WEBVTT FILE 1 00:00:00.000 --> 00:00:02.753 NARRATOR: Asteroid Bennu is a fascinating object. 2 00:00:02.753 --> 00:00:05.506 It records our solar system's earliest history, 3 00:00:05.506 --> 00:00:08.091 contains information about the origins of life, 4 00:00:08.091 --> 00:00:09.760 and has uncertainties in its orbit 5 00:00:09.760 --> 00:00:12.513 that leaves a small possibility of impacting Earth 6 00:00:12.513 --> 00:00:14.348 late in the twenty-second century. 7 00:00:14.348 --> 00:00:17.367 These properties make Bennu the perfect target for NASA's 8 00:00:17.367 --> 00:00:20.354 OSIRIS-REx asteroid sample return mission. 9 00:00:20.354 --> 00:00:23.440 LAURETTA: It's a great adventure to explore an unknown world. 10 00:00:23.440 --> 00:00:25.609 We're going to reach out and touch it, and then we're going 11 00:00:25.609 --> 00:00:29.196 to bring treasure back to Earth for scientific analysis. 12 00:00:29.196 --> 00:00:31.114 To me it doesn't get any more exciting than that. 13 00:00:31.114 --> 00:00:38.472 [logo music] 14 00:00:38.472 --> 00:00:40.591 NARRATOR: There is a huge scientific payoff of delivering 15 00:00:40.591 --> 00:00:44.678 a sample of asteroid Bennu directly into the hands of scientists. 16 00:00:44.678 --> 00:00:46.797 LAURETTA: We want to understand the origin of the Earth, 17 00:00:46.797 --> 00:00:49.466 the origin of the Moon, the other terrestrial planets, 18 00:00:49.466 --> 00:00:52.502 but the earliest histories of those bodies is wiped out. 19 00:00:52.502 --> 00:00:55.889 The asteroids record the earliest stages of the solar system. 20 00:00:55.889 --> 00:00:58.642 So it really is a time capsule from the very dawn 21 00:00:58.642 --> 00:01:00.377 of the history of our solar system. 22 00:01:00.377 --> 00:01:02.896 My dream is that we find something that's unique, that's 23 00:01:02.896 --> 00:01:05.882 not represented in our meteorite collections, and is really 24 00:01:05.882 --> 00:01:08.368 organic-rich material on the surface of this asteroid 25 00:01:08.368 --> 00:01:11.655 that holds all kinds of scientific treasures about the origin of life 26 00:01:11.655 --> 00:01:16.076 and organic molecular evolution in the solar system. 27 00:01:16.076 --> 00:01:18.078 NARRATOR: In addition to the planetary science, sending a 28 00:01:18.078 --> 00:01:20.664 spacecraft to asteroid Bennu will let us better 29 00:01:20.664 --> 00:01:23.450 understand the orbit of this near-Earth object. 30 00:01:23.450 --> 00:01:26.887 Bennu is four to five thousand times more massive than the meteor 31 00:01:26.887 --> 00:01:30.190 that exploded above Chelyabinsk, Russia in 2013, 32 00:01:30.190 --> 00:01:34.127 and there's a small chance that Bennu could hit us late in the next century, 33 00:01:34.127 --> 00:01:36.229 depending on how its orbit evolves. 34 00:01:36.229 --> 00:01:39.316 LAURETTA: In order to accurately predict its future orbital evolution, 35 00:01:39.316 --> 00:01:41.735 we have to not only understand the force of gravity, 36 00:01:41.735 --> 00:01:46.440 but thermal forces on the asteroid can significantly alter its future path. 37 00:01:46.440 --> 00:01:50.143 So we're going to study not only the thermal emission coming off of Bennu, 38 00:01:50.143 --> 00:01:52.829 but we're also going to build up a global model to make sure 39 00:01:52.829 --> 00:01:55.449 we understand the theory that underlies this, so that we 40 00:01:55.449 --> 00:01:58.268 can use it to accurately predict where Bennu's going to be in the future 41 00:01:58.268 --> 00:02:00.871 and apply it to other potentially hazardous asteroids 42 00:02:00.871 --> 00:02:03.724 to really help us understand the impact hazard. 43 00:02:03.724 --> 00:02:09.212 NARRATOR: OSIRIS-REx will launch in September 2016 and arrive at asteroid Bennu in 2018. 44 00:02:09.212 --> 00:02:11.548 Once the team is ready, they will use the Touch-and-Go 45 00:02:11.548 --> 00:02:15.569 Sample Acquisition Mechanism, TAG-SAM, to grab a sample off the surface. 46 00:02:15.569 --> 00:02:18.188 LAURETTA: We have a unique design where we put this TAG-SAM 47 00:02:18.188 --> 00:02:21.141 device onto the surface of the asteroid, and then we blow down 48 00:02:21.141 --> 00:02:24.811 high-pressure nitrogen gas to kind of agitate the soil 49 00:02:24.811 --> 00:02:27.514 and then basically scoop it up in a giant air filter. 50 00:02:27.514 --> 00:02:30.567 That whole process takes five seconds, so it's kind of get in, 51 00:02:30.567 --> 00:02:32.219 get the sample, and get out of there. 52 00:02:32.219 --> 00:02:34.788 NARRATOR: There's good reason to think this approach will work. 53 00:02:34.788 --> 00:02:36.990 One of the challenges of sampling an asteroid 54 00:02:36.990 --> 00:02:39.326 is navigating in a low-gravity environment. 55 00:02:39.326 --> 00:02:43.246 And with so little gravity, objects have a tendency to bounce. 56 00:02:43.246 --> 00:02:45.982 LAURETTA: Our design is to bounce off the surface of the asteroid. 57 00:02:45.982 --> 00:02:49.669 In fact we've got a spring in the forearm of our TAG-SAM device 58 00:02:49.669 --> 00:02:52.255 which is acting literally like a pogo stick to push us off 59 00:02:52.255 --> 00:02:54.991 the surface of the asteroid after we make that initial contact. 60 00:02:54.991 --> 00:02:57.828 So from everything that I've seen, trying to bounce off the 61 00:02:57.828 --> 00:03:02.599 surface of the asteroid is the easiest way to get that material. 62 00:03:02.599 --> 00:03:04.918 NARRATOR: Once OSIRIS-REx delivers the asteroid sample 63 00:03:04.918 --> 00:03:08.405 to Earth in 2023, it will have brought back the largest sample 64 00:03:08.405 --> 00:03:11.525 of an extraterrestrial body since the Apollo missions, 65 00:03:11.525 --> 00:03:13.794 and like the moon rocks from Apollo, the sample will be 66 00:03:13.794 --> 00:03:17.631 studied for decades to come with ever increasing technology. 67 00:03:17.631 --> 00:03:19.833 LAURETTA: This is really a treasure of information about 68 00:03:19.833 --> 00:03:22.452 the history of our solar system, and will not only solve 69 00:03:22.452 --> 00:03:25.088 the scientific questions that we're asking today, but those that 70 00:03:25.088 --> 00:03:29.576 people will be asking for many generations into the future. 71 00:03:29.576 --> 00:03:37.684 [swoosh] [beep beep, beep beep, beep beep]