Sam said “Good!”
Gentry stared at him again, longer and more thoughtfully than before.
“My boy,” he said, “it seems that what happened came about because you did not fear the supposed hallucination. Your mind remained open, and that was the whole difference. Why was that? Why weren’t you afraid?”
Sam flushed. “I’m not sure, sir. As I look back on it, though, it seemed to me I was puzzled as to why I was sent here. I had been doing my best to study neurophysiology through my computerized courses, and I knew very little about astrophysics. The Central Computer had my record, all of it, the full details of everything I had ever studied and I couldn’t imagine why I had been sent here.
“Then, when you first mentioned the hallucinations, I thought, ‘That must be it. I was sent here to look into it.’ I just made up my mind that was the thing I had to do. I had no time to be afraid, Dr. Gentry. I had a problem to solve and I-I had faith in the Central Computer. It wouldn’t have sent me here, if I weren’t up to it.”
Gentry shook his head. “I’m afraid I wouldn’t have had that much faith in that machine. But they say faith can move mountains, and I guess it did in this case.”
The Instability
Professor Firebrenner had explained it carefully. “Time-perception depends on the structure of the Universe. When the Universe is expanding, we experience time as going forward; when it is contracting, we experience it going backward. If we could somehow force the Universe to be in stasis, neither expanding nor contracting, time would stand still.”
“But you can’t put the Universe in stasis,” said Mr. Atkins, fascinated.
“I can put a little portion of the Universe in stasis, however. “ said the professor. “ Just enough to hold a ship. Time will stand still and we can move forward or backward at will and the entire trip will last less than an instant. But all the parts of the Universe will move while we stand still, while we are nailed to the fabric of the Universe. The Earth moves about the Sun, the Sun moves about the core of the Galaxy, the Galaxy moves about some center of gravity, all the Galaxies move.
“I calculated those motions and I find that 27.5 million years in the future, a red dwarf star will occupy the position our Sun does now. If we go 27.5 million years into the future, in less than an instant that red dwarf star will be near our spaceship and we can come home after studying it a bit.”
Atkins said, “Can that be done?”
“I’ve sent experimental animals through time, but I can’t make them automatically return. If you and I go, we can then manipulate the controls so that we can return.”
“And you want me along?”
“Of course. There should be two. Two people would be more easily believed than one alone. Come, it will be an incredible adventure.”
Atkins inspected the ship. It was a 2217 Glenn-fusion model and looked beautiful. “Suppose,” he said, “that it lands inside the red dwarf star.”
“It won’t,” said the professor, “but if it does, that’s the chance we take.”
“But when we get back, the Sun and Earth will have moved on. We’ll be in space.”
“Of course, but how far can the Sun and Earth move in the few hours it will take us to observe the star? With this ship we will catch up to our beloved planet. Are you ready, Mr. Atkins?”
“Ready,” sighed Atkins.
Professor Firebrenner made the necessary adjustments and nailed the ship to the fabric of the
Universe while 27.5 million years passed. And then, in less than a flash, time began to move forward again in the usual way, and everything in the Universe moved forward with it.
Through the viewing port of their ship, Professor Firebrenner and Mr. Atkins could see the small orb of the red dwarf star.
The professor smiled. “You and I, Atkins,” he said, “are the first ever to see, close at hand, any star other than our own Sun.”
They remained two-and-a-half hours during which they photographed the star and its spectrum and as many neighboring stars as they could, made special coronagraphic observations, tested the chemical composition of the interstellar gas, and then Professor Firebrenner said, rather reluctantly, “I think we had better go home now.”
Again, the controls were adjusted and the ship was nailed to the fabric of the Universe. They went 27.5 million years into the past, and in less than a flash, they were back where they started.
Space was black. There was nothing.
Atkins said, “What happened? Where are the Earth and Sun?”
The professor frowned. He said, “ Going back in time must be different. The entire Universe must have moved.”
“Where could it move?”
“I don’t know. Other objects shift position within the Universe, but the Universe as a whole must move in an upper-dimensional direction. We are here in the absolute vacuum, in primeval Chaos.”
