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These are the user uploaded subtitles that are being translated: 1 00:00:07,809 --> 00:00:11,150 This is where the adventure starts for me. 2 00:00:11,690 --> 00:00:17,030 1975, and my parents take me downstairs to watch the Apollo -Soyuz test project, 3 00:00:17,310 --> 00:00:22,570 the final mission of Project Apollo, and its famous first handshake between 4 00:00:22,570 --> 00:00:24,930 Russian and American astronauts. 5 00:00:25,930 --> 00:00:30,210 40 years later, and we see the fruits of that collaboration. 6 00:00:31,210 --> 00:00:35,090 up there on the International Space Station, Tim Peake's mission. 7 00:00:35,370 --> 00:00:41,110 That platform is a platform for peaceful collaboration in science and 8 00:00:41,110 --> 00:00:45,550 exploration, and it is the jumping -off point for new adventures. 9 00:00:46,570 --> 00:00:53,570 This lecture is all about the next frontier, and that frontier is 10 00:00:53,570 --> 00:00:54,570 your frontier. 11 00:01:18,310 --> 00:01:24,570 Thank you and welcome to the 2015 Christmas lectures. I'm Dr. Kevin Fong. 12 00:01:24,570 --> 00:01:29,150 medical doctor and I used to work with NASA helping them protect astronauts as 13 00:01:29,150 --> 00:01:31,530 they went about the business of exploring space. 14 00:01:32,130 --> 00:01:37,450 This is the final lecture in our series and in this lecture we have our sights 15 00:01:37,450 --> 00:01:42,750 firmly fixed on the future and what it's going to take with the edge of all that 16 00:01:42,750 --> 00:01:46,750 science, technology and engineering has to offer us to protect astronauts. 17 00:01:46,760 --> 00:01:51,700 astronauts as they go about trying to go further and deeper into space. 18 00:01:52,220 --> 00:01:59,200 But first, let's go to Tim Peake, the space station, to the ISS to look at 19 00:01:59,200 --> 00:02:05,240 the unexpectedly dramatic start to Tim's first few days aboard the station. 20 00:02:07,810 --> 00:02:13,710 Up on the screen just there, you can see Tim, who's reading a checklist. On the 21 00:02:13,710 --> 00:02:18,290 other side of that door are his crewmates, Tim Copra and Scott Kelly, 22 00:02:18,290 --> 00:02:21,870 the airlock, in their suits, getting ready to go out the door on a spacewalk, 23 00:02:21,910 --> 00:02:24,950 which is pretty much the most dangerous thing that astronauts ever have to do. 24 00:02:28,530 --> 00:02:29,530 Now, 25 00:02:30,010 --> 00:02:34,530 we'll be seeing more of how that spacewalk turned out later on in this 26 00:02:36,240 --> 00:02:40,600 But first, let's have a look at how much of space we've already visited. 27 00:02:41,220 --> 00:02:45,080 Now, let's make a constellation of everywhere we've been to explore. 28 00:02:45,980 --> 00:02:52,240 Now, these are our lights of exploration. And this is the first light 29 00:02:53,280 --> 00:02:54,280 Sputnik. 30 00:02:54,660 --> 00:02:57,560 You're going to be Sputnik for me. Who's going to be Sputnik? Well done. All 31 00:02:57,560 --> 00:02:59,280 right. So Sputnik in 57. 32 00:02:59,740 --> 00:03:05,580 And then in 61, the first human, Yuri Gagarin, goes into low Earth orbit. 33 00:03:06,120 --> 00:03:09,840 And by the end of that decade, famously, we're on the moon. 34 00:03:10,080 --> 00:03:15,700 Six crews, 12 people to the surface of the moon. And in that same decade, we go 35 00:03:15,700 --> 00:03:16,700 to our neighbors. 36 00:03:17,060 --> 00:03:22,580 Mariner 4 in 1964 takes the first photograph of the red planet of Mars. 37 00:03:23,280 --> 00:03:25,820 And then we go to our nearest neighbor, to Venus. 38 00:03:26,640 --> 00:03:33,080 And then we master the art of the slingshot and we're going to Jupiter and 39 00:03:33,080 --> 00:03:39,460 off to Saturn and then Moon and suddenly nothing in the solar system is beyond 40 00:03:39,460 --> 00:03:45,920 our reach. We're into Mercury, we're out to Pluto and now we stand with Voyager, 41 00:03:46,040 --> 00:03:52,260 the most distant man -made object from the Earth at 50 billion miles from 42 00:03:53,390 --> 00:03:57,730 And this is the constellation of exploration in space today. 43 00:03:57,990 --> 00:03:58,990 But wait. 44 00:04:00,370 --> 00:04:05,250 Where have we been with humans? Everyone who doesn't have a human mission, turn 45 00:04:05,250 --> 00:04:06,250 off your lights now. 46 00:04:07,910 --> 00:04:09,230 And what are we left with? 47 00:04:09,710 --> 00:04:13,910 We're left with low Earth orbit and the moon. 48 00:04:15,470 --> 00:04:16,870 And there's a reason for that. 49 00:04:17,550 --> 00:04:22,510 Rocket science is hard enough before you start trying to include people as part 50 00:04:22,510 --> 00:04:23,510 of the payload. 51 00:04:24,010 --> 00:04:27,590 But with everything that we've learned in the history of human space 52 00:04:27,590 --> 00:04:30,390 exploration, we're ready to go again. 53 00:04:30,690 --> 00:04:34,490 And particularly with the lessons we've learned from the mission that Tim Peake 54 00:04:34,490 --> 00:04:39,290 is now involved in aboard the ISS, we are going back to the moon. We're going 55 00:04:39,290 --> 00:04:42,250 go off to Mars and perhaps even more exotic destinations. 56 00:04:42,610 --> 00:04:45,670 And this time, we're going with people. 57 00:04:47,120 --> 00:04:48,700 But where might we go? 58 00:04:49,420 --> 00:04:52,740 Well, we could start with the moon. There is unfinished business there. 59 00:04:53,420 --> 00:04:58,180 And to explain what that business might be and why humans should go there, I'd 60 00:04:58,180 --> 00:05:03,500 like to welcome our very first guest, planetary scientist Dr. Katie Joy. 61 00:05:16,460 --> 00:05:20,740 Katie, I'm more of a Mars man myself, so convince me that we need to send humans 62 00:05:20,740 --> 00:05:23,820 back to the moon, because we've been there. We've been there six times, 12 63 00:05:23,820 --> 00:05:27,220 people. We have, but we might have been there, but we've certainly not done 64 00:05:27,220 --> 00:05:31,120 that. So we've sampled the near side of the moon from just six places. All that 65 00:05:31,120 --> 00:05:34,760 moon rock came back, it's located over at NASA, but scientists around the world 66 00:05:34,760 --> 00:05:38,440 are still studying it to try and understand the moon's path, and also to 67 00:05:38,440 --> 00:05:41,100 understand the moon's place in the solar system. So we need to go back and we 68 00:05:41,100 --> 00:05:43,980 need to get more to really understand it. There's a lot more still to do. But 69 00:05:43,980 --> 00:05:45,120 really, because I mean... 70 00:05:45,440 --> 00:05:48,940 There needs to be something really, really valuable up there to make it 71 00:05:48,940 --> 00:05:52,220 going. What is it that we would learn from the moon that would be so vital to 72 00:05:52,220 --> 00:05:55,700 here on Earth? So we can actually study the moon to understand our own origin, 73 00:05:55,760 --> 00:06:00,140 so the origin of Earth itself. But what's really exciting is the idea that 74 00:06:00,140 --> 00:06:03,040 may actually be early Earth material on the moon. 75 00:06:04,260 --> 00:06:08,400 Samples, geological rocks from when life first started on Earth. Now, these are 76 00:06:08,400 --> 00:06:11,660 not well -preserved on Earth because we have active plate tectonics, we have 77 00:06:11,660 --> 00:06:16,340 oceans, we have atmosphere that destroys these ancient rocks. But who knows? Big 78 00:06:16,340 --> 00:06:19,680 asteroids and comets were striking the Earth, and they may be able to chip 79 00:06:19,680 --> 00:06:23,400 little bits off. That can travel through space, and maybe they're just landing 80 00:06:23,400 --> 00:06:26,060 on the moon, ready for us to go and find. Do you know what I think we're 81 00:06:26,060 --> 00:06:29,160 to need? I think we're going to need a volunteer. 82 00:06:29,860 --> 00:06:32,420 Who would like to volunteer to help us explain this? 83 00:06:32,920 --> 00:06:37,960 All right, let's go up here and duck under there and we'll have you. 84 00:06:38,580 --> 00:06:39,580 Yeah, come on. 85 00:06:48,640 --> 00:06:49,640 What's your name? 86 00:06:50,000 --> 00:06:52,920 Joseph. Joseph. Joseph, you're going to help me. You're going to need these. 87 00:06:53,550 --> 00:06:56,530 All right, Katie, I've no idea what we're going to do here, but you tell me. 88 00:06:56,690 --> 00:07:00,150 Okay, well, we're going to pretend this box is the early Earth, and this is 89 00:07:00,150 --> 00:07:02,730 examples of ancient rocks sitting on the early Earth. 90 00:07:03,070 --> 00:07:06,430 We're going to pretend that these guys, here we go, we have some pretend 91 00:07:06,430 --> 00:07:10,790 asteroids. They look like iron meteorites to me. And we're going to 92 00:07:10,790 --> 00:07:13,010 the Earth's surface. So here we go, Jason. All right. 93 00:07:13,950 --> 00:07:14,950 Goggles on. 94 00:07:15,600 --> 00:07:18,620 Sort of dangerous. Come on then. We're going to try throwing some into the box 95 00:07:18,620 --> 00:07:22,540 and the objective is to kick some soil out and have it try and hit the moon. So 96 00:07:22,540 --> 00:07:25,560 surface of the Earth, moon, you've got to get some rocks onto the moon to 97 00:07:25,560 --> 00:07:27,620 convince me we need to go there. Go for it. Okay. 98 00:07:28,100 --> 00:07:32,560 Oh, Alex, you're going to need some goggles for this one because this is 99 00:07:32,560 --> 00:07:37,200 overwhelmingly, overwhelmingly dangerous throwing stuff into that. Okay, here we 100 00:07:37,200 --> 00:07:38,740 go. Joseph, give it your best shot. 101 00:07:39,760 --> 00:07:44,170 Okay, we're not... We're not doing a grand job, so we're sort of throwing at 102 00:07:44,170 --> 00:07:46,550 speeds of, you know, a couple of metres a second. 103 00:07:46,930 --> 00:07:49,990 So what we need is to ramp it up a little bit. I told him he needed 104 00:07:49,990 --> 00:07:51,210 look a bit stupid now, don't I? 105 00:07:53,080 --> 00:07:56,440 Why isn't this working? Why can't you get the rocks off the Earth onto the 106 00:07:56,440 --> 00:07:59,840 here? So when asteroids and comets hit the Earth, they're travelling at 107 00:07:59,840 --> 00:08:04,460 hypervelocity impact. So we need to get material up about 11 kilometres a second 108 00:08:04,460 --> 00:08:08,800 being spooled off. I think I have a hypervelocity impact simulator specially 109 00:08:08,800 --> 00:08:12,660 built. This is our hypervelocity impact simulator. 