Planetary Radio: Space Exploration, Astronomy and Science - Ramses and rockets: Commercial space adventures and the race to Apophis
Episode Date: August 28, 2024Get up to speed on the latest in commercial space news. Mat Kaplan, the senior communications advisor for The Planetary Society, returns with an update on the fate of the Boeing Starliner astronauts, ...the imploding and exploding adventures of Blue Origin's New Glenn rocket, and a brief look forward to SpaceX's Polaris Dawn mission. Asa Stahl, our science editor, shares the good news about the European Space Agency's Ramses mission, which hopes to rendezvous with asteroid Apophis before its closest approach to Earth in 2029. Then our public education specialist, Kate Howells, shares some tips on how to deal with space rocks in her new article, "What would happen if we nuked an asteroid?" We end our show with What's Up with Bruce Betts, our chief scientist, and a new random space fact. Discover more at: https://www.planetary.org/planetary-radio/2024-ramses-and-rocketsSee omnystudio.com/listener for privacy information.
Transcript
Discussion (0)
The European Space Agency enters the race to Apophis, 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.
If you've been paying attention to commercial space these days, it's been eventful to
say the least.
Matt Kaplan, our senior communications advisor, returns with an update on the fate of the
Boeing Starliner astronauts, the imploding and exploding adventures of Blue Origin's
New Glenn rocket, and a brief look forward to SpaceX's Polaris Dawn mission.
Then Asa Stahl, our science editor, shares the good news about the European Space Agency's
Ramsey's mission, which hopes to rendezvous with asteroid Apophis before it's close
pass by Earth in 2029.
And since we're talking about asteroids coming closer to Earth than our geostationary satellites,
it's a perfect moment for Kate Howes, our public education specialist, to talk about
her new article, What Would Happen If We Nuked an Asteroid?
I'm looking at you, Bruce Willis.
We'll end our show with Bruce Betts,
our chief scientist 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.
Those who are chronically online, like me, have probably noticed an increase in interest in the story of Sunita Williams and Butch Wilmore,
two astronauts that launched to the International Space Station in June on the first crewed test of Boeing's Starliner.
I've seen everything from cat videos to conspiracy theories
about whether or not we're gonna be able
to bring these astronauts home.
Rest assured, it's all gonna be okay.
Issues with their launch vehicle have left them
on an extended stay aboard the International Space Station.
We've gotten an update on how NASA plans
to get them home safely.
But that's just one of the many interesting things
going on in commercial space right now.
Collaborations between companies and space agencies have long been a part of humanity's
journey to space.
But with more companies than ever working on their own launch vehicles and private space
missions, there's a lot to consider.
Matt Kaplan, the creator of Planetary Radio and our Senior Communications Advisor, is
here with an update.
Hey Matt, welcome back. and our Senior Communications Advisor is here with an update.
Hey, Matt, welcome back. It is always a pleasure, as I hope you know, Sarah.
Every time I have you back on, there's something really interesting
going on in commercial space.
But this week feels unique in that we've gotten just a whole info dump of stuff
going on. So let's start with Blue Origin,
because I've been trying to follow this
story of the New Glenn rocket ever since I got really lucky. Bruce Betts and I, during the Artemis
1 launch, got to take some time and go to that Blue Origin factory and see the New Glenn rocket
in production. And I was really hoping this whole thing would come together, but it sounds like
they've been having some recent issues as they approach this October 1st launch date.
like they've been having some recent issues as they approach this October first launch date.
Let me tell you a story, Sarah. Years ago, I got to be a lab assistant to the boss, the science guy,
on stage at this giant science fair in Washington, DC. And we had pulled together, I had kind of produced it for Bill, and we had to find a beer keg, liquid
nitrogen, a big burner, and the idea was, Bill wanted to do his famous imploding beer
keg demonstration.
So we put this open beer keg over this big flame and got it just super hot, and then
pounded in the little bung that goes in the bunghole and so it was sealed
off from the outside.
And then we took it off the fire very carefully and then you wait because as it cools you
expect the beer keg to not just sit there but to eventually implode.
This thing just sat and sat and sat and finally we poured some of the liquid nitrogen on it which was not why
we had it on the stage and sure enough the thing imploded. Blue Origin didn't need the
liquid nitrogen, let's just say that. This is just tragically, dare I say it, dumb. They
had the body of one of these Blue Origin
new Glenn rockets, a rocket that is now
four years behind schedule,
that was supposed to be there to compete
with the Falcon 9.
And they had it outside in the heat.
They brought it inside.
Somebody forgot apparently to open some valves
or to open them in the right order.
And it was a lot cooler in the air conditioned warehouse.
Rockets are made of stuff that looks like a beer can.
And sure enough, the thing imploded.
And this was not just a test article, this was a rocket that was intended for
a future flight that New Glenn had already been contracted to run.
Now the other New Glenn
rocket, it's a little more understandable because it exploded not imploded during
a test and that's why you test of course but somebody's computer model I'm
guessing had a zero where a one should have been or maybe they went a little
bit too far with the test because this thing blew out. They called it an explosion.
It may have been more of a rupture, I'm not sure.
But regardless, quite an embarrassment for Blue Origin.
I think as you probably know,
they are still supposed to launch
that dual orbiter mission, escapade, right, to Mars.
And it's supposedly still on track for the end of this year
because you you got to hit that two-year window and let's hope it happens. You
know Blue Origin says it will. I'm not sure if NASA is quite as confident but
I'm telling you it must just have Jeff Bezos who's putting two billion dollars
a year of his own money into Blue Origin now. It's got to have, well if he had
hair, I share this problem with him,
he'd be pulling it out. I mean, I'm really rooting for this because I want Escapade to go up. It's a
collaboration between Rocket Lab and UC Berkeley, my alma mater. They named these twin probes blue
and gold after the school colors, and I would be just so sad if they exploded or imploded, depending.
But yeah, there's kind of a limited launch window there,
and we want to get them to Mars in order to do the science.
And we've seen other missions in these situations where the rocket gets delayed,
and then they launch and they don't have proper battery,
or, you know, something goes wrong and the missions go sideways.
Yeah.
Do we know what's going to happen with these ones?
Are we going to just kind of keep them in storage or do we have any idea about what's
going to happen with those?
