Planetary Radio: Space Exploration, Astronomy and Science - New Horizons: Celebrating a decade since the Pluto flyby
Episode Date: July 23, 2025On July 14, 2015, NASA’s New Horizons spacecraft made its historic flyby of Pluto, transforming our understanding of this distant world. Ten years later, we’re celebrating that iconic mome...nt and the mission that made it possible. We begin with Alan Stern, principal investigator of the New Horizons mission, who reflects on the mission’s origins, its most surprising discoveries, and what comes next as New Horizons continues its journey through the Kuiper Belt. Then we check in with Adeene Denton, NASA postdoctoral program fellow at the Southwest Research Institute, who just returned from the “Progress in Understanding the Pluto System: 10 Years After Flyby” conference held at the Johns Hopkins University Applied Physics Laboratory. Adeene shares highlights from the event, which brought together scientists to explore new results from New Horizons, JWST, Hubble, and ground-based observatories on Pluto, Charon, and the broader Kuiper Belt. Finally, Planetary Society Director of Government Relations Jack Kiraly joins us with a major update on the ongoing fight to protect NASA science from devastating budget cuts. And don’t miss What’s Up with our Chief Scientist, Bruce Betts. We’re talking Arrokoth, the most distant Kuiper Belt object New Horizons visited after Pluto. Discover more at: https://www.planetary.org/planetary-radio/2025-new-horizons-pluto-flyby-10th-anniversarySee omnystudio.com/listener for privacy information.
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We're celebrating the 10-year anniversary of the New Horizons flyby of Pluto, this week
on Planetary Radio.
I'm Sarah Alahmed of the Planetary Society, with more of the human adventure across our
solar system and beyond.
A decade ago, NASA's New Horizons spacecraft flew past Pluto and revealed a world
that was far more dynamic and surprising than anyone had imagined. This week we're looking back
and forward with Ellen Stern, the principal investigator behind the mission. Then we'll check
in with Adeen Denton, NASA postdoctoral program fellow at the Southwest Research Institute.
She's fresh from the anniversary conference at the Johns Hopkins Applied Physics Lab.
We'll hear all about the fresh science
that's still coming out of that data.
Our own Jack Corelli, Director of Government Relations
at the Planetary Society joins us with an update
on the latest space advocacy developments.
Good news, everyone, but also much work still to do.
We'll let you know how you can help protect missions
like New Horizons from premature shutdown.
And finally, we'll close out with what's up
with Bruce Betts, our chief scientist,
as we talk a little bit about Arakoth,
the furthest object in our solar system
that we've ever observed up close, thanks to New Horizons.
If you love planetary radio
and want to stay informed about the latest space discoveries,
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By subscribing, you'll never miss an episode filled with new and awe-inspiring ways to know the cosmos and our place within it.
Also, I want to send a huge thank you to all of the space fans who joined Twitch streamer Muhoodles and me for our Pluto flyby anniversary livestream. We had an amazing time celebrating this historic mission
and raising funds to support space advocacy.
If you missed it or you just want to relive the moment,
I'll be posting the YouTube link for that on this episode page
at planetary.org slash radio.
And to everyone who donated during the stream, thank you.
Your generosity fuels our Save NASA Science campaign, which is helping to protect missions like New Horizons and keep the spirit of exploration alive in the United States.
It took nearly 20 years of relentless advocacy to make it happen.
But on January 19, 2006, NASA's New Horizons spacecraft launched on a mission to explore the outer solar system.
Nearly a decade later, on July 14, 2015, it made a historic Pluto flyby,
revealing a world that was far more geologically active and beautiful than I could have ever imagined.
New Horizons gave us the first close-up view of a world that had remained a pixel in our imaginations ever since it had been discovered,
and it changed planetary science forever. The story of New Horizons is also a tale of perseverance
and public support. The Planetary Society and its members fought to keep that mission alive through
years of cancellations and near misses. That long effort paid off in a spectacular fashion,
and we were so proud to honor the New
Horizons team with a Cosmos Award for Outstanding Public Presentation of
Science shortly after that Pluto flyby. To learn more about the journey behind
the mission, I highly recommend the book Chasing New Horizons, which was written
by Alan Stern and astrobiologist David Grinspoon. It's a behind-the-scenes look
at one of the most ambitious planetary missions ever attempted. Dr. Alan Stern
has led the New Horizons mission from the very beginning, and
continues to guide its journey through the Kuiper belts to this
day. He's a planetary scientist, commercial space traveler,
former head of NASA's science mission directorate, and
associate vice president at the Southwest Research Institute.
Alan is one of the most vocal champions of exploration
at the edge of our solar system.
And personally, I've been hoping to get a chance
to speak with him for years.
Hey, Alan.
Hey, Sarah, how you doing?
Doing really well.
And thank you so much for joining us
to mark this anniversary moment.
Oh, this is so great.
Thank you for having me on.
I also have to pass along a high from Matt Kaplan,
the previous host of the show.
He was so excited to hear that you were going to be back
on the show to talk about this.
Please pass a high back if you don't mind
being a middle person in that.
That's so great.
So it's been 10 years since the New Horizons mission
flew by Pluto and its moons.
When you think back to that moment in your
life, what really stands out to you most now? You know, I have a couple of top thoughts that come
right to mind. The first is just the amazing feeling of accomplishment of our team, because
it was really quite an underdog mission in a lot of ways. And people poured their lives into it for a very long time and it all worked.
It works just spectacularly.
And the second thing to me was how,
beyond all scientific expectations, Pluto reformed.
It's like, and I used to say this even 10 years ago,
it's like the solar system saved the best for last.
And those two things are probably tops,
but there was also this amazing resonance with the public and through the press and social media and
just people, just thousands of them, the same way that with the Voyagers, you know, that all show up
at JPL, they all came to our flyby. It was like a Woodstock for nerds. It really was though. At the time, I was working at Griffith Observatory in Los Angeles. And when
I tell you it was like Pluto-palooza for months, I'm not exaggerating. People were literally
learning how to give talks about Pluto in other languages because people were flocking to the
observatory to talk about it. Yeah, I don't doubt that. We had a lot of, we had hundreds of press show up at the flyby,
and many of them were from Asia and Europe and other far away places.
What did it actually feel like to see Pluto up close for the first time, especially after
all these decades of effort that it took to get there?
Well, it was really gratifying on a personal level, because we work, you know, and it's just a dot in the distance until you get there.
And then it just turned out to be that we were using an old saying, then the bell of the ball, you know, just just the star of the show.
That maybe that's a better way to say it. It was so magnetic, a personality, the geology and the atmosphere and the whole just ambiance of Pluto.
