Planetary Radio: Space Exploration, Astronomy and Science - The legacy of Red Rover Goes to Mars
Episode Date: February 28, 2024Over two decades ago, an innovative partnership between The Planetary Society, NASA, and LEGO created the Red Rover Goes to Mars program. Today, we reflect on the program's remarkable achievements wit...h our chief scientist, Bruce Betts. We're also joined by two extraordinary people whose lives were forever changed by their experiences as student astronauts in the program during their high school years. Courtney Dressing, an associate professor in the Department of Astronomy at the University of California, Berkeley, and Abigail Fraeman, the deputy project scientist for NASA's Curiosity Rover at the Jet Propulsion Laboratory, share their inspiring journeys through the program and beyond. Then Bruce Betts returns to share more of LEGO's involvement in space exploration and a new random space fact. Discover more at: https://www.planetary.org/planetary-radio/2024-red-rover-goes-to-marsSee omnystudio.com/listener for privacy information.
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We're celebrating the legacy of the Red Rover Goes to Mars program, 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.
Over two decades ago, a pioneering collaboration between the Planetary Society, NASA, and Lego created the Red Rover Goes to Mars program.
It was aimed at captivating the public's imagination with Martian exploration.
Today, we reflect on the program's remarkable achievements alongside our chief scientist, Bruce Betts.
We'll also be joined by two remarkable people whose trajectories were forever altered by their experiences as student astronauts in the program during their high school years. Courtney Dressing, who's now an associate professor
in the Department of Astronomy at the University of California, Berkeley, and Abigail Freeman,
who's currently serving as the deputy project scientist for NASA's Curiosity rover mission
at the Jet Propulsion Laboratory in Pasadena, California. As we delve into their experiences,
we'll uncover the program's profound impact on their lives and careers.
Bruce Betts will return at the end to share more of LEGO's involvement in space exploration
and a new random space fact.
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. Here's Dr. Bruce Betts, the Chief Scientist
of the Planetary Society, to tell us more about Red Rover Goes to Mars.
Hi, Bruce. Hi, Sarah.
It's been 20 years since the Red Rover goes to Mars program and the student astronauts got to go to JPL and watch Opportunity Land.
That is so wild that this program that's been so near and dear to the hearts of people at the Planetary Society happened that long ago.
Yeah, you think it's weird for you.
for you. It's very, very weird, but it took a lot of effort over many years for the Planetary Society to execute the whole program. I could explain what it is, but I'd rather hear it from
someone who was working on the program at the time. What was the Red River Goes to Mars program?
It encompassed so much. Yeah, that's a tough one to answer, but even though I managed
it for the last few years of its existence, because it did have so many aspects to it.
Fundamentally, it's a program the Planetary Society did in partnership with the LEGO group,
LEGO in all caps. And it was to do a whole broad suite of educational related activities tied to
what ended up being Spirit and Opportunity.
Originally, it was tied to what were going to be the Mars 2001 lander and orbiter, and
those were canceled following the failures in 98 and 99.
So that caused the program to stretch out.
But it was actually officially part of the mission, the Spirit and Opportunity
missions. And it was an activity that was completely funded by Planetary Society members
and LEGO. And we did a whole bunch of activities to engage the public, which is what we try to do
with space exploration. One piece, a non-trivial piece, was the international competition that chose the
student astronauts that were 16 students from 12 countries. And they went to JPL for the first few
weeks of the mission and worked with the mission and worked with the mission data. But we also had
a lot of other pieces that I'd be happy to tell you about. But in summary, it's trying to engage the public, do both public education, working with
students, and do good stuff tied to those missions. And I think we did in the end.
How did the Planetary Society first become involved in this program?
That even predates me. That was heavily tied to Lou Friedman, our executive director emeritus, and him working with Wes Huntress, who was the head of space science at the time at NASA. And then it became this huge, sprawling beast. And so that's why I took over managing with just a whip and a chair and trying to contain the beast.
And it turned into just an awesome pet.
Well, you're one of those people that is so passionate about educating kids about space,
whether it's through your children's books or the huge role that you play in our Planetary Academy,
our membership program for children.
But this, I feel, was a program that really directly impacted the lives of these student astronauts that got involved.
And we're going to be hearing from two of those students in a little bit.
But what was that like for you, interacting with these kids and seeing how this impacted them?
Yeah, it was an interesting program, just as background.
So hopefully we'll discuss.
We did a lot of activities that were affecting a lot of
people at a lower level, but engaging a lot. And then we did these activities like student
astronauts that were very intense and a lot of effort for a few students. Although, as you know,
at least, well, multiple of those 16 went on to careers in space science or working in space science reporting in one case.
And it was really great. They're just, they're an amazing set of people so into it and so
enthusiastic. It just was very rewarding, still is. So as part of this program, we worked with
the Lego group. What did that collaboration contribute to the program? Funding was a major source, but also their input.
So we did things, a lot of things literally in partnership with them.
So we actually, along with Lego, they did some of the publicizing and we did the publicizing
and all the behind the scenes on getting the names of the rovers.
NASA made the selection, of course.
But Spirit and Opportunity came from a contest we
ran with LEGO. I worked with their first LEGO League where kids build rovers. In this case,
they have a different theme each year and they did a Mars rover theme. So we worked with them on
refining kind of the science behind it. We have silica glass DVDds that we sent to mars and nasa working with us and lego we collected
four million names of people who want to send their name to the surface of mars and they're
contained on silica glass mini dvds and there's a frame around them and that frame has lego what
look like lego bricks although they're aluminum because they bake these out to kill any critters on them so your lego bricks don't do very
well and then it had a astrobot a a lego minifigure representation on it and we had them write blogs
in the early days of blogs and we ran a contest to name them so one was biff starling and the other
was sandy moondust and they wrote blogs and they also wrote in the
magazine, Lego magazine, which has a huge distribution. So a lot of things like that.
