Would you like to inspect the original subtitles? These are the user uploaded subtitles that are being translated: 1 00:00:03,649 --> 00:00:06,710 I'm a doctor and I work in some pretty extreme environments. 2 00:00:06,970 --> 00:00:11,190 But I also work with NASA trying to keep astronauts healthy in the most extreme 3 00:00:11,190 --> 00:00:12,250 environments of all. 4 00:00:12,790 --> 00:00:17,210 If we want to explore the cosmos, then we're going to have to learn how to 5 00:00:17,210 --> 00:00:18,370 survive in space. 6 00:01:03,660 --> 00:01:05,260 Thank you. Sorry I'm late. 7 00:01:05,500 --> 00:01:08,560 I had to hitch a ride with some friends to beat the traffic. 8 00:01:08,860 --> 00:01:15,240 Welcome to the 2015 Christmas Lectures. This year's theme is how to keep 9 00:01:15,240 --> 00:01:18,180 astronauts like Tim Peake alive in space. 10 00:01:18,840 --> 00:01:20,420 So let's start at the very beginning. 11 00:01:20,640 --> 00:01:27,180 If you're going to survive being in space, you've first got to survive 12 00:01:27,180 --> 00:01:31,940 to space, which means surviving something that feels a bit like... 13 00:01:48,030 --> 00:01:54,250 Now that was just a balloon filled with some hydrogen and oxygen and that's just 14 00:01:54,250 --> 00:01:58,910 a tiny fraction of the energy it takes to hurl people and objects into space 15 00:01:58,910 --> 00:02:00,050 that's the truth of this endeavor. 16 00:02:00,330 --> 00:02:01,330 It's at the limit. 17 00:02:01,820 --> 00:02:02,820 of all our capability. 18 00:02:03,400 --> 00:02:07,540 It takes the edge of everything we have in science, technology and engineering 19 00:02:07,540 --> 00:02:09,520 to make that happen. 20 00:02:10,120 --> 00:02:13,120 Now, when I was a doctor and I used to work with NASA, I thought there'd be 21 00:02:13,120 --> 00:02:14,960 plenty for me to do on my own. 22 00:02:15,300 --> 00:02:20,560 But, in fact, you need an army of thousands, if not tens of thousands of 23 00:02:20,560 --> 00:02:23,980 to protect these crews as they go about their business. 24 00:02:24,520 --> 00:02:28,240 And perhaps the most amazing thing of all is that there are people who are 25 00:02:28,240 --> 00:02:31,060 prepared to ride fireballs like that. 26 00:02:31,560 --> 00:02:37,880 One in particular, and his name is Tim Peake, the first British astronaut for 27 00:02:37,880 --> 00:02:43,000 years. It's been a quarter of a century since our first British astronaut, Helen 28 00:02:43,000 --> 00:02:44,220 Sharman, went into space. 29 00:02:44,720 --> 00:02:50,520 And now we have Tim aboard the space station, and he's been super busy, but 30 00:02:50,520 --> 00:02:54,600 taken the time to send us here at the Royal Institution a very special 31 00:02:54,720 --> 00:02:55,940 and we'll have a look at that now. 32 00:02:57,420 --> 00:03:00,820 Hi, Kevin, and hello to everybody in the audience at the Royal Institution 33 00:03:00,820 --> 00:03:01,820 Christmas Lectures. 34 00:03:02,080 --> 00:03:06,200 I'm Tim Peake, and by the time you see this message, I'll be 400 kilometres 35 00:03:06,200 --> 00:03:09,160 above the Earth's surface on the International Space Station. 36 00:03:09,480 --> 00:03:14,160 We've learnt an awful lot about human spaceflight since 1961, but we still 37 00:03:14,160 --> 00:03:15,600 a huge amount yet to learn. 38 00:03:15,880 --> 00:03:19,700 That's why I'm really excited and delighted that the topic of this year's 39 00:03:19,700 --> 00:03:23,100 Institution Christmas Lectures is all about living and working in space. 40 00:03:24,200 --> 00:03:26,520 So, I'd just better get changed, really. 41 00:03:27,160 --> 00:03:28,400 something a bit more appropriate. 42 00:03:28,960 --> 00:03:32,520 So, right up here, this is our mission control. We're getting live information 43 00:03:32,520 --> 00:03:35,880 from the space station. You can see some very beautiful pictures there. 44 00:03:36,120 --> 00:03:37,800 Who saw Tim Peake's launch? 45 00:03:38,700 --> 00:03:41,340 I watched it. I try to go to a launch whenever I can. 46 00:03:41,600 --> 00:03:44,460 Unfortunately, I couldn't get to Tim's launch because I was here. 47 00:03:44,960 --> 00:03:45,960 preparing for these lectures. 48 00:03:45,980 --> 00:03:50,800 So I had sent someone in my stead, and that was possibly the only person on the 49 00:03:50,800 --> 00:03:55,560 planet who's more excited than me about launching things into space, and that is 50 00:03:55,560 --> 00:03:58,900 planetary scientist Professor Monica Grady. 51 00:03:59,380 --> 00:04:00,299 Hi, Kevin. 52 00:04:00,300 --> 00:04:03,280 Hi, people back at the Royal Institution Lecture Theatre. 53 00:04:03,700 --> 00:04:04,659 It's coming. 54 00:04:04,660 --> 00:04:07,320 Here it is. You can see it. Here it is. 55 00:04:08,410 --> 00:04:12,630 It's a rocket, the Soyuz rocket that Tim Peake's going to get into. We're here 56 00:04:12,630 --> 00:04:17,490 in Baikonur, a really, really historic place. It's the place where Yuri Gagarin 57 00:04:17,490 --> 00:04:19,829 set off from, the first man in space. 58 00:04:20,170 --> 00:04:22,550 The boosters are just going past now. 59 00:04:22,850 --> 00:04:27,470 We've got the bit where all the fuel tanks are and then the little pod 60 00:04:27,470 --> 00:04:29,030 where the astronauts will be. 61 00:04:29,290 --> 00:04:33,190 It travels a lot faster than I thought it was going to be. Sorry, I know Alex 62 00:04:33,190 --> 00:04:36,810 filming me, but I'm going to take a picture as well because I want to record 63 00:04:36,810 --> 00:04:40,720 this. Kevin, I'm really, really sorry you can't be here. 64 00:04:41,080 --> 00:04:46,700 Honest. Thank you for giving me the opportunity to come and share this 65 00:04:47,040 --> 00:04:52,860 exciting atmosphere with you because it's a historic moment. So I guess I'll 66 00:04:52,860 --> 00:04:55,560 sign off and see you then. Bye. 67 00:05:03,640 --> 00:05:08,060 She's very excitable, that Professor Grady, isn't she? But she's got a right 68 00:05:08,060 --> 00:05:12,480 be excited. It is exciting, but it's also very, very lethal. 69 00:05:12,740 --> 00:05:18,300 And to help explain why, I'm going to need at least two volunteers here. 70 00:05:19,120 --> 00:05:20,360 Okay, let's go. 71 00:05:20,860 --> 00:05:22,520 Up here, let's have you. 72 00:05:23,520 --> 00:05:26,380 And how about you here? 73 00:05:26,600 --> 00:05:28,900 Okay, come down and down here. 74 00:05:42,130 --> 00:05:46,650 I'm going to turn you into rocket launchers. 75 00:05:46,850 --> 00:05:49,970 And I know you don't immediately believe me, but I really am. So we're going to 76 00:05:49,970 --> 00:05:54,090 stand behind our rocket, which looks specifically like a sandbag. Fred, if 77 00:05:54,090 --> 00:05:55,090 stand here behind this one. 78 00:05:55,110 --> 00:05:59,070 Adam, if you stand here. Okay, so first of all, prepare your rocket launcher. 79 00:05:59,370 --> 00:06:00,690 Your right hand like this. 80 00:06:01,100 --> 00:06:06,880 Good. Okay. Now what I want you to do when I say go is to chuck this bag as 81 00:06:06,880 --> 00:06:10,840 across there as you can. Try not to hit the front row over there or the 82 00:06:10,840 --> 00:06:13,940 cameraman. All right. Ready, Adam? So we're going to count you in, everyone. 83 00:06:14,620 --> 00:06:17,300 Three, two, one, go. 84 00:06:18,400 --> 00:06:21,900 Okay. It's a pretty heavy bag, isn't it? Okay, Fred, let's see if you can get a 85 00:06:21,900 --> 00:06:23,900 bit further. Ready? You're a bit lighter, actually. 86 00:06:24,100 --> 00:06:27,080 Three, two, one, go. 87 00:06:29,110 --> 00:06:30,190 Very, very impressive. 88 00:06:34,990 --> 00:06:41,930 Now, look, I told you I'd turn you into rocket 89 00:06:41,930 --> 00:06:45,330 launchers, and you may have expected those to go into orbit. They were trying 90 00:06:45,330 --> 00:06:46,249 go into orbit. 91 00:06:46,250 --> 00:06:49,590 Everything you throw, it turns out, wants to go into an orbit. 92 00:06:49,790 --> 00:06:55,130 It's just that the Earth gets in the way. Now, when you threw your bag, Adam, 93 00:06:55,130 --> 00:06:56,830 came and it landed here. 94 00:06:57,470 --> 00:07:01,090 Fred, when you threw yours a little bit harder, shallower arc, further, and 95 00:07:01,090 --> 00:07:03,970 landed here, they would have gone in orbit around the center of mass of the 96 00:07:03,970 --> 00:07:05,870 Earth, but the Earth just got in the way. 97 00:07:06,370 --> 00:07:11,890 And this is something that someone realized a long time ago. Fred, Adam, 98 00:07:11,890 --> 00:07:13,610 you so much for your help. Why don't you go back just a little bit? 99 00:07:17,410 --> 00:07:21,570 So what scientists realized more than 300 years ago, and one scientist in 100 00:07:21,570 --> 00:07:26,150 particular, was that if you could throw something hard enough, it would travel. 101 00:07:26,680 --> 00:07:30,900 in a long enough and shallow enough arc that it would fall and never again hit 102 00:07:30,900 --> 00:07:36,000 the planet, and it would fall forever around the Earth, and that's what an 103 00:07:36,000 --> 00:07:41,380 is. If you take something instead of your arm, you take a cannon, as we have 104 00:07:41,380 --> 00:07:44,900 this diagram here, you can imagine that might have been Adam's throw, that might 105 00:07:44,900 --> 00:07:48,980 have been Fred's throw, and that is a proper rocket launcher getting you all 106 00:07:48,980 --> 00:07:50,900 way around the Earth and into orbit. 