1 00:00:03,410 --> 00:00:09,090 Mahaffy: SAM is a suite of instruments that is one of 10 investigations on the Mars 2 00:00:09,090 --> 00:00:14,700 Science Laboratory, named Curiosity, which is on its way to Mars. I'm the principal 3 00:00:14,700 --> 00:00:20,670 investigator on SAM, the sample analysis at Mars experiment. Eigenbrode: MSL will collect a 4 00:00:20,670 --> 00:00:25,619 sample either drill it or will scoop up a powdered sample of some sort, and it will 5 00:00:25,619 --> 00:00:30,630 drop that into SAM. And then it heats it up really hot and produces a whole bunch 6 00:00:30,630 --> 00:00:33,960 of gases that come out of that rock. Mahaffy: SAM has three different instruments 7 00:00:33,960 --> 00:00:40,410 glued together by a system that moves sample around and moves gas around and 8 00:00:40,410 --> 00:00:46,500 processes the gas. Eigendrode: The isotopes of those gases will tell us about the processes 9 00:00:46,500 --> 00:00:51,690 that form them. In particular, it helps us identify organic molecules that might be 10 00:00:51,690 --> 00:00:57,449 present. And that is a big secret of Mars, is where are those organic molecules and 11 00:00:57,449 --> 00:01:02,399 where did they come from? So SAM will help us identify those. Conrad: On Earth we have 12 00:01:02,399 --> 00:01:06,930 the luxury of putting in sample after sample into each laboratory apparatus. 13 00:01:06,930 --> 00:01:13,229 Once you go to another planet, every dot of every electron that you use is 14 00:01:13,229 --> 00:01:18,720 measured. So one way in which Sam differs from earthbound instruments is that it 15 00:01:18,720 --> 00:01:23,340 is very, very sensitive just like instruments that take up a whole bench 16 00:01:23,340 --> 00:01:28,290 top in the laboratory, but it's relatively tiny, it's about the size of a 17 00:01:28,290 --> 00:01:32,700 microwave oven. Mars is a puzzle: we don't know whether 18 00:01:32,700 --> 00:01:37,590 life ever arose on Mars, we don't know if there is life there now. But what we can 19 00:01:37,590 --> 00:01:41,770 measure is what the potential is for habitability on Mars, 20 00:01:41,770 --> 00:01:46,210 and we can do this by looking at the complete chemical picture. Mahaffy: Does life 21 00:01:46,210 --> 00:01:51,430 emerge generally in planets where the conditions for life are favorable, or 22 00:01:51,430 --> 00:01:56,439 might life take its own unique paths in different environments and turn out 23 00:01:56,439 --> 00:02:01,159 differently.