They also, by the way, appeared on Planetary Radio two or three times back in the day. And
they're very fascinating personalities. They're still hanging out on Mars, having a great time.
You didn't happen to have anything to do with
their appearance on Planetary Radio, did you? Well, I mean, I may have been involved in a rather
deep way. No, I need to find these older episodes of you and Jennifer Vaughn, who's our chief
operations officer, doing these voices. Because I know we must have done some kind of reverb on them or something.
Oh, yeah.
Oh, yeah.
Matt did some serious processing, and Matt interviews them,
and it's just a very different take on planetary radio.
As I was going through the office with one of our upcoming guests,
Abigail Freeman, we have a model,
or we have a copy of this silica
glass disc with Biff on the front. We were talking about it and I looked at it and as a fan of the
Lego movies, in my heart, I want to think that Benny, the starship Lego guy from the movies,
is in some part a spiritual successor to these astrobots i think that makes sense i should
say they actually issued minifigures lego minifigures of biff and sandy and those exist
there were other collectors items now you said that these discs were made out of silica glass
because we needed to sanitize them but i imagine that helps with the longevity of them surviving on
Mars. Yes. That was the other point. They are sitting at the landing sites. So they were
actually attached not to the rovers, but to the landers. So they landed with the crazed bouncing
airbag system. And then the tetrahedron opened up and they drove off the tetrahedron flattened,
and they are mounted on that.
We have pictures of them from Mars before the rovers drove away.
So they are right at the landing sites.
They have friendly little comments to anyone who finds them.
Rough calculations are that they should exist for at least 500 years in a format that one
could figure out how to read it.
By the way, I don't know if you noticed, because the one in the office doesn't have the secret codes.
It just has a representation.
But we had secret codes on both of the disks.
It was another activity.
So people in the codes were really into it.
And we had one that was relatively simple to figure out, one that was not simple.
And we gave additional information on our website because there wasn't that much on there. So anyway, we tried to figure out how could
we use every square centimeter or millimeter of the frame and the disc to do something interesting.
I actually, as a personal exercise, I wanted to go through and see if I could actually crack the
codes on these. And I found the little hints that were on our blog pretty helpful because it was that that second one was a very complicated code.
And I like that.
It's brutal.
It's so brutal.
I like that people can go back and still engage with that and try to figure it out themselves.
And I can link those web pages on our episode page for this episode of Planetary Radio, because who doesn't love cracking puzzles?
I've spoken to people about this in the past, but there was a particular planet fest that was
really kind of wrapped up in this. It was the Wild About Mars celebration. What was that like?
That was super cool. Planet fests or their equivalent are amazing, especially when things work, because it's the opportunity to
have thousands of people with you now combined with people out virtually when you're waiting
with the drama of whether these things survive down to the surface. And so you live through it
with all of the people and the cheering, weeping in 98 or 99. But that's the only Planet Fest I haven't been to.
So as long as you invite me to them, I think we're okay.
So the rule is invite Bruce to the Planet Fest, not to the rocket launches.
Yeah, exactly.
Yeah.
And it was great because we got people from the mission came and talked to the group.
And we had student astronauts there, the ones who were around, and we had a lot of
presentations and talks, but fundamentally it was about pumping in the JBL NASA feed on a giant
screen and watching and experiencing it all together and seeing those, in the case of those
rovers, you know, the successful, not only successful landing, but images coming in.
NASA never promises the images, which is crazy making when you're trying to plan one of these.
But they always pretty much come through.
You get something, and that's super exciting.
So every time we've done that, it's fabulous. was a little play on words because Stardust spacecraft flew through the coma of VIL-2,
Wild 2, comet the day before. And so we actually focused on it on one day and on Spirit the next
day. I cannot wait to go to one of these planet fests in person. The only one I've experienced
was our virtual planet fest. Doing it in person would be next level. It is next level, but on the other hand, all sorts of people get to participate in the virtual that can't schlep out to wherever we are,
which is usually Pasadena, although not always, but usually tied to, especially if it's a JPL mission.
But we've also done things with APL in Maryland and elsewhere.
So, yeah, so it was a whole lot of good stuff.
And it stood the test of time.
And now we are interviewing former student astronauts who are leaders in the planetary community now.
That's just one more example of the ways that these programs that we've had going for almost 45 years now have made these huge impacts on the space community over time.
And yeah, there were only a certain number of students that were selected for this program,
but when you talk to them, the way that it changed their lives is just so amazing.
Well, thanks for sharing this, Bruce, and for playing such a big role in this program,
whether it was the single students that had their lives impacted or just all these other people that
got to feel involved and the people that got to feel involved.
And the people that got to feel like they had a role in naming the Spirit and Opportunity rover.
This program did so much and that's just so cool.
Well, I'll talk to you again later this episode, Bruce.
Yay!
See you soon.
Now we'll hear from Dr. Courtney Dressing, one of the student astronauts in the Red Rover Goes to Mars program.
Now we'll hear from Dr. Courtney Dressing, one of the student astronauts in the Red Rover Goes to Mars program.
Courtney is an observational astronomer who focuses on detecting and characterizing planetary systems orbiting nearby stars.