“But we’re here. It’s not primeval Chaos anymore.”
“Exactly. That means we’ve introduced an instability at this place where we exist, and that means -”
Even as he said that, a Big Bang obliterated them. A new Universe came into being and began to expand.
Alexander The God
Alexander Hoskins grew seriously interested in computers at the age of fourteen and quickly realized that he was interested in nothing much else.
His teachers encouraged him and excused him from classes in order that he might concentrate on this hobby of his. His father, who worked for IBM, encouraged him, too, got him some necessary equipment and explained some knotty points to him.
Alexander built his own computer in a room above the garage, programmed and reprogrammed it and, at the age of sixteen, could no longer find a book that told him anything he didn’t know about computers. Nor could he find a book that dealt with some of the things he had found out entirely on his o w n.
He thought about it deeply and decided not to tell his father of some of the things his computer could do. Already, the boy had become aware that the greatest conqueror of ancient times had been Alexander the Great, and Alexander felt his own name was no accident.
Alexander was particularly interested in computer memory and worked out systems for cramming data into volume-much data into little volume. With each improvement, he squeezed more and more data into less and less volume.
Solemnly, he then named his computer Bucephalus, after the faithful horse of Alexander the
Great, the horse who had carried him through all his triumphant battles.
There were computers that could accept spoken commands and give spoken responses, but none could do it as well as Bucephalus. There were also computers that could scan and store the written word, but none could do it as well as Bucephalus. Alexander tested this by having Bucephalus scan the Encyclopedia Britannica and store it all in its memory.
By the time he was eighteen, Alexander had established an information-handling business for students and small businessmen and had become self-supporting. He moved into his own apartment in the city and was from that point on independent of his parents.
In his own apartment he could remove the earphone attachment. With privacy, he could speak to Bucephalus openly, though he carefully adjusted the computer’s voice to low intensity. He did not want neighbors to wonder who was in the apartment with him.
He said, “Bucephalus, Alexander the Great had conquered the ancient world by the time he was thirty. I want to do the same thing. That gives me twelve more years.”
Bucephalus knew all about Alexander the Great, since the Encyclopedia had given him all the details.
He said, “ Alexander the Great was the son of the King of Macedon and by the time he was your age, he had led his father’s cavalry to victory at the great battle at Chaeronea.”
Alexander said, “No, no. I’m not talking about battles and phalanxes and things like that. I want to conquer the world by coming to own it.”
“How could you own it, Alexander?”
“You and I, Bucephalus,” said Alexander, “are going to study the stock market.”
The New York Times had long since put all its microfilmed records into computerized form and for
Alexander it was not at all a difficult task to tap into that information.
For days, weeks, months, Bucephalus transferred over a century of data on the stock market into its own memory banks-all the stocks listed, all the shares sold for each on each day, the ups and downs, even the applicable news on the financial pages. Alexander was forced to extend the computer’s memory circuits and to work out a daring new system for information retrieval. Reluctantly, he sold a simplified version of one of the circuits he had developed to IBM and in this way became quite well-to-do. He bought a neighboring apartment in which he might eat and sleep. The first apartment was now given over entirely to Bucephalus.
When he was twenty, Alexander felt he was ready to start his campaign.
“Bucephalus,” he said, “I am ready, and so are you. You know everything there is to know about the stock market. You have in your memory every transaction and every event, and you keep it all up to date to the very second because you are hooked into the computer at the New York Stock Exchange, and you will soon be hooked into the exchanges in London, Tokyo, and elsewhere.”
“Yes, Alexander,” said Bucephalus, “but what is it you wish me to do with all the information?”
“I am certain,” said Alexander, his eyes gleaming in steely, determined fashion, “that the values and fluctuations of the Market are not random. I feel that nothing is. You must go through all the data, studying all the values and all the changes in the values and all the rates of changes of the values, until you can analyze them into cycles and combinations of cycles.”
“Are you referring to a Fourier analysis?” asked Bucephalus. “Explain that to me.”