Equator: Difference between revisions
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[[File:Equator and Prime Meridian.svg|thumb|300px|Nations or territories that touch the Equator (red) or the [[IERS Reference Meridian]] (blue)]] |
[[File:Equator and Prime Meridian.svg|thumb|300px|Nations or territories that touch the Equator (red) or the [[IERS Reference Meridian]] (blue)]] |
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The '''Equator''' usually refers to an imaginary line on the Earth's surface equidistant from the [[North Pole]] and [[South Pole]], dividing the Earth into the [[Northern Hemisphere]] and [[Southern Hemisphere]]. The Equator is about {{Convert|40,075|km}} long; some 78.7% lies across water and 21.3% over land. |
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Other [[planet]]s and astronomical bodies have equators similarly defined. Generally, an '''equator''' is the intersection of the surface of a [[rotating]] [[sphere]] with the [[plane (mathematics)|plane]] that is perpendicular to the sphere's [[rotation|axis of rotation]] and midway between its [[geographical pole|poles]]. |
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==Overview== |
==Overview== |
Revision as of 12:15, 27 September 2016
The Equator usually refers to an imaginary line on the Earth's surface equidistant from the North Pole and South Pole, dividing the Earth into the Northern Hemisphere and Southern Hemisphere. The Equator is about 40,075 kilometres (24,901 mi) long; some 78.7% lies across water and 21.3% over land.
Other planets and astronomical bodies have equators similarly defined. Generally, an equator is the intersection of the surface of a rotating sphere with the plane that is perpendicular to the sphere's axis of rotation and midway between its poles.
Overview
The latitude of the Earth's equator is by definition 0° (zero degrees) of arc. The Equator is one of the five notable circles of latitude on Earth; the other four are the two Polar Circles: the Arctic Circle and the Antarctic Circle; and the two Tropical Circles: the Tropic of Cancer and the Tropic of Capricorn. The equator is the only line of latitude which is also a great circle — that is, one whose plane passes through the center of the globe. The plane of Earth's equator when projected outwards to the celestial sphere defines the celestial equator.
In the cycle of Earth's seasons, the plane of the equator passes through the Sun twice per year: at the March and September equinoxes. To an observer on the Earth, the Sun appears to travel North or South over the equator (or the celestial equator) at these times. Light rays from the center of the Sun are perpendicular to the surface of the Earth at the point of solar noon on the Equator.
Locations on the Equator experience the quickest sunrises and sunsets because the sun moves nearly perpendicular to the horizon for most of the year. The length of daylight (sunrise to sunset) is almost constant throughout the year; it is about 14 minutes longer than nighttime due to atmospheric refraction and the fact that sunrise is begun (or sunset is ended) as the upper edge, not the centre, of the Sun's disk crosses the horizon.
The Earth bulges slightly at the Equator; the "average" diameter of the Earth is 12,750 kilometres (7,922 mi), but the diameter at the Equator is about 43 kilometres (27 mi) greater than at the poles.[1]
Sites near the Equator, such as the Guiana Space Centre in Kourou, French Guiana, are good locations for spaceports as they have a faster rotational speed than other latitudes; the added velocity reduces the fuel needed to launch spacecraft. Because the Earth spins to the east, spacecraft must also launch to the east (or to the southeast or northeast) to take advantage of this Earth-boost of speed.
Equatorial seasons and climate
Seasons result from the yearly revolution of the Earth around the Sun and the tilt of the Earth's axis relative to the plane of revolution. During the year the northern and southern hemispheres are inclined toward or away from the sun according to Earth's position in its orbit. The hemisphere inclined toward the sun receives more sunlight and is in summer, while the other hemisphere receives less sun and is in winter (see solstice).
At the equinoxes, the Earth's axis is not tilted toward the sun, instead it is perpendicular to the sun meaning that the day is about 12 hours long, as is the night, across the whole of the Earth.
