WEBVTT FILE 0 00:00:00.100 --> 00:00:06.360 NATALIE: There are still so many questions locked up in these rocks. It's exciting times just to be studying them. 1 00:00:06.360 --> 00:00:13.700 BARBARA: So we have a big window (a big gap) in our understanding of the early Earth, and the moon preserves that history. 2 00:00:13.700 --> 00:00:21.090 Where did all of this stuff come from? How did it form? What was the process? Does it happen all the time across the universe? 3 00:00:21.090 --> 00:00:25.900 Or, are we somehow unique or at least a usual? What does all mean? 4 00:00:25.900 --> 00:00:28.982 NARRATOR: I'm Katie Atkinson and this is NASA explorers Apollo 5 00:00:28.982 --> 00:00:33.200 where we tell stories about our moon and the people who explore it. 6 00:00:33.200 --> 00:00:40.000 [ARCHIVAL AUDIO FOOTAGE] 7 00:00:40.000 --> 00:00:43.200 [MUSIC] 8 00:00:43.200 --> 00:00:48.000 NARRATOR: When astronauts travelled to the Moon, they explored its mysterious surface. 9 00:00:48.000 --> 00:00:59.860 [ARCHIVAL AUDIO FOOTAGE: Look at this soil! It’s all cake-looking, isn’t it? Yeah it is! Okay, let me get the soil before you start whacking, okay? Oh yeah! Very good…] 10 00:00:59.860 --> 00:01:03.800 They collected bits of soil, rock and dust to bring back to Earth. 11 00:01:03.800 --> 00:01:06.500 And they were pretty excited about it. 12 00:01:06.500 --> 00:01:18.900 [ARCHIVAL AUDIO FOOTAGE: Oh! Hey! There is orange soil! Well, don't move until I see it. It's all over! Orange! Don't move until I see it!] 13 00:01:18.900 --> 00:01:25.080 NARRATOR: Each sample was carefully harvested and preserved so that scientists of the future could learn more about the past. 14 00:01:25.080 --> 00:01:31.560 Inside of those samples? Rich stories about the age of our moon and clues about its history. 15 00:01:31.560 --> 00:01:36.000 Natalie Curran is one of the keepers of these tiny precious artifacts. 16 00:01:36.200 --> 00:01:40.900 She's been thinking about Apollo since she was a kid. 17 00:01:40.900 --> 00:01:42.640 [Music] 18 00:01:42.640 --> 00:01:48.180 NATALIE: I think it was my uncle that brought me back (he went to Kennedy Space Center) 19 00:01:48.180 --> 00:01:51.860 and he brought me a pack of post cards, with all images from Apollo 11. 20 00:01:51.860 --> 00:01:55.720 They went all up around my wall when I was a child. 21 00:01:55.720 --> 00:01:58.120 Ever since I've always wanted to do something with space. 22 00:01:58.120 --> 00:02:00.680 [MUSIC] 23 00:02:00.680 --> 00:02:04.160 NARRATOR: These days Natalie calls herself a lazy astronaut. 24 00:02:04.160 --> 00:02:07.460 The moon rocks come to her instead of the other way around. 25 00:02:07.460 --> 00:02:13.840 Natalie is a NASA postdoctoral fellow and a planetary scientist who spends her days with Apollo samples. 26 00:02:13.840 --> 00:02:23.140 NATALIE: I'm currently working in our MNGRL lab which stands for Mid-Atlantic noble-gas research lab, which is here at NASA Goddard. 27 00:02:23.140 --> 00:02:27.740 NARRATOR: Natalie focuses specifically on samples from Apollo 16, 28 00:02:27.740 --> 00:02:31.980 which she looks at to learn more about the formation of the surface of our moon. 29 00:02:31.980 --> 00:02:39.757 NATALIE: So, a lot of the samples that we have are quite old. So they're some of the older rocks that you'll get on the moon. 30 00:02:39.757 --> 00:02:43.580 We're looking at rocks that are older than four billion years old. 31 00:02:43.580 --> 00:02:50.080 Every time you look at something or think of something like that, what you just analyzed is older 32 00:02:50.080 --> 00:02:55.900 than anybody that we know, anything that we know as living, and that, again, 33 00:02:55.900 --> 00:03:03.480 is quite an amazing kind of achievement just in its own way to be holding and analyzing these ancient rocks. 34 00:03:03.480 --> 00:03:08.660 NARRATOR: As it turns out, the moon can teach us a lot about the history of our solar system. 