110 00:08:13,160 --> 00:08:14,240 It's very high -tech. 111 00:08:14,780 --> 00:08:19,240 And, Joseph, you're going to help me fire it off. OK, Alex, you ready for 112 00:08:19,340 --> 00:08:20,340 OK. 113 00:08:20,750 --> 00:08:25,230 Our asteroid or comet is travelling closer and closer to the Earth. It's 114 00:08:25,230 --> 00:08:27,910 getting ready to go. We're getting to the right sort of speed. 115 00:08:28,210 --> 00:08:32,429 Let's count in. So three, two, one, go! 116 00:08:32,789 --> 00:08:33,789 Hey! 117 00:08:38,610 --> 00:08:45,490 Sorry about that, Alex. You need a 118 00:08:45,490 --> 00:08:47,690 new set of clothes as well as that. 119 00:08:47,980 --> 00:08:52,600 so there's rock all over the moon all of a sudden and that's I guess what we're 120 00:08:52,600 --> 00:08:56,000 looking for Joseph thank you very much for helping us ladies and gentlemen 121 00:08:56,000 --> 00:08:57,000 Joseph thank you 122 00:09:03,110 --> 00:09:07,410 Katie, you have brought some of the moon with you tonight. Show me that. Show me 123 00:09:07,410 --> 00:09:11,250 that. So I have some small chips of Apollo samples that were brought back by 124 00:09:11,250 --> 00:09:15,170 astronauts. And we actually have a beautiful thin section of lunar rock 125 00:09:15,170 --> 00:09:19,090 the microscope that you can see here. So this amazing sample, it looks like a 126 00:09:19,090 --> 00:09:22,690 stained glass window when we shine light through it. And this is actually a lava 127 00:09:22,690 --> 00:09:24,250 flow. Here we go. We've got it on the screen. 128 00:09:24,470 --> 00:09:26,110 So you guys can see some spectacular... 129 00:09:26,320 --> 00:09:30,160 colours. All these different colours represent different minerals and these 130 00:09:30,160 --> 00:09:36,260 formed in a lava flow that erupted from a volcano about 3 .2 billion years ago. 131 00:09:36,440 --> 00:09:40,260 That's just amazing. This is a piece of rock brought back by the Apollo 132 00:09:40,260 --> 00:09:43,550 astronauts nearly 50 years ago now. 133 00:09:43,750 --> 00:09:47,530 Yeah. And you studied it as part of your PhD, didn't you? Yeah, so we study 134 00:09:47,530 --> 00:09:50,790 rocks like this to understand the Moon's volcanic past. This one came from the 135 00:09:50,790 --> 00:09:55,050 Apollo 12 mission, so the second mission that went to the Moon. But rocks like 136 00:09:55,050 --> 00:10:00,010 these may be really good traps for preserving some of these amazing 137 00:10:00,010 --> 00:10:03,330 meteorites and maybe Earth samples that have been delivered to the lunar 138 00:10:03,330 --> 00:10:06,150 surface. But they're incredibly beautiful to look at as well. 139 00:10:06,370 --> 00:10:07,430 Absolutely beautiful. 140 00:10:08,720 --> 00:10:11,980 It's amazing that so long after the end of Project Apollo, they're still 141 00:10:11,980 --> 00:10:13,420 teaching us valuable lessons. 142 00:10:13,660 --> 00:10:16,800 Sounds like a job for a planetary geologist like you on the Moon. 143 00:10:17,140 --> 00:10:20,720 Would you go to the Moon? So we did get one geologist on the Moon on the last 144 00:10:20,720 --> 00:10:23,040 mission, and I would love to be a future geologist. 145 00:10:23,260 --> 00:10:26,300 I might try applying again next time. We'll see what happens. 146 00:10:26,520 --> 00:10:28,860 Yeah, you applied to be an astronaut, didn't you? I did. We'll keep trying. 147 00:10:29,060 --> 00:10:31,820 Maybe somebody else in this room can have that opportunity to do it. 148 00:10:32,160 --> 00:10:35,660 Katie, fantastically, you have convinced me we've got to send people back to the 149 00:10:35,660 --> 00:10:36,920 Moon. Thank you very much. Thank you, Joy. 150 00:10:42,440 --> 00:10:48,300 Thank you It is incredible really that we were able to go to the moon not just 151 00:10:48,300 --> 00:10:52,840 because we left behind on earth when we went to the moon everything we take for 152 00:10:52,840 --> 00:10:56,480 granted in terms of life support here on earth, but because we also left behind 153 00:10:56,480 --> 00:11:01,020 our Protection from radiation the protection we get from the earth's 154 00:11:01,020 --> 00:11:07,100 field now Right now, Tim Peake is on the space station very carefully monitoring 155 00:11:07,100 --> 00:11:13,400 his own levels of radiation using a clever detector called the TimePix 156 00:11:13,860 --> 00:11:19,100 And to explain a little bit more to you about this, I am going to need a 157 00:11:19,100 --> 00:11:24,100 volunteer. All right, let's go on a bit of a space mission. 158 00:11:25,080 --> 00:11:26,080 Let's have you. 159 00:11:33,130 --> 00:11:34,130 What's your name? 160 00:11:34,230 --> 00:11:36,870 Celeste. Celeste, put some gloves on. 161 00:11:37,190 --> 00:11:39,970 We've got some bizarre stuff to show you here. 162 00:11:40,590 --> 00:11:43,050 Celeste, have you ever seen one of these things before? Do you know what this 163 00:11:43,050 --> 00:11:46,150 is? No. No, this is a Geiger tube. 164 00:11:46,850 --> 00:11:48,510 Anyone else ever seen one of these before? 165 00:11:48,930 --> 00:11:52,170 Yeah, yeah, yeah. Okay, and it measures radiation. 166 00:11:52,790 --> 00:11:54,910 Okay, so we're going to turn it on. 167 00:11:56,110 --> 00:11:59,790 Ooh, there you go. Now, Celeste, point that... 168 00:12:00,210 --> 00:12:03,830 At the audience, see how radioactive they are. This is a Geiger Schube. It 169 00:12:03,830 --> 00:12:06,870 us how radioactive things are. The more radioactive they are, the more clicks 170 00:12:06,870 --> 00:12:07,870 you get off of this. 171 00:12:08,090 --> 00:12:09,630 It measures the ionization. 172 00:12:10,250 --> 00:12:12,530 Radiation comes in the front. No? No radioactive people? 173 00:12:12,730 --> 00:12:13,730 How about over there? 174 00:12:13,770 --> 00:12:15,890 No? Okay, let's point that up to the sky. 175 00:12:16,230 --> 00:12:17,350 No real radiation. 176 00:12:17,770 --> 00:12:18,770 Hmm. 177 00:12:19,050 --> 00:12:23,610 That's because we're under a blanket of atmosphere and the Earth's magnetic 178 00:12:23,610 --> 00:12:27,390 field. So to show you some radiation, we've had to find something radioactive. 179 00:12:27,710 --> 00:12:32,330 And here at the Royal Institution, Charlotte, our curator, has some very 180 00:12:32,330 --> 00:12:33,450 sources of radiation. 181 00:12:33,730 --> 00:12:34,870 Go on, point it at this book. 182 00:12:35,440 --> 00:12:36,500 Charlotte, what is this book? 183 00:12:36,780 --> 00:12:39,980 This is a notebook from William Cripps from 1903. 184 00:12:40,300 --> 00:12:43,780 Ah, and William Cripps, I remember, he's the bloke who made the very first 185 00:12:43,780 --> 00:12:47,000 medical X -ray tubes. 186 00:12:47,400 --> 00:12:48,920 Yes, indeed. That's very radioactive. 187 00:12:49,260 --> 00:12:50,260 I might take that. 188 00:12:51,640 --> 00:12:55,620 All right, now this book, this is the page where he was talking about messing 189 00:12:55,620 --> 00:12:58,540 around with some radium salt. 190 00:12:58,740 --> 00:13:00,700 Yes, radium bromide. That's radioactive stuff. 191 00:13:01,240 --> 00:13:03,980 I think he was messing around when he was writing his page. Now, which is the 192 00:13:03,980 --> 00:13:05,640 worst bit on this book? Dan Chris. 193 00:13:05,920 --> 00:13:06,920 OK. 194 00:13:06,960 --> 00:13:07,960 Oh! 195 00:13:13,040 --> 00:13:14,220 That's not good at all. 196 00:13:16,740 --> 00:13:17,880 OK, so... 197 00:13:18,440 --> 00:13:21,880 It's very, very, very radioactive. Where do you keep this book, Charlotte? 198 00:13:22,080 --> 00:13:23,180 In the RI archive. 199 00:13:23,580 --> 00:13:25,160 Yeah, but what? 200 00:13:25,460 --> 00:13:27,420 In a metal box. In a metal box, okay. 201 00:13:27,700 --> 00:13:31,600 Now, it's okay as long as we don't eat or lick the book, okay? 202 00:13:31,860 --> 00:13:33,740 So do not eat or lick the book. 203 00:13:35,120 --> 00:13:40,080 Now... All that does is tell us how much radiation is there. So to do something 204 00:13:40,080 --> 00:13:43,820 rather more interesting, we'd like to know the sorts of radiation and how many 205 00:13:43,820 --> 00:13:47,140 particles. We're going to use the detector that is on Tim Peake's mission. 206 00:13:47,140 --> 00:13:49,740 is the time peak detector. You're going to help me start it. So you're going to 207 00:13:49,740 --> 00:13:54,360 go round the front there, and let's see how Mr Crook's book does. 208 00:13:54,920 --> 00:13:57,860 OK, I'm going to take off the cover now over that page. 209 00:13:58,260 --> 00:14:02,020 So every spot is a particle. The bigger the spot, the higher the energy. Here we 210 00:14:02,020 --> 00:14:02,999 go. 211 00:14:03,000 --> 00:14:05,100 And let's have a look at what. 212 00:14:05,610 --> 00:14:10,150 We see the book has suddenly... Oh, here we go. 213 00:14:11,190 --> 00:14:12,190 Here we go. 214 00:14:13,150 --> 00:14:17,430 And so all of those dots that you can see there are all particles of radiation 215 00:14:17,430 --> 00:14:19,930 or photons of energy coming through that detector. 216 00:14:20,290 --> 00:14:22,990 And I don't think you can see it quite as well as we can see it here, but 217 00:14:22,990 --> 00:14:25,290 Celeste, that's a lot of particles, isn't it? 218 00:14:25,910 --> 00:14:29,090 Charlotte, I don't want to stand near this book anymore, so I think you should 219 00:14:29,090 --> 00:14:32,370 take it away. And Celeste, I think your mum would be really happy if I sent you 220 00:14:32,370 --> 00:14:34,410 back to your seat as well. Thank you very much, Celeste. 221 00:14:39,150 --> 00:14:43,690 So lesson one is don't eat radioactive things, but we have some data from the 222 00:14:43,690 --> 00:14:49,770 space station from the detectors that Tim Peake is using and this is it. And 223 00:14:49,770 --> 00:14:55,070 help us understand what we're looking at, I'd like to welcome my guest, solar 224 00:14:55,070 --> 00:14:57,990 physicist, Professor Lucy Green. 