WEBVTT FILE 1 00:00:00.020 --> 00:00:04.380 [ music ] 2 00:00:04.400 --> 00:00:09.270 So a real outstanding question is, what was the early atmosphere of Mars like, 3 00:00:09.290 --> 00:00:15.380 and for how long did it last, and did the conditions on Mars early on that might have been favorable for life 4 00:00:15.400 --> 00:00:20.680 persist for hundreds of millions of years, for tens of millions of years, for how long exactly did they persist? 5 00:00:20.700 --> 00:00:26.710 So the MAVEN mission is designed to really get at the climate history of Mars. 6 00:00:26.730 --> 00:00:30.900 My name is Paul Mahaffy. I'm Chief of the Planetary Environments Lab 7 00:00:30.920 --> 00:00:35.620 in the Solar System Exploration Division of NASA Goddard Space Flight Center. 8 00:00:35.640 --> 00:00:39.780 MAVEN is a Mars orbiter, not designed to take pictures of Mars, 9 00:00:39.800 --> 00:00:47.150 but really with chemical sensors to understand how the present atmosphere is escaping from Mars, 10 00:00:47.170 --> 00:00:51.210 and then through modeling try and extrapolate that back in time, 11 00:00:51.230 --> 00:00:57.920 and try to understand whether the ancient atmosphere of Mars was similar or different than it was today. 12 00:00:57.940 --> 00:01:02.700 MAVEN stands for Mars Atmosphere and Volatile EvolutioN mission. 13 00:01:02.720 --> 00:01:11.620 The NGIMS experiment on MAVEN is the Neutral Gas and Ion Mass Spectrometer, we have an acronym for everything here at NASA, 14 00:01:11.640 --> 00:01:16.750 and this experiment is a quadrupole mass spectrometer with two ion sources 15 00:01:16.770 --> 00:01:22.910 designed to look at both neutral gases and ions in the upper atmosphere of Mars. 16 00:01:22.930 --> 00:01:30.730 In fact as we dip down into the atmosphere, we will measure the altitude variation of those chemical constituents, 17 00:01:30.750 --> 00:01:35.130 we'll look for the composition, we'll look for how that composition changes with solar events 18 00:01:35.150 --> 00:01:42.630 like big solar flares and solar activity, and we'll do that for a whole Earth year on many, many orbits around Mars. 19 00:01:42.650 --> 00:01:47.730 The closest place we can look in our solar system, the place that we can get to easiest, 20 00:01:47.750 --> 00:01:52.480 that has an atmosphere, that has evidence for past water on the surface, is Mars. 21 00:01:52.500 --> 00:01:59.980 If the ancient atmosphere of Mars was much heavier, the potential of Mars to support life might have been much more favorable. 22 00:02:00.000 --> 00:02:06.200 And so the MAVEN mission is designed to really let us understand current escape processes on Mars, 23 00:02:06.220 --> 00:02:12.780 and then extrapolate back to very ancient Mars to try to understand the conditions that were present back then. 24 00:02:12.800 --> 00:02:24.958 [ music, beeping ]