Shawn Ryan Show - #234 Jared Isaacman - Will China Trigger the Next Sputnik Moment for NASA?
Episode Date: September 8, 2025Jared Isaacman is an American billionaire entrepreneur, pilot, and commercial astronaut. He founded Shift4 Payments in 1999 at age 16, growing it into a leading integrated payment processing company t...hat went public in 2020, handling transactions for a third of U.S. restaurants and hotels. An accomplished aviator with over 7,000 flight hours, Isaacman set a world speed record for circumnavigating the globe in a light jet in 2009 and founded Draken International in 2012, the world's largest private air force providing adversary air support. In space exploration, he commanded the all-civilian Inspiration4 mission in 2021, raising $240 million for St. Jude Children's Research Hospital, and Polaris Dawn in 2024, conducting the first private spacewalk and testing Starlink communications. Nominated by President Trump for NASA Administrator in December 2024, the nomination was withdrawn in June 2025 due to prior political donations, after which Isaacman donated $15 million to U.S. Space Camp programs. He advocates for advancing human spaceflight, public-private partnerships in aerospace, and philanthropy, including support for Make-A-Wish and veteran causes through his Polaris Program. Married to Monika with two children, Isaacman continues to push boundaries in business, aviation, and space. Shawn Ryan Show Sponsors: https://betterhelp.com/srs This episode is sponsored. Give online therapy a try at betterhelp.com/srs and get on your way to being your best self. https://bunkr.life – USE CODE SRS Go to https://bunkr.life/SRS and use code “SRS” to get 25% off your family plan. https://meetfabric.com/shawn https://shawnlikesgold.com https://helixsleep.com/srs https://mypatriotsupply.com/srs https://patriotmobile.com/srs https://prizepicks.onelink.me/lmeo/srs https://rocketmoney.com/srs https://ROKA.com – USE CODE SRS https://simplisafe.com/srs https://ziprecruiter.com/srs Jared Isaacman Links: X - https://x.com/rookisaacman IG - https://www.instagram.com/rookisaacman Shift4 Payments - https://shift4.com Polaris Program - https://polarisprogram.com/team/jared-isaacman Learn more about your ad choices. Visit podcastchoices.com/adchoices
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Jared Isaacman, welcome to the show.
Oh, thanks for having me.
Man, I've been excited about this one.
I'm honored to be here.
But honestly, looking around the room, don't feel very worthy.
But it's great to be here and shining with you.
Oh, man.
A lot of people think that, but you're perfect for this show.
So I've been following you.
I was really excited about the NASA thing.
And then, you know, that got pulled, and we'll talk about that soon in the interview.
But I appreciate that.
humility, but you very much, I love having you here, and it's an honor to have you here.
So thank you for making the time.
Thank you. Thanks for having me.
It's a real pleasure to meet you, by the way.
You too.
You're an American hero.
Thank you.
You too.
All right.
Everybody starts off with an introduction.
So here we go.
Jared Isaacman, billionaire, entrepreneur, adventurer, and commercial astronaut.
CEO of Shift 4 Payments, a company you started when you were just 16 years old.
and now a global leader in payments.
Founder of Draykin International,
world's largest private tactical fighter fleet
for military training.
Record-setting pilot with over 7,800 hours
in a jet aircraft, that's almost one full year in flight,
commanded Inspiration 4 in 2021.
The first all-civilian spaceflight
orbited the Earth for three days.
Then you led the farthest mission into space
since the last Apollo mission on Polaris Dawn in 2024
where you conducted the first commercial spacewalk.
You were nominated to be the NASA administrator
until pulled just days before the boat.
You're a husband and proud father of two children.
And our friend, Scott Boutit, connected us,
and he just had really good stuff to say about you.
And so like I said, I'm really excited about this.
I have nothing but great things to say about kid.
Awesome, awesome human.
But so before we get in, I want to do a life story on you
and just starting all the way back from childhood
and go through everything that you've accomplished in your career.
But I do, I've got a question that a lot of people have interest in.
We talk a lot about the moon landing.
Was it real?
Did it happen?
I want to ask you, why have we not been back to the moon?
Why has man not been back to the moon since?
well i would tell you right from the get go i'm uh 100% in the camp we absolutely uh went to the moon
and what a travesty that we haven't been back and um i can tell you how we got there we had a
we had a great cold war rivalry um our ideology versus theirs and four and a half percent
of the federal budget um and the will of the nation is what is what happened um and once we got
there and we went a handful of times and collected enough moon rocks. That was an expense that was
no longer palatable. I will say for 35 years, as taxpayers, we spent over $100 billion to
return to the moon. 35 years later, we haven't been able to do it. That's obviously a big
problem that we need to fix. There's probably a lot of underlying reasons associated with it,
but what would those reasons be? You know, it's interesting. And, and
some of it goes to like even the competitiveness that we have with, you know, kind of the competitive
nature of our country, our great geopolitical competitor in China that now has incredible
second mover advantage on us.
So what I mean by that is like take the Manhattan Project.
You know, we know something can be done and we resource it accordingly.
We gather up the best and brightest and we set up locations all around the country to contribute
and bubble up to this grand endeavor, which was to build the atomic bomb.
Well, we did the same thing during the space program.
You know, we opened up Stennis in Mississippi to do engine work,
and we set up Marshall Space Flight Center in Alabama
to build the actual rocket in Kennedy Space Center.
What a great location to shoot a rocket going eastbound.
And you staff up all these great locations,
and it all bubbles up to a singular purpose,
and then you get it done, and then what?
You know, the mission kind of loses its way a little bit.
And then everybody goes into self-preservation mode,
and it's like, well, let's move on to other broad-based science or other things,
lots of little things that we're going to entrench ourselves into.
And then what happens is when you are ready to re-rally those resources back towards
their original goal, it means a lot of people changing what they've been accustomed to
for some period of time.
And it gets really hard to get that machine rolling again.
And I say all this in relation to China because they're doing the same thing now
where instead of trying to repurpose facilities and resources
that have kind of lost their way to some extent over the years,
they're literally doing the same thing
of just setting up shop here, setting up a location here,
all in optimal locations, all getting the right people and talent
and then resourcing accordingly and willing it into existence.
It's basically doing exactly what we did during the Manhattan Project,
during the great space race, and doing it now,
having learned exactly, you know, our approach to it.
It puts us at a disadvantage.
Man, it's just...
I mean, we were talking about, you know, the potential helium-3 on the moon at breakfast and mining asteroids.
I've talked to a lot of the people, a lot of other people that are very interested in this stuff.
And it's just, it's just so weird that we haven't been back there to explore.
I mean, and we're talking about going to Mars.
Yeah, look, we need to get back to the moon.
Not, you know, I wouldn't have mind if 35, because some people can take the position.
of like, we already did it. We did it long ago. And I have two reasons ago. One of them is,
hey, we don't know what we may find that has economic or scientific or national security value,
like helium-3 that could change the balance of power here on Earth if we get it wrong. But mostly
because we said we're going to do it. You know, you can't go back. Every president for 35 years
has said, we're going to return to the moon and have a path to Mars. And as taxpayers, we spent
$100 billion trying to do it. The moment you say that, you've just committed the nation
and our resources, our national prestige to getting something done,
and if you fail to do it, there are ramifications.
There's consequences to it.
So if we never said that, if 35 years ago we said,
you know what, we've done it, and we wish the Chinese and the Russians the best,
and we'll celebrate when they get there,
but we're setting our sights on Mars,
then it wouldn't bother me as much.
I would still think we should do it because we don't know what we might find
that could change things, but we didn't.
We said we're going to do it,
and now we spent 35 years and a lot of money doing it,
we better get back there.
I mean, where is the $100 billion gone?
Oh, what did it go to?
It's gone into continuously repurposing old space shuttle hardware.
So first it was the Constellation Program,
which repurposed shuttle rocket booster,
shuttle main engines,
and then that program was canceled,
and then reimagined as SLS,
which is the current name for NASA's internal big rocket program,
and that is also repurposed shuttle hardware.
So, you know, RS25 engines that were designed, you know, in the 1970s are still what's going
on SLS and that's what they went on the space shuttle.
It's actually this continuously repurposing old hardware just so you don't ruffle any feathers
with any manufacturers, any congressional districts, keep jobs where they're at.
It would be the equivalency of taking the P-51 Mustang into Desert Surveillance.
storm because well we got to keep the plants open geez geez all right a couple we're going to
dive into this pretty thick here later on but um a couple of things to knock out real quick before we
get going on the life story one of the things i have a patreon account it's a subscription account
a lot of these guys have been with me since the very beginning when i was doing this out of my attic
and here we are two studios later.
And so one of the things I do is I offer them
the opportunity to ask each and every guest a question.
So this is from Richard Beamer.
How close are we to affordable space travel
for the general public?
And based on your expertise,
what is the projected timeline for its availability?
What an awesome question.
And we are so close.
I mean, you know, and what is that like relative
to the 60-some-odd years of human space exploration.
We're within five to 10 years at the absolute most.
I mean, think about it.
Up until now, up until rather recently,
every time we've put humans in space,
we've pretty much thrown away some portion of the rocket.
So, you know, with the space shuttle,
we threw away the fuel tank,
and then it was an incredibly expensive
multi-month overhaul of the vehicle
in the Saturn 5.
that took astronauts to the moon, we threw the whole thing away, nothing was reusable.
And now, with Falcon 9, you've got rockets that land on ships, and we reuse them within
a couple weeks. The dragon capsule that I flew into space, I flew on the same one twice.
And prior to, prior to me flying on it, NASA's crew one flew on it. And all of that has reduced
the cost to put mass and humans into orbit materially. But now where does it get to the point
where every day anyone can go and do it,
and it's as affordable as like maybe a really expensive vacation.
That's when you don't throw any of the rocket away.
And everything is reusable.
Just like you're taking your family to Disneyland,
you don't throw any portion of the airplane away.
So Starship, that's that monster vehicle.
You know, it's the size of a skyscraper,
and it's twice as powerful as the Saturn 5 rocket that took us the moon.
That's what you saw SpaceX catch with the tower.
And that's so the top half is reusable,
and the bottom half is reusable.
And you can fit 100 people on it.
I mean, that's your 737, Southwest,
now boarding next flight to orbit type thing.
Now, because it's entirely reusable
and it has to propulsively land on Earth,
there's a lot of things you need to figure out
and get right, so it doesn't have a bad day.
But, you know, at SpaceX's, you know,
pace of operations,
the iterative design philosophy,
the factories that are making them hardware rich,
five, ten years away,
you're going to see lots and lots of spacecraft going up and down.
It's going to be a light switch moment for humankind, really.
Man, you know, I talked to my wife about this, and I'm like, you know, I told you,
we have toddlers and all.
I'm like, you have young kids, too.
And I just, I like thinking about it.
I tell my wife, I'm like, I think our kids are going to space.
It won't be long, and there'll be field trips.
You know, this is it.
And, I mean, you think we're that five.
to 10 years from that?
100%.
I mean, you have our generation's most accomplished entrepreneur with more resources than any human
being has ever accumulated in history.
And, you know, his, I want to say a singular focus, but the guy's trying to solve a lot of,
you know, the world's greatest challenges, a lot of the world's greatest problems.
But one of which is making life multi-planetary, and he knows the only way you can do that
is with fully reusable launch vehicles, and he's not doing it to send four.
people to Mars. He's doing it to send thousands of people, tens of thousands, literally making it
the first human outposts in space. And he can will things into existence. I mean, and he's got
the greatest talent this country, you know, is produced. I mean, it's going to happen. And then when
it does, for sure, my kids, your kids, I mean, seeing astronauts on the moon and Mars will just be
the beginning. Yeah, yeah. I'm excited, man. I'm real excited about that.
me too but i mean what do you think will how do you think the world will change when i mean just from
just from seeing everyday people get the opportunity to go to space see what it is feel that
see the earth from a farm and how does that change humanity well i think there's a couple
different ways to approach this and one of which is just to simply say like i have no idea like
And the reason being is, like, the analogy I love to use is in the 1980s, cell phones were so
damn big, you had to build it into your car, right?
And they were just car phones.
And they were incredibly expensive, and who had them?
Like Wall Street traders, like, you know, rich guys had them, right?
Who could have ever imagined in the 1980s when they were setting up the first cell towers
and installing cell phones in cars, you know, that a couple decades in the future, every 13,
year old would have it and some of the most valuable companies in the world were not the ones
that were building the towers or building the phones, but the ones that created a piece of software
on your phone so you could order food at two in the morning or connect with your friends from
high school or college. No one could have imagined that. No one could have imagined like social
networks or something in the 1980s when they created cell phones or cars. Well, you're going to have
a similar kind of light switch moment when Starship comes online and when Blue Origin, you know,
what Jeff Bezos is working on with New Glenn, and the cost to put mass in orbit is so low
that we can start experimenting, you have no idea what's going to come of it, like what that
orbital economy will be. I mean, maybe we're going to find, you know, cancer-treating drugs
or tumor-killing drugs that are up there, or maybe it is mining helium-3, which unlocks
fusion power here on Earth, maybe. I don't know, maybe it's mining asteroids. Maybe we're
manufacturing in space and that, you know, like everyday trade jobs are doing maintenance on
hardware and lower orbit. We don't know.
Because up until now, the cost to access space has been so damn high that you couldn't experiment.
It had to be sure things.
You know, you want to put a spy satellite up.
It's going to cost a half a billion dollars.
You're going to spend billions on it.
You're going to get it right.
It's could take years and years and years.
And when you put it up there, it's going to last for 20 years.
Now they can, you know, in a single Falcon heavy, they can distribute 60 different satellites.
You can experiment.
You can try new things.
Wow.
So, like, so much is going to change when this is going to happen.
And it's hard to predict what that picture will ultimately look like.
We just can't, it's hard to even imagine it.
I mean, what about just from a person, like a personal perspective?
I mean, you've been up there.
You've seen the earth in, you know, from an aspect that not very many people get to see it from.
And so, I mean, is that experience, you know, when we start sending masses of people up just, you know, just for tourism?
I mean, is that, is that going to change humanity, do you think?
Did it change you?
So, they call this the overview of fact.
of like when you go into space and you look back on your home planet, you know, how does it,
how does it change you? And I think, no doubt, you are changed in some way or another.
I do think a lot of what people say is kind of, you know, almost like recycled talking points
from, you know, the 60s and 70s. Because if you're one of the first astronauts, you know,
in the 1960s, you have not a clue what Earth looks like. I mean, now we have, we have high-resolution
HD cameras looking down from the space station. You can go on YouTube and, you know, I, you know,
your kids can look at what Earth looks like from there.
And generally speaking, it looks the same.
You know, it radiates light a little bit more.
It's certainly impactful to be there and going through it.
But it's like a long way of saying,
I don't think you need to go to space to know to be a good person
and not destroy our planet or fight wars over lines drawn on maps from long ago.
What impacted me wasn't any of those things.
Like, I felt like I knew those things before I went there.
It was being farther away from Earth and anyone's gone in a half century,
and it's no different, and it's no greater distance from than Pennsylvania to North Carolina.
It's seeing the moon come around, you know, unexpectedly and catch me off guard and say, like,
why haven't we been back?
Because that's not that far away.
I mean, we haven't even scratched the surface in our solar system, let alone the Milky Way galaxy
or the trillions of other galaxies out there.
It's not, so I'm saying like that impact from being up there, at least for me, was not looking back on Earth.
It was looking out there at what is.
is the greatest adventure in human history and saying, let's get going.
Like, what it's taking us so long? Let's get out. Let's get back to the moon. Let's get to
Mars. Let's continue onward because what we'll find will change everything someday.
Man, I mean, what's it feel like out there? It's got to be, I mean,
I mean, do you feel like this small? I mean, absolutely. You feel like like you were like
literally a grain of sand in the most vast desert you could imagine. Like we are so small.
We have literally just scratched the surface, not even put, like, our little toe in the biggest, grandest ocean you can imagine.
That's why it is the greatest adventure ever.
There are trillions of galaxies out there, and we haven't, as humans, gone farther than our moon, you know, which is our next to our neighbor.
I mean, really.
So it's a pretty awesome adventure.
Yeah, yeah, it'll be interesting to see what it all develops into.
One more thing.
Everybody gets a gift on the show.
Those are Vigilance Elite Gummy Bears made in the USA.
Legal in all 50 states.
You don't have to worry about feeling weird or anything.
Okay, good.
I can give them to my kids.
You can give them to your kids.
Thank you.
Hey, thank you so much.
I mean, they might be illegal here pretty soon when RFK gets going.
Okay, got it.
Yeah.
But there's, right now they're legal.
So, but, all right, Jared.
Well, I would like to, like I said, I'd like to do a life story on you.
I mean, I was also telling you at Breakfast, you know, watching young people dive into their confidence and leave school, drop out of high school to start companies.
I mean, it's amazing.
And I was telling you, you know, I've had two younger guys on that are doing just incredible things.
And you're one of those guys.
We're one of those guys.
So where did you grow up?
I grew up in Westfield, New Jersey, and I was either, whether you call it the accident or the happy surprise, so my siblings are much older than me.
My brother is 15 years older than me, my sister is 13 years older than me, and my other brother's 8 years older than me.
And so when I was growing up, they were all out enjoying their lives.
And I was raised to be really independent.
