Planetary Radio: Space Exploration, Astronomy and Science - Seven worlds, one mission: The United Arab Emirates aims for the asteroid belt
Episode Date: November 27, 2024The United Arab Emirates Space Agency is working on its next ambitious spacecraft, the Emirates Mission to the Asteroid Belt. It will visit seven asteroids, ultimately rendezvousing with Justitia, the... reddest object in the main asteroid belt. We'll get an update on their team's progress from Mohsen Al Awadhi and Hoor Al Hazmi, the director and science team lead for the Emirates Mission to the Asteroid Belt. Then, our chief scientist at The Planetary Society, Bruce Betts, joins host Sarah Al-Ahmed for What's Up and a new random space fact. Discover more at: https://www.planetary.org/planetary-radio/2024-uae-asteroid-belt  See omnystudio.com/listener for privacy information.
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The United Arab Emirates aims for the asteroid belt, this week on Planetary Radio.
I'm Sarah Al-Ahmed of the Planetary Society, with more of the human adventure across our
solar system and beyond.
In 2020, the United Arab Emirates Space Agency launched its first interplanetary mission,
the Emirates Mars mission they dubbed HOPE.
The space agency is now working on its next ambitious mission, the Emirates mission to
the asteroid belt.
It's going to visit seven asteroids, culminating in a strange world known as Justitia.
We'll get an update on their progress from Mohsen Al Awadi and Hur El Mazmi, the director
and science team lead for the Emirates mission to the asteroid belt.
Then our chief scientist at the Planetary Society, Bruce Betts, joins me for What's
Up and a new random space fact.
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And a few days later on November 30th, the Planetary Society marks its 45th incorporation day.
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But that's a story for another day.
We'll officially kick off our year long 45th anniversary celebration in January.
Meanwhile, on the other side of the world, the United Arab Emirates Space Agency,
which celebrated its 10th anniversary this year, is gearing up for its next big
adventure, a mission to the asteroid belt.
Their first interplanetary mission, the Hope
Orbiter, is still out there studying the Martian climate and helping us understand
what Mars was like when it had an atmosphere and could have supported life.
Hope was the first interplanetary mission from an Arab or Muslim majority
country. The UAE used it as an opportunity to team up with universities
and space agencies around the world and that gave them the skills that they needed to succeed as an agency and reach Mars.
And now they're working on their next big project, the Emirates mission to the asteroid
belt. Much like NASA's Lucy mission, which is going to investigate multiple asteroids,
the Emirates mission to the asteroid belt is designed to fly by various targets. But
instead of visiting Jupiter's Trojan asteroids,
as Lucy will, the UAE's mission is going to focus on seven bodies in the main asteroid belt.
That's the belt of objects that's located between the orbits of Mars and Jupiter.
The Emirates mission to the asteroid belt is going to investigate a few different types of asteroids
before it rendezvous with its final target, Justitia.
It's been three years since we got a chance to discuss this mission on planetary radio,
so it's definitely time for an update.
Now Mohsen El-Awaddi, the director of the space missions department at the UAE Space
Agency and director of the Emirates mission to the asteroid belt, returns.
He'll be joined by Hur El-Mazmi.
She is a senior space science researcher at the UAE Space Agency and the science team
lead on the Emirates mission to the asteroid belt.
Thanks for joining me, Hur and Mohsen.
Thanks for having us.
Thanks for having us.
And it's good to speak with you again, Mohsen.
It's been a couple years since we spoke about the HOPE mission.
Yeah, it does feel a while ago with so much action happening. Especially with this whole
new mission you guys are spinning up. I mean, I know that you began working on this quite a while
ago, but I'm sure there's been a lot of developments in the meantime and there's so much going on at the
UAE Space Agency. It's been really wonderful to see the planning for these upcoming missions,
but just the interactions between the space agency and this growing commercial industry around it.
Exactly. The essence of every single program that we have is the international collaboration is definitely
one of the main aspects that we're building through these space missions.
Given that we're looking into collaboration from the science point of view, from technology
point of view, knowledge transfer point of view. And these are to us the pivotal tools, space
missions to create that ecosystem, not only on the UAE, but internationally. And we've been
successful with all of our missions by following that methodology. And we continue to build that.
And we continue to build future programs based on that methodology
as well.
Well, for people who aren't familiar with this mission
or didn't get a chance to hear the last time we spoke about it,
can you give a general overview of what this mission is
going to accomplish and where you hope it'll visit?
Sure.
I'll talk about the overall objectives of the mission.
And I'll let Holden Mosby here to dig deep
into the science that is behind the mission
and as a driver of the mission as well.
So this mission, the asteroid belt mission,
the MLS mission to the asteroid belt
was initiated after the successful launch
and achievement
of Emirates Mars mission.