107 00:07:51,820 --> 00:07:56,860 And it's incredible, I think, to me, that more than three centuries ago, A 108 00:07:56,860 --> 00:08:01,400 scientist could have had the kernel of thought that would get people and 109 00:08:01,400 --> 00:08:04,620 into space so many, many centuries later. 110 00:08:05,680 --> 00:08:08,620 That scientist, of course, was Sir Isaac Newton. 111 00:08:08,880 --> 00:08:12,740 And we know what he thought because he wrote that stuff down in a book, 112 00:08:12,740 --> 00:08:17,360 the most important, or at least one of the most important books in the history 113 00:08:17,360 --> 00:08:18,360 of science. 114 00:08:18,720 --> 00:08:22,600 And that book was called Principia. 115 00:08:23,560 --> 00:08:28,710 Principia, with no coincidence... is the name of tim's mission this is the patch 116 00:08:28,710 --> 00:08:32,450 he wears on him at all times during this mission and it's named after that very 117 00:08:32,450 --> 00:08:36,669 important book and we here at the royal institution are extraordinarily lucky 118 00:08:36,669 --> 00:08:41,830 because we have one of the very early editions of that book and to help me 119 00:08:41,830 --> 00:08:45,570 it to you i'd like to introduce our curator charlotte 120 00:08:56,400 --> 00:08:59,440 Now, Charlotte, this is... How old is this book? 121 00:09:00,260 --> 00:09:04,920 1713. It comes back to 1713. And this is Principia. It's the second edition of 122 00:09:04,920 --> 00:09:09,940 that textbook. So this is Newton laying down his thoughts about how people and 123 00:09:09,940 --> 00:09:13,300 objects in the world behave and the laws of motion. 124 00:09:14,090 --> 00:09:18,310 if you just come in here phil and take a look at this this is a page from that 125 00:09:18,310 --> 00:09:21,770 book i have to wash my hands before i touch it otherwise i'll damage it may i 126 00:09:21,770 --> 00:09:26,410 take it it is very beautiful we're very privileged to have it and if you can see 127 00:09:26,410 --> 00:09:31,750 there it is written in a language other than english is latin as all academic 128 00:09:31,750 --> 00:09:37,750 texts of the time uh were written uh and i don't speak any latin but i am 129 00:09:37,750 --> 00:09:43,770 reliably informed at this page is uh the three laws of motion and if you take 130 00:09:43,770 --> 00:09:50,530 your eyes down here to lex three or lex trey uh that is newton's third law of 131 00:09:50,530 --> 00:09:54,670 motion and i know because you all pay attention at school that you know that 132 00:09:54,670 --> 00:10:00,650 newton's third law of motion is for every action there is an equal and 133 00:10:00,650 --> 00:10:01,650 reaction. 134 00:10:02,390 --> 00:10:03,390 Okay. 135 00:10:10,970 --> 00:10:15,890 So, I've always wanted to do that. That's possibly the only circumstance in 136 00:10:15,890 --> 00:10:18,710 which it's acceptable to use fire extinguishers in that way. 137 00:10:20,670 --> 00:10:22,370 Don't do that. Really don't. 138 00:10:22,770 --> 00:10:25,890 So, Newton told us... 139 00:10:26,120 --> 00:10:30,160 over 300 years ago that what we need to do if we want to go into space is one, 140 00:10:30,280 --> 00:10:35,480 throw something really, really hard and two, throw something that way so you can 141 00:10:35,480 --> 00:10:38,300 propel your vehicle and your crew in that direction. 142 00:10:38,580 --> 00:10:41,420 And the question here is what is it that you throw? 143 00:10:41,860 --> 00:10:45,960 And the answer is fuel out of a rocket. 144 00:10:46,960 --> 00:10:50,840 And rocket fuel is extraordinarily dangerous. 145 00:10:51,400 --> 00:10:54,360 But we've managed to get some. This is rocket fuel. This is real rocket fuel. 146 00:10:55,120 --> 00:10:58,360 And it's pretty explosive. Have a quick smell of that. 147 00:10:58,600 --> 00:10:59,600 Rocket fuel. 148 00:11:01,280 --> 00:11:02,280 Rocket fuel. 149 00:11:02,380 --> 00:11:03,380 Have a smell. 150 00:11:03,820 --> 00:11:08,520 Okay, so very, very dangerous. Rocket fuel. So this stuff, long chains of 151 00:11:08,520 --> 00:11:12,920 carbon, atoms, and hydrogen join together. And the energy between those 152 00:11:13,040 --> 00:11:14,380 you let go. Oh, yeah. 153 00:11:15,160 --> 00:11:20,560 Before you make it become the stuff that sends people and objects. 154 00:11:20,990 --> 00:11:21,990 into space. 155 00:11:22,130 --> 00:11:27,550 Rocket fuel is the sort of stuff that, you know, if you're around when it goes 156 00:11:27,550 --> 00:11:29,770 wrong, you tend to not be around for much longer. 157 00:11:30,150 --> 00:11:31,210 So, you alright? 158 00:11:32,110 --> 00:11:33,510 Ready? Here we go. 159 00:11:34,570 --> 00:11:38,890 Ooh, better stamp that one out. Okay, okay, okay, okay. We'll go again, we'll 160 00:11:38,890 --> 00:11:41,230 again, we'll go again, we'll go again. Okay, okay, okay. Here we go. 161 00:11:42,430 --> 00:11:43,430 Okay. 162 00:11:43,830 --> 00:11:50,020 Alright, so, of course, I was happy to do that, because of course, This stuff 163 00:11:50,020 --> 00:11:53,780 engineered to be safe under these circumstances. That's what you want out 164 00:11:53,780 --> 00:11:54,779 your rocket fuel. 165 00:11:54,780 --> 00:11:58,200 That's a very vital part of Tim's survival in space. 166 00:11:58,740 --> 00:12:02,320 This is what you want rocket fuel to do. You want it to be safe on the pad under 167 00:12:02,320 --> 00:12:06,560 these conditions before you light it and let it be everything it can be, before 168 00:12:06,560 --> 00:12:08,360 you let it liberate all of its energy. 169 00:12:10,350 --> 00:12:13,490 It is engineered very specifically to do that. What they do is they take 170 00:12:13,490 --> 00:12:16,210 kerosene, they refine it very carefully, they take out some of the lighter 171 00:12:16,210 --> 00:12:20,090 fractions, some of the shorter chain molecules, so it's not so volatile. 172 00:12:20,390 --> 00:12:23,030 So it means that I can't get it going like that. 173 00:12:23,390 --> 00:12:30,030 Now, the question is, what can I do to make that be everything it can be and 174 00:12:30,030 --> 00:12:31,810 release its chemical potential? 175 00:12:32,350 --> 00:12:36,090 And I am not going to try and light rocket fuel here. Don't ever do this, by 176 00:12:36,090 --> 00:12:37,090 way, with any... 177 00:12:37,200 --> 00:12:42,580 Any fuel that you might find around you, by the way, in the house, petrol, chip 178 00:12:42,580 --> 00:12:45,580 fat, it will ruin your entire day. 179 00:12:46,300 --> 00:12:49,640 We're going to do this demonstration with a fuel that's slightly more gentle, 180 00:12:49,860 --> 00:12:53,880 and one that you're more familiar with, and that is the Great British Biscuit. 181 00:12:54,380 --> 00:12:58,780 Now, you use this as fuel, and you use it to power yourself. 182 00:12:59,460 --> 00:13:04,040 I'm going to use it to show you that if you get the right conditions, you can 183 00:13:04,040 --> 00:13:05,040 get quite... 184 00:13:05,680 --> 00:13:07,940 boring things to release a fair amount of energy. 185 00:13:08,560 --> 00:13:10,100 Now, why couldn't I get that rocket fuel going? 186 00:13:10,360 --> 00:13:16,020 Well, it's because I was probably missing the vital element of the fire 187 00:13:16,020 --> 00:13:18,360 triangle. Now, you know you need some fuel. I've got some fuel. 188 00:13:18,600 --> 00:13:23,540 And I did have some oxygen in the air around me, but I didn't have enough 189 00:13:23,900 --> 00:13:26,160 So you need fuel, you need heat, 190 00:13:26,980 --> 00:13:28,260 and you need oxygen. 191 00:13:28,860 --> 00:13:33,600 And then you can get the stuff going. So, I've got my fuel, a bit of oxygen. 192 00:13:34,500 --> 00:13:36,440 I've got my heat here. 193 00:13:36,820 --> 00:13:37,860 We'll get these going. 194 00:13:38,380 --> 00:13:40,600 Oh, I should put some goggles on, shouldn't I, really? 195 00:13:41,340 --> 00:13:42,340 You never know. 196 00:13:42,940 --> 00:13:43,940 Okay, here we go. 197 00:13:44,640 --> 00:13:46,880 So heat, oxygen, fuel. 198 00:13:48,560 --> 00:13:49,560 Very disappointing. 199 00:13:49,860 --> 00:13:52,640 And you're probably sitting there thinking, well, I knew that. I knew that 200 00:13:52,640 --> 00:13:55,380 biscuits weren't going to do anything exciting because biscuits aren't very 201 00:13:55,380 --> 00:13:56,380 exciting. 202 00:13:56,620 --> 00:13:58,260 But that's the thing. 203 00:13:58,960 --> 00:14:02,100 I had fuel and I had heat. 204 00:14:02,840 --> 00:14:06,320 And I had some oxygen, the 21 % oxygen in the air that we breathe, but that's 205 00:14:06,320 --> 00:14:07,239 not enough oxygen. 206 00:14:07,240 --> 00:14:12,380 To get this to be everything it can be, I need enough oxygen to soak these 207 00:14:12,380 --> 00:14:17,120 biscuits. I need to literally soak these biscuits in oxygen, and I can only do 208 00:14:17,120 --> 00:14:20,200 that if I have some liquid oxygen. 209 00:14:21,260 --> 00:14:23,940 Now, here's the problem with that. 210 00:14:24,400 --> 00:14:28,540 It's quite hard to make liquid oxygen. We've got a setup here that's going to 211 00:14:28,540 --> 00:14:31,220 that, and Andy's going to help me with it. This is oxygen in a cylinder. 212 00:14:31,930 --> 00:14:35,270 of the type that I use every day in my hospital. 213 00:14:35,510 --> 00:14:39,570 It's compressed about 200 times the pressure that you have here in this room 214 00:14:39,570 --> 00:14:44,250 now. And so there's a good couple of thousands litres of oxygen in that. That 215 00:14:44,250 --> 00:14:46,790 oxygen is running through this tube right now as a gas. 216 00:14:47,150 --> 00:14:50,830 The next thing is it runs into this copper pipe, which is very good at 217 00:14:50,830 --> 00:14:51,830 conducting things. 