WEBVTT FILE 1 00:00:00.000 --> 00:00:05.680 [music] 2 00:00:05.680 --> 00:00:09.100 I think that it's in human nature to explore. Understanding the moon better 3 00:00:09.100 --> 00:00:11.560 [music] 4 00:00:11.580 --> 00:00:16.940 Understanding the moon better will help us to understand our neighbors in the solar system. 5 00:00:16.949 --> 00:00:22.050 We're exploiting the solar system here not just the moon. The moon is the 6 00:00:22.050 --> 00:00:27.400 natural next step in in our exploration of our own universe. 7 00:00:27.400 --> 00:00:34.700 [music] 8 00:00:34.700 --> 00:00:38.940 [Tooley] The Lunar Reconnaissance Orbiter is as its namesake says a reconnaissance 9 00:00:38.950 --> 00:00:43.330 mission to the moon. Our job is to take a suite of very powerful scientific 10 00:00:43.330 --> 00:00:47.590 instruments and make an atlas of the entire moon. In some places in very great 11 00:00:47.590 --> 00:00:53.020 detail, topography, mountain heights, mineralogy, temperatures, abundances of 12 00:00:53.020 --> 00:00:56.230 resources including potentially the intriguing possibility that there's 13 00:00:56.230 --> 00:00:59.110 water at the moon. We put all this together and do a data set by playing 14 00:00:59.110 --> 00:01:03.190 low over the moon for a year this is the data that the people designing the 15 00:01:03.190 --> 00:01:08.229 systems picking the site's need to take us back to the moon. [Vondrak] Well we learned much 16 00:01:08.229 --> 00:01:12.760 about the moon from the Apollo program but now we want to return to the moon 17 00:01:12.760 --> 00:01:17.740 for a more intensive study. We want to be able to go back to the moon so that we 18 00:01:17.740 --> 00:01:22.240 can live there for long periods and work on the moon. So we need a mission that 19 00:01:22.240 --> 00:01:27.920 can help us find the best places to go and determine how to go back there safely. 20 00:01:27.920 --> 00:01:31.620 [music] 21 00:01:31.620 --> 00:01:34.600 [Peddie] We know that you know Neil Armstrong and some of the others had a 22 00:01:34.600 --> 00:01:38.740 difficult time finding a safe landing site. They didn't see it till they got 23 00:01:38.740 --> 00:01:42.609 there. But now with with our instruments we'll be able to tell people ahead of 24 00:01:42.609 --> 00:01:48.939 time look don't go there. [Vondrak] LRO will have a laser system that will give us a high 25 00:01:48.939 --> 00:01:54.640 resolution topographic map of the moon. It also has high resolution cameras that 26 00:01:54.640 --> 00:01:59.920 will identify objects that are only a foot or two in size so that we know 27 00:01:59.920 --> 00:02:04.719 where there are no large boulders that could be a risk to astronauts. [Tooley] So our job 28 00:02:04.719 --> 00:02:07.509 is to literally complete the job of mapping the moon do it at high 29 00:02:07.509 --> 00:02:12.910 resolutions and enable enable the designers of the human systems, the Atlas 30 00:02:12.910 --> 00:02:16.600 they need to pick the safe places to go the beneficial places to go and where 31 00:02:16.600 --> 00:02:18.040 it's most fruitful to go. 32 00:02:18.040 --> 00:02:21.680 [music] 33 00:02:21.680 --> 00:02:25.560 [Peddie] In addition to the safe landing sites, LRO is looking for potential resources. 