WEBVTT FILE 1 00:00:10.010 --> 00:00:13.805 On Sunday night, the moon will be full and what is extra special 2 00:00:13.805 --> 00:00:17.142 is that the Earth's shadow will move across the moon. 3 00:00:17.142 --> 00:00:21.104 So we will see a total lunar eclipse and that will be visible across 4 00:00:21.104 --> 00:00:22.605 much of the world. 5 00:00:22.605 --> 00:00:25.358 Here on the East Coast, starting around midnight, 6 00:00:25.358 --> 00:00:29.112 we will be seeing the total eclipse and will last about an hour and a half. 7 00:00:35.493 --> 00:00:36.411 Yeah. I think it's actually 8 00:00:36.411 --> 00:00:38.955 one of the most beautiful things about the lunar eclipse. 9 00:00:38.955 --> 00:00:44.210 So as the earth moves in front of the sun, it's shadow is blocking the sun. 10 00:00:44.210 --> 00:00:47.505 And the only light that gets to the moon's surface 11 00:00:47.505 --> 00:00:51.009 is that light that is passing through the Earth's atmosphere. 12 00:00:51.426 --> 00:00:55.513 And so when you see that sunset or sunrise, 13 00:00:55.513 --> 00:00:58.600 you're getting that kind of beautiful, orange ish reddish glow. 14 00:00:59.100 --> 00:01:03.021 And if you are standing on the moon, that is all that you would see that 15 00:01:03.021 --> 00:01:05.899 orangish reddish glow from all of the sunsets 16 00:01:05.899 --> 00:01:09.319 and all of the sunrises across Earth that are being 17 00:01:09.736 --> 00:01:13.073 projected through the Earth's atmosphere and onto the surface of the moon. 18 00:01:19.954 --> 00:01:23.208 Yeah. So I think one of the most fun things that we're doing to get 19 00:01:23.208 --> 00:01:27.796 ready is we have been imaging the moon and exploring it scientifically 20 00:01:27.796 --> 00:01:31.841 from orbit for the last 13 years from the Lunar Reconnaissance Orbiter. 21 00:01:32.217 --> 00:01:33.760 And so I work on the camera team. 22 00:01:33.760 --> 00:01:38.056 We've been imaging every square inch of the moon's surface, making sure 23 00:01:38.056 --> 00:01:42.352 that we can find landing sites for the astronauts that are not only safe, 24 00:01:43.186 --> 00:01:46.689 but they're scientifically interesting and they can teach us new things 25 00:01:46.689 --> 00:01:49.609 about the moon when we go and explore there in person 26 00:01:56.074 --> 00:01:58.910 . Yeah. The moon is really, truly beautiful. 27 00:01:58.910 --> 00:02:03.123 And when we're getting these up close images, they actually do look like art. 28 00:02:03.123 --> 00:02:07.127 We've had a couple art shows of images of the moon, 29 00:02:08.169 --> 00:02:09.838 but they're not just beautiful, 30 00:02:09.838 --> 00:02:13.007 even though I think that's one of the wonderful things about them. 31 00:02:13.591 --> 00:02:16.845 They're teaching us so much about the scientific processes 32 00:02:16.845 --> 00:02:18.805 that we can learn about on the moon. 33 00:02:18.805 --> 00:02:21.141 Those include impact cratering. 34 00:02:21.141 --> 00:02:26.396 We're imaging new impact craters that have formed in the last decade on the moon. 35 00:02:26.896 --> 00:02:29.732 We're imaging the volcanic history of the moon. 36 00:02:30.108 --> 00:02:33.987 So even though much of that was occurring billions of years ago, 37 00:02:34.612 --> 00:02:39.826 we can still learn a lot about how the moon's interior evolved, 38 00:02:40.076 --> 00:02:43.371 how all of these eruptions occurred on the moon's surface. 39 00:02:43.830 --> 00:02:45.915 And some of them actually even occurred 40 00:02:45.915 --> 00:02:48.918 even more recently than we would have suspected. 41 00:02:48.960 --> 00:02:50.962 So on the moon, that's like 42 00:02:50.962 --> 00:02:54.924 10 million years ago. but that's still geologically recent. 43 00:02:54.924 --> 00:02:58.469 And when we're talking about a four and a half billion year history. 44 00:03:06.436 --> 00:03:07.562 Yeah. I think one of the 45 00:03:07.562 --> 00:03:10.565 coolest things that we can use the moon to understand 46 00:03:10.565 --> 00:03:14.360 is right here on Earth, because the Earth's history 47 00:03:14.694 --> 00:03:18.323 is the very earliest history on Earth is largely lost. 48 00:03:18.865 --> 00:03:21.701 Earth is so geologically active, it's constantly 49 00:03:21.701 --> 00:03:24.621 reinventing itself through plate tectonics. 50 00:03:24.954 --> 00:03:27.540 It's being eroded with weathering wind. 51 00:03:28.041 --> 00:03:31.252 And so that earliest history is really lost to time. 52 00:03:31.628 --> 00:03:34.464 But on the moon, we can look back in time. 53 00:03:34.464 --> 00:03:35.882 There are craters that are, say, 54 00:03:35.882 --> 00:03:39.385 100 million years old. but they look like they formed yesterday. 55 00:03:39.677 --> 00:03:42.347 And there are craters that are 4 billion years old 56 00:03:42.889 --> 00:03:45.892 that can teach us what was going on in our solar system, 57 00:03:46.226 --> 00:03:49.729 what big, huge impactors were hitting the earth-moon system 58 00:03:50.063 --> 00:03:53.900 right in those times where life was beginning to form on earth 59 00:03:54.317 --> 00:03:55.276 and they can teach us 60 00:03:55.276 --> 00:03:59.113 about the environment on earth because those impacts had huge effects. 61 00:03:59.656 --> 00:04:04.118 They would have vaporized the oceans on Earth and sterilized a lot of the crust. 62 00:04:04.494 --> 00:04:09.165 So understanding what was going on, how Earth was being affected by it, 63 00:04:09.457 --> 00:04:10.833 the space environment 64 00:04:10.833 --> 00:04:15.046 is really one of the critical things that we turn to the moon to understand. 65 00:04:24.264 --> 00:04:29.686 Moon Dot NASA.gov is a fantastic place to go to learn more about the moon 66 00:04:29.686 --> 00:04:32.146 and all of the exciting things that are coming up. 67 00:04:33.106 --> 00:04:37.527 And then you can, of course, look to at NASA's moon on Twitter.