That was our first deep space mission visiting Mars and the growth that was seen in the UAE
from the Academy point of view, from the space sector in general as well and from being able to attract entities that previously
did not think the UAE might be a hub for future missions.
All of that was created by EMM and it was obvious we need a follow-up mission that can
continue attracting these individuals and also the youth that was inspired through the
EMM.
We wanted now to give them an opportunity to
be able to be part of a new mission, the Emirates mission to the asteroid built.
And that is the mechanism that the whole mission was built on.
It's not dedicated to one entity to develop this mission.
We created the concept called the national team, where we have different individuals
coming from different sectors in the UAE and are creating what we're calling the national team.
So we have individuals from the space agency itself
that are allocated working full-time on the mission.
We have individuals and team members from TII.
We have from YASA that were part of the mission.
We have universities, maybe four universities
that are officially with us.
So this concept was really needed to be able
to give this opportunity to more than one entity.
And not only that we did not stop
by only creating the national team,
but we are also supporting the startup companies
to have an opportunity to take a part on this mission.
Taking a huge risk by introducing this opportunity, but the goal of the mission
and a mission objective that we have, that 50% of the mission has to be developed in the UAE.
So to be able to do that, we needed to create that ecosystem in the UAE,
at the same time, be sure that they are ready
to be part of this mission and also for it to be successful.
And we know not all of these adds up,
especially if you're trying to do all of this at once.
So we took the approach of, okay,
if you are a startup company,
you don't have enough knowledge,
but you have the passion to be such a program.
You come with us, we have another program
that was initiated called the Space Academy
that will give you the basics and things you need
to be able to know so that you have a successful journey
and the mission, giving equal opportunity to the sector
that is established and then giving another opportunity
to the startup companies at the same time,
looking at more collaboration internationally.
So one of the mission objectives again to build this relationship, the
international relationship. So we took the approach of having this mission
accepting contributed payloads. So we have
contributions from the Italian Space Agency on this mission,
universities in the US as contribute it to the mission.
And then the last part that I also want to talk about
is there is an opportunity for a UAE team
to develop a lander on the mission.
Two years ago, three years ago, we called it the lander.
Today, we are changing that.
It will probably be an impactor,
will not survive the impact that it will have to go through.
But again, we're building our capabilities through this opportunity that is the lander opportunity
or slash impactor. So that risk tolerance on that is quite high from our side, but the essential
goal again here is to build capabilities of the OE on a complicated piece of the mission as well, which is the lander impact or part.
Today we have an entity in the UAE.
We have not finalized it yet but we will be announcing it soon as well and that
part will be developed in the UAE. And then maybe one last update at least
from my side is looking at the launch vehicle that's been selected as well as
of a month ago now. So we chose the Mitsubishi Heavy industry, the H3, the new launch vehicle, for it to be the
launch vehicle for this mission as well, which will be launching in 2028, the first quarter
of that year.
So that's in summary, I think, what we've been doing and details on the science and
the payloads, what can go into that.
Yeah, we were all very excited for this mission and we're excited to go further in the solar
system with this mission and to achieve these big objectives that we have, not just for
science, but for the country and the UAE and globally.
But the science for me is very exciting as well.
We have really exciting science that is going to be useful for the global science community
that are interested in learning about asteroids and interested in understanding
more about the formation of our solar system. So we're visiting seven
asteroids. We have six flybys on this mission and we'll rendezvous with a
seventh asteroid that's very exciting because it's the reddest object in the main asteroid belt.
And we're curious to know why it's the reddest object. We don't really know what is causing
that redness, which is why we're getting a closer look at it. Our mission has two sides to it in
terms of what we're studying. We're looking at science objectives of understanding the origin
and evolution of water-rich
asteroids. And we're also interested in paving the way for future missions to utilize resources
that are found on asteroids. So this is a longer term ambitious goal for future missions as well,
to support space resources objectives, as we call them, where we're trying to see how many resources
can we find on the asteroids that we're visiting and how usable are they or how easy are they
to extract for future missions.
But going back to the science, asteroids in the main belt are very interesting because
the main belt acts as a historic remnant for when the solar system was forming. So by going to the main
belt, we're going to be learning more about that period when the solar system was forming.
And by looking at water rich asteroids, we'll get to know where water came from on the planets
that exist in the solar system today and on Earth. So we're getting a closer look with
our instruments that Mehsin mentioned that are, some of them are contributed from the TITUS Space Agency.
Some of them are from the US and each instrument is looking at different aspects of the asteroids.
So we're trying to get information on the composition of those asteroids.
We're trying to get geological context with our cameras and we're trying to get thermophysical and thermodynamic properties of these asteroids
that we're visiting.
And our final asteroid 269 Justitia is the reddest asteroid in the main belt and it looks
like the redness indicates water richness and organic material on the surface.
So we're really excited to get there and to see those details with our instruments.
Why do we think that indicates that it's a water-rich asteroid?
