WEBVTT FILE 1 00:00:00.000 --> 00:00:03.337 >>KENNEDY: We choose to go to the moon in this decade and do 2 00:00:03.337 --> 00:00:07.374 the other things. Not because they are easy but because they 3 00:00:07.374 --> 00:00:11.245 are hard! >>ARMSTRONG: That's one small step for man... 4 00:00:11.245 --> 00:00:15.148 >>NARRATOR: One of humanity's greatest achievements. 5 00:00:15.148 --> 00:00:20.254 >>ARMSTRONG: One giant leap for mankind. >>NARRATOR: And one of 6 00:00:20.254 --> 00:00:23.390 humanity's greatest scientific tools. >>LECKRONE: The world's 7 00:00:23.390 --> 00:00:27.694 most brilliant astronomers do miracles with this observatory. 8 00:00:27.694 --> 00:00:31.865 >>WISEMAN: Hubble is profoundly significant, I think, for 9 00:00:31.865 --> 00:00:34.568 humanity. >>NARRATOR: You might be surprised to learn that the 10 00:00:34.568 --> 00:00:38.138 Hubble Space Telescope and landing on the moon in 2024 have 11 00:00:38.138 --> 00:00:41.975 a lot to do with each other. In fact, when you think of Hubble, 12 00:00:41.975 --> 00:00:45.712 usually those gorgeous pictures first come to mind. But after 13 00:00:45.712 --> 00:00:49.783 Jim Garvin’s 2005 research using Hubble, what have we learned 14 00:00:49.783 --> 00:00:53.086 about prospecting the moon for locations to establish a human 15 00:00:53.086 --> 00:00:56.356 presence for the 2024 Artemis mission? >>GARVIN: Hubble's one 16 00:00:56.356 --> 00:01:00.260 little piece of that masterpiece we've been working on for 50 17 00:01:00.260 --> 00:01:04.731 years, so that people can use the Moon as a special place, as 18 00:01:04.731 --> 00:01:07.768 Mother Nature's great control experiment next door. 19 00:01:07.768 --> 00:01:14.007 >> "Hubble and Going Forward to the Moon" 20 00:01:14.007 --> 00:01:16.877 >>SAGAN: Space Telescope is, in a way, a little like 21 00:01:16.877 --> 00:01:19.780 Galileo's first telescope. Whereever 22 00:01:19.780 --> 00:01:24.051 Galileo pointed his telescope he made major new discoveries. Look 23 00:01:24.051 --> 00:01:27.154 at the Moon, you find mountains and craters, look at Saturn, you 24 00:01:27.154 --> 00:01:31.024 find rings, look at the Milky Way and you find it is littered 25 00:01:31.024 --> 00:01:35.762 and composed of stars. Every one of these discoveries are things 26 00:01:35.762 --> 00:01:38.699 that people had not known before. I think it's going to be 27 00:01:38.699 --> 00:01:43.103 very similar with the Space Telescope. >>NARRATOR: 340 miles 28 00:01:43.103 --> 00:01:45.439 above the Earth’s surface, Hubble orbits over the 29 00:01:45.439 --> 00:01:48.375 distorting effects of the atmosphere, enabling us to look 30 00:01:48.375 --> 00:01:52.179 deeper into space than any ground based telescope. Hubble 31 00:01:52.179 --> 00:01:56.049 was specially designed to be upgraded while in space. Through 32 00:01:56.049 --> 00:01:59.920 five servicing missions over the years, astronauts have repaired, 33 00:01:59.920 --> 00:02:03.724 restored, and updated Hubble to make it better than ever. The 34 00:02:03.724 --> 00:02:06.593 Hubble Space telescope has taught us a lot about our place 35 00:02:06.593 --> 00:02:10.931 in the universe, but back in 2005. then NASA chief scientist 36 00:02:10.931 --> 00:02:14.401 Jim Garvin decided to focus Hubble’s powerful instruments on 37 00:02:14.401 --> 00:02:16.937 something a little closer to home. >>GARVIN: What if we used 38 00:02:16.937 --> 00:02:21.008 Hubble to do what it's best at? Be a precision photometer in 39 00:02:21.008 --> 00:02:24.344 wavelengths where it's very convenient, the Lunar soils 40 00:02:24.344 --> 00:02:27.214 