Planetary Radio: Space Exploration, Astronomy and Science - Hope Leads the Way to Mars
Episode Date: July 29, 2020An exclusive conversation with science lead Sarah Al Amiri and project director Omran Sharaf of the Emirates Mars Mission. Their Hope orbiter is now on its way to the red planet. NASA Associ...ate Administrator Thomas Zurbuchen has praise for the Emirates mission and looks forward to the beginning of the Perseverance rover’s own journey. Are you as good as NASA at creating acronyms? Take your best shot in the new What’s Up contest, as Bruce Betts waves farewell to comet NEOWISE. Learn more at https://www.planetary.org/planetary-radio/0729-2020-amiri-sharaf-emm-hopeSee omnystudio.com/listener for privacy information.See omnystudio.com/listener for privacy information.
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Leading the way to the Red Planet, this week on Planetary Radio.
Welcome, I'm Matt Kaplan of the Planetary Society,
with more of the human adventure across our solar system and beyond.
Hope is on its way to Mars.
We'll enjoy a conversation with the two leaders of the Emirates Mars mission in a few minutes.
We'll enjoy a conversation with the two leaders of the Emirates Mars mission in a few minutes.
China's Tianwen-1 was also successfully launched a few days ago.
And by the time the first of you hear this, Perseverance, NASA's next Mars rover, should be hours away from its liftoff. The agency's Thomas Zurbuchen and Mimi Ong, leader of the Mars Helicopter Project, are moments away.
Down the line, we'll hear from Bruce Betts about Comet NEOWISE
and the other wonders waiting for you in the night sky.
The July 24 edition of the downlink is topped by a view of two worlds that aren't from around here.
In fact, these young gas giants circle a star that is 300 light-years away.
The image was captured by the European Southern Observatory's Very Large Telescope in Chile.
Yeah, that's its name, the Very Large Telescope.
It was augmented with a coronagraph that blocked most of the star's light, revealing those planets.
Launch of the James Webb Space Telescope has been delayed again,
as the pandemic continues to take its toll, and not just on us humans.
NASA is now looking at October 31st of next year.
That's right, the most powerful and ambitious space telescope ever
will get a spooky Halloween send-off.
And astronauts Bob Behnken and Chris Cassidy have completed
the power system upgrade of the International Space Station with a final spacewalk.
Behnken and Doug Hurley are set to return to Earth
in their SpaceX Crew Dragon capsule on August 2nd.
As always, you'll find much, much more at planetary.org.
And you can sign up to receive our weekly newsletter for free. As always, you'll find much, much more at planetary.org slash downlink.
And you can sign up to receive our weekly newsletter for free.
Remember Mimi Ong?
We talked back in July of last year with the project manager for the first flying machine headed to another planet.
Ong participated in a July 20th virtual event presented by Space Foundation.
Titled Roving the Red Planet, the webinar also featured past planetary radio guests,
NASA Administrator Jim Bridenstine, Jet Propulsion Lab Director Michael Watkins,
and NASA's Associate Administrator for its Science Mission Directorate, Thomas Zurbuchen.
We'll hear from Zurbuchen in a few minutes, but first, here's some of what Ong had to say. There are three technologies being demonstrated on Mars 2020.
The Terrain Relative Navigation for safer landing in hazardous terrain, MOXIE, which converts carbon dioxide to oxygen for in-situ resource utilization, and the Mars Helicop helicopter. So NASA performs technology demonstrations, tech demos,
to demonstrate advanced capabilities for spacecraft for future missions. The Mars helicopter tech demo
will be the first ever to attempt a rotorcraft flight at Mars. In fact, we as human beings have
never flown a rotorcraft, a helicopter, anywhere outside of our own Earth's atmosphere.
So really a Wright's Brother moment, but on another planet.
So for NASA, the Mars technology demonstration, Mars Helicopter Tech Demo, is motivated by the potential to add the aerial dimension to space exploration.
Today, we explore Mars from spacecraft in orbit
and rovers roving on the surface.
In the future, there'll be astronauts on the surface.
And the helicopter can serve as scout
for rovers and astronauts.
Helicopter can also allow us to reach places
that are simply not accessible today without being able to fly.
It's not easy to build a rotorcraft to fly at Mars. The atmosphere is really thin. I
mean, compared to Earth, it's about 1%. So a vehicle to fly in Mars has to be really
light and it has to spin really fast. The helicopter we've built is named Ingenuity
and Ingenuity has a rotor system that's 1.2 meter in diameter and the entire vehicle has to weigh
under two kilograms. That's about four pounds. So to build this vehicle that weighs about four
pounds while having the capability to fly and land autonomously and to survive and operate autonomously at Mars, right, remotely operated from Earth.
That's a huge challenge. It's a tiny package with tons of capability packed.
The day our vehicle weighed in, it weighed in a hair under 1.8 kilograms. That was a huge day for us. Since then, we've performed the helicopter test flights in a simulated Mars atmosphere in the 25-foot diameter space simulator chamber here at JPL.
from the belly pan of the Perseverance rover successfully to the surface. So at this point, we've performed all the tests that we can on Earth.
And the next step really is now to do it in the real environment this Mars helicopter ingenuity is designed for.
In space vacuum as soon as after launch and finally on the surface of Mars.
We have a 30 Martian day window to do our flight
experiments. So we have up to five flight plans to be performed in that time period.
And the first and foremost, the most important flight for us, for our team, is the very first
flight where we'll repeat the flight that we have tested multiple times in our test chamber here on earth.
