WEBVTT FILE 1 00:00:00.000 --> 00:00:03.003 (music throughout) 2 00:00:18.651 --> 00:00:21.454 The Lucy mission is a planetary mission 3 00:00:21.454 --> 00:00:25.592 to the Trojan asteroids that are around Jupiter. 4 00:00:25.625 --> 00:00:30.830 It's going to survey actually a total of eight targets, seven asteroids 5 00:00:30.830 --> 00:00:35.068 around Jupiter and one asteroid in the main asteroid belt. 6 00:00:35.068 --> 00:00:38.605 Once you know where you're going and the type of science that you want to take. 7 00:00:38.638 --> 00:00:41.841 One of the things that you start looking at is the spacecraft. 8 00:00:43.777 --> 00:00:48.648 What size spacecraft, where is it going, how much power does it need to carry? 9 00:00:48.648 --> 00:00:51.885 Does it need solar rays, what type of solar arrays? 10 00:00:51.885 --> 00:00:55.822 What type of vehicle is going to be used to launch it into space. 11 00:00:56.289 --> 00:00:59.592 So that dictates how much mass you can carry. 12 00:00:59.592 --> 00:01:04.597 And one of the things I do as a project manager is to assemble a team 13 00:01:04.597 --> 00:01:08.301 of scientists and engineers and technicians and business 14 00:01:08.301 --> 00:01:12.572 people to design that overall spacecraft to achieve your mission. 15 00:01:14.107 --> 00:01:17.444 In designing the spacecraft, you are always thinking 16 00:01:17.444 --> 00:01:21.281 about what type of environment is it going to be subjected to. 17 00:01:21.314 --> 00:01:23.883 Is it going to orbit around Earth? 18 00:01:23.883 --> 00:01:26.486 Is it going into deep space? 19 00:01:26.519 --> 00:01:28.288 Is it going to Mars? 20 00:01:28.288 --> 00:01:30.390 Is it going close to the Sun? 21 00:01:30.390 --> 00:01:34.494 And so as engineers, one of the things that you're thinking about 22 00:01:34.494 --> 00:01:40.967 very early on is how can you design this system and test the system 23 00:01:40.967 --> 00:01:45.672 in order to verify and convince yourself that it's going to survive in space. 24 00:01:45.972 --> 00:01:51.244 And as part of that, it goes through a very rigorous test program. 25 00:01:51.277 --> 00:01:54.848 And so we call it shaking and baking. 26 00:01:55.281 --> 00:01:58.818 And so we actually put it through what we call 27 00:01:58.818 --> 00:02:02.989 a thermal vac chamber in which we simulate the space environment. 28 00:02:03.022 --> 00:02:04.524 You also put it on 29 00:02:04.524 --> 00:02:09.262 what we call a vibe table in which we vibrate it, so we shake it. 30 00:02:09.295 --> 00:02:10.997 And one of the important things 31 00:02:10.997 --> 00:02:14.200 that you have to do in order to be convinced that it's going to survive 32 00:02:14.200 --> 00:02:17.470 is to make sure that the environment in which you're testing it in 33 00:02:17.470 --> 00:02:21.908 the simulated environment is harsher than what it's going to see in space. 34 00:02:22.275 --> 00:02:27.113 So once you subject the spacecraft or that instrument to that environment, 35 00:02:27.413 --> 00:02:28.982 then you can have confidence 36 00:02:28.982 --> 00:02:32.552 that it's going to last the lifetime that it's been designed for.