Shoot for the Stars: What to Know About the Space Economy


A new space race—one fueled more by commercial conquest than intergalactic domination—is charting solutions to pressing problems in national security, climate change, and communication.

With costs poised to drop and innovation on the rise, the economics of cosmic exploration and commerce are rapidly changing. Harvard Business School Senior Associate Dean Matthew Weinzierl’s new research explores the business opportunities hidden among the stars, particularly in data from and through space, but also in tourism, manufacturing, and even space-based resources.

“From national security to climate change observation and trying to fix some of the biggest problems on Earth, the space economy is now interwoven in our everyday lives,” says Weinzierl, who is also the Joseph and Jacqueline Elbling Professor of Business Administration.

HBS Working Knowledge caught up with Weinzierl to find out what investors should consider in the short term and long term as they think about the future of the space economy. This conversation has been lightly edited for length and clarity.

Baskin: What are the highest-growth areas in the space economy?

Weinzierl: What’s really interesting about what’s happening in space is the fundamental transformation of how it’s being organized. For a long time, when most people thought about what we do in space as humans, they thought of it as primarily a government-led activity. They thought of the James Webb telescope, the International Space Station, or the space shuttle.

“If you look at the area of space getting the most attention―manufacturing of launch vehicles and satellites―its growth is in fact quite strong.”

What’s changed over the past couple decades is that the government-led model, which served us extremely well back in the 1960s, has been revolutionized by bringing in market forces in a way that they never were before. Competition that we take for granted in most sectors of the economy is now driving efficiencies and innovations in the space sector, making it much more of a typical industry, or at least a typical industry with a tremendous amount of technological growth in it.

What we found in our recent paper (which I coauthored with Tina Highfill of the U.S. Bureau of Economic Analysis) is that growth in the space sector overall has been quite modest over the past decade or so, but if you look at the area of space getting the most attention―manufacturing of launch vehicles and satellites―its growth is in fact quite strong. That’s especially true when you adjust for the quality improvements and price declines in that area; something our research is the first to quantify. In other words, we can see the dynamism of the space sector in the data.

Baskin: What was the inflection point for this growth?

Weinzierl: The key point is the early 2000s. The second of two shuttle losses, in 2003, meant that the last space shuttle flight was in 2011. This was a serious crisis for the American space community, given that, 40 years earlier, we put people on the moon. There was this sense that: “Wait a minute, I thought we were going to have space hotels and moon bases.” Instead, the United States was going to have to buy trips for our astronauts to the Space Station from Russia. This caused real soul-searching in the sector.

It’s also when NASA started investing in the commercial space sector in a more concerted way. It created a program called Commercial Orbital Transportation Services (COTS). It spent $500 million to start seeding rocket launch companies to provide a new way to get back to the Space Station, which included companies like Blue Origin, SpaceX, and Sierra. A couple of decades later, SpaceX, in particular, has absolutely revolutionized the costs of launching rockets and thus doing anything in space.

Baskin: How might the space economy affect the future of investing?

Weinzierl: Space investing is a tricky sector.

There was a big boom, a few years ago, in these private space enterprises trying to go public through special purpose acquisition companies (SPACs). In a SPAC, somebody would start a company with the sole idea of acquiring a private company and taking it public—and people who had signed up to invest in the original company could decide whether or not to stick with it.

“Space is one of these industries where typical venture capital models struggle with the deep levels of uncertainty and the longer time frames that it requires.”

The trouble is that, partly because SPACs are a bit opaque, they lend themselves to the risk of hype behind their projections. Most space SPACs crashed in value as soon as they went public, so many investors got a real sense that space is a dangerous place to invest.

But, when you talk to people who are sophisticated space investors, they say, “Sure, that was a bit of a crazy cycle.” But it’s also a bit of an understandable cycle. Space is one of these industries where typical venture capital models struggle with the deep levels of uncertainty and the longer time frames that it requires. But, if you’re a sophisticated space investor with a solid theory for how to understand the pitches you’re hearing, there are still great ideas and companies out there. The sector has been quite resilient, in many ways.

Baskin: How will the space economy affect the future of work?

Weinzierl: In the next five to 10 years, the vast majority of economic activity directly tied to space, which would affect your typical worker, is going to be based on satellites, namely using data from them about the Earth and data through them as satellite internet expands its reach. If we look out a bit further, you get more speculative but exciting ideas like space manufacturing, tourism, and potentially resource extraction from places like the moon and asteroids.