And then after getting that first flight, then we will be performing more bolder and bolder flights of higher heights and further distances. So here we are, exciting days ahead. Helicopter is about
to be launched. Our team is thrilled. It's truly the high risk, high reward phase of our project. High risk because
every step forward, every event that we have will be a first time event, right? First in space vacuum
and then in the environment of Mars. But more importantly, high reward. All of that experiences
will be feeding into future much more capable rotorcraft.
For our team, that is the ultimate reward
that we've worked really, really, really hard for.
I came to NASA inspired for the opportunity
to contribute to space exploration.
And along the way, I also fell in love
with making first of a kind capabilities work
for increasingly autonomous
advanced space systems. Here today is an example of that dream come true. Here we are on a historical
mission, Perseverance, working on a tech demo, Mars Helicopter Ingenuity. Thank you so much.
Mars Helicopter Project Manager Mimi Ong. The tiny whirlybird is now making its way to the Red Planet in the belly of the Perseverance
rover.
Thomas Zurbuchen always speaks eloquently and with great passion about our exploration
of the solar system and beyond.
Here are a few excerpts from his contribution to Space Foundation's webinar.
Before I get started, I wanted to congratulate the United Arab Emirates for their successful
launch of the Hope mission to Mars.
Along with their Japanese launch partners, that's a truly amazing accomplishment and
we're happy to join them soon with Perseverance because together, Hope and Perseverance are
essential ingredients of exploration.
It's truly an exciting decade ahead of us as the entire world sends
missions to Mars to study and explore the red planet. Next week, the United States returns to
Mars. It's the next step in putting together a puzzle we've been working on for centuries,
which has accelerated in the last 55 years, beginning with the first flyby of Mars by Mariner 4.
The world's eyes were opened when the Viking landers sent back transformative pictures
of the surface of another planet for the first time. And the world got to see for itself the
color Mars red with its own eyes. And we saw how it resembled our great American desert scapes. And we wondered
anew what our two planets might have in common, where all the ingredients necessary to life,
carbon, other elements, water, energy, were they present on Mars and had the zoo produce
microbes as it did on Earth, but did unhappy celestial occurrences
for the neighbors snuff out that agent's life
as we strive here on flourish here on Earth
as life is an important part of our planet.
These are questions scientists have pondered
for decades and more.
So now we send Perseverance,
the most capable robotic scientist ever sent
to the surface of another
planet, to the most promising place we could determine from here that could have supported
life, an ancient river delta by what might once have been a huge lake. The Perseverance rover
builds on the legacy of NASA's Mars exploration program and joins a fleet that right now includes a rover,
a lander, and multiple orbiters. It's our ninth mission to land and our fifth rover. Perseverance
is our first mission to have astrobiology, in this case to search for ancient life, as part of its
top-line science goals. That current fleet of Mars, including the rover's planet-made Curiosity,
which is still roving five years in,
and all the missions we have sent historically,
these other missions have all found things
that led us to keep going down this path,
having found organics, methane,
sands of water in the past,
and even now, Perseverance's
suite of instruments will take the next step.
Perseverance is also the bridge between science and human exploration that demonstrates how
the two can support and reinforce each other.
It will do incredible things until human scientists, with their own unique perspectives and ability
to make science judgments are
able to walk the surface.
I look forward to that personally, many of us do.
So what will Perseverance do?
The planet's story is told in parts through its climate and meta will tell us more about
the weather on Mars and the prevalence of dust and how it affects human missions.
RIMFACS will probe beneath the surface,
perhaps finding ice deposits human missions could use. SuperCam and MassCam will survey and study
the environment and turn amazing images. Basically, Perseverance will bring all human senses to Mars,
will sense the air around it, see and scan the horizon, hear the planet with microphones on the surface
for the first time, feel it as it picks up samples
and to cache, perhaps even taste it in a sense as pixel
and other instruments sample the chemistry
and the rocks and soil around it.
As humans prepare for the greatest adventure here
in in-person exploration of Mars, our robots can help.
MOXIE will help demonstrate how we might live off the land by converting carbon dioxide into oxygen that we can breathe or for rocket fuel.
SHERLOCK, in addition to searching for organics, uses spacesuit material for calibration, which will also help us learn how it degrades on Mars.
And technologies such as medley and terrain relative navigation, TRN, will help our rover
to the surface and also provide data that is important to landing future human missions
on Mars.
Jim is going to talk a lot about this and this important context of human exploration
as well.
A helicopter named Ingenuity
will demonstrate powered flight on another planet for the first time. I really look forward to
seeing this Martian Wright Brothers moment. Mimi will tell us more about this. I'm just so excited
about it. And Perseverance is going to prepare for humanity as long last to hold a piece of Mars in our hand, not just a
meteorite from somewhere, but a piece of an actual surface with its geologic context analyzed with
the best instruments there for us to study back on Earth, the best instruments humanity has available
to themselves, not only today, but also in the future. This is the first leg of the humanity's first ever round trip to another planet.
And this amazing explorer could not have been ready for launch in this transient window we have
without the perseverance of teams across the country and the world who struggled and sacrificed
through the global pandemic to keep their sights on this milestone of humanity. Their work and
this mission embody the agencies and our nation's spirit of persevering even in the most challenging
of situations, providing inspiration and advancing science and exploration. And the mission itself
personifies the human ideal of persevering towards the future. Mike is gonna tell us more about this especially.
Perseverance carries our hopes and dreams.
The names of 11 million people from across the world
who sent in their names to go with us under the plaque.
We read, explore as one.