225 00:15:10,939 --> 00:15:16,700 Lucy, what is that? It looks very worrying. That detector tells us sort of 226 00:15:16,700 --> 00:15:18,460 just how much radiation, but the type. 227 00:15:18,720 --> 00:15:21,140 So what type of radiation is doing that? 228 00:15:21,340 --> 00:15:26,000 So this detector is able to pick up electrons, protons, and also heavy 229 00:15:26,000 --> 00:15:31,120 nuclei that come streaking in from all over our galaxy, travelling at almost 230 00:15:31,120 --> 00:15:32,079 speed of light. 231 00:15:32,080 --> 00:15:33,520 Sounds slightly nasty. 232 00:15:34,570 --> 00:15:37,010 We don't have to worry about those so much here on Earth. 233 00:15:37,230 --> 00:15:40,510 You've got something here to explain that to me. That's right. So this is a 234 00:15:40,510 --> 00:15:44,670 setup called a planetarella, and it's a really nice way to demonstrate both the 235 00:15:44,670 --> 00:15:48,390 fact that the Earth has a magnetic field which guides electrically charged 236 00:15:48,390 --> 00:15:52,190 particles and also the effect of electrically charged particles on the 237 00:15:52,190 --> 00:15:55,750 atmosphere. And what's happening in here is that... 238 00:15:56,060 --> 00:15:59,500 electrons charged particles are being accelerated through an invisible 239 00:15:59,500 --> 00:16:04,460 field and you can see that on around that small sphere glowing lights and 240 00:16:04,460 --> 00:16:08,580 equivalent to the northern lights and the southern lights the aurora it's very 241 00:16:08,580 --> 00:16:13,220 very beautiful even here but there is a more beautiful way of seeing this and 242 00:16:13,220 --> 00:16:17,800 that's to be in space and i think we've got some video of the northern lights 243 00:16:17,800 --> 00:16:23,820 i've seen some space look at that That green glow in the top, that's the 244 00:16:23,820 --> 00:16:27,700 Northern Lights, isn't it? And this is from Space Station looking down. It's 245 00:16:27,700 --> 00:16:31,220 such a fantastic view. The astronauts have the best view of the Northern 246 00:16:31,280 --> 00:16:34,940 I'm so envious of what they get to see. You see the thin atmosphere, you see the 247 00:16:34,940 --> 00:16:38,740 green glowing oxygen, but for us it's incredibly important because it... 248 00:16:39,080 --> 00:16:43,800 acts as a blanket to block out the effects of those galactic charged 249 00:16:43,800 --> 00:16:47,700 that we saw earlier on. So we can protect ourselves from the most harmful 250 00:16:47,700 --> 00:16:51,560 radiation by sitting inside our blanket of magnetic field. 251 00:16:52,520 --> 00:16:54,160 So are we all right to keep going and exploring? 252 00:16:54,600 --> 00:16:58,180 Well, there are difficulties that we have to overcome, really severe 253 00:16:58,180 --> 00:17:01,940 difficulties. So we've talked about particles coming from the galaxy, and 254 00:17:01,940 --> 00:17:04,960 talked about the fact that the Earth has a magnetic field and an atmosphere. 255 00:17:05,319 --> 00:17:09,480 There is some protection from these galactic particles that we get from the 256 00:17:09,480 --> 00:17:14,000 as well, and we see that the number varies across the solar cycle. The sun's 257 00:17:14,000 --> 00:17:18,839 magnetic field extends out and surrounds the Earth, and it deflects the galactic 258 00:17:18,839 --> 00:17:19,839 cosmic rays from us. 259 00:17:20,359 --> 00:17:25,960 But the sun is both our friend and our foe. And the sun itself is an amazing 260 00:17:25,960 --> 00:17:31,320 particle accelerator. And it's able to produce events where particles like 261 00:17:31,320 --> 00:17:33,500 electrons and protons get... 262 00:17:33,950 --> 00:17:37,590 accelerated almost to the speeds of light as well, and they shower down on 263 00:17:37,590 --> 00:17:40,930 Earth. So whereas the particles coming from the galaxy have very, very high 264 00:17:40,930 --> 00:17:43,330 energies, they form a sort of background radiation. 265 00:17:43,770 --> 00:17:49,010 The sun is capable of these very strong, high -flux bursts, and they can be 266 00:17:49,010 --> 00:17:50,610 very, very dangerous for astronauts. 267 00:17:50,830 --> 00:17:54,210 And I'll give you a bit of information about the normal flow of particles in 268 00:17:54,210 --> 00:17:58,590 solar wind. So the sun all the time has a flow that takes a few days, maybe four 269 00:17:58,590 --> 00:18:01,790 days, to get from the sun through 150 million... 270 00:18:02,250 --> 00:18:06,970 Kilometers of space to us when an energetic particle event happens they 271 00:18:06,970 --> 00:18:12,670 within half an hour and The storm can go on for days and then there are so many 272 00:18:12,670 --> 00:18:13,670 of them 273 00:18:13,980 --> 00:18:17,980 pouring down onto the astronauts. Once you're above the Earth's atmosphere and 274 00:18:17,980 --> 00:18:21,220 at the edges of the Earth's magnetic field, you have very little protection. 275 00:18:21,220 --> 00:18:24,880 fact, the particles are so energetic, they don't even see our magnetic field. 276 00:18:24,940 --> 00:18:25,940 They just come rushing in. 277 00:18:26,180 --> 00:18:29,600 And so if you're an astronaut, outside the protection of the magnetic field and 278 00:18:29,600 --> 00:18:32,080 one of these solar flare, solar particle events happen... 279 00:18:32,490 --> 00:18:33,489 What happened to you? 280 00:18:33,490 --> 00:18:38,430 So you would be irradiated, and you could have a mild effect. You could get 281 00:18:38,430 --> 00:18:41,710 radiation sickness, disorientation, but it could be fatal. 282 00:18:41,950 --> 00:18:44,970 And Tim Peake's crew has just gone out on a spacewalk. 283 00:18:45,850 --> 00:18:48,470 sort of event have been a risk for them if they were outside their vehicle on 284 00:18:48,470 --> 00:18:49,469 that spacewalk? 285 00:18:49,470 --> 00:18:53,070 It would have been. So they would not have been allowed to go out on a 286 00:18:53,070 --> 00:18:57,270 had there been a solar particle event happening. They are so dangerous. They 287 00:18:57,270 --> 00:19:00,790 would have to have been inside the space station and also gone to an area where 288 00:19:00,790 --> 00:19:05,030 they get more shielding because to stop them, what you want is material that the 289 00:19:05,030 --> 00:19:09,090 particles can run into, collide with, and then not reach your body. 290 00:19:09,370 --> 00:19:12,510 But this sounds like a disaster because we want to go exploring the rest of the 291 00:19:12,510 --> 00:19:15,410 solar system and it sounds to me like we should just stay at home and... power 292 00:19:15,410 --> 00:19:18,270 underneath the Earth's magnetic field and our atmosphere if we can. 293 00:19:18,570 --> 00:19:21,990 It's a huge challenge, and I think it's the main challenge to overcome if we do 294 00:19:21,990 --> 00:19:25,330 want to successfully move out towards Mars. It's got to keep humans safe. It 295 00:19:25,330 --> 00:19:27,810 doesn't sound like we can. I can't build a spaceship out of lead. What would you 296 00:19:27,810 --> 00:19:28,970 do about shielding, Lucy? 297 00:19:29,270 --> 00:19:32,810 Some people are thinking about using the water that you would need. Water's a 298 00:19:32,810 --> 00:19:33,529 good shield. 299 00:19:33,530 --> 00:19:37,310 That would be a good shield. In fact, it turns out that having a material that 300 00:19:37,310 --> 00:19:41,410 has light particles in it, like hydrogen, is quite a good approach. 301 00:19:41,730 --> 00:19:47,550 So water, OK, it weighs quite a lot. but it would make a good shield if you had 302 00:19:47,550 --> 00:19:49,230 it running through the walls of your spacecraft. 303 00:19:49,510 --> 00:19:52,090 Lucy, thank you so much. Thank you. Now, 304 00:19:54,790 --> 00:19:58,790 they're not just measuring the radiation environment inside the space station, 305 00:19:58,930 --> 00:20:02,590 they're having a look at what effects that has on life outside the space 306 00:20:02,590 --> 00:20:07,050 station, and particularly with this particular facility here. 307 00:20:08,090 --> 00:20:12,930 Now this is the exposed facility and it's a British -led experiment up on the 308 00:20:12,930 --> 00:20:17,190 space station right now with Tim Peake. This has been taken up and then bolted 309 00:20:17,190 --> 00:20:19,970 onto the outside of the space station and it's pretty cool. 310 00:20:21,310 --> 00:20:25,810 Inside you have layers, and it's outside the space station, and they're exposing 311 00:20:25,810 --> 00:20:31,850 the contents of this to radiation. Now inside, there are fungi, there are 312 00:20:31,850 --> 00:20:37,610 bacteria, there's even some seeds, and they've layered it so that one layer is 313 00:20:37,610 --> 00:20:42,090 the same as Mars in terms of radiation environment, one layer is the moon, and 314 00:20:42,090 --> 00:20:44,870 one is just a vacuum of unprotected space. 315 00:20:45,310 --> 00:20:47,550 And you think that everything should die up there. 316 00:20:48,160 --> 00:20:52,360 But some of this stuff does reasonably well, and there is one creature in 317 00:20:52,360 --> 00:20:56,540 particular that is just incredible in radiation. 318 00:20:56,840 --> 00:21:00,720 We've got some right here, if they haven't run away. Now let's have a look. 319 00:21:00,860 --> 00:21:03,360 These are tardigrades. 320 00:21:03,640 --> 00:21:05,300 This is a super tough creature. 321 00:21:05,540 --> 00:21:09,420 You think you'd do well against this creature, but you wouldn't, because you 322 00:21:09,420 --> 00:21:11,120 boil it, and it says, meh. 323 00:21:11,630 --> 00:21:16,150 And you can freeze it down to nearly absolute zero, apparently, and it 324 00:21:16,150 --> 00:21:20,410 care. You can subject it to huge pressure, and it doesn't care. You can 325 00:21:20,410 --> 00:21:23,870 to space without a spacesuit. To be fair, it was very hard to make a 326 00:21:23,870 --> 00:21:24,870 for these things. 327 00:21:24,950 --> 00:21:31,890 And most amazingly of all, you can subject it to huge doses of ionizing 328 00:21:31,890 --> 00:21:34,810 radiation, and it kind of likes it. 329 00:21:37,080 --> 00:21:40,600 That is a tardigrade. They're also called water bears, and some people 330 00:21:40,600 --> 00:21:41,559 they're a bit cute. 331 00:21:41,560 --> 00:21:45,360 I think they're just kind of weird, really, but they're super tough. 