Diametrically opposite points on Earth's surface
This map shows the antipode of each point on
Earth's surface—the points where the blue and yellow overlap are land antipodes; most land has its antipodes in the ocean. This map uses the
Lambert azimuthal equal-area projection. The yellow areas are the reflections through Earth's center of land masses of the opposite
Western Hemisphere.
The same map, from the perspective of the Western Hemisphere. Here the blue areas are the reflections of the
Eastern Hemisphere.
In geography, the antipode ( or ) of any spot on Earth is the point on Earth's surface diametrically opposite to it. A pair of points antipodal () to each other are situated such that a straight line connecting the two would pass through Earth's center. Antipodal points are as far away from each other as possible.[note 1]
In the Northern Hemisphere, "the Antipodes" may refer to Australia and New Zealand, and Antipodeans to their inhabitants.[2] Geographically, the antipodes of Britain and Ireland are in the Pacific Ocean, south of New Zealand. This gave rise to the name of the Antipodes Islands of New Zealand, which are close to the antipode of London. With the exception of a part of the Perth metropolitan area near Baldivis and Rockingham that is antipodal to Bermuda, the antipodes of Australia are in the North Atlantic Ocean, while parts of Spain, Portugal, and Morocco are antipodal to New Zealand.
Approximately 15% of land territory is antipodal to other land, representing approximately 4.4% of Earth's surface.[3] Another source estimates that about 3% of Earth's surface is antipodal land.[4] The largest antipodal land masses are the Malay Archipelago, antipodal to the Amazon basin and adjoining Andean ranges; east China and Mongolia, antipodal to Argentina; and Greenland and the Canadian Arctic Archipelago, antipodal to East Antarctica. There is a general paucity of antipodal land because the Southern Hemisphere has comparatively less land than the Northern Hemisphere and, of that, the antipodes of Australia are in the North Atlantic Ocean, while the antipodes of southern Africa are in the Pacific Ocean.
The antipode of any place on the Earth is the place that is diametrically opposite it, so a line drawn from the one to the other passes through the centre of Earth and forms a true diameter.[5] For example, the antipodes of New Zealand's lower North Island lie in Spain. Most of the Earth's land surfaces have ocean at their antipodes, this being a natural consequence of most of the Earth's surface being covered in water.
The antipode of any place on Earth is distant from it by 180° of longitude and as many degrees to the north of the Equator as the original is to the south (or vice versa); in other words, the latitudes are numerically equal, but one is north and the other south.[5] The maps shown here are based on this relationship; they show a Lambert azimuthal equal-area projection of the Earth, in yellow, overlaid on which is another map, in blue, shifted horizontally by 180° of longitude and inverted about the Equator with respect to latitude.
Noon at one place is midnight at the other (ignoring daylight saving time and irregularly shaped time zones) and, with the exception of the tropics, the longest day at one point corresponds to the shortest day at the other, and midwinter at one point coincides with midsummer at the other. Sunrise and sunset do not quite oppose each other at antipodes due to refraction of sunlight.
If the geographic coordinates (latitude and longitude) of a point on the Earth's surface are (φ, θ), then the coordinates of the antipodal point are (−φ, θ ± 180°). This relation holds true whether the Earth is approximated as a perfect sphere or as a reference ellipsoid.
In terms of the usual way these geographic coordinates are given, this transformation can be expressed symbolically as
x° N/S y° E/W ↦ x° S/N (180 − y)° W/E,that is, for the latitude (the North/South coordinate) the magnitude of the angle remains the same but N is changed to S and vice versa, and for the longitude (the East/West coordinate) the angle is replaced by its supplementary angle while E is exchanged for W. For example, the antipode of the point in China at 37° N 119° E (a few hundred kilometres from Beijing) is the point in Argentina at 37° S 61° W (a few hundred kilometres from Buenos Aires).
The word antipodes comes from the Greek: ἀντίποδες (antípodes),[6] plural of ἀντίπους (antipous), "with feet opposite (ours)",[7] from ἀντί (antí, “opposite”) + πούς (poús, “foot”). The Greek word is attested in Plato's dialogue Timaeus, already referring to a spherical Earth, explaining the relativity of the terms "above" and "below":
For if there were any solid body in equipoise at the centre of the universe, there would be nothing to draw it to this extreme rather than to that, for they are all perfectly similar; and if a person were to go round the world in a circle, he would often, when standing at the antipodes of his former position, speak of the same point as above and below; for, as I was saying just now, to speak of the whole which is in the form of a globe as having one part above and another below is not like a sensible man.