I just wanna tell you both of my parents
who are no longer with us, their names are there.
That is really meaningful to me from that perspective,
as well as also my family who's here,
who's all of their names are on this list.
And Perseverance carries the goodwill
of the entire space community that we and other nations
all send missions to Mars to stick out.
It reinforces NASA's commitment
to working with our international partners
to accomplish
stunning achievements in science, technology, and exploration.
So when Perseverance launches, it takes us all.
Every one of us will have a chance to learn from and be inspired by this mission.
Anytime we attempt something that pushes us to the next threshold is a time to celebrate. It is a
big moment, a milestone for humanity that we all share. We explore and discover together,
and together we persevere. Thomas Zerbukin, NASA Associate Administrator for the Science
Mission Directorate. We're grateful to Space Foundation.
We've got a link to their complete Roving the Red Planet webinar on this week's show page at planetary.org slash radio.
We're far from done.
After a quick break, we'll head for the United Arab Emirates
for a great conversation with Sara Al-Amiri and Amran Sharaf,
leaders of the Emirates Mars mission and the Hope Orbiter.
Stay with us.
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We featured a launch party on last week's show. One of the many voices you heard belonged to
Her Excellency Sara Bint Youssef Al-Amiri. Sara is Deputy Project Manager and Science Lead on the
Emirates Mars Mission, or EMM. She's also Minister of State for Advanced Sciences in the UAE,
and she has been named the new president of the UAE Space Agency.
And those are just a few of her titles and accomplishments.
Joining Sarah on this week's show is Amran Sharaf.
Amran is the EMM Project Director at the Mohammed bin Rashid Space Center.
He has overseen every aspect of this ambitious mission, Amran is the EMM Project Director at the Mohammed bin Rashid Space Center.
He has overseen every aspect of this ambitious mission,
including the transition from a focus on Earth observation satellites to development of interplanetary missions.
You're going to hear the term MEPAG used.
That's the Mars Exploration Program Analysis Group.
Sara and Amran, thank you so much for joining us on Planetary Radio.
It is a great honor to be able to speak to you so soon after the beginning of this mission,
the Emirates Mars mission with its Hope spacecraft.
I know I speak on behalf of our audience and everyone, all my colleagues at the Planetary
Society, when I congratulate you on this terrific start for this mission to the red planet.
Thank you for being here.
Thank you for having us, Matt.
It's a pleasure for us to be on and to talk about the start of the Hope Mars mission.
I have to join NASA Administrator Jim Bridenstine, who we heard on the show last week,
and many other space experts and officials around
the world who are also congratulating you and your team. I mean, I'm sure you have been asked
this question too many times, but how does it feel to be on your way to Mars? Sara, why don't
you start again? So it's been over six years of intense work. as you all know, it's challenging to get a spacecraft built to
Mars. And it's even more challenging to do it in six years. It's been a mixture of emotions across
the board, even after launch leading up to launch. Now that we have the spacecraft there,
it's a roller coaster of emotions where you hit a high every time you achieve a milestone,
but you know
there's another challenge coming up. And it's just a series of challenges that will continue on
until we get to orbit around Mars, until we get to starting our science operations and getting
scientific data down and start analyzing that. The emotional journey that we're on at the moment
will continue on for the next few months. Amran, a slight variation on that question.
How did it feel?
Was there a sense of relief when your spacecraft turned toward the big antennas and started to say, I'm feeling fine, I'm on my way to Mars?
I wouldn't say like a full relief, but I mean, it felt good.
I was happy that actually the spacecraft is safe and it's communicating with us.
It's a long journey. It's a seven-month journey.
We have the Mars orbit inspection, a very, very critical phase in the project that's going to take place in February 2021.
It felt good, but not fully relieved.
What is the current status of the spacecraft, Amiran?
The spacecraft is safe and it's sound, it's healthy.
It started its cruise towards
Mars with monitoring
the spacecraft on a continuous
basis, 24-7
for now, as we are commissioning
the spacecraft as part of the
LEOP. This process will stay like
this for about two weeks,
maybe. Later on, we'll switch to
normal operations in which we'll switch to normal operations
in which we'll be having our operators conducted
or contacting the spacecraft twice a week
for six hours every contact.
So far, everything looks good,
and we're happy with the status of the spacecraft.
Are there any significant milestones during this cruise phase
as HOPE makes its way to Mars?
Yes, we do have a very important operation that will take place about 10 days from now, the TCM, Trajectory Correction Manoeuvre.
We have a series of seven TCMs taking place between launch and arrival to Mars, which are very critical for us.
So this is, I would say, the most critical operation that
will be taking place. And it will be taking place about seven times throughout our journey.
So plenty to keep you busy, it sounds like. Yes.
I know, and I'm sure you know, that arrival at Mars, whether it's orbital insertion,
as you'll be doing, or heading down to the surface is thrilling, but can also be terrifying.
And this is your first time doing this.
What steps have you taken or will you be taking to make sure things go smoothly?
Yeah, as you mentioned, it's a very risky operation.
When it comes to risk, I mean, at the end of the day, I mean, the best way to mitigate
those risks, especially with these missions, and especially if it's a platform that you
developed, it's not a platform that's been bought or something that's been used before,
is by testing it, testing it, and testing it.
So before launching, we had a lot of scenarios that simulated the Mars orbit insertion
and saw how the spacecraft reacted to these scenarios.
For now, what we can do is, again, just monitor the spacecraft
and make sure that we are on the right trajectory.
