He paused at this point. He had been speaking fairly fluently-for him-since he was saying something he had said often before. But now he began to pick his way.
He said, 'So in trying to produce anti-gravity, we are trying to alter the geometry of the Universe. If we carry on our metaphor, we are trying to straighten out the indented rubber sheet. We could imagine ourselves getting under the indenting mass and lifting it upward, supporting it so as to prevent it from making an indentation. If we make the rubber sheet flat in that way, then we create a Universe-or at least a portion of the Universe-in which gravity doesn't exist. A rolling body would pass the non-indenting mass without altering its direction of travel a bit, and we could interpret this as meaning that the mass was exerting no gravitational force. In order to accomplish this feat, however, we need a mass equivalent to the indenting mass. To produce anti-gravity on Earth in this way, we would have to make use of a mass equal to that of Earth and poise it above our heads, so to speak.'
I interrupted him. 'But your Two-field Theory--'
'Exactly. General Relativity does not explain both the gravitational field and the electromagnetic field in a single set of equations. Einstein spent half his life searching for that single set-for a Unified Field Theory-and failed. All who followed Einstein also failed. I, however, began with the assumption that there were two fields that could not be unified and followed the consequences, which I can explain, in part, in terms of the "rubber sheet" metaphor.'
Now we came to something I wasn't sure I had ever heard before. 'How does that go?' I asked.
'Suppose that, instead of trying to lift the indenting mass, we try to stiffen the sheet itself, make it less indentable. It would contract, at least over a small area, and become flatter. Gravity would weaken, and so would mass, for the two are essentially the same phenomenon in terms of the indented Universe. If we could make the rubber sheet completely flat, both gravity and mass would disappear altogether.
'Under the proper conditions, the electromagnetic field could be made to counter the gravitational field, and serve to stiffen the indented fabric of the Universe. The electromagnetic field is tremendously stronger than the graviational field, so the former could be made to overcome the latter.'
I said uncertainly, 'But you say "under the proper conditions." Can those proper conditions you speak of be achieved. Professor?'
That is what I don't know,' said Priss thoughtfully and slowly. 'If the Universe were really a rubber sheet, its stiffness would have to reach an infinite value before it could be expected to remain completely flat under an indenting mass. If that is also so in the real Universe, then an infinitely intense electromagnetic field would be required and that would mean anti-gravity would be impossible.'
'But Bloom says--'
'Yes, I imagine Bloom thinks a finite field will do, if it can be properly applied. Still, however ingenious he is,' and Priss smiled narrowly, 'we needn't take him to be infallible. His grasp on theory is quite faulty. He-he never earned his college degree, did you know that?'
I was about to say that I knew that. After all, everyone did. But there was a touch of eagerness in Priss's voice as he said it and I looked up in time to catch animation in his eye, as though he were delighted to spread that piece of news. So I nodded my head as if I were filing it for future reference.
Then you would say, Professor Priss,' I prodded again, 'that Bloom is probably wrong and that anti-gravity is impossible?'
And finally Priss nodded and said, The gravitational field can be weakened, of course, but if by anti-gravity we mean a true zero-gravity field-no gravity at all over a significant volume of space-then I suspect anti-gravity may turn out to be impossible, despite Bloom.' And I had, after a fashion, what I wanted.
I wasn't able to see Bloom for nearly three months after that, and when I did see him he was in an angry mood.
He had grown angry at once, of course, when the news first broke concerning Priss's statement. He let it be known that Priss would be invited to the eventual display of the anti-gravity device as soon as it was constructed, and would even be asked to participate in the demonstration. Some reporter-not I, unfortunately-caught him between appointments and asked him to elaborate on that and he said:
'I'll have the device eventually; soon, maybe. And you can be there, and so can anyone else the press would care to have there. And Professor James Priss can be there. He can represent Theoretical Science and after I have demonstrated anti-gravity, he can adjust his theory to explain it. I'm sure he will know how to make his adjustments in masterly fashion and show exactly why I couldn't possibly have failed.
He might do it now and save time, but I suppose he won't.'
It was all said very politely, but you could hear the snarl under the rapid flow of words.
Yet he continued his occasional game of billiards with Priss and when the two met they behaved with complete propriety. One could tell the progress Bloom, was making by their respective attitudes to the press. Bloom grew curt and even snappish, while Priss developed an increasing good humor.
When my umpteenth request for an interview with Bloom was finally accepted, I wondered if perhaps that meant a break in Bloom's quest. I had a little daydream of him announcing final success to me. It didn't work out that way. He met me in his office at Bloom Enterprises in upstate New York. It was a wonderful setting, well away from any populated area, elaborately landscaped, and covering as much ground as a rather large industrial establishment. Edison at his height, two centuries ago, had never been as phenomenally successful as Bloom.
But Bloom was not in a good humor. He came striding in ten minutes late and went snarling past his secretary's desk with the barest nod in my direction. He was wearing a lab coat, unbuttoned.
He threw himself into his chair and said, 'I'm sorry if I've kept you waiting, but I didn't have as much time as I had hoped.' Bloom was a born showman and knew better than to antagonize the press, but I had the feeling he was having a great deal of difficulty at that moment in adhering to this principle.
I made the obvious guess. 'I am given to understand, sir, that your recent tests have been unsuccessful.'
'Who told you that?'
'I would say it was general knowledge, Mr. Bloom.'
'No, it isn't. Don't say that, young man. There is no general knowledge about what goes on in my laboratories and workshops. You're stating the Professor's opinions, aren't you? Priss's, I mean.'
'No I'm-'
'Of course you are. Aren't you the one to whom he made that statement-that anti-gravity is impossible?'
'He didn't make the statement that flatly.'
'He never says anything flatly, but it was flat enough for him, and not as flat as I'll have his damned rubber-sheet Universe before I'm finished.'
Then does that mean you're making progress, Mr. Bloom?'
'You know I am,' he said with a snap. 'Or you should know. Weren't you at the demonstration last week?'
'Yes, I was.'
I judged Bloom to be in trouble or he wouldn't be mentioning that demonstration. It worked but it was not a world beater. Between the two poles of a magnet a region of lessened gravity was produced.
It was done very cleverly. A Mossbauer-Effect Balance was used to probe the space between the poles.