1 00:00:00,000 --> 00:00:04,000 [slate] 2 00:00:04,000 --> 00:00:08,000 [slate] 3 00:00:08,000 --> 00:00:12,000 Starliner is our second crew module to take 4 00:00:12,000 --> 00:00:16,000 astronauts launched at the 5 00:00:16,000 --> 00:00:20,000 Kennedy Space Center, all the way to the International Space Station. 6 00:00:20,000 --> 00:00:24,000 Dock, perform their tasks 7 00:00:24,000 --> 00:00:28,000 and to return home. And Starliner will 8 00:00:28,000 --> 00:00:32,000 actually land not in the ocean like 9 00:00:32,000 --> 00:00:36,000 the Dragon spacecraft does, but instead 10 00:00:36,000 --> 00:00:40,000 landing on the desert floor in the Western United States 11 00:00:40,000 --> 00:00:44,000 12 00:00:44,000 --> 00:00:48,000 [slate] 13 00:00:48,000 --> 00:00:52,000 Just like 14 00:00:52,000 --> 00:00:56,000 the Space Shuttle which helped us build the International Space Station - 15 00:00:56,000 --> 00:01:00,000 which by the way is a 120 yards 16 00:01:00,000 --> 00:01:04,000 long. In other words from one goal post 17 00:01:04,000 --> 00:01:08,000 in a football field to the other goal post. - That’s how big 18 00:01:08,000 --> 00:01:12,000 it is. Well the commercial crew program is 19 00:01:12,000 --> 00:01:16,000 taking our crew to and from the International Space Station 20 00:01:16,000 --> 00:01:20,000 and of course what we are doing is 21 00:01:20,000 --> 00:01:24,000 as we adapt to long durations in 22 00:01:24,000 --> 00:01:28,000 zero gravity, as we build new technology 23 00:01:28,000 --> 00:01:32,000 and new procedures, it’s going to help 24 00:01:32,000 --> 00:01:36,000 us on these much longer durations 25 00:01:36,000 --> 00:01:40,000 back to the Moon and eventually to Mars. 26 00:01:40,000 --> 00:01:44,000 27 00:01:44,000 --> 00:01:48,000 [slate] 28 00:01:48,000 --> 00:01:52,000 As we continue to develop new 29 00:01:52,000 --> 00:01:56,000 spacecraft and as we continue 30 00:01:56,000 --> 00:02:00,000 to develop spacecraft that we can reuse, 31 00:02:00,000 --> 00:02:04,000 and as we start to use 3D 32 00:02:04,000 --> 00:02:08,000 manufacturing 33 00:02:08,000 --> 00:02:12,000 all of this is bringing down the cost of rockets and spacecraft. 34 00:02:12,000 --> 00:02:16,000 So that it become much more available 35 00:02:16,000 --> 00:02:20,000 to the average person to be able to go 36 00:02:20,000 --> 00:02:24,000 into space. And I think one day we will 37 00:02:24,000 --> 00:02:28,000 see the average person be able 38 00:02:28,000 --> 00:02:32,000 to go and fly among the stars. 39 00:02:32,000 --> 00:02:36,000 [slate] 40 00:02:36,000 --> 00:02:40,000 [slate] 41 00:02:40,000 --> 00:02:44,000 This is another repeat of the first 42 00:02:44,000 --> 00:02:48,000 test of an unscrewed Starliner spacecraft. 43 00:02:48,000 --> 00:02:52,000 The first one had a malfunction in the software. 44 00:02:52,000 --> 00:02:56,000 So NASA is very careful 45 00:02:56,000 --> 00:03:00,000 we want this one to go perfectly 46 00:03:00,000 --> 00:03:04,000 all the way to the International Space Station to dock 47 00:03:04,000 --> 00:03:08,000 autonomously and then to return home 48 00:03:08,000 --> 00:03:12,000 with a landing in the desert 49 00:03:12,000 --> 00:03:16,000 in the Western U.S. We want that to go perfectly before 50 00:03:16,000 --> 00:03:20,000 we put human astronauts on the first 51 00:03:20,000 --> 00:03:24,000 actual flight with humans. 52 00:03:24,000 --> 00:03:30,840 That is the reason we are doing the second orbital flight test. 53 00:03:30,840 --> 00:03:30,836