In many ways, those ideas seem very sci-fi. But technology is well-developed for several of them, and it’s more about finding the right business cases. The sector is looking feverishly for them, and, as costs keep coming down, I’m relatively optimistic that more of what seems like sci-fi will become reality over the next couple of decades.

If you think about data as being the backbone of the modern economy, and the transmission of information increasingly defining what so many industries are, space is very much at the center of that over the next five to 10 years. I think the clearest way to see that is through the SpaceX Starlink constellation, which is already a constellation of several thousand satellites. Many thousands more are planned to provide high-speed Internet through satellites around the world. Amazon is planning a similar constellation of satellites, as is China.

Of course, the initial application of that is just providing Internet coverage to places where it’s hard to run fiber-optic cables. But, if you think about the Internet of Things, and the connectivity that everyone is planning to have between every device in every place on Earth, which will enable all sorts of functionality—especially in terms of mobile processing or mobile devices—the existence of this Internet transformation really could redefine sectors quite broadly in a way we can’t foresee. That’s the real magic of markets, after all.

Baskin: What’s the next big headline in the space economy?

Weinzierl: The next really big thing is that SpaceX’s Starship is going to successfully start flying to orbit. Once that happens, I don’t think it’s an exaggeration to say that it changes everything in terms of how we thought about using space. There are two big reasons for that.

One is that it will be able to—at least if you believe the projections—bring launch costs down, again, in a very dramatic way. To put some numbers on that: If you compare launch costs back in the shuttle era to launch costs today, they’ve come down by roughly an order of magnitude, roughly 90 percent. Starship promises to do that again. You could be talking about launch that’s something like 99 percent cheaper.

The other thing that’s a little less well-appreciated, perhaps, is that Starship is so big that it changes how you design what you put up into space. Everyone knows the James Webb Space Telescope. Most of us saw its amazing mirror that unfolded in these hexagonal shapes. If Starship were flying, you could just put the whole Webb in Starship, unfolded.

I’d also emphasize that the national security side of space is becoming increasingly salient, as geopolitical tensions are on the rise. If you think back to the original Space Age, it was all about the Cold War rivalry and the United States and the Soviet Union trying to demonstrate superiority. As we enter what many people call a new Cold War, or a new multipolarity, the calls are once again rising for greater investment in space.

You see that partly in the budgets of the U.S. Space Force, which is now larger than the budget of NASA. You see it when you talk to space startups, especially as the private capital markets have tightened in the past couple of years. You see them leaning on national security contracts as a way to keep their businesses moving forward, which does raise some interesting questions about the development of this sector going forward.

And you see it in the increasing reliance in the other direction, where national security agencies increasingly rely on the commercial side. After all, whether it’s the company Planet capturing images of Russian tanks before the invasion of Ukraine or Starlink providing communications capabilities to Ukrainian troops, or a host of other examples, new capabilities on the commercial side are bringing new options to the table for achieving military objectives, too.

Baskin: What is the big takeaway?

Weinzierl: The biggest changes that have happened in space thus far are on what you might think of as the supply side of a supply-and-demand diagram—on the cost side, rather than on the benefit side, of space. If we want to do more in space, bringing down costs is a great start.

“Figuring out what the killer app is in space is not the kind of thing that one company, or certainly a government, is going to do.”

The next era of space is going to be defined by whether we get a similar level of creativity and innovation on what you might think of as the demand side. How might [leaders] use space? How might they creatively think about ways to use the data and connectivity, or eventually the manufacturing, the tourism, and the resources of space, to revolutionize what they do?

In some ways, it’s relatively straightforward to solve the cost problem in the sense that it’s clear what at least one goal is: to bring down the cost of a rocket launch. Figuring out what the killer app is in space is not the kind of thing that one company, or certainly a government, is going to do. That’s why bringing market forces to space is so important. It’s going to take decentralized creativity of people who know their businesses well and know what their customers need. I hope every business leader out there asks themselves and their teams: “How can we use vastly cheaper access to space to create value in our business?”

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Feedback or ideas to share? Email the Working Knowledge team at hbswk@hbs.edu.

Image: Image by HBSWK with assets from AdobeStock/Sripfoto, AdobeStock/Ismailbasdas, AdobeStock/Ectorfusionart and AdobeStock/NomadPhotoReference



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