So I guess this all just meant I hated high school because I was wondering, why am I here raising my hand to go use the bathroom or something when, you know, my brothers are out kind of make, and sister, they're making lives themselves. They're kind of on their own doing things. So I was able to convince my parents to let me leave school early. I did have to get my GED and I did go, I did go to college and get my degree later on. But I wanted to kind of get out there and start making my contributions in the world.
What, uh, I mean, what did your parents do? Uh, so my, uh, my father was an alarm salesman. And, uh, later
when I started my company, he left and, uh, and joined me in the basement as we, uh,
kind of created what would become, uh, Shafour. And my mother, she was, uh, she was like a college
recruiter for a while, but, um, mostly she was just taking care of the family. Right on. Um, so
shift four, it's 16. I mean, that's when you left. So the idea must have come,
earlier. I mean, when did you get into this? Oh, it's a really interesting story. I was working at
so I started this kind of basement computer repair company with a buddy of mine who was just
leaving for college. And to create leads, I went and worked at Comp USA. So it was like a big
computer retailer. I think they're out of business now. They've been out of business probably for a long
time. I remember it. And unless somebody like literally needed to buy something off the shelf,
I was just solely using it to, like, create leads.
Oh, you need to build a website.
It's like, well, we can do that, or you need to fix your computers or something.
So this guy came in from a company called Merchant Services, and this is in New Jersey,
and they were doing credit card processing, and this is in 1999.
And, you know, they were trying to, they had some virus issues in their computers,
but they were also trying to figure out what this whole e-commerce thing was,
of being able to, you know, enable people to buy things on the internet.
And so I, you know, that became a lead for my company.
I was like, well, I have nothing here to sell you to fix this.
But here's my card.
And so they called and my father had to drive me because I didn't even have a driver's license to their offices.
And they offered me a job.
And I convinced my parents to let me leave school and do it.
And it's not because, like, as a kid, I dreamed of someday growing up and running a fin,
tech.
Like, nobody's like, when I grow up, I want to be, I want to run a payments company.
No, when I grew up, I wanted to be an astronaut or a pilot, which is way cooler.
But I learned enough.
So I wound up, yeah, I wound up going, working there for six months.
I learned enough about this kind of emerging industry that I thought maybe you could do it
a little better, quit that job, started, shift for my parents' basement.
14 years later, I bought that company, by the way, so came back full circle, merchant services.
Nice.
And, yeah, I mean, now we have like 6,500 employees.
We process payments in six different continents.
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How do you convince your parents?
to let you drop out of high school to start a company.
What helps if you're not a good student right from the get-go,
so they felt like I didn't have much to lose, you know?
You weren't a good student?
Are you kidding me?
I hated school.
I looked for any excuse to not be in school.
I mean, if there was like a fire drill,
that to me was a pass to just skip the rest of the day.
It was like, you know, teacher at, where were you?
It was like, ah, the fire alarm went off.
I don't know, I got, you know, discombobby.
I was in the library.
I see you.
So I was pretty, I was doing just enough not to like, you know, flunk out.
So my parents were losing patience with my, you know, academic progression anyway.
And the deal was, like, you're taking care of yourself.
We're not supporting you.
And you got to get your high school diploma.
And you have to promise this you'll go to college.
So I was like, deal.
And that's how it went.
Right on.
I mean, how fast did you start seeing success?
Pretty fast. We were, which by the way, I mean, everybody, you work really hard. And what a better, what a great time to start a company, by the way, when you're a teenager. You have no other responsibilities in life, no family, no kids. So you could truly burn yourself out just working. So there was a lot of hard work, but there was certainly luck throughout my career. The ball bounces your way every now and then. And I mean, we were profitable pretty fast. Yeah, I mean, it went pretty. How fast?
like within probably two years we were we were profitable wow so 18 you're crushing it
do you think your parents were surprised totally i was surprised i mean no i never my expectations
were pay rent and pizza and beer in the city in new york uh for weekends like that was that was
really where you know my my goals were calibrated at so the fact that we grew as much as we did as
fast as we did. I mean, we were the, geez, what was it, 2003, so maybe four years after
starting the company, we were the six fastest growing company in America.
Are you serious?
We had four years in a row. We were in the Inc. 500 list of fastest growing companies in
America. I mean, we were, you know, it's not that by the way that we were that good.
It was just everybody else was so bad. All the big banks in the late 90s,
in early 2000s, all they cared about was pushing credit cards on people. They just wanted
to get consumers to spend. And the belief was that businesses, no matter how painful the
process is or was, would conform to how consumers wanted to spend. So they put all their
energies, resources, and innovation into pushing credit cards on consumers, and the whole
acceptance side was neglected. So it wasn't hard for us to create a lot of operational efficiencies
and, you know, good process, workflow.
And as a result, we were just winning customers over, like, left and right.
And you saw that at age 16?
It was just so bad the way everybody was doing things.
Like, it was everybody was outsourcing everything.
The banks just could care less about acceptance.
I mean, the example I used to give all the time is if, you know,
if you were 18 and you wanted a credit card in 1999,
you went on the Internet, and in 60 seconds,
you got an instant approval of credit cards in the mail.
But if you were a pizza shop in 1999,
and you wanted to accept credit cards, the paperwork was like getting a commercial mortgage.
Like, it was 60 pages, you know, copies of your passport, everything was like, like, what do we,
like, why is this so painful and complicated?
How did you know this at 16?
Because I was selling it.
I mean, this is what I was doing when I worked at that company, merchant services.
Like, I had exposure for six months of trying to sell the service.
And I was like, it's pretty bad.
It wasn't their fault.
It was just the industry neglected it.
And now FinTech is, you know, it was really hot.
And, you know, companies like Square and Stripe and everything, like, have, you know, all, you know, broken barriers and innovated in their own rights.
But for the longest time, like, it was just a boring bank industry that no one, you know, gave a crap about.
I mean, I'm just curious.
I mean, did your parents, I mean, did they see, they had to have seen the level of potential that you brought?
I just think they thought I'd be less of a, like, again, an academic embarrassment if they put me on another track in life.
Um, but, uh, they were very supportive. Like, the, like, I would never, like, uh, like, I would never permit this with my kids. Like, this is, the path I went down, you know, 99 times out of 100 ends bad. Like, I should be pumping gas in, in New Jersey or something. Um, so, uh, like, I'm all for like the well, you know, paved road, um, you know, through higher education to get to success. And that's certainly the road my kids will be on. So my parents were a little, um, they were out of their mind to ever let me go down this path. Um, you know,
but I'm grateful they did.
How did you get into Draykin?
So I always wanted to be an astronaut.
I mean, when I was five years old,
this is how I got into an aviation career.
When I was five, in kindergarten,
I would check out books from the library,
like the elementary school library
with picture books at the space shuttle.
And I remember telling my kindergarten teacher
someday I'm going to be an astronaut.
She said, she'll be watching in her
rocking chair one day. When I did wind up becoming an astronaut, she had already passed away,
so that she didn't get to see it. But I was always enamored by space. And I built my first
computer so I could play flight simulators. I became a pilot because I thought that's as good
as it's going to get. I'm a realist, like not going to be struck by lightning and become an
astronaut. I went to like the space camp for aviation. It's called the Aviation Challenge
at Space Camp. And, you know, I was 20 years old, I guess, where I was.
four years after I started my company where I was waking up on my keyboard
and I was just burning myself out because it was going, you know, 20 hours a day.
And I told my parents, I was like, I need a hobby.
I'm going to start flying.
And I started flying.
And I knew I wanted to fly jets.
So I built time as fast as I could.
I was flying as much as I could everywhere.
Moved to jets, then gotten to ex-military aircraft.
I met a bunch of really awesome people in that world that, you know,
some of the greatest military fighter pilots in the world that I got exposure to.
Dale Snort Snoggrass, like Naval Aviation Legend.
There's a cool picture of an F-14 passing in front of an aircraft carrier, like in Knife Edge.
That was him.
You know, Jive Kirby, I was flying the F4 Phantom demo, Stoker Gustafson, Slickbaum, just off the Thunderbirds.
And basically, we put together an airshow team.
in 2010 and 2011, and we had seven jets doing like a blue angels type routine.
I was flying right wing in the diamond, and we just had all-stars that I was able to learn from.
But we were having the absolute time of our lives, because that was a year of sequestration,
where the blue angels and the thunderbirds were stood down.
So every show in the country was begging for us.
And it was like this horrible rock star life where you're flying constantly, you're drinking late,
You're eating terrible.
Everybody's gaining like 30 pounds.
And we were like, this is going to end poorly for us if we don't kind of pivot to something a little more commercial.
So we went around the world and bought up about 100 fighter jets and created this commercial adversary business where we were just professional bad guys for the Department of Defense.
And that's where Drackin came from.
Man.
I mean, how do you, where do you purchase a mid-28 or any of these guys?
I mean, where do you get them?
That was part of the fun, is you, you know, so we were flying air show fighters that are like basically trainers, and they're great for, you know, making noise in front of the crowd and doing loops and rolls, but they're not, you know, like, they're not tactically relevant. They're not a credible threat. So you're not going to train the DOD against it. So we had to fly around the world, the different countries that had fleets of aircraft that still had life left on them, that were, you know, that were relevant, you know, that were threatening. So they had a radar. You could.
put a training sidewinder on them, and that you had enough quantity of that you were a useful
training aid. You know, one or two jets isn't going to make a difference, right? And that's hard.
That's the whole secret sauce of the business, was finding aircraft, you know, that were safe,
credible, and sustainable, because generally speaking, when a country is done with their jets,
they've squeezed everything out of them because they know whatever comes next is going to cost
like 10 times more, like an F-35 or something. So we...
We went to New Zealand.
We bought the entire New Zealand Combat Air Force.
They made a political decision to not have any offensive capability.
So we bought their A4 Skyhawks, which were same jets used in Top Gun, but they were upgraded
with F-16 radars.
We bought Mirage jets from France, from Spain, from Jordan.
We bought L159 Alcas from the Czech Republic.
We brought MiG-21s from Poland.
It was awesome.
It gave me a whole other side, because by that point, I already had, you know, 11, 12 years of business experience.
So now I was getting into, like, dealing with governments, which meant everything I learned in business, you just throw out.
Because this is nobody, nothing makes sense in this world anymore.
Everybody's motivations are different.
And when you're buying fighter jets from other countries, by the way, like, people can talk about, you know, our government is corrupt.
Our government is not corrupt compared to any of these other countries that you're out there doing business with.
where, you know, it is, you've got to jump through some hoops to be able to buy military
hardware from there. But it was a, yeah, I mean, it was a great learning experience, put it
that way. So what did it, I mean, can you talk a little bit about more of what the company
did, Draykin? Yeah, sure. So we, our job was basically to be professional bad guys. So, you know,
or the op-for, if you will, or aggressors, these are all, you know, kind of the terms that
would be used.
So the history behind this is the US used to have organic aggressor
capability, and they still do, but they used
to have a lot more of it during the Cold War.
And the reason was, they could use their own aircraft
to do it, generally speaking.
And in order to handicap, say, an F-16,
so that it could simulate, I don't know, a MiG-29, for example,
in the early 2000s, or the 90s, maybe they wouldn't
use Afterburner. Or maybe they would set their radar scope to like a 40-mile scope or something.
And everybody still got good training out of it. The pilot who was being the red air,
the Russian or the Chinese or the Iranian or something, was still getting good training out of it.
The problem that started to develop over the last 15 years or so when we created this business
in 2011 is the 4th-gen platforms like F-15, F-16, F-18 were reaching the end of their service life.
and the replacements were continued to keep slipping to the right, the F-35.
So every hour remaining on that airplane became precious.
You didn't want to waste it being the bad guy when you might need it for national security reasons.
Second, because they're old, they cost more.
So it costs a lot more to use it as red air.
And then third, our capabilities had developed to such an extent that in order to simulate being the bad guy,
you had to turn off a lot of systems, so much so that it became negative transatlantic.
And then when 5th gen came, so stealth fighters, like the F-22 and F-35, it was even more negative
training to take such an airplane that costs like 80, 90,000 an hour to operate and pretend
to be a Russian MiG-29 or something.
So all of this was the demand signal for kind of a dedicated force of red air where it was
our jets, so it didn't matter how much time we used against it.
They were foreign aircraft, so they looked different, which is pretty important, and the pilots
could focus just on being
Russian, Chinese, Iranian fighter pilots
instead of taking away
from blue air training. And
out of nowhere, it became this
multi-billion dollar industry.
Wow. Wow.
How many jets are there
within the company?
I mean, Dracan, we, you know, our peak
had over 100 fighters.
And we did air to ground training
too for J-TACs.
We supported
the Navy special
you know, special operators at Valen, we would drop, you know, like Mark 76 and training
ordinance for J-TAC controllers and such on the ground, because, again, you didn't have to use
an F-16 or an A-10 that you might need to use in other parts of the world when it was, you know,
kind of more about, you know, who you're talking to and what's falling off the airplane than
it was the actual airplane type. So we got to do a lot of really cool missions.
No, kid. I spent a lot of time out of...
out at Fallon when I was in.
I wonder if we worked together.
Draken still has that contract even today, you know, supporting the guys up at Fallon for, yeah, J-Tech training and such.
How do you think you, I mean, how do you hold up against some of these legendary fighter pilots you were talking about?
Me, personally?
Yeah, are you flying out there?
We used to fly together all the time.
I would tell you that snort snagrass was unbeatable.
I mean, I think, you know, he was just born at a different time.
I mean, he led all the Tomcats into Desert Storm.
He was unbeatable.
He was the greatest, like, BFM, you know, that's here in a phone booth night fight kind of guy.
He, nobody could beat him, and he was an unbelievable mentor.
He, yeah, I think he taught me a lot about just who I am.
but also how I fly.
And, but, you know, I mean, there's, I've certainly had some successes against, you know,
some of our, our less skilled fighter pilot friends, but.
I'll bet.
So, I mean, you were up, you, I mean, as the owner of the company, I'm you were up there
training our fighters.
Yeah, I mean, not anywhere near as much as, like, the dedicated line guys.
I mean, who did we, we hired people right out of the aggressor squadrons because they
were very current on the tactics and the threat.
But I did fly in it from time to time.
I was part of a big exercise at White Sands Missile Range.
We did a 16 turn 16, and we just got these new aircraft in from overseas,
and I was the first one checked out in it, so I had to fly in it, which is awesome.
Nice.
That was cool.
But I was in A4s when we were fighting the first kind of F-35, the Jot,
the joint operational test team at Edwards, flown in some A-4s at Fallon, brought the first L-159.
to found, but nowhere near, like, the guys that were doing it full-time every day.
So, I mean, being up there against, you know, our own, how do you feel? You feel pretty
safe? So I'll give you two sides to this. In the beginning, so when we first started the
company, 11, 12, 13, 14, 15, I felt really good. So F-35s were just coming online, and I remember
we had four, we had a, it was supposed to be just a 4V4, which means we should just get killed.
A4s against four F-35s from the joint operational test team, and three of the F-35s ground
aborted. So it became a 4V1. And we had used up the entire airspace. I mean, we had,
we had jets high, low on the deck, and from different angles. And this one F-35 just went around
and made easy work of everyone, just dispatched everyone super quick. And, um, but what, um, what I
thought over time, and this kind of comes to my only real, like, political position that I
really truly care about, which is just the competitiveness of the nation, I got concerned
when, you know, we were coming up with ways that could really create problems for blue air
that were, that if, like, if I could afford it, if I could afford to do these things to our
aircraft, then certainly the North Koreans could and the Iranians, but definitely the Chinese,
are going to be able to do it. And we started to be very dismissive of.
it as, you know, well, that's not going to be a problem because if it is, we'll do that.
But those were things that, but there were a lot of other scenarios where we didn't apply
that kind of thinking or logic to it.
And every year that started to go by, the Chinese threat specifically was getting better
and better and better.
I mean, really, over, you know, again, a five-year period of time, you know, you're simulating
a mid-21 to a, you know, dramatically improved flanker.
I almost like, I use kind of the SpaceX example sometimes on it where when it comes to China,
what we think we know is already so dated, you know, two years is a long time in that world.
It's the same thing with like, you know, with SpaceX.
You're like, well, four years ago, they just, they barely put astronauts in space.
They've done over a dozen, you know, commercial space missions right now, you know, in just a short
span of time, not to mention caught a skyscraper with chopsticks from a building.
Like, things happen quick, and we started to see that a lot.
I think in the last years I was at Draken, which made me really, I mean, really concerned
about their pace of progress while we were stagnating.
Man, man.
How did you move into SpaceX?
I mean, you got two enormous companies, and now you want to go to SpaceX.
How did that happen?
Well, so in 2008, I did a world record flight, and it was just speedover.
around the world. It was just a fun challenge. I wanted to do it and did also to raise
funds and awareness for the Make a Wish Foundation. And when I came back from that, I was invited
to go to Bikonar, Kazakhstan by Peter Diamannis, who's like a serial entrepreneur, but
very forward-thinking, brilliant guy, like MIT, MD. And he's like, do you want to come and see
this commercial, you know, it's a Soyuz launch from Bikonar, but it's going to have a commercial
astronaut on it, Richard Garriott. And I was like, do I want to go to Russia, Kazakhstan, to see
a rocket launch? Yes, of course. And I wound up going with a lot of the early pioneers of the
commercial space industry, including a lot of the SpaceX guys. And by the way, that is so cool.
