Planetary Radio: Space Exploration, Astronomy and Science - The 20th landing anniversary of Spirit and Opportunity
Episode Date: January 31, 2024January marks 20 years since NASA’s twin Mars rovers, Spirit and Opportunity, touched down on the surface of the red planet. Matt Golombek, project scientist for the Mars Exploration Rover Project, ...joins Planetary Radio to celebrate. But first, the countdown to the next great American total solar eclipse continues. Kate Howells, The Planetary Society’s public education specialist and Canadian space policy adviser, explains why this periodic alignment of our Earth, Moon, and Sun is more rare on the scale of the Universe than you might think. Stick around for What’s Up with Bruce Betts, our chief scientist, as we honor the Ingenuity Mars Helicopter and the Mars missions that made it possible. Discover more at: https://www.planetary.org/planetary-radio/2024-20th-anniversary-spirit-and-opportunitySee omnystudio.com/listener for privacy information.
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We're celebrating the 20th anniversary of Spirit and Opportunity on Mars, this week on Planetary Radio.
I'm Sarah Al-Ahmed of the Planetary Society, with more of the human adventure across our solar system and beyond.
This month marks 20 years since NASA's twin Mars rovers Spirit and Opportunity
touched down on the surface of the red planet. Matt Golombek, who was the project scientist for
the Mars Exploration Rover Project, joins us to celebrate. But first, the countdown to the next
great American total solar eclipse continues. As of the release of this show, we are now 68 days
away from an astronomical event that
will blow the minds of millions as it passes over Mexico, the United States, and Canada.
In a moment, we'll be joined by one of my favorite humans, Kate Howells. She's our public education
specialist and Canadian space policy advisor. She'll explain why this periodic alignment of
the Earth, Moon, and Sun is more rare on the scale of the universe than you might think.
Stick around for What's Up with Bruce Betts, our chief scientist, as we honor the Ingenuity Mars helicopter and the Mars missions that made it possible.
If you love planetary radio and want to stay informed about the latest space discoveries, make sure you hit that subscribe button on your favorite podcasting platform.
By subscribing, you'll never miss an episode filled with new and awe-inspiring ways to know the cosmos and our place within it.
I alluded to this a moment ago, but it is with a heavy and happy heart that we say goodbye to
the Ingenuity Mars helicopter. After three years on Mars and 72 amazing flights, NASA announced
last week that Ingenuity would soar no more.
It traveled to Mars in the belly of the Perseverance rover, and when it took to the Martian air on April 19, 2021,
it became the first craft to prove that powered, controlled flight on another world was possible.
The helicopter itself is still communicating with us.
It's sitting upright on the Martian surface, but it is now forever grounded because of damage to its rotor blades. But before you get too sad,
remember that this Tecdomo was only expected to operate for 30 days. Like the Spirit and
Opportunity rovers that we're about to celebrate, this Mars helicopter lived way beyond our
expectations and changed history. We'll hear more about it in future weeks, but for now,
please join me in applauding the little helicopter that could. The Ingenuity team should really be so
proud. And Jenny, you will be missed. And speaking of space moments that'll make you emotional,
have you ever seen a total solar eclipse? Over the next few months, you're going to hear a whole
lot more about this as space fans from around the world gear up for April 8th. If you've never experienced an event like this,
it is absolutely worth traveling to go see. For some, it might feel excessive to go through all
the effort to travel around the planet just to see the moon block out the sun. But after this
next conversation, you might think twice about that sentiment. You don't get a chance like this in every star system.
In fact, you might have to travel a long ways into the cosmic deep before you ever see anything like it.
Here's Kate Howes, our public education specialist and Canadian space policy advisor, to explain.
Hey, Kate.
Hi, Sarah.
We're just a few months away from this total solar eclipse in Mexico, the United States, and Canada, and I feel like it's coming up so fast.
I agree. I remember when we just started planning all the stuff the Planetary Society was going to do around the eclipse, and it was like a year out, and now all of a sudden it's right around the corner.
I know. We've got so much to plan before Eclipsorama, but oh, it's coming together. It's going to be so much fun. I don't know if you've had this similar struggle, but as a science communicator, when I'm trying to explain to
people why they should go see a total solar eclipse, I usually fall back on what the experience
itself is like, but I feel like there's something deeper going on for me that's hard to explain to
people, which is that this opportunity is so rare on the scale of the universe. And I don't
think people really understand that. I completely agree. I didn't even fully understand it until I
started writing more about eclipses and learning in the process more about eclipses and really
discovered how flukish it is that we get the kind of eclipses we get here on Earth.
There's just so much that has to be right for a total solar eclipse to happen.
And it all depends on the angular size of the moon and the sun in our sky.
So what's so unique about our situation on Earth?
Here on Earth, we have this marvelous coincidence that the moon and the sun appear the same size in the sky.
So the sun is 400 times larger in diameter than the moon.
And it just so happens to also be 400 times farther away from the earth than the moon is.
That is a coincidence.
That's not like some inevitable outcome of orbital mechanics or anything like
that. That is just pure coincidence. And as a result, you get this thing where when an eclipse
happens, the moon is perfectly centered over the sun and perfectly covers it. So you get to see the
corona around the edge, but the actual disk of the sun is covered. And that does not happen
anywhere else in the solar system. And it doesn't even happen every single time the sun and the moon
and the earth align. I'm sure listeners have heard at this point about annular eclipses. If you
haven't, they're very cool. It's where an eclipse happens when the moon is a little bit further away
from earth than at other times in its orbit. So,
the moon goes around the Earth in an elliptical orbit, meaning it's not perfectly circular. So,
sometimes it's farther away and sometimes it's closer. And when an eclipse happens,
when it's farther away and the moon doesn't perfectly cover the sun anymore and you get
this ring of fire, you're getting this really perfect demonstration of how fine-tuned these
size similarities have to be for a perfect total solar eclipse to happen. So even on Earth, we're
not getting that all the time. And Earth is the only place that we know of where this exact
alignment happens. And annular eclipses are still really spectacular, but it is not the same. We had one
recently just in October and it was cool, but it was not the same as my experience in 2017 looking
up at that total solar eclipse. Also, annular eclipses, you don't even necessarily know it's
happening unless you have eclipse glasses because that little bit of sunlight that peaks around
the edges of the moon during an annular eclipse is enough to keep the sky bright, keep everything
looking pretty normal. And so if you're just walking down the street, and you don't know an
eclipse is happening at that time, and you don't have eclipse glasses to look up at it with,
you don't even necessarily find out that an eclipse is happening in that moment,
you can be completely unaware of it. And that's just crazy to think about. I literally was walking down the street and someone was like,
what's going on? It's a little dark, right? And I was like, there's an eclipse going on.
