: The Principle of Relativity by Einstein Albert Minkowski H Hermann Mahalanobis P C Prasanta Chandra Author Of Introduction Etc Bose Satyendranath Translator Saha Meghnad Translator - Relativity (Physics)

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Transcriber's Note:

Some are so complex that they must be rendered in the TeX mathematical notation, enclosed between double dollar signs, like this:

HISTORICAL INTRODUCTION

Ten years later, in 1905, we find Einstein declaring that "the ether will be proved to be superfluous." At first sight the revolution in scientific thought brought about in the course of a single decade appears to be almost too violent. A more careful even though a rapid review of the subject will, however, show how the Theory of Relativity gradually became a historical necessity.

Towards the beginning of the nineteenth century, the luminiferous ether came into prominence as a result of the brilliant successes of the wave theory in the hands of Young and Fresnel. In its stationary aspect the elastic solid ether was the outcome of the search for a medium in which the light waves may "undulate." This stationary ether, as shown by Young, also afforded a satisfactory explanation of astronomical aberration. But its very success gave rise to a host of new questions all bearing on the central problem of relative motion of ether and matter.

Airy, in 1871 filled up a telescope with water--but failed to detect any change in the aberration. Thus we get both in the case of Arago prism experiment and Airy-Boscovitch water-telescope experiment, the very startling result that optical effects in a moving medium seem to be quite independent of the velocity of the medium with respect to Fresnel's stationary ether.

In the Michelson-Morley experiment the arrangement is quite different. If there is a definite gap in a rigid body, light waves situated in free ether will take a definite time in crossing the gap. If the rigid platform carrying the gap is set in motion with respect to the ether in the direction of light propagation, light waves should presumably take a longer time to cross the gap.

We cannot do better than quote Eddington's description of this famous experiment. "The principle of the experiment may be illustrated by considering a swimmer in a river. It is easily realized that it takes longer to swim to a point 50 yards up-stream and back than to a point 50 yards across-stream and back. If the earth is moving through the ether there is a river of ether flowing through the laboratory, and a wave of light may be compared to a swimmer travelling with constant velocity relative to the current. If, then, we divide a beam of light into two parts, and send one-half swimming up the stream for a certain distance and then back to the starting point, and send the other half an equal distance across stream and back, the across-stream beam should arrive back first.

where

a factor greater than unity.

But when the experiment was tried, it was found that both parts of the beam took the same time, as tested by the interference bands produced."

After a most careful series of observations, Michelson and Morley failed to detect the slightest trace of any effect due to earth's motion through ether.

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