If you go to a rocket launch, a human rocket launch at NASA at Kennedy Space Center, the closest
you'll get is about three miles away. When you go to see the Russians send their astronauts
up from Kazakhstan, you're like a par three away.
Are you serious?
You're like 100 yards away.
The night before the launch, you can touch the rocket,
whereas we're surrounded security at KSC,
and you're basically in this trench.
Now, maybe they've upgraded it since 2008,
but all I was thinking at the time is,
man, this thing goes even a little bit off course,
like it's game over for everybody.
And if you know a little bit of the history,
kind of the Soviet space program, that's happened.
It's happened more than once.
But anyway, I met a bunch of the folks there,
And, you know, I heard about this thing, you know, Dragon, the Dragon spacecraft.
I was like, well, I'm a pilot.
And if the time ever comes where, you know, the goal always was from the get-go to make life
multi-planetary, you know, to open up space for the many instead of the few.
And I said I'd be interested.
And I just kind of knocked on the door periodically.
And in 2020, you know, they answered.
And they said, yeah, we're ready.
And, man, in just a matter of weeks, we went from nothing to the first commercial space mission being announced, inspiration for.
Man, that's incredible.
You know, I didn't realize, I thought that the Make-A-Wish Foundation was after this.
So I would like to talk about that now.
I mean, so you wrote a jet, drove a jet, piloted a jet, around the world, and how long did that take?
Sixty-one hours, 50 minutes.
It was, honestly, it wasn't that hard.
it's actually, it's not the piloting or the flying.
We did it because it was the first all-glass jets
where he was starting to fuse a lot of information together
in the airplane, so you didn't need to do as much
flight planning on the ground.
And since these record flights, it's like NASCAR,
whether you're stopped or you're driving, it all counts,
like you're getting fuel, so it's all the logistics.
So can you get all that done, so you're not sitting on the ground
for too long, fueled up, and in the air,
and do your flight planning essentially in the air,
in order to beat the record.
And I was like, for sure, with all this extra information, you can.
But any, like, good adventure that I've been lucky enough to go on,
you try and always, you know, couple it with a really good, you know,
philanthropic effort.
Try and, you know, try and pay back what you're fortunate enough to be able to participate in.
So Make a Wish has been a charity I've worked with for a long time.
Once kind of the, you know, the space missions came around,
and the platform got a lot bigger and you could raise a lot more money,
I kind of pivoted to St. Jude Children's Research Hospital, and that's where we've, you know,
mostly been focused on for the last few years.
What draws you to that?
So I know how lucky I've been in life, and it's pretty, I think it's pretty damn important
to acknowledge that from time and time, too.
You get a lot of successful entrepreneurs that, you know, you make all your own luck.
It's like, you make some of it, okay?
I mean, you're born in this country.
You know, you were born healthy.
You know, there's a lot of families that, no fault of their own, just,
dealt really shitty hands in life, you know, no, you know, no child should be, you know,
faced with the possibility of never growing up to get a driver's license or go to college
or something. So I think that's always kind of gravitated towards those, you know,
those causes that try and help people going through, you know, absolutely horrific times.
And with Make a Wish, I mean, it just seems absolutely terrible that an organization like that
needs to exist in the first place to give a child with like, you know, a life.
threatening illness, a last wish, right? But if they're going to be in those circumstances,
do whatever you can to try and help. So that's kind of what paired me with Make a Wish for a really
long time. You got exposure to St. Jude Children's Research Hospital, where when you understand
their mission, which is that no child should die in the dawn of life, and if they're successful,
you don't need to grant as many wishes. And I thought, you know, with Polaris, you know,
it was a big enough platform that you could raise enough money to kind of make a real dent at it.
so that's kind of how it went down man i love that about you that's i mean when i read that
that was just that's so cool is is is all the philanthropy that you do focus towards children
yeah uh pretty much entirely so um you know you've got the the not so you know happy side
of it which is what make a wish in st jude try and try and do which i mean look it's happy as
they keep increasing the survival rate of childhood cancer those are good days um but there's kind of
like the other side, which is more of the, I don't know, I guess the inspirational side, like
where I try and help out a lot. So Space Camp, I've donated an awful lot to that organization.
I think it's a national treasure. I went there. You know, Senator Sheehe, you know, I'm a Navy SEAL.
He went to Space Camp seven times as a kid. It is a place where you get experiences as a kid that
you can't get in the classroom, that you can't get playing a video game. And it's all the things.
that we need for, you know, to ensure the competitiveness of our nation.
I mean, sure, it's started as space camp, it's space camp, it's aviation challenge,
it's robotics camp, it's cyber camp.
I mean, all the areas you want to expose kids to things that they, you know,
that they wouldn't get anywhere else so that when they grow up, they can kind of
contribute to the grand plan, if you will.
So anyway, that's another area I try and put some resources towards.
I love that.
Where did you start the Make-A-Wish Foundation flight?
I started in Marstown, New Jersey, actually.
Marstown, New Jersey.
What was, I mean, where did you go around?
Oh, it was, you went up through Canada.
So these were in light jets, so you can't cross the Atlantic or the Pacific direct.
So I went from Marstown, New Jersey, up to St. John's in Canada.
From there to the Azores.
We had different routes each time, but basically from the Azores, usually either to Spain or to Sardinia.
From there, like Greece to the Middle East, like Cairo or Luxor.
Um,
Oman,
Pakistan,
India,
Maldives,
Thailand,
you know,
Indonesia,
South Korea,
Russia,
all times
had to go through
Russia to get to
Alaska.
It's pretty cool.
It landed at a big
like naval base
they have out there,
which is pretty wild.
So.
Right on,
man.
That sounds like
a hell of a lot to do
in three days.
I was a lot of,
I mean,
it was tons of fun.
All the adventures
are fun,
you know.
Yeah.
Yeah.
Well,
get back to SpaceX. So they call you up and say, we're ready to do this. I mean, how does that
feel? I can't believe how fast it went, honestly, and also their willingness to even take it on.
So at the time that Inspiration 4 was created, which was October of 2020, they put two astronauts
up, Bob and Doug on Demo 2. It was a demo flight. It wasn't even the return of operational
capability to the United States after the shuttle was retired. That was NASA crew won. That came
after. So like, I mean, to have the confidence, which by the way in itself is another travesty that we
went 10 years in this country with having zero capability to put astronauts into space.
Ten years when the shuttle was retired in 2011, we had to send all our astronauts via Russia.
So you think of all the things of SpaceX and Elon and, you know, the good and the bad, they
returned operational capability
United States for sending astronauts into the high ground
to space. It's like absolutely a
travesty that we ever let ourselves be in
that position in the first place. But
yeah, I mean, I just think of like the
confidence they must have had
in October of 2020 to say
yeah, we're ready to do this
and we're ready to do it with civilians
and they did and they signed up for it.
And then NASA crew one launched.
Crew one came home.
NASA Crew 2 launched.
And before even NASA Crew 2 came home, Inspiration 4 launched.
So it was about kind of nine months from when we said we were going to do it
to when we went to space.
What was the train up like?
What's the like getting in there?
The training was awesome.
I mean, it was, I've said my two missions to space, the time I spent on the ground
with the teams at SpaceX and also NASA, too.
I mean, they played a part in both missions just as good as going to space.
I mean, to be surrounded by the best and brightest that are focused on such an amazing mission.
You know, we talked about St. Jude's mission of no child should die in the dawn of life.
Well, how about, you know, the world is a more interesting place when you can journey among the stars?
That's a hell of a vision, right?
It certainly calls to me.
But, yeah, you spend a lot of time, my first mission, you had to get all the academics.
So everything about the vehicle, you know, the Falcon 9 launch, the ground systems.
It was death by PowerPoint for a really long time.
And then you get to the fun stuff of being in the simulator, the centrifuge, and we went, you know, out into the mountains.
You know, I brought my crew up Mount Rainier, and you're flying fighter jets.
You know, you're doing all those kind of good things to get comfortable, being uncomfortable, and build mental toughness.
And in addition to, yeah, you know, a lot of time in the simulator.
And then eventually you go.
But it's a great journey.
I mean, so what was the first mission about?
First mission was just showing could be done.
I mean, that was, it was kind of simple in that regard that, you know, up until that point
in time, you had to be one of those lucky few that got struck by lightning to get, essentially,
to be picked to be a NASA astronaut or a Russian cosmonaut and to show that you didn't have to be
a perfect human specimen.
I mean, you know, the crew we assemble, which was a really inspirational crew, and I didn't
know any of them.
It all came together, you know, essentially with, you know, with luck, the stars aligned, where
Our medical officer was Haley Arsenault, childhood cancer survivor, 10 years old, has bone cancer.
All she wants to do is live and grow up and be able to help other kids in the fight and work at St. Jude.
So that's exactly what she did.
She beat the odds.
She grew up.
She became a physician assistant at St. Jude.
Never knew she was going to get a phone call one day and said, hey, you want to go to space.
She was a great astronaut.
Still the youngest American to go to space.
First astronauts have a prosthesis.
She has a prosthesis in her leg from her bone cancer.
So anyway, she was totally awesome.
The first black female pilot of a spacecraft, Dr. Sion Proctor, I mean a story about perseverance.
She did everything she could.
Her father worked in Guam on a radio site talking to the Apollo 11 crew.
So he was a contractor for NASA.
She did everything she could to be a NASA astronaut.
I mean, she's a PhD geoscientist.
She's a pilot.
She's done analog astronauts where they lock in, like, shipping containers.
She was runner-up in NASA selection process.
Just never gave up, ultimately, got picked.
And then Chris Sombrovsky, Air Force veteran, worked on ICBMs
and wound up riding a rocket and was a space camp counselor.
So it's just really awesome crew.
But the goal was just to show it could be done.
You know, you pick these people at random, get it right.
Don't screw up.
You screw up, you set back this whole idea of commercial.
commercial space for decades, but you get it right and all the fun missions will follow.
And we got it right. We did a bunch of science. We raised a quarter of a billion for St. Jude.
And then now the fund missions have come. Yeah. Yeah. I mean, what's it like being up there for the first
time? It's still like getting struck by lightning, by the way. Yeah, it is. It is. It is.
But it is, I'll tell you, just on like kind of the health side of it, everybody feels different.
So that's like, you know, you can talk about the amazing views and how that impacts you like we were talking before about the overview effect.
But the simple reality is when you're, we didn't evolve to exist in microgravity.
So everybody feels differently.
And the bookends here are you feel like you're hanging upside down from your bed and it lasts for days.
but otherwise pretty functional.
That's your best case scenario, by the way.
That's your best case?
The other end of the spectrum
is you get incredibly sick
like horrible motion sickness
and you're throwing up for a couple days.
And that's just, that's the reality.
600 and some odd people, almost 700 have been to orbit.
Just more than 50%,
we'll get what's called space adaptation syndrome
and there'll be a mess for a couple days
until they get some shots and they feel better.
And it has nothing to do with whether you get motion sickness on the Earth.
You can be like this amazing fighter pile.
It can fly upside down, loops and rolls and whatever,
and you could be a wreck in space for a couple days.
So, yeah, everybody feels different in orbit,
but it's worth it.
How did you feel?
I'm one of the lucky 50% that does not get space adaptation syndrome.
So for me, it was simply you're hanging upside down from your bed.
All your fluid shifts up towards your head,
your cheeks puff out a little bit.
You know, you kind of this little bit of a brain fog for a day or so
because you're getting used to the, you know, increased intracranial pressure.
But yeah, that's what it feels like.
Well, all right.
Well, what about from a personal aspect?
When you reach it.
Well, you feel incredibly fortunate and lucky to be there
because you can't get to space without gaining a great appreciation
for the thousands of people that it takes to put you there
and to bring you back safely and to know the history of the tens of thousands, the hundreds of
thousands that came before you over the last 60 years to figure all this out for it to even be made
possible. So I don't know anyone who doesn't get up there floating around looking out the window
and doesn't have this profound sense of gratitude for everybody that helped contribute to make it
possible. Man, that's just like, were you married at the time? Yeah, I've been married since 2011.
How did that, I mean, what's your wife say when you're like, I'm going to go to orbit?
I'm going to go to space.
My wife and I have known each other for a long time.
So we were on the same bus and middle school together.
She was like the 12th employee at my company.
We started dating in like 20, you know, I mean, 24 years ago, I guess.
Like when it was still cool to date in the office, you know.
wouldn't you?
And so she's been
here for all the adventures,
amazingly supportive of it.
She'd probably prefer
I don't go back to space.
But I was explaining, like, relative to flying air shows
18 inches apart from other aircraft,
like, I think it's safer.
So I think that argument held.
She bought off on that, huh?
Yeah, so.
Right on.
So you come back and then
are you right back in the program?
So, um, we had set out all these goals, uh, for inspiration for. We were going to put together
an inspirational crew. We are, um, we're going to do three days of science, uh, in space,
and we are going to raise a bunch of money for St. Jude. And, um, when we came back, we checked
all the boxes, except we were, uh, a little short on, on the fundraising goal. Like we, like, we, like,
we didn't, we didn't set a 50 million dollar goal, 100 million, we said we're going to raise, you know,
over $200 million for St. Jude. And we were close, you know. And I felt, I, I, I, you felt pretty,
pretty accomplished. And as we were getting, we helicoptered from, from the ship that picks up the,
the capsule in, in the Atlantic. And we were going back for some medical tests. And somebody on their
phone, we didn't have our phones, was like, hey, Elon just tweeted and said, you know,
congratulations, inspiration for, put me in for 50 million.
And it was like, there wasn't a dry eye in, like, the vehicle.
Like, we were, we were all pretty emotional because we now far surpassed the goal.
And I was like, well, this is it.
Like, we set the bar high.
We got everything done.
Like, it's over now.
And then a couple weeks later, I got invited to go to Star Base, Texas.
And this is Rainier Brownsville.
And Elon was there.
there, and I got a tour of Starbase, and it was a religious experience. I'm telling you,
like, I have to imagine that's, like, what it was like when people first set foot on the
grounds of, like, Los Alamos. I mean, not to, you know, using a Manhattan project analogy here,
but, I mean, that's what, when you're talking about making life multi-planetary and going to
Mars, it's a Manhattan project. Like, and that was, like, that's where it was all beginning,
you know, building this city out of, out of the dirt, and, like, there's nothing around, and they're
building massive launch pads and factories for vehicles, interplanetary spaceships, wild stuff,
going to a planet other than our own for the first time. And I was just totally, totally hooked
at that point. And basically the message was, is, okay, we showed we could do it. Now let's actually
build the damn thing. And he's like, what are we going to need? We're going to need to go farther
into space and we've gone in a while because it's harder. Farther you go out there, the harder it is to
come home and the more hazards there are. There's debris that are, I mean, there's a billion
bullets flying around in orbit right now. And even a one millimeter piece of aluminum at orbital
velocities will shred a spaceship. No, couldn't. Yeah, 100%. We put the space station at 400
kilometers approximately for a reason because the debris that's out there will burn up in the
atmosphere very quickly. As a result, though, we have to keep boosting the space station. But you go
farther out there, especially in the 1,000 kilometer regimes. You've got micrometeoids and
orbital debris, paint chips that fall off old satellites, or worse, satellites that were blown up
in the ASAT test, will create this, like, just debris field, and it's flying around at eight
kilometers a second.
So you have debris, you have more radiation, which avionics don't like.
Human bodies don't necessarily like it either.
And then in order to come home, you have to put that much more energy to go farther out,
which means you have to take that energy to come back.
So he's like, we've got to go farther out there if we're going to go to the moon and
Mars. We're going to need spacesuits. He's like NASA's been using the same space suits for 40 years.
They literally cost billions of dollars. I mean, it's hundreds of millions a year and just
upkeep on those suits every year. And they leak. There's a situation on the space station where
you had an astronaut where their helmet was filling with water from their liquid cooling suit.
I mean, like, totally scary stuff. So he's like, we're going to need to build suits for thousands
of people. And no one's done it in decades. So we've got to do that. And we're going to need
to test new forms of communication because, you know, our various, you know, legacy infrastructure
of ground stations and Tidre's satellites are 40 years old.
And I was like, I'm totally in on this.
And Kid Poteet, who he interviewed, he was too.
He was the mission director on Inspiration 4.
And obviously flew up with me on the last one.
Like, we were totally sold on the idea of a developmental program.
And yeah, so I guess about a month or so after I came back from Inspiration 4,
we created Polaris program and we were back at it.
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Man.
So what's it?
I mean, how is it being in orbit?
It's awesome.
I mean, like I said, once you get past the hanging upside down from your bed feeling for a little bit, it's, yeah, it's amazing, man.
You know, everything happens, like, quickly, but, like, time melts away.
You, you're just always busy doing things.
Your schedule is planned out to the second.
and you want to make every bit of that time count.
Like, you know how lucky you are to be there.
And if there is an experiment that could help with cancer treatment
or, you know, the human body's ability to endure microgravity
for long periods of time, like you want to play your part in learning that.
And you do.
And it's kind of amazing how much time you have to get stuff done
because it's not like you have to go far or anything.
Like, people were telling me, oh, yeah, you know,
when you brush your teeth, it's going to take five times longer than it is.
on Earth. It was like, I literally floated a foot, grabbed the toothpaste, and then I
floated a foot and I picked up an experiment. Like things just, you're just sailing through
things super fast, you know? Right on. I mean, what is it? You keep bringing up, you brought it up
a couple times at breakfast too, you know, cancer treatments in space and what we might find.