And so many people had said, you know, you're gonna get there
It's gonna be this boring ice ball. We're like, no, no, we have some pretty good indications from you know crude
But you know from the light curve from the composition from the atmosphere that we're already seeing this is gonna be an interesting place
But it way outperform our expectations
I think we had, Sarah, a whole ton of predictions that
the team had made and we'd had a poll within the team, things we'd find and, you know,
like if any one or two of these things turn out, it's going to be blockbuster. And then
we'd have like eight of them. They're all in the same planet. They're all there. It's
stunning.
Really, though, those images blew my mind.
Like I had expectations that it was going to be really cool to see a new world that
we'd never really seen before up close. But when you actually look at that thing, it was
so surprising, so beyond what I expected. Well, you know, over performances, it tends
to be a Pluto's game.
I can remember the beginning of my career
when we were doing really crude things.
Like the first pictures with Hubble in the late 90s
were like, well, that's a lot spottier
than a normal thing at this resolution.
You look across the outer solar system at solid bodies,
and even things considerably larger than Pluto,
like moons of Jupiter.
That's like, Pluto's turning out to be a lot more complicated, even at low resolution,
and the same with its atmosphere.
So we had some expectation, but what you're saying is spot on.
It really, I think it blew everybody away.
I don't think anybody was like, I'm disappointed.
Pluto wasn't enough. There was none of that. Were there tears or emotional reactions from the team
when they finally saw those images? Lots of emotional reactions. And I don't remember
too many tears. There probably were some. What I do remember is a lot of hugs, just people feeling
like they wanted to hug each other. When we hired people to come on the proposal team in 2001,
and we were in a competition, not just for funding,
but even to just win the right to be the team that would get the design and build it and fly it.
We asked people specifically for a commitment that they would stay with it all the way to Pluto.
They wouldn't just come on to launch.
And I'm talking about engineers, mission operations people, not just science teams. that they would stay with it all the way to Pluto. They wouldn't just come on to launch.
And I'm talking about engineers, mission operations people,
not just science team, science team always stays
because they're in it for what happens at the end.
But we asked the whole team that we told people
when we hired people, you're gonna come on this mission
in your 20s, your 30s.
It's a 20 year commitment between building
and flying and everything.
You can go work on other things, but we want you to stay on New Horizons.
You have to commit to that.
They did, with very rare exception.
There were a couple of people who had other things that got in the way, and a couple of
people passed away, which was sad.
It was really the same people.
Our kids had grown up, and time had gone by.
I'm sure it felt the same in Voyager. But Voyager had a much bigger budget and it was really a centerpiece mission
for NASA in those days. New Horizons was much more of a low budget underground of people
who just worked and toiled for, you know, from 2001 to 2015 just to see how this would
turn out.
How many people are still working on the team?
A lot of them, surprisingly, 10 years later, we're on our fourth project manager.
And she literally was a great schooler when we wrote the proposal.
Wow.
You know, the science team and the mission operations team and the engineering team are largely intact.
There have been some retirements. We brought in some new younger people, as you should, for a lot of reasons.
But in the core team, virtually everybody's there.
Well, we're actually just a few days out from this anniversary as we're speaking.
Are you guys all going to get together and do some kind of party or something to celebrate this moment? Well, not really a party. There are going to be celebrations, but the thing is a few years ago,
the opportunity came up to do a major scientific conference on what we've learned from the time of
2015 when New Horizons revolutionized everything about Pluto and its system of moons and to also
look at all the new things that we learned from
the James Webb, from the Hubble, from ground-based, from computer modeling, even theory, and to put it
all in context with what we've learned about other dwarf planets in the Kuiper Belt. So
when that got cemented as a conference through the Lunar and Planetary Institute. The obvious thing to do was to see if we could have it
in July of 2025.
And then also as a bonus,
not as a core part of the science meeting,
but as a bonus to have it in the same place
at the Johns Hopkins Applied Physics Lab
where the flyby events were.
And we ended up with literally the same week
10 years later.
So that's an opportunity for those who can come and be there to reminisce and
also to celebrate the accomplishment.
So I'm pretty sure there's not a big party, but there are some celebratory
evening events, people will get to tell stories and see pictures of the time of
the flyby and just see old friends and talk.
A Dean Denton who's been studying Pluto using all the results from New Horizons,
who I know is going to be at this conference.
She was speaking about it a few months ago, just so absolutely excited to go there and
share everything that people have been learning about, you know, Sharon's formation or
Karen, depending on how you like to pronounce it it or the potential for a subsurface ocean just all these years later this data is still teaching us so much about this world.
That's true and it takes a while you know it took us 16 months just to get the data all to the
ground. This part of the spacecraft is designed for a mission with you know a very long distance
between the earth and Pluto so the data rates were low but there was a lot of skim the cream stuff early,
but there are a lot of stuff.
It just takes a while to see the connections between it
for people to do the hard work of data analysis,
careful work, the computer modeling behind it.
And then as new things started to come in
from ground-based observatories, the Hubble web,
it got just deeper and richer.
And take a person like Aideen, who's spectacular. I was on her PhD committee and on a couple of
papers when she was doing her PhD rather. And she has done really important work, but she wasn't
even in grad school when we had the flyby. I know. Isn't that amazing? Like the fact that
this mission has been going on for so long
that you can bring in whole new generations of scientists is just absolutely amazing.
Well, we always said to people, this one's about delayed gratification because we built
it in almost record time. We only had four years and two months from U1 to U launch.
Most missions are eight, 10, sometimes 12 years to get to
launch pad. And then we were 10 years crossing the solar system.
And we didn't pass anything a long way, but Jupiter shortly
after launch. And so you add that up. And it's just a lot of
delayed gratification. A lot of missions don't have to do that.
If you're I've been on lunar missions and Mars missions where
you're there almost before you know it after launch.
We spoke a little bit about this earlier,
but what were some of your experiences
with the public reaction to this flyby?
You know, there's so many,
it's just like a kaleidoscope to me.
Some of the most moving,
that was very moving to me that the worldwide response,
I remember saying in a public talk that was broadcast shortly after the flyby, that we
had been on the front page of over 450 newspapers above the fold on the morning after the flyby
on six continents.
And I got an email the next day from the editor of
the only paper in Antarctica. And he said, Don't forget about
us. And he had a copy of his newspaper. That was just so
cool. But we also you know, we literally I would go and give
public talks. And I'll give you just one example. I remember a
mother coming to me in a line of people just to, you know, talk after I gave a presentation. And she
said, I have to tell you a story. She said, Alan, my son
was a slacker and a failure. A teenage son. He watched your fly
by. And she started crying. She couldn't even finish the
sentence. She said he watched your fly by and said, I want to do that. That's what I want to grow up and be is in that line of work. And it's
two years later, he's a straight A student. You saved my son. She didn't mean me. She
meant New Horizons and that flyby. You saved my son. I nearly started crying. It was amazing
when you hear something like that,
because as scientists, when you work to build a mission
and you think of the science that's coming out of it,
you never think it's gonna have that kind of an impact
on human beings.
