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bjbj"9"9 D ,t JUDY WOODRUFF: NASA basked today in the glory of a technological tour de force.
Overnight, after a 350 million-mile journey, the heaviest, most expensive spacecraft ever
to land on Mars was gently set down in a giant crater on the Red Planet. MAN: Touchdown confirmed.
We're safe on Mars. (CHEERING AND APPLAUSE) JUDY WOODRUFF: The long-awaited words touched
off unbridled celebration late Sunday night at NASA's Jet Propulsion Laboratory in Pasadena,
California. Cheers and hugs marked an emotional climax to a journey of more than eight months
for Curiosity. The rover itself even joined the party with a tweet that read: "I'm safely
on the surface of Mars. Gale Crater, I am in you." Just minutes later, Curiosity sent
back its first set of black-and-white images from the crater showing its wheel and shadow.
The $2.5 billion project came down to what scientists dubbed the seven minutes of terror,
depicted in NASA animation, a highly complex series of landing maneuvers never before tried.
Curiosity began the atmospheric acrobatics slicing into the thin Martian air at 13,000
miles an hour. A supersonic parachute deployed to help slow the one-ton object as it hurtled
toward the planet. Then the heat shield separated from the rover and the parachute came away.
And from there, a kind of sky crane powered by eight rockets supplied the final braking
and used a set of cables to lower Curiosity to the surface at a speed of just 2 miles
an hour. From orbit, another U.S. spacecraft, the Mars Reconnaissance Orbiter, captured
actual images of the parachute deploying. Color photos and video of the landing were
expected in the next few days. Meanwhile, back on Earth... (CHEERING AND APPLAUSE) JUDY
WOODRUFF: ... the excitement carried into the post-landing news conference. Deputy project
manager Richard Cook. RICHARD COOK, deputy project manager: So, that rocked. Seriously,
is not that cool or what? (CHEERING AND APPLAUSE) RICHARD COOK: I have been lucky enough to
have done this now four times, and it never gets old, seriously. It's just a great experience.
JUDY WOODRUFF: Now, that it's on Mars, Curiosity will spend two years collecting samples that
may show whether there was ever life on the Red Planet. The robot is loaded with a number
of cameras and other tools, including a power drill and a laser. First, though, engineers
will check out the systems before sending the craft on a test drive. Some reaction now
on a very big day, first from one of the principal leaders of the NASA team. John Grunsfeld is
an associate administrator at NASA. I spoke with him earlier today after Curiosity landed.
John Grunsfeld, thank you for joining us. And congratulations. I think we heard this
in the cheers, but what was the reaction there today? JOHN GRUNSFELD, associate administrator,
NASA: Well, you know it was really interesting, because, you know, this is the culmination
of over five years of work, 7,000 people around the country to make the Curiosity rover, the
Mars Science Laboratory. And last night here in Pasadena, Calif. at the Jet Propulsion
Lab, the Mars Science Laboratory hit the top of the Mars atmosphere for its seven minutes
of terror before it landed safely on the surface. And at each of the critical events, the guided
entry, the parachute opening, the sky crane rockets lighting, the lowering down of the
crane, it was just one image of disbelief after another that everything was really coming
together and working, to the point that when the sky crane put the Curiosity rover gently
on the surface, and we all saw the data that indicated that it had landed, there was almost
a moment of silence when people said, wow, it really made it. And then, of course, the
team erupted in just jubilation that it had actually worked. And, fortunately, the Curiosity
rover was programmed to take a couple of quick snapshots and send postcards back, little
stamps, if you will, of the images at the landing site. It was the start of that jubilation
all over again. JUDY WOODRUFF: What were you most worried about on this 350-million-mile
mission? Were there any indications of trouble? Or did things go smoothly the whole way? JOHN
GRUNSFELD: Well, amazingly, it was, I would say, pretty smooth the whole way, in fact,
so much so that, you know, in the last few days, you know, a few of us were starting
to worry, what have we missed? But this is a very sharp team. They scrutinized everything.
We have honed our skills from the Mars Exploration Rovers, from our Mars Reconnaissance Orbiter,
our experience at other planets, Cassini orbiting Saturn. We just recently launched the Juno
mission to Jupiter. This is, you know, one of the most talented teams we have at NASA.
And at NASA, I think, we have the best of the best on planet Earth, maybe even Mars,
too. That is one of the things we will try and find out with Curiosity. JUDY WOODRUFF:
And what are you looking for in the images, in the data coming back from Curiosity? What
do you expect to see and to learn? JOHN GRUNSFELD: Well, these early images are just really engineering
images, pictures to tell us a little bit about where we landed. And over the next few hours
and over the next couple of days, we will start to get more of a perspective about where
we landed. We targeted the Curiosity rover to land in an area called Gale Crater. And,
specifically, it was targeted because it is a very deep crater, and in the middle is a
mountain that has been dubbed Mount Sharp after a Celtic geologist. And in the sides
of this mountain, we see evidence that water flowed on Mars. Now, we know that in other
places, and we have actually landed now on -- with the Phoenix lander on ice. But what
we want to study is the history, the water history and the geological history of Mars.