They had no idea. What I think is also really cool about this situation is that even on Earth,
this opportunity to see these total solar eclipses is actually limited in time. It wasn't always the
case that we could have these total solar eclipses, and it won't be the case in the future because of
the moon moving away from the earth over time. Yeah, that is another amazing thing to think
about is that, yes, the moon is slowly getting farther away from us. And so I don't know how
many millions of years it'll take before this happens, but eventually the moon will be far enough away that you'll only get annular eclipses. You'll never get
that perfect blotting out of the sun that we see during total eclipses.
You mentioned the eccentricity of the moon's orbit around the earth, how it's
fairly circular. But imagine you lived on a world where it was even more elliptical. You might get that
one total solar eclipse in an age, but it would be forever before you ever saw one again.
It's true. It's so amazing to think about the different types of eclipses or the different
frequency of eclipses or just what the eclipse experience or I should say what the syzygy
experience would be on other worlds. Because syzygy is that's the term for when the sun and the earth and the moon line up, or basically when any objects in space line
up like that. So if you're on Mars, for example, you can have syzygy between Mars, its moon Phobos
and the sun. But Phobos is so small that that just produces a transit, not an eclipse. So you just see
Phobos moving in front of the sun. And of course, you'd have to have a solar telescope to see that
and not just get blinded by the sun. But still, you have Syzygy, but it doesn't produce the same
effect. And then when you think about all the exoplanets and all the exomoons out there,
there have got to be so many other variations of what we'd experience here. You might have
planets where there are multiple moons that can pass in front of the sun at the same time.
I'm sure there must be other worlds that have the in front of the sun at the same time. I'm sure there
must be other worlds that have the same kind of coincidence that we have on Earth with the moon
and the sun being the same apparent size, but it certainly must be rare. So it really does give you
that deep appreciation of how lucky we are here that we get such an amazing coincidence and we
get to experience these kinds of eclipses. I was thinking too about the fact that we only have one star in our stellar system, right? Just
the sun. But in most star systems, we see binary star systems, even multiple star systems together.
So imagine that scenario where you get that perfect total solar eclipse on one of your stars,
but you can't really appreciate the effects of it because the other sun hasn't set yet. It's too hard to even wrap my head around what that would be like. And that's
part of what's so wonderful about knowing these things about other places in the cosmos. But
you really have to use your imagination and really crunch your imagination to picture what it would
actually be like to experience it.
And worlds are so different. Even if you could be on a terrestrial world and see something like
this, what if it didn't have an atmosphere? Yeah, true.
Like that would totally change the way that you, you know, you wouldn't get that
surrounding rainbow sunset situation you get on Earth.
Yeah, that's true. It would be a much more sort of black and white situation, I guess. Yeah,
yeah. Interesting.
Yeah, there's so many different ways that this scenario could play out. And I just remember
thinking in 2017, as I was staring up at that ridiculous moment, that like, this would be my
thing. If I was a creature roaming through the universe,
looking for another world, the thing that would most blow my mind would be a total solar eclipse,
a terrestrial world with total solar eclipses where there are creatures living to stare up and
actually see it. That's got to make us one of the luckiest creatures or one of the luckiest species
in literally the cosmos. Yeah, that's a really good way of looking at it. And I really appreciate how studying space and
understanding what happens in all different worlds, it really does drive home how lucky we
are, how unique our situation is. And it's great food for thought, fodder for appreciation of life
and all that. Yeah, I like to this is one of those things
that really brings us together across nations will be watching a lot of us are going to be
watching it at our Eclipsorama event in Texas. But you're going to be watching it up in Canada,
right? Yeah, I'm already praying for clear skies because April in Canada, it's cloudy. I think I
mean, this winter has been extraordinarily cloudy.
I think we've gotten something like 30 hours of actual sunlight since the beginning of December,
which is not good. So I'm really hoping it clears up in April so we can actually see it.
But even if there's cloud cover, you'll still get that darkening effect. It'll still be cool,
but I'm really hoping that we have the right weather to fully appreciate it. Yeah, we're going to be very lucky to see it. Hopefully the weather pans out. But even then,
I know that we've made this case that everybody should try to go see one of these, but I understand
that being able to go see a total solar eclipse is a privilege that everyone might not be able
to go see. So I'm really happy to share that we're going to be live streaming our eclipse event
and our view of the solar eclipse from Texas.
And it's going to be really cool
because we're collaborating with Tim Dodd,
the everyday astronaut, to bring that stream to everyone.
So we're hoping that even if you can't join us in person,
even if it's not close enough to you that you can see it,
you'll still be able to experience this eclipse
with other people from around the world. Yeah, absolutely. And I think, I mean,
part of what's great about this eclipse is, yes, the path of totality stretches across three very
large populated countries, but the path of partiality where you can see a partial eclipse
encompasses the entire continent of North America. So hundreds of millions of people are going to be
able to see
this to some degree. And I love the idea of being in a place where you can look up with eclipse
glasses and see a bite being taken out of the sun with the partial eclipse and then tune into the
live stream and see the total eclipse happen, see everybody's reactions to it and feel like
you're participating in this appreciation of this really very special cosmic event.
