America's Pivotal Next Decade in Space
The British built an empire and dominated the world because England controlled the seas. The winner of the current race will secure economic and military dominance for the next 100 years or more.
I am republishing this vital essay from former House Speaker Newt Gingrich, originally published in April 2018, because of what’s at stake in this election. When Newt wrote — presciently, about the legal, economic, and military consequences of this Second Space Age — few thought much of space at all. Today Elon Musk daily makes us aware of the “emanations from the penumbra” of what’s possible.
But only the penumbra. Just a bit of it. The fullness is beyond most people’s imaginations.
Due to breakthroughs since Newt wrote, but which he (and I) predicted, America stands on the edge of an era like that which Columbus launched 500 years ago. Spain dominated the first half of that era, Britain and its colonial progeny the second. Whoever dominates the new era at first could very likely dominate civilization, and all of humanity, for centuries.
And that’s what’s at stake in this election, in which one party seeks to fine and jail Musk for his political views, and if you believe key Democrats’ chatter online, nationalize his company, turning it into Boeing. The net result of that would be to surrender the future — both the far future and the immediate — to America’s enemies, chiefly China. That totalitarian future would represent a new Dark Age. Those decisions are being made right now, and over the next few short years.
Choose wisely. The futures of your grandchildren for 20 generations are at stake. — RDM
America's Pivotal Next Decade in Space
by Newt Gingrich
April 23, 2018
Two historic events happened this week that will lay the groundwork for the future of space exploration in America. First, after a close vote in the Senate, Oklahoma Congressman and former Navy aviator Jim Bridenstine was confirmed as the new head of NASA. I am confident he will be a strong leader in the space industry as we foster in a new era of innovation, technological advancement, and limitless exploration.
Second, in Colorado, Vice President Mike Pence laid out a bold vision for America’s future in space exploration during his opening remarks at the Space Foundation’s 34th Annual Space Symposium in Colorado. The Vice President showed the Trump Administration’s commitment to restoring American leadership in space, rightly pointing out that, “we stand at the dawn of a new era of human activity in space; a turning point that will bring new opportunities and new challenges.”
This renewed interest in space has the potential to dramatically change our space program over the next several years, but in order to achieve this, we must be able to think big and set bold goals.
By the end of the next decade, a very large American spacecraft should be on its way to Mars. We should have a working base on the Moon that’s producing rocket fuel from ice. The first asteroid mining project should be returning valuable minerals to the United States (thus rendering obsolete the Chinese effort to corner the supply of rare minerals on Earth). Between Earth and the Moon, there should be multiple low orbit systems assembling enormous structures and supporting commercial manufacturing, tourism, and other industries in space. If we achieve this before any other country, the United States will have undisputed economic superiority for decades.
At the same time, execution of this seemingly fantastic concept would leapfrog our national defense capabilities far into the 21st century. Having a squadron of reusable rockets (effectively a Mach 25 Air Force) would allow U.S. forces to overfly and outfly the myriad of foreign air and space weapons proliferating today. It would also allow us to have “eyes, ears, and presence” anywhere in the world in under an hour, while also protecting the peace in the global commons of space.
This vision could be made possible by three technological and entrepreneurial revolutions.
First, the advent of reusable rockets is going to lead to a crash in costs and a dramatic increase in frequency of launches. Ranges and regulatory procedures must be modernized as we move from a paradigm of ten heavy launches per year to a paradigm of 70 to 100 heavy launches per year. If the Trump-Pence team pushed it, Falcon Heavy rockets could have more than 120 launches through 2024.
Together, these heavy commercial flights would lift as much payload as 60 of NASA’s Space Launch System (SLS) flights – however there will be at most four SLS flights by end of 2024, according to current plans. Each reusable commercial flight will also cost less than $100 million, while SLS flights will cost $700 million to $1 billion per launch.
On the other end of the payload spectrum, a single squadron of reusable military rockets – “space planes” – using these same technologies and updated with reusable upper stages could easily sort daily long-range flights akin to the SR-71 flight rates before it was retired. Moreover, at five miles per second, such vehicles are more survivable than stealth aircraft and far cheaper. Military space planes with their high flight rates could help to drive costs of operation down into the million-dollar range, potentially cheaper than the SR-71 in its era.
None of this takes into account SpaceX’s planned Big Falcon Rocket, or BFR [now called Starship. — RDM], which may or may not be available for crew and cargo missions by 2024. If it starts flying by then, it will be so cheap the cost compared to SLS will become absurd.