Why do we think the cure for cancer is in space? Are we on to something there? Or?
I don't know if we think it. I think it's more we hope, right? And it doesn't, we, we
We hope that there is something that we will find in space, in the unique environment
of microgravity, or, say, on the lunar surface with lunar regolith, that unlocks an
economy that creates a justification for us to be there.
Because right now, we are there mostly for national prestige.
We have an international space station.
We have American astronauts there.
I think if you ask anyone at NASA, like, what is the single greatest thing?
accomplishment we've gotten from the International Space Station. They won't say cancer-treating
pharmaceutical drugs, even though we've done lots of experiments. They'd say, we kept astronauts
alive continuously. We've had a continuous heartbeat on the International Space Station for nearly
a quarter of a century. It's hell of an accomplishment, but you need that orbital economy
to pay for everything we want to see in space someday. Like, it can't be perpetual taxpayer
funding. So whether it's cancer-treating drugs, like you can use microgravity to create crystal
formulations of pharmaceutical compounds to increase the density of the treatment, which might
increase the effectiveness. People talk about 3D printing organs in microgravity. But none of these
things have, like, truly come to fruition yet. People talk about 3D printing organs. Yeah.
What? I mean, microgravity, what can we do there that we can't do as easily here on Earth?
But there's lots of experiments, but nothing that has cracked the code yet on it. But if we don't
figure it out that it's perpetual taxpayer funding and frankly space since the beginning of the
space program has always faced the debate of how can we invest so much money here NASA's budget 25
billion year whether it's 25 billion or 20 billion dollars which it may may wind up track
you know tracking towards how can you justify that when people are starving here and people are
homeless and and health care is about like we are always going to be faced with that debate and
it's a good debate to have until we we kind of crack the code and figure out how to
extract more value from being in space than we put into it. And when you figure that out,
whatever it may be, that's when you're in your Star Wars future, man. That's when you've got
multiple space stations and people on the moon and Mars because you're mining helium-3 or
printing organs. Everybody's got a spare kidney in their fridge. You know, it's like we've got to
figure that out at some point or else we're just going to be on the taxpayer, you know, pipe for a long
time. Could you just help me understand? I don't nothing about this, microgravity. I mean, why
are we, why are we experimenting with cancer drugs and 3D printing of organs in space?
What is it about space that is motivating people to do this type of research up there?
Yeah, I mean, you know, kind of the lack of gravity, which is not even the really right
way to say, because you've got a lot of gravity.
Gravity's keeping you pretty much where you are, right, when you're in orbit, just allows
you to do things without the influence of something, you know.
being held on the table like that. Now, this is what the big, you know, the big brilliant minds
are working on. I can tell you 100%, they have done crystal formulations of cancer treating
drugs in space, which kind of, you know, increases the density of the treatment in a way
that hopefully increases the effectiveness of it. I don't know if it's conclusive or not yet.
How far have they come with 3D printing in space? Not organs, but they do, they are doing various
biotech experiments in space, but nothing's come to fruition yet after a quarter of century.
And that's kind of the problem. We need to fix that and accelerate it pretty quick.
You know, also breakfast talking about the For All Mankind on Apple TV.
NASA, if you watch that show, is like the most influential agency in the U.S. government.
Everybody comes to them because they bring in revenue.
You know, it's not just all about tax revenue, and it's from mining helium-3 on the moon.
That doesn't mean that just because there's an Apple TV show on it, that, you know, that's a credible path.
We do believe you can get more power out of, you know, through a fusion reaction with helium-3, you can get more power out than you put into it.
But the point is, you need something like that.
You need some orbital economy in order to build that future.
And that show does a pretty good example of it.
Well, I mean, it seems like, you know, this year I've talked to a lot of, a lot of.
lot of innovators. And a lot of these guys, I mean, we talked to AstroForge mining
asteroids, talked to Steve Kwasse, who has a company called Space Built with
assemble satellites and stuff like that in space. He was talking about helium-3 on the
moon, and he said that China was mining that. We talked to Bajibat, who is building solar
solar power plants up there in hopes to beam solar energy back to Earth from space.
Talk to a lot of people about this stuff.
I mean, it seems like as far as the civilian-type population, the innovators, I mean, they're gung-ho on this.
And you know what else I'm seeing is I'm seeing all these younger innovator types who they're all jumping on the mission to Mars train.
going to need power. We're going to need food. We're going to need, you know, all these
things. And they all seem to be, I mean, Elon has just inspired so many people, you know,
with this mission. And it's cool to see the younger generation start building businesses to help
accomplish that. It's fascinating. We need a thousand more companies like SpaceX across the whole
like aerospace, defense apparatus, every major technology endeavor.
across any important domain should have its SpaceX-like equivalent,
at least a couple of them in there.
It's what we need to ensure America's leadership and free world.
Let's talk about the spacewalk.
Sure.
What was that for?
So we tested out the first new space suit that was made in 40 years,
and SpaceX and their team of really brilliant engineers built it
in about two and a half years.
And it's pretty important because people have been working a really long time to build replacement NASA suits and it hasn't happened yet.
Now it was like, I would say, I mean, look, it was a lot closer to a min viable product than it was something you'd walk on the moon or Mars with.
But I can tell you, I recently just got an update on it and they've already gone two generations beyond it,
which will be cool to see them test at some point in the future.
Just like I mentioned before, you can't go to space without feeling gratitude for everybody who helped you get there.
And when I was, you know, in that suit outside the dragon vehicle, I was thinking about all the people that worked really hard to make it and test it to keep me safe.
I mean, there is nothing between me and death other than a visor.
And, you know, and I had no doubt that what they built was going to perform well and that someday some evolution of it would be used on the moon or Mars.
And that's what's going to happen.
But I guess maybe you just say, like, it's a lot different than looking out the window, you know.
I really, I was like, it's going to be a, you know, it's going to be a visual thing.
And it's a, it's an everything thing.
You, I mean, you've got all these sensations coming together.
You know, you're cold.
I mean, we were, we were really cold.
You're using two-thirds of your oxygen supplies being used to cool you.
And I think SpaceX erred on really cold because a lot of the old air-cooled suits from the 60s,
all those astronauts overheated and they're sweating in their eyes.
They could barely get back in the Gemini capsule.
So, well, we were plenty chill.
You know, you got all these pressure, you know, changes and sensations because we were operating
at 5.2 PSI.
You've got exertion because you're working against a suit at 5.2 PSI.
You're hearing the airflow, and then you're getting the visual stimulus, and it's all coming
together at once, and it's pretty wild.
What are you walking on?
So I was on the top of the spaceship.
So they built this mobility aid.
They called it the Skywalker.
And it's basically they removed the docking mechanism from the dragon and replaced it with this.
It's just a metal structure to hold onto you. You need mobility aids because if you're not holding
onto it, you're screwed. And yeah, we were just going through a series of tests with the suit
to figure out its mobility and dexterity because it's, yeah, it's not easy to move into it when you're
pressurized. How long are you out there?
the whole operation from when we vented the entire vehicle the vacuum to repress was about two hours
and change but I was outside for about eight minutes eight minutes are you tethered yeah yeah
you're you're definitely tethered you don't want to just float and not hold on anything
like we you know people are like well in the 1960s they were floating around I was like well
we learned not to do that in the 1960s you can't fix something you can't repair something
and you can't build something if you're just floating in space.
You need to, the goal is to figure out how to maintain points of contact
and get things done where you overheat and you don't accomplish anything.
But yeah, we were pretty limited because we had no airlock
and we needed to use consumables to keep us alive outside the vehicle
and consumables to repress the spaceship.
And you had to maintain some fault tolerance for something to go wrong.
We basically had a limited amount of time.
you could be outside.
I mean, the hatch is getting ready to open.
I mean, you have to be, I know you jump out of planes, you're a pilot, you fly crazy
airplanes, I mean, but this is different.
It's different.
Not a whole lot of people have been floating around out in space or left the craft, let
alone there hasn't been a lot of people that have even been to space.
Yeah.
And so, I mean, what's going through your head when the hatch is getting ready to open?
open. Don't screw up. Um, so, you know, it was totally before about that, that great fighter
pod who was really, um, he was one of my best friends. They really died in a crash, uh, about, uh, four years
ago, but Dale Snort Snogras. And a lot of the attitude I have in life and everything has been
being mentored by him. And it was, yeah, I was just thinking when I was on the launch pad, I was thinking
whatever it is, you, you, you just got to hack it. And that was a mindset from him. And then when I was
getting ready to open the hatch was just
don't F this up man
like it's just like you don't want to screw up
you don't want to let everybody down
who got to help you get to this moment
but I do have a funny story about that hatch
so when we start
our journey training for Pilarist Dawn
we were doing a lot of we would be suspended
from these offload harnesses
that would replicate microgravity
and we were doing hatch drills
because pretty much the most important thing
was closing the hatch
You can't close the hatch, can't repress the vehicle, you probably won't survive reentry
because you run out of air or you burn up.
And so you're doing all these hatch drills.
It was all manual.
And then, you know, SpaceX, and, you know, with all their, you know, big, bright minds,
we're like, we just can't get this wrong.
So let's build a, let's build a hatch motor.
Take the human out of loop.
They're really big on trying to minimize the dependency on a human being.
I get it.
They're engineers in that.
But as humans, we do like to have some control.
And, say, built this automated hatch motor.
It probably took, like, six to nine months to do it.
And then a couple weeks before we launched in the mission,
they're like, hey, we've been running some numbers,
and we don't think it's going to work.
We think there's going to be enough residual pressure
coming out of your suit, venting from your suit,
across the surface area of the hatch,
that it's going to be, it's going to be, it's going to overpower the hatch motor.
So you may need to do it manually.
And I was like, man, we spend so much,
time building on this thing for that to happen. Well, when I was there and I got the go to open
the hatch, so I opened the hatch, and they're like, okay, unseat it, let's get the last
of the residual pressure out. I do it. And they're like, okay, let go. And I do it. And it's a
goes right back to flush with it. And I'm just looking at it. And then, like, it was like a two
or three second delay. And they were like, your go for manual hatch opening, which was cool,
because you got to actually partake and do the human thing and open the hatch. And next thing you
know you're just staring out into the you know just the black void is that what you saw it's a
black void at first until i climbed out and then i was i was facing earth but i only had um
i only had a couple minutes before um we were in the eclipse and most of the uh the motion test we were
doing the suit was facing away from earth so you're just looking out into the just the just this dark
blast sky you know sky and it definitely was a
What I was feeling was like a very unsettling, like almost it's a threatening environment.
Like we don't know what's out there, but it's all very hazardous to us humans and proceed with caution.
Kind of like the explorers and the 1400s, it's like, I may sail off the end of the earth because it's flat,
or there might be a monster there waiting to eat me, but I'm still going anyway.
And that was kind of the feeling I had looking out into the darkness of space.
Damn.
Would you remember what continent you were looking at when you walked out?
Sure. I was just coming over Antarctica, actually. I was in the very South Atlantic. I know because it was the highest radiation point of the orbit that I was out in. We were at 750 kilometers, so almost like double the height of the space station during the spacewalk. And the poles are a higher radiation environment. So actually my heart rate sensor burnt out from rad hits. But yeah, I remember looking at it as we came over, it was just a port.
of Antarctica going into the South Atlantic ascending time feel different? Did it feel like a short
eight minutes, a long eight minutes, or just eight minutes? Time just melts away in space no matter
what. Inside or outside it was just just time just disappears. You're just always busy doing
something. You're never you're never wasting a second and as such like it just all kind of
melts away. What was it like coming back in? Back inside the spacecraft? Yeah. You know it's
It was disappointing.
I would have loved to have stayed out there more.
But I had another crew member, you know, Sarah Gillis,
and she was due to go out.
So I didn't want to eat into any of her time.
And unfortunately, she was out the entire time we were in Eclipse.
So she didn't get really any view of Earth at all.
But, yeah, it was, we both wish we could have stayed out there so much longer.
So the eclipse, I mean, it was just darken the earth?
Mm-hmm.
And so you couldn't see anything?
Right, because of where we were coming off of Antarctica in the South Atlantic.
So if you're over Europe, you know, are parts of Asia or North America at night, you can see all the city lights and everything, and it's gorgeous.
But where we were in the orbit, it was, there just wasn't much in the way of, you know, city life.
Man.
What did Scott say when you came back?
Oh, man, what was the first thing kids said?
I don't know.
I remember once we fully repressurized and I opened my, we all opened our visors.
I was like, whatever that smell is, that's what space smells like.
And honestly, it just smelled like fresh nitrogen and oxygen.
But other than that, we probably all remarked about how freaking cold we were.
I mean, we were shivering.
We all had these core body temperature pills.
and we were all cold.
Yeah.
But, you know,
incidentally, obviously,
kid and I were on that mission together,
but our two crewmates, Sarah and Anna,
they're the women who've been farthest away from Earth ever.
Pretty awesome.
And they're brilliant engineers.
Really great people.
So when you come home,
do you guys have a debrief with Elon
and the crew that made it possible?
Elon wasn't in the debriefs.
He was incredibly engaged in all of the major milestone meetings that lead up to a launch.
So you have a launch readiness review and a flight readiness review, and it's like a full scrub of everything, including all the risks, all the open risk issues that could potentially play a part.
He was super involved in that.
And he showed up to the launch, too.
We didn't see him because we were already strapped into the vehicle.
But the debriefs are usually with the engineering teams that own various components.
So you'll do kind of a general crew ops debrief, and then you'll go almost system by system, which is awesome.
Like, it's a fun thing to be involved in and kind of share what you learn from it, back to the people who are going to try and make it better and more reliable.
But, yeah, Elon wasn't in the debriefs, but he was definitely in all the big.
decision-making points leading up to launch?
What kind of questions, I mean, were they asking you?
Other than the systems and stuff that none of us are going to understand, I mean,
there has to be a ton of questions about what was it like?
You know, they don't generally ask things like it is usually more technical or operational-related.
The first thing, which is immediately after you come back, is anything that poses a safety
of flight risk to the next crew up or those that are up there on the space station that
have to come home.
So they'll go very specific into things that they need to know immediately.
So like my first mission inspiration for, the toilet broke.
And it was not something we did to it.
There was a line under the floorboards that disconnected.
And you had really no indication.
Bottom line is like urine was just getting sprayed into the body.
half of the vehicle, it's down, you know, kind of, it's not like you'd see, like, you know,
like pee floating around. It was, it was trapped underneath the vehicle in a bad spot,
and it was mixing with this chemical that accelerated the corrosion on the, you know, on the,
like the pressure vessel of the vehicle. And in three days, that combination of urine and
that chemical actually started corroding portions of our space.
Oh, wow.
So they needed to figure that out immediately because NASA Crew 2 was on the space station.
They used that toilet, and that vehicle's up there for six to nine months, and it's like,
if the same thing happened to them, we could have a serious problem with the integrity
of that spaceship.
And the same thing did happen to them, and there was a lot of corrosion.
And SpaceX had to immediately go to work and do a bunch of testing to make sure that that
hull of that vehicle was capable of surviving the conditions of reentry.
So that becomes like kind of day one priority or something with like the parachutes or an avionics
issue.
Like they want to get to the things immediately that affect human life.
And then some of the nice to have stuff that you don't need to figure out right away,
that's like two weeks later, four weeks later, and it's kind of more technical.
Gotcha.
Did you, I mean, have you spoken with Elon since you got back?
Yeah.
What kind of questions did he have?
You know, he didn't, I mean, I, you know, I was nominated for the NASA gig, like two months after I got back from the mission.
And it was shortly thereafter when I was at Mara Lago where I saw him for the first time.
And we were more talking about things like, you know, some of the things he was trying to tackle with Doge where he thought that there was, you know,
efficiency or bureaucracy that was, you know, impeding, you know, agency progress within the
government. It was kind of conversations like that. We honestly didn't even, you know, people
assume, like, we talked about like Mars at all costs, you know, forget the moon, everything
else, or conversations like that. We never really did. It was just more about, you know,
kind of government inefficiencies. I don't think we ever talked about Plera's none.
Wow. Are you serious? I mean, he was, he always moves on to trying to solve the world's biggest
problems. Yeah. And he's trying to solve a lot of them across his companies, but at that time,
he was trying to solve the national debt with an interest payment that exceeds the Department
of Defense budget. That was his priority. So we really weren't talking about players. Yeah. Yeah.
I mean, when it comes to, you know, getting to Mars and everything that SpaceX is doing,
it seems like everything is geared towards that. I mean, what is it going to take to get there?
Yeah. Well, I would say first, like,
They're very good at setting very challenging goals at SpaceX, but when they achieve them,
the capability has utility beyond that.
So, you know, they need, you know, they want laser-link communications between spaceships,
but, you know, that also creates a giant mesh network across their constellation of starlings,
which allows them to sell more consumer broadband and solve airplane and ship and vehicle internet connectivity,
mentioned people living in, you know, sparsely populated areas, which contributes revenue,
which further funds space development. So my point is, like, they kill a lot of birds once
don't. So yes, there is certainly an organizational objective of making life multi-planetary,
and our best first stop on that journey is Mars. But when you have a fully reusable vehicle
that tops off and refills propellant in low Earth orbit, you can send it anywhere. You can send
it to the moon if you want. You can send it past Mars. It doesn't necessarily even have to have
people on it. You could use it to send cargo for point-to-point DOD applications. You could put
giant telescopes in them and send them to every corner of our solar system and have them be like
these prefab, you know, discovery probes because you basically have factories building these prefab
spaceships. So the point is, even though it's like kind of a Mars focus, what they will get from this
breakthrough of fully and rapid reusable vehicles has like broad utility. But man, Mars is a
of a goal. It is a Manhattan project. And there is a lot of things they're going to have to get right.