We're very lucky. Something that we don't always reflect on, but it's one of those ways that space
really can make us understand just how lucky we all are to be here.
Absolutely.
Well, thanks for sharing, Kate. And I hope you just blew some people's minds and we got some
more people to go see that eclipse.
I hope so too. Thanks, Sarah. From the awe-inspiring dance of celestial bodies in our
skies, we transition to another marvel, one that lies millions of kilometers away on the rugged
reddish terrain of Mars. It's been 20 years since the remarkable landing of the Spirit and
Opportunity rovers on the Martian surface.
These twin Mars rovers far exceeded their expected lifetime,
and straight up redefined our understanding of the Red Planet.
The Mars Exploration rovers Spirit and Opportunity landed on January 3rd and 24th, 2024.
These robotic field geologists captured the hearts and imaginations of the scientific community, and for the first time, they confirmed that there was once liquid water flowing on the surface of Mars.
Both of the rovers outlasted their expected 90-day lifetimes by so much it's not even funny.
Spirit's adventure ended on March 2010, but the unstoppable Opportunity rover persevered,
roving on until a global Martian dust storm covered its solar panels.
Opportunity stopped responding in June 2018, and the mission was officially declared over on February 13, 2019.
And what a wild ride!
We have a lot to celebrate.
From the way that they landed on Mars, the clever ways that the teams kept them in operation, and everything they discovered.
Today's guest is Matt Golombek, project scientist for the Mars Exploration Rovers,
what you'll hear him refer to as the MER program.
Matt's involvement with Mars missions has gone on for decades.
Before Spirit and Oppie, he was the Mars Pathfinder project scientist.
He's played a role in multiple Mars missions, everything from Global Surveyor to InSight and even the Ingenuity Mars helicopter. Hi, Matt.
Hi, greetings.
It's been many years since we last spoke, and I believe at the time you were in the middle of
site selection for Perseverance, and I was really rooting for Jezero Crater, so I got my wish.
Thank you.
Everybody had a favorite.
I know, right? It was a really challenging decision, but I think it panned out pretty well.
But we're here today to celebrate the 20th anniversary of the landing of the Spirit and
Opportunity rovers on Mars. And those rovers had such a profound impact, not just on the history
of Mars exploration, planetary exploration,
but also on the people around the world that were following along with their adventures.
And some people actually submitted questions to me that they wanted to ask you along the way.
So I'll be posing some of those to you as we go. All right.
This has to be a really satisfying, but also nostalgic moment for you and the Mars Exploration Rover team.
How's it been?
You know, there'll never be another mission like the MERS.
I mean, 15, maybe 20 years of my life were wrapped up in the selection of the landing sites and then the subsequent operations and just too much fun.
Yeah. I mean, you've been in it from the beginning with Pathfinder all the way on
through to Perseverance. So I feel like of all the people on this planet, you probably have a really
interesting perspective on what those rovers meant in the context of planetary exploration.
Yeah. I always think of myself as the oldest Martian because I started working
only on Mars in about 93. And there have been quite a hiatus from Viking to Pathfinder where
there were people that were just doing that. And anyway, since Pathfinder, I've only worked on Mars.
If it's not on Mars, I don't do it. Just Mars.
There's so much to explore there and what Opportunity and Spirit and all of the subsequent Mars rovers have discovered.
It just continues to open up these really intense questions and just begs for even more
exploration.
Yeah, absolutely.
I think that Spirit and Opportunity have a very special place in my heart personally, although the previous Mars missions were amazing and clearly had a deep impact on the way that the
world engaged with Mars. I was a little too young to appreciate those earlier ones, but
Spirit and Opportunity were like my first real rovers, right? We got to follow along with their
adventures and see their trials and tribulations
and beautiful discoveries. And I wanted to ask you from your perspective, how did the world react
differently to Spirit and Opportunity from the previous missions? I have to go back to Pathfinder
because I don't think there has ever been a mission to Mars that captured the imagination
quite like that. At the time, that was the largest
internet event in history. And the way news was back then, it was whether it was on the front
page of the newspaper. And for a week, full week, Pathfinder was on the front page of every major
newspaper in the country. And that has never happened before or since.
And I think I'd argue that without that reaction, and there's a whole bunch of reasons for that
reaction, but without that reaction to Pathfinder, there wouldn't have been a MER. There may not have
even been a planetary exploration program, because that really brought Mars into the forefront of people's imaginations for the
first time in 20 years since Viking. And the way it was done in a, I mean, it was a bunch of us in
our garage, basically, as much as maybe I was like somebody's garage. But it was done by a really small team for not a lot of money in a
very short period of time. And so that, to me, that was the biggest revelation in terms of people's
reaction. If you fast forward to Murr, the part about Murr that I was always most amazed at is that you could, I would show up for a talk in, you know,
eastern Washington state. And somebody would ask me about what happened on, you know, they had
looked at the images because the images when they came down went right on the web. And they said,
what are you guys thinking of that last image? People were with us. They were watching the
operations as they occurred. It was so seamless in terms of everything we'd done showed up almost
immediately on the web and people could follow along and people did. Yeah, I did. And then there
was this one period where it really came to the forefront when there was a change in the administration at NASA.
And the associate administrator for space science had proposed turning off the rovers to save the operation money to be used for, at that time, sample return.
Because that was what everyone was clamoring for.
sample return because that was what everyone was clamoring for. And the public reaction to that was so swift and so strong that the administrator for NASA fired the associate administrator
and put somebody else in. We can't do that. You can't turn off a rover that influences and that is
watched by so many people. So that really, that brought forward how strongly people were, I mean,
they were everybody's baby, right? Yeah. And just goes to show that whether or not you work in the
space industry, if you fall in love with a spacecraft and you make it known and you advocate for it, those things really matter because it literally saved
these rovers. Yeah, that's right. And it's probably, I mean, a little bit different for
those of us that worked on it day in and day out. I argue that we were all Martians because when we
were working on those rovers, our brains were on Mars.