I don't know that that's been announced.
It's possible that I missed it because of course everybody's still hoping, hoping upon
hope that they're going to go in that window this fall, that limited window.
My guess is that they'll put them in storage.
I mean, I don't think there's a
Falcon 9 hanging out that could boost them to Mars during that window on short notice, or any other rocket for that matter.
The Vulcan rocket from United Launch Alliance, ULA, is still waiting for more of those Vulcan engines,
the BE-4s, being built by, oh yeah, Blue Origin. The engines that have also been badly delayed, though ULA now says they're on track.
My guess is they'll put them in storage, but you are absolutely right.
Sometimes bad things happen when spacecraft are unexpectedly put in storage.
Best example to my thinking, the Galileo probe that went to Jupiter, which was left in storage
because originally it was going to go on the space shuttle, then the Challenger disaster happened,
and when it came time to launch, they couldn't open the antenna because the thing had just
become stuck over the time that it had been in storage.
So yeah, let's hope that Escapade doesn't have to wait two years, but that if it does,
that they take really good care of those spacecraft.
It is a little disappointing that New Glenn is kind of four years behind its target for
when it was going to be able to launch. But after seeing it in person, I'm going to put
an image that shows the size comparison of all these rockets on this page for Planetary
Radio because just to give you an idea of this, like the original Blue Origin rocket is so small compared to New Glenn.
This thing is ginormous. So I'm not surprised that they're having issues in these first tests.
I want to give them a little grace on this because honestly going to space is really complicated.
And as with a lot of these stories these days, it seems like SpaceX is kind of becoming the hero in the story of commercial space.
SpaceX is kind of becoming the hero in the story of commercial space.
We've been covering this story of the two astronauts that went up on the Boeing Starliner to go to the ISS back in June.
Sunita Williams and Butch Wilmore.
They were only supposed to be up there for about 10 days,
and they've been stuck up there for a while as we've been waiting to hear
from NASA and Boeing about whether or not they can come down in this capsule.
And it sounds like we finally made a decision on how we're going to get them home.
Yeah, this has not been without controversy, of course.
There was a press conference, a meeting, a discussion, including the NASA Administrator,
Bill Nelson, and then a press conference on Saturday.
And apparently all the NASA folks, because NASA's gonna
be NASA and if there are humans involved they're gonna be ultra careful because
you don't want to have a problem with human crude flight because when that
happens everything comes to a screeching halt. We've seen it happen several times.
All the NASA people apparently said yeah we really got a hold off let's bring
this thing home with nobody in it and just, you
know, see if it works as well as Boeing says it will. The Boeing engineers apparently feel that
there's no reason to not let Sonny and Butch make the trip home. They have complete confidence in
their spacecraft and there was a quote from Ken Bowersox at this press conference. He basically he underplayed it, but he said something like,
yeah, there was a little bit of a heat
between the NASA folks and the Boeing folks, which means that
I'm guessing there was quite a yelling match.
But, you know, it's NASA's mission and NASA's astronauts.
So Sonny and Butch, you know, astronauts,
they take what's handed to them and I
know they like it up there. They have lived up there of course, but I have to
think that even the most dedicated astronauts, knowing now that their
three-hour tour, if you will, their 10 days in space, is going to take them
well into 2025 when there will be a dragon capsule from SpaceX available to bring them
home. And this has changed a lot of plans. They're now figuring out which two astronauts that are
supposed to go up on the Falcon 9 soon are not going to go because there were going to be four
going up and now they're going to eliminate two of them because that will make room for Butch and
Sunny to come home with two other astronauts early next year,
I believe in February. And so, you know, these things ripple out. And of course,
we were all thinking that this capsule, the CST-100, its official name,
was going to be the competition for the SpaceX Dragon because we wanted to have two systems to get humans up there and back,
SpaceX Dragon because we wanted to have two systems to get humans up there and back, just like we wanted to have multiple rockets to put those capsules on top of to complement
the Falcon 9 from SpaceX.
And so there's Blue Origin, there's ULA with its Vulcan delayed partly because of those
Blue Origin engines.
SpaceX just comes out smelling like a rose in all of this. And, you know, I've got to mention at least one more thing that ripples out from this.
And it goes back to Blue Origin.
Blue Origin, of course, has now gotten a second contract to build a lander for the Moon.
And this can't be helping those plans if they're putting more resources into getting the new Glenn up into space. That makes me worry even more about whether we're going to
see humans on the surface of the moon with Artemis 3. It's and can I also add
Sarah NASA's still trying to figure out what's going on with the Orion heat
shield which is supposed to get those Artemis astronauts back even on Artemis 2, which
is not far off that trip by humans around the Moon. And boy, there's just a lot to talk about
in human spaceflight. Space is hard. I know we keep saying it, but you know we did see that incident
also with astrobotics lander on the moon and that whole situation
now leading to the cancellation of the Viper rover going to the moon as well.
This commercial lunar payload services program, the CLPS program that allows NASA to partner
with these commercial entities seems like it's kind of slowing down the process in a
lot of ways.
But because we're trying to bring so many new companies into this fold, for so long this has been a NASA-centric kind of thing.
Going to space is really difficult and trying to get all of these new companies kind of
acclimated to this is going to take a little while, so I guess we're going to have to be
patient but it still doesn't bode well in a lot of these instances.
You know, talking to our colleague Casey Dre, about this kind of stuff, commercial space development,
it is a huge experiment, exactly as you've described.
And in a way, thanks for SpaceX,
because SpaceX had not been the shining example
of the success of this kind of commercial development.
Who knows if Congress and NASA would have allowed it
to continue as it has.
So, you know, I hope it continues.
You mentioned Viper, I guess we should add that the Planetary Society with Casey involved
and some of our other colleagues like Jack Curley, we've just issued our position on
the Viper rover and the belief that it really deserves to be up there near the South Pole.
So let's figure out how to get it there.
I mean, the United States taxpayers have paid in over half a billion dollars on this rover at this
point. If we can find some way to save that, I think that's a really good idea. We can't bank
on all of these commercial entities being able to hit all of their deadlines, clearly, because it's
more complicated than we expected. Sometimes things implode or land sideways, but I really don't want that to be the end of these
wonderful missions that have been built and are ready to launch in the case of
both Viper and now Escapade, it sounds like.
