<P> Celestial bodies other than Earth also have similarly defined celestial poles . </P> <P> The north celestial pole currently is within a degree of the bright star Polaris (named from the Latin stella polaris, meaning "pole star"). This makes Polaris useful for navigation in the northern hemisphere: not only is it always above the north point of the horizon, but its altitude angle is always (nearly) equal to the observer's geographic latitude . Polaris can, of course, only be seen from locations in the northern hemisphere . </P> <P> Polaris is near the celestial pole for only a small fraction of the 25,700 - year precession cycle . It will remain a good approximation for about 1,000 years, by which time the pole will have moved to be closer to Alrai (Gamma Cephei). In about 5,500 years, the pole will have moved near the position of the star Alderamin (Alpha Cephei), and in 12,000 years, Vega (Alpha Lyrae) will become our north star, but it will be about six degrees from the true north celestial pole . </P> <P> To find Polaris, face north and locate the Big Dipper (Plough) and Little Dipper asterisms . Looking at the "cup" part of the Big Dipper, imagine that the two stars at the outside edge of the cup form a line pointing upward out of the cup . This line points directly at the star at the tip of the Little Dipper's handle . That star is Polaris, the North Star . </P>

Where does the north celestial pole point in december