And a lot of things the government is going to have to do. It can't all be on SpaceX's shoulders.
And for that matter, all those other entrepreneurs who were talking about, they're all trying to
contribute to that effort, lots of problems that need to be solved in order to make that dream
a reality.
I mean, what year are we looking at here? Is there a time frame?
I mean, I would say that within 10 years, we'll have astronauts on Mars.
I mean, you know, I don't want to ever, like, you know, be out of sync with some of Elon's timetables.
But I think he's even recalibrated to, you know, probably 2030s are a lot more realistic than,
but we're going to see some cool stuff along the way.
Like, do I think in 2026 he's going to send some starships with some optimist robots on them
and maybe some will crash into Mars, maybe some will land?
Totally.
And that's going to look pretty awesome when you see a robot walking around on Mars, even if it happens in 28.
So it's not like we'll be without some entertainment.
over the next, you know, 10 years until this happens.
I mean, what are some of the biggest obstacles?
I mean, we've got power and or fuel.
We've got food.
We've got oxygen.
I mean, you just brought up all the debris that's going.
I've never even thought of that.
I mean, are there going to be refueling points?
Are we going to stop on the moon?
I mean, what are the big problems that we need to solve before we, he does that move?
I think there's two, there's two problems.
that we're going to have in order to make that dream a reality, there's a lot of them.
I mean, look, they're going to, the reentry of starship into the Mars atmosphere,
propulsive landing, all that.
But let's just assume they solve all those things.
How do you come home?
So that's the biggest issue I think of is, like, you will be able to get astronauts there
a lot sooner than you would be able to bring them home safely, and there's no one-way missions
in this work.
If someone wants to sign up for a one-way mission to Mars, auto-examination.
excluded from the list. See you. Like, you were absolutely the wrong mindset to go on an endeavor
like that. So you have to have pretty high confidence that you can get people back. Right now,
if SpaceX were to do this entirely on their own, they're going to need to mine propellant,
manufacture propellant on the surface of Mars. And they need a lot of power to do that. So you need
either a nuclear reactor on a starship to create surface power, or you're going to need
like endless football fields of solar cells, which I don't love that idea, because I don't know
what, I mean, you're going to have a million optimist robots maintaining it and cleaning off
all the dust and everything. Not to mention, the farther you are away from the sun, the less
utility there is in solar power. So I think it's going to be nuclear. And you're going to need
to make propellant to top off your starship to launch back home. And if you see starships launch here
on Earth, they have this whole stage zero, which is the whole tower with, you know, a thousand people
working on it under an atmosphere in one G, and it still doesn't go always great. So, you know,
pulling off that operation to refuel and come home is going to be hard. I think the government can help
with that by kind of working on what no one else is capable or willing to do that's hard, the
near impossible, which is start building nuclear electric propulsion, nuclear spaceships.
I think it's absolutely the right mini Manhattan project for NASA.
Get America underway under nuclear power and space.
If you can do that, you take a lot of pressure off of the in-situ resource manufacturing.
And then number two is going to be the human.
People are going to have a hard time.
So nobody likes talking about this because it takes away the hero image of the astronaut.
But you've had plenty of astronauts freak out.
space. They've tried to kill their whole crew before. Like, um, there is a, there was a lock put on
the space shuttle door, uh, for that reason. Somebody tried to open the hatch more than once and
take everybody out. There's a lock on the dragon space capsule for that reason. Uh, that was a
carryover from that time period. Um, it's happened to, uh, to Russian cosmonauts. It's happened to
American astronauts. And, and this is during a time when most of the American astronauts were
the best of the best coming out of the military. So, um,
It is a unique environment, and that stressor has caused people to crack.
So that's the psychology of it.
Now, when you're in low Earth orbit, you can be in the water in 90 minutes.
So you're 90 minutes from being on a helicopter ride to a cheeseburger,
and people have cracked in space.
When you're on the moon, you're two and a half days from coming home.
And when you're on Mars, you could be anywhere from 6,000.
to nine months to more well over a year before you can come home so and that's and like and think
about it from like again from you get into like the psychology of it when you're in lower orbit
you look out your window you see big earth when you're on the moon it's still the blue the blue marble
when you're on mars it's a blue speck in the sky so like um we're going to have the you know
psychological issues to deal with when you send humans to that environment and then you're
going to physiological issues which is we didn't evolve to be in suburb
1G. So astronauts spend six to nine months on the space station. They come back to Earth. They're a wrecked
for two weeks. Right. So basically, that's the equivalent time of going to Mars. So when they get to,
you know, a reduced gravity environment and they step off the spaceship, are they going to
throw up in their helmet? What if we have to do surgery? Nobody's done surgery in space. I mean,
it's only a matter of time when you're on multi-year missions, but someone's going to have a
ruptured appendix maybe or something else that goes on. So like all the things that make us
who we are, are going to be highly problematic on journeys of two years plus in space.
And we've got to figure that out.
You know, at some point, that doesn't mean you have to have it for the first four people.
But if you're talking about sending thousands of people into space, there's a lot where, you know, onto an outpost on Mars.
There's a lot from the psychology and physiological side of being a human being that we have to figure out.
Man, it's just something I can't even fathom.
I mean, sending thousands of people.
to another planet when we haven't we haven't even sent anybody back to the moon and how long has it been
60 something years yeah you know and i mean what is the 53 years what do you think the plan is
i mean when when we okay we got a thousand volunteers we're going to we're going to mars i mean
what does that look like well first i mean again i think you got to have some of the most highly
screened individuals possible and um because we haven't learned anything about this yet like i i'm
The analog ashen environments where they put people in, like, shipping containers and these bubbles, like, look, you do learn some things from it.
But you open the door, you're on Earth.
You know, if somebody's having a heart attack, you open the door, like, they're going to, you know, it's, you always know in your mind that, you know, underneath you is your home planet.
So, you know, it's just a, it's going to be that psychological stressor, not to mention all the physiological issues, you're going to have to.
pick some highly screened individuals that are capable of going on that mission, you have
to know for sure that you have a way to bring them home.
There are no one-way missions on those first ones.
You get that right, and then you can start building up that outpost.
Look, in terms of the technical skills to go, whether it's the moon or Mars, the incremental
velocity, whether you're going to the moon or Mars, is negligible.
So if you can build the spaceship and top it off in low Earth orbit with tons of propellant,
you can send it to the Moon or Mars.
The only difference now at this point is habitability, landing, and how you come home.
And starship should be both for, you know, should be able to work fine for both,
considering both are designed for habitability landing.
But coming back from the moon is a hell of a lot easier than coming back from Mars.
I mean, have you thought about that?
Have you thought about what civilization looks like on Mars?
It's going to be horrible.
Let's say it's, you know, let's say, I mean, if 2030-ish seems to be the goal, what does it
look like in 2050, 2060?
Not much better.
I mean, it's going to be horrible for a while.
That's why, like, there's a, like, we're probably, there's a spectrum here of making
life multi-planetary.
Elon has correctly identified probably the most important goal for Mars is to make
it self-sustaining.
So if someday something terrible were to happen on Earth and the resupply ships stopped
coming, that, you know, our species could continue on.
Totally.
You know, from my perspective, like, Mars doesn't have to become Earth,
never will become anything like Earth, not in any foreseeable future.
It is more of an outpost in my mind.
It is more akin to a research station in Antarctica than anything else.
Like, we need to get there and show that we can get there
and that we can, you know, maintain an outpost and, you know,
generate power and propellant and learn things with the idea that we are going to continue
on, that it is one stop on a much longer, grander journey, because that is not going to be a good
home.
And we also have never faced anything like this in our history here on Earth.
You know, the age of exploration, you get on a ship, you go from Europe to the new world.
Trees are trees, water's water, fish or fish, deer or deer.
You work really hard, you chop down enough trees, you build a bigger house.
You know, you figure out, you know, you're trapping fur and you're selling enough of
it like you're wealthy or whatnot. You could spend your entire life on Mars, you're going to be in a bubble.
Like you're not going to go outside and, you know, chop down more trees and build a nicer
bubble. So life there is not going to be pretty. But we have to go there and we have to have
that stepping zone if we want to go even farther. And we must because even Mars is, you know,
again, it's our next door neighbor. It's nothing compared to the trillions of galaxies out there
that we are inevitably destined to explore. How do you think NASA, I mean, you had mentioned
earlier, that SpaceX shouldn't be the one to have to head all of this up? Where does someone
like NASA fall into play? Yeah. So it's a fantastic question because of late, you know,
there's been this kind of like, do we even need NASA anymore? Of course we need NASA.
Like NASA, a government agency, why are we all chipping in as taxpayers into an agency like
NASA? Because you need NASA to do what no one else is capable of doing. Like what no organization,
nonprofit or company is capable of doing.
And that's what they did for a really long time.
And parts of it today, they still do.
Like the whole planetary sciences side,
heliophysics, like they're doing things
that no one else will do unless we as taxpayers fund it,
and we should because we should want to know
about the solar system around us.
We're highly dependent on our star.
We should know as much as we can about that.
Star can get angry at times,
create solar storms.
It's problematic for our way.
of life on here, we should study these things.
But then there's another side of NASA, and it's about 40% of the budget, that does a lot
of things that SpaceX and companies eventually like Blue Origin and Rocket Labs and Stoke
will be capable of doing.
And that's a problem.
It's a problem when NASA is in the business of building rockets, and so is Blue Origin,
and so is SpaceX.
Because if you're doing what other people are doing, you know, what's the draw?
Why wouldn't you just go work at SpaceX and you get a bunch of stock that's going to be worth
money or go work at Blue Origin, get a bunch of stock that's going to be worth even more.
NASA needs to constantly be recalibrating to do the near impossible what no one else is doing,
and the things they figured out, they hand off to industry.
Industry is going to build rapidly reusable rockets that will reduce the cost to space materially.
Awesome.
I hope SpaceX and Blue Origin Rocket Lab are competing like crazy because they're going to make
their rockets awesome and lower costs.
What should NASA be doing?
What they can.
Build nuclear spaceships.
These companies are not going to play around with highly and
enriched uranium. They're not going to, they're never going to take the liability, nor get the
approvals to launch, you know, nuclear reactors with highly enriched uranium in it. That's
exactly what taxpayers should be funding NASA to do. And in doing so, it will help enable
commercial industry do what they want to do. So that's kind of, you know, the division of
responsibilities, I think. And then, you know, what do you think the most important part of
the journey to Mars is, is it, is it exploration? Is it, is it a fallout shelter if
Earth ceased to exist? I mean, what, in your mind, you know, what is the most important part
or all of the parts of why we should be going there? Well, there's an optimist side in and a
pessimist side. The optimist side is like, who knows what we may find? But if we find that there
was life there at some point in time or another, that'd be quite the development.
When it, um, and actually it's, it's very helpful for funding all things space related
because in my mind, there's only two ways you have the future that, that we all dream of
someday, one of which is an orbital economy that helps pay for it all, or two, find proof that
we're not alone.
Because if you do, the demand for that knowledge will be insatiable and it will fund lots
of, you know, exploration and discovery missions.
So there's, there's possibility we might find proof of life.
the capabilities we will develop in order to get to Mars will become a national asset.
We could use it for transporting telescopes, for mining asteroids, for going to and from the moon
and healing three, like all these capabilities, like I mentioned before, that will need to be
pioneered in order to make that mission possible will be useful.
You build nuclear spaceships, you could have solid-state lasers in space, you could have
a whole new golden dome apparatus as a result of it.
So there's lots of, like, good or useful things that can come from, you know, establishing an endeavor like that.
The kind of, you know, more negative approach to it, or hedge, if you will, is what if something really awful happens here on Earth?
You know, there aren't any dinosaurs around anymore.
So you pick it.
I mean, eventually at some point or another, our star will kill us off.
Or maybe it's a bio weapon or a chemical weapon or a nuclear war or some new virus.
that just appears out of nowhere and takes us out, I mean, we're an asteroid. That's just a matter of
time. So for all those reasons, you know, it would seem to make sense that we should, you know,
hedge our bets a little bit and start, you know, spreading out. Not to mention, I just think it's
our destiny. I think that there's way too much space out there and too much to learn for us to
just sit here the whole time. Yeah. Yeah. Fascinating stuff. Let's say quick break.
And then when we come back, we'll dive into some NASA stuff.
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All right, Jared, we're back from the break.
We're getting ready to get into some NASA stuff,
but I just have a slew of random questions I want to ask you.
One being UFOs, what do you think?
Are we alone?
I think if we're thinking about the entirety of the universe,
there is almost certainly other life out there.
I would bet heavily on that.
I would bet heavily that there's intelligent life out there.
Have they interacted with our planet?
I would say the odds of that are incredibly low.
You got a couple things working against you.
You can't really exceed the cosmic speed limit,
which is the speed of light.
So when you think about the trillions of galaxies
and all the stars and all the planets out there,
the odds they would have found us
and somehow been able to travel to at a time
when our civilization was alive.
You think of the industrial age
that would give off
clues of our existence
just seem incredibly low.
So if I had to bet on the UFOs,
I'd probably put my drachen hat on again
and say it's either our stuff
or it's our adversaries
that are checking in on us.
It's amazing, right?
Like, if the aliens are going to visit,
you could just have those flying
tick-tacks show up over New York City
or somewhere else,
but they all seem to be around
our naval bases and in Las Vegas area.
So I think that probably leads me to believe it's something that's human created.
I mean, you know, it's interesting.
We see all this disclosure stuff starting to hit the government a couple years ago.
You know, they had the first congressional hearing on the UAP stuff.
And you've had a couple, maybe one or one or two more, I think, since then.
But, I mean, what do you think about that stuff?
Is that a big distraction, do you think?
A lot of people thinks that that is a distraction.
or are they screaming for disclosure?
Do you think there's actually something
that they're hiding from us
when it comes to aliens?
No, I mean, look, I don't want to be dismissive
of people's beliefs or hopes or interests.
Because when I was nominated to lead NASA,
I got a million emails from interested people
all around the world,
people in government, out of government,
at NASA, not at NASA,
with all sorts of ideas and theories that range from well-thought-out, good-intended, to crazy.
That's what space does to you.
How can you not when you look out at a – you're laying on a field looking up at the stars,
and how does it not make your mind just wander?
So I think that fuels a little bit of it.
The idea also, like, we do have lots of, like, classified programs,
and our adversaries have lots of technology, too, that they don't advertise
to try and figure out what we're doing
that we don't advertise.
So my Occam's Razor analysis on that is
it's more likely in that camp
than it is all the miracles
that would need to happen
for intelligent life out there,
which I believe is.
Like I just have to believe it
based on the size of the universe
that these miracles that needed to happen
to create life are not that unique.
That certainly would have happened again.
But for it to exist,
to build a space,
ship to travel at the speeds necessary to show up at this particular time in our history.
Super low probability.
So you don't think that there have been beings out, I mean, we hear a lot about bending
space and time and, you know, this whole whatever, that's about the extent of how I can
articulate it is.
Flying through black holes and wormholes and such like that.
Yeah, you're not buying into any of that.
Can we manipulate space and time?
okay i hope we can at some point because we're not going to if we are if if if our limits are
sub light speed like materially sub light speed um we're not going to get very far right um so we're
going to have to be putting putting humans in some sort of cryo sleep and you know they're going
to wake up thousands of years later like that's yeah so my point is like i want to believe that we
will crack the code on some sort of exotic form of propulsion that will take us close to
those kind of speeds simply because we won't be able to explore without it. But I, like, I,
you know, I'm not betting on wormholes or anything anytime soon, but I'd love to see us moving
in the direction of, you know, goodness, like, which would be nuclear propulsion and then, you know,
kind of evolving from there.
What kind of stuff?
I mean, you've been interested in space for a long time since you're a little kid.
And so, you know, I want to go in, what excite you about space?
I mean, we hear stuff about, this is what I watch.
I don't watch other interviews.
I don't really watch much of anything.
In fact, every night I pretty much fall asleep watching something about some documentary about
the universe.
And, you know, they're always talking about dark matter or dark energy.
I mean, what do you, what is it?
It's all of that.
It's everything we don't know.
You think we can use it?
I mean, that's, like, if the question is, like, what is it that, you know, captivates you
or interests you about it all is there is so much we haven't figured out or understand yet,
and therefore it's intriguing.
I mean, I remember, I think it was probably like fifth or sixth grade in geography class
and how bummed out I was looking at a map.
And it's like, man, we found all the damn islands.
We crossed all the seas.
we climbed the mountains, like what's left?
Under the ocean.
Yeah, and then you go and you look up at the stars
and you're like, oh man, there's an awful lot left out there, right?
So it's all of that, it's all those things that we don't understand.
I mean, you know, the same way, like, think of us as, like,
in a primitive way of, like, our ability to understand
the solar system in the universe is like, you know,
natives, you know, that we're carving a canoe out of a log.