Hear, hear. And you said it, you know, space is hard. People get tired of
hearing us say that, but we get proof of it almost every day, maybe every week at
least, but almost every day.
I was just pleased that the two astronauts made it to the ISS on the Boeing Starliner.
Considering it was their first crewed flight test, given the situation with it, I might
have waited for one more launch before they put humans on it, but they still made it up
there safely, right?
So this is actually a pretty triumphant story, even if it's getting a little hairy. I felt the same way. I was a little worried. I thought, gee, you know,
with the troubles, because even the second uncrewed test wasn't perfect. They
called it a complete success. Now that's stretching it a bit. I was kind of
worried, but it was such relief when they made it up there and they came in with
those big smiles into the ISS. I hope they're still smiling
as they consider their long stay. I would just say Sonny and Butch spent a lot of time in the
cupola. You know, my grandson, my eight-year-old grandson, when he heard about this, he said,
do they have enough supplies? And I said, don't worry, Ron, they had seven people, now they have
nine, they have plenty of air,
and they're gonna send up more stuff,
and hopefully they're gonna send up
some of their personal belongings
so they can feel a little bit more at home
while they're circling over our heads.
Well, this is part of why I wanna keep bringing
the story up in the show,
because I think the public perception on the internet
is that these two poor people are stuck in a capsule
up there running out of food and water and air and
Everyone's panicked about how to get them back down. But you know, we want to double down to reassure everyone. They're totally safe
They're just spending a little extra time in space, which were I an astronaut
I would actually be a little excited about this getting to spend that extra time up there
Would I take it? Yes, absolutely. I mean they've've been there before. I should be the one who's stuck up there. Wouldn't that be great? I mean, you're there with people you
love, people that you want to work with. They're going to put them to work. They're going to
be doing science. They're going to be doing maintenance. I mean, these people are too
experienced just to let them sit around. And what NASA has done is prudent. Is it overprudent,
overly prudent? I don't know. We want to make sure
that they're going to be absolutely safe, not just to protect future missions, but because
we have two heroic astronauts who have proven their value and we want to make sure that
they get home to their families safely.
Just imagine how much they're going to laugh when that Boeing Starliner capsule comes down
totally safely and they're still up there watching.
Yeah, it's going to hurt a little bit. But what good news for Boeing and man, could Boeing use some good news?
Oh, definitely. And the more of these companies that succeed, the better for all of us.
It's beginning to seem like there's this kind of rivalry and SpaceX is winning out.
But honestly, we all win when they all succeed. We need more of these vehicles to be
able to transport us to and from space so that we can create a more robust system with redundancies
so that if there's a situation where two people get stuck on the ISS, we can save them. And you
know even Elon Musk, you may have heard of him, he's the head of SpaceX and the majority stockholder,
he even said that, now I don't know what he says in
private, but publicly he says he wishes Blue Origin all the luck in the world because competition
is a good thing.
And you know, there's some proof in his actions that he actually believes that.
And he wants them to be successful.
I guess he feels there's enough work to go around.
Well, before I let you go, there is one more commercial space story that I did want to
bring up.
We're recording this on Monday, August 26th, but coming up tomorrow is the launch of the
Polaris Dawn mission, which is another SpaceX mission, very similar to the Inspiration 4
mission, if anybody remembers that from a few years back.
This is one of those cases where it's a fully civilian crew, no one aboard who is going to be a previous astronaut, but one of them on board,
Jared Isaacman, does have experience with this and that he was on the original
Inspiration for Flight. I am looking right now at a artist conception of
Polaris Dawn and what really makes this unique is that I'm looking at a spacewalker, a
person doing extravehicular activity just emerging from this gigantic hatch
in the nose of the Dragon spacecraft emerging into space in, I have to say it,
I said it the first time I saw it, the SpaceX spacesuits look like they are
straight out of sci-fi, a good sci-fi film.
They look so cool.
They designed these with design in mind. They wanted them to look cool.
I had a designer on the show who talked about that.
And this will be the first commercial EVA, the first commercial spacewalk in history.
And so, you know, I know you join everybody else
in wishing them all the luck in the world.
I sure hope that as people hear this show,
they're hearing about this great new success
by people who are a little bit closer
to being like you and me, Sarah,
than NASA astronauts or cosmonauts
or astronauts from anywhere else.
It seems super ambitious though.
They're not just doing an EVA, but they're going further away from the Earth than anyone
has been since the Apollo era and out into what could be some intense radiation belts.
So this is some really important science to do, but wow, those people are brave.
I mean, probably worth it just to float up above the Earth, but wow.
Yeah, and doing it near solar maximum. So let's just, you know, everybody, don't make too much noise. You don't want to wake up the sun while these folks are up there because, yeah, they're
going to be out there a little beyond where they get all the maximum protection from the magnetic
field of our lovely home, the Earth. While wishing them and Sunny and Butch and everyone
in all these missions some good luck
and some happy times in space.
And hopefully by the time the show comes out,
we'll still have good news about the Polaris Dawn mission.
You bet, Sarah.
And best of luck to everybody involved, Boeing, Blue Origin,
and everybody else who's leading us up there
on the final frontier.
Well, thanks for joining us again, Matt.
My pleasure.
One small note, since Matt and I had that conversation,
the Polaris Dawn launch has been postponed by at least a day due to a helium leak.
Good luck, space travelers. We'll keep you in our thoughts.
If you're hearing this in time and you're a Planetary Society member,
you can join us in our member community for the watch party for the Polaris Dawn mission. We always like to hang out and
chat during launches. It makes those tense moments a little more palatable when you know
you've got a lot of other space fans with you.
Now we turn to the flyby of asteroid Apophis, which is going to happen on April 13th, 2029.
And yes, that is a Friday the 13th, but don't panic, Apophis is not going to hit the Earth.
But it will fly closer to our planet than our geostationary satellites, which is a little
nail-biting.
It does present an excellent opportunity for observing how a close pass by our planet can
affect asteroids.
A new mission from the European Space Agency called the Rapid Apophis Mission for Space
Safety or RAMSY's mission hopes to beat the clock and called the Rapid Apophis Mission for Space Safety,
or RAMSY's mission, hopes to beat the clock and meet up with Apophis before its closest point to our planet.