By the time we reach Mars, make sure that the softwares are up to date,
the data the spacecraft is using to conduct the maneuvers are up to date,
whether it's a nominal scenario, whether it's a scenario that had an error in it,
and so how the spacecraft reacted to that error and fixed that error.
What happens after you achieve your initial orbit at Mars?
There are some further adjustments that have to be made before
Sarah and her science team can start doing their work, right?
Yeah.
We'll stay in the capture orbit for about a month or two.
It depends on the status of the spacecraft.
During that time, we again check the status of all the subsystems,
of the instruments, and make sure that the instruments are actually working well,
the calibration will take place.
And then after that, we shift into our science orbit.
And again, we have to check the status of the instruments again
and calibrate it for the science orbit that it will be operating from.
And once that's done, and we check the validity of the data
that we are receiving from the spacecraft,
basically the science team will be able to take that data and use it
and distribute it to the rest of the world to also use it in their studies.
Sara, let me turn to you.
If you're like other mission scientists that I know,
I expect you'll be going a bit crazy as you wait through all of this
to begin gathering data and doing the science that HOPE was going to enable.
A large part of what we're doing as a science team at the moment is the scientists have actually
been working on what we're calling the path to science closure. And that's analyzing the data
that we will get from the HOPE probe from about a year and a half now.
So all the models that need to go into play, visualization tools,
certain studies that need to take place have already been in development.
And we've utilized either data that has been captured from the instrument on the ground,
or sometimes, especially for us on the Emirates side,
utilized a lot of training data from other
missions that somewhat will capture some form of data that is similar to the Emirates Mars mission.
And we've been able to work on developing capabilities through that. Also, the processing
is very important. So the instrument scientists on the team are currently working on the data
pipeline, ensuring that we're able to process the data to a level with which scientists can take it and analyze it. And they'll be working in conjunction with the
engineering team through crews, because there's a few maneuvers that need to happen with regards to
the instruments. And also in Capture Orbit, we'll be collecting data while we're in Capture Orbit,
transitioning into science. Work on the science team at the moment is ramping up,
and the team is now really looking forward to getting their work on the science team at the moment is ramping up. And the team
is now really looking forward to getting their hands on the data. This is such an important point.
And I think a lot of people who otherwise consider themselves space enthusiasts don't realize the
level of work that has to go in, not just by the engineers behind the mission, but the scientists in preparing to get the data for,
as you said, months and years before that data starts to flow.
Absolutely.
A lot of people used to say, so the science team's work starts after launch when you get
into science orbit.
That's absolutely not the case.
We started very early on on the mission together with the engineering team.
That's how you scope the requirements.
You start with objectives of what you want to study of the planet
and you start breaking that down into the requirements
that engineers then go and design, develop a mission for.
We've been working on this mission even more closely
with our system engineering team, our spacecraft developers,
all the instrument teams, both on the engineering
and science side, to get to the point that we're at. Mission designers. So even how you capture the
data, how often do you want to get that? Do you want to cover which areas of Mars at which
resolution? All of this is defined very early on by the science team. And before you launch, you need
to verify that the instruments are functioning according to plan. And then again, after you launch, you need to ensure that a lot
of the design and development work goes into place so that you're able to get the right data sets.
That's all the role of the science team that's very well integrated in the overall
mission and starts from day one and stays on to well after decommissioning to release data. Is it fair to call HOPE Mars'
first weather satellite? Yes, we'll be providing the first holistic view of the Martian weather
throughout an entire year and cover the gap in knowledge that we have. And that's the transitions
from the day to night cycle. So it's every time of the day, we'll be able to cover all of Mars in
roughly a 10 day span. So this gives us a much better understanding of the day we'll be able to cover all of Mars in roughly a 10-day span.
So this gives us a much better understanding of the weather system on Mars.
We also get to correlate how much impact does the weather have on atmospheric loss.
Could you go over briefly, because I know there's much more detail on the mission website,
and we will link to that website and other resources on this week's show page at planetary.org slash radio.
But what are the instruments that HOPE carries that will be collecting this data?
So we carry three different instruments to carry the data.
All three instruments are scientific instruments.
The first two, which is the Emirates Mars Infrared Spectrometer and the Emirates Exploration Imager,
are providing the weather data for us. So
they'll be looking entirely at the lower atmosphere of Mars. That's where weather occurs. They'll be
capturing data about dust, water vapor, ice clouds, ozone, so that we're able to fully characterize
what happens in the lower atmosphere. We also have a second instrument, which is the Emirates
Mars ultraviolet spectrometer. That is looking at how
far out hydrogen and oxygen extends into the atmosphere. It focuses at the exosphere of Mars.
The other aspect of this mission, which is our third objective, is we want to understand if
something happens in the lower atmosphere of Mars, for example, there's a dust storm,
how does that impact atmospheric loss? What does it do with
escape rates of hydrogen and oxygen? And we're able to do that using the EMUS instrument that
also looks at the thermosphere and measures carbon monoxide and oxygen and provides us that link
between upper and lower atmosphere so that we can have an overall view of what role does Mars play
in the loss of its atmosphere. And we already have an understanding
of what role space plays in the loss of Mars's atmosphere. So that can provide us a better
understanding of climate change on Mars and atmospheric loss on the planet. And hopefully,
in the larger perspective of things, and this is something that was vital to this mission,
to be complementary to other studies on Mars. In the larger perspective of things,
it will help us better understand how the Martian
atmosphere went from a much denser and wetter one to a dry and very thin atmosphere.