218 00:14:52,710 --> 00:14:58,110 And to get something to become a liquid when it's as a gas, you have to get it 219 00:14:58,110 --> 00:14:59,110 below its boiling point. 220 00:14:59,340 --> 00:15:05,080 And this is the problem. The boiling point of oxygen is minus 183 degrees 221 00:15:05,080 --> 00:15:09,040 Celsius. To get it to turn into a liquid from a gas, I have to get it colder 222 00:15:09,040 --> 00:15:10,900 than minus 183 degrees Celsius. 223 00:15:11,120 --> 00:15:15,300 And for that, I need to use what is probably Andy's and the Royal 224 00:15:15,300 --> 00:15:16,500 favourite substance ever. 225 00:15:16,990 --> 00:15:23,430 liquid nitrogen. Liquid nitrogen is at minus 196 degrees Celsius and so as the 226 00:15:23,430 --> 00:15:28,070 oxygen passes through that copper tube as a gas, the liquid nitrogen draws the 227 00:15:28,070 --> 00:15:32,390 energy out of the gas, it turns it into a liquid and I can collect liquid oxygen 228 00:15:32,390 --> 00:15:36,350 in this test tube and that's what's happening now. Now this is a very 229 00:15:36,350 --> 00:15:41,610 moment for me because I use oxygen in hospitals every day but I never really 230 00:15:41,610 --> 00:15:43,170 it because it's invisible. 231 00:15:43,370 --> 00:15:47,960 I've been told in textbooks that it has this beautiful blue tinge and we're 232 00:15:47,960 --> 00:15:51,600 going to try and see that now and it's boiling away it's boiling away because 233 00:15:51,600 --> 00:15:56,600 it's 200 degrees above its boiling point here and this is what happens if you 234 00:15:56,600 --> 00:16:02,580 have some heat have some fuel and have some liquid 235 00:16:02,580 --> 00:16:04,860 oxygen 236 00:16:17,900 --> 00:16:24,000 And that is how you get rocket fuel to be rocket fuel. Now, that looked like it 237 00:16:24,000 --> 00:16:24,999 wanted to go somewhere. 238 00:16:25,000 --> 00:16:27,440 And that's a rocket full of biscuits. And I can tell you something. 239 00:16:27,780 --> 00:16:33,340 Pym's rocket wasn't full of biscuits. Pym's rocket was full of RP -1 rocket 240 00:16:33,340 --> 00:16:37,640 fuel, liquid oxygen, and enough power to light it. 241 00:16:38,440 --> 00:16:39,840 And that's the problem. 242 00:16:40,140 --> 00:16:43,240 Someone has to control that. Someone has to make sure that those substances 243 00:16:43,240 --> 00:16:47,380 combine precisely at the right time and precisely the right amount. 244 00:16:47,710 --> 00:16:52,390 in precisely the right way to propel you and your crew into space instead of 245 00:16:52,390 --> 00:16:54,530 tearing your vehicle and your crew apart. 246 00:16:55,310 --> 00:17:01,330 Now, let's go back to the hours before Tim's launch and see how Monica's 247 00:17:01,330 --> 00:17:02,330 on. 248 00:17:06,030 --> 00:17:07,730 Hi, Kevin. Hi, kids. 249 00:17:08,480 --> 00:17:13,960 It's an hour to launch and I'm here at the viewing area about two kilometres 250 00:17:13,960 --> 00:17:17,339 away from the rocket, which you can see on the horizon. 251 00:17:18,020 --> 00:17:19,579 But here we're waiting. 252 00:17:20,000 --> 00:17:23,700 The place is going to be crawling with engineers and technicians making those 253 00:17:23,700 --> 00:17:29,340 last vital checks before they light the blue touch paper and send up this rocket 254 00:17:29,340 --> 00:17:34,100 with its highly corrosive and very, very explosive fuel. And it will be a big 255 00:17:34,100 --> 00:17:35,640 blast. Now, can you see? 256 00:17:36,250 --> 00:17:39,930 There's a little white pointy thing on the top of the rocket. Just underneath 257 00:17:39,930 --> 00:17:44,750 that is a capsule where Tim and Tim and Yori will be sitting. 258 00:17:45,050 --> 00:17:49,330 So it's about an hour to go. We're nearly there. 259 00:17:49,550 --> 00:17:52,670 Really exciting. I just can't wait. 260 00:18:09,230 --> 00:18:13,470 So let's relive that hour before launch. Let's take ourselves to our mission 261 00:18:13,470 --> 00:18:17,890 clock and let's get it going. 60 minutes before launch and everyone who has no 262 00:18:17,890 --> 00:18:21,450 business being on that tower is getting out of there. The rocket is live and the 263 00:18:21,450 --> 00:18:22,449 rocket is dangerous. 264 00:18:22,450 --> 00:18:25,250 I want to say anyone who doesn't have any business being there, I mean anyone 265 00:18:25,250 --> 00:18:26,830 who's not riding that rocket into space. 266 00:18:27,250 --> 00:18:30,730 Let's go forwards now to 30 minutes before. 267 00:18:30,990 --> 00:18:35,830 At 30 minutes they start to arm the launch escape rocket. You can see that 268 00:18:35,830 --> 00:18:39,470 pointy thing that Monica talked about on the top. If this goes wrong, If the 269 00:18:39,470 --> 00:18:43,750 rocket does explode, the only way to outrun the ensuing fireball is with 270 00:18:43,750 --> 00:18:48,550 rocket. That solid rocket will light, carry the capsule up to 10 ,000 feet, 271 00:18:48,550 --> 00:18:50,730 a parachute and dump them somewhere in Kazakhstan. 272 00:18:50,970 --> 00:18:53,790 It doesn't matter where, anywhere away from that fireball. 273 00:18:54,070 --> 00:18:58,270 We're forwards again now. We're going to 10 minutes. And at 10 minutes, they arm 274 00:18:58,270 --> 00:19:01,870 the flight recorders. They record the information. If there's an accident, 275 00:19:01,870 --> 00:19:04,830 may be no one around to tell them what happened. They need to find that 276 00:19:04,830 --> 00:19:07,770 information. And now we're at 5 and 5 minutes. 277 00:19:08,140 --> 00:19:12,080 The astronauts are closing their visors. They're shutting themselves away from 278 00:19:12,080 --> 00:19:15,740 the atmosphere of this planet, preparing themselves for the place they're going 279 00:19:15,740 --> 00:19:20,020 to, which will not support human life, even for a few seconds. 280 00:19:20,480 --> 00:19:24,620 And now we're forward to just a minute and a half before launch. 281 00:19:25,460 --> 00:19:32,100 And what is Tim thinking? Well, here's a video to tell you what he thought he 282 00:19:32,100 --> 00:19:33,620 was going to feel like on that pad. 283 00:19:35,880 --> 00:19:41,020 In the final seconds just before countdown, I think rather than thinking 284 00:19:41,020 --> 00:19:45,320 anything, I'll actually just be experiencing it, because by that stage, 285 00:19:45,320 --> 00:19:49,320 rockets are already firing, it's being held to the ground, and you're just 286 00:19:49,320 --> 00:19:54,320 waiting for that liftoff, but you're experiencing sound, vibration, and 287 00:19:54,320 --> 00:19:56,340 the excitement of the launch that's about to come. 288 00:20:00,540 --> 00:20:04,680 So that's not false bravado from Tim. He had no... 289 00:20:04,940 --> 00:20:08,700 our option but to experience this launch because it's kind of out of his hands 290 00:20:08,700 --> 00:20:11,480 this thing is bigger than him it's bigger than his crew it's bigger than 291 00:20:11,480 --> 00:20:16,460 rocket this is the army of tens of thousands of people who've designed 292 00:20:16,460 --> 00:20:22,340 operated this rocket and it has to work to keep him safe let's go see monica we 293 00:20:22,340 --> 00:20:27,420 can't hear a countdown yet i've got my phone out i'm taking a picture too 294 00:20:27,420 --> 00:20:29,100 ignition 295 00:20:34,280 --> 00:20:36,320 The noise is starting! 296 00:21:23,720 --> 00:21:28,920 hear the thunder now yes oh right and they're the boosters coming off now you 297 00:21:28,920 --> 00:21:35,160 can see the smoke in the sky from the boosters you can see the trail in the 298 00:21:35,160 --> 00:21:40,180 the sawyer's rocket went straight up vertically up and then just about where 299 00:21:40,180 --> 00:21:45,680 that puff of steamy smoky stuff is it it changed direction it moved off over to 300 00:21:45,680 --> 00:21:52,250 the east now it just looks like an ordinary airplane trail on the sky it 301 00:21:52,250 --> 00:21:57,670 just amazing and just to see it going and it's like i'm so happy it's gone off 302 00:21:57,670 --> 00:21:58,870 safely it's fantastic 303 00:21:58,870 --> 00:22:09,870 now 304 00:22:09,870 --> 00:22:14,990 let's stop the mission clock that rocket is starting to tilt over and head east 305 00:22:14,990 --> 00:22:20,230 why why is it going east well to help explain i'm going to need 306 00:22:21,959 --> 00:22:24,420 volunteer. How about you? Yeah, let's have you. 307 00:22:24,740 --> 00:22:25,740 Brilliant. 308 00:22:32,700 --> 00:22:33,700 And what's your name? 309 00:22:33,920 --> 00:22:37,540 Mia. Mia. Okay, Mia, I'm going to turn you into our launch controller at 310 00:22:37,540 --> 00:22:40,640 Baikonur here. Come and stand in your station. This is our very expensive 311 00:22:40,640 --> 00:22:41,640 station here. 312 00:22:43,139 --> 00:22:47,500 And here at the RI, we have our own International Space Station. It took 313 00:22:47,500 --> 00:22:52,380 than 15 years and $150 billion to build. If you take yourself into orbit, 314 00:22:52,620 --> 00:22:55,000 cosmonauts, John. 315 00:22:55,720 --> 00:23:00,660 And so, Mia, we're going to launch ourselves into that dish. Now, these 316 00:23:00,660 --> 00:23:04,980 have all the energy they need to get into that space station, okay? All we've 317 00:23:04,980 --> 00:23:08,580 got to do is launch, okay? Now, when I count you in, you're going to hit this 318 00:23:08,580 --> 00:23:12,000 lever across that way, okay? Give it a good whack, ready? 319 00:23:12,780 --> 00:23:15,740 Three, two, one, go! 320 00:23:17,460 --> 00:23:18,500 Oh, dear. 321 00:23:18,900 --> 00:23:23,920 Now, you didn't do anything wrong there. Your launch was perfect. 