Here's Dr. Asa Stahl, our science editor, with more information on the mission.
Hey Asa!
Hey! How's it going?
Pretty good. And extra happy because now we've got another Apophis mission that we can look forward
to.
Hopefully.
Hopefully, fingers crossed.
Asteroid Apophis' close approach by Earth is a little less than five years away, which
feels like not very long, and the race to learn as much about this asteroid as possible
is definitely heating up.
In the past, we've spoken on the show about the OSIRIS-REx mission, which is now the OSIRIS-APEX
mission, which is going to beIRIS-APEX mission,
which is going to be rendezvousing with APOPHIS.
But now the European Space Agency has announced that they are going to be moving forward with
the RAMSES mission, although it's not fully approved yet.
But can you tell us a little bit about that?
Yeah.
So the idea is that OSIRIS-APEX is going to get to APOPHIS after it's already passed by
Earth, after the asteroid has already passed by Earth. And it's going to be so close to, it's almost comical, after asteroid Apophis
flies by, Osiris Apex will be one hour later whizzing by Earth on its way to catch up to the
asteroid, but it won't actually catch up to Apophis until about a week later or so. By then,
it'll have missed a lot of really cool stuff, a lot of really important science potentially. So the whole idea with the Ramses is that you get the before, during, and after that encounter with
Earth when the Apophis will be passing so close to Earth, they'll be closer than the orbits of
certain satellites. And that means it'll be really under the influence of Earth's gravitational field
and Earth's magnetic field, and it'll change as a result. And we're not sure how quite scientists
have different expectations, and we'll see.
And that's gonna be some of the fun, hopefully.
But the idea is that, just as when Osiris-Rex went to Bennu
and then it poked it with TagSam,
and that's to collect samples,
but also to watch and see what happens.
You have a test tube and you wanna flick it
and stir it around.
You wanna see what happens when you disturb things. And with something like an
asteroid, that's so ideal. So having this show put on by Apophis in this dance with Earth will be
this incredible opportunity if we can get a mission there before the actual encounter with Earth.
And so that's the whole idea with Ramsey's. And it's an idea that's been going around for years is to have a mission like this.
And only recently has it really caught on that it would not only be possible to do this,
but possible to do it quickly enough that we can get it there in time.
But it's going to be tight.
Yeah, like you said, less than five years.
And so ESA has already given the Ramsey's team approval to begin work on
spacecraft and essentially the mission and has given them some money but it
can't be officially confirmed until ESA has a council meeting next fall in
November. So it's not officially approved but having recently spoken with a member
of the team or someone who's kind
of currently involved, he doesn't have an official position because there is no official anything
that they would be quite surprised if it didn't go through when you already have these resources
dedicated and it seems like it's pretty doable to make in time. Not guaranteed, still risky, but doable.
I'm really glad they're moving forward with this even though they haven't officially approved the
mission yet because this is such a tight timeline for trying to turn around
a mission like this.
But we've seen in the past that ESA has a record of being able to actually do this.
The Hera mission is a really good example.
Yes, exactly.
And so almost everyone on Hera will essentially be moving on to Ramsey's or doing both at
the same time.
So speaking with these people,
this is a huge part of what gave them confidence that at
the beginning when developing Hera,
there was a lot of doubt apparently that they would be able
to get hair off the ground as fast as they did,
which was essentially five years after approval is one's
going to be launching I believe.
So quite quickly and essentially almost on the same time scale as Ramsey's.
And sure, there's a bit more like sort of design lead up to that,
but still a really tight turnaround.
And especially for a deep space mission,
it's so impressive that they could turn around that fast.
But now that Hera is launching in just a couple months
in October, it I think has really given them the confidence
and proven to, I guess, the ESA brass
that they can do something like this with Ramsey's.
But that's the secret, that's the key
to being able to turn around Ramsey's so fast
without anything really in place until just a few months ago
is that they're essentially just gonna copy Hera
as much as they can.
And obviously it won't be totally the same
because they're different missions with different needs,
different science that they're gonna accomplish,
but the spacecraft bus is going to be the same.
They're going to have like a Milani like CubeSat.
So there's a CubeSat called Milani, right?
That's going with Hera to that asteroid.
So there's gonna be a lot of things that are very similar.
And then also,
obviously, the expertise will be the same. And if they can find that perfect balance of copy pasting
the stuff that is useful to copy paste, but then innovating where they need to innovate.
I mean, total sidebar, but with Hera launching in October, Europa Clipper launching in October,
we've got the Escapade mission, which is going to be the first launch of the new Glenn rocket. Hypothetically, if it takes off, October is
going to be a big month in space exploration.
I was just thinking about that earlier today when I saw the news about Escapade. Like,
should I just go down to Florida and pitch a tent and hang out for like three weeks and
see three rocket launches in a row? Because what are the chances all three of these things
converge at the same time?
Really, though, we should just take a road trip across the country, just go camp out
on the beach for a month.
It would be great.
Yeah, be space beach bums.
But you did mention the Hera mission is taking one CubeSat up with it.
Ramsey's is taking two, is that correct?
Yes, that's right.
How are these three going to work together in order to give us a better understanding
of Apophis?
Why are these two CubeSats necessary when you're going to get a main spacecraft so close?
One of the CubeSats is going to be in orbit around the asteroid like the main Ramsey spacecraft,
and then the other one is going to physically land on Apophis. And that's going to be super
cool because there's nothing on Osiris Apex that is meant to do that.
They have tag stamps still.
So if Osiris Apex really wants to, maybe at the end of its mission, when it's done all
the science it wants to do, maybe Osiris Apex can tap Apophis and Ramesses could watch or
something.
That could be fun.
I would love to get some footage from Ramsey's of Cyrus Apex
doing some crazy stuff.
But that's still just tapping, right?
That's actually landing on it.
And what landing on it does is it allows
you to deploy a seismometer.
So that's one of the instruments that they're pretty confident
is going to be on the lander.
And the people designing that instrument
will essentially be another version of SICE.
I'm guessing is how it's pronounced.