They were, where did the rover get to?
What's the next step?
What do we do?
You don't need an astronaut for that.
We had people on Mars, and we acted like we were on Mars,
not just the scientists but the engineers, the ops team, everyone was on Mars.
Our collective brains were
on Mars. We were Martians. And, you know, I'm not sure that the same could be said for someone whose
real job was something completely different. It's so true.
We always worry about that a little bit because we were so close to it and so involved in it.
It had to have been a degree of separation somehow to the public.
Yeah.
What portion of your life would you say you've been on Mars time?
I hated it.
God, continue to hate it.
It's just horrible.
It's just, you feel like yuck.
We did it for about a month on Pathfinder. And at the end of that month, we were all dead.
I mean, we were, in fact, I remember flying from JPL to Washington to meet with the president
for Pathfinder. And I got on the plane and I literally passed out and did not wake up until we landed.
Now, I don't usually sleep on planes was how exhausted we all were.
Yeah. Now, Mars time sucks. It's just not it's not sustainable.
You can't do it. Maybe one of these days in the far flung future, people who grew up on Mars will be used to it.
But in the meantime, it's just...
Yeah, you'd have to live there with the daily... I mean, it's just long enough, 36, 40 minutes
longer. In two weeks, your schedule's moved around the clock. I mean, it's just, you can't live like
that. But I wanted to go back to those days during the landing of these rovers on Mars. And even the days before that,
one of our listeners wrote in, his name was Kevin Rush from Illinois, USA, wanted to know
what the biggest challenges to getting the rovers to actually get to the launch phase was.
And I think you've already touched on quite a bit of it there.
But I mean, MER was really challenging from an engineering side. There were two spacecraft being built in about 36 months.
It was even a little bit shorter than what Pathfinder was.
I think we had a bunch of months, and we only had one spacecraft.
So two of them at the same time.
Now, it turned out the engineers actually argued that that was in some ways better than just having one spacecraft because you could test things on one and you wouldn't necessarily have to do exactly the same test on the other.
So as it worked its way through ATLO, a simply test launch.
Some argued, at least some of the engineers did, that having two of them was better.
But it was still a Herculean task to do it.
And there's always problems when you're building spacecraft and you're testing things and you
wind up doing things differently than whatever you thought you were going to do when you started.
And some of those were really important. The airbags became a number one topic because they started just shredding
with the extra mass from MER based on what we had done with Pathfinder. I still remember going to
the largest vacuum chamber in the world where we'd set up a test bed where we attached a full-scale
lander with a bungee cord and a 60-degree dipping platform
with the worst, gnarliest rocks you ever saw, and just kept pulling the thing down,
and they kept ripping.
And we kept sewing on additional abrasion-resistant layers to where I think we had four of them in the end.
It was just no other way to keep them from just deflating too soon.
So there were a lot of challenges with MERS that happened in a really short period of time.
It's kind of really intense to think about the fact that we didn't even have sky cranes back then.
It was like we were practically bubble-wrapping rovers and chucking them at Mars.
Yeah, that's one way to put it.
I never thought about bubble wrap,
but yeah. But that must have been really intense during the actual days surrounding the landing.
What was that moment in time like for you and the team? Yeah, I was actually in the CNN tent
with Miles O'Brien, who was the science lead at CNN back then, I don't think they've had a science lead since he left.
I guess that shows you about science and TV, right?
For me, it was all about what the scene would look like after we landed.
So I'd spent three years during the development working on the landing site selection for the two rovers.
And it was still fairly early in Mars science, I would say.
To broaden it out even from the period from Pathfinder to now, there's been a constant presence at Mars.
Pathfinder to now, there's been a constant presence at Mars. And just about every launch opportunity, we have sent something up to Mars. And I call it the renaissance of Mars exploration
because we have orbital information and surface information unprecedented in a mountain scope
that has led together to a much more sophisticated understanding about the planet.
But now let's take us back 20 years ago.
And we had Pathfinder, but that was only the third lander to Mars.
And site selection for that was using no new information other than what we had from Viking.
And that must have been so stressful.
That was stressful.
Well, I mean, you landed in a boulder field.
Well, we actually thought we were going to land in a boulder field for Pathfinder
because the airbags were incredibly capable of dealing with boulders for Pathfinder.
The additional mass on MER made them not so capable of dealing with boulders,
and so we had to go to much safer places with much lower rock abundance.
And the health of the landing of the spacecraft,
depending upon our interpretation of remote sensing data,
we did not have images that were high enough for it was resolution to see the rocks.
So we had Pathfinder data, which was a third spot on Mars,
and we had Mars Global Surveyor data and mock images,
which were at about three meters per pixel, but you could not see rocks.
The rocks weren't big enough, and the signal to noise wasn't good enough.
So we were inferring rock abundance from thermal inertia, thermal differencing,
all sorts of other things, but we didn't know.
And the interpretation of the sites depended upon how accurately those remote sensing data were pointing us to a smooth, flat, and safe place.
So nobody was more invested in the landings than me.
Now, a lot of people were very invested for sure, but I felt like, you know, that was my life's work, that I had to find safe places to land and certify that they were safe.
And they better be safe. And so what I wanted to see was the first images that came back from landing both Spirit
and Opportunity. So Spirit went to a place that we thought would be not all that different from
Viking 1, 2 or Pathfinder, be sort of relatively flat rock strewn place. And that's
pretty much what we found. We landed a place, it did have low rock abundance, but it was just as
red and just as dusty as other locations that we'd been on Mars. But we knew from the data that
Meridiani, where Opportunity was going, would be completely different.