And I'll never forget her telling me that story.
You're making me emotional thinking about it.
I mean, honestly, I think that's what's so special
about space science as a field.
It has this power to motivate people to see their deepest, most, you know, brightest selves in the
future because it's so aspirational. The one thing about space flight is that it's never done by a
single individual. It's only done by teams of humans that together can do something that
no one of us could accomplish. That's just so cool to me. I think too that a lot of people may not
realize how close to New Horizons came to Never Flying at all. Can you share a little bit about
the advocacy that helped get this mission off the ground and what it meant to you and the team to
have that kind of public support.
Yeah, I'd love to talk about that because you know, as backstory and a lot of people may not
remember or even have ever known that the scientific community pushed to have a mission to Pluto for 17 years before it got funded. And it started in the late 80s and it really got funded in the early 2000s.
And there were so many reversals of fortune and missions that were started, that canceled or never got out of the study phase or made a mistake and got out of control on cost and so forth. went on and on and on until we finally had an opportunity called New Horizons where it
actually all not just got to the launch pad, but got the goods of Pluto.
And the Planetary Society was with us from the start.
Even in the early days when Lou Friedman and Carl Sagan and Bruce Murray were all still
in their prime, they were helpful.
And Bill Nye was helpful.
In fact, we put him in our proposal, he agreed to it.
And this was 2001, and we called him Bill Nye the Pluto guy.
Was gonna be a part of our public outreach team.
You guys play a huge role in making it happen,
delivering, I think, 1.10 thousand letters,
hard copy letters in
the days that people sent letters in, you know, with a postage stamp, delivering them to Congress.
And there was, of course, advocacy from lots of other groups. There were no decadal surveys back
then. So it was much more kind of make it up as you go advocacy. But so many people contributed to
this and wanted to see it happen in the space
community, the science community, public policy community.
They'd never done it without all those people because there were so many no's and well,
we wanted to but we can't and now we're canceling it or you know, something would come up and
all that advocacy.
I remember very importantly, there was a boy, a teenage boy
who drove to NASA headquarters and literally knocked on the front that worked at headquarters in 2000. And when
the whole thing had been canceled, before there was a
New Horizons, it was called, I think, Pluto Corporate Express.
And this young man just came in and asked, of course, how do I find whoever's in charge of science?
And he was literally in high school, literally a minor, literally a kid from Pennsylvania that
got in his parents' car and drove. And some of the bureaucracy people put him in a room, something
you could never do today if you're considered offensive, but they put him in a room, something you could never do today, if you consider it offensive, but
they put him in a room and sort of grilled him and said, who put you up to this?
Who paid for your travel?
And he's like, nobody put me up to this.
I read about this in the newspaper and I'm for doing this and I pay for my gas.
His name's Ted Nichols and he became a poster person for why know, for why the public, you know, really had a stake in this.
And there are a lot of other stories, but that's a particularly good one about the advocacy,
because it matters when people get behind things.
So for all of you who are listening, when you want to see something happen, some future mission,
don't forget to get behind it publicly, because because it is in the way we do things today done through a federal government agency
And we're all maybe not owners, but certainly stakeholders in it as American citizens
Now it was worth all of that advocacy
I mean
I remember being a child flipping through my solar system books with all these
beautiful Voyager images of these other worlds and then just getting to Pluto and having
this vague idea of what it looked like from this beautiful artwork that people drew.
But, but to be able to complete that catalog and to give people this mental image of this
world, but, but not just what it looked like, just how surprising it was.
I'm so glad that people spent that time to advocate for it because
it was so worth it. It really was and you're like a lot of people, myself included, that Pluto was
unfinished business, the last of the classical planets. And because of some scientific decisions,
Voyager couldn't get there. Just from a trajectory standpoint, the decision was that it never was built to go that far.
And so that concentrate on Jupiter and Saturn science
and the trajectory that resulted
couldn't get Voyager to Pluto.
So it fell to my generation, the generation after Voyager
to pick that ball up.
And really the flyby of Pluto in 2015 was the first time we've been
to a new planet since the late 80s with Voyager 2 and Neptune. And we once calculated 40% of the
people alive in 2015 were either not born or too young to remember the last time there had been a first mission to a new planet.
And it just turned out to be usually popular because it was like an adventure story happening in real time, day by day as we got closer and closer.
And then once we actually had the really high resolution stuff from flyby day, and that started to come to the ground. Over a period of about a year,
New Horizons just kept sending spectacular image after image
after image and discoveries about Pluto,
its moons and its atmosphere, its interior,
possible, probably, probably Dean would tell you,
ocean under its liquid water ocean,
and everything else about it that's just so spectacular.
So by the way, here's a plug for a future generation.
We need to send an orbiter and go back.
But really though, there are so many mysteries left unanswered at this point.
And it takes an orbiter.
That's what we do.
The first missions to Mars were flybys.
It turned out to be mouthwatering, and we sent orbiters.
They showed us even more that that was the case,
and we just wanted more and more.
Sometimes people say to me now,
an orbiter's just too high a hill to climb.
It's gonna cost a lot more than New Horizons,
and it's a much bigger scale enterprise,
and that's all true.
My response to that was,
well, then let's put it in perspective
and start a movement for a human mission to Pluto. And of course, by comparison, the orbiter will look like
a cinch. So then instead of looking at it as big and complicated compared to New Horizons,
it'll look small and trivial compared to a human mission to Pluto.
What would you say were some of the most surprising discoveries we made there? And what are you
still like really curious to find out about a decade later?
Well, I think the biggest single thing was the complexity was so far beyond what
we expected. Generally, there's a rule of thumb that smaller worlds are less
complex and there are a number of geophysical reasons for that.
The second big discovery was Pluto's active and so many small
worlds are dead. Even the moon, which is somewhat larger than Pluto, our moon, Luna, you know,
the Earth's moon, is larger than Pluto, but its geology, its engine largely ran out a billion years
after formation. There was some activity in the second billion years, but we're now four and a half billion years downstream.
And you have to really look close
to see much going on in the moon.
No detriment that I consider myself a lunar scientist.
But in general, the only worlds that show
intense activity that are small
are the ones that get external sources of energy
like Ion is pumped up by the other
Jovian moons and a gravitational tug
with on the planet being a host and Pluto we knew would be a kind of
Acid test could you have a small world that's active it's out there isolated in the middle of nowhere and it turned out to be
Not just active but crazy active.
You know, the biggest single feature on the planet
is a glacier that's overturning due to convection
in the ice.
And it's the scale of Texas and Oklahoma combined.
And we know it has no craters on it.
And we can therefore determine
it was born yesterday, geologically.
