WEBVTT FILE 1 00:00:00.500 --> 00:00:08.609 [music] 2 00:00:10.611 --> 00:00:14.982 On October 16th 2017 the Lunar Reconnaissance Orbiter mission 3 00:00:14.982 --> 00:00:18.585 celebrates one hundred lunar days of being at the Moon. It’s 4 00:00:18.585 --> 00:00:22.222 a big accomplishment. Now you may be wondering – if the 5 00:00:22.222 --> 00:00:25.659 spacecraft launched way back in 2009, how are we only at one 6 00:00:25.659 --> 00:00:29.329 hundred days? What is a lunar day, and how does it differ from 7 00:00:29.329 --> 00:00:33.066 a day on Earth? On Earth, a day is about the time it takes for 8 00:00:33.066 --> 00:00:36.837 the Earth to turn once on its axis with respect to the Sun. A 9 00:00:36.837 --> 00:00:39.640 lunar day is also about the time it takes the Moon to turn once 10 00:00:39.640 --> 00:00:42.609 on its axis with respect to the Sun, and that’s about 11 00:00:42.609 --> 00:00:47.214 twenty-nine and a half Earth days. So, it’s about a month. 12 00:00:47.214 --> 00:00:50.250 Now you may be confused about how the Moon rotates, if we 13 00:00:50.250 --> 00:00:53.954 always see the same face from Earth. The answer lies in a 14 00:00:53.954 --> 00:00:57.124 process called synchronous rotation, which is caused by 15 00:00:57.124 --> 00:01:00.961 tidal forces between the Earth and the Moon. We always see the 16 00:01:00.961 --> 00:01:03.563 near side of the Moon, because as the Moon orbits around the 17 00:01:03.563 --> 00:01:08.068 Earth, it is also continuously turning. In fact, it rotates at 18 00:01:08.068 --> 00:01:12.139 the same rate it orbits the Earth, on average. So, a lunar 19 00:01:12.139 --> 00:01:15.409 day takes about the same amount of time as one complete lunar 20 00:01:15.409 --> 00:01:19.212 orbit. One hundred lunar days means one hundred chances to 21 00:01:19.212 --> 00:01:21.448 observe a complete day/night cycle on the Moon - 22 00:01:21.448 --> 00:01:25.319 photographing the surface with different Sun angles, measuring 23 00:01:25.319 --> 00:01:28.221 the rising and falling temperatures, and studying the 24 00:01:28.221 --> 00:01:32.326 way certain chemicals react to those daily changes. If we want 25 00:01:32.326 --> 00:01:34.928 a better idea about long-term trends and processes on the 26 00:01:34.928 --> 00:01:38.632 Moon, being able to study it for one hundred days and counting is 27 00:01:38.632 --> 00:01:42.336 a good place to start. And thanks to all the data gathered 28 00:01:42.336 --> 00:01:45.639 from LRO during this time, our understanding of the Moon has 29 00:01:45.639 --> 00:01:49.843 increased exponentially. Stay tuned for our next video that 30 00:01:49.843 --> 00:01:52.245 explores the significance of being at the Moon for one 31 00:01:52.245 --> 00:01:54.815 hundred days, and what we’ve been able to accomplish 32 00:01:54.815 --> 00:01:57.918 in that time. 33 00:01:58.385 --> 00:02:03.991 [beeping]