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cover of episode Space Policy Edition: Lies, Damned Lies, and Space Data

Space Policy Edition: Lies, Damned Lies, and Space Data

2025/4/4
logo of podcast Planetary Radio: Space Exploration, Astronomy and Science

Planetary Radio: Space Exploration, Astronomy and Science

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Casey Dreyer
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Jack Kaur
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Casey Dreyer: 我认为对太空探索既要进行感性思考,也要进行理性分析,数据分析对了解机构的优先级和价值观至关重要。追踪资金流向能揭示任何机构的最终优先级、价值观和支出方式,这与公开言论可能大相径庭。太空探索领域常常存在雄心壮志与实际数据之间的脱节,缺乏对财务、资金和最终成果的硬数据分析。对重要行业或政府活动的数据整合和准确呈现不足,导致人们难以做出有效的决策。在太空领域,财务决策需要结合领域知识,避免被炒作误导。太空环境的严酷性及其与地球环境的差异性,使得单纯的数据分析可能无法做出准确的预测和决策。快速迭代模式可能不适用于所有类型的太空任务,尤其是在深空探测任务中,由于任务周期长,难以快速获得反馈。一些太空探索的成果难以量化,例如科学发现带来的知识和灵感,这给评估其价值带来了挑战。公众舆论与政府太空项目支出存在差异,公众更倾向于支持地球科学、行星防御和空间科学,而政府投资更多的是载人航天。一些太空探索的价值难以用数据量化,例如科学发现带来的知识和灵感。太空探索需要兼顾实用性和科学价值,科学研究能够为太空探索提供更深层次的意义和目标。SpaceX的成功可能会导致政府在商业航天合作中设定过高的期望值,忽视其他公司的实际能力。商业航天项目的快速迭代模式存在风险,尤其是在深空探测任务中,需要权衡快速迭代与任务复杂性之间的关系。SpaceX的Starship项目进展存在延误,但其在Starlink项目上的成功表明其核心能力仍然强大。 Jack Kaur: 太空产业数据丰富,但缺乏对这些数据的有效整合和解读,以讲述更清晰的故事。太空产业相对较新,且直到最近才真正与商业投资相结合,因此缺乏对数据的系统性收集和分析。私人资金的进入改变了太空产业的数据需求,投资者需要数据来做出明智的投资决策,公众也对公司业绩更感兴趣。SPAC公司上市时做出的预测与实际情况可能大相径庭,缺乏问责机制。金融背景对理解太空产业的商业模式和数据分析至关重要。数据可视化是有效沟通数据的一种方式,图表能够让读者自行得出结论,但需要提供必要的背景信息。确保数据准确性是建立信誉的关键,因为错误信息传播速度很快,会对行业造成负面影响。大型私营航天公司通常会公开季度营收等财务数据,但对预测数据的透明度较低。对SpaceX等私营公司营收数据的估算依赖于收集和整合分散的信息,这凸显了独立数据分析的重要性。SpaceX作为一家私营公司,其信息披露有限,这可能是其竞争优势之一,但也增加了估算其财务状况的难度。SpaceX在航天产业中是一个异常值,其成功可能会扭曲人们对其他公司业绩的预期。SpaceX的成功与其自身能力和埃隆·马斯克的领导力有关,其发展速度远超预期,这使得其他公司难以与其竞争。商业航天项目的快速迭代模式是正确的,即使存在较高的失败率,也能促进技术进步和供应链发展。公众对太空探索的认知与政府的投资重点存在脱节,公众更关注地球科学、行星防御和空间科学,而政府投资更多的是载人航天。SpaceX的Starship项目尽管遭遇挫折,但其核心业务Starlink仍在快速发展,这表明其整体实力依然强大。

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This chapter recaps the Planetary Society's 2025 Day of Action in Washington, D.C., highlighting the participation of 105 members advocating for space science and exploration. It also mentions a special live taping of Planetary Radio with members of Congress.
  • 105 Planetary Society members participated in the Day of Action
  • Hundreds of meetings on Capitol Hill advocating for space science
  • Live taping of Planetary Radio with members of Congress Judy Chu and George Whitesides

Shownotes Transcript

Translations:
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Hello and welcome to the Space Policy Edition of Planetary Radio. I'm Casey Dreyer, the Chief of Space Policy here at the Planetary Society. Welcome to this month's

I usually try to keep these episodes these days relatively independent of external events just to make them more, you know, listenable in the future. But I just got back from our 2025 Day of Action. This is early April when I'm recording this.

The day of action, for those of you who are unaware, is the Planetary Society's big congressional visits day to Washington, D.C. And this year, obviously a lot going on in policy, a lot of uncertainty, a lot of troubles potentially facing NASA and NASA science.

We had 105 members of the Planetary Society come from all over the country on their own dime, most of them having no direct connection to planetary science, to space exploration. They just love it, right? They are just members of the public community.

They came to Washington, D.C., and they advocated. We did hundreds of meetings in Congress advocating for space science and the values behind exploration and discovery science and all the big things that we care about here at the Planetary Society. Some of them are listeners of this podcast.

And I just will say it's always a pleasure and was a pleasure to meet so many motivated and passionate individuals. It's really just a value to me personally. And it's just always inspiring to me and my colleagues here at the Planetary Society to meet our members. Something else I want to mention this week, first week of April here for Planetary Radio, the other show that we do, the weekly show here.

that this is an edition of. We have a special live taping of Planetary Radio and Planetary Radio Space Policy Edition with me in Washington, D.C., after the Day of Action in front of a crowd of nearly 500 people. It was really fun. My colleague, Sarah Al-Ahmed, who's the host of Planetary Radio, did a great job in talking about space science with our guests from APL and Bill Nye.

And then I was able to host two sitting members of Congress, Judy Chu, the co-chair of the Planetary Science Caucus, and George Whitesides, recently elected to California's 27th district and previously had worked at NASA. I'd say maybe one of the very few members of Congress who have that career path.

That show will be on our main feed and planetary radio. I urge you to check that out. It was again, really fun to do that show. And I want to thank Sarah and the Bloomberg center in Washington, DC. And again, all of the members of the planetary society and supporters who came out for the day of action and really just put themselves out there advocating for space. It's just such an exciting and again, inspiring thing to see. And again, a pleasure to meet you. Planetary society members really neat people. Yeah.