Near the Equator there is little distinction between summer, winter, autumn, or spring. The temperatures are usually high year-round—with the exception of high mountains in South America and in Africa. (See Andes and Mount Kilimanjaro.) The temperature at the Equator can plummet during rainstorms. In many tropical regions people identify two seasons: the wet season and the dry season, but many places close to the Equator are on the oceans or rainy throughout the year. The seasons can vary depending on elevation and proximity to an ocean.
The Equator lies mostly on the three largest oceans: the Pacific Ocean, the Atlantic Ocean, and the Indian Ocean. The highest point on the Equator is at the elevation of 4,690 metres (15,387 ft), at 0°0′0″N 77°59′31″W / 0.00000°N 77.99194°W, found on the southern slopes of Volcán Cayambe [summit 5,790 metres (18,996 ft)] in Ecuador. This is slightly above the snow line, and is the only place on the Equator where snow lies on the ground. At the Equator the snow line is around 1,000 metres (3,280 ft) lower than on Mount Everest and as much as 2,000 metres (6,560 ft) lower than the highest snow line in the world near the Tropic of Capricorn on Llullaillaco.
Equatorial countries and territories
The Equator traverses the land of 11 countries; it also passes through two island nations, though without making a landfall in either. Starting at the Prime Meridian and heading eastwards, the Equator passes through:
Despite its name, no part of Equatorial Guinea's territory lies on the Equator. However, its island of Annobón is 155 kilometres (96 mi) south of the Equator, and the rest of the country lies to the north.
Crossing the Equator
Certain navies, such as the Russian Navy, Royal Navy and the US Navy, have a tradition of holding ceremonies on board ship to mark sailors' first crossing of the Equator. These rites of initiation have in the past been notorious for their brutality. Milder line-crossing ceremonies, typically featuring King Neptune, are also held for passengers' entertainment on some civilian ocean liners and cruise ships.[citation needed]
Geodesy
Precise location
The precise location of the Equator is not truly fixed; the true equatorial plane is perpendicular to the Earth's spin axis, which drifts about 9 metres (30 ft) during a year. This effect must be accounted for in detailed geophysical measurements.
Exact length
In two widely used geodetic standards, the Equator is modelled as a circle whose radius is a whole number of metres. In 1976 the IAU chose a radius of 6,378.140 kilometres (3,963.192 mi), later refined by the IUGG to 6,378.137 kilometres (3,963.191 mi) and adopted in WGS-84, though the yet more recent IAU-2000 has retained the old IAU-1976 value. If it were really circular the length of the Equator would be exactly 2π times the radius, namely 40,075.036 kilometres (24,901.473 mi). However, due to the effect of tidal force on the Earth's surface the actual circumference at the equator is 40,075.16 kilometres (24,901.55 mi).
The geographical mile is defined as one arc minute of the Equator, so it has different values depending on which radius is assumed, e.g., 1,855.3248 metres (6,087.024 ft) for WGS84 or 1,855.3257 metres (6,087.027 ft) for IAU-2000.
The earth is modelled commonly as a sphere flattened 0.336% along its axis. This makes the Equator 0.16% longer than a meridian (a great circle passing through the two poles). The IUGG standard meridian is, to the nearest millimetre, 40,007.862917 kilometres (24,859.733480 mi), one arc minute of which is 1,852.216 metres (6,076.82 ft), explaining the SI standardization of the nautical mile as 1,852 metres (6,076 ft), more than 3 metres (9.8 ft) less than the geographical mile.
The sea-level surface of the Earth (the geoid) is irregular, so the actual length of the Equator is not so easy to determine. Aviation Week and Space Technology on 9 October 1961 reported that measurements using the Transit IV-A satellite had shown the equatorial "diameter" from longitude 11° West to 169° East to be 1,000 feet (300 m) greater than its "diameter" ninety degrees away.[citation needed]
Climate
Lowlands around the Equator generally have a tropical rainforest climate, also known as an equatorial climate, though cold currents cause some regions to have tropical monsoon climates with a dry season in the middle of the year. Usually, average annual temperature is around 30 °C (86 °F) during the day and 23 °C (73 °F) at night. Rainfall is very high, usually from 2,500 to 3,500 mm (98 to 138 in) per year. Average rainy days are around 200 per year and average annual sunshine hours around 2,000.
