The Astral Mirror
By Ben Bova
()
About this ebook
"What you are about to read deals with the stars, the wide galactic future that lies at our fingertips today... both factual articles and fictional stories. In a world where robots are causing human unemployment, spaceflight is so commonplace the news media regard it as dull, and science fiction has become a mainstay of the bestseller lists... nonfiction has become just as exciting as the fiction.
"So here are a dozen and a half views of the world, past present and future, as seen through the Astral Mirror...."
—Ben Bova,
from his Introduction
Ben Bova
Dr. Ben Bova has not only helped to write about the future, he helped create it. The author of more than one hundred futuristic novels and nonfiction books, he has been involved in science and advanced technology since the very beginnings of the space program. President Emeritus of the National Space Society, Dr. Bova is a frequent commentator on radio and television, and a widely popular lecturer. He has also been an award-winning editor and an executive in the aerospace industry.
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The Astral Mirror - Ben Bova
"What you are about to read deals with the stars, the wide galactic future that lies at our fingertips today... both factual articles and fictional stories. In a world where robots are causing human unemployment, spaceflight is so commonplace the news media regard it as dull, and science fiction has become a mainstay of the bestseller lists... nonfiction has become just as exciting as the fiction.
"So here are a dozen and a half views of the world, past present and future, as seen through the Astral Mirror...."
—Ben Bova,
from his Introduction
THE ASTRAL MIRROR
by
BEN BOVA
Produced by ReAnimus Press
Other books by Ben Bova:
The Exiles Trilogy
The Star Conquerors (Collectors' Edition)
The Star Conquerors (Standard Edition)
Colony
The Kinsman Saga
Vengeance of Orion
Orion in the Dying Time
Orion and the Conqueror
Orion Among the Stars
Star Watchmen
As on a Darkling Plain
The Winds of Altair
Test of Fire
The Starcrossed
To Save The Sun
The Weathermakers
The Dueling Machine
The Multiple Man
Escape!
Forward in Time
Maxwell's Demons
Twice Seven
The Story of Light
Immortality
Space Travel - A Science Fiction Writer's Guide
The Craft of Writing Science Fiction that Sells
© 2013,1985 by Ben Bova. All rights reserved.
http://ReAnimus.com/authors/benbova
Cover Art by Clay Hagebusch
Smashwords Edition License Notes
This ebook is licensed for your personal enjoyment only. This ebook may not be re-sold or given away to other people. If you would like to share this book with another person, please purchase an additional copy for each person. If you're reading this book and did not purchase it, or it was not purchased for your use only, then please purchase your own copy. Thank you for respecting the hard work of this author.
~~~
To Cele Goldsmith Lalli and Mike Lalli
~~~
Table of Contents
The Astral Mirror
Starflight
Free Enterprise
Robot Welfare
The Angel's Gift
The Secret Life of Henry K.
Science Fiction
Love Calls
Amorality Tale
Out of Time
Science Fiction and Reality
To Be or Not
The Man Who Saw Gunga Din Thirty Times
The System
Cement
Building a Real World
It's Right Over Your Nose
The Perfect Warrior
The Future of Science: Prometheus, Apollo, Athena
ABOUT THE AUTHOR
The Astral Mirror
Astral: adv. [from Latin astrum, star] 1. Of or relating to the stars; starry; 2. consisting of, or belonging to, or being a supersensible substance supposed to be next above the tangible world in refinement; 3. visionary, unwordly, exalted...
If art is a mirror held up to life, then the stories and essays in this collection are an astral mirror. What you are about to read certainly deals with the stars, the wide galactic future that lies at our fingertips today. Since these works of fiction and fact deal with the future, they are astral in the second sense, as well. They are beyond the tangible, everyday world of the here-and-now. And I fondly hope that you will find them astral in the third sense, too: visionary, unworldly—or rather, otherworldly—and farseeing enough to leave you feeling exalted.
This book is somewhat different from most science fiction collections. It contains both factual articles and fictional stories. In a world where robots are causing human unemployment, spaceflight is so commonplace that the news media regard it as dull, and science fiction has become a mainstay of the best seller lists, the nonfiction has become just as exciting as the fiction.
So here are a dozen and a half views of the world, past, present, and future, as seen through the Astral Mirror.