322 00:23:24,260 --> 00:23:26,300 And there's nothing wrong with the rocket either. 323 00:23:26,500 --> 00:23:33,000 They have enough energy to get to the space station, but only if they borrow 324 00:23:33,000 --> 00:23:36,000 a little bit of extra energy from somewhere else. 325 00:23:36,200 --> 00:23:39,940 And that energy is borrowed from the rotation of the planets. 326 00:23:40,810 --> 00:23:44,790 This is our lovely map of the Earth on top of this launch station. 327 00:23:45,250 --> 00:23:49,730 At the poles, when the Earth is turning, the Earth isn't turning very quickly. 328 00:23:50,870 --> 00:23:55,470 As you get down towards the equator, the speed of rotation is going pretty fast. 329 00:23:55,530 --> 00:23:57,370 It's going about 1 ,000 miles an hour. 330 00:23:57,930 --> 00:24:02,530 And if you launch towards the east, as the Earth rotates from west to east, you 331 00:24:02,530 --> 00:24:03,710 can get some of that energy. 332 00:24:04,250 --> 00:24:06,950 So if you launch from the pole, you can't borrow much energy because the 333 00:24:06,950 --> 00:24:10,350 not spinning very much. If you're silly enough to try and launch against the 334 00:24:10,350 --> 00:24:15,010 direction of rotation of the Earth, then you're going to be in even worse shape. 335 00:24:15,290 --> 00:24:19,190 The best place to launch from is where this red rocket is, launching with the 336 00:24:19,190 --> 00:24:21,310 rotation of the Earth towards the east. 337 00:24:21,790 --> 00:24:25,590 What we were missing before was the spin of the Earth. So this time I'm going to 338 00:24:25,590 --> 00:24:28,150 spin the Earth up and I'm going to help you launch it. And there's going to be 339 00:24:28,150 --> 00:24:31,870 no countdown because they don't really do countdowns in Russia. Okay, ready? 340 00:24:32,710 --> 00:24:33,710 Here we go. 341 00:24:35,710 --> 00:24:39,570 Yeah, all right And 342 00:24:39,570 --> 00:24:46,690 it's 343 00:24:46,690 --> 00:24:51,310 incredible to watch that go as it launches out there towards the east 344 00:24:51,310 --> 00:24:55,750 to imagine but we don't need to imagine we can ask someone who's actually done 345 00:24:55,750 --> 00:24:57,990 it. It's my great pleasure to introduce 346 00:24:58,700 --> 00:25:01,000 A veteran astronaut who's flown in space twice. 347 00:25:01,200 --> 00:25:05,140 He's spent more than 211 days in space in total. 348 00:25:05,440 --> 00:25:09,200 He's been aboard the International Space Station. He is a doctor, but he's also 349 00:25:09,200 --> 00:25:13,240 a NASA astronaut. It's my great pleasure to introduce my friend and colleague, 350 00:25:13,400 --> 00:25:14,940 Dr. Mike Barras. 351 00:25:27,230 --> 00:25:33,470 Now hang on Kevin actually I need to fire up this eye thingy Because we've 352 00:25:33,470 --> 00:25:38,710 actually just had a tweet from the space station from astronaut Tim Peake and 353 00:25:38,710 --> 00:25:39,950 who wanted to wish Dr. 354 00:25:40,190 --> 00:25:43,270 Fong a good luck with the Christmas lectures, and he's really excited to be 355 00:25:43,270 --> 00:25:48,910 of it from space Wow, so a tweet from space That is my first ever tweet from 356 00:25:48,910 --> 00:25:51,070 space station. I think Wow. Thank you, Tim 357 00:26:01,890 --> 00:26:05,450 I don't know if I'm more shocked to get a tweet from Tim or to know that Aspen 358 00:26:05,450 --> 00:26:06,750 ought to get onto Twitter and Facebook. 359 00:26:06,970 --> 00:26:07,970 But never mind. 360 00:26:08,300 --> 00:26:11,460 You've done that for real. You've launched like that. Just tell me what 361 00:26:11,460 --> 00:26:14,020 like as it tips over and starts heading out east. 362 00:26:14,220 --> 00:26:17,020 Well, launching on a rocket is a great experience. I hope all of you get to 363 00:26:17,020 --> 00:26:18,640 experience one day. It's very possible. 364 00:26:18,980 --> 00:26:23,140 The Soyuz is very different from the space shuttle. The Soyuz uses these very 365 00:26:23,140 --> 00:26:27,040 well -behaved liquid boosters. And after the engine's light, you sit there, you 366 00:26:27,040 --> 00:26:30,720 vibrate, you shake, you hear the roar of the engines below you. But actually, 367 00:26:30,780 --> 00:26:32,280 when you lift off, it's very gentle. 368 00:26:32,680 --> 00:26:36,180 And in fact, I wasn't even aware that we had lifted off until I looked at my 369 00:26:36,180 --> 00:26:38,220 clock start to count up from zero. 370 00:26:38,680 --> 00:26:42,540 to tell me that we have left the Earth. Is that true, that you had to watch the 371 00:26:42,540 --> 00:26:45,680 mission clock to know that liftoff had happened? For those first few seconds, 372 00:26:45,760 --> 00:26:46,699 that's absolutely right. 373 00:26:46,700 --> 00:26:50,560 But then you start to build G -forces, because when you think about it, you 374 00:26:50,560 --> 00:26:56,040 to go from zero to 17 ,500 miles an hour in about nine minutes or so. So you 375 00:26:56,040 --> 00:27:00,280 have to start accelerating, and after a while, you're going at more than three 376 00:27:00,280 --> 00:27:04,520 Gs, which means the forces through your chest make you weigh three times your 377 00:27:04,520 --> 00:27:05,520 body weight. 378 00:27:05,640 --> 00:27:10,200 And that's all the acceleration pushing through as you launch. And so you end up 379 00:27:10,200 --> 00:27:13,340 weighing three times as much. That's right. And fortunately, we're strapped 380 00:27:13,340 --> 00:27:16,860 our seats, so we don't have to feel that too much. But if you lift your arm, all 381 00:27:16,860 --> 00:27:18,920 of a sudden it weighs three times more than you thought. 382 00:27:19,220 --> 00:27:20,940 And it feels pretty weird. 383 00:27:21,300 --> 00:27:24,440 But for me, it was very special because about two and a half minutes into 384 00:27:24,440 --> 00:27:29,120 flight, the outer shroud over the spacecraft blows away and sunlight 385 00:27:29,120 --> 00:27:32,620 into the capsule. And I couldn't lift myself, but I lifted my arm and I had a 386 00:27:32,620 --> 00:27:33,559 little wrist mirror. 387 00:27:33,560 --> 00:27:37,320 And we were already 100. kilometers high and i saw the clouds way below me 388 00:27:37,320 --> 00:27:40,700 getting smaller so that's when you really know you've left the planet wow 389 00:27:40,700 --> 00:27:44,200 sounds absolutely incredible um if it's all right we'll keep you here mike we'll 390 00:27:44,200 --> 00:27:47,140 see you later but for now astronaut mike barrack 391 00:27:47,140 --> 00:27:56,940 so 392 00:27:56,940 --> 00:28:01,140 as we relive this mission The crew are still racing away from the Earth, and 393 00:28:01,140 --> 00:28:04,040 they're leaving behind everything that they take for granted in the way of 394 00:28:04,040 --> 00:28:09,320 natural life support here on this planet. And that is a perilously thin 395 00:28:09,640 --> 00:28:15,820 And over here, we're going to look at a good illustration of just how thin that 396 00:28:15,820 --> 00:28:20,540 layer is. Now, Alouette is an artist. Hi, Alouette, from the Royal College of 397 00:28:20,540 --> 00:28:24,460 Art. Now, to give you an impression of just how thin the layer of atmosphere is 398 00:28:24,460 --> 00:28:27,560 that supports all life on Earth, have a look at this. 399 00:28:27,850 --> 00:28:30,230 This is a football that's 22 centimetres across. 400 00:28:30,510 --> 00:28:33,830 Yeah, well, I don't know. It's a normal football size. So I think that's a 401 00:28:33,830 --> 00:28:38,170 regulation size. And I asked you to paint a layer of paint on top and this 402 00:28:38,170 --> 00:28:41,970 beautiful map of the world that you're finishing off here to show the 403 00:28:41,970 --> 00:28:43,930 as it would be. So how thick is your paint there? 404 00:28:44,350 --> 00:28:46,970 Well, probably less than a millimetre. It's very thin. 405 00:28:47,230 --> 00:28:50,770 And so if the Earth were a football and if you painted it and you painted on 406 00:28:50,770 --> 00:28:54,410 that atmosphere, the atmosphere in which we live, on which we depend, would 407 00:28:54,410 --> 00:28:56,780 be... less than a millimeter thick. 408 00:28:57,220 --> 00:29:02,480 It's not a biosphere. We think that it's a biosphere, but it is in fact a 409 00:29:02,480 --> 00:29:06,800 biofilm. It's smeared across the surface of the planet the way that Alouette has 410 00:29:06,800 --> 00:29:09,900 smeared this paint across the surface of this football. 411 00:29:10,500 --> 00:29:13,340 That is what you depend upon, Alouette. Thank you so much. It's very beautiful. 412 00:29:13,440 --> 00:29:15,020 I can't wait to see it finished. Thank you. 413 00:29:21,450 --> 00:29:25,910 And when you're on your way into space, life gets hard very, very quickly. It 414 00:29:25,910 --> 00:29:30,810 gets hard even before you've left that really thin layer. I know because I know 415 00:29:30,810 --> 00:29:33,090 someone who's been right up to the edge of it. 416 00:29:33,710 --> 00:29:39,270 I am going to introduce you to the man who has survived the lowest level of 417 00:29:39,270 --> 00:29:44,010 oxygen in his bloodstream of any human being in the world. I'd like to 418 00:29:44,010 --> 00:29:45,010 you to... 419 00:29:45,180 --> 00:29:50,240 my good colleague and friend, Intensive Care Doctor, Everett Summertier, Dr. Dan 420 00:29:50,240 --> 00:29:51,240 Martin. 421 00:30:04,280 --> 00:30:07,740 Now, Dan is a doctor, but in 2007 he climbed to the summit of Everest and did 422 00:30:07,740 --> 00:30:09,020 some crazy experiments. 