S-E-I-S, the instrument that was on Mars Insight Lander. So that same team essentially doing that again,
but for this asteroid. And that way, when Apophis is getting these tidal forces, the
gravitational forces of passing near Earth and sort of creaking and cracking and stretching and compressing.
They'll ideally look beforehand using these two orbiting spacecraft that keeps that in the main spacecraft
and try and figure out exactly as best they can the internal structure of the asteroid from afar
and predict where the tidal force is going to be strongest.
And then that's where they'll actually land the lander. And just kind of putting it near to the ground and listen and then get this kind of sound-based
mapping of what it's like deep inside. And that will be super useful for future planetary defense
type models. We've seen how useful that InSight seismometer has been for our understanding of the
internal workings of Mars. I mean,
even recently that big headline about the potential amount of water underneath the surface
out of that was just mind-blowing. And thinking that we could get a better read on the internal
structure of this kind of object, especially given the unpredictable nature of some of
these asteroids we've been dealing with. When TAGSAM tried to touch asteroid Bennu, it basically
went right into it like it was a ball pit. We did not see that coming.
Yeah, totally.
I feel like we're going to be able to expect some unexpected stuff if both these spacecraft
go up there.
I mean, I'm racking my mind trying to think of some parallel to this.
I mean, it's obviously a historic first in many ways because we're having this crazy,
potentially dangerous asteroid swing right by us.
We're taking advantage of that historic moment.
But then also two separate spacecraft arriving, you arriving, being around the same place at the same time. It's not like
two spacecraft orbiting Mars at the same time. That's a whole planet there. They'd be able to
wave to each other. They'll see each other. The whole asteroid is as big as a building.
It's so cool. And it would be a meeting of essentially
all the major spacefaring nations in space
because I know that Ramsey's mission team is in talks
with the Korean Space Agency,
with the Indian Space Research Organization,
with JAXA, with NASA to have other instruments aboard
and make it this sort of fast international response
to a major historical event.
And if that were the case, and it's also meeting up with the Cyrus Apex,
I mean, you have a little UN around an asteroid.
We'll be right back after this short break.
Hi, y'all. LeVar Burton here.
Through my roles on Star Trek and Reading Rainbow,
I have seen generations of curious minds inspired by the strange new worlds explored in books and on television.
I know how important it is to encourage that curiosity in a young explorer's life.
That's why I'm excited to share with you a new program from my friends at the Planetary Society.
It's called the Planetary Academy and anyone can join.
Designed for ages 5 through 9 by Bill Nye and the curriculum experts at the Planetary
Society, the Planetary Academy is a special membership subscription for kids and families
who love space.
Members get quarterly mailed packages that take them on learning adventures through the
many worlds of our solar system and beyond.
Each package includes images and factoids, hands-on activities, experiments and games,
and special surprises.
A lifelong passion for space, science, and discovery starts when we're young.
Give the gift of the cosmos to the explorer in your life.
But I mean of all the things that you could get everyone in on internationally, an asteroid
coming this close to Earth, that's the thing to do it around.
That is something that is important to all the people on this planet, because let's be
real, if we're not serious about this, at some point, we're going to get beamed right
in the face with an asteroid because we just didn't prepare well enough.
Yes, I think beamed in the face is the technical term.
Regardless of the scientific importance of whatever is discovered by Ramses, if it just happens,
if they are fully confirming it and they're able to whip it together so fast and NASA is able to throw them a spare camera and the Korean space agency gives them a spare polarimeter or whatever.
And then they launched that on a short timeline and it makes it. Then we just accomplished
a fast international response to an incoming asteroid. And that would be a huge turning
point in planetary defense history, right?
There is something that I've seen cropping up online and discussions about this spacecraft,
which I want to put to rest right now, which is that people are concerned that one or two
spacecraft getting this close to the asteroid could accidentally pull it off course and
potentially perturb it into a place where it could hit the Earth. That is not the case.
Can we put that to bed right now?
Yes, absolutely. I mean, you know, it would be very dramatic and cool. No, not really.
It would be terrible. It would like if if Apophis hit Earth, it would be like the biggest
explosion in recorded history. But no, it's not going to happen. The spacecraft are tiny
compared to Apophis, which like I said before, is the size of building. It's the size about
as tall as the Empire State Building and three times as wide around. So it's gigantic, it's massive, and
these spacecrafts, yeah, they're like flies by comparison, buzzing around an elephant.
It's not going to do anything. And even in the future, we talk about sometimes this notion
of a gravitational keyhole that even like these spacecraft, there's no chance they're
going to actually shove
a pop is directly into Earth,
like a cue ball hitting a billiard ball.
But the more nuanced worry would be that, you know,
there's some point in space near where the asteroid's going,
where if you push it there,
then a thousand years from now it circles back and hits Earth.
You just tweak the trajectory just right.
Even that is essentially
impossible. The nearest keyhole is thousands of kilometers away. There's no way that the
spacecraft can push it in that direction to that extent. There's just no chance.
That's good to hear. And we know in the least this thing isn't going to hit Earth for at
least 100 years, at least. That's still not super comforting in the long term given how
close this thing is coming to us. But that's part of why these missions are so important.
The more we can understand where this thing is going and how
this close brush past Earth affects it,
that'll give us so much more understanding of how
these things change over time when they do these close passes by Earth.
We'll teach us more about where it's going to be going in the future.
Right. Exactly. It really nicely covers
two major sides of planetary defense technology and sort of
places we need to improve upon if we want to be able to defend Earth. And one is being able to
understand what these asteroids are like on the inside and being able to figure that out from the
outside without having to send maybe a spacecraft like this in the future or not like this exactly.
So that, you know, if we smash an impactor into it like DART,
we know what we're doing.
Or if we blow it up with a nuke, we know what we're doing.
And then also being able to study its thermal properties
on its surface to understand nuanced physical effects
that then tweak these asteroids orbits
very small amounts over time, but that add up, right?
And that are currently preventing us from doing things
like predicting the orbit of an asteroid like a pop fist more than a hundred years into the future. but that add up, right? And that are currently preventing us from, you know, doing things like
predicting the orbit of an asteroid like a pop fist more than 100 years into the future,
at least easily. And so, yeah, there's some poetic justice to it, right? To have a mission to an
asteroid that is almost hitting Earth actually help us prevent such things happening in the future.