I just love meeting you all. Now, this month, going back to our interview, our big picture, I'm a data guy, which is always funny. I think I have a bifurcated approach to space that I have a very strong. A lot of you have heard me on this show talking about the importance of the right brain aspect of talking about exploration, right? The experiential, the feelings, the real reasons, right, that we do space.

But man, am I also a left brain data guy. And I love counting numbers. I love seeing and measuring and things where things go in terms of NASA's funding and history from again, from a very practical sense, you know, the classic phrase, no bucks, no Buck Rogers. But at the end of the day, dollars can only be spent once. And tracking where dollars go tells you the ultimate priorities of any sort of institution about what their values are and how they spend it.

despite rhetoric and frequently discreet and different from what the rhetoric is. Words are free. Dollars cost money.

So again, I'm a data guy who, again, loves the right brain side as well. And for this month, I reached out to another data guy, Jack Kaur, who is the director of research at Payload Space. I'd say one of the great new or relatively new online newsletters and reporting outfits that cover particularly commercial space business news that I really recommend checking out at Payload.Space.com.

Jack Kaur does their data stuff. I first noticed the work that he was doing when a few years ago, I saw an article from Payload that showed the overall revenue breakdown of SpaceX itself.

Now, this is notable because SpaceX is a privately traded, it's a privately held, privately traded company. They have no fiduciary responsibility to share their revenue or their or publish this stuff publicly because they are not a publicly traded company. And they're certainly not a government company, you know, a government company and government organization like NASA.

So to be able to talk about this and to put these numbers together was actually quite novel and fascinating. And the way that Jack did this was by basically collating a bunch of known data, making reasonable assumptions, doing some basic arithmetic and really getting into the ballpark, I'd say, of what the breakdown and the sources of revenue and the number from launches and from cost of rockets, but also from Starlink and other sources of revenue, what SpaceX is working with.

That kind of stuff is, oddly enough, I think, vanishingly rare in this business of space exploration. There is often a, I would argue, a disconnect between the ambition and hopes of a lot of people either in space or I'd say even particularly ancillary to space who are interested in these kind of activities and the actual hard data that shows how this will work, either in a financial sense or funding sense or ultimate outcome sense.

Jack is one of those people who is putting this data out there and not just putting it out there. He is putting it out there in a way that's readable and understandable and engaging, which is another, again, I think, critical aspect of how you share this stuff. Jack is going to join me on the show this month to talk about how he sees the role of data in the space business, whether we have a data gap, whether we're data poor or data rich, and

how we deal with outliers, how we share and connect and present data to help provide a narrative without giving too much, you know, overt control over what we want people to see, but just putting the data out there for people to make their own conclusions. This conversation was great. I really recommend you listen to it. But before that, I just make one quick plug to Planetary Society, this organization that produces the show Planetary Radio and does all the other great outreach programs.

SciTech development and other projects that we do here at the organization. It's a member-based nonprofit. Anyone can become a member. Four bucks a month at planetary.org slash join. We don't take government money and we don't have any big corporate aerospace sponsors. That means we're independent. That means we can talk about and focus on things that are truly interesting and exciting to us. About space, you hear that on the show all the time. Now is the time to join as a member or donate.

This happens to also be the period where we are fundraising for advocacy and policy. My program here at the Planetary Society that enables me and my colleague Jack Corrales to work in Washington, D.C. every single day.

providing and presenting this perspective of the value of space exploration, the value of space science and planetary defense and the search for life, things that are just generally not covered by other organizations. I truly believe that the Planetary Society provides a unique role and a unique perspective in the policy arena that if we don't do it, no one else will.

If you like what you hear, if you like what we do, even if you couldn't make it to the day of action this year, consider joining or donating to the Planetary Society at planetary.org slash join or planetary.org slash donate. And now, Jack Kaur. Jack Kaur, thank you for joining me today in the Space Policy Edition. Yeah, thanks for having me. I will just go right out and say it. Do you think the space industry has a data problem? I think it has a lot of data. There's a lot of data in this industry.

So we have, you know, it's primarily still, we talk a lot about commercial space, but the government provides a lot of the funding, the

the contracts, the money in this industry, and they are obligated to be open about that. We do have a lot of space companies that are now publicly traded, so we get quarterly data from that. So I would say, and honestly, I do think a lot of the non-publicly traded companies like SpaceX or Blue Origin, smaller businesses are pretty open with their

like, you know, kind of this build in the open concept and are willing to provide information even if it's not required. So I would say there's not, there is, we don't have a data problem, but I think, yeah,

One of my goals, and I would say yours is as well, and that's why I think we probably would get along quite well because we're both two people who are passionate about that, is taking all the data in the industry, compiling it, making it digestible, and being able to actually tell a story from it.

That, I think, is a really important point. And just from my experience, when I put together the Apollo spending history, I was almost shocked. I did this a few years ago. So it was like 50 years after Apollo started or landed. And no one had actually done a detailed analysis of it. The data that everyone had been referencing, I traced it back to one publication from the mid-1970s that was riddled with errors that no one had ever looked at again.

Why do you think, you know, for such an important or at least visible industry and activity of government, why do you think there's so few people or efforts to compile and accurately represent this data and present it in a way that people can actively make decisions with? Yeah, I mean, I think the industry is...

going back to the Apollo days, but it really wasn't until you could probably start with 2015, but really the 2020s when it became a commercial industry where there was enough

Perhaps money flowing in where there can be a space industry publication like Payload or what you guys do at Planetary Society. We think it's this huge industry, but it's still a burgeoning field that most people don't really know about and most people don't

haven't had the time to really dig through it. I've always been curious, how long did that take you to put together that Apollo, you know, massive spreadsheet of funding that... Well, I had to go to NASA's historical archives and, you know, get, you know, elbow deep in, you

you know, variety of old boxes and to, and just kind of look through it. I mean, I spent probably a full day, at least just seeking out the data and then trying to interpret it and compile it and put it all together and double check and validate where those were. You know, a lot of the data was self-referential.