Climate data for Macapá, Brazil in South America | |||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Month | Jan | Feb | Mar | Apr | May | Jun | Jul | Aug | Sep | Oct | Nov | Dec | Year |
Mean daily maximum °C (°F) | 29.7 (85.5) |
29.2 (84.6) |
29.3 (84.7) |
29.5 (85.1) |
30.0 (86.0) |
30.3 (86.5) |
30.6 (87.1) |
31.5 (88.7) |
32.1 (89.8) |
32.6 (90.7) |
32.3 (90.1) |
31.4 (88.5) |
30.71 (87.28) |
Daily mean °C (°F) | 26.4 (79.5) |
26.2 (79.2) |
26.3 (79.3) |
26.5 (79.7) |
26.8 (80.2) |
26.8 (80.2) |
26.8 (80.2) |
27.4 (81.3) |
27.8 (82.0) |
28.1 (82.6) |
27.9 (82.2) |
27.4 (81.3) |
27.03 (80.65) |
Mean daily minimum °C (°F) | 23.0 (73.4) |
23.1 (73.6) |
23.2 (73.8) |
23.5 (74.3) |
23.5 (74.3) |
23.2 (73.8) |
22.9 (73.2) |
23.3 (73.9) |
23.4 (74.1) |
23.5 (74.3) |
23.5 (74.3) |
23.4 (74.1) |
23.29 (73.92) |
Average rainfall mm (inches) | 299.6 (11.80) |
347.0 (13.66) |
407.2 (16.03) |
384.3 (15.13) |
351.5 (13.84) |
220.1 (8.67) |
184.8 (7.28) |
98.00 (3.86) |
42.60 (1.68) |
35.50 (1.40) |
58.40 (2.30) |
142.5 (5.61) |
2,571.5 (101.26) |
Average rainy days (≥ 0.1 mm) | 23 | 22 | 24 | 24 | 25 | 22 | 19 | 13 | 6 | 5 | 6 | 14 | 203 |
Mean monthly sunshine hours | 148.8 | 113.1 | 108.5 | 114.0 | 151.9 | 189.0 | 226.3 | 272.8 | 273.0 | 282.1 | 252.0 | 204.6 | 2,336.1 |
Source: World Meteorological Organization (UN),[3] Hong Kong Observatory[4] |
Climate data for Pontianak, Indonesia in Asia | |||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Month | Jan | Feb | Mar | Apr | May | Jun | Jul | Aug | Sep | Oct | Nov | Dec | Year |
Mean daily maximum °C (°F) | 32.4 (90.3) |
32.7 (90.9) |
32.9 (91.2) |
33.2 (91.8) |
33.0 (91.4) |
33.2 (91.8) |
32.9 (91.2) |
33.4 (92.1) |
32.6 (90.7) |
32.6 (90.7) |
32.2 (90.0) |
32.0 (89.6) |
32.7 (90.9) |
Daily mean °C (°F) | 27.6 (81.7) |
27.7 (81.9) |
28.0 (82.4) |
28.2 (82.8) |
28.2 (82.8) |
28.2 (82.8) |
27.7 (81.9) |
27.9 (82.2) |
27.6 (81.7) |
27.7 (81.9) |
27.4 (81.3) |
27.2 (81.0) |
27.7 (81.9) |
Mean daily minimum °C (°F) | 22.7 (72.9) |
22.6 (72.7) |
23.0 (73.4) |
23.2 (73.8) |
23.4 (74.1) |
23.1 (73.6) |
22.5 (72.5) |
22.3 (72.1) |
22.6 (72.7) |
22.8 (73.0) |
22.6 (72.7) |
22.4 (72.3) |
22.7 (72.9) |
Average rainfall mm (inches) | 260 (10.2) |
215 (8.5) |
254 (10.0) |
292 (11.5) |
256 (10.1) |
212 (8.3) |
201 (7.9) |
180 (7.1) |
295 (11.6) |
329 (13.0) |
400 (15.7) |
302 (11.9) |
3,196 (125.8) |
