WEBVTT FILE 1 00:00:00.067 --> 00:00:01.602 [music] 2 00:00:01.602 --> 00:00:04.304 Compared to Earth, the moon appears to be perfectly dry 3 00:00:04.304 --> 00:00:07.841 and airless, but in fact it possesses an extremely sparse 4 00:00:07.841 --> 00:00:11.044 atmosphere, barely thicker than a vacuum. 5 00:00:11.044 --> 00:00:15.215 From late 2013 to early 2014, a NASA mission called LADEE 6 00:00:15.215 --> 00:00:18.352 explored the lunar atmosphere and dust environment. 7 00:00:18.352 --> 00:00:21.655 Now, LADEE's observations have led to a new discovery about the 8 00:00:21.655 --> 00:00:23.357 moon's water. 9 00:00:23.357 --> 00:00:27.127 During the initial exploration of the moon, and the analysis of 10 00:00:27.127 --> 00:00:29.329 all the returned samples from the Apollo and the Luna 11 00:00:29.329 --> 00:00:32.666 missions, we thought that the surface of the moon was dry. 12 00:00:32.666 --> 00:00:37.170 But more recent missions, like Lunar Prospector, LCROSS, and 13 00:00:37.170 --> 00:00:40.540 Lunar Reconnaissance Orbiter, have not only shown that the 14 00:00:40.540 --> 00:00:44.611 surface of the moon has a global hydration, but there are 15 00:00:44.611 --> 00:00:48.949 actually high concentrations of ice water in the permanently 16 00:00:48.949 --> 00:00:52.319 shadowed regions of the lunar poles. 17 00:00:52.319 --> 00:00:55.122 In the decades following the Apollo program, a series of 18 00:00:55.122 --> 00:00:58.425 robotic explorers revealed tantalizing hints of water on 19 00:00:58.425 --> 00:01:00.794 the moon, challenging the conclusion that the moon was 20 00:01:00.794 --> 00:01:02.195 dry. 21 00:01:02.195 --> 00:01:05.666 The first definitive discovery of water was made in 2008 by the 22 00:01:05.666 --> 00:01:08.135 Indian mission Chandrayaan-1, which detected hydroxyl 23 00:01:08.135 --> 00:01:11.238 molecules spread across the lunar surface and concentrated 24 00:01:11.238 --> 00:01:13.006 at the poles. 25 00:01:13.006 --> 00:01:15.842 The following year, NASA's LCROSS mission deliberately 26 00:01:15.842 --> 00:01:18.745 impacted part of its launch vehicle into the southern crater 27 00:01:18.745 --> 00:01:22.516 Cabeus, ejecting a plume that contained water ice. 28 00:01:22.516 --> 00:01:25.652 These discoveries showed that the moon harbors water, and that 29 00:01:25.652 --> 00:01:28.689 the highest concentrations occur within darkened craters at the 30 00:01:28.689 --> 00:01:29.790 poles. 31 00:01:29.790 --> 00:01:32.993 But questions remained about the abundance of water at the moon's 32 00:01:32.993 --> 00:01:34.528 mid latitudes. 33 00:01:34.528 --> 00:01:37.998 Now, data from LADEE are beginning provide answers. 34 00:01:37.998 --> 00:01:42.135 What we discovered is that the surface releases its water when 35 00:01:42.135 --> 00:01:44.705 the moon is bombarded by micrometeoroids. 36 00:01:44.705 --> 00:01:48.542 This is especially noticeable during meteor showers. 37 00:01:48.542 --> 00:01:52.145 What we also found is that the surface that's releasing the 38 00:01:52.145 --> 00:01:56.316 water is being protected by a layer, a few centimeters of dry 39 00:01:56.316 --> 00:02:00.754 soil that can only be breached by large micrometeoroids. 40 00:02:00.754 --> 00:02:03.890 When micrometeoroids impact the surface of the moon, most of the 41 00:02:03.890 --> 00:02:06.493 material in the crater is vaporized. 42 00:02:06.493 --> 00:02:10.397 There is also a shock wave that propagates outward. 43 00:02:10.397 --> 00:02:14.668 That shock wave carries enough energy to release the water 44 00:02:14.668 --> 00:02:17.137 that's coating the grains of the soil. 45 00:02:17.137 --> 00:02:20.307 Most of that water will get released into space, and that's 46 00:02:20.307 --> 00:02:23.543 the signature that LADEE detects with its instrument from its 47 00:02:23.543 --> 00:02:24.778 orbit. 48 00:02:24.778 --> 00:02:27.948 LADEE observed water being released from within the moon, 49 00:02:27.948 --> 00:02:30.784 but the micrometeoroids impacting the moon's surface 50 00:02:30.784 --> 00:02:33.653 have a more exotic origin: comets. 51 00:02:33.653 --> 00:02:35.956 When Earth passes through the leftover debris trail of a 52 00:02:35.956 --> 00:02:39.059 comet, small particles of rock and dust burn up in our 53 00:02:39.059 --> 00:02:41.995 atmosphere, creating a meteor shower. 54 00:02:41.995 --> 00:02:43.964 On the moon, these micrometeoroids impact the 55 00:02:43.964 --> 00:02:47.734 surface, releasing water at the same time that meteor showers 56 00:02:47.734 --> 00:02:49.770 are occuring on Earth. 57 00:02:49.770 --> 00:02:52.105 By analyzing the data returned by the neutral mass 58 00:02:52.105 --> 00:02:56.043 spectrometer, we found that the intensity and the frequencies of 59 00:02:56.043 --> 00:02:59.212 the fluctuations of signals from the water to be perfectly 60 00:02:59.212 --> 00:03:01.381 correlated with known meteor streams. 61 00:03:01.381 --> 00:03:04.718 For example, we were able to detect a big spike of water 62 00:03:04.718 --> 00:03:07.854 during the Geminid meteor shower that occurred in December of 63 00:03:07.854 --> 00:03:10.390 2013. 64 00:03:10.390 --> 00:03:12.793 Knowing how much water is available at the moon's mid 65 00:03:12.793 --> 00:03:16.296 latitudes is important for future exploration. 66 00:03:16.296 --> 00:03:18.732 LADEE's observations show that beneath three inches of dry 67 00:03:18.732 --> 00:03:21.868 lunar soil is a wet layer ten feet deep. 68 00:03:21.868 --> 00:03:24.771 But on the moon, "wet" is a relative term. 69 00:03:24.771 --> 00:03:29.276 The concentration of water in the wet layer is about 200-500 70 00:03:29.276 --> 00:03:31.144 part per million per weight. 71 00:03:31.144 --> 00:03:34.114  So, to fill an eight-ounce bottle with lunar water, you 72 00:03:34.114 --> 00:03:37.451 would need to squeeze water out of about one to two thousand 73 00:03:37.451 --> 00:03:39.019 pounds of lunar soil. 74 00:03:39.019 --> 00:03:43.056 So, while the wet surface is wet, it's drier than you think. 75 00:03:43.056 --> 00:03:46.460 The search for water on the moon spans five decades, and is of 76 00:03:46.460 --> 00:03:48.628 great interest to future exploration. 77 00:03:48.628 --> 00:03:51.665 Thanks to LADEE, we now know that trace amounts of water are 78 00:03:51.665 --> 00:03:54.734 widely distributed across the lunar surface, improving our 79 00:03:54.734 --> 00:03:57.804 understanding the moon's geologic past and its continued 80 00:03:57.804 --> 00:03:59.372 evolution. 81 00:03:59.372 --> 00:04:03.477 [music]