And no one really understands how a world the size of Pluto
can make things the size of Texas yesterday. And then on top of it, we see evidence for avalanches
and atmospheric change and meteorological or, you know, volatile transport that all indicate
different forms of activity on Pluto. And then the atmosphere blew us away and the moons,
the largest tectonic belt in the solar system,
Sharon's weird dark red polar cap
that doesn't look like any other polar cap
in the solar system.
There just were so many things about Pluto
and its satellites that were blockbuster headlines,
including multiple lines of evidence
for this Europa-like interior water ocean
that could even have astrobiological potential
that Pluto just delivered and delivered and delivered
these major headlines, which I think tell us
as we go out into the Kuiper Belt
to study the other dwarf planets there,
Eris and Sedna and Orcus and Makemake
and Ixion, we're going to see a lot more surprises just like we did as we compared the terrestrial
planets in the early days of space exploration.
There's so much we could learn with a return mission, especially an orbiter.
I want to know what's going on with that rich trough system and whether or not there are potential remnants of the situation that created this kind of, I mean, I almost
think of it as like a binary dwarf planet.
Like we think of Pluto as this, you know, object all on its own, but its relationship
with Sharon is so fascinating that there's just so much left we need to know about this.
A hundred percent.
Let's go.
Let's go.
But then immediately after going on this beautiful
adventure through Pluto and blowing our minds about this, you took this mission and went
on to another object, this second target, Arrokoth. How did you figure out where this
thing was going to be going while this mission was already in route? Yeah, we discovered
it in 2014. When the mission was architected by advisory committees in the late 90s and early 2000s, we already knew about the Kuiper Belt.
And when NASA asked for proposals, they said, if you're writing a proposal for this mission, your spacecraft has to be designed and capable of going past Pluto out into the Kuiper Belt, making as many flybys as you can out there
and being able to transmit the data back
from the larger distances of the Kuiper Belt
and have the power to keep going out there
and the fuel to do all this.
And that's what we proposed with New Horizons.
So did our competitors,
but our proposal was the one NASA chose.
And so we knew we would be
doing this. If everything was working well, we would go on past Pluto. But we didn't know
enough back at the time we wrote the proposal, we even launched the spacecraft, to find a target
along our path. We had to wait as the ground-based technology got better, and also Hubble got better instruments.
And then in 2014, we got a big bunch of time
from the space telescope, Hubble space telescope,
to look for this target.
And we actually found three targets that we could reach.
Right away, in a matter of a week, all three were spotted.
And we chose Aricoth, in part because it was the easiest
to reach and it would leave the most fuel for maybe a third
of flyby Pluto, Arakoth, and then one more.
And then we just tracked it from the ground
and tracked it from Hubble and computed the intercept course.
We had the advantage of Hubble being so accurate that we could actually
do ground-based occultations that gave us even higher accuracy. And so we just hunted it down
in the darkness of the Kuiper belt and had another spectacular flyby that also revolutionized
scientific knowledge, but this time not about a planet but a seed or a building block of the planets out there. So it told us a lot
about the origin story of how Pluto and its kin, the other dwarf planets, and even how larger planets
like the Earth and Mars, maybe even the gas giants even, started. And it really taught us a great deal
that we did not know before that the original accretion of the planets
started with this gentle accretion of small bodies that are only tens of kilometers across.
And we could not know that from any other mission before because the Kuiper belt is a much better
time capsule being much colder and much less collisionally active than the asteroid belt.
This was the first really pristine object
that we could see that we knew
was not modified by much of anything.
So that was a big accomplishment for our team.
And of course, scientifically, really a goldmine
in terms of learning about planetary origins.
And that's why we wanna go on if we're able to
and have another corporate belt object flyby in the future where
you know, the space could be much farther out and the
conditions might be very different. And so we want to
compare formation in the inner corporate belt where aircraft was
to a flyby that would give us the same kind of information in
the outer corporate
belt, twice as far away from the sun.
Plus in the interim, we've had new instruments and observatories come online with things
like JWST and now this new Vera Rubin Observatory.
I'm sure it would be even easier to find targets out there that might be able to work for that.
Well, you know, if Vera Rubin gets pressed into that search, it'll do better than
anything else on the ground. It's just a better tool. We can, we know that just from its technical
specs that it can do literally almost an order of magnitude better in searching than the best
ground-based tool, which is the Subaru, the Japanese giant telescope in Hawaii, which has done great.
But, you know, it can only go so far with its instrumentation and Vera Rubin is just much more modern and has instruments
that are more optimized to things like this kind of needle in a haystack search and even
better than Vera Rubin.
When NASA launches the Nancy Roman Space Telescope, which is still planned, that will do even
better and that may be the,
that's probably the best tool that we'll have before we leave the Kuiper Belt to
find a new flyby target. So we're, we're going to press all those into service if
we're able to.
We'll be right back with the rest of our celebration of the New Horizons Pluto
flyby 10 year anniversary after this short break.
Greetings planetary defenders, Bill Nye here.
At the Planetary Society we work to prevent the Earth from getting hit with an asteroid or comet.
Such an impact would have devastating effects, but we can keep it from happening.
The Planetary Society supports near-Earth object research through our Shoemaker-Neo grant.
These grants provide funding for astronomers around the world to upgrade their observational
facilities.
Right now there are astronomers out there finding, tracking, and characterizing potentially
dangerous asteroids.
Our grant winners really make a difference by providing lots of observations of the asteroid
so we can figure out if it's going to hit Earth.
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Thank you.
There's still a lot of opportunity for science out there because New Horizons is the only functioning spacecraft
that's in that section, that outer part of the heliosphere.
And it has all these instruments on it
that Voyager didn't have at the time.
What do you think it's uniquely positioned to teach us
about that place in space?
Well, that's a good point.
A lot of things actually, for one thing,
New Horizons is, and most people don't know this
because it's not headline making,
but it's scientifically important.
We've now studied almost 40 corporate belt objects,
even though we only flew super close to one, Arakov.
We've studied a lot of them that went by in the distance
and learned things that you cannot learn
from Earth or Earth orbit because we're much closer
and we see them from different angles.
In addition,
we've looked back in the distance at Uranus and Neptune and see them from their night sides,
which no other spacecraft can do, and learn things about their atmospheres and energy balance.
We've also looked at the entire universe, literally mapped the sky for the cosmic,
optical and ultraviolet backgrounds and learned, you know, made the
most sensitive measurements anyone has ever made or can make because we're so far out,
all the dust of the inner solar system is nowhere near and we have much clearer view
of these things astrophysically.
And on top of all that, what you were just talking about is our ability to take this much more
modern instrumentation and some new types of instruments for studying the outer heliosphere.