The data indicated there was no dust. It would not be bright red. It was going to be a darker
shade. It was going to have very few, if any, rocks at all. And our data implied that there's
a concentration of a mineral called hematite, which typically forms
in the presence of liquid water. And that's kind of what led us to land in Meridiani.
So the first images from Opportunity of this dark basalt sand surface surface was pretty much what we, you know, not red, no rocks. And then it was a scientific
bonanza as well, because it was in the Eagle Crater, and on the rim of the crater was
outcrops of sedimentary rocks that we had not seen as well on Mars.
We actually have a picture of the rover and that giant crater up in our kitchen at Planetary Society headquarters, because that was just such a moment.
And what a beautiful place to go explore.
Yeah. And, you know, and again, we could have never predicted it would look exactly like that.
We knew it would be different. And boy, it was the most different place we'd ever seen on Mars.
We'll be right back with the rest of my interview with Matt Golombek,
the project scientist for the Mars Exploration Rovers, after this short break.
Hi, I'm Kalisa with the Planetary Society.
We've joined with the U.S. National Park Service to make sure everyone is ready
for the 2024 North American Total Solar Eclipse.
Together, we've created the new Junior Ranger Eclipse Explorer Activity Book,
and it helps kids learn the science, history, and fun of eclipses.
If you live in the United States, call your nearest national park
and ask if they have the Eclipse Explorer Book.
You can learn more at planetary.org slash eclipse.
We actually had some people write in to say that that discovery of the
hematite or what most people I think remember as the blueberries on Mars was one of the things that
was definitely their favorite. And they wanted to know if we've discovered anything more about that
since. But I feel like we learned what we needed to learn about that, which is that it definitely
indicated the presence of water on Mars and its history. Yeah. And not only that, but the whole way that
the geographic meridiani plonum formed was key. Those blueberries became a lag on the surface.
And that's what helped produce the ripples and the ripple field and the smooth sandy surface that we saw.
And there's very interesting feedback between the winds that produced the sandy ripples that
we drove over for most of the way and the fact that many of them were fossil ripples. They had
formed thousands, hundreds of thousands of years before, and they were kind of frozen in
by those blueberries that effectively slowed down or almost stopped the aeolian motion that
produced the ripples in the first place. But yeah, going from seeing those blueberries in the outcrop
and then climbing out of the crater and seeing them strewn as this lag on the surface,
this little one millimeter ball. So just across all that was, you know, for us geologists that
were worried about how the geomorphology developed, how did you produce that surface that the light bulbs started going on?
And then Spirit found what appeared to be some evidence of ancient hot springs.
I mean, I can so clearly imagine what might have been Mars' past. And the fact that that seems like such a beautiful place to potentially create microbial life is just so awesome.
to potentially create microbial life is just so awesome.
To put it into even the broadest perspective of Mars science,
at the time that the MERS went, we had remote sensing data, images and some spectra that seemed to suggest
that Mars might have been warmer and wetter in the past.
But I think the scientific community was not convinced that it actually was,
that there were alternative explanations for a lot of the things that we saw,
things that hinted at a wetter past, but didn't really prove it.
And the MERS landed, and when we started looking at the sedimentary rocks at Meridiani,
this was prior to Spirit getting to anything that indicated a really watery past. There was no
question that we found sedimentary deposits that were evaporites. We knew the environment. We've
seen them on Earth. It involved liquid water in both the deposition and the subsequent alteration.
But the thing that was truly interesting was the water was like battery acid.
It was incredibly acidic.
And generally, people don't look at battery acid as good things to start life in.
So, okay, so Mariani and our views there said,
there's no question that things were wet,
but it was still kind of a hostile environment with regard to life.
And it wasn't until Spirit got over to the Columbia Hills
and found the silica deposits that we found other environments that were much
more conducive. And on Earth, hot spring environments teeming with life. And even more
than that, the kind of life that those that live in those hot springs are chemists. They live off
the interaction between the water and the rocks. No photosynthesis,
none of that kind of stuff. And we think those are the most primitive organisms that exist on
Earth. The very bottom of the RNA tree are hydrothermophilic organisms like that. So we
found this place that on Earth would have been teeming with life. We had no way to know whether
that happened at that site, but that produced a real change. So now we'd seen battery acid wet
and water sloshing over the surface at Meridiani. We saw hot springs coming up to the surface
at Spirit. And then to complete the whole pathway here, opportunity getting to
Endeavor Crater and finding a different watery pass where there were clay minerals that form
in neutral pH. And that's the kind of environment we usually think of as a nice place for life to
get started. That's water you could drink if you wanted to.
Maybe a little muddy, but still.
And all of this happened before there was other information from orbit or on the surface
that really argued unequivocally that Mars' early history was a lot more like the Earth and a lot less like the Moon,
and only broadened and made more important the question of could life have, you know,
was it a habitable environment? Were all the things you needed to support life there?
Were organics produced? Those are the things that came along later. Without those
discoveries, you could argue that you wouldn't have had the subsequent MSL rover or even maybe
even sample return with Perseverance. Honestly, though, it just told this story about the history
of Mars that is just so beautiful and also so tragic.
A world that was once so much like our own, but is now just this desolate rock, but still a very beautiful desolate rock.
Even is that desolate rock the closest to human habitation of any place else?
If you ever think people are going to go someplace and actually live and be there,
that's the other planet. Yeah, unless we want to build cloud cities on Venus, but that just sounds
intense. That sounds tough. And on the moon, you definitely have to be in the hermetically sealed,
no atmosphere yet. Yep, lunar lava caves or something. You'd never even get to see the Earth in the sky. It would be a whole other thing. But one of our listeners, Albert Heggie from Oregon, USA, wanted me to ask, what's one thing that we had no idea when we landed, we thought this mission was going to last 90 sols,
and we thought it would be out of battery power by sol 80-something,
and we'd have a quadriplegic rover that had enough energy to maybe take some pictures,
but it couldn't move around.
