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| ] of Polaris and neighbouring stars, taken from ]. In 2006 Polaris was 42' from the north celestial pole, and so does not lie exactly at the center of the concentric circular star trails.]] | ] of Polaris and neighbouring stars, taken from ]. In 2006 Polaris was 42' from the north celestial pole, and so does not lie exactly at the center of the concentric circular star trails.]] | ||
| The '''North Star''' |
The '''North Star''' is the prominent ] that lies closest in the sky to the ] and which appears (approximately) directly overhead to an observer at the Earth's North Pole. Currently, this is ], which lies about two thirds of a degree from the north celestial pole, at the end of the "bob" of the ] ] in the constellation ]. Polaris has a ] of 1.97 (second magnitude) making it the brightest star in the Little Dipper. A common method for locating Polaris in the sky is to follow along the line of the so-called "pointer" stars, the two stars furthest from the "handle" of the more easily spotted ] (part of the constellation ]). | ||
| The North Star has historically been used for ], both to find the direction of north and to determine ]. It has been used by lost campers to find their way back home. It always appears due north in the sky, and the angle it makes with respect to the horizon is equal to the latitude of the observer. The North Star is visible only in northern hemisphere skies and so cannot be used for navigation south of the equator. | The North Star has historically been used for ], both to find the direction of north and to determine ]. It has been used by lost campers to find their way back home. It always appears due north in the sky, and the angle it makes with respect to the horizon is equal to the latitude of the observer. The North Star is visible only in northern hemisphere skies and so cannot be used for navigation south of the equator. | ||
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The North Star is the prominent pole star that lies closest in the sky to the north celestial pole and which appears (approximately) directly overhead to an observer at the Earth's North Pole. Currently, this is Polaris, which lies about two thirds of a degree from the north celestial pole, at the end of the "bob" of the Little Dipper asterism in the constellation Ursa Minor. Polaris has a visual magnitude of 1.97 (second magnitude) making it the brightest star in the Little Dipper. A common method for locating Polaris in the sky is to follow along the line of the so-called "pointer" stars, the two stars furthest from the "handle" of the more easily spotted Big Dipper (part of the constellation Ursa Major).
The North Star has historically been used for navigation, both to find the direction of north and to determine latitude. It has been used by lost campers to find their way back home. It always appears due north in the sky, and the angle it makes with respect to the horizon is equal to the latitude of the observer. The North Star is visible only in northern hemisphere skies and so cannot be used for navigation south of the equator.
Currently, there is no South Star as useful as Polaris; the faint star σ Octantis is closest to the south celestial pole. However, the constellation Crux, the Southern Cross, points towards the pole.
A similar concept applies to other planets.
Past and future
Due to the precession of the equinoxes the direction of the Earth's axis is very slowly but continuously changing, and as the projection of the Earth's axis moves around the celestial sphere over the millennia, the role of North Star passes from one star to another. Since the precession of the equinoxes is so slow, taking about 26,000 years to complete a cycle, a single star typically holds that title for many centuries.
In 3000 BCE the faint up star Thuban in the constellation Draco was the North Star. At magnitude 3.67 (fourth magnitude) it is only one fifth as bright as Polaris, the current North Star.
Gamma Cephei (also known as Alrai, situated 45 light-years away) will become closer to the northern celestial pole than Polaris around 3000 CE.