WEBVTT FILE 1 00:00:00.090 --> 00:00:04.090 >>Interviewer: Well the full moon on August 10th isn't like other full moons we've seen this 2 00:00:04.110 --> 00:00:08.140 year. This is a "supermoon," and here to tell us more about it 3 00:00:08.160 --> 00:00:12.330 is NASA scientist Dr. Noah Petro. Thank you for joining us, Noah. 4 00:00:12.350 --> 00:00:16.340 >>Noah: Well thank you for having me. >>Interviewer: So what is a "supermoon" and what makes 5 00:00:16.360 --> 00:00:20.340 this full moon special? >>Noah: So the supermoon is the closest 6 00:00:20.360 --> 00:00:24.440 largest full moon of the calendar year. It's a real treat to see the Moon 7 00:00:24.460 --> 00:00:28.450 in a unique way. Because the Moon's orbit around the Earth is not a perfect 8 00:00:28.470 --> 00:00:32.630 circle, it gets farther away of the course of the year, when it's farthest away it's known as 9 00:00:32.650 --> 00:00:36.640 "apogee," and when it's closest it's known as "perigee," so over the weekend we're going to have a perigee 10 00:00:36.660 --> 00:00:40.650 full moon, the closest full moon of the year. Because it's close, it's going to appear about 11 00:00:40.670 --> 00:00:44.850 14% larger. about 30% brighter than the 12 00:00:44.870 --> 00:00:49.040 smallest full moon of the year. So ti's going to be larger and brighter than your average full moon. 13 00:00:49.060 --> 00:00:53.050 So it should be a really great show. >>Interviewer: When is the best time to view the 14 00:00:53.070 --> 00:00:57.070 supermoon, and will it look different from other full moons? >>Noah: The best time to see 15 00:00:57.090 --> 00:01:01.200 the supermoon is any time at night, go out and look at the sky. The supermoon will be up after 16 00:01:01.220 --> 00:01:05.230 sunset. Watch it when it rises to the east, and 17 00:01:05.250 --> 00:01:09.250 you should have a great view of a beautiful full moon in the sky. 18 00:01:09.270 --> 00:01:13.260 >>Interviewer: NASA has had a spacecraft orbiting the Moon for five 19 00:01:13.280 --> 00:01:17.350 years called the Lunar Reconnaissance Orbiter. What are some of the cool 20 00:01:17.370 --> 00:01:21.360 things we're learning from this mission? >>Noah: Yes, so LRO has been at the Moon 21 00:01:21.380 --> 00:01:25.380 for five years, and in that time we've completely re-written our understanding of the lunar surface. 22 00:01:25.400 --> 00:01:29.520 We have produced the highest resolution of topographic 23 00:01:29.540 --> 00:01:33.700 map of any planetary body in the solar system, including the Earth, 24 00:01:33.720 --> 00:01:37.710 we've had higher resolution images and data products to tell us about impact craters change 25 00:01:37.730 --> 00:01:41.890 the surface. And we get these wonderful vistas, these wonderful views of the lunar surface 26 00:01:41.910 --> 00:01:45.900 including the beautiful central peak of the Tycho Crater and that beautiful boulder 27 00:01:45.920 --> 00:01:49.990 perched on top. >>Narrator: What has the origin of the Moon 28 00:01:50.010 --> 00:01:53.990 taught us about our solar system? >>Noah: One of the things that we've learned 29 00:01:54.010 --> 00:01:58.190 about the early history of the Moon and it's early development 30 00:01:58.210 --> 00:02:02.370 is that it was a very violent time. There were lots of large impact craters 31 00:02:02.390 --> 00:02:06.380 forming very rapidly in the earliest history of the Moon about 4 and a half billion years ago. 32 00:02:06.400 --> 00:02:10.390 Because the Moon is so close to the Earth, we know that those same events 33 00:02:10.410 --> 00:02:14.400 must have been happening also on the Earth. So we're learning about the early history of all 34 00:02:14.420 --> 00:02:18.400 planetary bodies in the solar system by studying the earliest history of the Moon. 35 00:02:18.420 --> 00:02:22.420 It's a really wonderful opportunity to learn about fundamental processes across the solar 36 00:02:22.440 --> 00:02:26.440 system. >>Interviewer: Well it's been 45 years 37 00:02:26.460 --> 00:02:30.440 since NASA put a man on the Moon. So what have learned about our closest neighbor 38 00:02:30.460 --> 00:02:34.450 since then? >>Noah: Well the wonderful thing in the 45 years since 39 00:02:34.470 --> 00:02:38.650 the Apollo missions to the Moon is that we have these awesome rocks 40 00:02:38.670 --> 00:02:42.650 that the astronauts brought back. And now combined with the data from LRO, 41 00:02:42.670 --> 00:02:46.840 we can put those rocks, those samples into context of the entire Moon. So for instance, 42 00:02:46.860 --> 00:02:50.970 the samples that the astronauts brought back tell us that there are some volatiles 43 00:02:50.990 --> 00:02:55.170 inside the Moon. Of course the wonderful high-resolution images of the 44 00:02:55.190 --> 00:02:59.360 LROC camera on LRO show us where the astronauts actually walked, so we can put those 45 00:02:59.380 --> 00:03:03.470 samples they brought back into a context of the landing site, places they went, 46 00:03:03.490 --> 00:03:07.480 and of course look at the beautiful places that they explored 45 years ago. 47 00:03:07.500 --> 00:03:11.500 >>Interviewer: Sounds great, where can we go to learn more? >>Noah: Well the best place to start 48 00:03:11.520 --> 00:03:15.620 to learn more about the Moon and the LRO mission is NASA.gov/LRO 49 00:03:15.640 --> 00:03:19.620 and from there you can learn about each of the instruments, join us on social media, 50 00:03:19.640 --> 00:03:23.820 and learn more about this wonderful mission. >>Interviewer: Dr. Noah 51 00:03:23.840 --> 00:03:26.870 Petro, thank you very much! >>Noah: Well thank you for having me.