She's an associate professor in the Department of Astronomy at the University of California, Berkeley, where she holds the Watson and Marilyn Alberts Chair in the Search for Extraterrestrial Intelligence, also known as SETI.
Search for Extraterrestrial Intelligence, also known as SETI. Our Senior Communications Advisor,
Matt Kaplan, captured this moment with her at Planetary Society headquarters during our recent Search for Life Symposium. Courtney, welcome back to the Planetary Society. 20 years. Can you
believe it? I really can't believe it. Thank you so much, Matt. It's wonderful to be here. I can't believe it's been two decades. Let me read you something that I found. This press release,
international student team selected to work in Mars rover mission operations. And guess who wrote
it? Matt Kaplan. The Planetary Society has chosen 16 student astronauts to work with the Mars Exploration Rover team at NASA's Jet Propulsion Laboratory
when the twin rovers touched down on Mars in January of 2024.
This was November 6, 2003, so even more than 20 years ago.
And sure enough, scroll down a little ways, and there's Courtney Dressing.
ago. And sure enough, scroll down a little ways, and there's Courtney dressing. So a lot has happened since then. But what I'm really curious about is, what role did that play in setting you
on the course, the very successful course that you are on now? I think of that experience all
the time. And I think it's fair to say that my career would not be what it has been without
having been a Red River goes to Mars student astronaut.
I got to go to JPL and live on Mars time and see how missions actually work.
I think one of the best things I learned from that experience is that it really isn't just one person.
It's teamwork and it's global cooperation that helps us explore the universe.
I had always been interested in space, and I was interested in reading about the space shuttle, memorizing the names of astronauts, and learning all these facts about our solar system.
Red River Goes to Mars was the first time where I felt that I could be part of the team to make those discoveries, not just someone reading about that from home.
And you saw that as part of this team of students, right? I mean, did it become a fairly cohesive group?
They'd come from all over the world, right? It was a wonderful team. We had people from
all around the world. My partner was from Brazil, and I enjoyed talking with him and
learning about his experiences and his interest in space. Now, you know, sadly, even though we
called you student astronauts, we didn't get to send you into space. Maybe today we'd have pulled that off, but 20 years ago, no. What did that mean?
I think it sounded like a really cool title. Student astronaut was very impressive.
My guess is that it's because we were exploring together and we were pretending that we were on
Mars alongside the rover. And honestly, some days it felt like we were because the data quality was
just so exquisite. What did they actually have you doing at JPL? We were shadowing primarily. So we
would be present in the room when major events happened. I remembered standing near the table,
looking at the map where Spirit was supposed to land as the scientists and engineers discussed
where they thought the rover would end up. We also took notes about what we
saw and we wrote blog entries to share with the world about our experiences. Later on, we also
helped calibrate images of the sundial on the rover to help track the dust contamination over time.
That's already more than I thought you got to do, because I would have thought you were going to
stop it and we shadowed these scientists, but they actually were letting you work with some of the data, in a sense?
We got to do some of the work with the data in the end.
Wow.
Not super technical things.
But one of the student astronauts later ended up working at JPL as a Mars scientist and still does.
Was that Abby?
Abby Freeman.
Yeah, yeah.
Another great success story out of that project from the Society.
Where were you staying at the time?
I mean, were you with the other people or in a home?
We were staying in, I think they were a seminary lodging situation.
Each of us got to bring a parent or guardian because we were all young.
So my dad came out with me and he would drive me to the Jet Propulsion Laboratory in the middle of the night, which was very kind of him.
Good dad.
Yes.
So you left that experience.
I mean, how did it change your thinking about what you wanted to do with your life?
I had been interested in being an astronaut since I was a kid. I had an eye injury in high school, and that took being an actual astronaut off the table.
But I still wanted to explore the universe.
And this experience, that the Red River goes to Mars student astronaut, taught me that I could.
And it gave me the confidence to go on and then apply for more research positions.
I ended up majoring in astrophysics in undergrad and in graduate school.
I came back to the Pasadena area for a postdoc.
And now I'm a professor at UC Berkeley.
And I think without that experience at JPL, I don't know if I would have realized that that was a path I could actually pursue.
What is the name of that chair, that endowed chair that you occupy at Berkeley?
I am the Watson and Marilyn Alberts Chair for the Search for Extraterrestrial Intelligence.
Which is very impressive sounding. I mean, anybody who's in an endowed chair,
has an endowed chair, that's pretty
impressive. What do you do now on a day-to-day basis? Tell us about your research.
I really love my job. One of the most exciting things I'm working on is that I am co-leading
the science team for the upcoming Habble World Observatory. This is a project that would launch
after the Roland Space Telescope, which would be the successor to the James Webb Space Telescope.
I also, as a professor at Berkeley, teach classes every semester.
I work with undergraduates and graduate students.
And my group at Berkeley is currently analyzing JWST data of a hot Neptune-sized planet.
We're also measuring the frequency of planetary systems around M dwarfs and investigating habitability.
Which explains your wonderful earrings, which I assume are not made of beryllium.
No.
Let's talk more about the HWO, the Habitable Worlds Observatory.
I'm just blown away.
I just hope that I am still in a position to talk to people about this stuff. When we see that follow on to these other great
space telescopes happen, is it exactly what is in the title? It's going to show us these worlds
that just might have something living on them? I think it's even more than what the title says.