Ben Bova
West Hartford, Connecticut
Starflight
Ad astra per aspera. The first piece we hold up before the Astral Mirror deals quite literally with the stars—how to get to them. I had this fantasy about putting together a panel of distinguished experts to brainstorm the problem of traveling to the stars. A few years after this essay appeared in print, an enterprising student at Boston University actually created the television broadcast I had dreamed of and asked me to be its anchor man. Among the stars
of the panel was Professor Philip Morrison of the Massachusetts Institute of Technology, the brightest and most human man I have ever met. If—no, when we get to the stars, it will be because scientist/teachers such as he have paved the way.
Imagine a television talk show, a panel discussion, where the moderator or anchor man
is a science fiction writer.
He’s sitting at a large round table of gleaming dark wood with touches of shining metal around the edges. Sitting at the other chairs around the table are experts from every field of science. Farther away from the table are the cameras and lights and technicians.
The science fiction writer starts the discussion:
In the old days—say, fifty years ago—science fiction writers had a much easier job than we have now. For example, when Edgar Rice Burroughs wanted a strange and marvelous setting in his stories, he simply placed his characters on Mars or Venus or even in the center of the Earth. Nobody could tell him he was wrong.
I thought Burroughs wrote about Tarzan,
says the astronomer, two seats down from the writer.
Nodding, the writer answers, "He did. But he also wrote terrific adventure stories that were set on Mars and Venus and in Pellucidar, the land inside the Earth."
A hollow Earth?
the geophysicist grumbles. Nonsense.
That’s just the trouble,
the writer says. Today I can’t get away with such stuff. People know that the Earth isn’t hollow. They know that Venus is a red-hot desert underneath its clouds, where the ground temperature’s hot enough to melt aluminum and the air is an unbreathable soup...
The astronomer agrees. Terrible place.
And Mars,
the writer continues, with something like a tear gleaming in the corner of one eye, "good old Mars—we’ve photographed it. No canals, no cities, no Martian princesses. Nothing but craters and desert."
Well, what’s your problem?
the physicist asks sharply. She’s sitting across the table from the writer. I should think you’d be glad to get all this accurate information. Now you can write stories that have real, accurate backgrounds.
Yes, that’s true,
the writer admits. And sometimes I do write such stories. But where do I turn to when I want an absolutely wild and wonderful planet? I can’t tell my readers that Mars has cities of glass surrounded by fields of purple trees. I can’t tell them that Venus is populated by sea serpents that sing underwater...
Why on Earth would you want to tell anyone such nonsense?
the medical doctor asks, looking startled.
Because sometimes I just want to write a story that goes way beyond the everyday world. Sometimes I need a strange and wonderful landscape for a story. And there aren’t any... not in our solar system.
The entire panel of experts falls silent. Finally the writer says, "So where can a science fiction writer turn if he wants to create a bizarre world with strange-looking alien creatures? He’s got to go outside our solar system. He’s got to set his story on a planet that circles a different star.
And that’s the purpose of our discussion, ladies and gentlemen. You’re going to tell me how to get to the stars.
Impossible!
the physicist snaps, with a shake of her head. You just can’t get to the stars. Not really. A rocket would have to reach a burnout speed of nearly 58,000 kilometers per hour to escape from the Sun’s gravitational influence.
We could improve the rockets,
the writer says.
Please let me finish,
says the physicist. Even if the rocket could keep going at its top speed of 58,000 kilometers per hour—which it won’t, once the rocket engines shut down—it would take 80,000 years to reach Alpha Centauri, the next nearest star. Actually, figuring that the rocket will slow down and coast almost all the way, it will take more like a million years for a rocket to get to Alpha Centauri.
The astronomer adds, "And that’s the star that’s closest to our solar system. It’s only 4.3 light-years away. Even if you could travel at the speed of light—which is 300,000 kilometers per second—it would take 4.3 years to get there."
A light-year is a measure of distance, isn’t it?
the science fiction writer asks.
Precisely,
answers the astronomer. Light travels at 300,000 kilometers per second. There are about 31.5 million seconds in a year. Therefore light can travel nearly nine and a half trillion kilometers in a year. This distance is used as a unit of measurement in astronomy and called a light-year.
