Spacehounds of IPC by E E. Doc Smith

known—and since Martian and Tellurian science complemented each other, so that one

filled in the gaps of the other, it wasn’t long until fleets of space-freighters were bringing

in air and water from Venus, which had plenty of both to spare.

“Having done all he could for the Martians and having learned most of the stuff

he wanted to know, Roeser came back to Tellus and organized Inter-Planetary, with

scientists and engineers on all three planets, and%set to work to improve the whole

system, for the vessels they used then were dangerous — regular mankillers, in fact. At

about this same time Roeser and the Inter-Planetary Corporation, with their really

effective atomic bombs, had a big part in the unification of the world into one nation, so

that wars could no longer interfere with progress.

“With this introduction I can get down to fundamentals. Molecules are particles of

the first order, and vibrations of the first order include sound, light, heat, electricity,

radio, and so on. Second order, atoms—extremely short vibrations, such as hard X-

rays. Third order, electrons, protons, and so on, with their accompanying Millikan, or

Cosmic Rays. Fourth order, sub-electrons and sub-protons. These, in the material

aspect, are supposed to be the particles of the fourth order, and in the energy aspect

they are known as Roeser’s Rays. That is, these fourth-order rays and particles seem to

partake of the nature of both energy and matter. Following me?”

“Right behind you,” she assured him. She had been listening intently, her wide-

spaced brown eyes fastened upon his face.

“Since these Roeser’s Rays, or particles or rays of the fourth order, seem to be

both matter and energy, and since the rays can be converted into what is supposed to

be the particles, they have been thought to be the things from which both electrons and

protons were built. Therefore, everybody except Norman Brandon has supposed them

the ultimate units of creation, so that it would be useless to try to go any further . . .”

“Why, we were taught that they are the ultimate units!” she protested.

“I know you were—but we really don’t know anything, except what we have

learned empirically, even about our driving forces. What is called the fourth-order

particle is absolutely unknown, since nobody has been able to detect it, to say nothing

of determining its velocity or other properties. It has been assumed to have the velocity

of light only because that hypothesis does not conflict with observational data. I’m going

to give you the generally-accepted idea, since we have nothing definite to offer in its

place, but I warn you that that idea is very probably wrong. There’s a lot of deep stuff

down there that hasn’t been dug up yet. In fact, Brandon thinks that the product of

conversion isn’t what we think it is, at all—that the actual fundamental unit and the

primary mechanism of the transformation lie somewhere below the fourth order, and

possibly even below the level of the ether—but we haven’t been able to find a point of

attack yet that will let us get in anywhere. However, I’m getting ‘way ahead of our

subject. To get back to it, energy can be converted into something that acts like matter

through Roeser’s Rays, and that is the empirical fact underlying the drive of our space-

ships, as well as that of almost all other vehicles on all three planets. Power is

generated by the great waterfalls of Tellus and Venus — water’s mighty scarce on Mars,

of course, so most of our plants there use atomics—and is transmitted on tight beams

by means of powerful fields of force to the receptors, wherever they may be. The

individual transmitting fields and receptors are simply matched-frequency units, each

matching the electrical characteristics of some particular and unique beam of force. This

beam is composed of Roeser’s Rays, in their energy aspect. It took a long time to work

out this tight-beam transmission of power, but it was fairly simple after they got it.”

He took out a voluminous notebook, at the sight of which Nadia smiled.

“A computer might forget to dress, but you’d never catch one without a full

magazine pencil and a lot of blank paper,” he grinned in reply and went on, writing as he

talked.

“For any given frequency, , and phase angle, theta, you integrate, between

limits zero and pi over two, sine theta d. . .”

“Hold it — I’m sinking!” Nadia exclaimed. “I don’t integrate at all unless it is

absolutely necessary. As long as you stick to general science I’m right on your heels,

but please lay off of integrations and all that—most especially lay off of those terrible

electrical integrals. I always did think that they were the most poisonous kind known. I

want only a general idea—that’s all that I can understand, anyway.”

“Sure. I forgot—guess I was getting in deeper than is necessary, especially since

this whole thing of beam transmission is pretty crude yet and is bound to change a lot

before long. There is so much loss that when we get more than a few hundred million

kilometers away from a power-plant we lose reception entirely. But to get going again,

the receptors receive the beam and from them the power is sent to the accumulators,

where it is stored. These accumulators are an outgrowth of the storage battery. The

theory of the accumulator is . . .”

“Lay off of the theory, please!” the listener interrupted. “I understand perfectly

without it. Energy is stored in the accumulators—you put it in and take it out. That’s all

that is necessary.”

“I’d like to give you some of the theory—but, after all, it wouldn’t add much to

your understanding of the working of things, and it might mix you up, as some of it is

pretty deep stuff. Then, too, it would take a lot of time, and the rest of your friends would

squawk if I kept you here indefinitely. From the accumulators, then, the power is fed to

the converters, each of which is backed by a projector. The converters simply change

the aspect of the rays, from the energy aspect to the material aspect. As soon as this is

done, the highly-charged particles — or whatever they are — thus formed are repelled

by the terrific stationary force maintained in the projector backing the converter. Each

particle departs with a velocity supposed to be that of light, and the recoil upon the

projector drives the vessel, or car, or whatever it is attached to. Still with me?”

“Struggling a little, but my nose is still above the surface. These particles, being

so infinitesimally small that they cannot even be detected, go right through any

substance without any effect—they are not even harmful.”

“Exactly. Now we are in position to go ahead with the lights, detectors, and so on.

The energy aspect of the rays you can best understand as simply a vibration in the

ether— an extremely short one. While not rigidly scientific, that is close enough for you

and me. Nobody knows what the stuff really is, and it cannot be explained nor

demonstrated by any model or concept in three-dimensional space. Its physical-

mathematical interpretation, the only way in which it can be grasped at all, requires

sixteen co-ordinates in four dimensions, and I don’t suppose you’d care to go into that?”

“I’ll say I wouldn’t!” she exclaimed, feelingly.

“Well, anyway, by the use of suitable fields of force it can be used as a carrier

wave. Most of this stuff of the fields of force—how to carry the modulation up and down

through all the frequency changes necessary—was figured out by the Martians ages

ago. Used as a pure carrier wave, with a sender and a receiver at each end, it isn’t so

bad— that’s why our communicator and radio systems work as well as they do. They

are pretty good, really, but the ultralight vision system is something else again. Sending

the heterodyned wave through steel is easy, but breaking it up, so as to view an object

and return the impulses, was an awful job and one that isn’t half done yet. We see

things, after a fashion and at a distance of a few kilometers, by sending an almost

parallel wave from a twin-projector to disintegrate and double back the viewing wave.

That’s the way the lookout plates and lenses work, all over the ship— from the master-

screens in the control room to the plates of the staterooms and lifeboats and the

viewing-areas of the promenades. But the whole system is a make-shift, and . . .”

“Just a minute!” exclaimed the girl. “I and everybody else have been thinking that

everything is absolutely perfect; and yet every single thing you have talked about, you

have ended up by describing as ‘unknown’, ‘rudimentary’, ‘temporary’, or a ‘makeshift’.

You speak as though the entire system were a poor thing that will have to do until

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