So Habitable Worlds Observatory, to many people, sounds like a mission that is only going to focus
on planets like the Earth. But Habitable Worlds Observatory will also discover hundreds of planets that are
more similar to Jupiter or Saturn, and it will do transformative general astrophysics
and study the planets in our solar system. So while one of the leading science cases
is directly imaging planets like the Earth orbiting stars like the Sun,
that is just the tip of the iceberg of what HWL will do for science.
What kind of time frame are we talking about?
We know how long it took to do Hubble and JWST.
What is the status?
So right now, we are actually in what we refer to as pre-pre-phase A,
which is NASA jargon to say that this is before the mission has entered the stage of having a formal project office.
And one of the recommendations that came out of a recent National Academy survey
was to restructure how NASA does large space missions
to try to make sure we do a lot of planning and careful thinking ahead of the time
before we start standing up a big team and spending lots of money.
So we're learning from our experiences with past flagships,
and we're doing everything in a very thoughtful, careful manner this time. The goal, not to say that it wasn't thoughtable before, it definitely was.
But we were feeling our way.
Yes, right. We're learning more about how to do these big projects with teams of thousands of
people. For HWO, we expect that the mission would begin in the 2040s. And before you think that that
sounds too far in the future, that is less time in the future than when I was a student astronaut in the past. That's a good point. Yeah. So you said you're basically
coordinating the science that we hope to get from this incredibly powerful new instrument.
What does that mean? Does that mean you're working with other scientists and we're saying,
well, we'd like to do this? I'm on a team called the Science Technology Architecture Review Team, or START,
since NASA loves acronyms. Clever. And along with my co-chair, John Amara, who's at Keck Observatories,
we're leading a team of about 20 people who are then advising a larger team of about 800 people
to think about all of the science that we could do with this observatory and map that onto the
kinds of technical
requirements we would need to have.
And then there's a parallel group of engineers that's being led by scientists and engineers
at NASA and GPL.
So 15, 20 years, maybe we see first light and this thing starts to do its work.
I sure hope that I'm in a position to enjoy that data, that light when it starts to come
through this new mighty instrument.
You will still probably, well, you'll be a senior authority, I would assume, by that
time, but it sounds like something that you'll be able to look forward to working with.
I'm very much looking forward to working with the observatory, and I suspect that I
will still be a professor at that time and probably nowhere close to retirement.
And I suspect that I will still be a professor at that time and probably nowhere close to retirement.
Let me take you back to the start when you were that 16-year-old getting exposed to all this stuff.
Did that also have an effect on how you want to communicate what the boss calls the passion, beauty, and joy, the wonder of all of this to young people?
My experience as a student astronaut definitely did cause me to think more closely about science communication. I really appreciated the chance to be behind the scenes.
And now that I'm in more of a leadership role, I want to be sure that we bring in students and
amateurs from around the world to participate in these missions. One of the things I'm most
excited about for the Habble World Observatory is that we have a whole group that's devoted to mentorship and communication and diversity, equity, inclusion, and accessibility.
So we want to be sure that this really is everybody's mission.
I bet you the Planetary Society will want to help out with that part of the mission.
Courtney, thank you so much.
If you will pardon me saying so, I think we're all very proud of you here since we had a little role
in helping you get to where you are now. Congratulations on all of this and best of luck
with all of these developments as they continue. Thank you. Thank you so much for everything.
We hope it feels like a homecoming coming back here to the society. It really does.
Just a few days after Matt's meetup with Courtney Dressing,
I got to meet Dr. Abigail Freeman,
a fellow student astronaut in the Red Rover Goes to Mars program.
Abigail is a research scientist in the planetary science section
at NASA's Jet Propulsion Laboratory.
She was previously the deputy project scientist
for the Mars Exploration Rover mission
before becoming deputy project scientist for NASA's Curiosity rover. She's broadly interested in the origin and evolution
of terrestrial bodies in our solar system, and her work concentrates on investigating how the
complex geologic histories of Mars and its moons are preserved in their rock records.
Hey, Abigail. It's wonderful to meet you here at Planetary Society Headquarters.
Oh, thank you so much for having me, Sarah. I'm thrilled to be here.
Your life has been so changed by your experience with the Planetary Society and your involvement with this Red Rover Goes to Mars program.
And now it's been 20 years. And it's really cool to be able to actually look back and see how this program impacted people's lives.
to actually look back and see how this program impacted people's lives.
Yeah, completely. I mean, it is not an exaggeration to say that this program literally changed my life. It opened up a door to me about a world that I had no idea
about before the program, this world of planetary science. And it showed me how incredible it was.
And 1000% directly inspired me to pursue this as a career. And the experiences I had
through the Red River Goes to Mars program were really a motivator for me to keep going and
continue to, you know, when other things came up, maybe I want to do this more. No, nothing was as
much fun as the fun I had as a student astronaut. And here I am 20 years later, working on Mars rovers at JPL. It's a dream.
What a life. But you loved space long before that. If what I've heard on the internet is correct,
you fell in love with space as a kid when you were looking through a telescope at Saturn's rings.
What was it about that that so impacted you?
Yeah, internet in this case doesn't lie. Yeah, I've always really loved science. And I watched a lot of Star Trek growing up, which made me kind of interested in space. But really, what completely got me hooked was when my dad brought a telescope home one day, and we set it up on the front steps of our house and, you know, this little red thing on the ground, and I looked through it and all of a sudden I was seeing the rings of Saturn and the fact that it was
photons coming directly from that planet to my eyeballs, it wasn't a picture or anything,
completely blew my mind. And, you know, there it was, this tiny little planet with these tiny
little rings. And I was completely hooked. It's wonderful because even now as a full adult,
when I see Saturn through through a telescope and i've
been lucky enough to see it through some cool telescopes i mean you know the 60 inch up at
mount wilson is such a thing to behold when you look through but every single time i still get
that feeling like i'm still a tiny child i'm still in that space of absolute wonder and it blows me
away every time i do it wow i love to love to see Saturn through 60-inch. Yeah,
this was just like a three or four-inch little tiny telescope. But even then,
it's extraordinary. And I love this. Space is accessible to everyone.