So the redness of the asteroid indicates organic material on the surface,
and that tells us that there might be water below the surface,
so subsurface water.
And these asteroids generally that have a similar spectra signature
are typically found in the outer
asteroid belt in the Kuiper belt. So it does also have signs of it being an asteroid that
migrated from that outer belt in the solar system and moved to the main belt. But we're
still curious about why it maintains its redness and how it hasn't lost its redness during its migration
and what are the causes of that, whether it's space weathering that's causing this redness
or the water richness or any other aspects that we're going to be figuring out with our
mission.
Yeah, Justitia is a really strange asteroid and I was so excited to hear that was going
to be the final target for this mission because there's so much we can learn there. The fact that we think most
of the water on Earth came from asteroid bombardment is one thing, but also just the prevalence
of organic materials we're finding in these objects, in the samples that we're retrieving
from other asteroids, it's kind of mind-blowing. And the more we can know about it, the better, I think.
And getting a look at seven different asteroids is going to give us a much
better idea, especially when we can combine them with other data. Are you
working with any other teams from other countries that have done this kind of
asteroid sampling or upcoming missions to asteroids to collaborate on this kind
of thing? Yeah, so we're currently working with team members that have experienced or are also team members
from the Lucy mission from the Southwest Research Institute. So SWERI, we have a few members that
are from that team and they've also been supporting a lot with the Earth-based observations. We
recently had last year in, a stellar occultation
campaign.
These campaigns were mastered basically by the Lucy mission
team because they had so many campaigns where
they tried to better understand the asteroids
that they're going to.
So they helped us out with their experience
as being part of the science team of this mission,
set up a stellar occultation campaign for Justitia, our rendezvous target.
And it was wonderful. These stellar occultation campaigns typically are a group of telescopes
that are distributed across the shadow of the asteroid when we know it's going to pass over
Earth. So by distributing these telescopes across the shadow
of Justitia, we can better understand
the shape of the asteroid.
It will increase our understanding of the shape model,
basically, of the asteroid, and it'll help us
with our planning for getting to Justitia.
So that was really exciting.
And it also helps us with trying to see
if it has a secondary asteroid and getting albedo information on the asteroid. So we had
that campaign last year and we got really amazing results that are very
useful for our mission and we're planning a lot more for our other flyby
targets and for just to show as well. But you have so many targets how are you
going to be navigating between these asteroids
as you're out there?
For the navigation aspect specifically
on the Emirates Mars mission,
we definitely have heavy dependence on
and team that can provide the service,
the navigation specifically
when we go to a deep space program.
One of the knowledge transfer aspect of the Emirates mission to the asteroid belt
was to start developing things in-house.
So the full navigation system of the asteroid belt mission is now being co-developed with the university
and Kulara specifically.
Because it was one of the items that we selected as a team and as a space agency saying,
okay, now that we're upgrading and going even further, what are one of the areas that we should
be developing or co-developing that builds the knowledge and capabilities? And when you're
developing yourself, the amount of knowledge that you need is a lot more
than being able to depend on an entity
who does that for a living.
So that's when it comes to the missions.
And definitely it's a complex process,
but we're making it even more complicated
by designing and developing our own navigation system.
So we continue working with that relationship
that was built on the Emmer's Mars mission and we are, you know, making it even a stronger partnership that
we are getting out of the asteroid-built mission. So you're going to be doing flybys of most of
these bodies, but when it comes to Justitia, you're going to try to actually either land or
impact this object. Is the larger spacecraft going to be attempting to go into orbit
around this object or are you just going to kind of fly by and drop off this lander?
No, so from the science point of view, we will be random viewing it for I think,
what was the timeline? Is it nine months? Seven months.
Seven months. So seven months, we will be orbiting the last with close prox operations as well
on just the ship and the last operation of that once we're done with the science and
we collect the information that we're looking forward to having, that's when we will be
attempting the the ladder opportunity, the landing of the impactor today on just the
ship.
We still have not defined how close we will be getting,
but out of the current stage and the mission design that we have,
that's why we moved from calling it a soft landing
into probably it will impact and probably not survive as well
once it touches the surface.
But again, those details have not been finalized yet,
but we're still working on getting it closer. But the whole goal of the landing opportunity is to take as
less risk as possible on the mothership, on the NBR Explorer, just so that if we can again continue
doing more science, then we can continue doing that as well. But again, those details have not been finalized yet. But you know,
soon enough, a year timeline from today, we will have a more solid plan that this is what we will
be looking at. Because that's when we enter the AIT phase, the integration and assembly integration
testing phase, where we freeze as much as possible of the design so we can start testing the different
scenarios and the spacecraft itself
as well plus of the mission scenarios that we have put in place. Yeah there's a few things that I
think the impactor does for your team that is actually quite an asset. I mean first off
impacting it means you might be able to excavate some of the material and get a better understanding
of what's going on under the surface.