35 00:03:08.660 --> 00:03:13.700 Scientists like Natalie study lunar rocks, soil, dust and sand. 36 00:03:13.700 --> 00:03:19.360 She and her fellow scientists weigh, measure and scrutinize samples to find answers 37 00:03:19.360 --> 00:03:22.440 and sometimes, even more questions. 38 00:03:22.440 --> 00:03:26.880 The process teaches scientists about the makeup and evolution of our moon, 39 00:03:26.880 --> 00:03:29.680 but it also reveals plenty about our home planet. 40 00:03:29.680 --> 00:03:36.220 NATALIE: Unlike the Earth, which, we've had quite a complex history of plate tectonics, 41 00:03:36.220 --> 00:03:39.130 where it's erased some of the surface, 42 00:03:39.130 --> 00:03:43.000 the moon hasn't had any plate tectonics like that. So the actual surface of the Moon 43 00:03:43.000 --> 00:03:48.900 provides the perfect archive of both lunar history and solar history 44 00:03:48.900 --> 00:03:55.020 that we can go collect some different age samples tell us a lot about how 45 00:03:55.020 --> 00:03:57.120 the moon and the solar system has evolved. 46 00:03:57.120 --> 00:04:02.720 [MUSIC] 47 00:04:02.720 --> 00:04:08.180 BARBARA: The moon goes farther back in our past than we can on the Earth. 48 00:04:08.180 --> 00:04:11.000 The Earth and the moon formed together at about the same time 49 00:04:11.000 --> 00:04:16.344 four and a half billion years ago. It's a really long time ago. But because we have water 50 00:04:16.344 --> 00:04:23.440 on the Earth and plate tectonics and a whole bunch of things that erase our surface and renew our surface, 51 00:04:23.440 --> 00:04:27.200 the rocks on the earth don't go back further than about three billion years. 52 00:04:27.200 --> 00:04:38.743 So we have a big window (a big gap) in our understanding of the early Earth and the moon preserves that history. 53 00:04:38.743 --> 00:04:41.920 NARRATOR: That's Barbara Cohen. She started and leads the MNGRL lab. 54 00:04:41.920 --> 00:04:47.800 Her team studies noble gases to learn more about the age of the lunar samples. 55 00:04:47.800 --> 00:04:55.000 BARBARA: And those gases are interesting to us because they help us tell when that rock was made and how it was made 56 00:04:55.000 --> 00:05:01.080 and what process is it underwent. So we are trying to understand the geology of another planet through its rocks 57 00:05:01.080 --> 00:05:06.140 And we use those gases to trace the processes that it went through on another planet. 58 00:05:06.140 --> 00:05:11.760 The element Potassium decays overtime to the element Argon which is a noble gas. 59 00:05:11.760 --> 00:05:19.302 And so we look at the ratio of potassium to argon in the rock and we say how much potassium was there to begin with 60 00:05:19.302 --> 00:05:25.240 and how much has decayed to the element Argon overtime? That's a little clock inside the Rock. 61 00:05:25.240 --> 00:05:30.380 NARRATOR: While scientists like Natalie and Barbara are interested in lunar and solar history, 62 00:05:30.380 --> 00:05:33.780 NASA's astrochemists, like Jaime El Cielo, 63 00:05:33.780 --> 00:05:37.860 want to know what the samples can tell them about the origins of life 64 00:05:37.860 --> 00:05:44.180 A lot of times what I'm doing is working in a lab with meteorites or other extraterrestrial samples, 65 00:05:44.180 --> 00:05:50.548 including the lunar soil samples that we've worked with. I will take these samples, grind them up into a powder, 66 00:05:50.548 --> 00:05:56.516 seal them up in a vial with water and heat them and basically make meteorite tea or lunar tea out of them. 67 00:05:56.516 --> 00:06:02.700 I'm pulling out the soluble compounds and I try to understand how these chemical compounds formed 68 00:06:02.700 --> 00:06:06.360 and evolved and were distributed in the early solar system. 