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South magnetic pole

Coordinates: 64°04′52″S 135°51′58″E / 64.081°S 135.866°E / -64.081; 135.866 (SMP 2020)
From Wikipedia, the free encyclopedia

Observed south dip poles during 1903–2000 are yellow squares. IGRF-12 Modeled pole locations from 1590 to 2020 are circles progressing from blue to yellow.[1]

The south magnetic pole, also known as the magnetic south pole, is the point on Earth's Southern Hemisphere where the geomagnetic field lines are directed perpendicular to the nominal surface. The Geomagnetic South Pole, a related point, is the south pole of an ideal dipole model of the Earth's magnetic field that most closely fits the Earth's actual magnetic field.

For historical reasons, the "end" of a freely hanging magnet that points (roughly) north is itself called the "north pole" of the magnet, and the other end, pointing south, is called the magnet's "south pole". Because opposite poles attract, Earth's south magnetic pole is physically actually a magnetic north pole (see also North magnetic pole § Polarity).

The south magnetic pole is constantly shifting due to changes in Earth's magnetic field. As of 2005 it was calculated to lie at 64°31′48″S 137°51′36″E / 64.53000°S 137.86000°E / -64.53000; 137.86000,[2] placing it off the coast of Antarctica, between Adélie Land and Wilkes Land. In 2015 it lay at 64°17′S 136°35′E / 64.28°S 136.59°E / -64.28; 136.59 (est).[3] That point lies outside the Antarctic Circle. Due to polar drift, the pole is moving northwest by about 10 to 15 kilometres (6 to 9 mi) per year. Its current distance from the actual Geographic South Pole is approximately 2,860 km (1,780 mi).[1] The nearest permanent science station is Dumont d'Urville Station. While the north magnetic pole began wandering very quickly in the mid 1990s, the movement of the south magnetic pole did not show a matching change of speed.

Recent locations of Earth's magnetic (dip) poles, IGRF-13 estimate[1]
Year 1990 (definitive) 2000 (definitive) 2010 (definitive) 2020
North magnetic pole 78°05′42″N 103°41′20″W / 78.095°N 103.689°W / 78.095; -103.689 (NMP 1990) 80°58′19″N 109°38′24″W / 80.972°N 109.640°W / 80.972; -109.640 (NMP 2000) 85°01′12″N 132°50′02″W / 85.020°N 132.834°W / 85.020; -132.834 (NMP 2010) 86°29′38″N 162°52′01″E / 86.494°N 162.867°E / 86.494; 162.867 (NMP 2020)
South magnetic pole 64°54′36″S 138°54′07″E / 64.910°S 138.902°E / -64.910; 138.902 (SMP 1990) 64°39′40″S 138°18′11″E / 64.661°S 138.303°E / -64.661; 138.303 (SMP 2000) 64°25′55″S 137°19′30″E / 64.432°S 137.325°E / -64.432; 137.325 (SMP 2010) 64°04′52″S 135°51′58″E / 64.081°S 135.866°E / -64.081; 135.866 (SMP 2020)

Expeditions

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Early unsuccessful attempts to reach the magnetic south pole included those of French explorer Jules Dumont d'Urville (1837–1840), American Charles Wilkes (expedition of 1838–1842) and Briton James Clark Ross (expedition of 1839–1843).[4]

The first calculation of the magnetic inclination to locate the magnetic South Pole was made on 23 January 1838 by the hydrographer Clément Adrien Vincendon-Dumoulin [fr], a member of the Dumont d'Urville expedition in Antarctica and Oceania on the corvettes L'Astrolabe and Zélée in 1837–1840, which discovered Adélie Land.

On 16 January 1909 three men (Douglas Mawson, Edgeworth David, and Alistair Mackay) from Sir Ernest Shackleton's Nimrod Expedition claimed to have found the south magnetic pole,[5] which was at that time located on land.[6] They planted a flagpole at the spot and claimed it for the British Empire. However, there is now some doubt as to whether their location was correct.[7] The approximate position of the pole on 16 January 1909 was 72°15′S 155°09′E / 72.25°S 155.15°E / -72.25; 155.15.[8][full citation needed]

Fits to global data sets

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The south magnetic pole has also been estimated by fits to global sets of data such as the World Magnetic Model (WMM) and the International Geomagnetic Reference Field (IGRF).[1] For earlier years back to about 1600, the model GUFM1 is used, based on a compilation of data from ship logs.[9]

South geomagnetic pole

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Earth's geomagnetic field can be approximated by a tilted dipole (like a bar magnet) placed at the center of Earth. The south geomagnetic pole is the point where the axis of this best-fitting tilted dipole intersects Earth's surface in the southern hemisphere. As of 2005 it was calculated to be located at 79°44′S 108°13′E / 79.74°S 108.22°E / -79.74; 108.22,[10] near the Vostok Station. Because the field is not an exact dipole, the south geomagnetic pole does not coincide with the south magnetic pole. Furthermore, the south geomagnetic pole is wandering for the same reason its northern geomagnetic counterpart wanders.

See also

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References

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  1. ^ a b c d NOAA National Geophysical Data Center. "Wandering of the Geomagnetic Poles". Retrieved 10 October 2011.
  2. ^ "Geomagnetism Frequently Asked Questions". National Geophysical Data Center. Retrieved 11 January 2009.
  3. ^ "Magnetic Poles". British Geological Survey.
  4. ^ Antarctic Treaty System: an Assessment. US National Research Council. 1986. p. 90. ISBN 9780309036405.
  5. ^ "FAQs from primary schools". British Antarctic Survey. 11 March 2011. Retrieved 9 November 2012.
  6. ^ Antarctica: Great Stories from the Frozen Continent. Reader's Digest. 1985. pp. 178–179. ISBN 978-0949819642.
  7. ^ "The Magnetic South Pole". Ocean Bottom Magnetology Laboratory. Woods Hole Oceanographic Institution. Archived from the original on 21 April 2016. Retrieved 11 October 2011.
  8. ^ Shackleton, Roland Huntford
  9. ^ Jackson, Andrew; Jonkers, Art R. T.; Walker, Matthew R. (2000). "Four centuries of geomagnetic secular variation from historical records". Philosophical Transactions of the Royal Society A. 358 (1768): 957–990. Bibcode:2000RSPTA.358..957J. CiteSeerX 10.1.1.560.5046. doi:10.1098/rsta.2000.0569. S2CID 40510741.
  10. ^ "Geomagnetism Frequently Asked Questions". Ngdc.noaa.gov. Retrieved 9 November 2012.
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