We've also seen in the United States this difficulty with the commercial lunar payload services program that NASA is doing. The collaborations with these new startup companies
and other companies that have been going on for a while are wonderful, but anytime you try to land
something, it's always really difficult. Space is hard, right? And I'm never upset when
these companies don't nail it the first time because that's a really complex thing. But I was
concerned when I heard that you had startup companies attempting this, not because I thought
they were going to fail, but because that is a really complex task. And when a company hasn't
had that opportunity before, there's a high likelihood it might not work. So having an
impactor instead of a lander actually sounds like it's a really good high likelihood it might not work. So having an impactor instead
of a lander actually sounds like it's a really good decision if it goes that way.
Exactly. And as you mentioned, I mean, this whole concept of introducing startups to a flagship
mission, you know, we understood what risk we need to be tolerant with. It was obvious.
But at the same time, this mission is trying to achieve
so many different things on the national objective level that we want to make sure that everyone
understands today in the UAE, you get an opportunity even on a flagship mission. I mean,
if some other countries might treat these missions as, you know, zero risk tolerant as much as
possible, there is no zero, but reduce it as much as possible.
We're actually doing something the opposite
that we are willing to take more risk
as long as we're able to move and create job opportunities,
create an ecosystem or an environment in the UAE
that makes anyone that is thinking about this,
having an entity in the UAE or sort of confident
that, you know, the UAE space agency or the space sector in the UAE will give them some
opportunities here and there.
We created something called the Space Means campaign and we have a specific one called
the Space Means Business campaign where we go out and let people know about the different
opportunities that exist on the mission.
And again, it's a whole,
this whole thing is a risk management that we look in,
who's able to provide what, can we accept this risk?
Is it too risky?
Is it a risk that we can deal with and so on.
And then back to the lander opportunity,
yes, that's what we have done.
We were able to bring on two startup companies,
have them work together,
get us to the mission
concept review phase, which to on itself is an achievement that was successful.
And also what we did to help them be guided, we had a collaboration with JABSA, the Japanese
space agency, because they have a lot of experience in this field as well.
And that's again, parts of the international collaboration that we are trying to create out of this mission, where we have them part of the review board and they give their
guidance and feedback to the lander team as well on what is a good idea, what is to be avoided,
simplifying the system versus making it too complex. So all of that collaboration is always
beneficial. And that's again, that's the motto that we have that
whenever there's something we're introducing to the mission
that we don't have information or knowledge about,
we are the first one to raise our hands and say,
okay, we need help, who can help us?
So, you know, a close relationship with Japan here
specifically was needed and they were part of that
review process and they give their guidance to the team
for it to be a successful mission concept review.
Yeah, that's a really great tactic, honestly.
The collaboration with all of these existing teams
gives you that safety net that you need,
but I think it's really important to be able to
take the risks to give these opportunities
to people in the Middle East.
And as someone whose family comes from the
Middle East, and my father lived in Dubai for a long time, right? When my little sister learned
about the HOPE mission, it lit her imagination on fire, as I'm sure it did for people all across
the UAE and the Middle East. If I still lived there, I would be trying to join this team, right?
That is an opportunity that you've granted everyone.
So even if it doesn't go the way that you want it,
I think it will pay dividends in the people
that you've given opportunities to
and what it might be able to build in the future.
No, exactly.
And it's not only the technical aspect
that we want people to be aware
that you have an opportunity on.
It's the whole spectrum.
So whatever you think you can do for a
space mission, we are opening that opportunity up. So we're glad that this is having that impact.
We continue to work towards having that impact as well because again, the whole mission was to create
that hope. Today I think that hope, we see it, a lot of people have that
ambition. A lot of individuals in the UAE are now focusing and knowing that space is actually a
career path, not only from space missions, but also on a human side, human space flight side as
well, being an astronaut, which again, 10 years ago, probably that's not anyone that thought that,
okay, this might create path to be being an astronaut within that 10 years or even less than that.
Today, it's actually a real job that you can apply for or train for.
So we continue to establish an infrastructure that is going to be taken over by the next generation
and whatever opportunities that we can give for anyone
to be able to be part of this today,
then that's the role that I personally take pride in.
And I hope that I'm able to achieve it
through these missions.
So what's really beautiful about these kinds of missions
is that it's not even just building opportunities
in the moment, right?
But once you actually have that data,
it can pay off for decades after
and create all kinds of jobs. We've seen that with so many missions from around the world,
people who were not even born when spacecraft went out, later becoming part of the teams
that then digest that data. So what kind of data are you going to be collecting from these
asteroids as you're going along? So as mentioned, we have five instruments
on board the spacecraft.
We have the Emirates main belt infrared spectrometer,
EMBERS, and it has heritage from the Emirates Mars mission
where we had a very similar, the exact same instrument
actually called the EMIRS that's currently orbiting Mars,
but this one will be for the main belt on our mission.