And this is what you see, this kind of someone, NASA publishes it somewhere, and then people just start referencing that, and then they lose the source to that, and then you don't know where this data is coming from anymore. So it was almost, and then trying to reconcile it with other publicized sources of it. I mean, it took a couple of months. And again, it took that effort just to go through

the archives. And frankly, I didn't even know if I'd find anything there. And perhaps one of the most important documents that I found there that I had never seen anywhere else or any congressional archives was just the breakouts of, you know, after Apollo 11, just what NASA spent on not just the entire program, but the data and tracking, the construction of facilities, the overhead, all these things that are really relevant to it. But for some reason, we're just never carried

forward. So the other thing I think from that I learned too, was that it's not like NASA itself had a secret collection of this data themselves. I found a memo basically from an effort done with internally within NASA 20 years earlier saying, we have no idea. It's basically the same problem that I was having. And I wonder, this kind of goes back, you know, you talk about this industry, you know,

being relatively new, that's a good point. And that it's intersecting with finance and money for the first time beyond just a government program. Do you think that fundamentally changes the relationship in that, you know, you worked in finance before working as a payload as a reporter and

This is, I imagine they're relative, but they want to know this data in order to make wise investments. And is that maybe the shift too, that once private money started really coming into play, there was a more motivation to understand some of these fundamentals and financials? Yeah, I think that's a really good point because it is, you know, when it's siloed within government, you know, the stakeholders are all taxpayers, right?

but you're not going to have a taxpayer knocking down a door somewhere asking for a detailed breakout of the Apollo. Well, there's one. It's me, but I think I might be the only one. Exactly. But when you do have private money in it, there's different motivations. You have the investors who need to know this information to make decisions, but then you just have a different

level of interest from the general public. People want to see if a company is succeeding or not, if it's a potential maybe public investment that they'd want to make, or there's just something and it's maybe a referendum on human psychology or maybe...

capitalist Western human psychology. Once you put money in it, people just have more of an interest. But that is, you know, that's... Was it Larry Summers who said, no one ever washes a rental car? Yeah, exactly. But yeah, that is, so that's, I can give also for folks who are listening that don't

or have heard of payload or don't really know payload payload is a space media publication that focuses on the business and policy of space the publication was founded four or five years ago really when

Commercial space and the SPACs are coming online and we really started to see a pickup in the space industry. So a lot of what we cover, if the mainstream media publications or even space publications are covering SpaceX and NASA at 80% of the time, we kind of flip that and cover the startups or the smaller entities more.

at 80% of the time and cover the fundraisers and more nuanced stories in the industry.

You said something. I just want to jump back to something. This is interesting. You mentioned the SPAC era, the Special Purpose Acquisition Company. I'll let you explain what that is. But does that undermine, in a sense, the role of data here? Because a lot of that exuberance, to me at that time, about investing in these companies that had no... Or literally just would not basically share their long-term revenue strategies or business plans, if I could summarize what a SPAC was.

that that was almost like a faith-based approach, right? Data did not seem to be, they purposely went through these processes to go public in order not to share data. So how does that, you know, was there lessons you think you learned from that? Or what do you see from that era about the role of data in these types of decisions in finance and space? Yeah, well, they would share their projections, right?

But with a, with a SPAC, you don't have a, it's not an IPO. So you don't, it's not, you don't have a bank underwriting it and really digging in to if these projections are real or not. And, and like, let's put institutional money behind that. So like I have, I have a good example. I wrote an article late last year about planet. And when they went public, um,

At the time, they were talking about commercial revenue being 75% of their business by 2025, so by now. Well, it turns out the opposite happened. The commercial revenue declined since they went public.

And now commercial revenue is only 25% of the business. So a flip from what they were saying it was going to be at 75%. And that's a big deal. They went public basically on this kind of grand idea that it's not just commercial space, but there's going to be commercial revenue and earth observation. And frankly, it never really came to fruition. Obviously, it's growing, but just not at the magnitude. It's still a government revenue-derived business.

But you can, you know, when these facts went public, they could say what they want and they could project what they want, just as any company that goes public can. But if you're forecasting something and talking about the future, it's not data. It's just a hunch and you're never really held accountable for it. So this article I found really interesting to write because it shows, hey, they were actually, they actually performed the opposite of what they said when they SPACed.

And maybe some investors lost some money because they thought there was going to be this big commercial demand boom. But that makes being able to track the data afterwards even more important to be able to tell the story and look back on that SPAC era and say, hey, maybe be careful next time you really bet on these big ideas that a company will put forth. Yeah. I mean, it's like, be careful about when a company...

does not give you all the details about its business. I mean, that's, this is, it's just so interesting to me. So you worked in finance in the aerospace sector. Is that a correct way to characterize that? And so do you see that there may be a mismatch between, or do you think it's required for, to make good decisions on the financial side and the analytical side, even internally, even within a private financial situation? Yeah.

that you also need to understand something about the domain of space. This is another area that I've wondered about. This idea, you know, with SPACs and all these, you know, even things like the

One of my things always makes me crazy is, you know, the Merrill Lynch or whatever bank of America claims that space will be, you know, however, 18 kajillion dollar business. And, and we'll just, so, and by the way, we, we will happily sell you the financial products to, to get in on this. Yeah. And they'll say Uber is part of that. Right. Yeah. Anything that has been a kind of geolocation trip. And I mean, and I think you can see where this hype comes from led by some very visible companies, but at the end of the day,

You know, not I wonder if there's a you can have all the data analytics you want in terms of tracking projections and dollars and quants. But if you don't understand that the space environment is unforgivably harsh or that orbits require you to only you know, there's a lot of limiting spaces like a fundamentally alien domain. And it's so alien that our metaphors don't really do us much help. They almost hinder us in terms of applying things that we've done on Earth out into space.

Do you think that's part of the problem here? Part of the mismatch is that you can have all the data you want, but unless we have some kind of specific domain knowledge, physics or mechanical engineering, or just any sort of historical kind of engagement with the issue, you can easily be led astray by some of the hype. Yeah, definitely. And the industry is very passionate and the people who are in the industry are very passionate. And I love that. I'm very passionate. I didn't go into space because...

I didn't care about the stars and want, and not, I went into space. I do want to see this industry succeed. And I want to see human space flight succeed in a robust space economy, just because I'm interested in it. So that is everywhere. And you're kind of allowed to get away with being, uh,

Very big, like having having big, big ideas about the space industry because you kind of need a dream to be here. But you get, you know, you definitely get lettuce. You can get led astray if you're not used to that type of talk and conversation.