Complementary indeed, because of course, with what you've been describing, you've made me
think of the MAVEN mission that we've also covered pretty extensively on this show.
Would you say that the MAVEN will
definitely be complemented and maybe its work will be amplified by what HOPE may be
helping us to learn? So it's not only the MAVEN mission. You can take several other missions,
including ones that, for example, cover on the polar orbit and they cover the Martian atmosphere
at a higher resolution than our mission. And then you've
got the landers that are on the surface that cover quite extensively local weather in a very localized
place. It fits in very well in the overall science. And the reason it does that is because
we utilize the report that MEPAG usually releases on scientific goals for exploring Mars and been
able to find gaps within that that no other mission is designing for. And the purpose of that
is that we want to send a purely scientific mission that doesn't replicate other missions
to add on to the scientific findings. And it helps our team get the full experience. It is our first
mission, yes, but we wanted our team to learn because we're building capabilities and capacity.
And therefore, to learn, they need to go through the entire process of learning in things that are unknown and defining science objectives in areas that you're not 100% sure what your outcome is going to be.
Now, what will be interesting for me personally is taking what we get in terms of findings and then having that spin out more questions.
And that, for me, is what exploration is all about.
When your one answer builds into or translates into several other questions to be asked about Mars, and it continuously pushes forward, unlocking all the mysteries.
Boy, that's science for you, isn't it?
Amran, let me turn back to you.
Space communication, deep space communication especially,
always a big challenge.
How are you going to be getting SARA's data back here to Earth
and sending commands to the spacecraft?
What we use is an expat antenna that we have on board our spacecraft to communicate with
the spacecraft and also to send commands and receive data and telemetries.
We're utilizing the deep space network, NASA's deep space network.
We thought instead of us building everything from A to Z, it was more about utilizing existing
platforms and infrastructure around the world to deliver this mission.
Command and Control Room in Dubai, it's connected to the DSN.
That's how we communicate with it.
And as you mentioned, it's a big challenge.
As we move further away from Earth, the delay in communication increases.
And by the time we reach Mars, the delay is going to be between about 15 to 20 minutes,
time we reach Mars, the delay is going to be between about 15 to 20 minutes, which adds bigger challenges to the operations and to what we mentioned earlier, the Mars orbit
insertion, in which that process will have to take place autonomously and on its own.
Basically, we find out about it if we succeeded or not 20 minutes later.
Yeah, always a challenge.
The spacecraft definitely needs to be smarter than, let's say, spacecrafts orbiting Earth.
The Mars mission was at least five times more complex than the previous missions that we worked on at the center.
So the challenge here was also not just the fact that it had to be smarter,
but also for us to understand how smarter it needs to be.
And also, at the same time, build a spacecraft or design it or get the knowledge and understanding of how to design such a smart spacecraft.
So that was also a challenge for the team.
Sara, let me switch gears here and come back to you as we talk about the other reasons this mission is taking place.
Of course, the chance to gather unique data at Mars is exciting and very important,
to gather unique data at Mars is exciting and very important, but it's those other reasons the UAE has taken on this challenge that I want to turn to, beginning with the name you chose for the
spacecraft. Is this mission all about hope? This mission is all about hope. At the time that we
started this mission in late 2013, the Middle East was known notoriously for all the
unrest across various countries. And most of it, if you dig down deep to the root cause of it,
was that youth weren't getting the necessary opportunities that they were looking for.
We come from a region that's made up of 100 million people under the age of 35.
It got to a point where the energy and the creativity of those people were being used in the wrong groups and for the wrong reasons.
It was very important for us to bring another purpose to work for.
And this mission was developed from the very beginning to be run completely by those under 35, done in a certain way that it has a scientific purpose. So we were requested to design
a mission not only to get to Mars and capture an image, but to capture valid scientific data
that not only develops our science community, but is able to benefit science communities,
be it in the Arab region or around the world,
and provide another way to look at how to advance countries
and where to put the energy of the youth in and to provide opportunities for people and how to create them.
We never had people that worked on planetary exploration
missions prior to this mission. Seven years ago, the jobs that we have today were not there.
The experience that has been captured by the team members that have been through this
program has never been in the region. Yes, we have a lot of people who have left the region
and are now working in various institutions abroad.
But within the region, this is the first time such an area of knowledge is there.
And what this changes, and that's where hope factors in.
And even more than that, it's the hope that transforms into expanding possibilities, is when you see that happening.
When you put together an audacious goal that people very
early on doubted it would ever see the light of day and deliver on it as promised, within the
timeline promised, within the budget promised, and with the dedication of the team, working in
conjunction with our knowledge partners across the world. That has sent a strong message from
what I've seen personally from the people around me of various ages just in the Emirates. And we've
heard from the first time from people from around the Arab world asking questions on what does
change really mean? How do you create opportunities? What are the possibilities out there? And it's this dialogue that has been quite important for this mission, is to let people
think of a different possibility and hope for a better life and a more stable life.
This must be very gratifying then to see this.
And there's good evidence for it.
I'm grateful to your colleague, Alexander McNabb, for getting us together.
But he also gave me these great background materials about the mission and your work,
including a report by University College London about the impact of the mission.
The report contains this terrific infographic that I have in front of me.
It quantifies many of the mission's social, educational, and cultural benefits.
Do you know the one I'm talking about?
It's really very impressive. Yes, and that has been something that we've had from the get-go.