Did you know at that point in your life that you wanted to go into space science?
Yeah. So I think after this experience with the telescope, I really started thinking
I wanted a career in space either as an astronaut,
but in the case that that didn't work out, an astronomer. Getting to look through telescopes
as a profession sounded really cool to me. And so I took a lot of, you know, what astronomy I could
that was offered in my middle school, but I did science fair projects in middle school that were
focused on astronomy. I joined my local national capital astronomers group and got really interested in the things that we can do here on Earth to observe space.
How did you ultimately learn about the Red River Goes to Mars program?
So I was just Googling things. I was in high school. The internet was just becoming something
that you could look into. I guess at the time it was in Google. I was probably on AltaVista or
something. But I was part of my high school's public speech team, and I wanted to
write a speech about space exploration and maybe Mars or something. And so I tried to learn more
about space exploration and the history of space exploration. And I found the Planetary Society
and all the wonderful material they had, and then saw this ad for this program where they were going to
select people to go to JPL to see the Mars rover landing. And I couldn't stop thinking about it.
And I said, I absolutely, absolutely have to apply to this. It sounds unreal.
I wish I had known about it when I was in high school, because just applying would have been
one of the most exciting things I'd ever done at that point.
Yeah, the application was actually quite fun.
I remember it fondly. We had to look at a picture of Mars and write an essay explaining if we were
in charge of the rover, what would we want to do? And there was information about the different
kind of instruments that you had and different constraints. This observation takes two hours.
This one takes five hours. You have 24 hours. What do you want to do?
What observations do you want to make and why? And it was such a fun essay for me to get to write.
And a cool thing that ultimately prepped you for a lot of your later career. So it sounds like
not even just the program itself, but even just the application was like the beginning of this
learning. Yeah, absolutely. I mean, this morning I helped plan Curiosity Rover and I served in a role called the long-term planner. So thinking like, what do we want to do
with the rover in the next long-term? Obviously, it was a little bit more complicated than what
I put into the essay, but same concept. Through this program, you and a bunch of other students
from around the world got to actually experience parts of the Mars Exploration Rover program.
You talked a little bit about these planning phases and the fact that you got to go to JPL for it. What other things
were opened up to you through this program? So I think there's a couple of things. The first thing
was once we were selected as student astronauts, we had some time to work with Emily Lakdawalla,
who was helping coordinate the program to kind
of get us up to speed so we'd know what was happening when we were at JPL. And she started
Zoom sessions essentially before there was a Zoom to teach us online all about geology and
what is an olivine and what is a basalt and what is remote sensing. And this was the first time
that I'd actually had an opportunity to learn about these subjects.
It's not something that gets taught in school very much.
And I thought it was so cool.
And so it really opened my mind to kind of the classes I could start to take when I got
to college.
And that geology was actually an awesome field to study.
The program also introduced me to Professor Jim Bell, who was the former president of
the Board of Directors of Planetary Society. And through my involvement in the program, it enabled me to kind of reach out to him after my freshman year of college. And I said, hey, remember me? I was one of these student astronauts. Can I come work in your lab for the summer? And so working with him was my first real taste of planetary science research.
taste of planetary science research. Beautiful. I didn't even know you got to meet Jim Bell through that. What a moment. But then, you know, me and most of the world, we experienced the
Opportunity Landing either on TV or by watching it through the computer, but you got to actually be
at JPL during the landing. What was that moment like for you? And looking back on it,
how did that change the course
of your life? Yeah, I mean, you know when you have moments that are really important in your life,
it doesn't matter how far away you get from them, you still remember them really clearly.
Landing night for Opportunity is one of those nights I remember, I think I remember almost
every moment. And that night just kept getting better and better and better. It started off, we were with the science team watching the landing. Opportunity landed. It
was so exciting. Then we got to go to the VIP area and I got to meet Bill Nye for the first time,
who was a huge hero of mine, watched him on TV growing up. So that was like the coolest thing
ever. But then we got to go be in the room with the press conference announcing the
successful EDL. And the room was the entry, descent, and landing. The room was completely
packed. It was so crowded. And we were kind of pushed off to the side. And then the whole landing
team just came bursting in chanting, EDL, EDL. And we got pushed out of the room. And then I met
the associate administrator of NASA who was standing next to me in the lobby because he couldn't fit in the room either. And it was just this wonderful excitement. But the cherry on top of the night was after the press conference, we got to go back with the science team and wait for those first images to come down.
And it was those images that just hooked it completely for me because they showed a picture of Mars that was unlike any other picture of Mars we'd ever seen. And it really showed me, first of all, Mars is a place we can explore and there's so much we haven't seen.
Here's something completely new.
No human has ever seen it.
And then second, being with the scientists, looking at the image and hearing them say, I know what that is. I think that's this. I wanted nothing more than to just stay with them
for the next three months and hear what they learned and learn how I could do that too.
We'll be right back with the rest of our look back at the Red Rover Goes to Mars program
after this short break. The total solar eclipse is almost here.