And the nearest star is 4.3 light-years away,
adds the physicist, somewhat smugly.
Which means it would take you 4.3 years to get there even if you traveled at the speed of light,
the astronomer says.
Undaunted, the science fiction writer asks, Well, what about hyperspace? I can send my starship into super-lightspeed overdrive and leave this continuum for a different dimensional coordinate system. In hyperspace I can travel as fast as I want to. I can get my hero to Alderbaran VI just in time to win the battle... or just late enough to allow the heroine to have been abducted by the tarantula people...
The physicist throws her hands up and nearly screams. Gibberish! Absolute nonsense. You just invented hyperspace as a convenience.
Not me,
the writer counters. The mathematicians did. And anyway, since you can’t prove that I’m wrong, the idea is still useful. Science fiction can always use an idea that hasn’t been proved wrong. Right?
Muttering something about the conservation of energy, the physicist sinks back into her chair.
She’s got good reason to be upset,
the astronomer says. This hyperspace business is merely a mathematical trick. It’s got nothing to do with the real world. Nothing in the universe has been observed to travel faster than light. Chances are that nothing ever will. No... if you want to go to Alpha Centauri, it’s going to take you at least 4.3 years. The speed of light is a barrier that apparently can’t be broken through.
The science fiction writer frowns. The ‘light barrier’ sounds a lot like the ‘sound barrier’ that the aircraft engineers broke through about forty years ago.
All the scientists groan in protest. The engineer, waving his pocket calculator as he speaks, explains that everyone knew that the speed of sound was not a fundamental barrier.
Bullets, meteors, shock waves... there were plenty of things that we knew traveled faster than sound. The problem was to build an airplane that could do it without breaking up because of the stresses it flew into right around Mach 1—sonic speed.
"But nothing goes faster than light, the physicist resumes.
Nothing in the whole universe."
Isn’t there something called tachyons?
the writer asks, his voice somewhat subdued. Don’t they go faster than light?
Tachyons are completely theoretical,
the physicist explains. A few physicists have been playing with the idea that there are particles somewhere in the universe that go faster than light, and they called these particles tachyons. But as far as we know, they don’t exist. In fact, according to the theories, if tachyons did exist we could never see them or use them... so it doesn’t really matter whether they exist or not!
This is beginning to sound awfully gloomy.
The writer leans back in his chair, sulking.
You asked us and we’re telling you,
the physicist insists. Look. At the speed of light, the basic relationships between matter and energy begin to do strange things. For example, we’ve built powerful particle accelerators. In them we can speed up the motion of an electron until it’s going at better than 95 percent of the speed of light. At those speeds, when we add more energy to the electron, it doesn’t go any faster—it gets heavier! Its mass grows. No matter how much energy we pump into the electron, it never reaches light speed. The energy changes into mass.
The writer looks ready to slide under the table and forget the whole affair.
But from a quiet part of the table the mathematician says, in a thin but clear voice, Although the physicist and engineer can’t tell you how to build a ship that goes as fast as light, I can show you what would happen if such a ship existed.
You can?
The writer perks up.
Certainly,
replies the mathematician. Please remember that a mathematician named Newton showed three hundred years ago that an artificial satellite could be established in orbit. Mathematicians can tell you what the stars will look like a billion years from now, or what interactions a mu-meson will undergo in its first millionth of a second of lifetime, or...
Okay, okay,
says the science fiction writer. What about starships?
First,
the mathematician says, "it’s not necessary to travel exactly at the speed of light. If the ship could get to within a few percent of light speed, then time would begin to change aboard the ship.
This all stems from Einstein’s theory of relativity,
he adds. Although most people claim Einstein was a physicist, he was really quite a mathematician as well.
Spare us the commercial,
the medical doctor mumbles. Sniffing slightly, the mathematician goes on, "The physicist told you that strange things begin to happen to matter and energy when you get close to light speed. Well, strange things happen to time, as well.
The mathematics of relativity,
he explains, "show that if a ship were to approach the speed of light, time aboard the ship would slow down. A clock aboard the ship would tick slower and slower as the ship’s speed got closer and closer to the speed of light. Everything aboard the ship, the human crew included, would slow down with respect to time on Earth. But aboard the ship itself, nothing would seem to change. Everything would seem quite normal, even though years of time might pass on Earth before a second elapses on the ship.