And to go from that to one rover lasting, what, 15 years or
and the other one, eight or something, I've forgotten, was, you know, amazing. And you can
trace it back to what we'd seen solar power on Pathfinder. We'd seen the dust falling on the
panels and decreasing the power, but a path finder only
lasted three months. So we didn't know kind of what happened long term. So to get dust devils
that would clean the surfaces off the solar panels and make them as good as new, amazing,
that no one could have ever predicted that. Yeah, those Martian dust storms are no joke. And it's very serendipitous that,
you know, they come along every once in a while and brush opportunities, solar panels clean. But
I think the longevity of those missions in most part was because of the ingenuity of your team.
I mean, we saw what happened with Spirit's broken wheel and everything you guys did to figure out
how to actually continue on with that mission.
That was amazing.
And even more so an opportunity.
One of the, I forgot, one of the switches, one that wasn't operating.
We actually had to turn the spacecraft off completely at night because we couldn't survive.
And then you had to wake it up from dead each morning.
And the first time we did that, we were hysterical that it wouldn't wake up. Well, we did that for
years. I mean, more than, you know, almost the entire time we had to operate the spacecraft
like that. At one point, we lost flash memory. So when we turned the
spacecraft off, the spacecraft would forget everything that it did. It had no, and up to then,
we had loaded up flash with, you know, a gigabyte of information that we had gathered,
and we were going to send it back whenever we got the opportunity to send
it back. Well, when we lost memory, it was zero. So anything you took one day was lost the second
day. And you wound up making the same observations two or three times, because if they didn't make
it in the downlink for that sol, you had to do it again so so i mean it was a thousand things like that the arm
wouldn't touch back up underneath the spacecraft so we had to drive around with the arm hovering
in front one of the actuators for turning the wheel for steering on opportunity wasn't working
so we drove backwards most of the time. Well, the spacecraft was never designed to drive backwards. So yeah, a thousand times we fixed
things that broke on the spacecraft and managed to continue on. Yeah.
It's funny because all of these things happen over the course of years, but it wasn't until
I was sitting in a theater watching the documentary Goodnight Oppie and seeing all of those things in the span of an hour that it really hit me.
Just what an amazing challenge that was and how cool it was that you guys figured out how to do
that. And that entire segment about the wake-up songs really warmed my heart.
Yeah, we did that pretty much every day.
That's beautiful. Did you get a chance to pick some of those wake-up songs?
I never did. I think the engineers kept that, you know, kind of to themselves.
I'd put you on the spot and ask you what song you would use, but that might take a long time
to think of. Spirit's journey ended long before Opportunities did, but we still had Oppie, so we were still very happy and invested.
But then came the day that we lost contact with Opportunity, and I wish I could take you back in time with me to those days.
Because at the time, I was working at Griffith Observatory, interfacing with people from around the world.
people from around the world. And the beautiful and kind things that people said to me and my colleagues in those days about what these rovers meant to them is something that I wish
I could have recorded and shared with you and the rest of the MER team because it was
so heartwarming.
Yeah, and I don't get the impression that the subsequent rovers have quite captured
the general masses' involvement in the same way.
I'm not sure I know why.
Part of it is probably that MER was, they were simpler rovers,
and a lot more of what we did was explore.
I mean, they were exploration rovers, and finding new places,
and that's sort of what they were about. And the subsequent missions
had complex laboratories that I don't know if most people really kind of understand the details
of that. And so they wound up sitting a lot more doing, you know, very important science, but not as much exploration. And then maybe even Perseverance,
whose job it is to collect samples. And I mean, there, that's so important that it can't explore
in the same fashion that we did with MERS. And maybe it was that exploration of finding something new. What's different?
What, you know, maybe that's what made the MER rover so much more accessible to everyone.
I certainly remember with Pathfinder that every day people would say, well, what did the rover do today?
And where's the picture?
Because we always took a picture of the rover after it had done its things from the lander.
It was that same kind of excitement. Yeah.
I actually kind of noted that the difference in the way that people viewed these different kinds of missions. When I was operating social media at the Planetary Society, you post up a picture from Perseverance.
People think that's cool.
But then the difference between how people reacted to that versus Ingenuity, the Mars helicopter, was palpable., and people were really interested in the first couple hops.
But then I haven't seen people following along with it quite the same way.
And I don't know what was unique about MER, but, you know, maybe long-lasting and really going and seeing completely different terrain that was unlike anything that it looked like when they started the mission.
Columbia Hills really looked different than the plains, the Gusev Plains.
And the rim of Endeavor Crater looked so much different from what we had seen when, and even Victoria Crater.
You know, maybe that was part of it.
It was like a whole new place to explore and see.
Yeah. But that's a great point too, which is that these rovers went an amazing distance on Mars.
I think even to this day, they hold the record for how far we've traveled on another world.
Oh yeah. Yeah. And even though their distance, I think one day, I think the opportunity went
almost 300 meters. That's not quite the
record now, maybe perseverance, but having something that lasts that long and having that
motive of exploring and going new places was, yeah, they may never break that record for a while.
And now we're in this place where the United States has an incredibly successful group of rovers and orbiters, but it's not just the United States. We have Russia, China, India, the United Arab Emirates, so many different nations are now at Mars. And just the pride I felt in my heart in 2021 when three different nations' missions reached that planet all at once.
in 2021 when three different nations' missions reached that planet all at once. I don't know if the public is as aware or as excited, but I feel like they should be because that was amazing.
Yeah, yeah. I still remember the day that the Zerong Chinese rover landed and the only
real time in quote you could get was a blogger in India that had people texting him from.
It was so different from the way NASA does it, which is like, here it is.
We're showing it to you in real time.
I've got a couple pictures from Zorong and a miniature of it near my desk.
That's so funny.