423 00:30:09,560 --> 00:30:13,520 You are dressed as you were when you did that. This is the suit I wore to the 424 00:30:13,520 --> 00:30:17,460 summit of Everest in 2007, down suit to keep us warm up there on the summit. 425 00:30:18,120 --> 00:30:22,900 And this is your oxygen as well? Yeah, an oxygen bottle you'd put in your 426 00:30:22,900 --> 00:30:27,400 backpack and oxygen mask to breathe there because the air is just so thin at 427 00:30:27,400 --> 00:30:30,820 summit. And you did a crazy experiment up there. What did you do? 428 00:30:31,370 --> 00:30:34,390 Well, we wanted to know how much oxygen there was in our blood when we were 429 00:30:34,390 --> 00:30:35,470 close to the summit of Everest. 430 00:30:36,130 --> 00:30:40,110 So we took blood samples from each other near to the summit, sent them to an 431 00:30:40,110 --> 00:30:43,970 analyser and worked out just how little oxygen there was in our blood. And in 432 00:30:43,970 --> 00:30:45,250 hospital we measure the amount of... 433 00:30:45,480 --> 00:30:50,000 oxygen in your bloodstream to see how well you are. Now, for people in this 434 00:30:50,000 --> 00:30:54,240 lecture theatre now, if we measure the pressure of oxygen in their arteries, 435 00:30:54,440 --> 00:30:57,280 because that's how we measure the amount of oxygen in your arteries, what would 436 00:30:57,280 --> 00:31:01,640 we find? That the average pressure of people's oxygen in people's arteries 437 00:31:01,640 --> 00:31:04,440 would be about 10 to 12. Somewhere between 10 and 12. 438 00:31:04,680 --> 00:31:08,200 So for normal healthy people, let's say it's 10 kilopascals of pressure. 439 00:31:08,840 --> 00:31:12,080 At the point at which someone's sick enough on the ward to start calling Dan 440 00:31:12,080 --> 00:31:15,140 me down from intensive care to scoot them up and stick them on a life support 441 00:31:15,140 --> 00:31:18,980 machine and rescue them by giving them more oxygen and put them on a 442 00:31:18,980 --> 00:31:19,980 you're up how much? 443 00:31:20,320 --> 00:31:23,900 Six is where I really get worried. About six, we're super worried and you're 444 00:31:23,900 --> 00:31:26,740 calling the intensive care doctor. What was the level of oxygen in your 445 00:31:26,740 --> 00:31:28,060 bloodstream at the summit of Everest? 446 00:31:28,440 --> 00:31:29,440 Two and a half. 447 00:31:31,440 --> 00:31:33,200 And that's a crazy low. 448 00:31:34,070 --> 00:31:35,150 Really low. 449 00:31:35,590 --> 00:31:39,830 And it is bizarre that you're still alive, frankly. 450 00:31:40,670 --> 00:31:41,670 Thank you. 451 00:31:43,810 --> 00:31:45,350 It's the lowest recorded... 452 00:31:45,660 --> 00:31:48,500 Oxygen level in any human being? I believe so. 453 00:31:48,700 --> 00:31:50,020 We've never seen any lower. 454 00:31:50,280 --> 00:31:54,480 So that record remains, I think. It's pretty uncomfortable up there and 455 00:31:54,480 --> 00:31:57,200 a huge amount of time you have to spend adapting to it. 456 00:31:57,460 --> 00:32:00,060 All right. Well, look, you're getting quite warm and you're down. Good for 457 00:32:00,060 --> 00:32:02,660 everyone. Not good for the Royal Institution. Thank you very much, Dr. 458 00:32:02,660 --> 00:32:03,660 Martin. Thank you. 459 00:32:12,560 --> 00:32:15,780 That's a crazy story from Dan, and it's amazing that he's alive at all. 460 00:32:16,400 --> 00:32:20,920 But to show you just how bad it is as you go out through the atmosphere, let's 461 00:32:20,920 --> 00:32:22,440 go back to our mission clock. 462 00:32:23,120 --> 00:32:24,160 They're moving now. 463 00:32:24,440 --> 00:32:27,480 They've gone beyond the summit of the Everest at around nine kilometres. 464 00:32:27,840 --> 00:32:32,340 They've got up to 18 kilometres, 18 ,000 metres, 63 ,000 feet, and that's an 465 00:32:32,340 --> 00:32:37,060 important boundary. And to show you why, I'm going to need a couple of 466 00:32:37,060 --> 00:32:39,460 volunteers. Let's have two volunteers. All right, I'm going to have to try and 467 00:32:39,460 --> 00:32:40,460 go up here for this one. 468 00:32:41,100 --> 00:32:42,100 OK. 469 00:32:42,410 --> 00:32:47,850 stand up for me go on yeah why don't we have you why don't you go down there and 470 00:32:47,850 --> 00:32:54,390 i'll go up here this time just down there and why don't you stand up for me 471 00:32:54,390 --> 00:32:56,670 okay why don't you come down as well 472 00:32:56,670 --> 00:33:03,150 okay 473 00:33:03,150 --> 00:33:07,550 and what's your name toby toby and alexandra alexandra 474 00:33:08,460 --> 00:33:11,800 I've got something else in mind for you. I think we're going to have to take you 475 00:33:11,800 --> 00:33:12,599 away right now. 476 00:33:12,600 --> 00:33:15,180 So, we'll see you later, I think. Bye -bye. 477 00:33:15,840 --> 00:33:16,479 Don't worry. 478 00:33:16,480 --> 00:33:17,480 It'll be all right. 479 00:33:20,520 --> 00:33:21,600 Now, how are you feeling? 480 00:33:22,640 --> 00:33:24,120 Good. Good. Good. You sure? 481 00:33:24,620 --> 00:33:26,460 Yeah. Okay. I think you should have a seat. 482 00:33:27,900 --> 00:33:29,280 Let's put this in your mouth, shall we? 483 00:33:29,540 --> 00:33:32,360 Okay. So, open your mouth. Stick this under your tongue. 484 00:33:33,000 --> 00:33:34,200 Keep it there. All right. 485 00:33:34,860 --> 00:33:36,600 We'll come back to him later. Don't worry. 486 00:33:38,110 --> 00:33:39,110 All right. 487 00:33:39,130 --> 00:33:44,970 OK. So, one of the things Dan Martin told me about climbing Everest also was 488 00:33:44,970 --> 00:33:48,310 it's not very pleasant, it's pretty cold, and you can't make a decent cup of 489 00:33:48,310 --> 00:33:51,790 tea. You can't make a decent cup of tea on Everest because as you rise up 490 00:33:51,790 --> 00:33:56,850 through the atmosphere, the boiling point of water also falls because the 491 00:33:56,850 --> 00:34:00,690 pressure falls. At the summit of Everest, the pressure has fallen so much 492 00:34:00,690 --> 00:34:02,950 the boiling point of water is only 72 degrees Celsius. 493 00:34:04,110 --> 00:34:06,570 Now, as you keep going into the atmosphere... 494 00:34:07,210 --> 00:34:12,929 That keeps happening until you reach a point of 63 ,000 feet, 18 ,000 meters, 495 00:34:13,030 --> 00:34:17,429 where the astronauts are now in their mission, where you can boil water at 37 496 00:34:17,429 --> 00:34:18,670 degrees Celsius. 497 00:34:19,510 --> 00:34:20,989 And Toby, you all right? 498 00:34:23,050 --> 00:34:26,989 And your temperature is 36 .8 degrees Celsius. 499 00:34:27,449 --> 00:34:33,510 Yeah, so close enough, 37. So you can reach a point in the atmosphere where 500 00:34:33,510 --> 00:34:35,770 can boil himself. 501 00:34:37,489 --> 00:34:40,730 That sounds pretty unpleasant doesn't it so you're going to come and help me 502 00:34:40,730 --> 00:34:45,030 now. We're not going to boil you Toby you can get to a point where your own 503 00:34:45,030 --> 00:34:49,449 body temperature can boil you that's bad news now When then we won't boil you, 504 00:34:49,510 --> 00:34:53,409 but we'll make a Toby model, okay, so here's my Toby model It's not a very 505 00:34:53,409 --> 00:34:58,300 model. I have to say so this is my toby head all right so it looks a bit like 506 00:34:58,300 --> 00:35:02,280 you uh and we'll have a we'll have a marshmallow for your head because that 507 00:35:02,280 --> 00:35:05,940 simulates your soft tissues uh this balloon will be like the air in your 508 00:35:05,940 --> 00:35:09,240 perhaps the air in your lungs so that's about where your lungs is okay here's 509 00:35:09,240 --> 00:35:13,400 the important bit here's the free water in your body now put your finger in that 510 00:35:13,400 --> 00:35:18,180 water and it's pretty cold isn't it it's about the same temperature as your body 511 00:35:18,180 --> 00:35:22,200 actually it's 37 degrees okay so that would be like the spit in your mouth or 512 00:35:23,520 --> 00:35:27,140 the glass of water in your stomach just after you've drunk it. There is water 513 00:35:27,140 --> 00:35:31,900 elsewhere. Let's just look at this last thing. This is a red glass. It's like 514 00:35:31,900 --> 00:35:33,840 the water that's in your bloodstream, okay? 515 00:35:34,580 --> 00:35:39,880 And that water has got a cover on it because the blood, at least in your 516 00:35:39,880 --> 00:35:44,460 arteries, has a cover on it. It has a muscular wall that protects it. It kind 517 00:35:44,460 --> 00:35:45,460 acts like a pressure cooker. 518 00:35:45,780 --> 00:35:49,320 And that will stop the water from boiling a bit, at least. Now, let's line 519 00:35:49,320 --> 00:35:50,720 all up for our Toby body. 520 00:35:52,940 --> 00:35:55,940 get this going. Now, we can't send all of this into space, but we can make it 521 00:35:55,940 --> 00:36:00,000 think it's gone into space, and we do that by putting it inside this vacuum 522 00:36:00,000 --> 00:36:04,260 chamber and sucking out all the air. So this is a vacuum pump, Toby, and so if 523 00:36:04,260 --> 00:36:06,720 you put your hand on that switch, and I'll get everyone to give you a 524 00:36:06,920 --> 00:36:10,120 and we're going to send this into space by making it, well, think it's gone into 525 00:36:10,120 --> 00:36:13,160 space. Three, two, one. 526 00:36:13,860 --> 00:36:17,680 Off we go. Come around here, Toby. Have a look at this. So that needle is going 527 00:36:17,680 --> 00:36:21,750 up, so right now... We're about to get to the highest human habitations at 5 528 00:36:21,750 --> 00:36:22,750 ,000 metres. 529 00:36:23,430 --> 00:36:27,970 We're at Dan Martin's altitude, 8 ,848 metres, the summit of Everest there. 