If you're not used to being able to mitigate some of those big statements. So I think you don't need a physics background or engineering background. It's more just like time spent in the industry. Like I've now been a reporter in the industry for three years. And, you know, I think I understand the industry pretty well, but there's just a lot of historical context that needs to be understood here.

you know, when I'm writing some of these pieces that it, it took a little while for me to pick up on. Like you kind of have to understand that, you know, there has been Leo satcom constellations before Starlink. And, and,

You know, Iridium is doing OK now, but they went through bankruptcy. And, you know, Global Star has had their issues, too. So it's just these things are measured in decades, not like six months. Right. Yeah. It's like SpaceX didn't make the first reusable spacecraft. I mean, technically, that was the shuttle. Right. But it's a very different application of it that most people have kind of watched that out of the history. Yeah.

I feel that exuberance. I mean, this was, there's a great paper that I actually had the author on, on this show called human spaceflight as religion by Roger Lanius. He was the chief historian of NASA and that there is kind of this, you know, we, we feel something very big about this activity that we do and going into space. And a lot of us, myself included, just want this to be true. And so, and this is where I actually find the data part to be really helpful in tempering my,

my ambition or my desire for something to be, to be the case that, um,

you know, not just, you know, the understanding some of the dynamics of the requirements of, you know, being in orbit means you have to be moving and you can't just park in one place or like, you know, when they talk about the, the ultimate high ground of the moon, it's, you know, you can do your math and physics and it's like three days and you have to orbit and all this precise stuff, or, you know, a lot of this stuff is just, it helps you understand the limits of what we can do. And it's humbling in a sense, but also I can see why that would be. And I wonder, again, that's almost why some of the data, uh,

coalition and analysis and sharing publicly isn't really paid for by anybody until more recently. I mean, I think, I mean, there's people probably internally that do this for a variety of companies, but I mean, I can think of few equivalents of your role in the public kind of outreach that it's just like accessible to anybody. And because it almost like undermines the dream perhaps. Right. So do you, do you almost feel like there's too much of a faith-based

motivation to this field that is kind of like a funny counterpoint to like the hard engineering, right? And the hard data that you need to get into the space in the first place. I mean, when you started reporting, when you kind of got into this field, were you struck by, was it distinct from other fields that you had studied or engaged with in your role in finance or prior to that? Yeah. I mean, there's a lot of similarities to finance. And I think having...

a finance background in this new space age is very helpful because I was doing very similar work back in my, like when I was financing private equity acquisitions in aerospace, it's, you know, we're looking at financial statements. We're understanding trends. We're understanding what makes a business good and bad. We're trying to be realistic, realistic,

with readers by laying out problems. Like if someone's going to talk about orbital refueling, right? Like, yeah, that's a buzzword, but where's the money coming from?

Let's look at what makes us good and bad. How realistic is this? And some of that analysis, a lot of all of that analysis that I'm able to just like naturally think about a business comes from, comes from the finance role. And I think that's important to like be, you know, just upfront with the readers. I would never like poo poo passion and dreams because I too am a dreamer and I, and I really appreciate people who, who think big and entrepreneurs that think big and,

And maybe set lofty goals for themselves and for their employees. But for someone who's in the industry or following the industry, it is important to understand, you know, maybe look at the data and see where the trends actually are and how something actually is doing versus not.

just hearing about it or telling the story. What I love about a good chart is that it's one as objective as you're going to get. And it also allows the reader to come to their own conclusion. Like I will, when I publish a chart and talk about a chart or a trend, I'll publish a chart and I'm going to break the chart down and contextualize it and offer an analysis of it

But the reader is allowed to be engaged, too, in reading that chart and maybe having a different interpretation of it, which I find is just a more active way of storytelling. Tell me more about that. That's an aspect that you've done such a great job on payload research about the visualization of data. What have you learned about this story?

effort about how you do make that narrative. How do you communicate something to the reader in a way that they can engage with it, but not in a sense where you're just saying not lecture them about it or tell them or force them to a certain conclusion? Is this kind of an art you've had to develop over time? Is there a key aspect to making sure that you communicate effectively with data? I think the chart, just by having a chart itself, will allow the reader to immediately

Form their own opinions on it. And then maybe it can be, maybe they are questioning more of the things I'm saying because they, they read the chart in a different way, but there is, you know, there's an art to doing it because like I mentioned before, it's,

A chart should be objective, but the amount of times I've fought with myself over how many footnotes I can put in a chart because it's like things do need to be contextualized and a chart can be a little misleading in it. And I kind of have to either explain that as a footnote, but it has to be a very brief footnote.

or it can be explained through the context and the writing afterwards. I'll give an example of this, which is debated in the industry, but Rocket Lab is the second most prolific launcher with Electron, the second most prolific commercial launcher outside of SpaceX and Falcon 9. Most of their launches come from New Zealand. They're domiciled in the US, but...

But when I put together, let's say, a chart on global launches from the year, should Rocket Lab launches out of New Zealand be considered New Zealand launches or US launches? And this is debated throughout the industry. And I'm firmly in the, if it's on New Zealand soil, it should be New Zealand, you know, considered a New Zealand launch. But this is just something that's debated throughout the industry, which would require...

someone can look at, you know, which require a footnote or at least some sort of contextualization. Another point with that is like, well, let's say Rocket Lab launched Electron 10 times from New Zealand, 15 times from New Zealand.

Well, you know, the electron's payload capacity to Leo is like, I don't know, 300 kilograms. So the aggregate amount of payload volume it put into mass payload volume you put into orbit is call it, I don't know, three or 4,000 kilograms, which is the equivalent to

a fourth of one Starlink Falcon 9 launch or a Vulcan launch. So, you know, a chart can show like Rocket Lab launching X amount of times and looking awesome, but how much payload are they actually putting into orbit? So those are things that like maybe a chart can't exactly explain, but it's good to

kind of just explain all the dynamics in the commentary below. Well, and I think that's where having some sort of independent perspective is so important to that you're able to step back and say, what are we actually trying? What's actually useful to know? What's the important part of knowing where something launches from, right? Like it's for in the New Zealand case with rocket lab, um,

they're launching from new zealand so the impact the skill set the infrastructure that's going to be in new zealand it doesn't make calling it a u.s launch does not help you understand that aspect of it right payload levels right i mean yeah you can talk about what are we trying to communicate are we trying to take about overall capability or mass capability or just are we only interested in number of launches and why would we care just about that

And you can see then how having a dearth of other sources of independent or data-driven reporting or analysis can then make it really easy also then to kind of create an alternative narrative, right? And maybe kind of going to some of this over-exuberance we talked about earlier with the SPACs, that unless you know the kind of the context and the industry relatively well, you