But up next, one of the biggest things that we're talking about in Mars exploration is
this Mars sample return mission.
And we're not sure whether or not the samples are actually going to be brought back yet.
It's a very complex subject.
But what do you think those samples might tell us about the things that we learned from
Spirit and Opportunity?
How could that expand our understanding of what we already learned? So, I'll step back and try to do the
broad Mars. So, Spirit and Opportunity found without question that water was present early
on Mars. Curiosity has found that all the ingredients you need to form life as we know it were present in a lake in Gale Crater at the time,
and that there are organics there.
So all of the things that you might need to form life existed on Mars at the same time that life first got started here on Earth.
that life first got started here on Earth.
So if there ever was a compelling scientific question to ask,
Mars is the place to do it. But to know and to truly answer a question,
so what is it?
Extraordinary claims require extraordinary proof.
If you're going to prove that life was there,
you probably need the rocks back you need to see in the rocks something that life produced to know that that
actually happened or not and I think at that level I don't know if you can even
do it remotely it would be be very difficult to get that
level of proof that you need. And so I think the fact that Jezero had this broad assortment of
rocks and that they've collected them all and already put a cash down with everything from basement rocks to rocks deposited in a delta where on earth
deltas are teeming with life. I mean, one of the most biologically rich places
suggests that we have a pretty compelling suite of samples to return. The hard part is it's a really hard engineering job to get those samples back.
And it's tough, just a tough thing to do.
It really is.
But I think we've proven that we are up for these kinds of challenges.
Yes, it's something we've never really done before, but look at all that we've accomplished on Mars so far.
Yeah, and I think we're closer than we've ever been. So I'm hopeful.
Yep. And with our international partners, I think all of us working together,
even if it gets delayed, even who knows what's going to happen. But one of these days,
we're going to get those samples, even if we have to go to Mars ourselves to pick them up off the
dirt. Right.
Before I let you go, I wanted to ask you a question that was also posed by one of our members, Kerry Hennigan.
Basically said online that one of these days they would like to see a museum on Mars that's full of all of our robotic emissaries so that we can go celebrate Earth exploration.
But I wanted to ask you, how would you like to see them memorialized? If we could go
to Mars and do something with those rovers, what would you like to see us do with those?
Wow. It's almost like you want to make each one a national park, right?
Exactly.
With little, you know, step paths, you could watch and see what it did at which point. And
I never thought about, you know, we've left an awful and see what it did at which point. And I never thought
about, you know, we've left an awful lot of stuff on Mars. There's a lot of rovers and all kinds of
things. And not only that, there's, you know, air shells and heat shields and parachutes and
there's quite a bit of stuff left around. I hadn't ever thought about that.
I would still go to the museum for the
Perseverance back shell, you know, just to go see that. Well, I know it's not necessarily my place
as a random human to say this to you, but I feel like I need to be the voice of so many people out
there who wish they could thank you personally for the role that you've played in Mars exploration.
None of this would be possible without the people that have dedicated
their lives to it. And your life has been wrapped around this for decades.
Yeah, I'm a Martian, no question about it. And I've had an awful good time with it too.
Well, thanks for coming on and for sharing all of this and for literally everything and everything
that's done for planetary exploration.
You've made this case that these subsequent missions wouldn't have happened without these bits of Martian history, and I think it's absolutely true.
Thank you very much, and it has been a total blast.
Thanks, Matt.
Those rovers are always going to have a really special place in the hearts of Planetary Society members.
Those who have been around with us for a while might remember our involvement with the Red
Rover Goes to Mars project. We teamed up with the Lego Company to provide hands-on opportunities for
students around the world who wanted to participate in Mars missions. And in 2004, a team of Red Rover
Goes to Mars student astronauts worked inside operations at NASA's Jet Propulsion Laboratory.
They got the chance to
actually work on the Mars Exploration Rover program. If you get a chance to watch Amazon's
documentary called Goodnight Oppie, which I highly recommend if you want to ugly cry about
spirit and opportunity, you can see some of the Red Rover Goes to Mars students in the background.
We also gathered submissions from around the world, and to this day, the names of every Planetary Society member prior to the MER launch and the names of over 4 million other people of Earth still sit on the Martian surface.
The disk with all of the names on it is actually bolted to one of the pedals on the MER lander.
We'll hear from one of the students whose lives was totally changed by the Red River Goes to Mars program in the coming weeks.
Now, let's talk with Bruce Betts, the Chief chief scientist of the Planetary Society, for What's Up.
Hey, Bruce.
Hey, Sarah.
Man, this is just me in the moment, but I just found out a few hours ago that the Ingenuity
mission on Mars, that cute little Mars helicopter, has now ended its operation and is now just
unable to fly on Mars.
So, what a moment.
I didn't expect that Mars helicopter to go so long.
No one did.
Well, maybe the people who built it, I don't know.
But it was far, far, far beyond the original expectation, which was only a few flights.
And in fact, then they approved it to do more.
And they had many tens of flights.
I lost track. But no, it did great. Apparently, it's a bit damaged. But the fact that it did
that long, and they did it in the Mars atmosphere, which is ridiculously thin,
it's the equivalent, depending on whether you're talking about with gravity or not,
of 100, sorry for the units, 100,000 to 130,000
feet up in the Earth's atmosphere. And try imagine flying a helicopter. It's amazing.
Plus, they had to contend with Martian winter. Like, they weren't even planning to deal with
the air that thin. They had to learn how to spin the rotors even faster to make it fly in those
conditions. Like, that team really knocked it out of
the park. They did indeed. Very impressive. It's funny too, because I feel like there's
just this constant kind of pattern. I mean, because I've been thinking about Spirit and
Opportunity, about these missions really kind of exceeding their expectations time-wise.