69 00:06:06.360 --> 00:06:09.360 [ARCHIVAL AUDIO FOOTAGE: Okay, let me get to the soil before you start whacking okay?] 70 00:06:09.360 --> 00:06:14.740 BARBARA: I'm very grateful for the scientists who had the foresight to 71 00:06:14.740 --> 00:06:21.200 archive these examples and for the curators who kept them all this time in a state 72 00:06:21.200 --> 00:06:24.640 that was ready for us to be able to look at 73 00:06:24.640 --> 00:06:30.593 JAMIE: It didn't as a kid seemed like something spectacular to me. I was just part of history. But now when I get to handle these 74 00:06:30.593 --> 00:06:36.402 lunar samples in the lab and I stop and think about what it took to bring these back to Earth and where they've been and 75 00:06:36.402 --> 00:06:41.450 what the history of the samples is, sometimes I'm working in the lab and I just stop 76 00:06:41.450 --> 00:06:43.160 and I'm just overwhelmed by this amazement. 77 00:06:43.160 --> 00:06:48.660 NARRATOR: Each sample, carefully cultivated by lunar explorers, reveals more about the moon 78 00:06:48.660 --> 00:06:50.000 and planet Earth. 79 00:06:50.000 --> 00:06:54.030 [MUSIC] 80 00:06:54.030 --> 00:07:00.960 There's still so many questions locked up in these rocks that it's exciting times just to be studying them. 81 00:07:00.960 --> 00:07:06.380 NARRATOR: Barbara, Natalie and Jamie will have the opportunity to keep learning about our moon very soon. 82 00:07:06.380 --> 00:07:14.000 They were recently selected to open up and study never-before-seen Apollo samples. 83 00:07:14.000 --> 00:07:16.940 Who knows what they'll uncover in the future. 84 00:07:16.940 --> 00:07:22.040 [MUSIC] 85 00:07:22.040 --> 00:07:25.600 We asked you to help NASA tell the story of Apollo. 86 00:07:25.600 --> 00:07:29.660 Hundreds of people answered from all over the world. 87 00:07:29.660 --> 00:07:34.420 Here's what Sophie, a 13-year-old from Greece, had to say. 88 00:07:34.420 --> 00:07:39.980 SOPHIE: Hi, I am 13 years old. I am from Greece and I live in Athens. 89 00:07:39.980 --> 00:07:46.780 I am very interested in space exploration and I would like to become an astrophysicist. 90 00:07:46.780 --> 00:07:54.800 Even though I was not born when the first humans walked on the moon, the Apollo program means a lot to me. 91 00:07:54.800 --> 00:08:02.000 The Apollo program and all of the people who worked in order to make the impossible possible 92 00:08:02.000 --> 00:08:05.920 inspired me in a way that changed my whole life. 93 00:08:05.920 --> 00:08:12.300 Now, after having learned all of these things about the Apollo Mission, whenever I look at the Moon, 94 00:08:12.300 --> 00:08:15.660 I dream about where the humankind is capable of going. 95 00:08:15.660 --> 00:08:22.206 When I think of the Moon I feel wonder and admiration because of the fact that humans have been there 96 00:08:22.260 --> 00:08:27.940 and because of the fact that this act has inspired hundreds of thousands of people, including myself. 97 00:08:27.940 --> 00:08:34.940 Furthermore, whenever I think of the Moon, I think that humans are now maybe, 98 00:08:34.940 --> 00:08:40.870 after so many years of space exploration, to make a step further of the Moon to Mars 99 00:08:40.870 --> 00:08:44.760 and who knows, maybe in a few years, even further to the interstellar space. 100 00:08:44.760 --> 00:08:49.860 I believe that the Apollo program made it clear that the sky isn't the limit. 101 00:08:49.860 --> 00:08:52.520 [MUSIC] 102 00:08:52.520 --> 00:08:55.060 What do you remember about Apollo? 103 00:08:55.060 --> 00:08:59.860 Or, what space exploration do you hope to see in your lifetime? 104 00:08:59.860 --> 00:09:11.310 We want to hear your Apollo stories. Visit nasa.gov/apollostories to learn how to get involved. 105 00:09:11.404 --> 00:09:16.570 This is the only long-term information that we have from the surface of the Moon. 106 00:09:16.570 --> 00:09:18.665 I don't think the search for data is over with. 107 00:09:18.665 --> 00:09:23.480 Where did all of this stuff come from? How did it form? What was the process? 108 00:09:23.480 --> 00:09:31.497 Does it happen all the time across the universe? Or are we somehow unique or at least unusual? What does it all mean? 109 00:09:31.497 --> 00:09:34.000 [MUSIC]