Part 35 (1/2)

[Ill.u.s.tration: THE THEORY OF ELECTRONS

An atom of matter is composed of electrons. We picture an atom as a sort of miniature solar system, the electrons (particles of negative electricity) rotating round a central nucleus of positive electricity, as described in the text. In the above pictorial representation of an atom the whirling electrons are indicated in the outer ring. Electrons move with incredible speed as they pa.s.s from one atom to another.]

[Ill.u.s.tration: ARRANGEMENTS OF ATOMS IN A DIAMOND

The above is a model (seen from two points of view) of the arrangement of the atoms in a diamond. The arrangement is found by studying the X-ray spectra of the diamond.]

As we have said, there are other fundamental existences which give rise to more complex problems. The three great fundamental ent.i.ties in the physical universe are matter, ether, and energy; so far as we know, outside these there is nothing. We have dealt with matter, there remain ether and energy. We shall see that just as no particle of matter, however small, may be created or destroyed, and just as there is no such thing as empty s.p.a.ce--ether pervades everything--so there is no such thing as _rest_. Every particle that goes to make up our solid earth is in a state of perpetual unremitting vibration; energy ”is the universal commodity on which all life depends.” Separate and distinct as these three fundamental ent.i.ties--matter, ether, and energy--may appear, it may be that, after all, they are only different and mysterious phases of an essential ”oneness” of the universe.

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The Future

Let us, in concluding this chapter, give just one ill.u.s.tration of the way in which all this new knowledge may prove to be as valuable practically as it is wonderful intellectually. We saw that electrons are shot out of atoms at a speed that may approach 160,000 miles a second.

Sir Oliver Lodge has written recently that a seventieth of a grain of radium discharges, at a speed a thousand times that of a rifle bullet, thirty million electrons a second. Professor Le Bon has calculated that it would take 1,340,000 barrels of powder to give a bullet the speed of one of these electrons. He shows that the smallest French copper coin--smaller than a farthing--contains an energy equal to eighty million horsepower. A few pounds of matter contain more energy than we could extract from millions of tons of coal. Even in the atoms of hydrogen at a temperature which we could produce in an electric furnace the electrons spin round at a rate of nearly a hundred trillion revolutions a second!

Every man asks at once: ”Will science ever tap this energy?” If it does, no more smoke, no mining, no transit, no bulky fuel. The energy of an atom is of course only liberated when an atom pa.s.ses from one state to another. The stored up energy is fortunately fast bound by the electrons being held together as has been described. If it were not so ”the earth would explode and become a gaseous nebula”! It is believed that some day we shall be able to release, harness, and utilise atomic energy. ”I am of opinion,” says Sir William Bragg, ”that atom energy will supply our future need. A thousand years may pa.s.s before we can harness the atom, or to-morrow might see us with the reins in our hands. That is the peculiarity of Physics--research and 'accidental' discovery go hand in hand.” Half a brick contains as much energy as a small coal-field. The difficulties are tremendous, but, as Sir Oliver Lodge reminds us, there was just as much scepticism at one time about the utilisation of steam or electricity. ”Is it to be supposed,” he asks, ”that there can be no fresh invention, that all the discoveries have been made?” More than one man of science encourages us to hope. Here are some remarkable words written by Professor Soddy, one of the highest authorities on radio-active matter, in our chief scientific weekly (_Nature_, November 6, 1919):

The prospects of the successful accomplishment of artificial trans.m.u.tation brighten almost daily. The ancients seem to have had something more than an inkling that the accomplishment of trans.m.u.tation would confer upon men powers. .h.i.therto the prerogative of the G.o.ds. But now we know definitely that the material aspect of trans.m.u.tation would be of small importance in comparison with the control over the inexhaustible stores of internal atomic energy to which its successful accomplishment would inevitably lead. It has become a problem, no longer redolent of the evil a.s.sociations of the age of alchemy, but one big with the promise of a veritable physical renaissance of the whole world.

If that ”promise” is ever realised, the economic and social face of the world will be transformed.

Before pa.s.sing on to the consideration of ether, light, and energy, let us see what new light the discovery of the electron has thrown on the nature and manipulation of electricity.

WHAT IS ELECTRICITY?

The Nature of Electricity

There is at least one manifestation in nature, and so late as twenty years ago it seemed to be one of the most mysterious manifestations of all, which has been in great measure explained by the new discoveries.

Already, at the beginning of this century, we spoke of our ”age of electricity,” yet there were few things in nature about which we knew less. The ”electric current” rang our bells, drove our trains, lit our rooms, but none knew what the current was. There was a vague idea that it was a sort of fluid that flowed along copper wires as water flows in a pipe. We now suppose that it is _a rapid movement of electrons from atom to atom_ in the wire or wherever the current is.

Let us try to grasp the principle of the new view of electricity and see how it applies to all the varied electrical phenomena in the world about us. As we saw, the nucleus of an atom of matter consists of positive electricity which holds together a number of electrons, or charges of negative electricity.[4] This certainly tells us to some extent what electricity is, and how it is related to matter, but it leaves us with the usual difficulty about fundamental realities. But we now know that electricity, like matter, is atomic in structure; a charge of electricity is made up of a number of small units or charges of a definite, constant amount. It has been suggested that the two kinds of electricity, i.e. positive and negative, are right-handed and left-handed vortices or whirlpools in ether, or rings in ether, but there are very serious difficulties, and we leave this to the future.

[4] The words ”positive” and ”negative” electricity belong to the days when it was regarded as a fluid. A body overcharged with the fluid was called positive; an undercharged body was called negative.

A positively-electrified body is now one whose atoms have lost some of their outlying electrons, so that the positive charge of electricity predominates. The negatively-electrified body is one with more than the normal number of electrons.

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What an Electric Current is

The discovery of these two kinds of electricity has, however, enabled us to understand very fairly what goes on in electrical phenomena. The outlying electrons, as we saw, may pa.s.s from atom to atom, and this, on a large scale, is the meaning of the electric current. In other words, we believe an electric current to be a flow of electrons. Let us take, to begin with, a simple electrical ”cell,” in which a feeble current is generated: such a cell as there is in every house to serve its electric bells.

In the original form this simple sort of ”battery” consisted of a plate of zinc and a plate of copper immersed in a chemical. Long before anything was known about electrons it was known that, if you put zinc and copper together, you produce a mild current of electricity. We know now what this means. Zinc is a metal the atoms of which are particularly disposed to part with some of their outlying electrons. Why, we do not know; but the fact is the basis of these small batteries. Electrons from the atoms of zinc pa.s.s to the atoms of copper, and their pa.s.sage is a ”current.” Each atom gives up an electron to its neighbour. It was further found long ago that if the zinc and copper were immersed in certain chemicals, which slowly dissolve the zinc, and the two metals were connected by a copper wire, the current was stronger. In modern language, there is a brisker flow of electrons. The reason is that the atoms of zinc which are stolen by the chemical leave their detachable electrons behind them, and the zinc has therefore more electrons to pa.s.s on to the copper.

[Ill.u.s.tration: DISINTEGRATION OF ATOMS

An atom of Uranium, by ejecting an Alpha particle, becomes Uranium X.