332 00:21:45,620 --> 00:21:51,200 Now, the tardigrade can survive doses of radiation that none of us can, and 333 00:21:51,200 --> 00:21:55,920 radiation is super bad for you. It can damage your cells at the molecular level 334 00:21:55,920 --> 00:22:00,300 and cause all sorts of problems with your DNA and your DNA's ability to 335 00:22:00,300 --> 00:22:02,820 replicate and produce healthy new cells. 336 00:22:03,120 --> 00:22:04,300 So how... 337 00:22:04,810 --> 00:22:10,070 Does the tardigrade manage to survive when we would do really, really badly? 338 00:22:10,470 --> 00:22:15,090 And for that, I am going to need not one, not two, not three, but four 339 00:22:15,090 --> 00:22:16,090 volunteers. 340 00:22:17,990 --> 00:22:18,990 Let's go here. 341 00:22:20,090 --> 00:22:23,390 And let's have you. 342 00:22:23,690 --> 00:22:24,710 Okay, come on. 343 00:22:24,930 --> 00:22:30,850 Okay, and okay, off the front row. Okay, how about you? Good. And one more from 344 00:22:30,850 --> 00:22:33,450 over here. How about you? Okay, come on, let's go. 345 00:22:39,490 --> 00:22:46,390 okay over this side okay so you are going to be team tardigrade this is a 346 00:22:46,390 --> 00:22:51,890 tardigrade dna double helix and you are going to be team human which you would 347 00:22:51,890 --> 00:22:57,630 think would be good but just wait this is a human dna double helix you are the 348 00:22:57,630 --> 00:23:00,210 repair mechanisms for this DNA. 349 00:23:00,750 --> 00:23:04,650 And in a minute, we're going to expose them to some radiation, and you are 350 00:23:04,650 --> 00:23:05,730 to try and repair them. 351 00:23:05,970 --> 00:23:08,650 But we should get out of the way of the radiation, because we're about to 352 00:23:08,650 --> 00:23:11,210 irradiate this whole field. Come on, follow me, quick, let's get out of the 353 00:23:11,250 --> 00:23:12,169 Come on, come on, come on, come on. 354 00:23:12,170 --> 00:23:13,170 Let's go. 355 00:23:13,830 --> 00:23:17,730 Now, the rest of you, while we're clear of the areas, should prepare your 356 00:23:17,730 --> 00:23:19,470 radioactive particles. 357 00:23:19,710 --> 00:23:21,230 And so I'm going to... Everyone ready? 358 00:23:22,070 --> 00:23:23,070 Yes! 359 00:23:23,290 --> 00:23:24,290 Okay. 360 00:23:25,590 --> 00:23:26,590 Three. 361 00:23:28,239 --> 00:23:30,840 Two one irradiates 362 00:23:30,840 --> 00:23:38,240 Okay, 363 00:23:40,220 --> 00:23:47,180 there was a bit of damage there and then there was a solar particle event 364 00:23:47,180 --> 00:23:48,680 Okay, 365 00:23:50,060 --> 00:23:53,640 so I think you might need some help with these so we'll get some people to help 366 00:23:53,640 --> 00:23:55,280 you I hope you remember what they looked like before 367 00:23:56,230 --> 00:24:01,130 because I want you to build exactly the same DNA helix. So, repairer, team 368 00:24:01,130 --> 00:24:02,250 Tardigrade, are you ready? 369 00:24:03,730 --> 00:24:05,110 Yes. Oh, wow. 370 00:24:06,210 --> 00:24:07,710 Team Human, are you ready? 371 00:24:08,030 --> 00:24:09,030 Yes. 372 00:24:10,390 --> 00:24:12,570 They brought it. They brought their game. 373 00:24:13,630 --> 00:24:15,750 Okay, three, two, one, repair! 374 00:24:17,030 --> 00:24:20,810 So, right now, they are trying to repair the damage that was done by your... 375 00:24:21,130 --> 00:24:22,890 Frankly, not very good irradiation. 376 00:24:23,130 --> 00:24:27,030 And they're trying to build the towers that existed beforehand. 377 00:24:27,350 --> 00:24:32,410 Now, Team Tardigrade here, doing all right, I suppose. 378 00:24:32,710 --> 00:24:38,470 And Team Human, they're nearly there. So, Team Tardigrade, basically, hurry 379 00:24:40,510 --> 00:24:43,450 Are we nearly there? 380 00:24:45,830 --> 00:24:47,670 Well done. All right, well done, guys. All right. 381 00:24:51,260 --> 00:24:52,660 All right, come and stand here. 382 00:24:54,040 --> 00:24:57,420 Fantastic, and come and stand here. All right, now let's see how you did. Now, 383 00:24:57,420 --> 00:25:00,940 in a minute, we're all going to look at the screens and see before and after. 384 00:25:01,080 --> 00:25:07,080 Okay, so right up on the screen, this is the human tower, before and after. 385 00:25:07,300 --> 00:25:10,340 You haven't done bad, actually. Silver row, and then the green row, and then 386 00:25:10,340 --> 00:25:12,620 blue row, and then... Hold on. 387 00:25:12,940 --> 00:25:14,840 Blue and green, yellow and green. 388 00:25:15,320 --> 00:25:18,300 Oh, dear. And then it goes completely wrong, and... 389 00:25:18,680 --> 00:25:23,060 You really haven't done very well. That is not a good repair job, people. So too 390 00:25:23,060 --> 00:25:26,960 quick, I think. Okay, let's have a look at Team Cardigrades before and after. 391 00:25:27,180 --> 00:25:32,000 So two silvers, two greens, two blues, two blues, two greens, two yellows. 392 00:25:32,400 --> 00:25:35,060 You're perfect all the way up to the top. 393 00:25:35,400 --> 00:25:36,400 That's amazing. 394 00:25:36,660 --> 00:25:38,360 Well done. Team Cardigrades wins. 395 00:25:42,640 --> 00:25:48,180 But, but... You did have a bit of help, didn't you? 396 00:25:48,650 --> 00:25:54,170 And not just from John, because Team Tardigrade, I'm sorry to tell you, Team 397 00:25:54,170 --> 00:25:57,210 Human, had a little guide to how to put their tower together. 398 00:25:57,450 --> 00:25:58,450 And do you know what? 399 00:25:58,870 --> 00:26:02,150 That's the trick. That's how Tardigrades do it. Tardigrades have a superior 400 00:26:02,150 --> 00:26:06,310 repair mechanism, so when they get hit by radiation, they can repair their DNA 401 00:26:06,310 --> 00:26:09,550 better and much more effectively than humans. 402 00:26:09,790 --> 00:26:12,950 So Tardigrades win, at least in a radiation field. 403 00:26:13,290 --> 00:26:15,510 Ladies and gentlemen, thank you very much. Go back to your seats. Thank you. 404 00:26:23,630 --> 00:26:29,130 And radiation is a huge problem if you want to carry on journeying deeper and 405 00:26:29,130 --> 00:26:33,410 deeper into space, and particularly if you want to go to my favourite 406 00:26:33,410 --> 00:26:36,910 destination, and that is the planet Mars. 407 00:26:37,490 --> 00:26:42,370 Now, as far as we've ever been from Earth is the moon at 250 ,000 miles. 408 00:26:42,370 --> 00:26:46,410 about the distance that you can get a car to drive before the engine falls out 409 00:26:46,410 --> 00:26:47,410 the bottom. 410 00:26:47,730 --> 00:26:50,690 But Mars sits out there... 411 00:26:51,449 --> 00:26:52,449 Huge distances. 412 00:26:52,610 --> 00:26:55,650 It is the fourth planet from the sun. To get there, you need to travel for 413 00:26:55,650 --> 00:26:57,470 hundreds of millions of miles. 414 00:26:57,790 --> 00:27:02,130 The time for a mission to Mars is at the very least about a year and a half and 415 00:27:02,130 --> 00:27:03,950 maybe up to three years. 416 00:27:04,270 --> 00:27:08,350 So you're talking about a thousand days in space, which is crazy. 417 00:27:09,630 --> 00:27:12,890 And then you start to think, well, what am I going to pack? 418 00:27:13,390 --> 00:27:15,450 Well, packing for space is hard. 419 00:27:15,730 --> 00:27:18,890 And to help me show you that, I am going to need a volunteer. 420 00:27:19,810 --> 00:27:21,490 Okay. Okay. All right. 421 00:27:22,030 --> 00:27:23,410 Let's have you. 422 00:27:29,090 --> 00:27:30,090 Thank you. 423 00:27:30,750 --> 00:27:31,830 What is your name? 424 00:27:32,110 --> 00:27:33,049 Asha. 425 00:27:33,050 --> 00:27:35,330 Asha. Ashta. Ashta. Ashta. 426 00:27:35,750 --> 00:27:38,810 Ashta, this is your suitcase. I've packed it for you, okay? 427 00:27:39,090 --> 00:27:41,170 For a weekend on Mars, all right? 428 00:27:42,070 --> 00:27:43,990 And this is pretty good. 429 00:27:44,530 --> 00:27:47,110 So what do you think you need for a weekend away? 430 00:27:49,130 --> 00:27:50,130 Some clothes? 431 00:27:50,390 --> 00:27:52,970 Yeah, yeah. Space suit would be good. We'll start with a space suit. Well, 432 00:27:53,030 --> 00:27:56,490 let's... So come round here. Just stand here. 433 00:27:56,930 --> 00:28:03,170 Perfect. So space suits. Well, space suits. We can... Space clothes. Space 434 00:28:03,170 --> 00:28:06,370 clothes is close enough. So let's have some of that. All right. So we've got 435 00:28:06,370 --> 00:28:07,370 some space clothes. 436 00:28:07,430 --> 00:28:09,630 Okay. You're going to have two pairs of pants. 437 00:28:10,430 --> 00:28:13,510 It's a weekend. Let's get two pairs of pants. Okay. I think they're in there. 438 00:28:13,570 --> 00:28:17,630 All right. So you've got... You've got clothes. 439 00:28:18,030 --> 00:28:20,410 What else do you need? You probably need to take some food, don't you? 440 00:28:20,690 --> 00:28:23,790 Yeah. So, Ashta, here's some food for you. 441 00:28:24,310 --> 00:28:26,010 Let's find the food in here. 442 00:28:26,250 --> 00:28:27,430 Oh, yeah, here's your food. 443 00:28:28,470 --> 00:28:33,590 So, we've got some space food for you. This is sausage casserole. You're a fan 444 00:28:33,590 --> 00:28:34,590 of sausage casserole? 445 00:28:35,750 --> 00:28:41,490 Bit of flour and... Oh, what's that one there? 446 00:28:42,030 --> 00:28:44,490 A bit of toffee pudding. Toffee pudding. You up for that? 447 00:28:45,160 --> 00:28:49,440 okay all right and uh what else have we got so you've got to take your water 448 00:28:49,440 --> 00:28:53,700 with you now if you were an adult astronaut you need to take uh about 449 00:28:53,700 --> 00:28:58,600 liters a day so we'll get liters of water out so six liters for the whole 450 00:28:58,600 --> 00:29:02,880 and it's not just your water is it you've got to take your oxygen so here's 451 00:29:02,880 --> 00:29:08,300 life support for you all right um let's just get that there and it's not just 452 00:29:08,300 --> 00:29:11,580 your oxygen you need a towel don't you to dry yourself off this is a very nice 453 00:29:11,580 --> 00:29:15,580 towel actually look it's got a good message for people who are in space all 454 00:29:15,580 --> 00:29:20,700 right um and uh what else would you want some reading material ashta uh cuddly 455 00:29:20,700 --> 00:29:26,810 toys um and and a wash kit And that is for two days in space. 