You can use these same tools to kind of create intentionally or unintentionally an alternative story. Yes. Yeah. Yeah. It's the, it's, it's the amazing part about charts and also the drawback of charts because those charts can be cropped and they should, they should be cut and shared places. But then without the context of that chart, I'm all for people coming to their own conclusions of it, but it is more helpful when you have, you know, a little con some context below. What have you learned about,

reputation and credibility in this role, because particularly with with payload establishing as a relatively new organization. And then you, I think, from this perspective and how you're presenting information. And this is, you know, we talk about this as quantitative information. We can measure it. You know, we would kind of intuit, oh, this will be completely objective. Right. We're just putting the information out. But I think we've just stated that how you present something is

or can create the narrative about it, regardless if you're sharing the same data, you know, in various different ways. How do you approach that role of credibility and what drives your thinking in terms of what you're trying to achieve with this? I mean, I would say getting it right is just...

super, super important, particularly with your role and my role. I'd rather limit how many articles I publish and really just focus on getting particularly the chart right with being patient and double checking things and quadruple checking things and making sure everything is right. Because when you write an article, it happens. You can get stuff wrong.

And you can issue a correction with a chart. Those things are generally screenshotted and shared pretty fast. And then, yeah, particularly you mentioned Payload is five years old, but there's not that many space media publications out there. And we've been able to garner a reputation for ourselves where we are a trusted, reliable source. And with that, it means doing our very best to make sure that we are

You know, reporting the truth and putting out data that is the truth. And I just take I take that like very, very seriously because people like with with your work, too, people are just going to cite it.

at this point in payload's life cycle and, and, and your work as well, they're going to cite it as the truth. And then that can be cited, cited, and just make its way around the internet in 24 hours as the truth. Well, again, like, like with my Apollo anecdote, right? That someone did not do a good job 40 years ago and therefore created a completely alternative story, you know, to how we, you know, that, that program spending until someone went back

to the beginning. So yeah, you know, maybe, yeah, it would be great. I think people are still citing my work 40 years. I'm not saying that, but the idea of like you, as you're saying, like once it goes out there, people will rely on that. And I think maybe if you care about

in a way, like having a real commitment to the, to the industry or to the activity of going into space, you want it to be right. Even if it's, doesn't always tell you like the most romantic story, you'd rather it be right and allow people to make them good decisions. I think that's always been my argument. It's like,

Knowing the limitations and challenges of what we do is better because then we can make smarter investments with the resources we do have rather than, again, just kind of going on some misplaced sense of faith or what things, you know, quote unquote should be. And that doesn't really help anybody in the long run. Yeah, no, 100%. It can both attenuate people's passions, but it can also like...

reinforce them in a good way too. It can be like, hey, this is actually working and the data is backing it up and there's like a ton of tailwinds here. And it's not just a marketing tool or a sales tool. It's just data that's showing it. So that's really cool. I think another thing is like

This is the first question you asked at the beginning of this podcast, but is there enough data in the industry? I think there is a lot of data in the industry, but there's not that many people who are going to take the time to compile it and then put it in a form that's easily digestible. Because for you and I, it could take...

It could take a day, could take a couple hours, could take a day, could take a couple weeks to put together a data set and then put it into one chart. And you have like, not many other people are going to do it. So when one person does do it,

then that is going to be kind of used as the reputable source of it and then kind of quoted based on that, which is great because you can, you know, we have the privilege of taking all this data and then putting it in a very digestible format that someone can, you know, look at or read a three to five minute article and understand what's happening. But, you know, we have the responsibility to make sure that is right because people will, you know,

you know, the amount of work we put into it will have these kind of moats that other people are not going to are not going to try to do themselves. So there's just going to be less people working on it and putting more emphasis on on the work that we've done. Is there a distinction that you've noticed between government reporting of data and and coming out of the space industry side? Like, for example, just I guess I'll lay out like I would assume that public

publicly supported programs would have more data to work with. So, you know, obviously I work with NASA budget data a ton. They publish a ton of detail every single year in their congressional budgets. And even theoretically, I could, you know, send a FOIA request to NASA and ask for more detailed information. Companies, unless they're, you know, I know that there are laws about publicly traded companies, but a lot of these space businesses are not yet publicly traded companies.

They, in a sense, get to choose. This is where you can correct me. There's different requirements for data sharing. And maybe just fundamentally, a public institution has a responsibility to be open and transparent in what it's doing. Yeah.

Whereas you don't have that same responsibility, at least to the public, you have a different fiduciary responsibility to shareholders and other investors. But do you see that represented in the type and consistency and quality of data coming out about government space activities versus private space activities?

I think the data is pretty good. You do have the big players are publicly traded and they are going to have that fiduciary duty to at least historically provide quarterly revenues, margins, talk about how much they're investing in a specific program. I think once you start getting into the forecasting that a company like we talked about,

you know, these SPACs were doing, then you get into murky territory that government is not going to go into. But in terms of like historical data, I feel pretty good about the space companies. And then if you're a really small company, if you just got funded, normally it takes three to four years for you to even be revenue generating. So there's not even data to really, you know, understand or sift through. It's more of them just like building the product.

SpaceX is a good example. They're the biggest space business and they are privately traded, but they do put out information. We get every couple months, we get information on their Starlink customer count online. We can see it's not in a PDF document like you would get with government data, but there is data out there where you can see, and this is how Payload puts together our...

Are SpaceX revenue estimates. I was going to bring that up. I mean, you, one of the, I think your most valuable regular activities you do is yeah, you put together these annual revenues for, for SpaceX, but I mean, and that's kind of the essence of the problem though, right? The fact that you have to do this.

that they don't just share this themselves, that you have to kind of make a lot of smart guesses about it. And at the end of the day, it's an estimate. I mean, it's very thoughtfully done. But you're depending on, in a sense, piecing together a bunch of different pieces of data, right? So without someone to do that,

how I mean that that I guess that's what I'm going into that the the requirements of sharing things it's almost like at their if they're excited to share it maybe like with Starlink they will yeah but if not then they probably won't and that to me makes it how do you then you know this goes into a bigger issue of like measurement with that we record things that we have data for and how do you seek out you know things that they don't want to share so how do you approach that with something with a company like SpaceX

Yeah, so we publish, like you mentioned, we publish our SpaceX revenue estimates and we also publish the builds and we also publish...

the assumptions that we, you know, at the bottom, we have, you know, maybe 2000 words of, of our thoughts behind it, which I think is super important just to like be open with people about how we're coming, how we're building this. And frankly, we do, you know, every year we get, you know, opinions and crowdsource thoughts on how to make the model better and better. And I think we're able to tune it continuously and,

They might not put out the information directly, but I feel pretty confident in all the numbers and the breakdown in our estimates and in the chart that we put together and the table we put together because they do publish it somewhere on the internet. It's just all aggregated. Are they required? Help me understand exactly how SpaceX is privately traded and what that means compared to a publicly traded company.