Only science gives you a story like that, right?
things happening in the future. Only science gives you a story like that, right?
So what happens if they don't manage to make their launch window with this thing? If they actually move forward with it, they build the whole thing and then they just don't have enough
time to launch it? Well, they launch it with an inert mass instead. No, that's the Viber mission.
So they would still launch, but they would not launch to Apophis. They have a couple backup asteroids in mind, which are still potentially dangerous near-Earth
asteroids that could hit us in the future, maybe, not anytime soon as far as we know.
But we could go to them and we wouldn't get the benefit of the interaction with Earth's
gravitational magnetic fields.
We wouldn't get that same poke.
But we would still be going to a new asteroid and learning something new
and being able to improve our planetary defense efforts as a result. But yeah, the grand prize
definitely is Apophis.
Well, when we're done with our ridiculous camping on the beach in October, then we can
just prepare for our time camping out for Apophis and maybe in Northern Africa or somewhere
in Europe in 2029. Because I mean, come on, being able to look
up in the sky and see that if you're in the right place at the right time with the right equipment,
beautiful things to look forward to in the future. And I'm hoping that we can have someone from the
Ramsey's team come on in the future weeks and tell us more about this because there are so much
nuance. I want to know what this CubeSat is going to do when it touches down on the surface. There's
so much there. And I want to know what they think is going to happen to this thing when it flies by Earth.
How do they think it's going to affect it?
I tried to ask this.
And yeah, I mean, they don't know.
No one is going to give a confident estimate
because we don't know, right?
Papers have been published where they say,
maybe we anticipate a movement of about 1% of the surface,
some short distance, like less than a meter.
But then other people say, well, maybe you get some boulders that roll or maybe you completely
reshape the surface of the asteroid on one extreme.
That's probably not going to happen, but we don't know.
What is crazy to me to picture is that because of the interaction with Earth's magnetic field,
we'll have some small dust that just rises off the surface of the asteroid. And that's some sci-fi
stuff right there. That's so cool to picture. I want that in IMAX.
Oh, I do. I mean, just the images from comet Churyumov-Gerasimenko when Rosetta was there
of just the snow coming off of the comet is some of the most beautiful imagery I've ever
seen. I want to see images of this asteroid with Earth in the background. I asked the
OSIRIS APEX team if that was going to be possible. They said it wouldn't be possible because
it was getting there too late. But maybe with a good camera on Ramsey, we can get the coolest
image in the history of planetary defense.
I mean, honestly, they better. That's what I'm hoping for. And honestly, I'm kind of
expecting. How do you miss that photo op, right?
It's going to be so cool.
Something that I've been keeping in the back of my mind.
I mentioned this earlier that maybe OSIRIS APEX could tag Apophis and Ramsey's could watch.
Well, there's going to come a time where both these spacecraft have basically
thoroughly done all the science that they're going to be able to do.
And they both have fuel left.
And if there were no Ramses in the equation, then I know the Osiris Apex team was considering,
okay, maybe we can tag it again.
Maybe we land on it and just keep Osiris Apex on Apophis as like a radio beacon, essentially.
Or maybe we just crash into it and see what happens for science, which is the best kind
of first science.
But if you have not
just Osiris Apex in that position, but also Ramseeds, like what kind of grand finale can they cook up
or would they do? And that's just so cool to think about. That is so cool. Well, thanks for coming on
and telling us more about this because this is a mission I want everyone to get really hyped for.
I mean, come on, man. Apophis 2029, this is going to be one of the biggest moments for us.
Yeah, it's exciting.
Thanks, Asa.
Thanks for having me.
I'll leave a link to Asa's article about Ramses on this episode page for Planetary Radio if
you'd like to learn more. Honestly, missions like Ramses, Dart, Hayabusa 2, and of course,
Osiris-Rex are so much more important than people give
them credit for.
Someday, if we're ever presented with the dire threat of an asteroid headed right for
our planet, we will actually have a chance of doing something to save the world.
That will be because of the amazing science done by space agencies and asteroid hunters.
Which brings me to my next point.
What do we do if an asteroid has Earth in its sites?
Kate Howes, our public education specialist, just recently released a new article called
What Would Happen If We Nuke an Asteroid? Hey Kate. Hi Sarah. So I just spoke with ASA about
asteroid Apophis. This is going to be a really great opportunity to learn more about what we can do
about asteroids and planetary defense.
But I can already hear the people online asking,
why don't we just nuke it?
And I'm pretty sure that this is all Armageddon's fault,
but since you just wrote an article on this subject,
I feel like you'd be a good person to ask.
So why don't we just nuke these asteroids?
Yeah, so great question. And yes, Armageddon and Deep Impact, both great 90s trash movies
that completely misrepresented asteroid defense, but that did effectively plant this idea in
people's heads that if an asteroid is coming our way, that's the best thing to do is just
to blow it up. What do you do with any problem? You nuke it. The reality is more complicated, of course. Everything in science is generally
more complicated than you might think. The same is true of asteroids and asteroid defense, and a
big part of it has to do with the varied nature of asteroids themselves. Yeah, if you have an
asteroid that's heading your way, nuking it might be the best option,
but it might actually make the situation much, much worse depending on things like the size and
whether it's, you know, a solid hunk of metal or just a loosely held together pile of boulders.
And the problem with nuking it is that you could actually blow something up into several pieces
that are smaller but still big enough to cause major devastation on earth, which actually
the movie Deep Impact did depict.
So they got one thing right.
Seriously, those movies really, you know, forgive me for it, but they impacted me as
a kid.
I think it's still the reason why I'm so scared that we're going to get hit by something like
this. What are some better answers we can use for how to either deflect
or maybe blow these things apart?