Average rainy days (≥ 0.1 mm) | 15 | 13 | 21 | 22 | 20 | 18 | 16 | 25 | 14 | 27 | 25 | 22 | 238 |
Source: World Meteorological Organization (UN)[5] |
Climate data for Libreville, Gabon in Africa | |||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Month | Jan | Feb | Mar | Apr | May | Jun | Jul | Aug | Sep | Oct | Nov | Dec | Year |
Mean daily maximum °C (°F) | 29.5 (85.1) |
30.0 (86.0) |
30.2 (86.4) |
30.1 (86.2) |
29.4 (84.9) |
27.6 (81.7) |
26.4 (79.5) |
26.8 (80.2) |
27.5 (81.5) |
28.0 (82.4) |
28.4 (83.1) |
29.0 (84.2) |
28.58 (83.44) |
Daily mean °C (°F) | 26.8 (80.2) |
27.0 (80.6) |
27.1 (80.8) |
26.6 (79.9) |
26.7 (80.1) |
25.4 (77.7) |
24.3 (75.7) |
24.3 (75.7) |
25.4 (77.7) |
25.7 (78.3) |
25.9 (78.6) |
26.2 (79.2) |
25.95 (78.71) |
Mean daily minimum °C (°F) | 24.1 (75.4) |
24.0 (75.2) |
23.9 (75.0) |
23.1 (73.6) |
24.0 (75.2) |
23.2 (73.8) |
22.1 (71.8) |
21.8 (71.2) |
23.2 (73.8) |
23.4 (74.1) |
23.4 (74.1) |
23.4 (74.1) |
23.30 (73.94) |
Average rainfall mm (inches) | 250.3 (9.85) |
243.1 (9.57) |
363.2 (14.30) |
339.0 (13.35) |
247.3 (9.74) |
54.10 (2.13) |
6.600 (0.26) |
13.70 (0.54) |
104.0 (4.09) |
427.2 (16.82) |
490.0 (19.29) |
303.2 (11.94) |
2,841.7 (111.88) |
Average rainy days (≥ 0.1 mm) | 17.9 | 14.8 | 19.5 | 19.2 | 16.0 | 3.70 | 1.70 | 4.90 | 14.5 | 25.0 | 22.6 | 17.6 | 177.4 |
Mean monthly sunshine hours | 176.7 | 182.7 | 176.7 | 177.0 | 158.1 | 132.0 | 117.8 | 89.90 | 96.00 | 111.6 | 135.0 | 167.4 | 1,720.9 |
Source: World Meteorological Organization (UN),[6] Hong Kong Observatory[7] |
See also
Notes
- ^ "Equator". National Geographic - Education. Retrieved 29 May 2013.
- ^ Instituto Geográfico Militar de Ecuador (24 January 2005). "Memoria Técnica de la Determinación de la Latitud Cero" (in Spanish).
- ^ "Weather Information for Macapa".
- ^ Climatological Information for Macapa, Brazil - Hong Kong Observatory
- ^ "Weather Information for Pontianak".
- ^ "Weather Information for Libreville".
- ^ Climatological Information for Libreville, Gabon - Hong Kong Observatory
References
- Moritz, H (September 1980). "Geodetic Reference System 1980". Bulletin Géodésique. 54 (3). Berlin: Springer-Verlag: 395–405. Bibcode:1980BGeod..54..395M. doi:10.1007/BF02521480. (IUGG/WGS-84 data)
- Taff, Laurence G (1981). Computational Spherical Astronomy. New York: Wiley. ISBN 0-471-06257-X. OCLC 6532537. (IAU data)