<h2><SPAN name="CHAPTER_XX" id="CHAPTER_XX"></SPAN>CHAPTER XX</h2>
<p class="title">THE RAINBOW</p>
<p>The poet Wordsworth rapturously exclaimed—</p>
<p class="poem">“My heart leaps up when I behold<br/>
A rainbow in the sky.”</p>
<p>And old and young have always been enchanted with the beautiful
phenomenon. How glorious is the parti-coloured girdle which, on an April
morning or September evening, is cast o’er mountain, tower, and town, or
even mirrored in the ocean’s depths! No colours are so vividly bright as
when this triumphal arch bespans a dark nimbus: then it unfolds them in
due prismatic proportion, “running from the red to where the violet fades
into the sky.”</p>
<p>A plain description of the formation of the rainbow is not very easily
given, but a short sketch may be useful. Beautiful as is the ethereal bow,
“born of the shower and colour’d by the sun,” yet the marvellous effect is
more exquisitely intensified in its gorgeous display when the hand of
science points<span class="pagenum"><SPAN name="Page_69" id="Page_69"></SPAN></span> out the path in which the sun’s rays, from above the
western horizon, fall on the watery cloud, indicating fine weather—“the
shepherd’s delight.”</p>
<p>One law of reflection is that, when a ray of light falls on a plane or
spherical surface, it goes off at the same angle to the surface as it
fell. One law of refraction is that, when a ray of light passes through
one medium and enters a denser medium (as from air to water), it is bent
back a little. By refraction you see the sun’s rays long after the sun has
set; when the sun is just below the horizon, an observer, on the surface
of the earth, will see it raised by an amount which is generally equal to
its apparent diameter.</p>
<p>The rays of different colours are bent back (when passing through the
water) at different rates, some slightly, others more, from the red to the
violet end. The rainbow, then, is produced by refraction and reflection of
the several coloured rays of sunlight in the drops of water which make up
falling rain.</p>
<p>The sun is behind the observer, and its rays fall in a parallel direction
upon the drops of rain before him. In each drop the light is dispersively
refracted, and then reflected from the farther face of the drop; it
travels back through the drop, and comes out with dispersing colours.</p>
<p>According to the height of the sun, or the slope of its rays, a higher or
lower rainbow will be formed. And, strange, no two people can see the very
same bow; in fact the rainbow, as seen by the one eye, is not formed by
the same water-drops as the rainbow seen by the other eye.</p>
<p>When the primary bow is seen in most vivid<span class="pagenum"><SPAN name="Page_70" id="Page_70"></SPAN></span> colours on a dark cloud, a
second arch, larger and fainter, is often seen. But the order of the
colours is quite reversed. At a greater elevation, the sun’s ray enters
the lower side of a drop of rain-water, is refracted, reflected <i>twice</i>,
and then refracted again before being sent out to the observer’s eye. That
is why the colours are reversed.</p>
<p><i>A one-coloured rainbow</i> is a curious and rare phenomenon. It is a strange
paradox, for the very idea of a rainbow brings up the seven colours—red,
orange, yellow, green, blue, indigo, and violet. Yet Dr. Aitken tells us
of a rainbow with one colour which he observed on Christmas Day, in 1888.</p>
<p>He was taking his walk on the high ground south of Falkirk. In the east he
observed a strange pillar-like cloud, lit up with the light of the setting
sun. Then the red pillar extended, curved over, and formed a perfect arch
across the north-eastern sky. When fully developed, this rainbow was the
most extraordinary one which he had ever seen. There was no colour in it
but red. It consisted simply of a red arch, and even the red had a
sameness about it.</p>
<p>Outside the rainbow there was part of a secondary bow. The Ochil Hills
were north of his point of observation. These hills were covered with
snow, and the setting sun was glowing with rosy light. Never had he seen
such a depth of colour as was on them on this occasion. It was a deep,
furnacy red. The sun’s light was shorn of all the rays of short-wave
length on its passage through the atmosphere, and only the red rays
reached the earth. The reason why the Ochils glowed with so deep a<span class="pagenum"><SPAN name="Page_71" id="Page_71"></SPAN></span> red
was owing to their being overhung by a dense curtain of clouds, which
screened off the light of the sky. The illumination was thus principally
that of the direct softer light of the sun.</p>
<p> </p>
<p> </p>
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