Then we also have eMAX,
which are the EMA camera systems.
We have an infrared camera and a visible camera,
visible narrow-angle camera.
The start-off, the infrared spectrometer is going to
be there to give us infrared data,
so temperature
and thermophysical properties.
The camera systems with the visible narrow-angle camera
will give us geological context for the thermophysical
properties and the composition and information
that we're going to be seeing with our other instruments.
And then the infrared camera is also
going to be giving us information
about temperatures and the subsurface layers and the rock abundance and porosity of the asteroids that we're going
to be seeing. And then we also have the midwave infrared spectrometer called MIST-A, and this
is the Italian Space Agency contributed instrument. And this spectrometer is going to give us
compositional information about the asteroids that we're going to be flying by and just to show.
And then finally, along the way, while we're traveling from Earth, the entire cruising time
will be collecting data with the Reptile-3 instrument, which is a relativistic electron
proton telescope. And it's going to be collecting information about the solar energetic particle
and it's going to be collecting information about the solar energetic particle environment and space weather environment along the way.
And this is really exciting because it's going to be collecting data about the solar environment
in places that data hasn't been collected before by traveling to the distance that we'll
be traveling with our mission.
And in some happy fashion, it'll be a few years after solar maximum, so you won't be
getting completely bombarded, but that data is really important.
We're going to need that.
We'll be right back with the rest of my interview with the team behind the Emirates mission
to the asteroid belt after this short break.
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It sounds like Justitia is a target that we at least know a good amount about, but what
do you think are the most interesting things about the other six targets that you're going
to be visiting, at least that we know so far?
Yeah, so I was really excited to see that when we share this mission at conferences
and with people that people aren't as excited about just as we are, but they're more excited
about the fact that we're visiting asteroids that are within asteroid families. So at the
asteroids that we're visiting, five of them are within asteroid families,
with one of them being the largest remnant of the asteroid family that it's in. So Chimera,
so named after the Chimera family. Chimera is an asteroid that we're visiting and we're going to be
getting more information about. And we're also visiting different types of asteroids. So we're
getting the diversity aspect of the asteroids and
the asteroid belt also ticked off. So one of the asteroids that we're visiting is a
mixture of asteroid types. So it's a mixture of carbonaceous and ordinary chondrites mixed
together. So that's going to be really interesting to see that asteroid and why. So it's probably
because of an impact that caused these two types to be mixed together.
So that'll be really exciting to see. And then we'll be visiting five carbonaceous asteroids.
And two of these asteroids are C types. One is a K type and our ultra red asteroid to
Sanctus Cetacea is also really exciting. So we're excited about the fact that we're visiting asteroid families and the context
that these asteroid family members are
going to give us for their entire family as well,
and what state we'll find them in when we get to them,
and the story behind those impacts.
It's going to be so valuable to get
data on all these different classes of asteroids
because there is so much we don't know. Every time we approach one of these asteroids, there's some kind of thing
we did not anticipate, right? It's a rubble pile. It's a binary. It's got organic compounds
on it. I think there might be some surprises along the way. And then how cool is that going
to be? What are you personally most excited to learn about these asteroids?
For me, I think the long term,
I would be really excited to learn
that one of them is a binary
and that maybe we get to name an asteroid
that we see with our cameras.
That would be really exciting.
But I think just getting context
for the larger picture of the main belt and the asteroids
that are within the main belt would be the best case scenario is something that will
serve the entire small bodies community and will give us answers to big questions.
So that's what I'm really excited about is it might not be the obvious things that we're
looking at with our main objectives, but just accidentally
uncovering something that we didn't expect to uncover is something that I'm really excited
about. I'm sure it's going to happen with our mission because there's a lot that we
don't know about these asteroids and just by getting there, we're going to be learning
something new.
I still use images from Hope as my background on my computer all the time. So it's going
to be really cool to have a whole new catalog of imagery of these asteroids
because we only have so many bodies, these small bodies that we've visited.
This is going to massively expand our database.
So I think this is going to be really cool.
Are you going to be putting all of the images out online as they come out?
Are you going to be curating them?
They're definitely going to be shared with the public at one point. We'll have a public database for sharing this data to the public. I don't know
what the timeline will be for that, whether it's when we immediately get
them or before we get to ingest them and like understand what's going on with our
data and then sharing it with the public, but it'll definitely be publicly
available. This is just such a massive undertaking,
but I've been really impressed with the way the UAE Space Agency
has just kind of stepped into this world of space exploration
over the last decade or so and completely blown everything away.
Everything has been really successful so far,
so I've been very impressed,
and I'm really looking forward to the way that this turns out.
And the way that you've kind of done this is by leveraging your partnerships with other universities
and other space agencies around the world. But I remember reading, I think both of you spent time
at the University of Colorado Boulder. Is that university a part of this collaboration as well?