456 00:29:27,350 --> 00:29:32,590 Okay, so multiply that by 500 for 1 ,000 days in space. Multiply that by crew of 457 00:29:32,590 --> 00:29:36,090 six, and we're in trouble, aren't we? We're never building a spaceship big 458 00:29:36,090 --> 00:29:39,630 enough. You're dropping it all, and I'll pack that very carefully for you. We're 459 00:29:39,630 --> 00:29:41,770 not ever getting into space flight, are we? No. 460 00:29:42,350 --> 00:29:43,730 Asta, we're going to have to think again. 461 00:29:43,990 --> 00:29:45,550 Thank you very much, Asta. Thank you. 462 00:29:52,959 --> 00:29:56,820 It's not going to work, is it? We can't pack like that for Mars, because the 463 00:29:56,820 --> 00:30:00,160 spaceship would be so big, we'd never get it off the ground, let alone get it 464 00:30:00,160 --> 00:30:01,860 hundreds of million miles into space. 465 00:30:02,100 --> 00:30:05,640 So how are you going to do it? And the answer is, you're going to have to get 466 00:30:05,640 --> 00:30:08,220 better at reusing everything. 467 00:30:08,580 --> 00:30:11,300 And I really, really, really mean everything. 468 00:30:11,760 --> 00:30:18,240 Now, for this next one, I am going to need a volunteer. 469 00:30:19,280 --> 00:30:21,420 So, now, this... 470 00:30:21,930 --> 00:30:25,730 Here's a glass of my finest urine. 471 00:30:27,670 --> 00:30:32,650 So, I need a volunteer to drink this urine. 472 00:30:34,530 --> 00:30:35,850 Okay, okay, let's listen. 473 00:30:36,110 --> 00:30:40,310 When someone says, I need a volunteer to drink urine, you do not volunteer for 474 00:30:40,310 --> 00:30:40,989 that, okay? 475 00:30:40,990 --> 00:30:42,910 That's the most important lesson I'm going to give you today. 476 00:30:43,530 --> 00:30:45,250 Are your hands still up? 477 00:30:45,560 --> 00:30:51,000 Really, it is not socially acceptable ever, ever to drink urine, okay? There's 478 00:30:51,000 --> 00:30:55,600 reason you have kidneys, and that's because the stuff in your urine, the 479 00:30:55,600 --> 00:30:59,220 that your kidneys takes out, the potassium, the sodium, the urea, the 480 00:30:59,220 --> 00:31:03,460 creatinine, the phosphate, that 5 % of the urine is really, really bad stuff, 481 00:31:03,580 --> 00:31:06,000 which is why you put it on the outside of you, okay? 482 00:31:06,220 --> 00:31:09,440 So when someone says, do you want to drink my urine? You say, no! 483 00:31:10,620 --> 00:31:14,000 There is only one acceptable way to drink urine. 484 00:31:15,100 --> 00:31:20,620 And that is if you have some special treatments. 485 00:31:21,380 --> 00:31:26,840 And so this is a special bag that recycles urine. 486 00:31:27,340 --> 00:31:30,240 And what it does, it's a bag within a bag. 487 00:31:30,460 --> 00:31:33,560 And I think I'm probably going to need another glass here. But there's a bag 488 00:31:33,560 --> 00:31:34,720 within a bag. 489 00:31:34,920 --> 00:31:39,320 And the bag inside is actually a semi -permeable membrane. 490 00:31:39,960 --> 00:31:42,320 And you put... 491 00:31:43,000 --> 00:31:47,460 pee into this red port here, the urine goes into the bag, and then the bag on 492 00:31:47,460 --> 00:31:50,900 the inside will allow water to go through, but not all the nasty stuff. 493 00:31:51,260 --> 00:31:57,440 Now, to encourage the water across, this green port, you put a syrup in, and the 494 00:31:57,440 --> 00:32:02,060 syrup has a very high osmotic pressure, lots of molecules that draw the water 495 00:32:02,060 --> 00:32:06,980 across, and you get clean water with all the nasty stuff left outside. 496 00:32:07,340 --> 00:32:10,960 This, very helpfully, if you can see that there, has a port that says, dirty 497 00:32:10,960 --> 00:32:11,960 water in. 498 00:32:13,399 --> 00:32:18,320 Sport syrup in, clean drink out. So do not drink out of the red port. 499 00:32:20,480 --> 00:32:23,140 This is one I made earlier because osmosis takes a while. 500 00:32:23,980 --> 00:32:27,600 And we're going to pour it in here now. 501 00:32:27,800 --> 00:32:31,400 Now, here's the thing. Because you've got some syrup in there, it kind of 502 00:32:31,400 --> 00:32:34,220 a little bit like pee, even after it's been reprocessed. 503 00:32:35,040 --> 00:32:41,660 And to be honest, do you want to have a smell of that? 504 00:32:42,399 --> 00:32:48,540 It smells like... Smells quite a lot like urine. Yeah, it smells quite a lot 505 00:32:48,540 --> 00:32:49,540 like pee. Do you want to smell? 506 00:32:51,820 --> 00:32:54,960 So it looks a bit like pee and it still smells a bit like pee. 507 00:32:55,160 --> 00:32:58,640 But this is perfectly safe to drink now because osmosis has treated it. 508 00:32:59,420 --> 00:33:06,360 And... To be honest, 509 00:33:06,480 --> 00:33:09,560 it really does still taste like pee. 510 00:33:09,820 --> 00:33:10,820 All right. 511 00:33:21,760 --> 00:33:27,640 Now, Tim has a much better way of recycling his pee. He does recycle it up 512 00:33:27,640 --> 00:33:32,400 there. Tim Peake and his crew have a really quite cool mechanism which not 513 00:33:32,400 --> 00:33:38,400 recycles their urine, but also their sweat and the vapour they breathe out of 514 00:33:38,400 --> 00:33:39,400 their mouths. 515 00:33:41,100 --> 00:33:45,660 they're recycling up to 98 % of their body water. 516 00:33:46,020 --> 00:33:48,880 That's really horrible, that stuff. It's just so horrible. 517 00:33:49,900 --> 00:33:52,120 That is how you recycle urine. 518 00:33:54,060 --> 00:33:59,340 But what if you had a way of recycling water that was also a way of recycling 519 00:33:59,340 --> 00:34:05,080 your atmosphere, that was also a source of food? And I have one of those right 520 00:34:05,080 --> 00:34:07,580 here on the shelf. It's called a plant. 521 00:34:10,060 --> 00:34:12,960 That's what you'd like to do. You'd like to take a bunch of plants with you into 522 00:34:12,960 --> 00:34:15,600 space. But that turns out to be really, really hard because you're in a 523 00:34:15,600 --> 00:34:19,800 spaceship and there's no natural light and there's no soil because there's an 524 00:34:19,800 --> 00:34:23,219 infection risk from the soil. So how do you just grow plants in space? 525 00:34:23,600 --> 00:34:26,679 I don't know, but I know a man who says he can. 526 00:34:27,159 --> 00:34:31,520 And let's welcome Alistair from the Royal Horticultural Society. 527 00:34:44,940 --> 00:34:46,520 Alistair, I'm going to put this down. 528 00:34:48,280 --> 00:34:50,199 Now, what's this? 529 00:34:50,440 --> 00:34:57,320 This is a clause system that will feed us. It produces the food for you 530 00:34:57,320 --> 00:34:57,859 to eat. 531 00:34:57,860 --> 00:35:00,360 So this is grow your own space food, is that right? 532 00:35:00,700 --> 00:35:04,120 Yeah, yeah. And you can do something with that to make something that I would 533 00:35:04,120 --> 00:35:04,879 want to eat? 534 00:35:04,880 --> 00:35:10,420 Yeah, yeah. It'd be a bit smaller, but yeah. I'm not convinced, but you tell me 535 00:35:10,420 --> 00:35:11,560 that I will be, so... 536 00:35:12,080 --> 00:35:14,300 To show me, I'm going to need a volunteer. 537 00:35:15,300 --> 00:35:16,300 All right. 538 00:35:17,000 --> 00:35:19,880 Let's have you. Okay, good. 539 00:35:20,120 --> 00:35:21,120 All right. 540 00:35:24,480 --> 00:35:25,560 What's your name? Finley. 541 00:35:25,900 --> 00:35:30,380 Finley, you're going to go over here to Christian, who's going to help you over 542 00:35:30,380 --> 00:35:33,140 there. Apparently, you're going to put something together that we can grow over 543 00:35:33,140 --> 00:35:34,540 here in space, apparently. 544 00:35:34,760 --> 00:35:35,760 All right. 545 00:35:36,580 --> 00:35:39,360 Convince me of this, because I'm just not buying it. So what have we got? This 546 00:35:39,360 --> 00:35:41,040 is a system that you can grow in space. 547 00:35:41,420 --> 00:35:42,420 How is that possible? 548 00:35:42,440 --> 00:35:43,700 We've got no sunlight in space. 549 00:35:44,140 --> 00:35:48,520 So the light here, you've got red and blue lights. Now, plants photosynthesize 550 00:35:48,520 --> 00:35:53,600 at the red and blue lights, so it optimizes the amount of chlorophyll A 551 00:35:53,600 --> 00:35:54,439 relation to efficiency. 552 00:35:54,440 --> 00:35:55,840 You also have some green lights in there. 553 00:35:56,580 --> 00:36:01,280 You've got a water system here, which is a closed water system because there's 554 00:36:01,280 --> 00:36:02,280 near zero gravity. 555 00:36:02,460 --> 00:36:05,820 Water would be floating out of this at the moment, which is why they're 556 00:36:05,820 --> 00:36:08,040 completely closed in those systems. 557 00:36:08,260 --> 00:36:12,000 And so this is a system that could be grown in space, and I think the guys 558 00:36:12,000 --> 00:36:13,000 tried to do that. 559 00:36:13,520 --> 00:36:18,180 There's a video of that up here on the screen. So this is some weird space 560 00:36:18,180 --> 00:36:19,400 plants. What colour are those plants? 561 00:36:19,900 --> 00:36:22,800 Yeah, so this is the veggie plant. They're the purple plant. 562 00:36:23,200 --> 00:36:24,200 Why are they purple? 563 00:36:24,680 --> 00:36:27,960 Well, it's in relation to the anthocyanins that they have in it. So 564 00:36:27,960 --> 00:36:28,960 chemistry within those. 565 00:36:29,360 --> 00:36:31,380 Anthocyanins, those are the things that make leaves turn a different colour. 566 00:36:31,600 --> 00:36:32,600 That's right, yeah. 567 00:36:32,820 --> 00:36:36,680 And you can see that it's a collapsible system. So this is called a veggie 568 00:36:36,680 --> 00:36:39,320 system and it'll leap, leap, sort of come up. 569 00:36:40,230 --> 00:36:43,750 And what plants have we got here? What have we got? I mean, I've heard of five 570 00:36:43,750 --> 00:36:44,890 day, but this is ridiculous. 571 00:36:45,130 --> 00:36:45,868 What's this? 572 00:36:45,870 --> 00:36:48,290 Okay, so we've got rice here. Yeah. 573 00:36:48,510 --> 00:36:50,270 We've got wheat here. Yeah. 574 00:36:51,090 --> 00:36:52,090 We've got basil. 575 00:36:52,170 --> 00:36:53,170 Yeah. 576 00:36:53,190 --> 00:36:54,470 We've got soya here. 577 00:36:54,910 --> 00:36:59,210 And we've got tomato here. So there's a number of crops here that we would 578 00:36:59,210 --> 00:37:02,770 probably want to take up. Really? I can see how you could grow this all in 579 00:37:02,770 --> 00:37:04,830 space, but what food are you going to make with that? 580 00:37:06,090 --> 00:37:07,090 Ooh. 581 00:37:08,510 --> 00:37:09,510 Finlay. 