One thing I will say right off the bat is that nuking an asteroid is still one of the
options that we have. It is still a viable option in some cases. And so when I first
wrote this article on what would happen if we nuked an asteroid, I set out to say
there are better options. And our chief scientist, Dr. Bruce Betts, actually said,
no, there are other options. We shouldn't call them better options because sometimes nuking it
is the best option. And it sort of depends on how much heads up you have. So with an asteroid like
Apophis, where we've known its trajectory for a long time, many, many years, and we
know its size, I think we have some general idea of its composition, it's not a complete
mystery. With something like that, where we have enough heads up, notice, we can actually
deflect it through something like DART, the Double Asteroid Redirection Test Mission demonstrated,
which is the kinetic impactor technique, which is just smashing a spacecraft into the asteroid
to nudge it. Because if an asteroid is very far from impacting Earth,
potentially several orbits of the Sun away from when it would eventually cross
paths with us, if you nudge it even just a tiny bit early on in its orbit, that
change adds up. So if we have
a lot of advanced notice, we can use something like a kinetic impactor to deflect it. Nukes
come in handy when you have very little notice. So there was a study that the article I wrote
referenced that came out in 2021 that showed that if you detonate a nuke next to an asteroid that's about 100 meters wide,
sorry, that's 328 feet, I'm Canadian, I just think in meters and kilometers, but I have the references here.
If you do that at least two months before impact, it would blast 99.9% of the asteroid's mass out of the way.
It wouldn't hit Earth. So this is the kind of thing where if you have very little notice, we have the technology
pretty much available right now to send a nuclear weapon into space and explode something.
Building a spacecraft like DART that's capable of taking a very long trajectory to get to
an asteroid and impact it is more complicated, more difficult.
Some of the other techniques we have are also just not in
as advanced a state of development as we would want them to be if we found an asteroid heading
our way very soon. But nuking it is sort of the quick and dirty way of getting something done,
so it is very possible. The outer space treaty explicitly forbids the use of nukes in space. We might end up with a situation
where an asteroid is coming our way and we don't have the time politically to sort it out in order
to actually nuke the thing. Yeah, I think generally what's needed is more international coordination
on what to do if an asteroid is found to be on an impact trajectory with Earth. Because yes,
an addendum to the outer space treaty
that makes this exception for using nukes in this context,
that would be useful, but also determining
who pays for a mission to deflect an asteroid.
Like if an asteroid is heading to Earth
and it's going to impact Russia, say,
I would still expect NASA to make a major contribution
to deflecting that asteroid, not just say,
oh, it's up to Roscosmos.
I think we should have some plans in place early on before we need to figure out how does a
collaborative mission get done, who pays for what, and what happens if, say, an asteroid is on track
to impact New York City, if we're going to go classic Hollywood-style scenario, and then we
are able to deflect it, but it deflects it not enough to completely miss the earth and it impacts
another part of the planet, another country. What do we do in that case? How do you coordinate
getting everybody out of harm's way, evacuating cities, countries, all of these things would
become very real problems very quickly if we discovered something that was on an impact
trajectory and wasn't years and years out. doing the homework ahead of time to prepare for these things
is just one of the most important things we can do. And it's the kind of thing that the Planetary
Society advocates for. Also, I will say the earlier we find something, the better prepared we will be
to deflect it, whether it's with nukes or any other technique. So finding, tracking, characterizing
asteroids that are out there is extremely important. And that's another thing that we are here working
to make happen. Yeah, I want to give a special shout out to the NeoWise mission that only just
recently ended. It did so much to help us track these things. And it was the precursor to what's
coming up next NeoSurveyor.
I'm really looking forward to knowing that we're going to have most of these things cataloged
because that's going to give us much more of a fighting chance in these instances.
Yeah, it's very reassuring to know that of all of the asteroids that have been found and tracked in
the solar system, which is a huge number of asteroids, none of them are on a collision
course with Earth. That's very reassuring because you could very
easily imagine that not being the case.
We could very easily imagine,
oh yes, we have an asteroid that we're
tracking and we think it's probably going
to impact the Earth in 70 years.
I would be very curious to see what
humanity's response to that would be because it's
such a far off prospect,
but even that is not the case.
It's nice to know that we're safe for now,
but you never know when something's going to come sneaking out of the dark. We often
find asteroids that are going to pass close to Earth right before they pass. So who knows
when the next surprise could come? So the more prepared we are and the more we look,
the better off we are.
Well, we're finally getting a good start on it. I think the non-avian dinosaurs,
if they were capable of it, would be proud of us. Yes, I like to think so. All the dinosaur ghosts
that are watching over us are cheering us on. Well, thanks so much, Kate. Thanks, Sarah.
Now, let's check in with Dr. Bruce Betts, the Chief Scientist of the Planetary Society
for What's Up.
Hey, Bruce.
Hi there, Sarah.
How you doing?
Pretty good.
I mean, last week, we did this episode about potentially whether or not crickets could
be a viable source of protein for space travelers.
And since then, I've been getting all of these emails and
messages in the community about different cricket recipes.
Oh my gosh, we have that many cricket aficionados?
Yeah. I mean, apparently I need to check out Mexican cricket tacos, you know?
Okay, great.
I'll try anything once. That actually sounds like it could be pretty good. But I also asked
in our member community along that line, because we were talking about diversity and inclusion in space food so that people don't feel so
lonely when they go to space if they're missing their cultures. And I asked people what foods
from their cultures they would hope we'd take to Mars with them. We got a lot of really
cool answers.
How interesting.
Yeah. I mean, I put in my vote for homos or something like that, because I'd feel really
sad without that.
But one of our guests last week, Newton Campbell Jr. said Jamaican beef patties.
I'd never had one of those before. So I got to learn all about those.
And we had two separate people write in matzo balls because they dehydrate really
well. And that's, that's cool. I like that idea. What about you?
What was the food you really miss? Well, no crumbs.
We don't want that corned beef sandwich incident all over again.
Yeah, they're pretty uptight about that now.
I mean, that one sandwich, this is a whole story for people who don't know, but that
one sandwich that an astronaut snuck on to a spacecraft in the early days of space exploration
launched a whole congressional review and
that's part of why we don't have bread on our spacecraft.
And that's why we can't have anything nice.
Right.
You know, tortillas make pretty good sandwiches.
They do.
Yes, they do.
But that is not the one thing I would miss.
Did you say one thing?
Yeah, I mean, you can have more than one.
No, ice cream.
Ice cream. Not just regular astronaut than one. No, ice cream. Ice cream.
Not just regular astronaut ice cream, like legit ice cream.
Even the astronauts don't need astronaut ice cream.
Really?
You just broke my childhood longing for astronaut ice cream.