And what other universities are participating?
Yes, specifically the University of Colorado, you know, as a main university that we're working with, specifically their laboratory, LASP, that's our direct relationship. And both me and Raul,
we both actually studied together for our master's degree. That opportunity came in,
I mean, when we both started working on the mission
in the 2015 Pamla,
we were the beginning of the mission.
And then closer to the end of it,
we were also given an opportunity by the space agency
to see if anyone is interested in continuing their education.
So me, Hul, plus a couple of other guys applied.
I mean, a lot of us applied and us got accepted.
And it just happened to be we were at the right time in the right place and maybe not the right
time because it was a really heady time to be working full-time on the mission and at the same
time trying to get our higher education done, getting a master's degree. So that's what happened at least with us being graduates from the university.
And then back to the EMM, specifically the collaboration was again with the Arizona State
University, Berkeley University of California. And on this mission, so again, Northern Arizona
University and also the Arizona State University.
And UC Boulder, again, we are working with them as the main team that is working on the
knowledge transfer aspect of the mission.
And this time, even on EMM, we had UAE or local universities.
On this mission, we wanted it to be a little bit more involved than being a high-level participant on the mission.
So we have, as of today, Khalifa University is part of the mission.
UAE University is also part of the mission.
Recently, Huwala and her team have been adding new universities and we almost finalized but NYUAD,
Neo-Couniversity and Abu Dhabi is also now an official team member of the
science team that's working with us. Also Colorado School of Mines who's
responsible for the police resources objectives of our mission so they're going to be
helping us achieve them with our payload currently. It It's gonna be really cool to see how all these collaborations come together,
but I'm just so excited for everyone at universities in the UAE
that are gonna get to work on this,
because I'm sure there are so many people that had all these space dreams,
didn't know what they were gonna do with them,
and now they can stay in their country and put their space goals
toward this mission and toward
whatever UAE space agency does next. It's going to create a whole new generation of
people who decide to go into this career rather than pursuing other forms of engineering,
even if they don't stick with it, right? I think that's a powerful thing to do for people
and could in the long run really change the economics of the UAE with the
people coming through this program but also all of the industry that builds up around it. Have you
seen a broad interest from these universities and companies to join this or is it something that
they're a little reticent to do because it's unfamiliar. In general, me personally,
when I started visiting universities
at the early stage of the mission,
every single university said,
we missed the opportunity on the Emirates Mars mission,
and we wanna see what would it take for us
to be able to be part of this.
Now that's the beauty of it, that yes, the passion is there,
but now when they know, okay, what would it really take for you to be part of the mission,
the challenges, the complexity, some people change their minds, some university will like,
okay, this is maybe too much for us, can we do something different than maybe a CubeSat
program with them or something that is more within the scope of form that they have that
we continue doing that with them as well.
It's not only this opportunity,
but having such a thing as you mentioned,
I mean, people in general, when you say space,
everyone has your attention.
But when you go to the detail of what would it take,
and reality kicks in, and sometimes also the budget needed,
and knowing that the space agency really operates
on a highly limited budget.
And no one believes that until we actually start working
together and they're like, oh, okay, you meant it.
That the budget is really limited.
Then, you know, things change as well.
But again, we make sure that we're finding opportunities
through the space academy, for example,
from CubeSat educational, CubeSat programs as well,
as long as you're interested. And then we end up with also
universities that know they see the benefit of this. And the
approach that we have that if you're finding an interest on
this mission, take this opportunity. And you need to be
self finance as well. Because again, as I mentioned, all of
the budgets that we have are truly limited. And that's why we
always work towards the contributed collaboration methodology,
that we want more teams to be working on the same goal.
And the space agency will de-risk it as much as possible.
But for us to create an ecosystem that becomes so sustained as well,
we need the ecosystem to understand the importance of it.
So we're able to successfully do that with so
many different team members that we have the creation of national
team is based on that methodology as well. And it's
becoming a really successful story that I will not repeat it
knowing the complexity that it goes into it and managing, you
know, team members from different entities with different
cultures.
It's definitely a challenging task, but when you look at the end goal and what you will be creating out of this dynamic team, that's exactly what the space sector needs here in the UAE.
And then perhaps one day, as more nations within the Middle East form their own space capabilities,
they'll come to you and you'll be the advisors
that help them through their beginning journeys as well.
We have some success stories in that as well.
So the Bahrain Space Agency's equivalent,
that is a program called Light One
that was purely based on that collaboration methodology
as well where we had the team from Bahrain come to the UAE
and work with the space
agency and Khalifa University and NYUAD, New York University in Abu Dhabi. And we were the knowledge
transfer team that provided the knowledge to the Bahrain team. And today that mission was successful.
It's again, it's a CubeSat level, but whatever we're learning, that's the goal that we have.
