Summary: In the 1960s many people predicted that we would have a large presence in space by now. They were right that we have the technology. Why do we have nothing but a space station, doing little useful at immense cost? What will eventually push us into space? This is a revision of a post from 2 years ago.
Given time, a desire, considerable innovation, and sufficient effort and money, man can eventually explore our solar system. Given his enormous curiosity about the universe in which he lives and his compelling urge to go where no one has ever been before, this will be done.
— Report by President John F. Kennedy’s advisory committee on space, 10 January 1961.
The incredible accomplishments of Project Apollo
Project Apollo was one of the greatest engineering feats in history. See the story in One Giant Leap: The Impossible Mission That Flew Us to the Moon
“Fifty years later, One Giant Leap is the sweeping, definitive behind-the-scenes account of the furious race to complete one of mankind’s greatest achievements. It’s a story filled with surprises – from the item the astronauts almost forgot to take with them (the American flag), to the extraordinary impact Apollo would have back on Earth, and on the way we live today.”
Unfortunately, that last sentence is totally false.
Men and Women in Space: a dead end.
For all of the money we are spending, NASA should NOT be talking about going to the Moon – We did that 50 years ago. They should be focused on the much bigger things we are doing, including Mars (of which the Moon is a part), Defense and Science!
— Donald J. Trump (@realDonaldTrump) June 7, 2019
History consists of missed opportunities and pursuit of dead ends. The former: what if Charles Babbage had completed his Difference Engine (a mechanical calculator) by 1850, and afterwards he or his successors completed his Analytical Engine (a programmable computer) in the 1870s? The later: what if America had not poured so much of its energy, creativity, and technical talent into the space program in the 1960s? What if we had spent it on some other form of research, and received a big payoff?
It’s not just hindsight. During the 1950s and 1960s the government commissioned numerous committees to consider the benefits of manned spaceflight; most of them repeated the conclusions of the 1960 Hornig Committee and the 1961 Weisner Committee (quoted above; the Chairman became a life-long opponent of the manned space program): the cost would outweigh the benefits. We did not listen.
The first 58 years of men and women in space validated those predictions. Little useful science was produced. The technological spin-offs have been even smaller. Many commonly cited ones are myths, such as Tang, Teflon, Velcro, MRI, barcodes, quartz clocks, and smoke detectors. NASA’s buying did not accelerate the use and power of computers. As for the commercial benefits of opening the final frontier, we turn to the definitive account of this wrong turn is Dark Side of the Moon
“Those who justified the presence of men in space argued that the early astronauts were like the medieval seafarers, looking for places to colonize. But the efforts of Columbus and Magellan were inspired by the commercial potential of new territories – exploration was pointless unless commerce followed. The Portuguese and Spanish courts would have pulled the plug on the explorers quicker than you can say Vasco da Gama if their voyages had been exclusively esoteric, or if they had brought back only worthless rocks. Instead, they returned with valuable commodities – precious metals, spices, trinkets, potatoes – which thrilled the medieval money crunchers.
“In addition, the places they sought to explore were, by virtue of their existence on Earth, actually habitable. The same could not be said for colonies on the Moon or Mars. …The Moon, remember, makes Antarctica seem like an oasis.”
NASA, with some help from other nations, built a $150 billion space station that does little of commercial or scientific value proportional to its cost (it has a planned operating life of 30 years).
Compare the cost of men in space to other big projects.
As usual, research by the Congressional Research Service provides an invaluable perspective: “The Manhattan Project, the Apollo Program, and Federal Energy Technology R&D Programs: A Comparative Analysis“ by Deborah D. Stine. She compares the Manhattan and Apollo projects in both absolute terms (constant dollars) and relative to the US economy at that time.
- The Manhattan Project was intense (in terms of GDP), small in dollars, and brief. It was an unqualified success.
- The Apollo Program was intense, large in dollars, and long. Apollo met its narrow goal, but was a near-total failure in larger terms. It produced no space infrastructure or long-term national benefits.
- Energy research has been a low fraction of GDP per year, but massive in dollars and sustained for almost 2 generations – producing few useful results so far – relative to the immense cost.
But this is for just Apollo, narrowly defined. Adding in Projects Mercury and Gemini, plus the robot lunar landers (necessary for the Apollo landings), more than doubles the cost – giving a better estimate of the cost of the manned space program through 1972. The cost in our dollars would be almost $300 billion. That spending as a fraction of our GDP would be roughly $700 billion (numbers from this excellent analysis by Casey Dreier).