Given Spirit and Opportunity, we're only supposed to be operating for 90 souls,
and Oppy went on for 15 years. They lasted, and in some cases,
when something would break, they'd figure out how to work past it. But generally,
things just didn't break and last a long time. So the trick seems to be getting into successfully
flying in space or then successfully on the ground. And then oftentimes, at least these types of things work longer than expected,
which is wonderful because we get so much more science return than was originally hoped for.
Here's hoping the same thing happens for Curiosity and Perseverance in like 20 years from now.
We're still talking about them.
Well, they're already beyond their primary mission.
Certainly, Curiosity is way beyond their primary mission. Certainly, Curiosity is way
beyond its primary mission. Mars Odyssey was named Odyssey because it got there in 2001.
It's still working. And of course, Voyager is still eking things out way out there. So it's
amazing how long some of these things last, especially considering how nasty the environments are, whether it be surface of Mars or space. It's almost like people think about how to keep them working.
But they had to do some really wild workarounds. I mean, driving rovers backwards,
turning it off and on again repeatedly. You know, it's in part due to the really creative thinking of the people on the
teams, but also... Definitely. But I think the whole thing with the jump ramp and the going up
on three wheels, I don't think that was necessary. They just acted like it was.
What I can't believe is that they actually managed to land Spirit and Opportunity with
that amalgamation of these airbags. I made a joke
when I was talking to Matt Golombek that we basically wrapped them in bubble wrap,
and I still feel like that. That's remarkable it works.
They did. They wrapped them in very bulletproof bubble wrap. And in fact, when they originally
used that with Pathfinder, and then they adapted it to these. But then one of the many times they realized, oh, not that they were surprised by having more mass,
but that that actually caused some issues.
And so they had to work through them on the ground to figure it out.
No, I've successfully failed to predict success on all of the last Mars, U.S. Mars landings, because every time I go,
airbags? Oh, airbags weren't weird enough. Sky crane? Oh, yeah, no way. And every time they
nail it, and it's awesome. But yeah, airbags, and it bounced around. Opportunity was particularly
entertaining because it bounced along for a kilometer or two and ended up going into a small crater.
So it was a hole-in-one.
Did we have any planet fests around the time that Spirit and Opportunity landed?
Yes, yes.
We had one for Spirit, the Spirit landing. I was called wild about Mars because also on that same 48-hour period anyway, the
Stardust flew through the coma of Comet Wilde, spelled for English-type people, Wild 2,
and collected samples. And then we had a huge number of other things partnering as part of
our Red Rover Gers Mars program. But we had people from the mission come down to the Pasadena Convention Center and speak,
and it was all very exciting.
I was today years old when I learned that I was pronouncing comet wild, too, incorrectly,
comet villed.
Were there any things that Spirit and Opportunity discovered that really surprised you?
Were there any things that Spirit and Opportunity discovered that really surprised you?
No, not a specific thing, but certainly the confirmation of what people have been thinking about the flow of water,
the amount of detail they were able to extract from information,
the stunning views and vistas that we got as they traveled along and went by larger and larger craters,
the finding possible hydrothermal deposits right about where spirit kicked off.
And, of course, the hematite was a confirmation of things. So they learned all sorts of stuff and did what they were supposed to.
And I was always intrigued, I think we talked earlier about that you had two landers,
and they were chosen one primarily for the shape
of where they were, the geomorphology at the end of a, a Dean Vallis and in a crater. And then the
spectroscopy telling us that coarse grained hematite, which hangs out in liquid water,
usually on earth was there. So it was a good time. They, they're, they're, I don't know.
Did you think they were successful?
You're usually pretty critical of these things.
No, they totally failed.
No, honestly, of the Mars missions, it's hard to say what's the most successful.
But the things that they confirmed for us, how long they went on, it's really hard to not think that Spirit and Opportunity weren't some of the most successful space missions of all time, in my opinion.
Yeah, you say that about every mission.
Yeah, they're all my favorite.
All right.
What is our random space fact?
I just don't have the energy.
No, I do.
Random space fact.
So this is kind of a thought experiment because physics get a little broken down,
but it's a concept of how big is the sun and trying to even barely wrap your brain around that.
We start at the Earth and something like ISS or light sail or any number of other spacecraft in
low Earth orbit, orbit in about an hour and a half. And that's how fast they're going to go
around the Earth. If you went that fast by the sun, well, you'd get sucked into the sun by the gravity, which
is why it's a little bogus.
But picture going orbital speed takes you around the Earth in an hour and a half.
You're trying to go around the sun, nearby the sun, takes you a week.
It's about a week to go all the way around the sun, whereas it's an hour and a half to
go around the Earth at those speeds.
So it turns out, I don't want to shock you, the sun is really, really big.
Sun is really, really big. And it's funny, just this morning, someone I knew asked me whether or not the sun was like a big star or like an average star. And when I started explaining
the sun is not that big of a star,
they full like shock Pikachu faced me.
Like they were just like, really?
I started describing how big other stars are compared to the sun.
And they were so surprised.
So that kind of puts it in context, man.
We are so small.
Were you talking to Pikachu?
I was not.
I was at the gym.
But they made a shocked Pikachu face.
Yep.
Alright, well.
Anyway, back to the sun. Don't make it mad,
please. Don't call it average.
It's actually a little bigger than average,
it turns out, now that we find more red dwarves.
But it's not average.
It's our friend. It's our sun.
And it could toast you if you make it mad.
It could toast you just stepping outside your door.
Yeah, it's just a sunburn.
Still, think about the fact that it can burn you from that many miles away. That is just
the power of stars, man.
Yes. Yes, indeed.
All right. Let's take this out. All right, everybody, go up there.
Go up there and look out in the night sky and think about whether you can speak more
coherently than I can. Oh, wait, the answer is yes. Thank you and good night.
We've reached the end of this week's episode of Planetary Radio,
but we'll be back next week to talk about the field of archaeoastronomy.
We'll talk a bit about the ways that cultures have interpreted total solar eclipses throughout history.
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Ad Astra.