As soon as we learn it,
we want to pass on the knowledge to showcase the importance of why is it the UAE is looking for
this knowledge and how can the UAE give back as well. See, that's the magic of space exploration
right there. The power of international collaboration, all of us working together
towards self-betterment. Even if these missions don't succeed, the
technologies that they build, the knowledge base that they build up is so powerful. But
given the complexity of what you guys are building right now, what do you hope the UAE
space agency is going to be able to accomplish after you've achieved this? Because I know
it's a little too early to say what your next mission is going to be probably, but you can
probably get a pretty good idea of where you're heading.
Of course.
So this mission is specifically, I mean, it's a long-term mission.
As of today, we have 12 more years before this mission is decommissioned, which is in
2035, approximately.
That's when we will be done with the science phase and we're done with the landing opportunity.
So it's definitely a long-term program
that has been built to support the ecosystem.
And of course, before we get to the end of that program,
we need to know, okay, what is next?
It will be the same methodology that we follow
whenever we create any new program.
What are the objectives we're trying to fulfill?
It will always be built on supporting
the international science community. we always start with there. If
we are going to, you know, invest into a program, and the
UAE space agencies to fund the program, what questions are
there that is 100 that no one is answering yet, or no program is
able to answer it yet, can the UAE support it. So that's what
Cool and her team comes that this is what they start with. Once we understand
that okay we put a program together that okay for this to be achieved this is the
mission that we would need and then we also try to be selfish okay what are we
going to need for the UAE what does the UAE want to create to develop what
ecosystem we will be having,
let's say five years from today, and it will be obvious to us, okay, this is what we want to
strengthen. So, you know, these are the basis of any program that we have, capability development,
science aspect, and also what opportunities can these mission or program give if a commercial entity,
for example, to be able to utilize this opportunity to learn things that in the future they can
become their own standing up entity that they can actually sell products.
And we have successful stories on that as well.
I mean, yeah, I'm really excited to see where we'll be with universities, with the people that are going to be participating on the science team of this mission, and how they'll
develop the capabilities locally.
Because with the Emirates Mars mission, after launch, we saw a huge difference.
And after we got data and we had people work on the data, we saw a huge difference between
that time and before the mission even existed in terms of space science.
People are interested in going into planetary science as a career and astrophysics locally.
And I'm really excited to see what that's going to look like after this mission.
Yeah, I just want to know more about these asteroids and what they could mean for future
resource utilization and humanity's ability to travel out there into space.
There's so much we don't know,
and if we want to go beyond our worlds,
we're going to need the resources to do it.
So this could be a pivotal mission
in the history of human space exploration.
We just don't know yet.
Have so much luck in building this.
I hope it brings so many opportunities
and so much joy to so many people.
I really appreciate your time, and good luck going forward.
Can't wait to speak with you in the future.
Likewise. Thank you so much.
And now it's time for What's Up with our Chief Scientist, Dr. Bruce Betts.
Hey, Bruce.
Hey, Sarah.
Happy almost Thanksgiving.
Happy almost US Thanksgiving Day thing. I am thankful for you, this show, our listeners, and space.
And a bunch of other stuff, but that's not what the show's about, so.
Truth. We talked about asteroids this week, one of your favorite topics.
Yay!
It's interesting seeing these missions that are trying to target multiple asteroids at
once. That's pretty ambitious, even in the case of NASA's Lucy mission. But,
you know, we'll see how the UAE does. They've kind of crushed it with previous missions.
So I believe in them.
Yeah. They've been very impressive with their Hope mission, particularly. It's good stuff.
So I'm looking forward to this. And yeah, Lucy's got a whole pile of them. They even
found an extra one when they flew by
and found a little moonlet friend.
Dinkinish.
Although I don't think the moonlet has a name.
What would you name it?
No, I shouldn't call it Dinky.
Oh, you should.
It is now called Dinky.
I will use the bat phone, the IAU phone,
to get an instant approval of Dinky.
Some listeners of the show will know that we're in the midst of trying to help name
a quasi moon of Earth.
And those adventures with the IAU have been really fun.
They have a challenge to monitor, particularly with the small objects, to monitor all those
names.
And as we're finding their kind of complex objects, you think it's one thing and then
it turns out it's a binary asteroid. I didn't even anticipate there would be so many binary
asteroids and we've learned so much about the general population of asteroids over the
years that we didn't know before and I'm sure we're going to learn a lot more now that we've
got missions going to multiple bodies at once. The amount of comparative, I guess I can't
call it planetology, right?
Comparative astroidology? Is that what you would call that?
I kind of come from the school to subjective that it's planetary science when you're studying
anything solar system related that's not the sun pretty much, although you can argue about
the space between objects.
I don't know, has there been anything
that we've learned about asteroids in the last two decades
that actually kind of surprised you?