So we've had an outreach team that has been part of this mission very early on. And we've catered,
I think, at some point to children as young as three years old, all the way to postgraduate
education. And there's been dedicated programs across the board for those. And we will continue
those and expand them on to the region. But something that's also important that's in the
University College London report that comes to the objective that the UAE started a planetary
exploration mission in the first place. And that was, how do you build experience in an area that
does not exist within the country? And how do you build capabilities
around that? And how do you expand the capacity that you have? And what this mission allowed us
is to create a model by which we design and develop a project or a mission that has a very
clear end outcome. And at the same time, within the process of that design and development,
you're transferring on experience and you're developing capabilities
by sharing knowledge across nations. And what this helps you to do is to not reinvent the wheel,
to learn from the experience of others, more importantly, to learn from the tacit knowledge
that other people have had. And that's something you can never be taught on a book and you can
never read it and
learn it from anywhere except by going through the development with someone who has gone through it
before. There's very small nuances in design and development that people have learned throughout
the years that have come from failing on other programs or doing things in a certain way on other programs that have informed the path forward.
What the report provided us was a sanity check. Is this model the right model by which we can go
about as a nation to develop new industries? Because what we're working on for the next 10
years is to establish new economic sectors within the country and to increase the impact of scientific research
within the country
and increase the capabilities and capacity
of the science community overall.
And the purpose for that is about 20 years from now,
demand for oil, for energy will start declining.
And that is a portion of our economy.
That's not entirely our economy,
but that is still a a portion of our economy. That's not entirely our economy, but that is still a significant portion of our economy. And it's very important for us to
expand on the methodologies by which you can establish new sectors and be able to do that
in the correct method. So in some way, this has been an experiment in policymaking and setting
forth a method by which you can develop new sectors in a
country. Would that all nations took the long view that the UAE appears to be taking with this
project and a goal that really stretches over a hundred years. I note that just over a third of
your team members are women. And I'm sorry to say that I think that may surprise some people outside the
UAE and the Arab world, but I hope it's a pleasant surprise. I've heard that quite a lot as a
surprise. For us, I think it's just a natural progression that that is over 30%. The reason
for that is 56% of those that enter into STEM fields today are women.
So you have gender parity when it comes to the input.
And 70% of university graduates overall are women.
So we've been lucky enough as a young organization that has just been established since 2006
to bring people on who are the best and brightest
and most passionate of minds to work on this
project, regardless of gender. It was never something that was put sort of as a criteria,
and some people do assume that that was the case. It was just the best minds out there
that are part of this program and part of this development process.
You're both relatively young people. Amran, here you are, the project director for a Mars mission.
I suspect you may be the youngest ever. It sounds like that fits into some of what we've heard from
Sarah. I don't know if I'm the youngest ever project director of Mars mission, but if I am,
that's a big honor, to be honest. I think so, yeah. But as you know, at the end of the day, I mean,
yes, we are a young
team that worked on this mission
and that has been given this responsibility
by the UAE government
to deliver and to execute this
project. However, we shouldn't forget
that also we worked with our partners, our
knowledge transfer partners at the University of
Colorado Boulder, which
had experienced people with
understanding and background in deep space missions.
So this is the combination of the youth, of the young, and the combination of the experience
working together as one team, I think was a major factor in us being able to come up
with this new model and approach of doing things and at the same time delivering the mission
with the limited resources we had
when it comes to time frame and also the budget.
One thing that the UAE government was very clear with us
at the beginning, they said, don't buy it, build it.
However, learn from others, don't start from scratch.
Work with others closely, go through a knowledge transfer program
and deliver something that's new and unique.
A new model of executing such missions that is more innovative, that is more efficient, that's more effective.
And a model that is based on collaboration rather than competition.
And as I said, international cooperation was core to this mission and the reason why we were able to deliver it.
Sounds like a pretty wise approach.
Sara, back to you and looking away from the mission just for a moment or two,
I'm thinking of your new job that you're going to move into on August 1st as president of the UAE Space Agency.
Do you see that as an opportunity to extend the sorts of goals that you've talked about for this mission?
Absolutely, yes. It has been something that the Space Agency has been set up to work on. And
the overall space program of the Emirates is not a one-off program. We have a space agency,
we've got a space center. There's an overall long term development plan for that sector.
And what is a success story for us moving forward is one, how do you transfer this capability
tangentially into other sectors? And two, how do you start building the space economy and further
supporting the creation of businesses on the space sector in a different way, filling in a potential gap in the overall industry globally. This, for me, is an area that we need to seriously work on over the course of
the next few years. The other aspect is a program that has been launched, and it's about also
working with different people in the Arab region, hosting some of the greatest minds out there to work on design and development
of spacecrafts with us in conjunction so that they can also be the voice of change
within their countries. And they're able to then take their experience and be able to build upon
it and build spacecrafts that are quite vital when it comes to the data or utilize data from
spacecrafts for urban development and when it comes to the data or utilize data from spacecrafts for
urban development and overall development of the science and technology ecosystem within their
nations. Very exciting future ahead, it sounds like. I hope that as we move into this future,
even the immediate future, that we can stay in touch with both of you to talk more about
the Emirates Mars mission, the Hope probe, but also I'd love
to hear more about your new job when you get into it, Sara. I'm just wondering now, as we come to
the end of this, where the two of you will be on that day in February when Hope arrives at Mars?
In the command and control room in Dubai.
Not surprising.
Exactly.
In the command and control room in Dubai.
Not surprising.
Okay.
Hopefully a good celebration afterward.
It has been a delight.
Thank you so much.
And congratulations once again from all of us who are following this mission.