We’re one for three in the game of big R&D. Not a happy record. We’ll have to do better with R&D in the future if we’re to prosper – or even survive.
Robert Heinlein predicts the future of space travel
Robert Heinlein wrote “Where To” in 1952, giving predictions about the year 2000 (included in the collection Expanded Universe
By 2000 AD we could have O’Neil colonies, self-supporting and exporting power to Earth, at both Lagrange-4 and Lagrange-5, transfer stations in orbit about Earth and around Luna, a permanent base on Luna equipped with an electric catapult – and a geriatrics retirement home. …
If you’re willing to settle today for a constant-boost on the close order of magnitude of 1/1000 G we can start the project later this afternoon, as there are several known ways of building constant-boost jobs with that tiny acceleration – even light-sail ships.
{Total time for a constant boost roundtrip to Mars and to Pluto at two low rates of acceleration.}
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- 1/100 G………………50 days………………50 weeks
- 1/1000 G……………150 days……………150 weeks
I prefer to talk about light-sail ship (or rather ships that sail in the “Solar wind”) because the above table shows that we have the entire Solar System available to us right now; it is not necessary to wait for the year 2000 and new breakthroughs.
Ten weeks to Mars, a round trip to Pluto in 2 years and 9 months. It took the Pilgrims in the Mayflower nine weeks and 3 days to cross the Atlantic. …England, Holland, Spain, and Portugal all created worldwide empires with ships that took as long to get anywhere and back as would a 1/1000 G spaceship. … Even the tiniest constant boost turns sailing the Solar System into a money-making commercial venture.
In 1980 he updated that article, writing “By the end of this century mankind will have explored this solar system and the first ship intended to reach the nearest star will be building.”
Acceleration of 1/1000 G is ~1 centimeter/second2. In 16 days that would carry you a million kilometers (Mars is 55 – 400 million km from Earth). It’s a slow way to travel the solar system, but within our reach. A combination of solar sails and atomic-powered ion drives could do this using current technology (the Dawn space probe has a solar-powered ion drive).
In the 1860s a typical clipper could travel the 14,000 miles from China to London in 15 – 17 weeks at an average speed of 17 knots. A voyage from Australia to England carrying wool took 10 weeks. Modern cargo ships using fuel-efficient methods travel at similar speeds. In a generation we could travel around the inner solar system with similar travel times.
Jerry Pournelle explains who will colonize space
Jerry Pournelle gives more detail about the potential of space in his Galaxy Science Fiction articles “Those Pesky Belters and Their Torchships” (May 1974) and “Life among the asteroids” (July 1974). Both were reprinted in Life Among Asteroids
“A worldwide civilization was built around sailing ships and steamers making voyages of weeks to months. There’s no reason to believe it couldn’t happen in space. …
“What kind of people would go out there? {T}hose going out there will be fleeing something. Bureaucracy, perhaps. Fleeing their spouses. Sent by a judge who wants them off Earth. Adventurers looking to make a fortune. Idealists who want to establish a “truly free society.” Fanatics for some cult or other who want to raise their children ‘properly.'”
Five decades later none of this has happened, with no signs it will happen in the foreseeable future. Why? As we see today, Earth has millions of people willing to migrate to a better land. But we’re missing the other necessary ingredient: a financial incentive.
Profit fueled exploration of the New World. Investors financed the American colonies seeking profits from minerals, crops, and furs. The Merchant Adventurers and Massachusetts Bay Company financed the largely Puritan colonies; the London Company established the Jamestown colony. The Hudson Bay Company led the exploration and development of northern Canada as a purely commercial venture.
Investors, public and private, wisely declined to act on space enthusiasts’ confident forecasts about the wealth and valuable knowledge to be found in space. The voyages by unmanned craft have shown that space (beyond Earth’s orbit) has little to offer us at our current level of technology. We have the ability to colonize space, but an insufficient reason to do so.
The most commonly cited reason in the 1970s, when so many people believed that by now mineral scarcities would have pushed prices to levels where investors could profitably tap the vast resources of the moon or asteroids. That has not happened, and seems unlikely for many generations – perhaps centuries.
A likely reason for space travel, eventually.