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My coworkers and I recently, I guess it was about a year ago maybe,
we all decided we want to go see the documentary Good Night Oppie together.
So we all went down to a theater.
And when we saw the Red Rover Goes to Mars students in the background
with the matching red shirts, if there was a packed theater,
we probably would have had to calm down a little.
But instead, we all got to geek out and be very excited about it. Because look,
there's our Red River Goes to Mars students. Did you see yourself in the background of that
documentary? I did. Yes. Yeah. So there's the documentary that Amazon put out, Good Night,
Oppie, that tells the whole story of the mission. And I'm one of the people that they interview in
it. And I told the story about what it was like being there on landing night. And the film producers went through thousands of hours of archival footage. And somehow in those thousands of hours, probably because we were wearing such bright red shirts, they did find, you know, just a few minutes of me that night when I was there at mission control. So getting to see me, getting to see my fellow student astronauts who are with me, Shihan Shen and Vignan and Wei Lin, so cool seeing that and just seeing our excitement and
really remembering what that was like. What was it like for the international students that you
worked with? I think it was just as exciting for them as it was for me. You know, we all got to
come out to California. And even though that was still in the United States, for me, it was still a big trip for
someone who's 16 getting to go somewhere new and see something different.
And we had a really good time talking to each other and learning about each other's customs.
I was partnered with Shihan, who is from the UK.
And so we had some fun comparing the way British people say things and people from the U.S.
say things and people from the U.S. say things.
And I think we were all united by just our awe of what was going on and the fact that we could
be a part of this. That must have been a really beautiful moment for a lot of them because
even to this day, there aren't as many opportunities for people in other nations
to get involved in space exploration. So bringing these kids in, really igniting their imaginations
and then allowing them to go back must have been such a cool and formative experience.
And it just fills me with such joy knowing that there are way more opportunities nowadays
for people all around the world to get involved in this.
For sure. Yeah. And as our rovers are going on, we're having more and more international
participation. The Curiosity rover, something like 40% of our science team is from outside the U.S. So it's really important to inspire people not just in this country, but in all of the countries, because the best science is done when you have all these different people with all of these different experiences coming to the table and bringing their own perspective. You're going to get so much more out of it.
perspective, you're going to get so much more out of it. I've been thinking about that a lot in the context of the Artemis program. Seeing all these new nations sign on to the Artemis Accords,
every single new country that signs on just gives me so much hope for the future.
I agree. I think it's fantastic. So after this life-changing experience,
you went on to get your PhD in planetary science working with Professor Ray Arvidson,
who was the deputy principal investigator on Opportunity. So that's a really cool arc right there. Then you went and got your postdoctoral
working at Caltech with Bethany Ellman, who's the president of our board of directors now.
And then after all of those amazing things, you ended up as the deputy project scientist for
not only Opportunity, but also the Curiosity rovers. I just have to say right off the bat, that is so impressive. Oh, thank you. I mean, yeah. And it's honestly, it's creepy how much it's all connected
to Red Rover goes to Mars, right? Because I met Ray, my graduate advisor, when I was a student
astronaut, but it was a very brief meeting. I remember celebrating he had a birthday and we all ate cake up in mission control.
But when I was visiting potential colleges, I went to visit him because I knew he had this
connection to the Mars rovers because I had met him through the student astronaut program. And
we talked a lot and eventually didn't go there for undergrad, but I was saving it for grad school
and I knew I could really get into research with him. And so what a fantastic opportunity. And when I was visiting, he told me about his wonderful undergraduate student, Bethany Elman. And so I got to meet her later. And I remembered, oh, you're someone that I'd heard about. And we became good friends and working with her as a postdoc was awesome. And then, yeah, of course, JPL has been my dream job ever since the student astronaut program. So when I was out here for a postdoc, just knocking on everybody's doors saying, please hire me. And so to have the opportunity to not only work at JPL, but to work on opportunity that was still operating, you know, the time it took me to graduate from high school, get an undergraduate degree, get a PhD, do a postdoc. It was still going. So what a thrill to be able
to be a part of that mission as a JPLer. Unreal. That rover lasted almost 15 years. That is so
far beyond the 90 days that it was planned. And a lot of that was due in great part to the people
that worked on it having this wonderful ingenuity. Forgive me for that. But the things that your team had to do, driving
the rover backwards, turning it off and on again, singing little wake-up songs every morning, not
just to keep the rover going, but also to keep everyone on the team feeling happy and motivated
during the times when you weren't sure it was going to come back to life. That must have been
such an intense but beautiful time in your life. Absolutely. And this is part of what
also makes working on River Mission so great. I mean, exploring other places is beyond thrilling,
but the team that you get to do this with is equally, if not more special. You get to work
with some of the smartest, most passionate, most motivated people you'll ever meet. And it is such an honor to get to do that.
It did last for 15 years, but ultimately, poor Oppie eventually never woke up. What was that like for you and everyone else? I know that you came on to our show many years ago to discuss it,
but what was that like? Yeah, I mean, it was weird. So Opportunity was designed and Spirit to last for 90 days. And after 90 days,
Oppie kept going and going and going. Six years in, Spirit got stuck with solar panels pointed
in the wrong direction and winter came and there just wasn't enough power to keep Spirit alive. But
Oppie kept going and going. And so at the back of our minds, you always know that someday it's going to end and it could be tomorrow and you never know. But when that moment actually did come and we lost contact with Oppie and then many months later when we realized we weren't going to get contact back, it was like, oh, okay, it's actually happening.
