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THE QUANTUM [xvm. i
a large number of instances, or when we regard them as results
which follow from some theory which is known to embrace many
facts of observation or experiment.
“ Explanation of a fact can mean no more than this, correla
tion with and co-ordination among an existing body of other
facts which can all be similarly related to the same general
principle. This, however, is enough ” (R. H. Fowler).
This method of answering questions by showing that they may
be included in a more general category—a method at least as
old as our oldest literature—is well illustrated by Clerk Maxwell’s
“ explanation ” of light as an electromagnetic disturbance
propagated in a medium possessing certain characteristic electric
and magnetic properties. Here we are no longer passing from
the unknown to the familiar, we might even be said to be turning
from a region which is well-known to one which is recondite and
strange. But by taking this step we are able to secure a more
comprehensive theory which includes under one head two types
of phenomena—light and electromagnetic waves—which had
previously been considered distinct. The opposition felt by
certain physicists, including Lord Kelvin, to the electromagnetic
theory of light is reflected in the Preface to the first edition of
Schuster’s Optics, 1904, which begins with the words : “ There
is at present no theory of Optics in the sense that the elastic
solid theory was accepted fifty years ago. We have aban
doned that theory, and learned that the undulations of light
are electromagnetic waves differing only in linear dimensions
from the disturbances which are generated by oscillating electric
currents or moving magnets. But so long as the character of
the displacements which constitute the waves remains undefined
we cannot pretend to have established a theory of light.”
The view that the real nature of phenomena will never be
understood led Wilhelm Ostwald, who for a long period withheld
his allegiance from the atomic theory, to his philosophy of
“ Energetics,” but even Ostwald in his later years was compelled
to avow his belief in the discrete or grained structure of matter.
“ The isolation and counting of gaseous ions on the one hand
. . . and on the other the agreement of the Brownian move
ments with the requirements of the kinetic hypothesis . . .
justify the most cautious scientist in now speaking of the experi
mental proof of the atomic theory of matter. The atomic
hypothesis is thus raised to the position of a scientifically well-
founded theory.”
Poincar6 also in his last scientific book, was forced to the
same conclusion. “ The atoms are no longer a convenient
fiction ; it seems to us that we can, so to speak, see them, since
we know how to count them.”