light up like firecrackers if they're rich in certain 41 00:02:27.214 --> 00:02:30.984 minerals. We know from Apollo samples that some of the Lunar 42 00:02:30.984 --> 00:02:34.855 soils and rocks are literally ore bodies. And so the idea of 43 00:02:34.855 --> 00:02:39.359 using Hubble with this exquisite ultraviolet imaging capability 44 00:02:39.359 --> 00:02:42.362 with the ACS instrument at that point, and then maybe later with 45 00:02:42.362 --> 00:02:46.433 others, to target the Moon came alive. >>NARRATOR: Imagine, 46 00:02:46.433 --> 00:02:50.470 you’re 240,000 miles away from Earth, yeah you’ll be getting 47 00:02:50.470 --> 00:02:53.674 packages from home every once in a while, but you’re going to 48 00:02:53.674 --> 00:02:57.210 need to be self sufficient too. And that’s where Hubble comes 49 00:02:57.210 --> 00:02:59.379 in… >>GARVIN: We realized that some of the Moon rocks might be 50 00:02:59.379 --> 00:03:02.282 resources, and if they found them on Earth we'd be mining 51 00:03:02.282 --> 00:03:06.686 them. So using the eyes of Hubble where it has exquisite 52 00:03:06.686 --> 00:03:11.258 precision and resolution in ways that go beyond our eyes, beyond 53 00:03:11.258 --> 00:03:14.027 normal spacecraft we fly to orbit planets, was an 54 00:03:14.027 --> 00:03:18.632 opportunity to use an astronomical asset, a historical 55 00:03:18.632 --> 00:03:21.835 one, a cathedral to the stars to observe the Moon in a way where 56 00:03:21.835 --> 00:03:25.906 we could test, prospect for these resources in three places. 57 00:03:25.906 --> 00:03:29.676 And we were spectacular beyond success with the capability of 58 00:03:29.676 --> 00:03:33.680 Hubble to see things we couldn't see, at finer scales. Hubble 59 00:03:33.680 --> 00:03:38.118 became a resource prospector to light the way for following 60 00:03:38.118 --> 00:03:41.521 missions, Lunar Reconnaissance Orbiter, to fill in the gaps, to 61 00:03:41.521 --> 00:03:44.124 paint the picture of the Moon that we're going to go back to. 62 00:03:44.124 --> 00:03:47.994 We were attempting to be catalysts, pathfinders, for how 63 00:03:47.994 --> 00:03:52.632 we might use the Moon in ways that are more creative than many 64 00:03:52.632 --> 00:03:55.669 had ever thought it could be used. What if we could live off 65 00:03:55.669 --> 00:03:59.439 the Moon's resources in ways that enable us not to have to 66 00:03:59.439 --> 00:04:02.342 bring everything with us? We'll use the Moon as the springboard 67 00:04:02.342 --> 00:04:06.646 in confidence to go onto Mars. >>NARRATOR: But establishing 68 00:04:06.646 --> 00:04:10.283 ourselves on the Moon is just the first part of NASA's goal. 69 00:04:10.283 --> 00:04:13.820 There are some bigger plans in store for the future, and you 70 00:04:13.820 --> 00:04:16.790 can be sure that Hubble is a part of that next journey as 71 00:04:16.790 --> 00:04:21.061 well. >>COLON: I'm very excited about the Artemis mission, but 72 00:04:21.061 --> 00:04:26.399 even beyond that the whole idea is to go to Mars. So this whole 73 00:04:26.399 --> 00:04:30.637 process is about making sure we can get back to the Moon safely, 74 00:04:30.637 --> 00:04:35.008 and extending that to be able to journey to other planets, like 75 00:04:35.008 --> 00:04:39.613 Mars, in the future. And Hubble gets to study these objects in 76 00:04:39.613 --> 00:04:44.084 the solar system, including Mars, it studies weather on Mars 77 00:04:44.084 --> 00:04:48.555 regularly and being able to monitor at great levels of 78 00:04:48.555 --> 00:04:52.058 detail these storms helps us better understand the surface of 79 00:04:52.058 --> 00:04:56.830 Mars and where it's safe to land for example, for humans to 80 00:04:56.830 --> 00:05:01.501 visit. So Hubble's really been able to help be a part of this 81 00:05:01.501 --> 00:05:05.105 journey as humans get to go from the Moon to Mars in that sense. 