530 00:36:27,970 --> 00:36:29,930 a look what's happened to your head. Oh, my goodness. 531 00:36:30,150 --> 00:36:32,210 And your lungs. They're getting bigger. 532 00:36:32,510 --> 00:36:36,350 And now we're up into well above where a plane would be. 533 00:36:36,610 --> 00:36:40,050 That was your lungs. That's very bad. Look at your head. It's swelling. 534 00:36:40,330 --> 00:36:44,270 There's vapour forming in the pockets inside your head and some air expanding 535 00:36:44,270 --> 00:36:47,530 there. Your head really doesn't look very good at the moment, does it? 536 00:36:48,930 --> 00:36:53,270 Now, that process I told you about is about to happen to that water. Just 537 00:36:53,270 --> 00:36:54,270 very carefully. 538 00:36:57,710 --> 00:36:58,910 The pressure's dropping. 539 00:37:00,350 --> 00:37:02,650 A few bubbles. Here it goes, here it goes. 540 00:37:03,710 --> 00:37:07,650 That is water boiling as you go off into space. 541 00:37:08,070 --> 00:37:11,890 You look really unwell in there. Shall we save you? Shall we turn off that 542 00:37:12,390 --> 00:37:13,890 Okay, off we go. 543 00:37:14,410 --> 00:37:18,130 I think we should try and put some pressure back into this system. Poor 544 00:37:18,370 --> 00:37:19,370 All right. 545 00:37:25,370 --> 00:37:27,610 You almost looked better before, didn't you? 546 00:37:28,750 --> 00:37:29,649 Oh, dear. 547 00:37:29,650 --> 00:37:33,390 Okay, so hopefully I can get some of you out. 548 00:37:33,650 --> 00:37:35,010 There's not much left, I'm afraid. 549 00:37:35,450 --> 00:37:37,790 This is what happens if you go into space. 550 00:37:38,170 --> 00:37:41,510 Now, you saw that boiling, didn't you? Like as if it was in a kettle. Can you 551 00:37:41,510 --> 00:37:42,428 put your finger in that? 552 00:37:42,430 --> 00:37:45,990 It's still cold. So that's because boiling is not about temperature. It's a 553 00:37:45,990 --> 00:37:49,630 process. It's molecules of a liquid leaving and going into the gas. 554 00:37:50,010 --> 00:37:53,210 That's what was happening there, but not because it was hot, because it was such 555 00:37:53,210 --> 00:37:57,430 a low pressure around it. Toby, thank you so much. Don't ever, ever, ever go 556 00:37:57,430 --> 00:38:00,030 into space without a space suit. That's the best health advice I can give you. 557 00:38:00,090 --> 00:38:01,090 All right, off you go. Thank you. 558 00:38:09,320 --> 00:38:14,160 Now, that was ugly, wasn't it? So, this, of course, is a spacesuit. It's a 559 00:38:14,160 --> 00:38:15,280 beautiful piece of engineering. 560 00:38:16,100 --> 00:38:21,240 This spacesuit was designed for astronaut Helen Sharman when she went on 561 00:38:21,240 --> 00:38:22,800 Juno mission 25 years ago. 562 00:38:23,140 --> 00:38:27,580 And I could tell you about it, but I rather think the best person to tell you 563 00:38:27,580 --> 00:38:30,840 about Helen Sharman's spacesuit is Dr. 564 00:38:31,880 --> 00:38:35,740 Helen Sharman, our first British astronaut, Dr. Sharman. 565 00:38:53,800 --> 00:38:55,560 It's such a great honour to meet you. 566 00:38:55,780 --> 00:38:59,220 This is a very precious item. It's usually stored behind glass at the 567 00:38:59,220 --> 00:39:02,620 Space Centre in Leicester. 568 00:39:03,240 --> 00:39:04,820 It hasn't been into space, has it? 569 00:39:05,080 --> 00:39:08,760 No, this is a replica. The real space suit that I actually wore in space is in 570 00:39:08,760 --> 00:39:13,760 the Science Museum in London. But this is very similar. It's identical as far 571 00:39:13,760 --> 00:39:16,980 I can see. Down to the mirror on the left -hand side. We're not allowed to 572 00:39:16,980 --> 00:39:17,980 it. We're not allowed to touch it. 573 00:39:18,080 --> 00:39:24,300 A real live astronaut. So you have found a slightly less precious space suit. 574 00:39:24,620 --> 00:39:26,180 So we can talk about this now. 575 00:39:26,700 --> 00:39:30,780 Tell me about this suit. So tell me, Helen, about this suit. So this is what 576 00:39:30,780 --> 00:39:33,500 can really touch, can't we? So, yeah, very similar. So this would have been, I 577 00:39:33,500 --> 00:39:36,240 assume, made for somebody to do their training in. 578 00:39:36,780 --> 00:39:41,160 It feels quite warm, doesn't it? Yeah, you're getting quite warm in there. So 579 00:39:41,160 --> 00:39:45,120 normally you would wear your suit, and if you're actually sitting inside your 580 00:39:45,120 --> 00:39:49,510 spacecraft... Or indeed, if you're walking to the spacecraft, because it 581 00:39:49,510 --> 00:39:52,430 very hot, because how can you lose any heat inside the spacesuit? 582 00:39:52,850 --> 00:39:55,630 There's a little bit that you might be able to lose heat from your face, so it 583 00:39:55,630 --> 00:39:59,470 gets hot. So you've got a great big pipe here, and this plugs into a ventilator 584 00:39:59,470 --> 00:40:04,290 unit, and the air from the spacecraft, or from the air, pulls through the 585 00:40:04,290 --> 00:40:07,610 spacesuit, and there are pipes running all the way through it, right down to 586 00:40:07,610 --> 00:40:08,610 your feet. 587 00:40:08,710 --> 00:40:12,070 They come up to your, just underneath your face here, and they run right down 588 00:40:12,070 --> 00:40:14,290 into your gloves, and that tends to keep you cooler inside. 589 00:40:14,610 --> 00:40:18,310 So I really pity you just now, because you're actually getting really very hot 590 00:40:18,310 --> 00:40:19,310 inside, aren't you? 591 00:40:19,330 --> 00:40:21,270 So, Alexandra, how does it feel being in there? 592 00:40:21,510 --> 00:40:24,770 Very heavy. Very heavy. And, Helen, what is this thing here? 593 00:40:25,130 --> 00:40:29,430 So this is a pressure regulator valve. So if you need to inflate the suit while 594 00:40:29,430 --> 00:40:33,150 you're in space, let's say that, unfortunately, the air has leaked out of 595 00:40:33,150 --> 00:40:34,150 spacecraft. 596 00:40:34,360 --> 00:40:35,360 You close your helmet. 597 00:40:35,680 --> 00:40:39,240 The oxygen supply comes in through this smaller pipe here on the left. 598 00:40:40,260 --> 00:40:45,280 And this keeps the spacesuit inflated. And this pressure valve here regulates 599 00:40:45,280 --> 00:40:46,280 the pressure inside. 600 00:40:46,480 --> 00:40:50,520 Now, what you really want is for the suit to be inflated at a pressure of 601 00:40:50,520 --> 00:40:51,820 0 .4 of an atmosphere. 602 00:40:52,580 --> 00:40:56,520 Oxygen is in here, not air. So 0 .4 of an atmosphere, but it's full of oxygen 603 00:40:56,520 --> 00:41:02,360 fine. But it inflates the spacesuit. So although it's strong on the outside, it 604 00:41:02,360 --> 00:41:03,740 becomes really stiff. 605 00:41:04,299 --> 00:41:08,320 Really stiff, so it's hard to move. Now, that's fine if you're just sitting in 606 00:41:08,320 --> 00:41:12,660 your seat like this. But if you do need to get out and do some maneuvers, it's 607 00:41:12,660 --> 00:41:16,860 so difficult to move, you can't. And you would use up so much energy. So what 608 00:41:16,860 --> 00:41:21,420 you can do is you can use this valve here to decrease the pressure. You look 609 00:41:21,420 --> 00:41:25,640 the manometer on your wrist here, and then that will show that you've 610 00:41:25,640 --> 00:41:29,720 the pressure from 0 .4 of an atmosphere to 0 .26 of an atmosphere. 611 00:41:30,569 --> 00:41:34,550 Very, very low pressure. So the suit deflates a little bit. Still got a bit 612 00:41:34,550 --> 00:41:38,810 oxygen in it, so it's enough to breathe. It supports life. But that pressure's 613 00:41:38,810 --> 00:41:43,110 low. So low that you'd get the bends if you stayed in that for very long. So you 614 00:41:43,110 --> 00:41:46,090 can do that for about a quarter of an hour while you do whatever it is you 615 00:41:46,090 --> 00:41:50,110 to do. And then you sit back down in your seat, increase the pressure again. 616 00:41:50,680 --> 00:41:54,400 You can do that repeatedly, but you can't keep it at 0 .26 an atmosphere for 617 00:41:54,400 --> 00:41:57,460 very long. That weighs 10 kilograms on Earth, although, of course, it weighs 618 00:41:57,460 --> 00:42:01,460 nothing if you're orbiting the Earth. This is your mini spacecraft, really, 619 00:42:01,500 --> 00:42:03,940 isn't it? So it's like having a spacecraft inside a spacecraft. 620 00:42:04,220 --> 00:42:07,840 So it really has to support your life for as long as you need to get back to 621 00:42:07,840 --> 00:42:12,200 Earth. So it looks like, Alexandra, you're not really enjoying being inside 622 00:42:12,200 --> 00:42:15,620 space suit. So I think I'm going to send you away to get into something a bit 623 00:42:15,620 --> 00:42:19,340 more comfortable. This is the last layer of defence astronauts have against the 624 00:42:19,340 --> 00:42:23,760 hostility of the environment around them. But for now, Alexandra, I think... 625 00:42:23,760 --> 00:42:24,860 is a bit smelly, that suit. 626 00:42:25,160 --> 00:42:26,160 Is that how it came? 627 00:42:26,660 --> 00:42:29,540 Yeah, all right, your suit doesn't smell like that, I hope, Helen. Well, I don't 628 00:42:29,540 --> 00:42:30,540 know, I haven't been that close. 629 00:42:31,360 --> 00:42:34,900 All right, Alexandra, thank you so much. And Helen, thank you. 630 00:42:47,560 --> 00:42:51,200 So that's incredible. So we're seeing our spacesuit and the crew are still on 631 00:42:51,200 --> 00:42:54,280 mission. They're still racing away from the Earth. They're still in the 632 00:42:54,280 --> 00:42:56,900 atmosphere. They're traveling at many times the speed of sound. 