"This is the basis of the famous ‘twin paradox’ of relativity. If one twin brother stayed on Earth while the other flew to a star at nearly the speed of light, when the flying twin returned to Earth, he would be younger than the brother he left behind.
"The German mathematician Eugen Sanger once gave the following example: A ship flying at more than 90 percent of the speed of light travels 1,000 light-years to Polaris, the North Star. Ignoring such details as the time spent accelerating to top speed and decelerating to landing speed again, the ship could make the flight to Polaris and back to Earth in a subjective time of 20 years. That is, to the crew on board the ship, only 20 years will have passed. But when they return to Earth, our planet will be 2,000 years older than when they left!"
That’s wild,
says the science fiction writer, looking a little groggy at this point.
The mathematician nods happily. So you see, if we could travel at speeds close to the speed of light, we could reach the stars. There’s no need to break the so-called ‘light barrier’ to get to the stars.
Not to all the stars,
says the astronomer. Just to a handful of stars, the nearest ones. Even at light speed, the stars are too far away.
The mathematician disagrees. Come now. Sanger showed you could fly across the entire known universe in a subjective time of only 40 years, if you fly at 99 percent of the speed of light.
And return to an Earth that’s billions of years older than when you left it,
the astronomer retorts. Who would go on such a venture? How could you know that the Earth would still exist after such a time?
Wait... wait...
The writer puts an end to their argument before it can go any further. "If it’s mathematically possible to cover such distances, could we really build ships to do the job? I mean, sticking to these ideas that there is a ‘light barrier’ and that nothing can go faster than light, can we someday build starships that will go at least close to the speed of light?"
You might not have to,
says the engineer. There’s always the possibility of an interstellar ark. You know, a huge ship with a completely self-sufficient colony aboard. They’d sail out toward the stars at speeds not much more than solar escape velocity—that 58,000 kilometers per hour we were talking about a few minutes ago.
But that would take thousands of years... millions...
The engineer shrugs. Sure, it would take generations and generations. People would be born aboard the ship, live out their lives, and die. Their great-great-many-greats-grandchildren would eventually get to the star they were aiming for. But that would be the simplest kind of ship to build. Awfully big, of course—like a moving city. But it could be built. I think.
The psychiatrist, who’s been silent up to now, says, I doubt that normal, well-adjusted human beings would ever embark on such a journey. How could they, in good conscience? They’d be dooming many generations of their offspring to live and die aboard the ark. How do they know that the children who finally reach their destination star will want to live there?
Or,
the astronomer adds, with a twinkle in his eye, that another group in a faster ship hasn’t beaten them to it?
Even leaving that possibility aside,
the psychiatrist continues, no group of human beings who could be considered to be normal would ever contemplate such a mission. Why, they would have to be a group of exiles. Or religious fanatics.
Like the Pilgrims or Quakers?
somebody asks.
The engineer says, I’m assuming that the rocket engines aboard the ark will be based on nuclear fusion. You know, the hydrogen fusion process, such as the Sun and stars use. Hydrogen atoms come together to make a helium atom, and release energy.
No one’s built a fusion rocket,
the physicist points out. In fact, even the fission rockets—the kind that use uranium or plutonium, where the atoms are split to release energy—have never gone beyond the testing stage. Nobody’s flown one. And the only way we’ve been able to release fusion energy here on Earth is in hydrogen bombs.
I know,
the engineer admits. But progress in fusion research has been very encouraging over the past few years. I think we can safely agree that fusion power will be available before the end of this century.
Perhaps,
the physicist says reluctantly.
Fusion rockets will make tremendous propulsion systems,
the engineer says glowingly.
The engineer goes on to explain about a study undertaken by Dwain F. Spencer and Leonard D. Jaffe at the California Institute of Technology’s Jet Propulsion Laboratory. "Spencer and Jaffe assumed that fusion rockets could be built, and then they tried to design a starship that uses fusion power. The ship they came up with—on paper— had five stages, each one powered by fusion rockets. It can make a round-trip flight to Alpha Centauri in a total elapsed time of 29 years. The ship would accelerate at 32 feet per second, every second, for several months. This is the same force that we feel here on Earth due to our planet’s gravity. So, during the ship’s acceleration period, the crew would feel 1g, their normal Earth weight.