Certainly all of us at the Planetary Society and listeners to this show. And the greatest of success to both of you and the entire EMM team
as we head for Mars with you. Thank you, Matt. Thank you, Matt. Thank you. We have been talking
with Her Excellency Sarah Bint Youssef Alamiri, who was appointed as Minister of State for Advanced
Sciences in the United Arab Emirates. In October of 2017, she is also the Deputy Project Manager and Science Lead
on the Emirates Mars Mission, EMM, where she leads the team developing and fulfilling the mission's
scientific objectives, goals, instrumentation, and analysis programs. She was Programs Engineer
on the DubaiSat-1 and DubaiSat-2 projects. She also chairs the United Arab Emirates Council of Scientists.
And as we said, on August 1st, she'll become president of the UAE Space Agency.
Sara, I got to bring up something that you mentioned before we started recording.
A certain gentleman that I work for apparently played a role in inspiring you toward this
career.
Yes, I grew up watching Bill Nye the Science Guy. He brought science to
life to me. So it was really interesting just growing up watching that and having science
brought to your household, not having it the typical textbook science that you study. And that
has expanded just my understanding of how much impact science has
had in our daily lives and what you can do with it and what you can create with it.
It's an absolute pleasure to be on this podcast. The science guy is going to be very proud when I
tell him about this. Amran Chiraf is the Emirates Mars Mission Project Director at the Mohammed bin
Rashid Space Center in the UAE. He and his team are responsible for
developing, launching, and operating the Hope spacecraft that we've been talking about. Amran
has worked on the project from the start and developed all the necessary capabilities and
partnerships at the center. He oversaw this transition from Earth observation satellites
to a center that develops interplanetary exploration missions. Amran, I have to note that
you got your bachelor's degree from my father's alma mater, the University of Virginia. So
go Cavaliers. Go Cavaliers. And we will go on to talking with Bruce Betts for this week's
edition of What's Up in just a moment. Time for What's Up on Planetary Radio. Bruce Betts is the chief scientist of the
Planetary Society, runs our light sail program. In addition, I don't know, you're the go-to guy
now, it seems, for lots of light sails and solar sails. I mean, you just spent most of the day in
a meeting about this, right? I did indeed. A review of an exotic potential future concept of solar sailing. I don't know that I am the go-to guy, but I'm at least a guy who they can get.
You are a go-to guy, I'm sure of it. I have a go-to telescope. What's up there for me to look at?
to look at Jupiter and Saturn in the evening sky in the east.
Soon after sunset, you can't miss them,
as Jupiter being the brightest object in the evening sky,
Saturn over to its left looking kind of yellowish.
And they both look quite beautiful in your go-to telescope, Matt.
I went out looking for the comet last night, Comet NEOWISE.
It was too cloudy, once again. At least I got in that one viewing. But it said it was still, at comet last night, comet NEOWISE. It was too cloudy once again, at least I got in that one
viewing, but it said
it was still, at least last night,
it was magnitude 5,
about 5.5, which
is not bad, right?
Kind of, sort of, but not really.
The trick is that
theoretically with your eyes in a dark
site, you can see to 6th
magnitude, maybe even to 7th
or beyond
but that's assuming that whole brightness
is in a point source
the brightness they're giving you
of the comet is spread out
over an area in the sky
so it's much much much much harder
to see a 5th magnitude
comet than it is a 5th magnitude
star so it's comet than it is a fifth magnitude star.
So it's tricky, but it is still hanging in there.
Visible dimly in the northwest at the end of twilight.
Look like an hour, hour and a half after sunset, just as twilight's ending.
But particularly this would be a good time to pull out those binoculars and use that.
Get a sky chart online and then pull out the binoculars and you can check it out.
It has moved where many in the southern hemisphere can conceptually see it as well.
It's definitely fading.
It's fading fast.
Don't miss it.
Yeah, just too many clouds and too much haze and too
much city since San Diego was between me and the comet. Yeah, that's going to make it tough,
at least right now. I did some serious suburban watching when it was brighter, but now it's
getting tough. Good news is it's up higher than it was, but the bad news is it's dimmer.
getting tough. Good news is it's up higher than it was, but the bad news is it's dimmer.
But if you don't see it, just turn around and check out Jupiter and Saturn, which are easy to see. And then coming up just a little bit later in the evening is Mars. And Mars, watch it get
brighter over the coming weeks. Mars is all ready to play the magnitude game, minus one magnitude.
ready to play the magnitude game minus one magnitude remember smaller numbers are brighter and so it's actually approaching the brightness of jupiter it's not there yet but it will be
it's certainly approaching the brightness of the brightest star in the sky uh right now but as we
move towards october we'll be getting closer to mars in our orbit and it will be getting brighter
and eventually it will get brighter than Jupiter for a little while.
So check it out in the evening east, a little bit later in the evening.
Pre-dawn Venus, still just dominant object over in the east, super bright.
And to its lower left, you might be able to pick up Mercury, which is actually similar right now in brightness to Mars,
but always hanging out down near the horizon. That'd be the eastern horizon and the pre-dawn
lower left of Venus. Be there. Oh, and one more thing, just as a preview,
I'll mention again next week, but we got the Perseid meteor shower coming up August 11th and 12th.
Increased activity several days before and after. There'll be a quarter moon, so it won't be ideal, but it'll be good.
I'll tell you more next week.
A fine service you provide here every week.
Why, thank you, Matt.
So do you.
We move on to this week in his...
Did you have a comment?
No, no, I'll let it lie.
Do you have a comment?
I made my comet comment.