633 00:42:57,340 --> 00:43:02,100 And the atmosphere is still thick enough to press on that vehicle to cause all 634 00:43:02,100 --> 00:43:05,380 sorts of shearing forces trying to rip the vehicle apart. 635 00:43:05,780 --> 00:43:10,280 And now there is so much energy around that threat comes from some unexpected 636 00:43:10,280 --> 00:43:15,840 sources. It's not just heat. It's not just light. It's vibration and it's... 637 00:43:16,310 --> 00:43:20,550 Now, you don't think of those things as being destructive forces, but they are. 638 00:43:20,730 --> 00:43:25,130 And to show you, I need a volunteer, preferably someone who's really, really 639 00:43:25,130 --> 00:43:26,370 good at singing. 640 00:43:29,110 --> 00:43:30,750 That sorts people out. 641 00:43:31,230 --> 00:43:32,410 Are you really good at singing? 642 00:43:34,330 --> 00:43:38,210 Okay, well, let's have a go at you. Come on, let's have you go. Brilliant, 643 00:43:38,270 --> 00:43:39,270 fantastic. 644 00:43:41,570 --> 00:43:42,850 Brilliant, okay, come. 645 00:43:45,230 --> 00:43:47,870 Down here. What's your name? Aoife. 646 00:43:48,110 --> 00:43:54,090 Aoife. Aoife. We are going to try and use your voice to break this glass here. 647 00:43:54,250 --> 00:43:58,630 All right. So over here, we have a microphone. 648 00:43:59,190 --> 00:44:04,090 Okay. And to help you with that note, we've got the same notes playing in 649 00:44:04,090 --> 00:44:05,090 earphones. 650 00:44:05,810 --> 00:44:10,750 So that should be about the right note so that that note corresponds... 651 00:44:11,080 --> 00:44:13,440 with the natural frequency of this glass. 652 00:44:13,680 --> 00:44:16,700 So it goes into resonance. So you want to get the molecules of the glass 653 00:44:16,700 --> 00:44:23,500 vibrating like the sound energy in the voice of Aoife here to show you just 654 00:44:23,500 --> 00:44:26,140 how destructive sound can be. Aoife, this is really hard to do. 655 00:44:26,540 --> 00:44:31,120 I'll tell you now, I had a go, but I'm a rubbish singer, so I'm expecting 656 00:44:31,120 --> 00:44:34,560 greatness from you. Okay, so ready, steady, go. 657 00:44:51,700 --> 00:44:53,720 Oh, close. Good try. 658 00:44:54,120 --> 00:44:55,120 Good try. 659 00:44:58,440 --> 00:44:59,440 Who's that? 660 00:45:00,180 --> 00:45:06,020 There is someone who can do this. And that is the amazing Lucy Haken, who is 661 00:45:06,020 --> 00:45:09,480 producer, who tells me she can, which is why we're here. So, ladies and 662 00:45:09,480 --> 00:45:10,520 gentlemen, Lucy Haken. 663 00:45:17,580 --> 00:45:20,480 I would protect your ears here, not because Lucy's terrible at singing, but 664 00:45:20,480 --> 00:45:22,860 because it's just very, very loud. Okay, let's have a go. 665 00:46:05,900 --> 00:46:09,340 Aoife, she broke the glass, but you're the much better singer. Thank you so 666 00:46:09,340 --> 00:46:10,740 much. Right 667 00:46:10,740 --> 00:46:19,200 now, 668 00:46:19,480 --> 00:46:23,220 they're still moving on with their mission. They're getting up to the point 669 00:46:23,220 --> 00:46:26,040 where booster step is about to occur. 670 00:46:26,280 --> 00:46:29,660 At 1 minute 58 seconds, the booster separates. 671 00:46:30,990 --> 00:46:35,450 And they still have to pull off one more trick to get into space and to explain 672 00:46:35,450 --> 00:46:37,030 what trick that is. 673 00:46:37,730 --> 00:46:40,050 I'm going to need one volunteer. 674 00:46:40,770 --> 00:46:45,850 All right, let's go up here this time. How about you? Right at the back there. 675 00:46:45,950 --> 00:46:47,470 Yeah, yeah, let's bring you down. 676 00:46:56,210 --> 00:46:57,950 And I need one more volunteer. 677 00:46:59,670 --> 00:47:02,030 Someone who's traveled at 25 times the speed of sound. 678 00:47:02,710 --> 00:47:05,650 Which probably means you, Mike, doesn't it? All right, Mike Barrett. 679 00:47:08,590 --> 00:47:11,510 Now, what's your name? 680 00:47:11,930 --> 00:47:13,050 John. John. 681 00:47:13,830 --> 00:47:18,850 Mike, I'm going to turn you into rocket engines here. This is our rocket. These 682 00:47:18,850 --> 00:47:21,930 bags are your propellant, and you know, because Isaac Newton told us. 683 00:47:22,200 --> 00:47:25,020 that if you throw your propellant out the back, your rocket will go in that 684 00:47:25,020 --> 00:47:29,120 direction. Now, if you get as far as this line, you have got to the space 685 00:47:29,120 --> 00:47:30,120 station, okay? 686 00:47:30,280 --> 00:47:32,900 That's what we've got to do by throwing those bags out that way, okay? 687 00:47:33,460 --> 00:47:36,920 So, I'm going to load you on board now, and Mike, if you would board at the 688 00:47:36,920 --> 00:47:40,580 bottom there, so you're the top of the rocket, and Mike's at the bottom. 689 00:47:41,120 --> 00:47:42,120 All right. 690 00:47:42,180 --> 00:47:45,580 And try not to break the astronaut as you throw them, okay? 691 00:47:45,900 --> 00:47:48,640 Because that's super embarrassing when we return him for NASA. 692 00:47:48,840 --> 00:47:51,280 All right? You got my back, John. Everyone, three. 693 00:47:51,960 --> 00:47:53,960 Two, one, go. 694 00:48:03,200 --> 00:48:04,520 Oh, so close. 695 00:48:06,360 --> 00:48:08,840 What a disaster. 696 00:48:09,080 --> 00:48:11,520 You didn't get to the space station. You're floating in space. 697 00:48:20,600 --> 00:48:21,600 Okay. 698 00:48:21,800 --> 00:48:25,800 So let's try that again, but let's try that the way that Tim's rocket and the 699 00:48:25,800 --> 00:48:29,700 Soyuz dealt with it. This time, we're going to do the staging. 700 00:48:29,980 --> 00:48:34,240 So Mike is going to be the first stage, and you're going to be the second stage, 701 00:48:34,400 --> 00:48:39,340 okay? So when I say three, two, one, first stage, Mike's going to chuck all 702 00:48:39,340 --> 00:48:43,740 fuel out. When I say second stage go, you chuck your fuel out, okay? But that 703 00:48:43,740 --> 00:48:45,980 won't be until you've separated from his stage, all right? 704 00:48:46,940 --> 00:48:50,620 You're going to get rid of the dead weight that is astronaut Mike Barrett 705 00:48:50,620 --> 00:48:55,380 he's got rid of his fuel. Okay, you got that? So three, two, one. 706 00:48:55,800 --> 00:48:56,800 First stage. 707 00:49:03,040 --> 00:49:04,080 And let's separate. 708 00:49:04,880 --> 00:49:06,180 Go, second stage. 709 00:49:17,200 --> 00:49:18,200 High five. 710 00:49:18,540 --> 00:49:20,360 Congratulations. You made it to work. 711 00:49:21,700 --> 00:49:25,640 And that's how you get yourself into space. You get rid of that stage. Once 712 00:49:25,640 --> 00:49:29,360 got rid of its fuel, you get rid of the lower stage, even if Mike's aboard it. 713 00:49:29,440 --> 00:49:30,319 Well done. 714 00:49:30,320 --> 00:49:31,320 Thanks. 715 00:49:32,440 --> 00:49:38,460 And now, over to Tim. 716 00:49:38,970 --> 00:49:42,830 I'm really looking forward to experiencing these stage separations. 717 00:49:42,830 --> 00:49:45,330 high G to low G, you get kind of a tumbling sensation. 718 00:49:45,810 --> 00:49:50,230 And also when the fairing is jettisoned, once you've left most of Earth's 719 00:49:50,230 --> 00:49:54,030 atmosphere, that's when you first get to see the sun, or if it's at night, then 720 00:49:54,030 --> 00:49:55,110 you get to see planet Earth. 721 00:49:56,490 --> 00:49:59,910 And so you've both been there. How does that feel, that moment when you're 722 00:49:59,910 --> 00:50:00,910 getting out there into space? 723 00:50:01,350 --> 00:50:05,790 The actual moment that Mike explained about when you suddenly go from about 3G 724 00:50:05,790 --> 00:50:06,790 to 0G. 725 00:50:07,070 --> 00:50:11,750 I was, it was a delightful feeling because the spaces is so hot but for the 726 00:50:11,750 --> 00:50:14,930 first time the ventilation can actually go behind your back because you're 727 00:50:14,930 --> 00:50:18,710 floating sort of between the sleeves and your straps so the ventilation can go 728 00:50:18,710 --> 00:50:22,670 and dry some of the sweat off and then when you unstrap and you just float out, 729 00:50:22,750 --> 00:50:24,470 isn't that a wonderful free feeling? 730 00:50:24,690 --> 00:50:25,750 Liberating, absolutely. 731 00:50:26,190 --> 00:50:29,430 And it's not just that freedom of floating and of course it never stops. 732 00:50:29,720 --> 00:50:33,980 It just keeps on going, and you forget what it's like. Right now, I can 733 00:50:33,980 --> 00:50:37,280 feel the seat beneath me. I'm sure if you actually think about it, you can 734 00:50:37,280 --> 00:50:41,680 actually feel the floor beneath your feet. You forget what it's like to stand 735 00:50:41,680 --> 00:50:42,680 or sit down. 736 00:50:42,840 --> 00:50:45,220 And best memory for you of that, Mike? 737 00:50:45,550 --> 00:50:48,810 Well, fortunately, the Soyuz is very small, so you don't float very far. 738 00:50:49,050 --> 00:50:52,450 But the first place you float to is to the window. And I think looking out the 739 00:50:52,450 --> 00:50:57,310 window to the Earth was absolutely my best memory. But also, just to know that 740 00:50:57,310 --> 00:51:01,050 you've made it through Athens and you're in orbit is just a great feeling 741 00:51:01,050 --> 00:51:02,190 because everything went right. 742 00:51:02,930 --> 00:51:04,930 Fantastic. Well, stay here, guys. 743 00:51:05,310 --> 00:51:09,670 We're not finished yet, but at least we are in orbit. 