"After several months of this acceleration, the ship would be traveling at a relativistic speed—fast enough for time effects to come into play. It would then shut down its engines and coast the rest of the way to Alpha Centauri. The same procedure would be followed for the return trip: a few months of 1g acceleration, then coasting flight back to Earth.
The 29 years would seem slightly shorter to the ship’s crew,
the engineer says, because of the relativistic time-dilation effect.
And that’s using power that we know we can harness,
the science fiction writer adds excitedly. Why, maybe early next century we could reach Alpha Centauri! People alive today might make the trip!
Excuse me,
says the astronomer. Have any of you heard of the Bussard interstellar ramjet?
R. W. Bussard was a physicist at the Los Alamos Scientific Laboratory when he thought of the interstellar ramjet idea,
the astronomer explains.
"Bussard realized that one of the main drawbacks to any rocket engine is that it must carry all of its propellant with it. Spencer and Jaffe’s five-stage fusion rocket, for example, must be more than 90 percent hydrogen propellant—allowing very little payload for such a huge vehicle. The rocket must also spend a considerable amount of its energy just lifting its own propellant mass. The situation becomes a vicious circle. As long as you must carry all the rocket’s propellant along with you, any increase in speed must be paid for by more propellant mass. When you’re considering flight at close to the speed of light, this becomes a serious obstacle. It poses a fundamental limitation on the amount of energy you can get out of the fusion rocket.
"But suppose the interstellar ship didn’t have to carry any fuel at all? It could carry much more payload. And its range would be unlimited—it could go anywhere, at close to light speed, as long as it could somehow find propellant to feed to its engines.
"Interstellar space is filled with propellant for a hydrogen fusion rocket—hydrogen gas. There is enough hydrogen gas floating freely among the stars to build billions of new stars. This is an enormous supply of propellant.
However,
the astronomer admits, "when I use the word filled I’m being a little overly dramatic. The hydrogen gas is spread very thinly through most of interstellar space... no more than a few atoms per cubic centimeter. By contrast, there are more than 10¹⁹ atoms per cubic centimeter in the air we’re breathing. That’s ten million trillion atoms in the space of a sugar cube. Out among the stars, there are fewer than ten atoms per cubic centimeter.
Bussard calculated that the ramjet will need a tremendously large scoop to funnel in a continuous supply of hydrogen for the fusion rocket engines. For a ship with a payload of 1,000 tons—about the size of a reasonable schooner—a funnel some 2,000 kilometers in radius would be needed.
The mathematician smiles. "I’m tempted to say that such a scoop would be astronomically big."
Yes,
the engineer says, but there’s plenty of open space out there.
And the scoop needn’t be solid material,
the physicist adds. If you could ionize the hydrogen with laser beams, so that the atoms are broken up into electrically charged ions, then the scoop could be nothing more than an immense magnetic field—it would funnel in the electrified ions quite nicely.
Such a ship,
the astronomer goes on, can reach the nearest stars in a few years—of ship time, that is. The center of the Milky Way would be only about 20 years away, and the great spiral galaxy in Andromeda could be reached in about 30 years. Of course, the elapsed time on Earth would be thousands, even millions of years.
Even forgetting that for a moment,
the science fiction writer asks, don’t you think the crew’s going to get bored? Spending 20 or 30 years traveling isn’t going to be much fun. And they’ll be getting older...
A polite cough from the other side of the table turns everyone’s head toward the biochemist.
As long as we’re stretching things,
he says, we might as well consider the possibility of letting the crew sleep for almost the entire flight—slowing down their metabolism so that they don’t age much at all.
Suspended animation?
the writer asks.
With a slightly uncomfortable look, the biochemist replies, You could call it something like that, I suppose. I’m sure that by the time we’re ready to tackle the stars, a technique will have been found to freeze a human being indefinitely. You could freeze the crew shortly after takeoff and then have them awakened automatically when they reach their destination. They won’t age while they’re hibernating.
This is the idea of freezing them at cryogenic temperatures, isn’t it?
the medical doctor asks.
Nodding, the biochemist