Yeah, sure. I mean, they have... Their investors are... It's private capital. It's not on the stock market easily. The shares don't easily trade hands. So they do to their investors...

to my understanding, they do publish, but they do send out financial data. I've never seen them. I never had access to it. I don't have any proprietary access to that kind of data, but I think they do have a fiduciary duty to keep their investors, so call it Fidelity's a big investor of theirs, Fidelity up to date on how they're doing. Maybe that's yearly, maybe that's every six months, but that's not for the broader public.

Whereas if it's publicly traded, then that information is all out there on a quarterly basis for everyone to see. What they do do is they publish a year-end Starlink report that allows us to see how many maritime customers they have, how many aviation customers they have, the breakdown of each Starlink sub-segment that works.

They're not going to lie about it. They don't have a fiduciary duty not to lie, but they're not going to lie about it. There's no reason for them to lie about it. So it's not easily accessible for people to see what a SpaceX revenue is.

would look like. But I find it, you know, it's part of my job to take that information that's out there, that's scattered throughout the internet that comes from reputable sources and compile it all together to create what I deem to be a pretty decent stab at an estimate. We'll be right back with the rest of our Space Policy edition of Planetary Radio after this short break.

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Each package includes images and factoids, hands-on activities, experiments and games, and special surprises. A lifelong passion for space, science, and discovery starts when we're young. Give the gift of the cosmos to the explorer in your life. Is that...

In a sense, a competitive advantage for SpaceX that they're privately traded rather than publicly traded and that they have a smaller group of people they report to that, in a sense, it's almost like being a club. From my understanding, you have to work hard to find a way to invest in SpaceX, right? And that probably drives up the perceived...

value of it. I mean, so I guess, is this unique in this sector or in other sectors? Do you see this from your knowledge of finance and other areas? Is this type of setup for a company, this privately traded approach, is this uncommon or is it common? Yeah, it really depends on the company. If you look at SpaceX that has

pretty much an infinite access to capital because of their success and various other reasons. It's a big benefit to be private. They don't need more capital. Maybe the first couple of years of Starlink, they struggled financially.

With, you know, getting the thing profitable or maybe the satellites weren't working or they spent way too much in R&D and CapEx that the public markets and public analysts would be really complaining about, but was probably good for the business as a whole in a longer, you know, longer horizon mindset.

So for companies that don't have an issue, Blue Origin is another example. They have infinite access to capital. Being private is great. If you're a company like Rocket Lab, which would be a comp, and we brought them up a couple of times, they don't have that

infinite access to capital. So being on the public markets is great for them. And they would probably be slower in the private markets where they're able to raise, people are excited about Rocket Lab. They're able to have these offerings and raise capital pretty easily rather than banging on the doors of VCs across the world and trying to cobble together some dollars. They're able to just to raise capital more easily. It really just depends. I mean, it's

It's more of like, do you have access to capital? Do you think SpaceX is an outlier in the industry? Not just its capability, but we were just talking about access to capital.

I'll add a second part to that question. Do you think that that outlier, talking about it in data terms, pushes the average expectation in the wrong direction? People aren't doing their standard deviation, their deviations analysis of things or what the median would be. Is SpaceX almost a problem for setting expectations for performance of other companies? Yeah. They are an outlier because of Elon, but also because of the tremendous success they've had. And

Actually, I would say almost all of it is because of the tremendous success. I mean, when did they land their first booster in 2015? So 10 years ago. Companies aren't particularly close to doing that. So call it a 10 to 12 to 13 year head start on companies. And also, Starlink is growing really, really fast and way faster than

than I imagined, way faster than... We talk about how there's an issue in the industry of companies over-promising and under-delivering. Starlink is almost under-promising and over-delivering. They are growing so tremendously fast and opening up brand new markets in a way that took a lot of people by surprise, particularly last year when they

They doubled their customer base in an increasing fashion. It's good to comp to SpaceX because we'll take Rocket Lab again. If SpaceX is valued at $350 billion...

Rocket Lab can go out to the public markets and say, hey, we should be 10% of that value. It's just 10%. We just need to get 10% of the revenues of SpaceX, 10% of the launch of SpaceX. And that puts them at a $35 billion market cap.

Meanwhile, I don't know what they're trading in now, but they're probably something more like 2% of what SpaceX is valued. In that sense, it's good to have a really successful company that investors are backing and then

And the other side of things, it's like, well, you're a rocket company that can only launch two or three times a year, or you're not even thinking about reusability yet, or you're a satellite communication company that is getting eaten by Starlink. You just have these really high expectations of

that a near monopoly like SpaceX is, it just makes it difficult to play and come to. Yeah. I see an additional issue with that is that I believe that the policy outcomes then also overweight SpaceX and consider that an average outcome for commercial space partnerships rather than a wild outlier. I think we're running that experiment now with the commercial lunar payload services that the

the predicate is that, oh, well, we'll have at least one or two SpaceX like capabilities delivered from this. And I always, you know, I think most people forget that there were, there were two commercial orbital transportation services contracts awarded and, and, you know, the other one's still going now owned by, by Northrop Grumman, but that is not setting the space world on fire, right? You don't have Cygnus and Antares. I don't even know if they have Antares anymore, right? I think they don't have access to their R181s.

And that that could have easily been the outcome of the commercial transportation awards that you could have had two companies that were just happy to do exactly what they were told to do and nothing more. But SpaceX has taken that story and almost like

You can correct me as maybe single handedly almost created the whole industry of commercial space or allowed it to be taken seriously as a as an investment opportunity. Yeah. And it's it's also dictated how the government approaches procurement. And Eclipse is just such a good example because, yeah, these are low. These are low cost lunar landers, super low cost, 100 million bucks for a lunar lander.

But what have the results been? We had one for the astrobotics lander, you know, failed in orbit. You had two intuitive machines that landed sideways at one. But then you also had one, you know, Firefly Blue Ghost lander that has been really successful.