582 00:37:09,910 --> 00:37:10,910 What's going on? 583 00:37:11,730 --> 00:37:14,470 We're trying to grow space food here, and you're just mucking around in the 584 00:37:14,470 --> 00:37:15,490 kitchen. What's going on? 585 00:37:16,050 --> 00:37:17,050 Hopefully pizza. 586 00:37:17,450 --> 00:37:21,470 Hopefully you can make a pizza with all that. Oh, yeah, you can make cheese. 587 00:37:21,690 --> 00:37:23,710 Space pizza. 588 00:37:24,150 --> 00:37:28,050 Christian, let's see some space pizza in your special space -age oven. 589 00:37:28,670 --> 00:37:31,950 Ladies and gentlemen, space pizza. 590 00:37:37,550 --> 00:37:40,550 I think you need a bit more basil on there. Finlay, come and grab some of 591 00:37:40,670 --> 00:37:44,330 There you go. Go and sprinkle that on off of our hydroponic system. 592 00:37:44,950 --> 00:37:45,848 All right. 593 00:37:45,850 --> 00:37:46,850 Who's the hungriest cameraman? 594 00:37:47,590 --> 00:37:50,090 It always looks like Joe. Joe, let's be Joe. 595 00:37:50,610 --> 00:37:51,850 Brilliant. All right. 596 00:37:52,630 --> 00:37:56,790 Let's make sure that Joe can... You just carry on with that, Joe, while we carry 597 00:37:56,790 --> 00:37:57,709 on with the programme. 598 00:37:57,710 --> 00:37:58,710 All right. Okay. 599 00:37:59,270 --> 00:38:02,150 Alistair, Finlay, thank you so much. Great to see you. Thank you. 600 00:38:10,660 --> 00:38:16,800 Okay, so even if we master the art of bringing our life support with us in 601 00:38:16,800 --> 00:38:22,120 sort of form that we can regenerate, we've still got other problems. And 602 00:38:22,120 --> 00:38:25,640 part of the mission of Tim Peake's crew aboard the International Space Station. 603 00:38:25,860 --> 00:38:31,040 So let's go back to that emergency spacewalk that Tim's crew had to do at 604 00:38:31,040 --> 00:38:32,040 start of his mission. 605 00:38:34,140 --> 00:38:38,360 Astronaut Dan Tarney is going to talk us through what is possibly the most 606 00:38:38,360 --> 00:38:41,120 dangerous thing that any astronaut ever has to do. 607 00:38:41,780 --> 00:38:46,280 Dan, why are they having to do this spacewalk? This wasn't expected. This 608 00:38:46,280 --> 00:38:49,240 in the plans for Tim. He wasn't expecting to get up on the space station 609 00:38:49,240 --> 00:38:52,220 almost immediately have to help supervise a spacewalk. 610 00:38:52,940 --> 00:38:56,620 Absolutely. They were doing a routine move of what's called the mobile 611 00:38:56,620 --> 00:39:01,340 transporter. And the mobile transporter is like the trolley that goes back and 612 00:39:01,340 --> 00:39:03,640 forth. Yeah, let's talk about that. 613 00:39:04,540 --> 00:39:08,960 And so they were doing a routine maneuver from one worksite to another, 614 00:39:08,960 --> 00:39:12,420 unexpectedly it got stuck. It had to release from one worksite. 615 00:39:12,840 --> 00:39:16,560 And it got stuck between before it could get to the other work site. And they 616 00:39:16,560 --> 00:39:17,359 don't know why. 617 00:39:17,360 --> 00:39:20,700 And that's a big deal because they depend very heavily on that arm. It's a 618 00:39:20,700 --> 00:39:26,020 big deal because two of the supply ships that bring cargo to the space station, 619 00:39:26,140 --> 00:39:31,860 the food and the experiments and sometimes oxygen and critical things, 620 00:39:31,860 --> 00:39:35,600 grappled by that arm. And right now that arm is completely useless. It's not 621 00:39:35,600 --> 00:39:40,180 hooked up to the space station. And so they need to get that arm, that mobile 622 00:39:40,180 --> 00:39:41,760 transporter, locked into place. 623 00:39:42,250 --> 00:39:43,370 The arm can be operated. 624 00:39:43,630 --> 00:39:44,930 They're going out of the lock there. 625 00:39:45,190 --> 00:39:46,470 Yeah, here they go, yeah. 626 00:39:47,770 --> 00:39:52,750 If they are unsuccessful at performing this EVA, it will put a halt to 627 00:39:52,750 --> 00:39:56,130 everything on the space station. They have got to fix this mobile transporter. 628 00:39:56,610 --> 00:40:00,550 They cannot continue operating the space station with the mobile transporter in 629 00:40:00,550 --> 00:40:01,550 this position. 630 00:40:01,850 --> 00:40:06,790 This is a helmet camera. You can see their perspective of what they're doing. 631 00:40:07,090 --> 00:40:09,150 Okay, I'm going to start heading that direction. 632 00:40:09,370 --> 00:40:10,370 All right, sounds good. 633 00:40:11,120 --> 00:40:15,120 So they're navigating their way to their destination, and that's what they're 634 00:40:15,120 --> 00:40:18,400 doing now, right? Hand over hand, working their way around this structure, 635 00:40:18,400 --> 00:40:22,600 that airlock, and out towards the theta cart, this transporter we've been 636 00:40:22,600 --> 00:40:23,379 hearing about. 637 00:40:23,380 --> 00:40:28,280 The space station is so large, there are labels out here. 638 00:40:28,760 --> 00:40:34,120 with arrows that say airlock so that you know how to get home we'll see those 639 00:40:34,120 --> 00:40:38,220 because it because the last thing you want is to be so disoriented like i 640 00:40:38,220 --> 00:40:42,180 i'm not sure where i'm going and so we have basically how to get home arrows 641 00:40:42,180 --> 00:40:44,640 there Is it easy to get lost on the outside? 642 00:40:45,660 --> 00:40:50,860 It's very surprisingly easy to lose your orientation and not be sure, am I on 643 00:40:50,860 --> 00:40:52,200 top? Am I on bottom? 644 00:40:52,400 --> 00:40:56,940 Am I behind? Especially if it's dark and all you see are a couple of handrails. 645 00:40:57,980 --> 00:41:01,440 Right, and that's a good point to make because right now they're in sunlight. 646 00:41:01,440 --> 00:41:06,360 they time the walk to start with an ISS sunrise and then they've got 45 minutes 647 00:41:06,360 --> 00:41:09,660 before the sun goes down again and then this view will go dark and only be 648 00:41:09,660 --> 00:41:11,540 illuminated by their helmet light. 649 00:41:12,300 --> 00:41:14,400 There are a few external lights on the space station, yes. 650 00:41:15,080 --> 00:41:18,240 Let's have a listen to the downlink, if you can hear it. Pedal on the starboard 651 00:41:18,240 --> 00:41:24,720 seat of cart will initiate the release of the brake handle, which is believed 652 00:41:24,720 --> 00:41:28,800 on the starboard seat of cart to be the suspect that is preventing the movement 653 00:41:28,800 --> 00:41:29,880 of the mobile transporter. 654 00:41:31,340 --> 00:41:33,460 It's started moving forward now. 655 00:41:33,900 --> 00:41:35,040 Okay, we copy that. 656 00:41:35,840 --> 00:41:39,420 So they are at their destination now. They're there. Yep, they're working it. 657 00:41:39,500 --> 00:41:43,740 What they want to do is make sure that the brake is the problem and there's no 658 00:41:43,740 --> 00:41:44,780 other problem. 659 00:41:47,000 --> 00:41:51,880 I've got the fair lead on the major stanchion of the port spread on the 660 00:41:52,240 --> 00:41:55,960 Okay, copy that. Then you can go ahead and translate up to phase one, and 661 00:41:55,960 --> 00:42:01,300 looking for handrail 3523, which is in bay 02 for your green hook. 662 00:42:01,840 --> 00:42:06,420 So that's a very specific instruction, isn't it? So just not the handrail, a 663 00:42:06,420 --> 00:42:09,220 numbered handrail, and telling him where he's going to find it. I mean, how 664 00:42:09,220 --> 00:42:10,860 useful is that information to you when you're walking? 665 00:42:11,080 --> 00:42:12,080 Oh, it's critical. 666 00:42:12,500 --> 00:42:16,920 What they're instructing him to do is go to that handrail and take his safety 667 00:42:16,920 --> 00:42:22,060 tether and attach it to that handrail because in the whole choreography, they 668 00:42:22,060 --> 00:42:25,160 don't want to cross their tethers or get it caught up in anything else. 669 00:42:25,760 --> 00:42:29,340 So right now, Tim Peake is still in vehicle. I guess he's probably 670 00:42:29,340 --> 00:42:32,780 their progress. Oh, yeah, he's certainly monitoring what's going on, making sure 671 00:42:32,780 --> 00:42:37,040 that he understands where everybody is. But he has to be acutely aware of what's 672 00:42:37,040 --> 00:42:40,700 happening on the outside so that if anything happens, he's ready to jump 673 00:42:40,700 --> 00:42:42,600 action and receive them in the airlock again. 674 00:42:42,920 --> 00:42:46,320 And it sounds like they might just be about to get this cart moving. 675 00:42:46,580 --> 00:42:49,360 They've done everything they need to do on the seat of the cart, and it sounds 676 00:42:49,360 --> 00:42:51,920 like they're giving the go and getting out of the way so that the cart can 677 00:42:52,040 --> 00:42:55,320 They're going to get out of the way so that mission control can move. cart 678 00:42:55,320 --> 00:42:57,900 automatically from the ground so there's an instruction going to be issued from 679 00:42:57,900 --> 00:43:00,780 mission control and get that cart moving and we're going to give that next 680 00:43:00,780 --> 00:43:06,740 couple of minutes okay i'm ready for motion whenever tim and you guys are and 681 00:43:06,740 --> 00:43:12,380 i'm ready for motion too scott okay we're putting in the last command 682 00:43:12,380 --> 00:43:19,320 i see motion and we do see motion on the mobile transporter motion 683 00:43:19,320 --> 00:43:24,120 down here as well that's good that's good as well It's an inching tool. 684 00:43:24,440 --> 00:43:25,720 Yeah, very slowly. 685 00:43:27,100 --> 00:43:31,180 Okay, guys, good news. It appears to have reached the worksite center. 686 00:43:31,480 --> 00:43:34,820 So we are a go to continue. It's a big success. 687 00:43:35,300 --> 00:43:38,080 They couldn't be happier with how things went on this spacewalk show. 688 00:43:39,260 --> 00:43:44,040 I'm going to tell you to stop there for a second. Okay. 689 00:43:44,260 --> 00:43:45,840 Right when you get to that trunnion pin. 690 00:43:46,100 --> 00:43:47,100 Okay, we'll be right back. 691 00:43:47,629 --> 00:43:52,430 That's taking a picture of Tim Cobra. That's what he's doing. He saw a good 692 00:43:52,430 --> 00:43:55,650 picture, so he's setting up a picture. All right. So enough time for selfies. 