And just as Voyager did a generation ago with 1970s gear on board, follow that whole transition
from the sun's environment through what's called the termination shock and then the passage into
the interstellar medium through the heliopause, but do it with this much more
modern gear and with instrumentation that can really
follow up on a lot of the mysteries that Voyager data
exposed. So it's very exciting. And on top of it, we're the only
spacecraft out there, as you say, there's nothing else in
the Kuiper belt or the outer heliosphere. And moreover, there's nothing else planned to come this way.
So I'm sure there will be missions in the distant future,
but they're not even on the drawing board, much less in flight.
We're kind of it for more Kuiper Belt exploration
and outer heliosphere exploration for decades.
Which is why I'm so hoping that this mission gets what it needs to continue on.
What do you think the public and policymakers
should know about this mission?
Or why should they care so deeply
about making sure that New Horizons keeps going?
Well, I guess there are a lot of reasons
and I'm just gonna focus on a couple.
One of the things that this kind of exploration does
is that it inspires the
younger generation to go into hard things, technical fields. It's amazing when you talk
to people in the tech industry, and I mean by that, computers, internet, AI, even biomedical,
energy, any of that, and you ask them, what got you into science and education? It's amazing
how poll after poll have shown a lot of kids
Get hooked through space exploration and then they're so interested in science and tech that they may end up electrical engineers working on
You know advanced efficient energy systems where they may end up in the medical field or in agriculture
But they often report
By the end of my start. I was just so interested in the planets
in the universe and astronomy. So that's very important that unlike just pure math, for example,
or chemistry or physics, children tend to get turned on to STEM careers through things like
New Horizons and particularly really visible missions like New Horizons
that make an impression on kids.
A second thing is, this is great soft power projection
for the United States.
Kids in every country know names like New Horizons
or Hubble, they know about these missions,
they read about them in their textbooks
in any given language.
And it's such a great image for the United States
as a pioneer and as a country and
society that's interested in, you know, groundbreaking new knowledge and doing really hard things that
are above and beyond almost the imagination of people in a lot of countries. But we're known
for doing that and doing it over and over and very, very well. And so I think those things,
and frankly, there's a competition now with, you know, another belief system in China,
they're having a really spectacular growth rate in both
their human and robotic space exploration, and NASA's ahead of
them. But it will only stay ahead of them if we keep doing all
these amazing things.
It's true. And these these types of images, I mean,
I know I wouldn't be where I am today
without missions like New Horizons.
For me, it was things like Voyager
and all the initial missions to Mars.
But for this next generation, it really is.
It's about striving beyond and seeing those things
that no one has ever seen or discovered before.
And if I was a kid,
New Horizons would have been my mission. I mean, even now, I'm wearing a necklace with
an image from New Horizons on it.
Right on. As you should. But I talk to people all the time who were, for example, my children's
age, you know, who were very young and impressionable and New Horizons made a big difference. And then I go and talk to schools now of kids who, you know, 10 years ago,
Pluto fly, but that was a long time ago for them.
You know, some of them were just born or even not born when we launched in 2006
or when we got to Pluto in 2015. But they know all about it.
And that's just wonderful on so many levels.
And it's a draw, as I say, for STEM education,
for kids going and doing the hardest things,
which I think are in tech and science.
Well, we're talking about the ways
that this has changed people around the world,
but you've been at the helm of this mission
from the beginning.
How do you think this journey has changed you?
It's humbling in many ways to know how we impacted people
when we thought we were just out to do great science
and to change textbooks by developing new knowledge,
but how we actually emotionally connected
with adults and children alike and still continue to do so.
So that's changed me.
And I have to say, you know,
I'm very fortunate that in my career,
I have now been on 30 space missions that have flown.
I'm not talking about proposals that we tried,
but actual space missions, 30 of them.
And I've been principal investigator on either an instrument
or the whole mission now 15 times, so half of those.
But New Horizons seems to have a special connection
to people and that's more so than any other mission
that I've been involved in.
I've been involved in some really great ones.
Finally, I just say that more than any other mission
I've worked on is this overriding object lesson in what it
means to be a great team, a great team of just regular, smart, dedicated humans who
band together and do something that you leave behind as a legacy.
Even after we all pass away, the knowledge that we developed and the firsts that we created
will always be there.
And that team of people that worked so hard under so many, I guess the word is, so many difficulties
as we were building it, building it at very low cost and building it in record time because we had to get to Jupiter
by a certain date to get the flyby to Pluto lined up. All those people,
I remember, if you don't mind, one story. Right before we got to Pluto, we had been hibernating
the spacecraft over and over every year, most of the time, all the way across the solar system,
because it saves money when you don't have to run your mission control. And it also saves wear and tear on the,
all the electronics on the spacecraft
that are off when we hibernate.
And when we woke, we're waking up
from the very last hibernation at the beginning of 2015,
just six months before the flyby.
Our mission operations manager, Alice Bowman,
came to me and said,
you know, there are a lot of people on my team, Alan,
who don't want this flyby to happen. I said, Alice, what are you talking about? That's all
we've worked on, you know, since 2001. She said, because it's been a beacon in our future, and all
of a sudden it's about to be in our past. And a lot of them, they don't know what they're going
to do with themselves when it's not in their future, you know, this beacon.
And it really set me back thinking about that.
And I realized some of that was in my own head and heart, but I hadn't quite crystallized on it.
As it turns out, everybody did just fine.
And Pluto performed so well, everybody was so excited.
But it really shows you when you're a team and you're working against the odds, how emotionally invested people can get in
the exploration and even the machine itself.
Well, it's a testament to the fact that these missions mean so much to people that they
can act as this beacon for the future.
And that's why it's so important that we keep working toward these goals, even if it seems
absolutely wacky to most people to try to send something all the way out to Pluto,
that's an aspiration that you can hold onto for decades.
And I'm hoping that we can create so many more
of these opportunities in the future.
Just imagine what we're going to be looking forward to
in a hundred years.
No doubt.
I hope those in the medical field make it possible
for all of us to see how the story turns out
a hundred years from now.
It's going to be spectacular.
Well, thank you so much for joining us to mark this beautiful occasion.
I know I'm going to be reflecting on these images and maybe see if I can make a Pluto cake or something.
But I hope you have a wonderful time at the conference with everyone and a good emotional moment,
really feeling the impact that you all made on everyone around the world because you should be so proud. Well thank you. I'll relay that to the team when
we when we have our get together Monday night and thank you Planetary Society and thank you
Sarah for Planetary Radio being interested in New Horizons what we're doing now and what we've been able to accomplish as a team.
Thanks so much, Alan. Take care.
New Horizons didn't just give us stunning images. It delivered a treasure trove of data that scientists are still working through a decade later. One of those scientists is Dr. Adine Denton,
a NASA postdoctoral program fellow at the Southwest Research Institute.
You may remember her because the dean has joined us on planetary radio two times in
the past year, wants to talk about the origins of Pluto's iconic heart-shaped feature, Sputnik
Planitia, but then again to talk about her fascinating research on the formation of Charon,
Pluto's largest moon.