Right. And it's not just $100 million for a lander. It's, you know, $300 million over five years. I mean, to get to that one single lander purchase, right? So the government spent $1.5 billion, which is roughly one probably guaranteed landing on the surface of the classic way. And obviously, I mean, there are other reasons why they do this. But yeah, I mean, I...

I wonder and I worry sometimes that the application of this type of partnership so widely is just without the level of... There is real risk here, right? We just really don't know, right? We have like a kind of one data point. I think as data people, we can say one data point, usually you can extrapolate your line in any direction from that one data point, right? And so do you see that as being a real issue here? Or do you just... I mean, in a sense, too, maybe we just don't have...

We had to have a really incomplete data set. Like this is such a new activity that we're doing. Why would we know? Yeah, I think the, I think the approach of low cost kind of iterative multiple shots on goal is the right one. Even if it, you know, we have a lot of failures here and that's, you know, you could, you could tie that back to SpaceX, but it's just like the commercial approach to it.

And frankly, it is, you know, you have Doge that is coming in and taking a real whack at a lot of these, like, science programs. It's going to do really, really irreparable damage to the industry. But I think there's generally, like, you can't have...

You can't have SLS launching at $2 billion a launch. Every three years. Yeah, you can't. And like Frank James Webb has done amazing things for understanding of science, but it was a $10 billion project. And the DOD used to, and NASA used to procure satellites that were a billion dollars for just one exquisite satellite. Yeah.

I think that even if you have a lot of failures with this kind of more commercial high risk mindset, I do think it is the right approach. I think you can just like coming from like a business standpoint, you're you're it, it helps tremendously with supply chains, getting manufacturing ramp. If you can say, Hey, intuitive machines, you had two that fell over sideways, but you can have a third, you know, like maybe on the third, we can actually get it going.

And, you know, once you have these programs that are just one and done, and then where do people go after that? It's not really a sustainable model. I see that. Yeah. There's an interesting, I mean, there's no test like real world test, right? Like actually doing it and learning from, from that. I wonder though, that there's, if there's a limited domain or specific domains of space where that works, right? So to do,

Rapid iteration, you need to be, in a sense, you have to have a reason to go a lot and you have to have a place that you can go relatively quickly in order to have that feedback cycle. And so, obviously, I think quite a bit about this on the science side. Could you ever have a rapidly iterative project to land a lander on Europa? It takes seven years to get there, even with, let's say, Starship is working.

four years, right? Three years to get there. There may just be, you know, maybe this may just be limited to types of science that you do like on the moon or at Mars or in earth orbit. But once you get further out, you really start to lose the pathway with that. And the other thing too, it's like, it's interesting. This was like a topic I wanted to explore just a bit here at the end. You talk about James Webb, right? Which is this rightly pointed at as kind of this

Very troubled, somewhat of a boondoggle development. But of course, now once it's up there and it's working better than perfect, right? It's just like perfectly working. How do you measure? We can measure dollars. We can count them. They're discrete. We can measure jobs. We can measure economic impact.

How do we measure knowing the oldest thing that we've ever seen in the universe? Or how do we measure peering back into the recombination period of the cosmos? Or how do we measure the feeling of looking at a picture of some of these, the nebula that I first sent back? Yeah. That almost becomes an issue too that we, I worry sometimes and I do this as that, it's funny because I'm such a data scientist.

left brain person by nature, but I have the simultaneous, like I'm at the planetary society because of Carl Sagan was like preaching to me, right. That my seeing my first rocket launch was my conversion moment. Right. That it, and I use that very deliberately, that word, right. That I felt something big change in me seeing that. And I worry sometimes that we downplay that there's a deeper aspect and experience side of this because it's not measurable. Yeah.

Yeah. Something happened over the last five, 10 years that in the public eye and maybe in the political eye too, that separated space from science is,

And it's really, really quite sad because that's me too. That's why I got, I'm in this industry because I looked up at the stars and wondered what the hell is going on, you know, and just like dreamt about it. And that is science. That is an understanding of our existence. Yeah.

is going to need government and institutional support. But then I'm sure you get it too, but like from friends and family, it becomes like space is a waste of money. Why do we care about space? It could be because it just became politicized and you have, you

you know, Elon really making it like you love the guy or hate the guy. And that means you love space or you hate space. It can also be frankly, like you just have how many people, how many 20 year olds have seen the stars? My guess is like, you know, I get crazy to think that, but like probably while they're swiping through Tik TOK or something. Yeah. And it's like, and like, and maybe if they have, it's like once or twice. So,

I'm not like in the science world, like I'm in the industry world, but I, I find it very disheartening to realize that, that it's people are not really associating the two as much as they, as they should. And then, and then how do you, how do you, it's harder to like measure the impact of James Webb when the general public is not thinking or is not associating science with space and NASA and,

Yeah. We're, I'm like, this is veering into like one of my favorite topics that we probably don't have time to fully explore, but I do think I resonate that with that very strongly. And I, and I, I believe I would say that that's part of a larger, uh,

cultural shift towards literal experience and a downplaying of a more of a harder to express non-logical, you know, maybe sublime or soulful experience just in all aspects of our culture. And as part of that space has to be utilitarian.

And, you know, obviously that's going to be driven by when you're trying to raise money for your commercial space venture, you have to justify it as a way of returning some value to your investors. Right. And so the whole framing goes to what are my extractive abilities, whether I'm talking about costs of providing a service or mediating communication, or am I going to bring some valuable something back to earth or use it in space? And so it shifts that conversation is that it's as a

Not a not a this kind of hallowed, you know, ennobling activity, but, you know, a more, again, this utilitarian extractive relationship. And that's not necessary. I mean, I think we should have that space isn't, you know, a national park. But yeah, I think that we've lost in a sense or downplayed that the other aspect of it is that there's still this too. And part of that, I think, is because that there's.

the interplay between the kind of the big growth in space and the energy in space has been on this commercial side and not fully embracing that or being able to use it in the right way or allowing missions to cost so much and finding ways to make that work. I will say, though, data wise, you know, we do see those pulling from, you know, Pew and others on a regular basis that when they do ask people, what should the

priorities of NASA be. It's always at the, I mean, consistently every time that they've done this, I think every two or three years over the last 10 years, it's earth science, planetary defense and space science by a lot. Right. And then at the very bottom, it's send humans to Mars and send, send to the moon. I always like to say that public polling, you just invert the chart and that's your spending chart. And so there is a disconnect too. And I wonder maybe that there's also a data gap in, in,

really understanding public opinions about space. And frankly, probably most people don't think too much about it either. But there is, I think, a serious issue. And I wonder finding...