Additionally, there will probably be a new generation of innovators like Elon Musk inventing even better ways to lower the cost of getting into space through dramatically simpler and less expensive manufacturing and new approaches to reusability.
No one in government today is really planning for the scale of change implicit in the rise of reusable rockets and the likelihood that the second generation will be even cheaper.
The second technological revolution underway is in 3D printing, robotics, and autonomous assembly. There are multiple small startups producing full size rocket engines made with 3D printing (e.g., Relativity Space in Los Angeles, Ursa Major Technologies in Berthoud, Colorado, and Additive Rocket Corporation in San Diego).
There are startups working on assembly in space through autonomous systems, such as Made In Space. If the collapse in cost of the reusable rockets is combined with the development of these autonomous distance capabilities, the potential exists for a totally new approach to space.
Instead of designing very small capsules modeled on the Apollo program, we can begin to imagine robotically printing and assembling very large facilities in space. We can combine that with a refueling capability from launching specialized tanker ships and by mining the Moon for water and turning it into fuel at one-sixth Earth’s gravity. (This could help the next generation of innovators to create the first space elevator on the Moon, but that is still probably 30 years away). Now we begin to create real capabilities for exploring space.
We will be able to autonomously mine an asteroid by the end of the next decade as part of this general wave of development. We will also be able to build the first Mars-bound ship on a scale that will be much safer for human passengers (big ships shield from solar radiation much more effectively than small ships). This large vessel would also provide far more exploration and science capabilities once the ship reaches Mars.
Third, beyond the immediate capabilities, there are breakthroughs in artificial intelligence and nanoscale science and technology, which will be coming into practical use long before 2024.
One of our great challenges is stepping away from the current static planning model, which assumes the currently available systems are the state of the art. If we want to plan for 2024, or 2030, we have to ask what will be available years from now. Given the rate of new innovations we are seeing, the pattern of greater capability at lower cost will continue to accelerate.
This enormous opportunity requires three things:
Planning must start now within this breakout framework, and every existing program must be assessed against the scale of change. We cannot keep building stagecoaches when the railroad is being built at the same time. Several long-existing bureaucratic programs should be cannibalized, so their money can be transferred to new, higher-value projects.
NASA and the Department of Defense must accept that most of the breakthroughs will come from small entrepreneurial companies that are not part of the traditional lobbyist-heavy, technologically slow, big company model we’ve relied on for the past several decades. Every time I turn around, I run into smart people (some still students) who are creating a better, cheaper, more capable future. Today, they are outside the planning and procurement systems of NASA and DoD. That must change immediately.
Laws must be created to empower lunar and asteroid developers. For example, a 30-year tax holiday for profits from space should be enacted to create a real incentive for investment and a real competitive alliance between billionaires willing to invest in space. The potential for an American breakout into the solar system has to be developed. There will not be enough tax-paid money to get all this done, but there will be plenty of private capital, if it is encouraged and rewarded.
President Trump must approach space the same way he approached the Wollman Rink in Central Park and the golf course on Ferry Point. In both cases, government had failed. In both cases, Citizen Trump got the job done in record time and for a very low cost by applying common sense and cutting through the bureaucracy.
NASA and DoD need the same direct reform approach that Citizen Trump brought to the New York City bureaucracy.
If President Trump and Vice President Pence take on an American breakout in space as a project to be managed and demand a review every month of the changes in the large bureaucracies, they will be astounded by how fast things develop – and how far we will have come by the end of Trump’s second term.
As a last observation, we cannot forget that this is a national security race with China for the settlement and industrialization of space. The winner will secure economic and military might for the next 100 years.
The British largely wrote maritime law because England controlled the seas. America wrote the rules of air travel because we had the largest commercial air sector. China intends to win the new space race, so it can write the rules of the road for space and make up for its bad decision in the early 1400s to ban sea trade (which led to China’s century of humiliation).
As Vice President Pence said at the Space Symposium, those brave Americans who helped us win the first space race “chose to lead in space, not just to propel our economy and ensure our national security, but above all because they knew that the rules and the values of space –- like every great frontier –- will be written by those who have the courage to get there first and the commitment to stay.”
It is vital that Americans – as a free people – focus our energy and resources toward leading the human race into space within the framework of freedom and the rule of law.
If America fails to capitalize on this opportunity and concedes space to other countries, we will likely see our own century of humiliation.
Instead, we should follow the Vice President’s words and have “the courage to dream bigger, the determination to work harder, the confidence to push farther than the trailblazers who showed us the way, [and] meet the future that awaits.”
This is how America will lead the world in the centuries to come.
-- America in Space 2024 originally appeared at Gingrich Productions.