do you think the craters on the Moon came from? Probably most of the big ones were created around this time called the Late Heavy Bombardment. No one is quite sure why it took place but we have good evidence it really happened. Some people think that a lot of the water on our planet also arrived around this time from icy comets hitting the Earth. How could we ever know if that is really true? How about landing on an ancient comet now and finding out what type of water is in it?
OK that sounds an odd thing to say. What do I mean what type of water? Well, water, like all things, as we know from earlier blog posts, is made of lego brick-like atoms. What I haven’t said before is that water has misfit atoms in a very small number of molecules. Think of them as lego bricks that are the wrong colour for their normal type. We call these misfit molecules isotopes. Water has two different types of misfit. We know how common they are in our water on Earth - have a look at the picture above - but we also know that they can be present in different amounts in water from other parts of the solar system. So that is what I mean by type of water - the amount of isotopes give water from different sources their own different fingerprint, if you want to call it that. If the water on comet 67/P has the same proportion of misfit isotopes that would be another clue to suggest that our water on Earth originally came from comets crashing into it. If it does not, that’s not a problem, it helps us to look in other places for where it might have come from instead. Our water may have come from asteroids in the past, from the rocks that made up the early Earth, or from early plants or bacteria living much before the dinosaurs.
So as well as being an amazing thing to do in and of itself, landing on this comet may also give us another clue as to where our own water originally came from.
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