 Mae'n mynd i ei hynn ymdol, mae wedi mewn i'n gofyn ar hyn yn siŵr allan yr MRI. Mae'n mynd i'n mynd i fewn i ddweud a'n gyfnododd yma fynd i ffodol. Mae'r lystdoedd yn fysig o'r rhwng. So ydy'r mynd i'w ddweud o rwyf yn y 20-rwyth, gyda nhw i'n mynd i'w ddweud yw'r bydden nhw'n mwynhwyggol i'w ddweud. Felly, nad ymmell nhw'n dweud, adroddoddai ni'n ddweud o'r cyd-ddoeth. Felly mae'n perthynau i'ch gynnwys i ddweud i ddweud y gwaith, felly mae'n gwybod i'n gwybod i'ch ganddwy i'ch ganddwy. A'n ddweud i'r ddweud i'ch ganddwy. Mae'n gwybod i fi'ch gair i'ch ganddwy i'ch ganddwy i'ch ganddwy. Rwy'n gweithio i'r gwerthfawr ar eich gweithio, mae'n gweithio i chi oedd y lleoedd yn y gweithio neu'r cwrsau yma yn dweud i'ch gweithio'n gweithio'n gweithio neu'r gweithio'n gweithio'n gweithio. Mae'r ddechrau yn iawn pan fyddwyl ac fyddwyl ar y ddweud Ac mae'n eitb wath arnynt yma Byddai'r rhagleniol ar gyd ar ei ddaf yn y ddweud I ddaf yn ei ddweud, mae'n ddweud â'r ddweud Mae'n ddweud, o fawr, ble mae'n ddweud ar ddweud yn y prymysg er fyddwyl Ac felly, yna ddim yn eu gwirio sut mae'n hyn terrible a'r ddweud Roedd beasteau mor ddweud a'r ddweud arall yn ddweud y ddweud Ac yn gennyddanol a'r ddweud I begin to sort of get a picture of what primitive organic compounds were brought to the surface of the early earth as well. Clearly at that point we're looking back in time at a period before life had got started on the earth, but we're beginning to look at the actual building blocks of biology on earth. What this instrument does is it will be involved with a campaign where solid samples are drilled out of the surface of the comet, delivered into the spacecraft and then they'll be put into an oven connected to this instrument. The oven will heat the sampler and all the materials that are in there will then ultimately go into this instrument and this will tell us what the comet is made out of. This is a scale model of the lander, a lander's called Philae. Normally it is completely covered in solar panels. They are taken off so that we can see the inside here. As I say, this is a scale model. The real thing I always say is about the size of a washing machine, so that gives you some idea about how big the whole lander is. Our instrument that we saw in the laboratories actually buried deep inside here. The way it gets samples is through this device here, which is a drill, which goes down into the surface of the comet, brings the materials up. They then get put into an oven round the back here and that gets rotated into mating with our instrument. Once you've developed sophisticated instrumentation that is literally the size of a shoe box, you then have potential applications that you would never have had previously with laboratory sized instruments, either because they're too big, they're too heavy, you can't wheel them around. The applications are in any number of areas. They could be in pollution, in global climate change issues, or in healthcare, which is something that we've been exploring. We've been involved with a number of studies involved with applications in TB detection, cancer detection and so on. In some ways, some of the applications are way more surprising to us than we'd imagined at the start. I think all of us who've been involved with it over these years are quite grateful that we are getting to this point, a point where we're actually going to do the things that we set out to do. It is nerve-wracking, of course, because there are plenty of things that could go wrong, but it's what space exploration is all about.