1 00:00:00,010 --> 00:00:04,010 >>INTERVIEWER: Last November, NASA launched a new mission to Mars to investigate the mystery 2 00:00:04,030 --> 00:00:08,060 of how it became the red planet and how it may have looked in the past. 3 00:00:08,080 --> 00:00:12,060 Now, that mission is about to arrive, and here joining us from NASA's Goddard 4 00:00:12,080 --> 00:00:16,100 Space Flight Center in Greenbelt, Maryland is Planetary Science 5 00:00:16,120 --> 00:00:20,130 Division Director Dr. Jim Green. Thank you for joining us, Dr. Green. 6 00:00:20,150 --> 00:00:24,160 >>JIM: Thank you very much, Claire. >>INTERVIEWER: After nearly a year-long journey, MAVEN is finally 7 00:00:24,180 --> 00:00:28,180 arriving at Mars. Can you tell us about the MAVEN mission entering Mars' 8 00:00:28,200 --> 00:00:32,230 atmosphere? >>JIM: Well this is an incredibly exciting time, as you say 9 00:00:32,250 --> 00:00:36,260 in November of last year, we had a perfect launch for 10 00:00:36,280 --> 00:00:40,290 MAVEN. The rocket was put on the exact trajectory 11 00:00:40,310 --> 00:00:44,330 we needed. And now we're on Mars' doorstep. 12 00:00:44,350 --> 00:00:48,350 And Sunday night, we'll skew it, we'll fire the rockets 13 00:00:48,370 --> 00:00:52,380 After 33 minutes, we hope Mars' gravity will take 14 00:00:52,400 --> 00:00:56,420 over and put MAVEN into orbit. 15 00:00:56,440 --> 00:01:00,440 >>INTERVIEWER: And what will MAVEN do as it orbits Mars? >>JIM: Well MAVEN is designed 16 00:01:00,460 --> 00:01:04,450 to look at the interaction of the upper atmosphere and ionosphere with the solar wind. 17 00:01:04,470 --> 00:01:08,490 We believe the solar wind has been very extensive over 18 00:01:08,510 --> 00:01:12,510 many billions of years and has perhaps stripped away 19 00:01:12,530 --> 00:01:16,570 what we believe is the oceans and atmospheres, and made it 20 00:01:16,590 --> 00:01:20,680 much more dry and arid like it is today. 21 00:01:20,700 --> 00:01:24,710 >>INTERVIEWER: What else is NASA doing to better understand Mars, and what are 22 00:01:24,730 --> 00:01:28,750 our plans for the future? >>JIM: Well in addition to MAVEN, 23 00:01:28,770 --> 00:01:32,810 we're planning two other missions coming up. One is a 24 00:01:32,830 --> 00:01:36,850 lander that will look at how active seismicly 25 00:01:36,870 --> 00:01:40,930 Mars is. And the next one is in 26 00:01:40,950 --> 00:01:44,990 2020. It's a rover similar to Curiosity. 27 00:01:45,010 --> 00:01:49,000 >>INTERVIEWER: How does studying the red planet's evolution help us understand 28 00:01:49,020 --> 00:01:53,040 the formation of other planets, including Earth? >>JIM: Well, 29 00:01:53,060 --> 00:01:57,110 way in the past, Mars was much more Earth-like. And some sort 30 00:01:57,130 --> 00:02:01,150 of climate change occurred, where it lost its water, 31 00:02:01,170 --> 00:02:05,230 lost its atmosphere. And we want to understand those processes, because 32 00:02:05,250 --> 00:02:09,240 what happened on Mars could happen here on Earth. And so 33 00:02:09,260 --> 00:02:13,270 the study of terrestrial planets and their evolution is incredibly important 34 00:02:13,290 --> 00:02:17,310 for us. >>INTERVIEWER: Where can we learn more? 35 00:02:17,330 --> 00:02:21,320 >>JIM: To learn more, go to NASA.gov/MAVEN. 36 00:02:21,340 --> 00:02:25,350 >>INTERVIEWER: Great, Dr. Green, thank you for joining us. 37 00:02:25,370 --> 00:02:29,380 >>JIM: My pleasure, thank you Claire. 38 00:02:29,400 --> 00:02:33,420 [beep beep... beep beep... beep beep...] 39 00:02:33,440 --> 00:02:37,500 [beep beep... beep beep...] 40 00:02:37,520 --> 00:02:41,520 41 00:02:41,540 --> 00:02:41,642