693 00:43:56,070 --> 00:43:59,030 I think they're doing pretty well. 694 00:43:59,350 --> 00:44:00,390 That is remarkable. 695 00:44:00,590 --> 00:44:03,870 So the crews have got out of the airlock. They've got onto the bit of the 696 00:44:03,870 --> 00:44:04,870 station that was broken. 697 00:44:05,030 --> 00:44:08,170 They have got that break off. They've moved into place. 698 00:44:08,730 --> 00:44:12,150 Tiny fingers crossed to make sure that that couples into the power so they can 699 00:44:12,150 --> 00:44:13,150 move it again. 700 00:44:14,030 --> 00:44:16,450 But I think that they have. 701 00:44:17,379 --> 00:44:20,040 Literally, save, dismiss, and I think that's a round of applause. I believe it 702 00:44:20,040 --> 00:44:21,040 has. 703 00:44:32,520 --> 00:44:36,660 So exciting stuff, but only 15 people have ever flown for more than 200 704 00:44:36,660 --> 00:44:41,140 consecutive days in space. Two of them are in orbit right now. One of them is 705 00:44:41,140 --> 00:44:43,340 Scott Kelly, the guy on the right in this picture. 706 00:44:43,580 --> 00:44:47,900 And he's trying to work out the effects of space on the human body to prepare us 707 00:44:47,900 --> 00:44:50,100 for that next great leap into space. 708 00:44:50,560 --> 00:44:53,480 And he's pretty good in space. You can see he's very comfortable. 709 00:44:53,780 --> 00:44:54,780 He's all there. 710 00:44:55,340 --> 00:44:59,880 But he is still trying to find out. 711 00:45:00,240 --> 00:45:04,780 how survive for longer and longer. That's the goal of this one -year 712 00:45:05,700 --> 00:45:09,420 Now, right there, you can see him on the space gym. He has to spend a couple of 713 00:45:09,420 --> 00:45:12,760 hours a day on that just to preserve his muscles and his bone and trying to 714 00:45:12,760 --> 00:45:16,940 preserve his heart, because otherwise he comes back like a big, fat couch 715 00:45:16,940 --> 00:45:17,940 potato. 716 00:45:18,940 --> 00:45:23,040 And the problems that you have because of weightlessness, you can avoid if you 717 00:45:23,040 --> 00:45:26,540 do with gravity what we do with our lights, our heat. 718 00:45:27,040 --> 00:45:34,040 Our sources of power, our drink, and our food. And that is, take gravity with 719 00:45:34,040 --> 00:45:37,320 you. Now, that's not as sci -fi as it sounds. 720 00:45:37,560 --> 00:45:43,780 That's easier said than done. All you need to do is to make use of a bit of 721 00:45:43,780 --> 00:45:48,620 circular motion, a bit of centripetal acceleration, and a bit of centrifugal 722 00:45:48,620 --> 00:45:50,500 force. We've got four astronauts on this mission. 723 00:45:50,960 --> 00:45:52,540 Are you nervous? 724 00:45:53,620 --> 00:45:58,660 No? you really really should be um this didn't go well in rehearsals here we go 725 00:45:58,660 --> 00:46:05,460 okay and there we go on our space mission oh my gosh 726 00:46:05,460 --> 00:46:06,320 okay oh 727 00:46:06,320 --> 00:46:14,260 so 728 00:46:14,260 --> 00:46:18,740 that was another partial success i think um but but you get the point if you can 729 00:46:18,740 --> 00:46:23,430 spin something fast enough and hard enough you can create um It's not 730 00:46:23,430 --> 00:46:27,050 gravity, really, actually. This is acceleration, and acceleration and 731 00:46:27,250 --> 00:46:29,110 Einstein told us, are equivalent. 732 00:46:29,610 --> 00:46:34,550 So this is gravity, really, in a sense, when we spin the vehicle. But here's the 733 00:46:34,550 --> 00:46:35,550 problem. 734 00:46:36,090 --> 00:46:40,890 To get a lot of gravity, if your circle is small, you need to spin very, very 735 00:46:40,890 --> 00:46:41,890 fast. 736 00:46:42,410 --> 00:46:47,660 And the only way of producing adequate gravity and not spinning fast... and not 737 00:46:47,660 --> 00:46:51,120 making yourself horribly, horribly dizzy, is to spin something big. 738 00:46:51,380 --> 00:46:54,680 Now, bizarrely, NASA have done those experiments. 739 00:46:54,940 --> 00:46:58,320 When you look up on the screen, we can see some experiments. When we get this 740 00:46:58,320 --> 00:47:03,360 mess cleaned up, we can see some... I think this is from the 1960s. This is 741 00:47:03,360 --> 00:47:09,580 trying to work out how big a radius and how fast you can spin people to get them 742 00:47:09,580 --> 00:47:10,580 to tolerate... 743 00:47:11,660 --> 00:47:15,960 rotational vehicle so that you can create artificial gravity. Now this 744 00:47:15,960 --> 00:47:20,220 been suspended by the crane above him on his side and he's walking around this 745 00:47:20,220 --> 00:47:24,160 rotating structure and what they found when they did lots of these experiments 746 00:47:24,160 --> 00:47:29,220 is that everyone gets busy at a point but some people, there are some rates of 747 00:47:29,220 --> 00:47:33,700 rotation that everyone can manage to cope with and 748 00:47:35,460 --> 00:47:40,700 That rate of rotation is four revolutions a minute. No matter how bad 749 00:47:40,700 --> 00:47:45,340 a fairground ride, after a certain amount of time, you can all manage four 750 00:47:45,340 --> 00:47:46,340 revolutions a minute. 751 00:47:46,980 --> 00:47:50,720 Okay, so if that's your limiting factor, if you have to spin the vehicle at four 752 00:47:50,720 --> 00:47:55,840 revolutions a minute, and you want to make one g of load in that vehicle, then 753 00:47:55,840 --> 00:48:00,220 how big does your vehicle need to be? And I'm going to save you the math. 754 00:48:00,510 --> 00:48:06,030 here, because the answer is a vehicle with a rotating radius of about 62 .5 755 00:48:06,030 --> 00:48:11,450 meters. Now, how big is that? It is actually exactly the same size, almost 756 00:48:11,450 --> 00:48:13,330 exactly the same size, as the London Eye. 757 00:48:13,710 --> 00:48:16,190 Now, who's ever ridden in the London Eye? 758 00:48:16,450 --> 00:48:20,130 Okay, it does not go around four times a minute. If you're on it, and it goes 759 00:48:20,130 --> 00:48:23,050 around four times a minute, try and get off, because it's going wrong. 760 00:48:23,430 --> 00:48:26,490 But we can make it turn at four revolutions per minute. 761 00:48:26,940 --> 00:48:29,780 And that's what it looks like going around at four revolutions per minute. 762 00:48:30,180 --> 00:48:32,320 All the people on it that day wanted their money back. 763 00:48:32,920 --> 00:48:37,000 But if this was your space vehicle going through space, turning at that sort of 764 00:48:37,000 --> 00:48:40,260 rate, then the people in the pods wouldn't be standing on the floors, 765 00:48:40,260 --> 00:48:43,780 on the edges, being able to stand up, because there'd be 1g of load. 766 00:48:44,220 --> 00:48:47,340 1g is the force of gravity we have here on Earth. That's great. 767 00:48:48,360 --> 00:48:53,850 But that's... London Eye is as big a cross as the Space Station is long, and 768 00:48:53,850 --> 00:48:57,170 takes a lot of effort to build that. It took 15 years to build Space Station. 769 00:48:57,370 --> 00:49:01,610 And sending vehicles like that to Mars is a huge, huge engineering challenge. 770 00:49:02,090 --> 00:49:04,390 So what other option do you have? 771 00:49:05,150 --> 00:49:10,770 Well, when I worked with NASA in 2007, I was part of an experiment to answer 772 00:49:10,770 --> 00:49:11,569 that question. 773 00:49:11,570 --> 00:49:15,170 And we thought, what if you could get a centrifuge? 774 00:49:15,450 --> 00:49:19,150 that you could fit inside an ordinary vehicle. So inside a module that looks 775 00:49:19,150 --> 00:49:22,830 rather like that, so as big as that, that you could send up into space on an 776 00:49:22,830 --> 00:49:28,010 ordinary rocket, and you could spin something quite fast to generate 777 00:49:28,010 --> 00:49:31,390 gravity. And you can do that. You can get a centrifuge that would almost fit 778 00:49:31,390 --> 00:49:33,750 the floor here, and I think we've got some footage of that. 779 00:49:34,570 --> 00:49:39,190 This is the short radius centrifuge in Houston. That is my former mentor at 780 00:49:39,190 --> 00:49:43,770 NASA, now the director of life sciences, director at Johnson Space Center. He's 781 00:49:43,770 --> 00:49:46,990 got his eyes closed because I don't think he really likes being on it very 782 00:49:47,070 --> 00:49:52,270 Now you say, that's going to be rubbish, flying to Mars, spinning on that all 783 00:49:52,270 --> 00:49:57,230 day. But here's the kicker. You don't have to spin on it all day. If you spin 784 00:49:57,230 --> 00:50:01,510 really fast, if you spin fast enough to give you more than one G of load, then 785 00:50:01,510 --> 00:50:05,970 you can give gravity like you would give the dose of a drug. And you can take 786 00:50:05,970 --> 00:50:11,750 that gravity dose twice a day for one hour in the morning, one hour in the 787 00:50:11,750 --> 00:50:15,710 afternoon, and that is enough to provide quite a lot of protection. 788 00:50:16,810 --> 00:50:20,390 The absence of gravity, which has been your enemy all along... 789 00:50:21,280 --> 00:50:25,500 isn't a problem. Actually, when gravity returns, it is your enemy. 790 00:50:25,760 --> 00:50:31,620 And to get safely onto the surface of Mars, you need to be able to stop. 791 00:50:32,760 --> 00:50:36,580 And there's one thing that rocket scientists will tell you, and that is 792 00:50:36,580 --> 00:50:42,140 hardest two things in all of rocket science are starting and stopping again. 793 00:50:42,960 --> 00:50:48,920 And so I thought we should bring on an expert in stopping when you get to Mars. 794 00:50:49,140 --> 00:50:55,520 So it's my great, great pleasure to welcome our very special guest, an 795 00:50:55,520 --> 00:51:02,500 from the Jet Propulsion Laboratory in Pasadena, and one of the lead engineers 796 00:51:02,500 --> 00:51:04,740 the Mars Curiosity rover, Dr. 797 00:51:05,040 --> 00:51:06,740 Anita Sengupta. 798 00:51:15,609 --> 00:51:20,110 Now, Anita, come and give us a hand here. You've got you two. Yeah, yeah. 799 00:51:20,110 --> 00:51:22,890 and give us a hand. Stretch this out. What have you got here? 800 00:51:23,410 --> 00:51:27,350 This is a diskette -band parachute, and it's specially used on Mars. And the 801 00:51:27,350 --> 00:51:30,610 reason for that is on Mars, when you enter the atmosphere, you're coming in 802 00:51:30,610 --> 00:51:34,250 very, very fast speeds. And specifically, when you deploy the 803 00:51:34,250 --> 00:51:35,550 coming in at supersonic speeds. 