<h2><SPAN name="CHAPTER_XXIX" id="CHAPTER_XXIX"></SPAN>CHAPTER XXIX</h2>
<p class="title">CYCLONES AND ANTI-CYCLONES</p>
<p>The criticism of the weather in the meteorological column of our daily
newspapers invariably speaks of “cyclones.” It is, therefore, advisable to
give as plain an explanation of these as possible. Cyclones are
“storm-winds.” Their nature has to be carefully studied by meteorologists,
who are industriously at work to ascertain some scientific basis for the
atmospheric movements.</p>
<p>What is the cause of the spiral movement in<span class="pagenum"><SPAN name="Page_96" id="Page_96"></SPAN></span> storm-winds? In their centre
the depression of the barometer is lowest, because the atmosphere there is
lightest. As the walls of the spiral are approached, the barometer rises.</p>
<p>Dr. Aitken has ingeniously hit upon an experiment to illustrate a spiral
in air. All that is necessary is a good fire, a free-going chimney, and a
wet cloth. The cloth is hung up in front of the fire, and pretty near it,
so that steam rises readily from its surface; and, when there are no
air-currents in the room, the steam will rise vertically, keeping close to
the cloth. But if the room has a window in the wall, at right angles to
the fireplace, so as to cause the air coming from it to make a
cross-current past the fire, then a cyclone will be formed, and the vapour
from the cloth will be seen circling round. When the cyclone is well
formed, all the vapour is collected into the centre of the cyclone, and
forms a white pillar extending from the cloth to the chimney. This
experiment shows that no cyclone can form without some tangential motion
in the air entering the area of low-pressure.</p>
<p>Now to illustrate the spiral approach. Fill with water a cylindrical glass
vessel, say 15 inches in diameter and 6 inches deep. Have an orifice with
a plug a little from the centre of the bottom. Remove the plug, the water
runs out, passing round the vessel in a vortex form. But, as the passage
between the orifice (or centre of the cyclone) and the temporary division
is narrower than in any other place, the water has to pass this part much
more quickly than at any other place. And this curious result is observed:
the top of the cyclone no longer remains<span class="pagenum"><SPAN name="Page_97" id="Page_97"></SPAN></span> over the orifice, but <i>travels</i>
in the direction of the water which is moving most speedily. Similar to
this is the cyclone in the atmosphere; its centre also moves in the
direction of the quickest flowing wind that enters it.</p>
<p>Dr. Aitken is of opinion that, in forecasting storms, too little attention
has been paid to the <i>anti-cyclones</i>. They do more than simply follow and
fill up the depression made by the cyclones. They initiate and keep up
their own circulation, and collect the materials with which the cyclones
produce their effect. Neither could work efficiently without the other.</p>
<p>Suppose a large area on the earth over which the air is still in bright
sunshine. After a time, when the air gets heated and charged with vapour,
columns of air would begin to ascend in a disorderly fashion. But suppose
an anti-cyclone is blowing at one side of this area. When the upper air
descends to the earth, it spreads outwards in all directions; but the
earth’s rotation interferes and changes the radial into a spiral motion.
The anti-cyclonic winds will prevent the formation of local cyclones, and
drive all the moist, hot air to its circumference, just above the earth.
The anti-cyclone forces its air tangentially into the cyclone, and gives
it its direction and velocity of rotation, also the direction and rate of
travel of the centre of depression. The earth’s rotation is the original
source of the rotatory movements, but both intensify the initial motion.</p>
<p>Accordingly, the cyclone must travel in the direction of the strongest
winds blowing into it, just as the vortex in the vessel with the eccentric
orifice<span class="pagenum"><SPAN name="Page_98" id="Page_98"></SPAN></span> travelled in the direction of the quickest moving water. This is
verified by a study of the synoptic charts of the Meteorological Office.</p>
<p>The sun’s heat has always been looked upon as the main source of the
energy of our winds, but some account must also be taken of the effects of
cold. It is well known that the mean pressure over Continental areas is
high during winter and low during summer. As the sun’s rays during summer
give rise to the cyclonic conditions, so the cooling of the earth during
winter gives rise to anti-cyclonic conditions. It is found during the
winter months in several parts of the Continent that as the temperature
falls the pressure rises, producing anti-cyclones over the cold area;
whereas, when the temperature begins to rise, the pressure falls, and
cyclones are attracted to the warming area.</p>
<p>Small natural cyclones are often seen on dusty roads, the whirling column
having a core of dusty air, and the centre of the vortex travelling along
the road, tossing up the dust in a very disagreeable way to pedestrians.
Sometimes such a cyclone will toss up dry leaves to a height of four or
five feet. They are very common; but it is only when dust, leaves, or
other light material is present that they are visible to the eye.</p>
<p> </p>
<p> </p>
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