34 00:02:25.569 --> 00:02:29.590 And why are we doing that? Because it's it's really hard to carry 35 00:02:29.590 --> 00:02:33.849 all your supplies with you. I mean you can do it but you really spend a lot of 36 00:02:33.849 --> 00:02:38.439 not only fuel but cargo space. So it'd be really nice to go to a place that 37 00:02:38.439 --> 00:02:44.019 already has the resources. Whether it's water ice to have water or potential 38 00:02:44.019 --> 00:02:48.340 minerals that we could use as raw materials to make into things that we 39 00:02:48.340 --> 00:02:53.049 would need. [Vondrak] We think the most interesting parts of the Moon may be the polar 40 00:02:53.049 --> 00:02:58.359 regions of the Moon. Because there could be resources there and so we're going to 41 00:02:58.359 --> 00:03:03.819 study intensively the polar regions with LRO. [Tooley] From the Apollo era we chose to go 42 00:03:03.819 --> 00:03:07.180 for good reasons because it was literally the easiest to go to the 43 00:03:07.180 --> 00:03:11.040 equatorial regions and stay a very short time and was very ambitious program. But 44 00:03:11.040 --> 00:03:15.579 but when you look at where would you like to go and stay for a while on the 45 00:03:15.579 --> 00:03:20.340 moon. You begin to realize that probably the poles are the most interesting place 46 00:03:20.340 --> 00:03:25.629 [Keller] Access to solar power continuously that may be the first and most important 47 00:03:25.629 --> 00:03:30.849 reason over you know the near term. And then the possibility of resources being 48 00:03:30.849 --> 00:03:35.769 there. Those may take much longer time before we're able to really exploit 49 00:03:35.769 --> 00:03:41.139 those. But the solar power is something we can exploit right away. 50 00:03:41.139 --> 00:03:46.180 [Vondrak] The second big resource on the moon may be water ice. There's evidence from 51 00:03:46.180 --> 00:03:52.359 earlier missions that in dark places at the poles there may be water at the 52 00:03:52.359 --> 00:03:57.629 surface or below the surface in the form of ice crystals. If it is abundant 53 00:03:57.629 --> 00:04:04.090 astronauts could use this for both human consumption and as a source of rocket 54 00:04:04.090 --> 00:04:08.540 fuel LRO. 55 00:04:08.540 --> 00:04:13.180 LRO will measure for the first time this very energetic component of the 56 00:04:13.180 --> 00:04:17.700 space radiation environment in order to see whether it's going to be a problem 57 00:04:17.709 --> 00:04:23.949 for humans or not. [Tooley] It was one thing to go for a handful of days in Apollo and go 58 00:04:23.949 --> 00:04:27.880 when you knew that the Sun was quiet or you hope the Sun stayed quiet. 59 00:04:27.880 --> 00:04:32.620 And you took the risk you calculated the risk of cancer and such in and you made 60 00:04:32.620 --> 00:04:35.410 a short mission. You're gonna live there longer you need to you need to 61 00:04:35.410 --> 00:04:39.460 understand it well enough to go here's what I need to do to protect myself. 62 00:04:39.460 --> 00:04:45.490 [Peddie] One of the things that we're looking for in the LRO mission is how the high 63 00:04:45.490 --> 00:04:50.710 radiation environment affects our ability to explore. So if we bring 64 00:04:50.710 --> 00:04:56.440 cameras or communication devices you know how will they be impacted by the 65 00:04:56.440 --> 00:05:01.800 cosmic radiation? We need to protect our equipment as well as ourselves. 66 00:05:01.800 --> 00:05:09.280 [music] 67 00:05:09.280 --> 00:05:13.930 [Tooley] When we look back to what we did in LRO and we look at what followed. I think we'll see 68 00:05:13.930 --> 00:05:19.810 a profound impact. We'll see us is really being the small first step where we have 69 00:05:19.810 --> 00:05:23.560 human beings permanently off this planet, getting to move out into the solar 70 00:05:23.560 --> 00:05:27.250 system starting with the moon. As that pans out I think I think will be a small 71 00:05:27.250 --> 00:05:31.390 piece of a profound development that when history looks back to say this time 72 00:05:31.390 --> 00:05:36.130 we went back to the moon this time we we stayed and we when we moved on from 73 00:05:36.130 --> 00:05:38.370 there. 74 00:05:38.370 --> 00:05:47.420 [music]