Aha, this week in space history, 1971,
first driving by humans in a car on the moon,
lunar roving vehicle, lunar rover, Apollo 15, 1971.
2007, Phoenix was launched on its way to the polar regions of Mars, and it would
be a successful lander. I'm driving in my car. Where are you going? I'm going to that ridge
over there. Okay. We move on to... The Perseverance rover, speaking of driving,
The Perseverance rover, speaking of driving, carries an anodized plate with the words Explore as One in Moore's code made to look like the rays of the sun.
So check it out in pictures when you see the rover.
I fiddled with it.
It actually works.
It's a little tricky to figure out, but then it all becomes clear.
I would only be able to read it if it said SOS.
It's the only Moore's code I've ever known and probably ever will.
You don't want your rover saying SOS. No. All right. We move on to the trivia contest.
We asked you about NASA exploration of comets. So ESA's Rosetta spacecraft studied a comet very successfully.
But the question was, what and when was the last comet flyby encounter by a NASA spacecraft?
How'd we do, Matt?
Boy, did you catch a lot of people this time.
Ben Drought, he got it right.
He's not our winner.
Sorry, Ben. Ben in Iowa said a sneaky sneaky question since the most recent flyby was not conducted
by the most recent NASA
comet explorer to be launched.
But then I have come to expect
nothing less from Dr.
Betts.
Here is the poetic response
from our poet laureate,
Dave Fairchild. Stardust
was a mission sent by NASA into space.
It picked up dusty samples from a VILD-2 embrace,
then headed off to intercept the comet Temple 1.
Because when you work for NASA, friend, your job is never done.
That is correct.
Yeah, it was sneaky.
It was Stardust's second common encounter,
and Deep Impact also had a couple objects it checked out just to confuse matters.
So good job, those who got it right.
We had a lot of people.
I mean, a lot of people who thought it was Deep Impact, or rather the Deep Impact Extended Investigation, Dixie.
Look to the heart of Dixie, as Bob Klain said.
They were close,
but it was Stardust. Great tune, by the way. Thank you, Hoagie. Here's our winner,
Paul McEwen. Paul McEwen in Cleveland, Ohio. It has been over two years since Paul last won the
contest. And he did it with his naming of Stardust as the being responsible for that last flyby by a NASA probe.
There were a couple of people who mentioned Rosetta,
but they knew that, you know, we were talking about the European Space Agency there.
And, of course, it wasn't a flyby.
Paul, you have won yourself, well, it's your choice,
a Planetary Society 40th anniversary T-shirt.
It is really cool.
Or an equally cool vintage Planetary Society t-shirt,
new made though, with our original Clipper ship logo. And I'll be in touch, Paul. We'll find out
what you'd like. Those are the same prize choices for this next contest that we'll be getting to in
a moment. But first, here is another interesting approach to your question, Bruce,
and it's from Connor Cottrell in Panama, the country of Panama. He said on October 19, 2014,
Comet C2013A1 flew by Mars and the three NASA orbiters that were there at the time. Not bad,
huh? Sort of a reverse flyby. Yeah, that's an interesting take on it.
That's good. I'll give you that. That's interesting.
It was worth a mention.
And finally, from Mark Dunning in Florida,
Thanks, Ort Cloud. I appreciate you, even if others don't.
A little dig there at me, I think, Mark?
Okay.
We're ready for another contest.
I haven't told you, Matt, but I've invented a new game for the trivia contest this week.
Oh, no.
Be still my heart.
That's right.
It's time for Theoretical Hypothetical Acronyms.
Catchy title, don't you think?
I like this already. The stereo camera on the mast of the Perseverance rover is named Mastcam-Z because it is a mast-mounted camera with zoom capability.
But here's my challenge for you. Make up what every letter would stand for if Mastcam-Z were
actually an acronym. Go to planetary.org slash radio contest to give us your entry in
the theoretical hypothetical acronym contest. Let's make this very clear for people. There
are acronyms, including NASA and other space acronyms, which the acronym includes letters
that are not a first letter in the words making it up. Will that be allowed or does it have to be the first letter?
Or did you think of this?
I just assumed it's always the first letter.
No, I mean, if you, if you can,
if you can slam them together in some way,
like use the M and the A in one word, that's one thing, but no,
no pulling a pulling an X out of the middle of a word.
Well,
that would be ridiculous to pull an X out in the first place
because it's not in Mastcam-Z.
But no, you can get a little smushy with it, but not way out of it.
I like that.
I like that laying out of the rules.
You have until the 5th.
That would be Wednesday, August 5 at 8 a.m. Pacific time
to get us the answer this time around. And as
I said, you get yourself your choice
of brand new Planetary
Society t-shirts,
which you can find, take a look at
them in the Planetary Society
store. You can either go to planetary.org
slash store or go to the
source, chopshopstore.com.
That's where our store lives and
they have all kinds of cool stuff there.
All right, everybody go out there, look up the night sky and think about what name,
what your name would create if you had an anagram of it. Boy, that was complicated.
Thank you and good night. An anagram, but I don't have an X in my name.
He's Bruce Betts. He's the chief scientist for the Planetary Society, and he joins us every week here for What's Up X.
You're an X-man to me.
Planetary Radio is produced by the Planetary Society in Pasadena, California,
and is made possible by its members who live everywhere on our planet
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Is that you?
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And thanks for leaving us a review or rating in Apple Podcasts, iTunes, or elsewhere.
Mark Hilverdis, our associate producer, Josh Doyle composed our theme,
which is arranged and performed by Peter Schlosser at Astro.