Her work combines geologic analysis with impact modeling to reveal how these icy worlds have
evolved over time.
Basically, she likes to simulate these worlds and blow them up and see what happens.
Adeen is fresh back from the progress in understanding the Pluto system 10 years after flyby conference
at the Johns Hopkins Applied Physics Laboratory.
Hey, Adeen, welcome back.
Hi, it's always good to be back.
I tell you, last week I was doing a live stream
celebrating the 10-year anniversary
of this flyby of Pluto.
And the amount of things that I've learned from you
in the past few conversations we've had
were just really instrumental in that conversation.
So I wanted to thank you first off
for helping educate me on what's happening currently in Pluto science. Well, it's an honor that you feel that way. And
it's always really exciting to share with people the incredible things that we've been able to
learn since New Horizons did its flyby 10 years ago. Well, I know you probably bumped into Alan
Stern at this conference. He mentioned to me he was going to be going there and he was looking forward to maybe seeing you. Did that actually happen? Oh yes, we crossed paths several
times though. Alan is a very, very busy man. So we waved hi, we said great talk, great talk,
and we had to keep it moving because there's a lot of science being done at this conference and a
lot of people to talk to.
He probably mentioned this, but it really is incredible to be able to pull together almost a hundred people
to get together for a week just to talk about Pluto and the Pluto system specifically.
That's not something that ever really gets to happen, and it's a testament to what New Horizons has done that so many people have been able to do work on Pluto in advanced science so much that we now know enough about Pluto to talk about it for a full five days.
Well, that's a lot of science going on. And I'm sure we can't run through all of it, but I wasn't there. What were the most exciting things that you got to be there to witness?
exciting things that you got to be there to witness. So many wonderful things happened last week. We got a preview of the upcoming soon to be
released Pluto geologic map that was approved by the USGS and is going through pre printing.
So now everybody will soon be able to have their own Pluto geologic map. And the people
that do geologic mapping, I've always found so fascinating, even though I don't do that
kind of work, because it really is kind of at the absolute frontier of knowledge, right? When you are the
one to look at a planetary surface and say, this is a crater, this is its name, this is the boundary
of this mountain chain. Someone is drawing those lines on a map and they're the first ones to ever
actually map Pluto in that kind of
detail. And I've always found that work absolutely fascinating. And then there's of course been some
really incredible telescopic observations, including work done by the new JWST mission
that has been able to look at the Pluto system and Pluto's moons in more detail, as well as
conduct observations on other Kuiper Belt objects, which means we now have more information to compare Pluto to other large Kuiper Belt objects
out there, which is, I think, really exciting.
Because as we move forward and we're not necessarily going to get back to the Kuiper Belt anytime
soon, leveraging what we learned from New Horizons with ongoing missions like JWST means that we can
really learn a lot more not just about Pluto but about other really really cool objects that are
also three billion miles away. There's still much more to learn about Pluto especially because
the surface that we saw following the flyby is incredibly geologically complex, which means that
is incredibly geologically complex, which means that it's probably still active right now.
The surface of Pluto has probably changed
in ways that we can't really imagine
since we saw it 10 years ago.
Those glaciers that we saw carving through the mountains
made of water ice are moving.
And that means that if we ever do return to Pluto,
the surface could look completely different.
But until then, we can use telescopic observations from the Earth and from space like with JWST
to kind of check back in on the system.
Are there any other cool results that you saw while you were there?
Yeah, I think some of the really interesting work that I saw was some ongoing discussions
talking about the potential for cryovolcanism
on Pluto and how potential tectonism may have been involved. Because there's been suggestions
since the New Horizons flyby about cryovolcanism on Pluto, because there are these putative cryovolcanic
features. And when I say putative cryovolcanic features, what I mean is they saw a couple mountains that have depressions in their centers similar to like a volcanic caldera.
And it's kind of hard to make that happen without volcanism, which is why everybody suggests, hey, maybe it was cryovolcanism. That would be super cool. But the ongoing problem has always been, how do you make cryovolcanism actually work?
Because in regular volcanism, what happens is you melt rock, and when rock becomes liquid
rock, also known as magma, it's less dense than the surrounding rock, so it wants to
go up.
So it's buoyant, which means eventually, most of the time, it can erupt.
That's not true if you melt ice.
When you melt ice, you get liquid ice, which is also known as water.
And water, as many of us know, is more dense than ice, right?
It doesn't want to go up.
So the question has always been, okay, if what we're seeing on Pluto is a cryovolcano, that's super cool,
but what happened at Pluto to make the water want to go up? And the answer for that is
usually you need to exert some kind of pressure. So the ice shell needs to be putting pressure
on the water such that it's basically forced out. So some of the research that we saw at the Pluto conference was
looking at what kinds of tectonism may be involved in the ice shell that could
then produce cryovolcanism. And cryovolcanism is such a great topic
because everybody gets so frustrated thinking about how...
It clearly happens. There's clearly evidence for it several places in the solar system,
but we really don't understand how it works.
Well, I know we can't go through an entire week of science,
but were there any fun events there?
Did you guys have any parties?
Well, I think planetary scientists love a good party
to celebrate missions and the work that goes into them.
So we did have a
party, well a party is a strong word because there wasn't any cake and I was really sad
about that. But we did have a party of sorts where a bunch of members of the management
team behind New Horizons did a sort of panel discussion talking about with slideshows with
slides that had pictures of the development
and the struggle to get the mission funded and then up and running and then actually
running the mission.
So it was really, really neat to see people talking about the prolonged history of New
Horizons because the history of people wanting to go to Pluto dates back to the Voyager era.
So it was kind of a celebration of all of the multi-generational work that goes into
sending a mission to the outer solar system, because the people that started advocating
for a dedicated Pluto mission in the late 80s, early 90s, are in their late
stages of their career, but the people that are now at the forefront of doing Pluto science
and utilizing New Horizons data are at the start of their career. So it's a celebration
of not just of Pluto and everything we've learned and of New Horizons and everything it did, but also a celebration of the act
of science itself, which is the idea that everything that you do and everything that
you work on to push the boundary of science forward is possible because of the people
that came behind you that did their work knowing that we are working on problems that will
never be solved within
one lifetime. And to me, that was a really, really cool and really profound experience
to be a part of. One really neat thing that happened is at that celebration, I was actually
able to meet the guy that discovered Karen in 1978. He was there with his wife. And I got to meet him and tell him that, you know, my work is
looking at how Sharon formed and to be able to show him some of the same videos that I've showed
you and your guests from the work that I published this year. And he was so excited to hear about the
work that's still being done on a body that he discovered. And I think that's one of the cool
things about doing science in the Pluto system is that Pluto itself, our understanding of Pluto is about the work that's still being done on a body that he discovered. And I think that's one of the cool things
about doing science in the Pluto system
is that Pluto itself, our understanding of Pluto
is so new that the guy that discovered its largest moon
is still alive to be able to come to these events
and be amazed and thrilled by the work
that people are doing today.