So anyway, I feel like we've gone pretty far from space-related items, but I'm sure people
are interested in my dietary desires. Nicole Forkner Well, I mean, you know, being able to feel
comfortable in space as we try to do this for long terms is important. I spoke with
Matt earlier about the astronauts that have been on the ISS longer than expected, these
Boeing astronauts, and about the upcoming Polaris Dawn mission. And there's so much
to talk about there. But part of this is that the people
on the ISS are up there longer than expected. And a lot of the
comments I've been seeing from people are concerned that maybe
being in space that long will hurt their bodies, or that the
people going on this Polaris Dawn mission, which is going to
be going further from Earth than people have been in, you know,
over 50 years, that that amount of radiation exposure will do something to
them. What is it that being in space does to the human body if you're there in the long
term?
Oh, all sorts of fun stuff. And they've discovered more, but the obvious, well, not obviously,
the radiation exposure is higher because you don't have the protection of the Earth's atmosphere blocking out some of the stuff that's coming in, flying from charged particles
from the sun, from even cosmic rays from distant places.
And that can cause damage to things which my impression, again, not a medical doctor,
I just want to be clear, or a researcher, that it causes things like cancers eventually.
But you also have other issues they've struggled with, which is loss of bone density. And so
that's one reason they exercise apparently helps fight that. So they exercise an hour,
two hours a day and that helps with it. But there's still over time, you lose some of
the good stuff in the bones.
And there are other things that go and that's why people have been trying to figure out
that the bone density loss is a low microgravity response.
Anyway, I'll stop there, but there's various stuff.
The good news is most of it's pretty slow acting and things like radiation exposure,
typically it's how much did you
absorb and so if you're not up there that long or you're in a can like the International
Space Station that has some protection, then you're in much better shape. Plus, they're
down inside the Earth's magnetosphere, so you get even more protection from the altitudes
they typically use.
Yeah, we're going to have to figure out some way of dealing with this if we're going to
be out in space in the long term.
A lot of, at least the NASA astronauts, and I would not be surprised if other countries
as well, they will actually invite them to come back and get probed even after they're out of the
astronaut corps by doctors over years and decades to figure out whether there might
be long-term issues.
It is tricky though, because there's still a fairly small statistical pool.
I really like that study that they did with the Kelly brothers, that twin study where
one of them went into space.
Scott Kelly, I think, was up there for almost a year, and then they compared what happened between those
two astronauts. I mean, that's going to be really interesting to see how that falls out
in the long term. But it also sounded like there were some potentially beneficial effects
genetically, something about his telomeres shortening and some anti-aging effects that
were short-lived, but still really interesting.
If your anti-aging effects are short-lived, were they actually anti-aging effects?
These are the questions.
You can think about that.
All right. What is our random space fact this week? I love this one.
My brother was at a car racing school this last weekend.
Anyway.
Perfect.
Yes, I knew that.
No, I didn't.
So the length of time in space and I didn't properly report that earlier this year, the record for the longest
total time over multiple missions in space was broken. And so congratulations belatedly
to Oleg Kononenko, who is still on the space station setting a record as time passes, just increasing his record. He has now spent,
well, as of June 4th of 2024, which is now a couple months ago as we record this,
at least, he was the first astronaut or cosmonaut to go above 1,000 days total in space.
Dude, that's a long time.
That is, that's a long time. Yeah, he'll be pushing three years total, adding up several
missions. And then for in terms of one single mission, it's Valery Polyakov, who did it on
Mir, the Mir space station, at 437 days and 18 hours, which is also a very long trip.
How did the inside of Mir compare size-wise to the ISS?
Was it smaller?
I'm guessing there was less room to chill out.
There was.
There also tended to be smaller crews, but it was extensive.
They had multiple modules, but it was not as large by any...
Well, the ISS is several times bigger in terms of volume, is my understanding, but
that's not something that I have right off the top of my head, so I apologize, but definitely
ISS is significantly bigger.
Man, astronauts are so brave. Like as much as I want to think I'm the kind of person
who could be in space for a thousand days, that is intense.
Well, we want to give you that test, Sarah. Congratulations. You've won. Oh, no,
no, not yet. Not yet. Maybe one of these days, Bruce, one of these days. Maybe we'll start you
a little shorter trip, but I think once you get past the first few days, you're golden.
As long as I get over that whole falling forever thing.
Well, yeah, I mean, there's that space sickness thing, which is a good time.
Oh, man.
Nope.
Oh, and aliens.
That's got to be careful of those.
Got to be careful of those.
That's even more reason why I'd want to do it.
I want to be the first person to be like, dude, do you want to play video games?
Dude, I want you to be the first person to greet the aliens while the rest of us huddle
in our bunkers.
We come in peace for all Sarah kind.
Oh, she kicks it up a notch.
I think we know, you know how we talked about you not exposing your desires to rule the
world.
I think it's coming out a little bit.
Stuff that back into the box anyway.
All right, everybody, go out there, look up the night sky and think about
how long you'd like Sarah to be in space.
Thank you.
Good night. of this week's episode of Planetary Radio. But we'll be back next week as always with more space science and exploration.
Love the show?
You can get Planetary Radio t-shirts at planetary.org slash shop, along with lots of other cool
spacey merchandise.
That includes a bunch of stuff related to planetary defense if you need yourself a sticker
with a dinosaur telling you to kick asteroid.
Help others discover the passion, beauty, and joy of space science and exploration by
leaving a review and a rating on platforms like Apple Podcasts and Spotify. Your feedback not
only brightens our day, but helps other curious minds find their place in space through planetary
radio. Who knows how that could impact the next generation of asteroid hunters and planetary
defenders. You can also send us your space thoughts, questions,
and poetry at our email, planetaryradio at planetary.org.
Or if you're a Planetary Society member,
you can leave a comment in the Planetary Radio space
in our member community app.
Planetary Radio is produced by the Planetary Society
in Pasadena, California, and is made possible by our members.
You can join us as we cheer on the innovators
and planetary defenders pushing forward
our understanding of space at planetary.org slash join.
Mark Hilverda and Ray Palletta are our associate producers.
Andrew Lucas is our audio editor.
Josh Doyle composed our theme,
which is arranged and performed by Peter Schlosser.
And until next week, add Astra.