Like, I mean, that's the equivalency of what we're,
at right now. So we have no idea what, you know, automobiles and trains and airplanes and
supersonic travel is in our future because we are still hollowing out that log.
So it's everything, everything we might stand to learn that could change, you know, and will
change our understanding, you know, is out there. We just have to find it.
I mean, it's fascinating stuff. I mean, you know, and that recent one they were talking about
how, you know, we thought that we thought that space was just empty and, you know, you
know it's not in our what visual spectrum that to see that is it dark energy or dark matter i can't
remember yeah i think it's dark energy but now they're saying that all that empty space is dark
dark energy and that we there may be a way that we could potentially utilize it you know for
an unlimited amount of energy yeah i mean there's look there there there could be like dark matter
any matter as a form of propulsion that we could use to unlock massive amounts
Antimatter. What's that?
Like, we are going down a path that is far from my area of expertise.
Thankfully, there's a lot of scientists and big brains that are out there thinking about
these kind of things.
But I think where you're getting at is, like, when people try and understand the structure
of our galaxy, there is clearly something else out there that's helping form this
structure that we don't have our arms around yet.
But that's, like, again, that's what's so exciting about this journey.
Just kind of a quick story.
One of my crew members from Polaristan was with Kid and I.
She played the violin in space.
She was raised and she was a toddler to be a classical violinist.
And ultimately she chose engineering and science.
And she wound up being hired as the lead astronaut trainer for SpaceX.
She trained me for my first mission to go to space.
And then I picked her to be an astronaut on Paleristan.
And part of it was she was she was going to bring her violin up to demo this
Starlink transmission where we basically created this flash mob orchestra around the world to raise money for St. Jude.
And she is playing this wooden instrument floating in space and it's really cool.
Anyway, I know it's long story long, but she was since asked to come and perform at an observatory in California, top of a mountain.
It's this 100 plus year old observatory.
And I was like, I'm definitely coming to see it.
And this observatory where she was playing,
which maybe the coolest venue next to seeing her play in space,
was where Hubble discovered that there is more than just one galaxy in the universe.
Right?
So not that long ago, we thought it was just our galaxy
and that all these stars were part of it.
And then through his analysis and his research,
he determined not only is there more than one,
eventually, there's trillions of them.
And every one of those has who knows how many stars inside it and who knows how many planets
inside it and how many of those are potentially inhabitable regions, right?
We haven't even scratched the surface.
So, like, yes, you're picking on a couple areas that we think we might be starting to know
something about.
But there is so much that we don't.
And that's the appeal.
I mean, it's crazy.
I mean, just the vastness.
And, you know, I had Avi Lov on a couple years ago, I think, now.
But, you know, we were talking about how everything is.
getting farther apart, planets are getting fuller apart, galaxies are getting farther apart.
I mean, why is that happening?
I think that's all, you know, part of what underwrites the Big Bang, you know, is the eventual
creation of the universe and that everything is moving away from it.
But that's, well, it's like that's where it ends because, like, we don't really know where
it began either.
What came before the Big Bang and what created it?
um and you know we have this expansion right now is there a contraction again we don't know um
that's a damn good point i never thought about that the uh it's um yeah i mean we certainly know
that the the universe is expanding we've observed that and um but yeah is it expanding or is
i mean that's what i want to know if because if it's expanding then that means there's an edge
to it, right? So what's on the other side of the edge?
Yeah, I mean, this is certainly...
There's a hypothetical conversation.
I'm just curious what you're doing.
The expansion of the universe is what helps, you know,
underpin the Big Bang theory.
But I don't, look, I don't know where it goes.
I don't know what created it, what happened before it.
Or what happens next 14 billion years from that, you know.
Yeah, yeah.
What about black holes?
What do you know about black holes?
Black holes is what happens when, you know, really big stars eventually die.
And, you know, there is just, you basically have such an extreme amount of gravitational influence that not even light can escape from it.
But then Stephen Hawking figured out some things do escape from it.
What escapes from it?
Hawking radiation, actually.
It's named after him.
So basically, whatever is consumed inside this black hole will slowly, over some extraordinary period of time,
gradually radiate out of it, and the black hole will disappear, like it was never there.
That's certainly the limit of my knowledge on it.
I've probably pictured that up pretty good.
I just love thinking about this stuff.
Yeah.
You know, it's like I said, it's fascinating stuff.
And this is, like I was saying, when I got nominated, my inbox just blew up from people all over the world that all had opinions and thoughts and some were appreciated and some really were not.
And you know what I was saying?
I was like, there is no way the Secretary of Agriculture gets any emails like this.
It's like, I mean, but that's what's so cool about it, right?
It's like people do, no matter where you are in the world or at some point or another, you're lying back in a field and you're looking up at those stars and your mind wanders.
And that's such an awesome thing, right?
Yeah, yeah.
Do you think more about your companies or more about space?
Well, you know, the company I started when I was 16 is what helped enable a lot of these things, a lot of these adventures I've been able to go on, my aviation career, my space career.
But, you know, when I was nominated to lead NASA, I had to, you know, you have to do a lot of separate.
from your kind of business affairs. So my president of that company became CEO. So I'm like,
I'm a kind of chairman of the board now, which means like one day a week, you know, a couple
weeks a quarter, I'm really involved. But the rest of the time, you know, I can be focused on
other interests, which this past summer has been the first time since I was a teenager that I
had no real professional obligations. It was kind of cool. And it felt really great to be able to, you know,
still be young enough to have a whole new chapter, whether it was in government service or
elsewhere.
So, yeah, I guess I'd say, like, I don't put it anywhere.
When it was my full-time job, it had to consume the majority of my thoughts.
Now it does not.
I mean, did you, I'm just, I'm just curious business owner to business owner.
I mean, how did, I mean, did that create a tremendous amount of anxiety to walk away?
I couldn't imagine just being a part of it a couple times a year.
No, because the company is in a really excellent place, there couldn't have been a better time to get nominated for to go into a whole new direction in life.
Like the business is killing it.
You know, we have an incredible leadership team, tons of firepower, lots of demand, good opportunity, good products.
There was no better time to, you know, to be able to walk away and feel like, you know, what I helped create long ago was going to, oh, it was going to remain an enduring business in a good trajectory.
So, no, it's not, it's not like, if this was 10 years earlier,
if any other time when the company still had, you know,
you know, an equal number of challenges and opportunities
where you're like, I don't want to risk things going off course
that could hurt people's jobs and livelihoods,
but it's in a good place.
Good.
You know, before we move into NASA, I'm just curious, you know,
how you raise your kids.
I mean, it sounds like you grew up and what sounds like a middle,
class, everyday American home.
I mean, you've obviously done very well for yourself,
created a couple of empires, you've been to space.
I mean, what do you hoping your kids do?
How do you raise them?
I mean, you want them to be...
It's a whole different world, them from what you grew up in.
You want them to be happy, healthy, and good people.
And I think I owe like 99% of that to my wife.
I think I can take credit for very little over how awesome my kids are.
my wife is amazing
but
yeah I mean
you know
you don't want to spoil them
you want them to be very appreciative for what they
have in life and to you know look
to others that aren't as lucky or as
fortunate I mean they you know
again just got dealt to
they got dealt a great hand in life
and need to understand as early as
they can that that is not how it exists for
a lot of others and now
they carry some weight
in life to try and make it better, to elevate other people's lives.
So we try to make sure we teach them that.
How do you teach them that?
How do you instill those type of values on them?
I mean, from my perspective, it's to show them, you know, what the world really, you know,
looks like.
So, you know, I got to take him on an adventure into Africa a couple weeks ago.
And to me, it's like, look, there's going to be, there's going to be a part of this trip that you are going to like and enjoy and you're going to see, you know, zebras and, uh, and giraffes and elephants. And then you're going to see a lot of people that, you know, this is where they were born and they do not have much in life. And the things that you would take for granted, um, would be, you know, would be life changing for them. Like, uh, you know, and it's like, you try and, you're trying and,
find opportunities to educate them in a in that kind of a way as often as possible um yeah i mean
i definitely want and again i'm very lucky because my kids are they're awesome and they're very grounded
um and they do appreciate what they have in life and they i think they are growing up you know
with something instilled in them that they have an obligation now to help others um it doesn't just
happen on its own yeah yeah all right let's move into nassau so
You were selected by Trump to head up NASA and lead that.
And then a couple days before your confirmation, they pulled it.
So let's start at the beginning.
How did these conversations start?
How did you wind up on the radar to head NASA?
Yeah, I mean, I certainly wasn't preparing for any sort of political career.
If I had been, I probably, you know, I would have done some things differently to prepare for it.
But, no, I got a text message in late November.
Well, first of all, let me just say,
as somebody who's been always very apolitical.
And I generally felt like the system is kind of self-correcting
that, you know, the forefathers did a pretty decent job
putting enough checks and balances in place
that things can't get too off the rails.
I don't know, maybe that was just easier to think that way, I guess.
because things can't get off the rails.
But anyway, that's just kind of how I live most of my life.
I never had a reason to be actively involved in politics as a defense company.
Like, you know, our service was in demand regardless of who is in office.
And my fintech, you know, my day job was just never really required any lobbying or whatnot.
So I never really, you know, imagined it coming, although I always felt like I owed this country a great debt for living the America.
American dream, so I would look for any opportunity I could to repay it.
So anyway, back to that, late November, I got a text message from a retired four-star that
I had known a little bit from my time at Drocken and said that, you know, your name is
being kind of passed around for a couple positions in the administration.
And I was like, wow, that's awesome.
I never really imagine, but yeah, I'd be honored to have a chance to serve.
Then I, it's like I had a, um, uh, a miss call and then a text message.
I was actually running in New York and Central Park.
I just, number I didn't, that wasn't in my phone, miss call, it was like, um,
would you be interested in serving in DJT's administration?
And I deleted it because I was like, you know, if it was not a scam, someone that I, like,
it would be like just a little bit more legit than this.
And then I got another text from the general who was like,
they're trying to get a hold of you.
So the next thing was a call, a phone interview with Howard Lutnik,
who's secretary Lutnik now, a commerce secretary,
and he was leading the president's transition.
And he's got like an hour-long call.
And he asked me if I was interested in the NASA job.
I said absolutely.
And the next day I was in Mar-a-Lago,
with an interview with the president
and shook my hand at the end of the meeting
and said you got the job.
What was it about you that they liked?
I think that I was a political newcomer.
So I know the name, I mean,
they mentioned in the interview
that some of the names that were being considered
were kind of in the system for a long time
and that we're looking to do things a little differently.
I mean, I did come in with somewhat of a,
a plan to talk about on what I thought were the, you know, important steps and a couple
priorities that we needed to hone in on. And I guess those landed.
Why do you think that your name was pulled? Why did they pull you right before the confirmation?
Yeah, I mean, I seem like a really good fit for the job. In fact, I've been reading a lot of your
tweets and, I mean, everything seems on point, makes a lot of sense. I was a little frustrated.
I'm more than a little frustrated.
Yeah, I don't think it had a whole lot to do with me.
I think that there was a very widely covered falling out, you know,
between some pretty important people.
And I became a good target, you know, to kind of, as a parting shot, I think,
in that whole divorce.
I mean, I wouldn't even call it, really.
speculation. I've, you know, heard enough from enough folks of, you know, how it all went down
to understand. And I didn't take any of it personally, by the way. Like, I, the, like, I knew what
I was getting into, eyes wide open. There were risks of falling out and divorce and, you know,
where, you know, where my connections were, weren't coming from SpaceX and such. So, like,
I understood it all. I just, I just, I kind of falsely assumed.
that I would have an opportunity to kind of get in the job
and have an opportunity to, you know,
kind of make my contributions and stand on my own.
But, you know, prior to the confirmation,
if there was going to be a big falling out,
you know, I probably should have anticipated
I might be one of the ones taken out in it.
What a shame, man.
What a shame.
So let's go into NASA.
I mean, what...
And that's, by the way, the real shame.
Like, the world's greatest space agency
doesn't have a confirmed leader right now.
I mean, I think other than GSA,
it's the only agency or cabinet kind of position that doesn't have a confirmed leader.
Like the most accomplished space agency in the world, it doesn't have a, you know, a confirmed
leader at this point. Secretary Duffy is the acting. I guess that's really the unfortunate
part, right? I mean, space is the ultimate high ground. We have a competitor that's making
incredible progress in that domain. So for something that didn't have to do with really job
qualifications and whatnot was probably more personal with other folks. That's like really
the disappointment. Personally, I don't take any of it personally. It's just it's an awful shame
for the agency. Yeah, you know, I mean, it seems like, I mean, we had alluded to it at the
beginning, but, you know, we're just, it seems like we're at such a pivotal point with China
and space exploration. And now we have, you know, Duffy, who's Department of Transportation
and NASA and so his time's getting split 50-50 and I mean it's it's frustrating to see that we don't we haven't
identified the next guy and that you know essentially this is all happening because of a
pissing match which sucks yeah I mean and you know secretary Duffy has stepped in as the acting in the
last couple months but I mean you're talking it's been seven months since the confirmed leader of
NASA, you know, resigned during the inauguration.
A long time.
Like, a lot can happen over seven months.
So, yeah, I mean, to me, if somebody had said, you know, three weeks after, hey, we don't
like you or we don't like, you know, this connection to this organization or whatnot, so
we're shooting you in the head and we're going with somebody else, I get it.
You know, my life is going to be fine.
I'll get back to business, you know, get somebody else in there, you know, like I just
care about America winning in the high ground of space. So that's really just the disappointing part
is like it leaves an important agency leaderless for a bit. So, I mean, what does NASA do? I mean,
we hear all about SpaceX. How many rockets are they launching a year now? SpaceX? Yeah. Oh, man,
every two days probably, every 48 hours they're probably launching a Falcon night. And, I mean,
what's NASA doing? So NASA's huge. And they're doing a lot. And they're doing a lot of
a lot of things. Some are really important why the agency was created in the first place.
And then they're doing a lot of little things that I would say were not necessarily why the
agency was created and can be somewhat of a distraction. I mean, there's 40,000 people,
you know, between contractors and employees at NASA across 10 major centers. And in my mind,
you know, the agency, again, should be doing the near impossible with no one else in the world,
No other organization or company is capable of doing, like the true radical cutting-edge things in space and in our atmosphere from a human exploration and a scientific discovery and trying to usher in the orbital economy.
Like you should have two or three really big things that need to be solved in this incredibly important domain.
And I'd say that their budget is split across like thousands of things that kind of make it hard.
hard to do any of those things.
What are some of the big things that you think are important that they're doing?
That they are doing?
Yeah, that they are.
I mean, planetary science, for sure.
So, look, all the things they're doing are directionally correct.
How well are they doing it, right?
Is Hubble and James Webb Space Telescope awesome?
Absolutely.
Are the rovers on Mars cool as hell?
Absolutely.
Why do we need to wait every 10 years to launch a new one?
Like, why aren't we launching these things every year?
Why don't we have 10 telescopes out there looking out at different galaxies?
Why don't we have rovers on Venus and on Mars?
Why do we have to wait X number of years for the helicopter to tour Titan, for example?
So, like, planetary science is a great thing they're doing.
It's approximately a third of the budget is science at NASA.
Why aren't we doing a lot more with it?
Like, can we, can we get more mileage out of approximately seven billion a year?
I bet you can, right?
And that's because for every, like, one or two kind of big flagship things,
there's lots of little things that may not be as important.
And the big flagship things, because they're defined as at least a billion-dollar program,
become very expensive and take a long time because you can't get them wrong.
And that's part of the problem.
So, like, science is an important thing they should be working on.
You just should be getting a lot.
The American people are eager for world-changing headlines.
We should be delivering it all the time, and not every 10 years.
What are some of the things that you had mentioned?
You think that there are some smaller things that would be distractions?
Oh, I mean, I think a lot of things are.
How about aeronautics?
Like the first A in NASA.
As a pilot, I should be super charged up about what they're working on at NASA and aeronautics,
and I'm not.
And I don't think the people working at NASA on aeronautics are charged up about it.
So, you know, you talk to the 1960s, 70s, 80s, almost all of the most badass breakthroughs in aeronautics made their way through NASA at some, at least in the last, like, you know, 50 years.
That's not what's been going on in the last 25 to 30 years.
So the days of NASA with the forward-swept wings and, you know, fly-by-wire technology and thrust vectoring, which wound up going into the F-22, those all NASA's work.
what are they doing on now
they spend I think about
$800 million on a
on a boomless
supersonic
airplane that hasn't flown yet
those guys built one already
and flew it multiple times
and retired it
and they're moving on to something else
and I guarantee you they didn't spend
$800 million in X number of years on it
they committed
$400 million to a
to this
honestly it's a very ugly looking
modified Boeing airplane that they were going to use for high efficiency flight, Boeing
walked away from their commitment in it. They're working on drone technology that's like
decades behind other agencies in the U.S. and certainly behind China, so why are we working on
all? They fund fuel efficiency enhancements to like Pratt and Whitney Motors that have been
around for decades to squeeze three or four percent more fuel efficiency out of it,
when they should be doing that themselves for competitive reasons. Like what should NASA's
aeronautics program be working on. Things that go super high, super fast, radical designs that if
you figure out something pretty wild from it has direct influence over DOD designs or commercial
airliner designs. They should be at the absolute tip of the spear on breaking ground on aeronautics.