804 00:51:36,070 --> 00:51:40,170 I'm experiencing all sorts of dynamic instabilities here with this parachute. 805 00:51:40,780 --> 00:51:44,440 Have we got a working version of this? We do, actually. So we have one which is 806 00:51:44,440 --> 00:51:48,320 a subscale version. It represents about 3 % of the scale that we used on Mars, 807 00:51:48,480 --> 00:51:51,940 which we can show you now. Okay, all right. So we're going to count in, and 808 00:51:51,940 --> 00:51:54,080 we're going to release the parachute, okay? Ready, everyone together. 809 00:51:54,600 --> 00:51:56,640 Three, two, one. 810 00:51:58,800 --> 00:52:00,320 Ooh. And there it goes. 811 00:52:01,040 --> 00:52:02,040 Whoa. 812 00:52:03,720 --> 00:52:04,720 Pull back. 813 00:52:08,940 --> 00:52:10,020 It's very impressive. 814 00:52:10,520 --> 00:52:11,660 It is, and it's very lightweight. 815 00:52:11,900 --> 00:52:14,740 And so what's so unique about these parachutes is they weigh almost nothing, 816 00:52:14,740 --> 00:52:15,740 they're incredibly strong. 817 00:52:15,840 --> 00:52:19,400 And so for reference, the parachute that we used for Curiosity, it weighed only 818 00:52:19,400 --> 00:52:23,660 about 100 pounds, but it actually had to withstand a total load on it of about 819 00:52:23,660 --> 00:52:25,840 65 ,000 pounds of force. 820 00:52:26,240 --> 00:52:29,520 Well, I love that, and it's a very interesting design. 821 00:52:30,640 --> 00:52:34,460 But I still don't get what the fuss was stopping at Mars. We stop at Earth all 822 00:52:34,460 --> 00:52:35,460 the time. 823 00:52:35,820 --> 00:52:39,740 You've got some video here, actually, of what it was like to stop at Mars. You 824 00:52:39,740 --> 00:52:43,300 were one of the lead engineers for this, the Mars Curiosity rover, which was 825 00:52:43,300 --> 00:52:44,300 fantastic. 826 00:52:44,660 --> 00:52:47,500 This is the size of a Volkswagen Beetle that's been coming into Mars' 827 00:52:47,640 --> 00:52:50,280 atmosphere. Tell us what's happening here. At this point, we're at hypersonic 828 00:52:50,280 --> 00:52:53,640 flow. We've slowed down to around 1 ,000 miles an hour, and then the parachute 829 00:52:53,640 --> 00:52:56,920 deploys at Mach 2, two times the speed of sound, around 900 miles an hour. 830 00:52:57,380 --> 00:52:59,460 It continues to slow down to subsonic speeds. 831 00:52:59,980 --> 00:53:02,640 At that point, it's actually reached terminal velocity, so you can't go any 832 00:53:02,640 --> 00:53:06,540 slower. So you basically cut the parachute away. Then the rover is in 833 00:53:06,700 --> 00:53:07,760 descending towards the surface. 834 00:53:07,980 --> 00:53:12,100 At this point, it turns on a total of eight main landing engines, eight 835 00:53:12,100 --> 00:53:15,960 firing towards the ground to slow it down even further. And so that gets it 836 00:53:15,960 --> 00:53:19,840 to around 200 miles an hour. As you approach the surface, we start something 837 00:53:19,840 --> 00:53:22,980 very unique, which is called the sky crane maneuver. This is the first time 838 00:53:22,980 --> 00:53:24,200 we've ever done this on Mars. 839 00:53:24,400 --> 00:53:28,200 And what we do is we start to lower the rover on a series of three tethers. 840 00:53:29,200 --> 00:53:32,580 we do this is we actually make the rover the actual landed platform. 841 00:53:32,960 --> 00:53:37,200 And it allows us to have those big, powerful engines firing towards the 842 00:53:37,260 --> 00:53:40,220 but at a safer distance away from the rover and away from the surface. 843 00:53:40,440 --> 00:53:42,160 Those three tethers then cut away. 844 00:53:42,360 --> 00:53:46,560 That little rocket ship flies off 45 degrees to the side, crash lands, its 845 00:53:46,560 --> 00:53:50,900 mission is over, and now the rover is safely on the surface of Mars. Wow. 846 00:53:50,900 --> 00:53:51,900 amazing. 847 00:53:54,030 --> 00:53:57,370 I've ran down the coolest landing I have ever seen. 848 00:53:57,710 --> 00:54:00,170 But this parachute, why does it have the gap? 849 00:54:00,490 --> 00:54:04,970 It has the gap because it experiences something called a supersonic 850 00:54:05,570 --> 00:54:09,590 So what you saw as it descended towards the ceiling was actually in subsonic 851 00:54:09,590 --> 00:54:13,290 flow. So in subsonic flow, the parachute is relatively stable. But in supersonic 852 00:54:13,290 --> 00:54:14,910 flow, things look entirely different. 853 00:54:15,110 --> 00:54:18,630 And so we have a video that we can show you, which actually has the parachute 854 00:54:18,630 --> 00:54:20,430 deploying at 2 .7. 855 00:54:21,689 --> 00:54:25,370 Which is almost three times the speed of sound. And what you can see is that it 856 00:54:25,370 --> 00:54:27,310 collapses and inflates like a jellyfish. 857 00:54:27,510 --> 00:54:30,450 And so we don't want it to do that. But unfortunately on Mars, that's what it 858 00:54:30,450 --> 00:54:34,170 does. And when that happens, you can actually cause the parachute to produce 859 00:54:34,170 --> 00:54:37,770 less aerodynamic drag, which is what slows you down. It can actually damage 860 00:54:37,770 --> 00:54:38,870 parachute and make it fall apart. 861 00:54:39,110 --> 00:54:42,450 And so we were really concerned about this with the Curiosity rover because it 862 00:54:42,450 --> 00:54:45,490 was the largest parachute we'd ever built. And it also was deploying at the 863 00:54:45,490 --> 00:54:48,850 highest Mach number that we've ever deployed at. That is incredible. So the 864 00:54:48,850 --> 00:54:50,470 allows it not to fall apart. 865 00:54:50,760 --> 00:54:52,800 as it opens. This is absolutely fantastic. 866 00:54:53,220 --> 00:54:55,960 Anita, I'm going to give you your parachute back because I think you might 867 00:54:55,960 --> 00:54:58,340 to use it. Again, Anita, thank you to everybody. 868 00:55:04,660 --> 00:55:11,420 So we can get there in one piece. We can stop using one of Anita's 869 00:55:11,420 --> 00:55:12,660 incredible systems. 870 00:55:13,680 --> 00:55:14,680 And then we're there. 871 00:55:15,400 --> 00:55:18,500 And up on the screen now, you can see a picture. 872 00:55:19,070 --> 00:55:22,450 of one of the places in Mars that I would like to visit. This is the very 873 00:55:22,450 --> 00:55:29,400 beautiful... dappled uh center of victoria crater that crater uh is a real 874 00:55:29,400 --> 00:55:35,580 picture it's 780 meters across it's been visited by the automatic rovers that 875 00:55:35,580 --> 00:55:40,000 have been the really the pathfinder missions for our future human 876 00:55:40,000 --> 00:55:46,600 and we've peered into that crater in its walls uh sedimentary rocks layered and 877 00:55:46,600 --> 00:55:50,640 layers of rock that tell us about the history of mars there is still So much 878 00:55:50,640 --> 00:55:53,060 left to explore, but we remain confident. 879 00:55:53,420 --> 00:55:58,260 So much so that we've begun to think about the way we would get home from 880 00:55:58,560 --> 00:56:04,360 Now, there's a way of lightening your packing load here by using what you've 881 00:56:04,360 --> 00:56:05,960 all around you on Mars. 882 00:56:06,300 --> 00:56:13,120 And that carbon dioxide, Mars' atmosphere, is about 99 % carbon 883 00:56:13,120 --> 00:56:17,780 dioxide. And you can use that. It brings you some very important things, carbon 884 00:56:17,780 --> 00:56:18,780 and oxygen. 885 00:56:19,130 --> 00:56:23,050 And if you bring a little bit of hydrogen along with you, and it turns 886 00:56:23,050 --> 00:56:27,870 that's quite easy to do, then you can make some useful materials with 887 00:56:27,870 --> 00:56:29,470 called a Sabatier reaction. 888 00:56:29,770 --> 00:56:36,710 Now, in a Sabatier reaction, you can combine hydrogen and carbon dioxide, and 889 00:56:36,710 --> 00:56:39,170 the product is methane and oxygen. 890 00:56:39,630 --> 00:56:44,030 And that is enough to make some rocket fuel. Now, you don't usually think of 891 00:56:44,030 --> 00:56:46,850 methane as being something that can propel... 892 00:56:47,390 --> 00:56:50,330 people and objects into space, so I'm going to show you. 893 00:56:51,110 --> 00:56:54,110 Andy, goggle time. I think front row goggle time. 894 00:56:54,410 --> 00:56:59,770 Good. All right. I know you think of methane as being a bit of a comedy gas 895 00:56:59,770 --> 00:57:04,610 cows fart out, but actually, it can propel rockets. 896 00:57:04,990 --> 00:57:10,210 Now, Andy's going to like this one, because there's a trick to it, and he 897 00:57:10,210 --> 00:57:14,930 it has a more... He technically described it earlier on as a more flamey 898 00:57:15,710 --> 00:57:16,710 So... 899 00:57:16,880 --> 00:57:17,880 This is methane. 900 00:57:34,020 --> 00:57:40,900 We are on our way home and there's just time for Tim 901 00:57:40,900 --> 00:57:43,120 to say a final goodbye. 902 00:57:43,940 --> 00:57:45,980 So it's been great talking to everybody. 903 00:57:46,620 --> 00:57:49,860 at the Royal Institute Christmas Lectures from the International Space 904 00:57:50,100 --> 00:57:53,900 I'm sorry I couldn't be with you in person, but I certainly think that I've 905 00:57:53,900 --> 00:57:58,400 the most privileged position to be here on board at the moment and looking down 906 00:57:58,400 --> 00:58:02,440 on the beautiful planet Earth. So to everybody back there, goodbye. 907 00:58:04,260 --> 00:58:07,420 Thank you all for sharing in Tim's adventure. 908 00:58:08,000 --> 00:58:09,920 But what you've seen here... 909 00:58:10,320 --> 00:58:14,740 has been the adventure of our lives. These are the people who make not just 910 00:58:14,740 --> 00:58:18,540 Tim's mission happen, but all of science happen. 911 00:58:19,060 --> 00:58:25,680 This has been our adventure and it will be yours and yours and 912 00:58:25,680 --> 00:58:32,220 yours and yours and yours. This is the adventure of your generation 913 00:58:32,220 --> 00:58:35,460 and it's time you started it. 914 00:58:35,740 --> 00:58:36,740 Thank you. 83578