And the realization of what that means in terms of the people that you've been working with for me a few years, for some people, you know, two decades starting with the development, it's a big change. And so it's something that took some getting used to. Many people who worked on Opportunity and Spirit are still at JPL working now on Curiosity and Perseverance. So it's a wonderful legacy. You know, it was also strange for me because through this whole arc of my career, opportunity had always been operating as kind
of this guiding pull to why I want to do planetary science. And so having that suddenly not there,
it was a little weird and something that I spent a lot of time reflecting on.
Well, happily, you were already also working on Curiosity, right?
So that allowed you to then continue on.
And just like its older sibling, Curiosity is completely crushing it
and living far beyond its expected lifetime,
which is spectacular.
That is so heartwarming.
Yeah, I mean, it sounds, I hope it doesn't sound heartless,
but it really did soften the blow having Curiosity on Mars.
And man, I love that rover.
I love working on the Curiosity rover and the team that operates it and the science that we're getting to do with Curiosity is so exciting.
Curiosity has been going for a little over 12 years now.
We're climbing this big mountain looking at the history of habitability of Mars.
And what's extraordinary
about Curiosity is 12 years in, our science instruments are all still working, and we're
still able to do the same depth of science we could do on day one. And the landing site just
keeps giving. The higher we drive, the more spectacular things we find. And so it is just
not getting old. I love it. It's really cool that we can compare all these different locations now.
I mean, there's so many worlds that we know so little about.
Uranus and Neptune, we've literally only flown by once.
But with Mars, we can compare Gale Crater to Jezero Crater to Meridiani Planum,
all these locations that we've gotten to explore up close.
And as you said, they're all so completely different.
But the fact that Curiosity is now going up a mountain, seeing the way that all these layers of margin history has been just stratified and cast into the rock, it is such a beautiful opportunity for learning.
And then comparing it to everything else, I can't even imagine what we're going to learn out of all this.
Yeah, I think we're just starting to scratch the surface.
The cool thing about science is the more you learn, the more questions you have.
And so we're able to ask so much better questions than we were able to ask 20 years ago when Spirit and Opportunity first landed.
But we still have so many questions and we're just starting to kind of put together this time integrated history of the planet.
I think one of the things that Spirit and Opportunity did was they not only answered this question, was there once liquid water on Mars, but they found, yes, and it was present in many different times and in many different environments. There was hot water, there was acidic water, there was very neutral drinkable water. And so now we kind of want to know more like, okay, well, what did that history really look like? Were there
periods where Mars was habitable and not? What were the best places to go? And so that's what
we're starting to do with Curiosity and Perseverance as well. Well, we can't build a time machine,
but that's about as close as you can get, even with the Earth. The only way that we can really
piece together this mystery is by looking through the rocks and the way that our planet evolves over
time. There's so much of that history that's just kind of lost to us.
Isn't that cool? I think that's so cool.
We're detectives. We're history detectives.
It's a beautiful thing.
I've been thinking about that quote by Isaac Newton,
that if I have seen further, it is by standing on the shoulders of giants.
I'm thinking about the fact that most
of science history is literally just a legacy of people handing down their knowledge, teacher to
student, teacher to student, decade, generation after generation. And this program sparked this
thing that now allows you to go out and not only learn about Mars, but share it with other people.
And I know that that was part of the legacy of this program. Part of the point was to inspire these student astronauts to then go out and share what they had learned on
their experiences. How do you feel like that mission to share what you've learned on Mars
continues? First of all, I think thinking about the legacy of the program and the mission is
something we can start to do now that we're 20 years out. And the legacy of inspiration is one of the most important things
that the mission and things the Planetary Society is doing is leaving behind.
You know, you go to screenings of the Goodnight Oppie movie
and there'd be people who just come up and say,
your story is my story.
I saw these things and they inspired me too.
And I'm in a career in engineering or in science.
And what more could you ask for?
For me personally, it definitely showed me the power of outreach
and that it can literally change somebody's life
and set the course in their life.
And so it really instills in me how important it is
to share what we're doing and the good that can come from that.
What would you say to kids these days that want to follow in those footsteps and are looking for opportunities?
I think the best thing to do is do what you're passionate about and do it in the way that you're passionate about doing it.
you're passionate about and do it in the way that you're passionate about doing it.
You know, for something like space exploration, there are so many ways to be involved.
There's the path that I took, which is studying science and getting a career as a scientist at NASA.
But there's career paths in communication and in sharing and in teaching and what you
love to do and the things that you love can come together, especially in
this particular field. And I think finding where that is, is going to get you really far.
I think this program, even if it just inspired you, would have been worth all of the effort.
But knowing how many other people that it inspired, how many lives it changed,
it really does underscore how
important these things are. And I really hope that everybody out there who wants to get into this
really does believe that they can, because I know there are a lot of hurdles in the way of our
dreams, but some dreams are worth chasing no matter how difficult they are. Absolutely. You
said it beautifully. Thanks for joining me, abby and i hope that the next 20 years
has even more awesome martian exploration in store for you i hope so too thank you so much for having
me courtney and abigail's stories are beautiful examples of what happens when you empower young
people to dare mighty things and pursue their dreams we never know how it might shape the
future of space exploration for generations to
come. Now, let's check back in with Bruce Betts, our chief scientist for What's Up.
Hi again, Bruce. Hey, Sarah. It is so touching to meet these people after all this time and
see how this program changed their lives. It's no wonder that it impacted them so deeply.
Can you imagine being a kid in JPL? I mean, come on.
Kind of. I was a grad student at JPL.