In Rendezvous with Rama
“At 0946 GMT on the morning of September 11 in the exceptionally beautiful summer of the year 2077, most of the inhabitants of Europe saw a dazzling fireball appear in the eastern sky. Within seconds it was brighter than the Sun, and as it moved across the heavens – at first in utter silence – it left behind it a churning column of dust and smoke.
“Somewhere above Austria it began to disintegrate, producing a series of concussions so violent that more than a million people had their hearing permanently damaged. They were the lucky ones. Moving at fifty kilometers a second, a thousand tons of rock and metal impacted on the plains of northern Italy, destroying in a few flaming moments the labor of centuries. The cities of Padua and Verona were wiped from the face of the Earth; the last glories of Venice sank forever beneath the sea as the waters of the Adriatic came thundering landward after the hammer blow from space.
“Six hundred thousand people died, and the total damage was more than a trillion dollars. But the loss to art, to history, to science – to the whole human race, for the rest of time – was beyond all computation. It was as if a great war had been fought and lost in a single morning; and few could draw much pleasure from the fact that, as the dust of destruction slowly settled, for months the whole world witnessed the most splendid dawns and sunsets since Krakatoa.
“After the initial shock, mankind reacted with a determination and a unity that no earlier age could have shown. Such a disaster, it was realized, might not occur again for a thousand years – but it might occur tomorrow. And the next time, the consequences could be even worse. Very well; there would be no next time.
“A hundred years earlier, a much poorer world, with far feebler resources, had squandered its wealth attempting to destroy weapons launched, suicidally, by mankind against itself. The effort had never been successful, but the skills acquired then had not been forgotten. Now they could be used for a far nobler purpose, and on an infinitely vaster stage. No meteorite large enough to cause catastrophe would ever again be allowed to breach the defenses of Earth.
“So began Project SPACEGUARD.”
In 1998, two films described such an event: Deep Impact (1998)
- Asteroid Day: reminding us of the threat, pushing us out into space.
- Three things to know about asteroids, certain death from the sky (eventually).
- Celebrate Asteroid Day, about preventing death from the sky!
For More Information
Ideas! For shopping ideas see my recommended books and films at Amazon.
If you liked this post, like us on Facebook and follow us on Twitter. See about immigration, and especially these posts about investing in the future …
- Could a new “Manhattan Project” produce radically new energy sources?, 29 June 2010.
- Slashing R&D in favor of more important things, like wars and profits. Who cares about America’s future?
- The X-51A is $300 million of fun. Can we spend our money smarter and build a better future?
What happened to Project Apollo?
On 20 July 1969 Neil Armstrong and Buzz Aldrin landed the Eagle on the moon’s Sea of Tranquility and Armstrong took his giant leap for humanity. To understand why the Apollo program accomplished so little I recommend reading Dark Side of the Moon: The Magnificent Madness of the American Lunar Quest
“For a very brief moment during the 1960s, America was moonstruck. Boys dreamt of being an astronaut; girls dreamed of marrying one. Americans drank Tang, bought “space pens” that wrote upside down, wore clothes made of space age Mylar, and took imaginary rockets to the moon from theme parks scattered around the country.
“But despite the best efforts of a generation of scientists, the almost foolhardy heroics of the astronauts, and 35 billion dollars, the moon turned out to be a place of “magnificent desolation,” to use Buzz Aldrin’s words: a sterile rock of no purpose to anyone. In Dark Side of the Moon, Gerard J. DeGroot reveals how NASA cashed in on the Americans’ thirst for heroes in an age of discontent and became obsessed with putting men in space. The moon mission was sold as a race which America could not afford to lose. Landing on the moon, it was argued, would be good for the economy, for politics, and for the soul. It could even win the Cold War.
“The great tragedy is that so much effort and expense was devoted to a small step that did virtually nothing for mankind.
“Drawing on meticulous archival research, DeGroot cuts through the myths constructed by the Eisenhower, Kennedy, and Johnson administrations and sustained by NASA ever since. He finds a gang of cynics, demagogues, scheming politicians, and corporations who amassed enormous power and profits by exploiting the fear of what the Russians might do in space.
“Exposing the truth behind one of the most revered fictions of American history, Dark Side of the Moon explains why the American space program has been caught in a state of purposeless wandering ever since Neil Armstrong descended from Apollo 11 and stepped onto the moon. The effort devoted to the space program was indeed magnificent and its cultural impact was profound, but the purpose of the program was as desolate and dry as lunar dust.”