744 00:51:10,130 --> 00:51:13,210 But they're just not quite in the right orbit yet. 745 00:51:14,040 --> 00:51:19,000 The ISS is up above them, circling the Earth, 250 miles above the surface of 746 00:51:19,000 --> 00:51:25,100 Earth, travelling at 17 ,500 miles an hour, and Sawyer still has to climb to 747 00:51:25,100 --> 00:51:28,800 there. And the question is, how are they going to do that? And that's much 748 00:51:28,800 --> 00:51:30,240 trickier than you think. 749 00:51:30,720 --> 00:51:34,900 And to show you that, I'm going to need the help of a volunteer. 750 00:51:35,380 --> 00:51:41,200 OK, so let's have you come down. 751 00:51:53,020 --> 00:51:54,460 Now, what's your day? Korshik. 752 00:51:54,980 --> 00:51:55,779 Korshik, okay. 753 00:51:55,780 --> 00:51:59,140 So this is our orbital rendezvous demonstrator, all right? 754 00:51:59,520 --> 00:52:02,580 And here's how it works. You pull that trigger, and these cars are going 755 00:52:02,680 --> 00:52:05,760 Now, one's going faster around the Earth than the other one. 756 00:52:06,400 --> 00:52:09,600 Your speed and where you are in your orbit are inseparable. 757 00:52:09,980 --> 00:52:13,440 So when you're close to the Earth, you're going around the Earth faster. 758 00:52:13,680 --> 00:52:17,780 When you're high in an orbit, like the ISS is, you're going slower. 759 00:52:18,220 --> 00:52:21,400 So if we let this string out here... 760 00:52:22,259 --> 00:52:27,200 You can go higher, but you're traveling slower again. So let's see if you can 761 00:52:27,200 --> 00:52:28,940 get yourself to dock with the ISS. 762 00:52:29,240 --> 00:52:32,840 All right? So if you turn it to the right, it goes out. Turn it to the left, 763 00:52:32,840 --> 00:52:35,660 goes down. All right? It's my favorite Christmas toy, that one. All right, so 764 00:52:35,660 --> 00:52:39,720 pull the trigger and have a go. Now, this is what it's like. This is why 765 00:52:39,720 --> 00:52:45,080 mechanics are so difficult, because your speed is not independent of your 766 00:52:45,080 --> 00:52:47,500 position. If you're higher in orbit... 767 00:52:48,200 --> 00:52:51,020 You're close to the space station, but you're traveling more slowly. So you 768 00:52:51,020 --> 00:52:53,880 to time your run. If you want to catch up with it now, you have to drop down to 769 00:52:53,880 --> 00:52:54,880 a lower orbit. 770 00:52:55,180 --> 00:52:55,959 That's good. 771 00:52:55,960 --> 00:52:59,220 And you're going to catch up. And now you're going to have to time your run so 772 00:52:59,220 --> 00:53:02,240 that you get close to the ISS. Now let's try and get up close, because 773 00:53:02,240 --> 00:53:03,660 truthfully, oh, here we go. 774 00:53:24,590 --> 00:53:26,530 I've never seen anyone do that for the first time. 775 00:53:27,550 --> 00:53:30,190 Are you an astronaut, by any chance? 776 00:53:30,510 --> 00:53:33,130 Well, that was very impressive, Corshid. Thank you so much. Take care. 777 00:53:41,670 --> 00:53:45,670 Maneuver yourself around in space with that sort of reaction, and that's where 778 00:53:45,670 --> 00:53:51,970 we've got to in Tim's mission. We'll go forwards now to 6 hours and 30 minutes 779 00:53:51,970 --> 00:53:53,250 after Tim... 780 00:53:53,560 --> 00:53:58,980 has launched and he's now approaching space station we're going to see some 781 00:53:58,980 --> 00:54:05,540 of that as they approach up here on the screen and they're pulling close and 782 00:54:05,540 --> 00:54:09,700 that is tim's vehicle approaching and of course there are two people in our 783 00:54:09,700 --> 00:54:12,760 audience who know exactly what that feels like i'm going to ask you to 784 00:54:12,760 --> 00:54:16,600 back astronauts helen shaman and mike barrett thank you 785 00:54:26,860 --> 00:54:29,300 So this is six hours, 30 minutes. 786 00:54:29,580 --> 00:54:33,140 They're approaching the space station. Do you guys remember this from your 787 00:54:33,140 --> 00:54:36,130 mission? I remember, and you can't forget it, can you? Because it's 788 00:54:36,250 --> 00:54:41,470 nobody celebrates, nobody in Star City celebrates the launch. You celebrate the 789 00:54:41,470 --> 00:54:43,530 docking, because that's when you know that you're there safely. 790 00:54:43,790 --> 00:54:47,230 And we were actually 200 kilometers away when we knew that we weren't going to 791 00:54:47,230 --> 00:54:50,070 make it automatically, and we took over manual. But you had a different 792 00:54:50,070 --> 00:54:54,950 experience. So we were about a little more than 100 meters out, and then we 793 00:54:54,950 --> 00:54:57,150 a failure of one of the sensors on the engine. 794 00:54:57,470 --> 00:55:00,950 And the guidance computer didn't like it, so it said switch over to manual and 795 00:55:00,950 --> 00:55:01,950 fly that in. 796 00:55:02,830 --> 00:55:07,110 And Tim's docking actually turned out to be much, much more nervy than anyone 797 00:55:07,110 --> 00:55:09,270 thought it was going to be. What happened there, Mike? 798 00:55:09,490 --> 00:55:13,150 So it was a very similar failure. In fact, the same one that we had, but it 799 00:55:13,150 --> 00:55:14,490 inside of 20 meters. 800 00:55:14,840 --> 00:55:17,860 So they were actually very close. And whenever you have two spacecraft very 801 00:55:17,860 --> 00:55:21,420 close together, you want to be sure that they're extremely tightly controlled. 802 00:55:21,720 --> 00:55:25,560 Well, the computer didn't like what it saw, and so it told the spacecraft to 803 00:55:25,560 --> 00:55:29,420 back up, and it did very quickly. In fact, if any of you watch it on TV, 804 00:55:29,420 --> 00:55:33,420 see it beat a very hasty retreat out to a little bit more than 100 meters. 805 00:55:33,720 --> 00:55:37,400 And that's as close as two vehicles have ever got in that procedure. I think 806 00:55:37,400 --> 00:55:40,060 that's about as close as we've come before we had a fail to dock. 807 00:55:40,570 --> 00:55:45,230 Now, to be sure, we trained to do this, and Yuri Malenchikov, the commander, was 808 00:55:45,230 --> 00:55:50,090 absolutely trained to do these manual dockings. And the computers switched 809 00:55:50,090 --> 00:55:53,210 to manual mode and allowed Yuri to fly it, which he did beautifully. 810 00:55:53,930 --> 00:55:56,090 So let's go forward one more time now. 811 00:55:56,850 --> 00:56:01,490 Eight hours, 55 minutes after Tim has left the Earth. 812 00:56:01,790 --> 00:56:05,870 They've docked to the space station, done their final checks, and it's time 813 00:56:05,870 --> 00:56:07,110 open the hatch now. 814 00:56:07,690 --> 00:56:11,430 Now, both of you know what that feels like, don't you? Let's see what Tim 815 00:56:11,430 --> 00:56:12,730 thought he was going to feel like. 816 00:56:13,470 --> 00:56:16,770 Once we docked to the International Space Station, we've still got about two 817 00:56:16,770 --> 00:56:20,610 hours of leak checks to do to make sure everything is safe for us to open the 818 00:56:20,610 --> 00:56:23,050 hatch between the Soyuz spacecraft and the space station. 819 00:56:23,510 --> 00:56:28,130 What would be great is the fact that I'll be meeting Scott and Misha on 820 00:56:28,250 --> 00:56:32,670 who are already eight months into their year -long stay. I said goodbye to them 821 00:56:32,670 --> 00:56:34,630 in Star City, and it'll be great to see them again. 822 00:56:36,020 --> 00:56:37,020 So incredible. 823 00:56:37,140 --> 00:56:38,260 You've both been through that. 824 00:56:39,180 --> 00:56:41,880 Scott Kelly up there, he's a buddy of yours. He's a good friend of mine. We 825 00:56:41,880 --> 00:56:45,300 together, actually. And you've been through that. What's it like getting 826 00:56:45,300 --> 00:56:46,400 the space station, Mike? 827 00:56:46,700 --> 00:56:50,120 Well, the space station is huge. And when you compare that to the very small, 828 00:56:50,220 --> 00:56:54,580 the tiny confines of the Soyuz, it's a big, dramatic change. All of a sudden, 829 00:56:54,600 --> 00:56:59,980 you're in a massive station the size of a 747, if any of you have been on that. 830 00:57:00,160 --> 00:57:03,300 And so all of a sudden, you have a lot of room to maneuver. And after two days 831 00:57:03,300 --> 00:57:07,160 in the Soyuz, it was kind of nice to have the room. Well, it's fantastic to 832 00:57:07,160 --> 00:57:11,620 everyone aboard the space station. Mike Barra, Helen Sharman, thank you so much 833 00:57:11,620 --> 00:57:13,580 for joining us tonight. It's fantastic to see you. 834 00:57:31,440 --> 00:57:35,380 And we have one final message from Tim. 835 00:57:37,080 --> 00:57:38,080 That's all for now. 836 00:57:38,460 --> 00:57:42,000 looking forward to talking to you again at the next christmas lectures fingers 837 00:57:42,000 --> 00:57:43,260 crossed good luck 838 00:57:43,260 --> 00:57:51,460 and 839 00:57:51,460 --> 00:57:56,160 that brings us to the end of the first of our lectures the crew have survived 840 00:57:56,160 --> 00:57:59,720 launch they've survived orbital rendezvous they've survived the docking 841 00:57:59,720 --> 00:58:05,010 they're safely aboard the space station and next time we'll be finding out as 842 00:58:05,010 --> 00:58:09,510 Tim begins his six -month expedition aboard the International Space Station. 843 00:58:09,510 --> 00:58:14,170 just how to survive in space, but how to live and work there. And what you do if 844 00:58:14,170 --> 00:58:16,130 something goes really, really wrong. 845 00:58:16,610 --> 00:58:22,650 And also, even more exciting, is we'll be having the first recorded message 846 00:58:22,650 --> 00:58:28,710 Tim, from the ISS. But for now, I am Dr Kevin Fong, and this has been How to 847 00:58:28,710 --> 00:58:30,250 Survive in Space. 77957