WEBVTT FILE 1 00:00:01.600 --> 00:00:03.933 On November 1st, 2023, 2 00:00:03.933 --> 00:00:09.133 NASA's Lucy spacecraft will fly by a small Main Belt asteroid named Dinkinesh. 3 00:00:09.133 --> 00:00:14.133 This flyby was added to Lucy's list of targets in January 2023. 4 00:00:14.133 --> 00:00:16.566 There will now be ten asteroids that the Lucy mission 5 00:00:16.566 --> 00:00:20.533 will explore on its record breaking tour. 6 00:00:20.533 --> 00:00:23.166 Dinkinesh will be the smallest Main Belt asteroid 7 00:00:23.166 --> 00:00:25.900 to have ever been well-imaged by a spacecraft, 8 00:00:25.900 --> 00:00:29.800 registering at only about a half-mile in size. 9 00:00:29.800 --> 00:00:31.766 The primary purpose of this encounter 10 00:00:31.766 --> 00:00:36.733 is to test the spacecraft's Terminal Tracking System, which will keep Lucy's instruments 11 00:00:36.733 --> 00:00:41.366 pointing at the asteroid as it flies by at 10,000 miles per hour. 12 00:00:41.366 --> 00:00:45.600 This test may prove crucial to the overall success of the mission. 13 00:00:45.600 --> 00:00:49.200 Even with the best Earth-based observations of these distant objects, 14 00:00:49.200 --> 00:00:52.466 there will still be some uncertainty about precisely where each target 15 00:00:52.466 --> 00:00:56.233 will be as Lucy approaches it. During its journey, 16 00:00:56.233 --> 00:01:01.533 Lucy will utilize its L’LORRI instrument for optical navigation to improve that knowledge; 17 00:01:01.533 --> 00:01:05.866 but uncertainties as large as a hundred miles may still remain. 18 00:01:05.866 --> 00:01:08.200 If nothing was done, the science instruments 19 00:01:08.200 --> 00:01:13.033 could completely miss the asteroid during the closest approach. 20 00:01:13.033 --> 00:01:14.133 It's for this reason 21 00:01:14.133 --> 00:01:16.633 that Lucy uses the Terminal Tracking System 22 00:01:16.633 --> 00:01:20.166 to image the Trojan targets in the final hours of an approach, 23 00:01:20.166 --> 00:01:23.133 and to autonomously update the spacecraft's onboard 24 00:01:23.133 --> 00:01:27.433 knowledge of the location of the asteroid in space. 25 00:01:27.433 --> 00:01:31.466 This in turn, allows the instruments to aim with precision, 26 00:01:31.466 --> 00:01:36.900 which will facilitate better imaging and measurement of these small bodies. 27 00:01:36.900 --> 00:01:38.800 The Dinkinesh asteroid presents 28 00:01:38.800 --> 00:01:42.400 the perfect opportunity to test this system. 29 00:01:42.400 --> 00:01:44.400 The geometry of this encounter, 30 00:01:44.400 --> 00:01:49.033 particularly the angle that the spacecraft approaches the asteroid relative to the Sun, 31 00:01:49.033 --> 00:01:52.566 is very similar to the mission's planned Trojan asteroid encounters. 32 00:01:52.566 --> 00:01:57.266 This allows NASA to essentially carry out a dress rehearsal under similar conditions 33 00:01:57.266 --> 00:02:00.800 well in advance of the spacecraft's main scientific targets. 34 00:02:00.800 --> 00:02:06.566 It's also a full year and a half earlier than the already planned Donaldjohanson asteroid encounter, 35 00:02:06.566 --> 00:02:12.766 which will serve as a more intricate and complex test of the spacecraft's systems and instruments. 36 00:02:12.766 --> 00:02:14.666 And since Dinkinesh is much smaller 37 00:02:14.666 --> 00:02:18.500 than any of the Trojan asteroids that Lucy will be collecting data on, 38 00:02:18.500 --> 00:02:23.300 this test is meant to challenge the Terminal Tracking System’s capabilities. 39 00:02:23.300 --> 00:02:25.833 It's likely that the system will lock on to Dinkinesh 40 00:02:25.833 --> 00:02:28.800 for only a few minutes before closest approach, 41 00:02:28.800 --> 00:02:32.800 compared to the hour or more it will have for the Trojan targets. 42 00:02:32.800 --> 00:02:35.233 So, no matter the end result, 43 00:02:35.233 --> 00:02:39.066 this flyby will provide Lucy's science team and flight engineers 44 00:02:39.066 --> 00:02:43.166 with important insights into how the tracking system can function. 45 00:02:43.166 --> 00:02:47.433 After the encounter with Dinkinesh, Lucy's orbit around the Sun will bring it back 46 00:02:47.433 --> 00:02:52.100 towards Earth for its second gravity assist in December 2024. 47 00:02:52.100 --> 00:02:59.000 That assist will send the spacecraft off to meet its main objectives among the Trojan asteroids. 48 00:02:59.000 --> 00:03:01.433 While the primary purpose of the Dinkinesh encounter 49 00:03:01.433 --> 00:03:03.000 is an engineering test, 50 00:03:03.000 --> 00:03:07.866 the data collected may also provide insight on the relationship between the Main Belt asteroids 51 00:03:07.866 --> 00:03:10.866 and near-Earth asteroids. 52 00:03:10.866 --> 00:03:14.666 It's an exciting addition to Lucy's groundbreaking mission.