And honestly, like, even bridging, you know, bridging the divide between in-atmosphere and out-of-atmosphere
type atmospheric wave-riding technology, but they're not. They're working on a lot of boring
stuff. I mean, 800 billion, 800 million for a supersonic jet that Blake Scholl's working on
right now. I mean, where is the money going to? Lockheed. They'll make a cool video every six
months of like doing an engine run or something. But that's the point. They're done already.
They flew it. They tested it. They've moved on. And, you know, NASA is hoping that they'll fly their
quiet supersonic demonstrator soon. And it's like, part of it is a very.
fear too. Like, if you were to ask the, you know, it's like, do people show up to work every day
at NASA want to see America kick ass? Absolutely. Like, there's no one there that wants to lose,
but like they also get entrenched in the system. And it's like, well, if I recommend to cancel all
these programs, because honestly, they don't really check the box anymore for what we should
be doing at NASA, how do I know I get something else? Like, isn't a burden hand better?
Shouldn't I take this and kind of still fight for this trustless, you know, efficient?
airliner or solar-powered airplane because how do I know I won't get something else?
And that's like, I mean, that's almost a leadership issue.
Like you have a, there's a trust issue almost with the team where it's like, look, guys,
if you're working on something that no longer fits the definition or the mission of NASA,
I need you to tell me about it because I will stand behind you and make sure that you do get
the resources to be working on what will move the needle, right?
But that doesn't exist.
It's this fear.
so you've got to entrench yourself and perpetuate programs that shouldn't exist.
You know, I mean, I think NASA's budget was, was it $25 billion,
and now they're moving it to $19 billion?
I mean, is that part of your plan?
Did you put that in place?
No.
So, honestly, when you're a nominee,
they don't tell you anything about the president's budget
or any of those kind of plans,
because they want you to have deniability with the senators.
I mean, if I knew that the president's budget was going to slow,
by 20%, they'd never let you out of committee.
You'd never get a floorboat.
Like, they would hold you hostage intentionally until they got some, you know,
the senators would until they got concession.
So I was as surprised anyone.
I mean, during my hearing, I basically said, look, I don't think budgets are going up, guys.
So, like, we don't have unlimited funding.
We got to be smart and concentrate our resources on what moves the needle.
But, you know, did I generally assume that we were going to try and shrink the government
under President Trump and get back back on more, you know, stronger fiscal footing?
Sure.
And I totally support it.
I mean, you know, would I pick different things if I was like, you know, being surgical
in the budget?
Yeah.
I mean, but generally I assumed across the board we were all going to have to do more
with less.
And do I think the U.S.
government is capable of doing more with less?
Absolutely.
No question.
Would you have cut the budget?
I, if I was like a total, you know,
I would have been advocating for the same budget, like keep it flat, and I will do way more
and get far better results with those dollars, because I will know how to allocate them more
effectively and efficiently than any government employee is going to be capable of it,
because I've literally had to do that for a quarter of a century.
Like, there's no doubt if you're, you know, if you're a successful entrepreneur, you are
far better at capital allocation than any government employee.
You just had to have been because you don't, if you screw it up, you don't get more.
And, you know, generally the government, you know, will keep funding things for a while.
But I wouldn't have like, unless they told me, like, hey, you have to cut it by 20%, then I would have said, great, let me pick what needs to go.
And I'll make sure that, you know, the 80% that we retain will be focused on the things that will truly change the world.
You know, you had a or have a plan for where you would have taken NASA.
And so I'd like to dive into that.
Sure.
What were some of the changes and stuff that you were you were planning on making when you took over?
So what I briefed the president on during my interview, and honestly, I've handed off the whole plan to Secretary Duffy.
I don't know if he'll use any of it at all, but I, you know, everything that's for the good of the country, I'm 100% for and what work we did.
That was assembled by a lot of great people, by the way.
A lot of people contributed to that plan.
Yeah, I wanted to make sure it went into good hands.
But step one is you got to reorganize the agency and rebuild the culture.
I mean, that's just you can't do the fun stuff until you reorganize and rebuild the culture.
Like, this is a total step one, we got to admit we have a problem here.
35 years and $100 billion have been spent trying to get us back to the moon.
And we haven't flown humans around the moon, which we did in Apollo 8, you know, in 1968.
we haven't even done that yet, let alone landing.
So, like, we got to admit that what we're doing right now is imperfect.
And it's hard in a politically divided time and, like, you know, Elon's bad and all these things
people say.
It's like kind of in somehow balances out to, like, what we're doing must be right.
No, like, there can be lots of things wrong.
And certainly there's a lot of things wrong at NASA and not unique to NASA.
It's like government-wide.
But we got to reorganize.
You know, there's 50 different safety.
departments inside NASA.
Doesn't mean safety isn't important, but if you have 50 different offices that all have
the ability to say no, that's not a good thing necessarily.
Like, safety should build up logically.
So one department has all the necessary information to make the right call.
And honestly, we got to recalibrate that risk framework because, like, you're not going
to explore the world's beyond ours without taking some risks.
This kind of trying to drive risk to zero is why telescopes that are supposed to cost a billion
become $15 billion, why, you know, missions that are supposed to take people back to the moon
are taking 35 years and 100 billion.
So, and we need cultures around ownership, we need accountability.
We need, you know, freaking more doers and less management.
Everybody inside the agency has a deputy or a vice who has a chief of staff, who has a deputy chief of staff.
I mean, departments with six people in it have a chief and a deputy chief.
It's just, you know, it's creating a hierarchy that serves the hierarchy instead of just like, look, we certainly need management leadership, but we need to empower the best and brightest to get the damn mission done.
So anyway, the step one is all reorganize, rebuild the culture, you know, and then you move on to the priorities.
America leads in the high ground of space, you know, unlock the orbital economy, and accelerate the rate of world changing discoveries.
Those are the three things that NASA should be thinking about every single day.
How would you have done those?
So in terms of America leading in the high ground of space, with the investments that have already been made with SLS, return to the moon, do it as quickly as possible and determine why we need to be here.
Is there any economic, scientific, or national security value of being here?
If yes, then you rely on commercial industry, SpaceX, Blue Origin, Rocket Lab to get you to and from the moon at a frequency far greater than every couple of years, which is what the NASA,
$4.5 billion per launch disposable rocket cost.
So you use SLS to get back to the moon, determine why you need to be there with any frequency,
and then from there you rely on commercial industry, so it's actually affordable and repeatable
and not in every couple of years of it.
And then you pivot those resources, so it's about a third of NASA's budget, like call it $7 billion
a year, away from competing with industry on building giant rockets and start building
nuclear spaceships because no one else is going to do it unless you care unless it's the russians
and they're in china for sure is going to do it so build nuclear electric spaceships it has do it's all
dual-use stuff so for as much as it's good for peaceful space believe me it has it has uh defense
implications for it for it as well and it's very important for getting to mars so that's all generally
in your high ground of space this the step two which is unlock the orbital economy which is
the space station has only so much life left in it use every bit of it
to figure out what will actually generate more value
than what we put into it in space.
So, you know, go have a huge outreach effort
to companies like Astroforge and Varda
in the pharmaceutical space.
Everybody who's trying to figure out
what can happen in space that generates value
so that we don't have endless perpetual,
you know, perpetual dependency on taxpayers,
because without it, you won't have these commercial space stations.
I mean, there's like four companies right now
that are building space stations.
stations. I don't even know if there should be one, because you have, like, one customer. It's
like the NASA plus ESA, the European Space Agency. So I don't know how those companies will
survive if you don't figure out in orbital economies. That's two, and then three, you know,
a third of NASA's budget is going into science. We need Hubble's like every year. James Webb's
every year. Rovers every year. We can't be waiting five, ten years for the next great
discovery asset. So anyway.
So I'd like to dive into these a little bit more.
So, I mean, when it comes to the moon and sending people or machines out there or whatever your plan was, I mean, how would you determine whether we need to be there or it's time to move on?
Well, I think the cost of being there is something we got to get our arms around.
Right now, the way we get to the moon is a $4.5 billion disposable rocket called SLS reusing 60-year-old space shuttle hardware made by thousands of.
of people, and it is a huge jobs program across Alabama, Mississippi, and Louisiana.
These are the SLS states.
Some people joke that SLS stands for the Senate launch system.
All right, great.
We spent 35 years and 100 billion.
Let's use what we got, get back to the moon.
But that is not a way to get there frequently.
That is a way to get there every three years.
She's like really insane.
And not only that, it introduces a whole other part called Gateway,
which is a lunar gateway
that it makes things even more expensive.
The reason we need to do that
is because our partners on SLS
that are building the European service module
doesn't have the performance to do
what we need it to do
so we need to create a new space station over the moon.
None of this is affordable.
You know what I mean?
But anyway, we leverage what we have
to get back to the moon
and then figure out do we need to say.
Is it helium three?
I mean, there's more of it on the moon.
Not a lot of it,
but there's more of it on the moon
than on Earth, is that going to be the key to, I don't know, any sort of quantum computing
or fusion power source? If so, you're going to need to stay. Well, the good news is you can't
get back to the moon without either Blue Origin, SpaceX, or both, because they're both building
the landers. And in order to get the landers to the moon, it means they're reusable big rockets,
so Starship and New Glenn work. And if that works, now you have a way to get to and from the
moon affordably, repeatedly, without having to spend $4.5 billion per launch. So now you have
You've determined why you need to be there, and now you have an affordable path to go back and
forth.
So now you pivot the money that you were investing in that $4.5 billion per launch vehicle
to nuclear spaceships, and that has applications for moon, Mars, low Earth orbit, and it's just
a natural evolutionary step for the agency.
So you would have just, for lack of a better term, you would have just slashed all the rocket
programs that NASA is doing and offloaded that onto SpaceX, Blue Origin, and then had NASA
specifically concentrating on nuclear starships?
For the third of the budget that is SLS, I would have used what we already have and will
have over the next two years to get to the moon a couple of times, certainly get back before
China, because I do think that failing to do so would be one hell of
a dent in American exceptionalism. I mean, we knew nothing in the 60s and got to the moon.
We paid a lot to do it. More and a half percent of our budget for a while did it. But China
knew nothing about going into space at that point in time. I mean, and now from them to get back
after we've said for 35 years we're going to do it is going to be a major blow. And I think the
ramifications are, like there will be congressional hearings. It will expose a lot of things
that we don't do right.
So we can't let that happen.
So let's get it right and use the hardware that we have.
And that hardware strategy has inherently a dependency on both Blue Origin and SpaceX.
You can't get to the moon without one or both of them now.
So when you do get to the moon, as expensive as it was, you now have one or two viable
paths to get back there at far lower cost.
So when that comes, you then pivot investing in this legacy technology into the
the next generation that no one else will do, except our adversaries if we don't do them.
And yes, I believe that's nuclear electric propulsion. And I also don't understand why it's so
controversial. The plants in, like in Michoud and Louisiana that are building SLS and
Marshall Space Flight, these guys built landing crafts in World War II, they built the Saturn
5 rocket, they built the space shuttle, they build SLS. Why wouldn't we be pivoting on to the next
great thing. I mean, this is literally the same. This is like, it doesn't matter what happened
at Pearl Harbor. I'm not taking any chances. Keep building battleships. Forget these aircraft
carriers. Like, why wouldn't we evolve our thinking when we learn new things? And we've learned
a lot of new things over the last 50 years. Yeah, I think a lot of people have the exact same
questions. And then as far as telescopes and satellites and stuff that we're sending out for
exploration, I mean, can you get a little more specific? Where would you, where would you be sending
these. Would you have sent them all in different directions?
You know, I think like
there are a couple things broken with the science process,
for one of which the prioritization of scientific missions is done
every 10 years. It's called the Decado Survey.
I just don't, I mean, presumably we would learn new
things in that time period that might change
or shape our thinking. So, like, I just don't think that needs to be,
I mean, it is a total sacred cow thing.
Like, the Decadal is what drives the prioritization.
All right, why don't we make it in every three?
year survey or something. And then the other thing I would say is you just need to go in and
there is a lot of inefficiency and bloat and outsourcing that takes place across the scientific
spectrum. There's multiple mission controls. There's just lots of inefficiencies, which means
we get really exciting missions less frequently. It starts probably with flagship missions
definitionally being over a billion dollars. And if you're going to spend a billion dollars,
have to get it right, which means you have to take a long time and you have to de-risk it a lot.
Instead, I would be trying to shift that philosophy towards launch $10, $100 million missions every
year, and it's okay if three fail.
Let's just increase the rate of discovery here.
We don't need to do a single billion-dollar mission that inevitably becomes a $5 billion
mission because of all of the fear associated with getting the billion-dollar mission correct.
what would you like to see explored specifically i mean i think generally though like where where we're
going is all is all correct like i i'm i'm nowhere near like the an expert um on the scientific
prioritization of our exploration missions to say that you know sending this here or there is wrong
like everything that the you know the science mission directorate is briefed is good like yeah
i want to know all those things too i just want to help them know those things faster
and for lower cost.
Would you have sent anything closer to the sun?
Can we?
Yeah, I mean, you just had the Parker Solar Probe,
kind of kissed a portion of the sun.
That was an awesome breakthrough.
I don't know about that.
Yeah, it actually, I believe,
I mean, it's one of the highest velocity man-made objects ever,
and it was only this,
it was just over, like, Christmas time frame.
It actually recorded the sounds of the sun
and transmitted it back.
It's pretty wild.
But it definitely, it's closest approach we've ever had,
to the sun. Again, it's called the Parker Solar Probe. And it was actually one of the reasons
I was challenging this 10-year decadal survey process is, what if you learn something amazing
from that? Wouldn't you want to just like immediately fire up, if you could, a half a billion
dollars to build something else and send it right back to the sun? Why would you want to wait
10 years for
scientists to process that information
potentially and determine
yeah, it's a medium priority, it's high,
like don't we want to listen to the data
constantly and make
good informed decisions from it?
But yeah, I mean,
I wouldn't even pretend
to be anywhere near as much of an expert to
weigh in on the prioritization of scientific missions.
I just want to help them all do it
better. Who would you have put around
you?
So, you know, I had
a number of like really great people that were, um, that were contributing to kind of the,
the planning of the, of, uh, you know, of what would have taken place if I, if I was confirmed
at NASA. And, um, they're good folks from all over. And, you know, certainly some X, uh,
SpaceXers, because I, honestly, they're very accomplished. They are brilliant people. Um,
and they want to repay back. I mean, you know, you spend 10 years at SpaceX, you, you did really
well financially. I mean, that stock has gone up a lot. They're not trying to get
rich. They want to apply their knowledge back to an agency that inspired them. There were folks
from relativity, Blue Origin. I was bringing in people from Wall Street, from the finance world.
These are specialists that go in and help, you know, big organizations that lose their way at
times. See, that's the thing, like, you know, the best companies in the world, you know,
Google, Apple, meta, they're constantly changing. They don't make a plan 60 years ago and stick to it.
They're listening to the world around them and information and course correcting.
You know, a couple years ago, what was it?
Metta was like $80 a share, and everybody thought, you know, Zuckerberger lost his mind with the VR goggles and all that.
And he woke up one day and he said, you know what, I may have overdid it and pivoted, put more into AI, scale back some of his funding here on that.
And, you know, the stock's probably 10xed that in the last couple of years as a result.
Like, he got some of it wrong.
Google bought, was it, Motorola at one point in time, building phones, and they were like,
oh, we got this one wrong, and they sold it at a loss.
Microsoft bought Skype, you know, vastly overpaid for it, and eventually they shut it down, right?
Like, they're just, the point being is, like, you don't always get it all right.
So if you don't reorganize and, like, do a true bottoms up build of looking at, where is all the
dollars going, where are all the experts putting their time and energy, and what are we getting
in return?
Like, what are the KPIs?
What should we care about at NASA?
How about time to science?
Why wait five years to learn something
if we could learn it in a year
and at lower cost?
And you bring in experts
who do that at large organizations
that have lost their way
and it's like, you know what,
I want a team of 14 of them,
two at every one of the centers
and get them out there
and do the analysis
we would do if a Google lost their way
or meta lost their way
and give me the information
so we can course correct a little bit.
So yeah, it wasn't just like,
you know, SpaceX or there's people
from various
backgrounds that could help, you know, refocus the agency on the true needle movers.
You know, we've been talking a lot about helium-3 has come up a couple of different times
and talked about her breakfast. You brought it up a couple of times in here. You know, I mentioned
Steve Kwasse, who said that he thought that China was mining helium-3 off the dark side of the
moon. I mean, how, when did helium-3 actually show up on everybody's radar?
Uh, yeah, I mean, I, you know, I don't know the, the full history behind it, like how far it goes back and when we thought it might be a key to fusion power, but I'll tell you, uh, there's a lot of really smart people that are champions of it. Um, Harrison Schmidt walked on the moon, first geologist, first true scientist to walk on the moon. Um, you know, he's in his 80s and sharp as hell and, you know, he's still studying lunar rocks and you ask him and he, he's like,
I think Helium 3 is going to unlock a lot of potential here on Earth,
and there's certainly more of it on the moon than there is here on Earth.
I don't think, I do believe, also again,
and I'm not pretending to be a physicist on this,
I do believe we have demonstrated that we can get more power
than we put into a very brief fusion reaction
using helium-3 as a fuel source.
So anyway, that's like what we know.
It's the cooling process, correct?
