<h2><SPAN name="CHAPTER_IX" id="CHAPTER_IX"></SPAN>CHAPTER IX</h2>
<p class="title">FORMATION OF CLOUDS</p>
<p>In our ordinary atmosphere there can be no clouds without dust. A
dust-particle is the nucleus that at a certain humidity becomes the centre
of condensation of the water-vapour so as to form a cloud-particle; and a
collection of these forms a cloud.</p>
<p>This condensation of vapour round a number of dust-particles in visible
form gives rise to a vast variety of cloud-shapes. There are two distinct
ways in which the formation of clouds generally takes place. Either a
layer of air is cooled in a body below the dew-point; or a mass of warm
and moist air rises into a mass which is cold and dry. The first forms a
cloud, called, from being a layer, <i>stratus</i>; the second forms a cloud,
called, from its heap appearance, <i>cumulus</i>. The first is widely extended
and horizontal, averaging 1800 feet in<span class="pagenum"><SPAN name="Page_35" id="Page_35"></SPAN></span> height; the second is convex or
conical, like the head of a sheaf, increasing upward from a level base,
averaging from 4500 feet to 6000 feet in height.</p>
<p>There are endless combinations of these two; but at the height of 27,000
feet, where the cloud-particles are frozen, the structure of the cloud is
finer, like “mares’ tails,” receiving the name <i>cirrus</i>. When the cirrus
and cumulus are combined, in well-defined roundish masses, what is
familiarly described as a “mackerel sky” is beautifully presented. The
dark mass of cloud, called <i>nimbus</i>, is the threatening rain-cloud, about
4500 feet in height.</p>
<p>At the International Meteorological Conference at Munich, in 1892, twelve
varieties of clouds were classified, but those named above are the
principal. In a beautiful sunset one can sometimes notice two or three
distances of clouds, the sun shedding its gold light on the full front of
one set, and only fringing with vivid light the nearer range.</p>
<p>Although no man has wrought so hard as Dr. Aitken to establish the
principle that clouds are mainly due to the existence of dust-particles
which attract moisture on certain conditions, yet even twenty years ago he
said that it was probable that sunshine might cause the formation of
nuclei and allow cloudy condensation to take place where there was no
dust.</p>
<p>Under certain conditions the sun gives rise to a great increase in the
number of nuclei. Accordingly, he has carefully tested a few of the
ordinary constituents and impurities in our atmosphere to see if sunshine
acted on them in such a way as to make them probable formers of
cloud-particles.</p>
<p><span class="pagenum"><SPAN name="Page_36" id="Page_36"></SPAN></span>He tested various gases, with more or less success. He found that ordinary
air, after being deprived of its dust-particles and exposed to sunshine,
does not show any cloudy condensation on expansion; but, when certain
gases are in the dustless air, a very different result is obtained.</p>
<p>He first used ammonia, putting one drop into six cubic inches of water in
a flask, and sunning this for one minute; the result was a considerable
quantity of condensation, even with such a weak solution. When the flask
was exposed for five minutes, the condensation by the action of the
sunshine was made more dense.</p>
<p>Hydrogen peroxide was tested in the same way, and it was found to be a
powerful generator of nuclei. Curious is it that sulphurous acid is
puzzling to the experimentalist for cloud formation. It gives rise to
condensation in the dark; but sunshine very conclusively increases the
condensation.</p>
<p>Chlorine causes condensation to take place without supersaturation;
sulphuretted hydrogen (which one always associates with the smell of
rotten eggs) gives dense condensation after being exposed to sunshine.</p>
<p>Though the most of these nuclei, due to the action of sunshine in the
gases, remain active for cloudy condensation for a comparatively short
space of time—fifteen minutes to half-an-hour—yet the experiments show
that it is possible for the cloudy condensation to take place in certain
circumstances in the absence of dust. This seems paradoxical in the light
of the former beautiful experiments; but, in ordinary circumstances, dust
is needed for the<span class="pagenum"><SPAN name="Page_37" id="Page_37"></SPAN></span> formation of clouds. However, supposing there is any
part of the upper air free from dust, it is now found possible, when any
of these gases experimented on be present, for the sun to convert them
into nuclei of condensation, and permit of clouds being formed in dustless
air, miles above the surface of the earth.</p>
<p>In the lower atmosphere there are always plenty of dust-particles to form
cloudy condensation, whether the sun shines or not. These are produced by
the waste from the millions of meteors that daily fall into the air.</p>
<p>But in the higher atmosphere, clouds can be formed by the action of the
sun’s rays on certain gases. This is a great boon to us on the earth; for
it assures us of clouds being ever existing to defend us from the sun’s
extra-powerful rays, even when our atmosphere is fairly clear. This is
surely of some meteorological importance.</p>
<p> </p>
<p> </p>
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