And this is where I try to, you know, we look into this data aspect of data is really important, but it can't capture everything. There's no science benefit index that we can like quantifiably measure. And that's always going to be a challenge in a world where I think it helps to have this type of measurable approach, right? We can always count dollars. We can't count feelings. Yeah. Yeah.

That's a good way of summing this all up because I made a anecdotal statement and then another story was told by your data statement. But you can also ask how that question was answered.

phrased. And if you only elicited a response because it was asked and whether people are thinking about this independently. But I do appreciate that. I would hope that people are thinking about this and thinking about space as a science domain and being curious about what's out there.

I almost worry that. Yeah. Cause if I would say we got to put something on the rockets that everyone's making and sure we can have community, everything, you know, you make money with things that point down back to earth and space and you

you know, we talk about going further out, but you kind of need something to do there. And even if you want to go and settle, you know, create a settlement on Mars, science gives you something to do, make you to, and you're probably quite motivated to want to know that so you don't die on Mars, right? Like when they discovered that, oh, the ground is actually full of a highly reactive perchlorate chemical that will not make it easy to use in a lot of different ways or certainly to grow things.

that you don't want to just be, you know, you don't want to be the type of, you go, all right, great. I'm on Mars. I'm going to carry on humanity. And what do you do? You just stare at the wall, right? The entire time you need something to give you broader meaning and purpose. I want to go back to one more thing about SpaceX. Again, SpaceX is really, I think the core of a lot of this

It's probably why, like in a certain sense, Payload exists like downstream that you're downstream of the fact that they've helped create this larger capability and industry. And then you have all these other ambitious companies coming up.

How do you, when you approach space, you did a plug that you did a really, and are doing a really great series. You went to Starbase down in Texas. Yeah. You're kind of following this, like the impact to the community, what it's like to be down there. And it must be probably quite energetic and exciting. How do you...

Again, try to use it. Has data been helpful to kind of temper how you've been feeling about that? Or is it only validated? And I'll throw this in here. Last year, you were saying you expected Starship to be fully operational, like reaching orbit by the end of the year. And now we've seen...

two rapid unscheduled disassemblies of the rocket. Has that changed how you're approaching it? Or was that a moment where the data helped you recontextualize your expectations? Or do you still see something very fundamental, both in your reporting and in your data that you have of the company? Yeah. So this series that you're referring to is a six-month project of really understanding the city's

that SpaceX and Starbase is in, and mainly the people of the city,

It was a story about people and jobs that are difficult and are on the frontier and that require risk-taking. And that is just a theme that I love, whether it was SpaceX or I was down there and it's a huge commercial shrimping hub. It's also a city that's... Brownsville is a city that's 97% Hispanic. So you think about people who are working on the frontier. So that's

And trying to start a new life for themselves. So there is, you know, that ties in with passion and dreaming, which I love. And I really like, I think that everybody should have these dreams. And if that means that, you know, you're...

You have to be careful because you don't want to go on an earnings call and say a dream that's going to make people invest money in something that doesn't exist. But internally, and when you're trying to find a pursuit in the world, I think thinking big and dreaming is great. And then you're also opening yourself up to criticism. And if SpaceX is coming into a community, how do people react to it? And why do people react to it? So there was a lot of just...

That was kind of an on-the-ground, long-form journalism. When I look at the data behind Starship, yeah, they've had a string of a lot of successful launches. But I would say, yeah, they have a string of successful launches, and the last two have been...

It's okay to have one blow up, but to have two back to back at similar times is a setback for them. It doesn't change how I view their operational status because what I would consider operational is when they're deploying their Starlink satellites, which...

That's like the lifeblood of the company. Exactly. At this point, we're going to soon get to a point where they might just retire Falcon 9 and customer launches

that are not Starlink because it just makes up such a small, it will eventually make up such a small amount of the revenue. Right now it already does, but eventually it'll be like minuscule. It could be 10% of the revenue. I don't think they will because like, I think they are good. Either loss leader is launching NASA missions or. I think they are good actors in the industry. And like they, like you mentioned, they opened up the startup world. It was really these transporter rideshare missions that opened up

commercial space and they're running these missions at a break even. It's not a huge money maker for them. Maybe they make some money. Starship is not operational, but we recently got data from some filing where it said how much SpaceX is investing in Starbase and Starship each year, which I don't want to quote the number because I want to be right on it. You can continue to track

the program from a monetary dollar and data perspective, but you can also see these gigantic blowups that are clear setbacks that maybe even set back like a... That will set back orbital refueling and HLS that you can use both the data in that and also the broader storytelling to tell a picture of... Paint a picture of what SpaceX is doing with Starship.

So you would say, yeah, is he setbacks more than some fundamental issue that you, I'm definitely not worried about this being a fundamental issue. Um,

I think the next big question is whether they can land successfully if their heat shield on the second stage starship can work well enough to be able to catch it consistently back at the launch pad. That's going to be the big kind of existential question of it. I'm worried because like, I never want to see like two big kabooms. Like that's just bad and like not great for just the public experience.

public safety and public perception. But in terms of the program, it's eventually going to get done. By the way, we're in... What is it right now? We're in 2025. They were originally, when SpaceX won the HLS contract, they were supposed to be landing crew, I believe, on the moon by now. So we talk about them being this hyperactive, amazingly fast, rapid iteration program. But they too are...

we can put, we can chart that out and show that they are delayed by three or four years from what the, you know, taxpayer dollars originally banked on. I'm old enough to remember how long Falcon Heavy took to become operational, right? I was there and

I think in 2013, when they were talking about it launching in 2015, I forget exactly, but yeah, it's, it's not uncharacteristic and I guess, and again, rocket blowups are accountable thing. So I look forward to your charts on this. Jack Kor, thank you so much for your, for your insight and all the work that you do at Payload Research. How, how can people find you? Yeah, you can just, my name is Jack, last name K-U-H-R. I'm

on LinkedIn and Twitter. My stuff is also, my writing is also available on payloadspace.com. But this has been, Casey, it's been awesome to chat and love to do this again. Absolutely. Plenty to talk about and lots more interesting data to sort through.

We've reached the end of this month's episode of the Space Policy Edition of Planetary Radio. But we will be back next month with more discussions on the politics and philosophies and ideas that power space science and exploration.

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