I'm definitely not taking an inch farther than I have already other than we need an orbital economy
in helium-3 is probably one of the better ideas on what it could be, and that would be more or less
a lunar economy.
All that said, I don't think, you know, not to contradict, you know, Stephen, I don't think China's
mining anything on it.
Like, China has certainly had some successful missions to the moon.
Like, they are, and honestly, if we don't course correct, they will beat us back to the moon.
But I don't think we've got, you know, they're not, they haven't set up industrial operations yet on it.
That doesn't mean we should, like, we should try and do everything you can to make sure that we don't fall behind in that.
But we still have time to.
What are some of our adversaries doing in space?
I mean, the high ground has mattered, you know, from the beginning of human history, you know, from, you know, there's tactical and strategic advantages of it.
And they are well aware of it.
So they're building out their constellation of communication satellites, Earth observation satellites.
They are leaning heavy into hypersonic weapons.
I mean, you know, when something is in space in orbit, it's very predictable.
It's like literally a railroad track.
Like once it's in orbit, you know exactly where it's going to be, which makes it pretty easy to, you know, intercept a lot of the satellites that are up there.
China's been working on like hypersonic wave riding technology.
You can put something in orbit, bring it back into the atmosphere where you've, you get, you know, where some, you know, air resistance, some aerodynamics come back in, turn, go right back up in, and you've changed the inclination that object is in space.
Like, that's, that changes the game on certain things.
And they, they're doing that right now?
They have been doing it.
Like, they are, they are not messing around in space.
I think from like a hypersonic weapons, you know, capability, I would think a lot of people are,
not happy with the progress they've made so they're not um you know they've gone through this
phase of like buying or stealing and reverse engineering and copying things and then they started
to to reverse engineer and improve upon it like their flankers um you know they they call rush up
and say like we need to buy two fighter jets and like reverse engineer it and the next thing you know
you know you got like a j15 it looks just like a flanker but they made it better right
Right. But then they just started to learn from all of that and build brand new things.
You know, they're J20, they're J35, they're showing off 6-Gen.
This is obviously all like aircraft related, but they did, they're doing the same things in space.
It's not just like they're copy and paste stuff anymore and reverse engineering.
They are building a lot of good capabilities out in the high ground.
Yeah, I mean, when was last time we fought a war where we didn't have either air supremacy or own, you know, the domain of space with a peer?
Yeah. Yeah. I mean, when you talk about, you know, kind of unlocking economy, what do you call it, a space? Like an orbital economy. I mean, what all does that entail? We brought up a couple of them earlier, but I'd just like to see, what am I missing here?
Well, so, like, what's an example of it working? And honestly, it's the only. Starlink. Yeah, Starlink. 100%. That's the only example I can really point to where more value.
is being created than what's being put into something that requires space.
Outside of that, like where you have real consumers paying for a fee and Starlink's making,
or SpaceX is making money off it and taking those dollars around and investing in cool stuff in space,
right?
Without it, all these other commercial companies that are everybody's excited about and a lot of them
are alumni from, you know, SpaceX or Blue Origin or whatnot, and they're getting VC funding
and they're excited about something, who is going to pay them for those companies?
to exist, to perpetuate.
And it's either NASA or the DoD,
and there's more companies,
and the budget is the same or smaller.
That's not a formula for success.
So, if we want to see space really grow
in all these commercial space companies
that have created an economy here on Earth,
but may not be sustainable,
we need to figure out how we can unlock value
from that unique environment of microgravity.
And we don't have good answers for you.
I mean, there's just, I mean, we can
We have, I'll just rattle a couple off, and I want to see if you know of any that I'm missing, because one, selfishly, I'd love to interview them because I'm always fascinated with anything in space, but I mean, we've got Starlink, you know, communications. We have SpaceX. We have Steve Klaus Company, space build, who wants to assemble satellites in space, in other equipment. We have Astroforge who wants to mine metals off of,
asteroids, we have, um, shit, what's the other one? We have, uh, bodgy bots, you know,
company where he wants to beam in solar energy to, to, to, to receivers, you know, and
distribute that. I mean, and then we have, you know, what we talked about earlier, just
regular every day, like, space tourism. I mean, that's, we're on the precipice of that.
What am I missing? I want them all to succeed, but the simple,
reality is, other than what SpaceX is doing with Starlink and their launch vehicles,
I don't think any of them are profitable. And actually, I would think for most of the names
that you've rattled off, I don't think any, I think almost none of them have any revenue.
I mean, look, Boeing is, you know, they're Boeing space systems. Every quarter loses billions
of dollars. And that's like an established legacy player with real government contracts.
I don't know if anyone else. Blue Origin isn't profitable. Rocket Lab isn't profitable. They're all
negative earnings. You know, the point is, is there's all these commercial companies that are all
endeavoring to do something in space, and none of them have cracked the code on anything that
generates value other than Starlink. It's not like me saying, like, winner, take all Starlink,
not even close. I wanted all to work. And hopefully, as the cost to be in space comes down with
Starship and New Glenn and, you know, Rocket Lab is working on a big, you know, neuron, their big vehicle
and Stoke is working. I hope it all works out. But I'm just saying, other than
Starlink, the space economy is unchanged for 60 years. It's launched observation and communication
and almost entirely paid for by world governments. That's not good.
I mean, don't you think, I mean, don't they have to, I mean, when I talk to these guys,
it seems like a lot of the problem is the red tape. And, and, you know, I mean, I can't remember
a lot of these guys are launching, you know, within the next couple of years, I think 2027, 20,
I mean, we're going to see like the first landing on an asteroid.
And I could be off by a couple of years, but it all sounded relatively soon.
You know, Banji Bot, solar, you know, is him being solar, and he's a couple years out from a test of that, according to him.
I mean, is that why they, I mean, how could they be profitable?
It's going to take a lot of innovation and getting through red tape to actually.
actually get up there.
I think, I mean, look, it's, look, you've got SpaceX, Rocket Lab, ULA, you know, Blue
Origin Soon, you got Firefly.
There's plenty of launch providers.
You can launch something in the space.
Shockingly, there's almost no red tape.
It's actually one of the problems.
Interesting.
Is that, like, don't get me wrong, we want to start talking nuclear.
There's red tape.
Yeah.
You want to launch nuclear reactors.
There's red tape.
But in terms of just general commercial space,
they all basically get a free pass to do what they want.
It's called a learning period,
and basically, you know, Congress actually got this right
of giving commercial industry time
to figure out what the economy is.
Look, you have to get an FAA launch license
to launch a rocket.
If that, there is no one who inspects the integrity of the rocket.
No one signs that off.
So you're going to talk about no regulation.
So if that rocket gets up into orbit
and then blows up and showers low Earth orbit
with debris that takes out other satellites,
and whatnot, there's no one who inspected that or signed off on it. At some point, there will be.
So in a lot of areas, commercial industry to figure this all out has a lot of latitude.
I think, look, what's holding it back is that the revenue model is highly dependent on either
DOD or NASA, and there's only so much money to go around. I think I said before,
there's four different companies trying to build space stations. There are two in existence,
the Chinese and the international space station, and neither way.
one of them make money? Why are there four companies trying to build space stations? I hope that
we need four companies to build space stations someday. I'd like nothing more than to see lots of
space stations up there. There's no economy for it. There's no one that needs to have lots of
people in lab coats up there figuring, you know, cancer drugs out. I hope there is at some point
in time or another. So look, I think the part of the problem is that there isn't a revenue model
that actually underwrites lies businesses. Do I believe at some point it's inevitable? We will mine
asteroids? Totally. It's like one of the sure things that will happen. And as the cost comes down
to launch things out to mine asteroids, it will become more and more of a reality. I can believe
in that. Will it be less expensive to have a, you know, to capture solar power in space and beam
it back to Earth versus just covering large portions of the Nevada desert with solar panels?
I think that went, I think the latter's cheaper, but maybe it'll happen. But whatever it is,
we've got to figure out a way to drive revenue from space in excess of what goes
into it, and it has to come from more than the government, or we're not going to have that
future in space we all want.
Do you have ideas on how we do that?
Nope.
I mean, I was spending a lot of time.
It was my number two priority, if I was confirmed at NASA.
I think it all starts with very inexpensive launch.
So, Starship, New Glens, Stoke, Firefly, Rocket Lab, make it cheap to experiment in space,
and the more we experiment, that's how you go from the 1980s car phone to
you know, the 13-year-olds with meta and DoorDash and Uber on your phones that you never could have
imagined 30 years ago. Have you invested in any of these companies personally? I was briefly
invested in SpaceX, but divested as part of the NASA process. So I have no equity interest in
any of them. I wish them all incredibly well. You can't not love space and not want to see them all
succeed. Is Russia a player?
not really anymore or as much what about india uh emerging player um you know they're just
getting going i mean reality is anyone in the launch business if you have to throw away your
rocket SpaceX can eat you live like they can use the same rocket 25 30 times and they're about
to do it with a with a starship new glen is going to get there i'm sure rocket lab and stoke will get
there too is in firefly like rush is not a i mean i'd be i mean like a i mean like a i'm like a
In a combat context, like, they can brute force and throw a lot of stuff up there and create a lot of problems.
So I think that's more of a DOD consideration.
But in terms of just, like, broad capabilities to wow us from peaceful space, military space,
and whatever blurs the line between the two, it's China.
China is the threat.
They will be the ones that will cause issues.
Are they ahead of us?
No.
Honestly, thanks to SpaceX.
I'm not trying to make it a SpaceX love story, but they've been landing.
rockets on ships for 10 years now and no one else has done it once. So SpaceX gave us
reusability because they saw opportunity to break the monopoly that was ULA. I mean all of you
basically U.S. launches was up until SpaceX was a monopoly, a government sanctioned monopoly,
a joint venture between Boeing and Lockheed called United Launch Alliance. And they charged like
a half a billion a launch and SpaceX was like, this seems like something I could disrupt,
not to mention they have a great vision.
So we launch more orbital class rockets every year,
you know, largely thanks to reusability.
The country that launches the second most
without any of that tech is China.
And they're not like too far behind.
So they will be the next country to unlock reusability.
Like they will make something that looks like a falcon
and a starship inevitably.
Is there anything that they're doing
that we're not doing that you find innovative that you know about?
Yes, and it's not just limited to space.
I think they are literally sitting back and saying
what are the absolute coolest world-changing projects
across all technology domains
and assign somebody to it and resource it and make it happen.
I mean, they went from literally like coal-fed locomotives 25 years ago.
Now they have 25,000 miles of high-speed rail
across the country. They're like, build a fusion research center. Build the largest telescope in the
world. That sounds like a good idea. Build the biggest dams. Send some people to the moon. Put nuclear
reactors in space because we're going to want that kind of power generation from a propulsion
or laser perspective. Build an aircraft carrier. They're literally going across the board. AI.
Figure out how to do AI on the cheap. We don't have the big hyperscalers like we do in the U.S.
figure out a way to get comparable on it, quantum computing.
Like, they take on all of the most interesting projects.
They're not going to win it all of them.
Like, I'm not trying to say, like, U.S. is going to lose, America, you know, America's going to lose.
China's going to win on everything.
No, there are areas that we will have some advantages in, but they are taking on big, bold, world-changing projects like we used to do during the Manhattan Project in the space program.
And they're going to get wins.
Like, they're gonna, they're gonna definitely, you know, they're gonna get some wins.
What should I be asking you that I'm not?
All your questions are really good, huh?
Let's take a quick break.
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Let's get back to the show.
All right, Jared, we're back from the break.
I wanted to talk about kind of the history.
space program, you know, is from a global aspect. And, you know, you were talking to
breakfast about how you kind of looked up to some of the cosmonauts. And so I'd like you to just
go into that a little bit. Yeah. I mean, I think, I mean, all the astronauts, the cosmonauts of
the space race, the engineers, the operators, the mission controllers, like, I mean, they started
with zero. I mean, they really were breaking down the door on a whole new frontier. And, I mean,
they knew nothing compared to what we know today, which is still not a lot. I mean, they didn't
have, you know, super computers. They didn't have, like, you know, our iPhones are more powerful
than the, you know, the computers they had on Apollo spacecraft. So it's just, it's just they
were starting and, you know, they were just beginning this great adventure and they were taking,
you know, a lot of risks. But they were risk worth taking. They're just all pioneers and I
admired that. So, I mean, just again, you know, the, the people in mission control, like,
the flight directors, like Gene Krantz, you know, I mean, you know, he had to write the rules
for how we conduct operations in space and keep people safe. And then when things go wrong,
to bring them home safely, like on Apollo 13. So anyway, I admire them all. I think, you know,
the Soviet cosmonauts, like they took even grander risks. You know, we're talking over breakfast.
I mean, Yuri Gagarin. So the first two American astronauts that went into space, Alan Shepard
and Gus Grissom, it was, they were suborbital flights, you know, like, not too dissimilar
to the Blue Origin flights now, like, what goes up must come down. They were in space for a matter
of minutes. The first, you know, the first person to go into space ever, a Soviet cosmonaut,
it was orbital. I mean, it was what goes up, may stay up the whole damn time, you know,
may not come back. So Yuri Gagarin, I mean, he went right to orbit. It wasn't until our third
astronaut mission, when John Glenn went up, that we sent someone into orbit. And then when he
re-entered, I mean, you know, you're just, you're a meteor, you know, crashing through the
atmosphere, surrounded by a fireball. And when he came through all that, he didn't land in a
spacecraft. He ejected. That's crazy. He had to eject out of that thing. And it wasn't just
him. It was a lot of other cosmonauts thereafter. And they didn't tell anyone that, you know,
they had to land under parachute, under their own parachute, and the spacecraft just smashed
into earth. I mean, wild times, man. Yeah. Yeah. I mean, can you talk about Sputnik?
Sure. I mean, that was, I mean, they call it a Sputnik moment for a reason, right? You know,
Eisenhower wasn't super big into space. You know, I think he was on the other side of a debate that
still rages on now of couldn't that money be spent elsewhere um you know obviously funded certain
things to give us our you know early ballistic missile programs and such um but i mean at some
point or another and he by the way was i don't know if dismissive is the right word i mean i try
and be reasonably studied on an early space history but at least publicly he was very much downplaying
sputnik too it was a lot of others um you know that were concerned and said hey wait a second here
you know, if this was a Soviet bomber that was flying over us right now, we'd all be pretty
pissed off. But because it's a little bit higher than that, because we can't really see it,
we should be okay with it. And if they can put this, this, you know, tiny radio beacon of a satellite
above us, what else can they put above us? Could they put a nuclear weapon above us?
Like, it was a very unsettling moment because we knew we overlooked something and we were behind.
And then when we tried to catch up, you know, the first satellites we tried to put up, well, first, they were very small in comparison to what the Soviets put up.
So that told us already that we had a, we were at a disadvantage from like a heavy lift capability.
They could put something big in space.
We were going to put something like the size of a grapefruit in space.
And it didn't work.
Our first attempts all blew up on the pad.
It was not pleasant.
So it was a wake-up call, right?
And when we, you know, kind of, you know, rallied our resources and focused it on something extraordinary, we did it.
Yeah, I mean, sometimes I guess, you know, look, competition is a good thing.
You just don't want to lose.
And Sputnik set off a great space race.
And in the end, we didn't lose.
But the story doesn't end there.
Yeah.
Yeah.
Do you think it's going to take another Sputnik moment?
to get our asses in gear here?
You know, when I was at Droken, and again,
our job was to be the bad guy,
and I watched as years went by,
and what we were replicating
or attempting to replicate in terms of the Chinese threat
was getting better and better and better,
and it was getting scary,
and we would sit around.
I mean, this is like seven, eight years ago,
long before I went to space,
you know, and you're at the bar talking,
you're like, this is going to be a problem, right, guys?
And it's like, I remember saying,
And it was probably a handful of beers deep in the conversation.
I was like, you know what?
They're going to get back to the moon before us.
And it's going to be a wake-up call.
And they're going to have congressional hearings.
And we are going to all these things that we allowed to happen, you know,
the over-consolidation in the defense industry that has killed innovation,
that makes things cost way too much for the war fighters and come too little, too late.
Like, it's going to fix all of that.
And I was, you know, I wouldn't, as an American, I don't want to see that happen.
I care about the competitiveness in nation, but I was like, maybe that's what it's going to take.
Until I got nominated to lead NASA, and I was like, hell no.
Like, we're not going to let that happen.
But, I mean, there's a chance it could.
And if it does, you know, maybe it'll be the wake-up call we need.
I don't know.
Maybe Draken's getting ready to move into Red Cell Space Operations.
Maybe you'll be the guy that shows us, hey, here you go.
What are you going to do?
luckily it's just me and I'm a friend but well Jared last question if you were to get
renominated to head NASA and be the administrator would you take it in a heartbeat in a heartbeat I mean
like I didn't I didn't take any of it personally there's no hard feelings I care about the competitiveness
of the nation and I think there's a lot of great people that could lead NASA but if I had the
opportunity, I would absolutely step up and want to contribute.
Well, maybe that'll happen.
I hope it does.
But, well, Jared, I love that about you, man.
You're not taking anything personally, and, you know, you have the attitude of, I just
want to win.
I don't really care who's in there.
And I think we need a lot more of that in this country.
So thank you for being who you are, and thank you for coming in today.
And like I said, it was an honor to interview.
Hey, the honor is mine, really.
It's a pleasure to meet you.
Thank you so much.
Thank you.