82 00:05:05.105 --> 00:05:10.544 >>CEPI: It's about newness, it's about challenge, it's about 83 00:05:10.544 --> 00:05:14.381 going out there in the forefront of technology and breaking 84 00:05:14.381 --> 00:05:19.119 through. And Hubble represents that to the greatest degree I 85 00:05:19.119 --> 00:05:23.056 can think of. Because it allows us to do it in a big way and in 86 00:05:23.056 --> 00:05:26.726 a small way. It allows us to do it in detectors, it allows us to 87 00:05:26.726 --> 00:05:31.298 do it in computer technology, and optical fabrication, and 88 00:05:31.298 --> 00:05:35.936 optical polishing. But it also gives us this big picture, it 89 00:05:35.936 --> 00:05:40.941 gives us this great challenge of making things better. >>WISEMAN: 90 00:05:46.680 --> 00:05:51.618 People everywhere look up at the same sky and say 'we're all part 91 00:05:51.618 --> 00:05:54.788 of something together, we're all citizens of planet Earth, and 92 00:05:54.788 --> 00:05:57.524 we're all part of this magnificent Universe.' And 93 00:05:57.524 --> 00:06:01.761 having some kind of constructive presence around the Moon, I 94 00:06:01.761 --> 00:06:04.998 think it will be very exciting for people around the globe. So 95 00:06:04.998 --> 00:06:08.001 we are excited about that, and we're excited about the way 96 00:06:08.001 --> 00:06:10.704 science missions, and satellites, and probes, and 97 00:06:10.704 --> 00:06:14.941 telescopes can compliment human spaceflight to give us a full 98 00:06:14.941 --> 00:06:18.578 suite of information, whether it's trying to understand how 99 00:06:18.578 --> 00:06:21.848 humans can survive off planet Earth, or whether it's just 100 00:06:21.848 --> 00:06:26.553 basic curiosity about how did the Earth and the Moon form, and 101 00:06:26.553 --> 00:06:31.324 how does that compare to planets outside our solar system? All of 102 00:06:31.324 --> 00:06:35.562 these information gathering missions are very helpful to our 103 00:06:35.562 --> 00:06:38.965 understanding of who we are as human beings, and to our quest 104 00:06:38.965 --> 00:06:42.802 for exploring space. >>GARVIN: One object that's in our destiny 105 00:06:42.802 --> 00:06:46.673 is the Moon. We've been there, six times, 50 years ahead of our 106 00:06:46.673 --> 00:06:50.477 time with project Apollo. We're ready to go back, women and men, 107 00:06:50.477 --> 00:06:55.782 for the long haul. And that prime directive will put people 108 00:06:55.782 --> 00:06:59.786 on the Moon again in the year 2024. Hubble has been one of 109 00:06:59.786 --> 00:07:02.922 those pieces of the mosaic of information to help us 110 00:07:02.922 --> 00:07:07.294 understand what the Moon offers, what we could use the Moon for 111 00:07:07.294 --> 00:07:11.164 as we're there. So now we could see our Universe, our solar 112 00:07:11.164 --> 00:07:14.034 system in a new light, and now we're ready to capitalize on 113 00:07:14.034 --> 00:07:17.771 that. And that's what Artemis, what Hubble, what the future of 114 00:07:17.771 --> 00:07:20.807 space exploration is about. Let's capitalize on what we've 115 00:07:20.807 --> 00:07:23.476 learned. We're out of the dark ages, we're coming into the new 116 00:07:23.476 --> 00:07:26.980 light, let's go! 117 00:07:26.980 --> 00:07:45.065 [INSPIRING MUSIC] 118 00:07:45.065 --> 00:00:00.000 [SILENCE]