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+<sect1 id="ai-precession">
+<sect1info>
+<author>
+<firstname>Jason</firstname>
+<surname>Harris</surname>
+</author>
+</sect1info>
+<title>Precession</title>
+<indexterm><primary>Precession</primary>
+</indexterm>
+<para>
+<firstterm>Precession</firstterm> is the gradual change in the direction of the
+Earth's spin axis. The spin axis traces a cone, completing a full circuit in
+26,000 years. If you have ever spun a top or a dreidel, the
+<quote>wobbling</quote> rotation of the top as it spins is precession.
+</para><para>
+Because the direction of the Earth's spin axis changes, so does the location of
+the <link linkend="ai-cpoles">Celestial Poles</link>.
+</para><para>
+The reason for the Earth's precession is complicated.  The Earth is not a
+perfect sphere, it is a bit flattened, meaning the
+<link linkend="ai-greatcircle">Great Circle</link> of the equator is longer
+than a <quote>meridonal</quote> great circle that
+passes through the poles.  Also, the Moon and Sun lie outside the Earth's
+Equatorial plane.  As a result, the gravitational pull of the Moon and Sun on
+the oblate Earth induces a slight <emphasis>torque</emphasis> in addition to a
+linear force. This torque on the spinning body of the Earth leads to the
+precessional motion.
+</para>
+<tip>
+<para>Exercise:</para>
+<para>
+Precession is easiest to see by observing the <link
+linkend="ai-cpoles">Celestial Pole</link>.  To find the pole, first switch to
+Equatorial Coordinates in the <guilabel>Configure &kstars;</guilabel> window, and
+then hold down the <keycap>Up arrow</keycap> key until the display stops
+scrolling.  The declination displayed in the center of the
+<guilabel>Info Panel</guilabel> should be +90 degrees, and the bright star
+Polaris should be nearly at the center of the screen.  Try slewing with the left
+and right arrow keys. Notice that the sky appears to rotate around the Pole.
+</para><para>
+We will now demonstrate Precession by changing the Date to a very remote year,
+and observing that the location of the Celestial Pole is no longer near Polaris.
+Open the <guilabel>Set Time</guilabel> window
+(<keycombo action="simul">&Ctrl;<keycap>S</keycap></keycombo>), and set the date
+to the year 8000 (currently, &kstars; cannot handle dates much more remote than
+this, but this date is sufficient for our purposes).  Notice that the sky
+display is now centered at a point between the constellations Cygnus and
+Cepheus.  Verify that this is actually the pole by slewing left and right: the
+sky rotates about this point; in the year 8000, the North celestial pole will no
+longer be near Polaris.
+</para>
+</tip>
+</sect1>