And we can do that. Just as on Earth, we study the Grand Canyon to go back a couple billion
years in Earth's history, on Mars we can go back even further through the study of sedimentary
rocks, through the study of the minerals to try and understand, how did Mars form? How
did it evolve? What were the conditions like billions of years ago, when Mars was warmer
and wetter? And in those times, could Mars have supported life? And maybe, if we're -- if
we hit the grand slam, and there was life on Mars, we might be able to detect in the
geology, in the rocks themselves, the chemical signatures of that -- what would likely have
been -- or what we would call microbial life. But that is a long shot. We just have no idea
whether Mars did support life or could have supported life. And that is why we sent Curiosity,
to answer that question. It's part of the quest to answer that fundamental human question
that we all want to know, is, are we alone in the universe? Is there life elsewhere?
JUDY WOODRUFF: John Grunsfeld of NASA, thank you again. And congratulations. JOHN GRUNSFELD:
Well, thanks very much. And I hope everybody looks forward to a very exciting couple of
years on Mars. JUDY WOODRUFF: And some perspective on this feat now from NewsHour science correspondent
Miles O'Brien. He joins us from Houston. MILES O BRIEN: Miles, you could barely wipe -- they
could barely wipe the smiles off their faces. There was such elation there among the NASA
team. JUDY WOODRUFF: Was there a different level of excitement about this than -- over
this than other missions, do you think? MILES O BRIEN: Yes, Judy, I have got a smile on
my face just listening to John, thinking about what lies ahead over the couple years, as
Curiosity starts exploring Mars in ways we have never seen it. But the stakes were so
high in this case, the Mars program literally on the line, facing budget cuts. There is
a lot of concern about what is next after Curiosity. As a matter of fact, even as this
landing was occurring, a blue-ribbon panel was going through and replanning future missions
because of cuts proposed by the Obama administration which would hit the Mars program very hard.
So, couple that with the fact that it's $2.5 billion worth of cookies in one basket coming
down, not having two rovers, as we had in 2004 with Spirit and Opportunity. And it just
ratchets up the pressure in ways that are hard to imagine. Imagine people having a career
where a decade gets baked into that one seven-minute period, and either you get a gold medal, or
you don't show up for work the next day. That is what was going on in that room. And so
that eruption makes a lot of sense. JUDY WOODRUFF: So they were feeling the pressure from everywhere
and from the public. I mean, the -- people all over the world were watching this. MILES
O BRIEN: Yes, it's interesting how Mars captivates people, I think, Judy. I think back to the
Pathfinder mission in the early '90s. That was one of the first great Internet spectacle
moments, millions and millions of hits in an era when we were not on the Internet like
we were. Last night surpassed any records we can imagine on Internet access to a news
event. What, I think, interests people and what is so exciting about this, it's really
unprecedented if you think about it in history, is the average person, armchair scientists,
you and I, have access to the same data at virtually the same time that the scientists
do. We can all be on Mars together. We can all armchair scientifically analyze all this
data together. We are all on Mars as part of this effort together. And there's nothing
quite like that in science, really, and there's nothing quite like that in space. JUDY WOODRUFF:
We heard John Grunsfeld explain the search for life, micro, macro-bio -- I didn't get
the word right, but small life, I guess it is, on Mars, very small life. MILES O BRIEN:
Yes. JUDY WOODRUFF: How much do they know -- Miles, help us understand how much they
already know and how much yet there is to discover for them. MILES O BRIEN: Well, what
-- we have been going through a slow, kind of iterative process of building the story
of potential life on Mars. You know, Spirit and Opportunity were all about settling a
question that we think we knew, that at one time Mars was warm and wet. Well, they have
brought home just volumes of evidence to say that was in fact the case. We don't have to
debate that one anymore, if there was debate prior. Now, what else do you need for life?
Well, there are three things. You need -- wherever we have moisture, wherever we have water on
this planet, we have life, wherever we have some source of energy, whether it is the sun
or deep down in the ocean coming from the center of the Earth, essentially. And we have
to have some sort of carbon material. Those are the three things for life as we know it.
So, we know that water was once there. Now let's go after this issue of the carbon. And
that is what Curiosity is all about. It's going to go through. And think about it. You
could take a big drill and try to drill a core sample or you could do -- take advantage
of what Mother Nature did, which was create this huge hole in the ground there with this
asteroid three billion years ago, which lays bare all these layers of sediment, which reveal
three billion years of history if you know how to read it. Well, Curiosity knows how
to read it. The scientists at -- in Pasadena at JPL know how to read it. And we are going
to be able to tell the story of just what happened along the way there over these next
couple of years. JUDY WOODRUFF: And, Miles, do we expect -- do they expect the information
is going to come back in a burst at the end of the two years or in a steady stream for
the next 24 months? Do we know that? MILES O BRIEN: Well, first of all, everybody has
got to be a little bit patient on this one. If you recall, with Spirit and Opportunity,
the pictures started coming down almost immediately. Those were sprint missions designed to last
90 days. Of course, Opportunity is still going eight years later. So, based on that math,
I think Curiosity could last potentially 30 years, 30 times longer. The fact is, this
is a much more complicated mission. It is baselined for two years, which is one Martian
year, 98 weeks. And so they are going to take their time understanding this complex machine,
how it operates on Mars. The first month, we will see some images, for sure. We are
not going to see it move probably until September. We are not going to see it drill into a rock
until later in the fall. So, it's going to take a little while. But as it builds up steam,
as the pipeline gets going, if you will, we are going to start seeing some science, very
intriguing science coming down, I predict. JUDY WOODRUFF: Well, a very exciting start,
and we will try to contain our impatience. MILES O BRIEN: All right. JUDY WOODRUFF: Miles
O'Brien, thank you. MILES O BRIEN: You're welcome. urn:schemas-microsoft-com:office:smarttags
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