Oh man, I get emotional just hearing that. That is such a profound experience
to be able to share that with that person.
My gosh.
From me to you and everybody that's either worked on this mission
or has worked on the data from this mission,
thanks for doing so much to help reveal this world
that I think holds such a special place in people's heart.
Pluto is so special to so many of us, and
I'm just, I'm so glad you're here to share this with us. My pleasure. Well, before I let you go,
what's next in the adventures of Adeen Denton and learning more about this system?
Well, I don't currently have funding to do more Pluto research at this time. I'm currently looking at some of
the mid-sized moons of Saturn to try to better understand how icy bodies like Pluto become
geologically active or not, because we still don't understand why Pluto, being three billion
miles away and not even around a giant planet, is still so geologically active. There's more
questions when we get to some of the other icy worlds in the solar system,
because you have Enceladus, which is this satellite of Saturn that is incredibly geologically active,
has the geysers coming out of its south pole, but the moons to either side of it aren't nearly as
geologically active, and we don't fully understand why that is. So in trying to understand the history of those bodies,
I'm hoping that we can try to build a much more broad understanding of what dictates
geologic activity and habitability on icy satellites across the solar system. So I'm
really excited about that work. And what that means in practice is I'll be blowing up those moons as
well, because they have all of them have really, really big impact craters. So I'll be hitting each
of these moons in turn and seeing what happens and then be able to compare that to their existing
geology and also to Pluto to try to understand things a little bit better. Seriously, just so much fun.
Let's blow up worlds in the solar system, see what happens, and learn the science.
I love your job.
I love it too.
Well, seriously, good luck on your adventures, and when you learn more about those moons,
let us know.
Can do.
Bye, Aideen.
As we celebrate everything New Horizons has accomplished, it's important to remember that missions like this and the entire future of space science in the United States are under threat.
NASA's science program is facing a proposed 47% cut in 2026. We've reinforced the early termination of dozens of missions, including New Horizons, halting scientific progress across the agency, and causing the United States to cede its
leadership in space exploration and discovery.
At the Planetary Society, we're working every day to protect NASA's science programs,
and to stand up for the scientists, engineers, and missions that make exploration possible.
And we have huge news.
The advocacy of all of the space fans
around the world is working.
Here with a major update from Capitol Hill
is our Director of Government Relations, Jack Corelli.
Hey, Jack.
Hey, Sarah, how you doing?
I mean, it's been a while since we got a space policy update
on the show, there's been so much going on. And I'm glad
that we can take the time in a show celebrating the New
Horizons mission to talk about this because New Horizons is one
of those missions that's being deeply impacted by space
politics right now. Yeah. And you know, New Horizons has had a
long history in space advocacy and space policy. Yeah, this is
just that that next hurdle right now is this current year, fiscal year 2026 appropriations
process and setting that budget for NASA,
which includes operations for our friends,
Alan and company over at New Horizons.
What's been going down in Congress with this?
Yeah, so we've had a incredibly busy and productive few weeks here in DC.
I know those words don't tend to go together, but when it relates to our Save NASA Science
campaign, we've had some major developments that have really moved the ball forward.
Just as a little reminder, so President's budget request, this thing that's proposing 47% cut to
NASA science and overall 24% cut to NASA gets released in the early part of the year. Every
year this happens gets released, goes to Congress, Congress says thank you very much. They put it in
the circular file and start their own process. And they, you know, the House and the Senate go
to their subcommittees and they work out a deal on the funding for NASA as well as all the other agencies and it filters up, right, through the Congress
and ultimately becomes law. We're in that sort of middle part of the process, right, where the
appropriations subcommittees, which appropriations is what we call the appropriating the establishment
of funds for specific activities within the government.
The appropriations committees have met at the end of July.
We now have two bills, one in the House and one in the Senate.
Both of them keep the NASA top line budget flat.
Oh man, you know what that means?
That means no cuts, no top line level cut for NASA.
Congress has in this moment, July 2025,
has taken the input from the administration
in their budget request and have said no thank you.
They have outright rejected in a bipartisan manner,
at least over on the Senate side,
outright rejected the president's budget request.
And even on the House side,
there are issues relating to Department of Justice
and Department of Commerce right now
that have polarized some of the committee work,
but NASA has been a uniting factor.
We've seen in opening statements from Republicans and
Democrats on both sides of the hill, how important NASA is and that the congressional intent, that's
the key word congressional intent of both the house and the Senate is to keep NASA whole.
This is a huge moment for the campaign. If you've written a letter, if you've visited your
member's office, if you've written an op-ed, if you've called your
representatives in Congress, like I know tens of thousands of people have over
these past five months, this monumental decision by both chambers of Congress
to reject the cuts and keep NASA whole,
this is for you, this advocacy that you've been doing
has worked.
Now the details, right?
House still includes a small cut,
the sort of rebalancing of funding within the agency.
They do have about a billion dollar cut to science. But even just
from some of these initial conversations, it seems like keeping that NASA top line budget flat is the
key point. They bump up to get to that overall top line, keeping that flat for NASA. The human
spaceflight program gets a bit of a bump up. We talked about this capital B budget, the reconciliation, HR
one has all these different names that passed earlier this
year has supplemental funding for human spaceflight that can
totally offset this bump that the house has included and make
science whole. And that's from having these conversations on
the Hill. So even though the House has advanced a bill
that some of the finer details aren't exactly what we'd like,
there is still an effort happening
in the House of Representatives to rebalance their budget
and make sure that NASA science is whole.
So all of this has led up to this moment.
And I'll say this, in a normal year,
this would be a crescendo moment.
And it's still very important.
But the problem is, is we're not in a normal year, right?
It's still very important.
We have now gotten flat funding
into both the House and Senate bill,
prioritizing key projects and program areas
within both bills that we support.
And that is laying the foundation
for whatever budget Congress ultimately passes.
But what we're hearing is that even though
congressional intent has been made clear,
the Office of Management and Budget,
that group of unelected bureaucrats over at the White
House whose ultimate goal, right, as an organization in the
federal government is to execute, so it's the executive
branch, to execute the laws passed by Congress.
That's currently in question.
As we've heard from OMB director Russ Vogt, they're questioning
that Article 1, Section 9 authority of Congress
to appropriate funds.
Congress takes that very seriously, that their role is to set the budget and the policy of
the United States and it's the job of the executive to execute.
But we're at a point now where we have, I'll say a rogue OMB director who isn't even totally aligned with the president
on his goal for a strong space program
as President Trump has been in the past
and in public statements has been
that OMB director vote is trying to usurp
some of that congressional authority.
This is not something that normally happens.