Grad students aren't kids.
Really cool, too, to note how much involvement LEGO has had with space exploration. As an example,
and this kind of blew my mind in retrospect,
when you and I went to go to Florida to try to go see the Artemis 1 launch,
while we were there, there was a Lego display that we passed by but didn't actually go into.
And months later, I was watching the show Lego Masters,
and I realized they had an entire space episode,
and the things they built in that Lego competition
were the things that were being displayed over there at the Kennedy space center.
Ah,
well,
one thing I didn't mention is one thing Lego did as part of our red rover
goes to Mars related activities.
They built a full scale.
I mean,
our Rover out of Lego and it displayed it for years at Kennedy space center.
Like actual size. Yeah. I can dig out pictures of me and it displayed it for years at Kennedy Space Center. Like actual size?
Yeah.
I can dig out pictures of me and others with the full size.
I mean, you know, that was back when we had smaller rovers, but still not that small.
No, it was tremendous.
And I forgot how many gazillion bricks were in it, but it was very impressive.
Because right behind my desk in the office, on the desk that used to be Emily Lochte Walla's,
is a smaller rover made out of Legos.
And when I was going through the office, Abigail pointed it out and said that they gave all
the students that exact Lego set.
Cool.
Yeah.
They also, they issued special Lego sets, which I also forgot to mention.
So they had Mars.
In fact, I've got a special box of stuff
they gave me of the smaller versions and they had a big rover, but they also had the rocket that
launched in a Mars Odyssey and a small rover version. And so I got into it. People love Lego
and people love space. Lego plus space. I'm currently fighting myself because Lego Technic just came out with a Perseverance
rover and Ingenuity Mars helicopter, and I kind of need that.
Wow, how did I miss that?
I don't know, but we need one for the office.
I'll put it in the planetary radio budget.
We need two for the society.
For the society.
Maybe three.
It counts as a business expense.
Also, I was thinking about the Lego minifigurines that are still circling Jupiter right now aboard the Juno spacecraft.
Yep.
Those cracked me up. I mean, just thematically.
No, they're very fun. Very fun thematically. I forgot what they've got. Galileo and some historical Jupiter-related dudes.
Like, Galileo makes perfect sense.
Cute little telescope, discoverer of the Galilean moons.
But what really cracked me was the tiny Jupiter and then his wife with a magnifying glass.
Like, she's staring at him.
Because I don't know how many people know this, but a lot of the moons of Jupiter are
named after people that Jupiter was involved with romantically. So sending his wife his Lego minifigurine to spy on him.
Come on, that's genius.
That's really funny. Yeah, she was always trying to figure out what was going on.
And they have a whole theme with Juno. They're peering through the clouds,
figuring out what Jupiter's doing.
But have you seen those new pictures of Io?
Yes.
Oh my goodness. those close-up
views are so spectacular i was a cool fun place they are super cool looking i was super funky
super cool and really weird really weird yeah no it's not nice to get some new imagery of
our friend io that's always active always spe spewing stuff out, so always changing.
It pretty much overturns the entire surface in about 100 years.
Seriously?
I don't know. Maybe I made that up.
Yikes, though.
I mean, it's on kind of average, so I'm sure you...
Anyway, we'll keep looking at it for the next 100 years and figure it out.
I'll talk to you in 100 years or 50.
They've already been observing.
Yeah, I'll talk to you more about this in the future.
I'm hoping I can get someone from Juno on to talk about those IO images because wow.
But all right.
What is our random space fact this week?
Random space fact.
We're going to stick with Red River Goes to Mars. We're going to stick with Lego.
And we're going to talk about the fact that there are six Lego bricks on Mars made of aluminum on the two different frames.
But what's interesting and people seem to enjoy is that they're actually the exact layout of a Lego brick.
So you can attach Lego bricks to those. And I have done so with
our model, like in the office, if you pull out some Lego bricks, the dimensions are precise
enough that so future astronauts take your Legos with you because you'll be able to play with the
bricks on Mars. Once you dust all the Mars dust off of them, hopefully you can get them to stick
together. Yeah. We've got magnets under the Astro Bot, and so like high quality magnets. So I'm
sure they've just got massive amounts of magnetic dust stuck to them. That's so cool. I love the
idea that we can kind of try to clear off calibration targets and other things like
that by using these magnets?
Yeah, these are not designed that way, but yes, you can.
It's cool.
And a lot of that dust is quite magnetic,
or you can attract it with a magnet.
Why is it so magnetic?
Is it because it's so full of iron, or is it something about...
There's so much iron.
And I got nothing else so cool all right but within within a few days that you accumulate you could see before the
rovers drove away you could see the magnets and already accumulated circles of dust
so there's a lot of stuff flying around that's magnetic and
dust stormy stuff. It's just dusty there. It really needs a good cleaning.
One of these days, I just imagine little kids on Mars playing with their magnets the way that we
used to play with the magnets and iron-infused cereals.
Wow.
Come on, don't tell me you've never stuck a magnet to your cereal.
No, I never have.
Try it.
It'll freak you out.
Wow.
Seriously?
Seriously.
Even better when you get it all squishy in the water and then you can like pull out the
metal shavings.
It's great.
You eat your cereal with water?
No, for science, Bruce.
For science.
For science.
All right.
Let's take this out.
Please, end this.
Mercifully.
All right, everybody,
go out there,
look up the night sky,
and think about
what's in your cereal,
because I know I am now.
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 with new and
exciting James Webb Space Telescope results
on dwarf planets Eris and Makemake.
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