It is light just as good as any other light.  It travels at the same pace, it is reflected and refracted according to the same laws; every experiment known to optics can be performed with this ethereal radiation electrically produced, and yet you cannot see it.  Why not?  For no fault of the light; the fault (if there be a fault) is in the eye.  The retina is incompetent to respond to these vibrations—­they are too slow.  The vibrations set up when this large jar is discharged are from a hundred thousand to a million per second, but that is too slow for the retina.  It responds only to vibrations between 4,000 billions and 7,000 billions per second.  The vibrations are too quick for the ear, which responds only to vibrations between 40 and 40,000 per second.  Between the highest audible and the lowest visible vibrations there has been hitherto a great gap, which these electric oscillations go far to fill up.  There has been a great gap simply because we have no intermediate sense organ to detect rates of vibration between 40,000 and 4,000,000,000,000,000 per second.  It was, therefore, an unexplored territory.  Waves have been there all the time in any quantity, but we have not thought about them nor attended to them.

It happens that I have myself succeeded in getting electric oscillations so slow as to be audible.  The lowest I have got at present are 125 per second, and for some way above this the sparks emit a musical note; but no one has yet succeeded in directly making electric oscillations which are visible, though indirectly every one does it when they light a candle.

Here, however, is an electric oscillator, which vibrates 300 million times a second, and emits ethereal waves a yard long.  The whole range of vibrations between musical tones and some thousand million per second is now filled up.

These electro-magnetic waves have long been known on the side of theory, but interest in them has been immensely quickened by the discovery of a receiver or detector for them.  The great though simple discovery by Hertz of an “electric eye,” as Sir W. Thomson calls it, makes experiments on these waves for the first time easy or even possible.  We have now a sort of artificial sense organ for their appreciation—­an electric arrangement which can virtually “see” these intermediate rates of vibration.

The Hertz receiver is the simplest thing in the world—­nothing but a bit of wire or a pair of bits of wire adjusted so that when immersed in strong electric radiation they give minute sparks across a microscopic air gap.

The receiver I have here is adapted for the yard-long waves emitted from this small oscillator; but for the far longer waves emitted by a discharging Leyden jar an excellent receiver is a gilt wall paper or other interrupted metallic surface.  The waves falling upon the metallic surface are reflected, and in the act of reflection excite electric currents, which cause sparks.  Similarly, gigantic solar waves may produce aurorae; and minute waves from a candle do electrically disturb the retina.