The variety, which is weird,
because you look at pictures at first look
and it's like, oh, there's a bunch of gray stuff.
But you get into the density and how that varies.
And we had some idea of this because of meteorites.
You've got like four or five percent of meteorites or iron meteorites and are
much denser, heavier, therefore for the same size. But we found what people kind
of expected but it was surprising is the pile of boulders like we see at Osiris
Rex's target Bennu and big surprise when it like shed
material off of it at one point.
That definitely surprised a lot of people.
I don't know about surprises, but DART and how efficient it was, was encouraging from
a planetary defense, checking Earth from asteroid impact perspective.
The binary thing has really come to the fore, as you said, in the last 20 years.
So, I mean, you've got roughly 15% of what looked like an asteroid when they're discovered
turn out to be binary asteroids.
Several of our Schumacher-Neogrant winners that do asteroid studies, that's one of the
things that a lot of them participate in, because you need to look at the light curve over time, the brightness with time, and you can actually
see the effect of the little friend, or not little friend, they're similar sized objects
as well.
How would you tell the difference between two objects in a binary versus one really
weird shaped object, like a contact binary.
You go and you talk to the experts who stare at light curves and they tell you,
look, this is a light curve of a binary and this is the light curve of a contact
binary. You raise a valid point. Unless we get lucky and an asteroid flies close
enough that we can hit it with planetary radar or we actually go to an asteroid, then the main way to determine binaries is indeed by
just looking at the light curve.
That could look weird and wacky for a contact binary where two asteroids are loosely stuck
together or if you went up and spray painted half of it to look like something.
But you see a repetition in the light curve that is best explained by binary.
As with transit method or anything, there's noise and you don't get a perfect line
and you take more and more data and you add to it and you can start to see things happen.
So it's not usually a, oh boom, that's a binary.
It's like, hey, let's get more and more data.
It's going to be really cool to see all these images and be able to compare all of them.
And I'm sure there are some surprises in there that are going to change our understanding
of asteroids all over again. Just like those rubble pile asteroids. Space ball pits was
like not on my bingo card.
You know, it also surprised me I just thinking back
was Hayabusa and going to Itakawa was the look of that asteroid with looking
like it had cornflakes on both ends and someone had licked them off the middle.
That's pretty that's a standard analogy straight out of the scientific
literature. No it's not. But even just that cornflake look, which is kind of popular amongst the cooler asteroids
because of the boulders sitting around and the fine material.
Anyway, it's amazing what differs.
They basically, most of them float around to use poor terminology.
They occasionally slam into each other and yet you actually have interesting
dynamic things going on. It's fascinating. And they also represent a window into the
beginning of our solar system. It's primitive objects and of course those wacky and metal
asteroids.
Man, that's psyche mission. I mean, of all the weird outliers, what we think of as a metallic
asteroid, that I'm so excited for.
Metallic asteroid band name, I call it right now.
You got it, Bruce.
We need to start like 50 planetary society bands and just cover all these band names.
Yeah.
Hey, I got something for you.
Yeah.
It's a random space fact.
All right, what you got?
Well, you're going to the archives, which I try not to do, but don't worry, I'll add to an old random space fact. All right, what you got? Well, you're going to the archives,
which I try not to do,
but don't worry, I'll add to an old random space fact.
So out of our random space fact videos
that you can find online,
we did one in honor of US Thanksgiving.
And we had the random space fact
that if mercury were the size of a cranberry,
then Jupiter would be the size of a turkey.
But now I'm gonna add in there that Earth would be about the size of a turkey. But now I'm gonna add
in there that Earth would be about the size of a walnut, now still in the shell,
which is not the ideal way to include it in stuffing and frankly I don't think
that should be included in anything. But that's just a personal opinion and that
would be your Thanksgiving analogy for the day.
Be thinking about that while I'm making food.
I was thinking about the amazing creation of the turducken, chicken inside a duck inside
a turkey.
And so I was thinking, what if you took the giant planets and you put Uranus inside Saturn
inside Jupiter and you'd end up with something like a Jupe Saturanus.
Jupe Saturanus, there we go.
Jupe Saturanus.
Definitely weirder than the pie cake I was thinking about making.
What's that?
You put a pie inside of a cake.
Oh, now we're talking.
Right?
Totally.
You can put cookies inside of that and coat the whole thing in chocolate.
Let's party.
Hey everybody, come out there, look up a night sky and think about yummy foods that you combine
into magical, weird sounding things and have a wonderful Thanksgiving. Whether you're here
elsewhere, we're all grateful for your listening. Thank you and good night.
We've reached the end of this week's episode of Planetary Radio, but we'll be back next
week to discuss the formation of Oraniforms, or what some people like to call the spiders
on Mars.
Don't worry, they're not actual spiders, just really strange bits of terrain.
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And until next week, I'm thankful for you and Ad Astra. You