And so we have to do a lot more fighting,
right? Because we have this, this, this OMB director who is making plans to terminate missions
early, has cut funding for scientific research opportunities in the science mission directorate
at NASA by 82% has led the more than decimation, right? Almost a double decimation of the NASA workforce.
As of public reporting, we know about 2,600 people
have taken some of these deferred resignation programs,
these early, early leave programs,
a lot of them in senior leadership at the agency,
people with a lot of expertise and know-how
on executing successful space missions.
Oh man, that's devastating.
All that's still happening, right?
And Congress is making it clear,
like they're putting their foot down and saying,
hey, remember we write the laws in this country.
We appropriate the taxpayers' funds.
We're the ones responsible for doing those activities.
And they're making their case and making it known
that they support in the case of NASA,
very strongly support keeping NASA whole.
Now we're entering this phase where Congress is going to need to start pushing back more
significantly to some of these cuts that are being made.
And so that's why like I'm having a great day, great week, I think this week, better
week than I've had at any point in the last
five months. But it is not causing me to relax. This is a moment that I'm channeling these
good feelings about where we are at into this next phase of advocacy.
It makes me feel very hopeful and very grateful that so many people have been doing so much
advocacy for NASA science. I mean,
that is absolutely monumental. And I feel like we all deserve to take a moment to really
be joyous that this is the result that Congress is actually listening. But it also makes me
feel even more invigorated to feel like this is the time to double down. We need to be
louder than ever because you're right, this really isn't a normal year.
And so we're going to have to push harder than ever to make sure that we can actually
get this funding.
These things are moving the needle.
So take solace in the fact that what you've been doing to the tens of thousands of people
who have been doing something these past few months, that it is working,
but it's not time to hang up our hat and go home, right?
This is time to double down.
This is the good news that I needed.
Really, it's just, this has been such an amazing effort
by our team from leadership on down to get to this point.
And for every person that wrote a letter,
for every show that you've hosted
and conversation that you've had,
to every visit that we've had on the Hill,
all of it has made such a tremendous difference.
And I hear that constantly from members of Congress
and their staff who contact me,
that we've gotten to the point
where people are reaching out to me,
I'm not just the one bug in them, but people are reaching out to me and saying
what your organization, Planetary Society, and its supporters and members have been doing
has really shaken things up in a good way. We're not giving up. This is a point where
we should celebrate and we should take to heart that
what we've been doing has worked and redouble those efforts and get ready for what is going to be
the next five months or six months of groundwork, making sure that we get this budget passed,
making sure the executive branch knows congressional intent is clear, making sure that the budget is executed appropriately,
that we keep these missions flying,
we keep doing this science,
we keep advancing humanity into the cosmos.
Let's get out there, let's save NASA science.
Thank you so much, Jack, for being here.
I needed some good news.
Thank you, Sarah. Happy to deliver it.
As Jack said, we're making major progress. Thank you, Sarah. And yeah, happy to deliver it.
As Jack said, we're making major progress, but if we're going to save NASA science
from this massive cut,
we need to continue advocating now more than ever.
The Planetary Society is lighting the beacons.
NASA science calls for your aid.
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Now it's time for what's up with our chief scientist, Dr. Bruce Betts.
Hey Bruce.
Hello sir.
It was cool to finally get to talk to Alan Stern.
You know, after watching this mission for so many years and seeing so many talks with him online
and knowing the long history of the Planetary Society working with this mission, it was awesome to just actually get to talk
to the guy.
Pete It's an amazing mission and congratulations again to all the team, including Alan, that
made this happen over all the many, many years and through the cancellations and through
the planets and through the hibernation and through space.
Lauren Ruffin I did a live stream with someone on Twitch recently,
and because of that, we were going to be talking about this Pluto anniversary, and I learned a
whole lot more about the history of just the slog to try to get out to Pluto. I did not know,
and maybe I shouldn't have known this, but I did not know that they had to not get out to Pluto. I did not know, and maybe I should have known this,
but I did not know that they had to not go out to Pluto with the Voyager mission in order
to divert to Titan. Like, what an interesting history there. Like, that is a long time it
took us to make that mission possible.
Pete Yeah. I mean, Voyager was even more complicated because they were also choosing between Titan
and having a second spacecraft. They could have gone
Uranus or Neptune. So anyway, it happened and it was amazing. And I'm sure you've discussed that
and the many surprises we saw. But we didn't get a chance to go too deeply into Ericoth,
that second object that it went by in our main interview. So I wanted to ask you,
that it went by in our main interview. So I wanted to ask you,
what made that little Kuiper Belt object such a big deal
for us to understand how planets form?
Eric Hoth was exciting in principle
because it represented a size and location of object
that we hadn't seen in the tens of kilometers diameter range
and then way out there in Kuiper Belt land.
And then when we actually saw it and it looked like a snowman, kilometers diameter range and then way out there in Kuiper Belt land.
And then when we actually saw it and it looked like a snowman, that's just exciting in and
of itself.
Then the fact that it was a contact binary and it was telling us something about how
things come together in the solar system and just yet another weird different body.
I mean, it may not be weird.
There may be lots of
them out there, but it's the first time we saw this icy contact binary, much less way
the heck out there, the most distant object we've ever visited.
Tati It looks kind of like ET to me. I don't know
if that's just me.
Pete I think it's just you.
Tati Maybe. If you rotate it just a little bit, there's
that little dimples in there that look kind of like a face. But I mean, the fact that it's a contact binary at all,
and we've been seeing a lot more of these kinds of objects as we've been exploring asteroids
and the moonlets and stuff like that, that is really interesting. And I, you know, I
guess shouldn't be surprising because things out there aren't really going through high
speed collisions that often, I guess, but even that's interesting for planetary formation.
It is. Well, I mean, they're going through high-speed collisions
that stick and really high-speed collisions that break things apart,
and then sometimes, apparently, gently coming together
and forming these contact binaries,
both in asteroid land and in icy object land based on Arakath. Cool name too. Love that.
What do we got for our random space fact?
Well, we'll go to a random space fact.
We're going back to Pluto. We're going back to Charon.
So the surface area of Pluto makes it, if you translate to what it would be on Earth, is a little bigger than Russia.
Surface area of Sharon is somewhat bigger than India and smaller than Australia.
Jared Oh, that's actually a great way to visualize that. Like, I already had the one
for Pluto in my brain. I mean, that's a really great comparison because it really does show
kind of like the size scale comparison there in a way that it's easier to understand. Yeah, to qualitatively overstate
the obvious. Pluto is bigger, but Sharon's significantly smaller, but like not that much.
It's still a big country on earth. The population is low, but the surface area is pretty big.
All right, everybody go out there,
look up the night sky and think about,
I'm just stuck on marshmallow filling these days.
But think about marshmallow filling inside a planet.
Thank you and good night.
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