The term is taken up by Aristotle (De caelo 308a.20), Strabo (Geographica 1.1.13), Plutarch (On the Malice of Herodotus 37) and Diogenes Laërtius (Lives and Opinions of Eminent Philosophers book 3), and was adopted into Latin as antipodes. The Latin word changed its sense from the original "under the feet, opposite side" to "those with the feet opposite", i.e. a bahuvrihi referring to hypothetical people living on the opposite side of the Earth. Medieval illustrations imagine them in some way "inverted", with their feet growing out of their heads, pointing upward.
In this sense, Antipodes first entered English in 1398 in a translation of the 13th century De Proprietatibus Rerum by Bartholomeus Anglicus, translated by John of Trevisa:
Yonde in Ethiopia ben the Antipodes, men that haue theyr fete ayenst our fete.
(In Modern English: Yonder in Ethiopia are the Antipodes, men that have their feet against our feet.)
The modern English singular antipode arose in the 16th or 17th century as a back-formation from antipodes. Most dictionaries suggest a pronunciation of for this form.[9][10][11]
Pomponius Mela, the first Roman geographer, asserted that the earth had two habitable zones, a North and South one, but that it would be impossible to get into contact with each other because of the unbearable heat at the Equator (De orbis situ 1.4).[note 2]
The Terrestrial Sphere of
Crates of Mallus(
c. 150BCE), showing the region of the antipodes in the southern half of the western hemisphere
From the time of St Augustine, the Christian church was skeptical of the notion. Augustine asserted that "it is too absurd to say that some men might have set sail from this side and, traversing the immense expanse of ocean, have propagated there a race of human beings descended from that one first man."[13]
In the Early Middle Ages, Isidore of Seville's widely read encyclopedia presented the term "antipodes" as referring to antichthones (people who lived on the opposite side of the Earth), as well as to a geographical place; these people came to play a role in medieval discussions about the shape of the Earth.[14] In 748, in reply to a letter from Saint Boniface, Pope Zachary declared the belief "that beneath the earth there was another world and other men, another sun and moon" to be heretical. In his letter, Boniface had apparently maintained that Vergilius of Salzburg held such a belief.[15][16][17][18]
The antipodes being an attribute of a spherical Earth, some ancient authors used their perceived absurdity as an argument for a flat Earth.[19] However, knowledge of the spherical Earth was widespread during the Middle Ages, only occasionally disputed—the medieval dispute surrounding the antipodes mainly concerned the question whether people could live on the opposite side of the earth: since the torrid clime was considered impassable, it would have been impossible to evangelize them. This posed the problem that Christ told the apostles to evangelize all mankind; with regard to the unreachable antipodes, this would have been impossible. Christ would either have appeared a second time, in the antipodes, or left the damned irredeemable. Such an argument was forwarded by the Spanish theologian Alonso Tostado as late as the 15th century and "St. Augustine doubts" was a response to Columbus's proposal to sail westwards to the Indies.[20]
The author of the Norwegian book Konungs Skuggsjá, from around 1250, discusses the existence of antipodes. He notes that (if they exist) they will see the sun in the north in the middle of the day and that they will have seasons opposite those of the Northern Hemisphere.
The earliest surviving account by a European who had visited the Southern Hemisphere is that of Marco Polo (who, on his way home in 1292, sailed south of the Malay Peninsula). He noted that it was impossible to see the star Polaris from there.
The idea of dry land in the southern climes, the Terra Australis, was introduced by Ptolemy and appears on European maps as an imaginary continent from the 15th century. In spite of having been discovered relatively late by European explorers, Australia was inhabited very early in human history; the ancestors of the Indigenous Australians reached it at least 50,000 years ago.
To make the longest distance trip around the planet a traveler would have to pass through a set of antipodal points. All meridians can be crossed in one hemisphere—indeed, by walking around one of the poles—but such trips are shorter than a maximum circumnavigation. On the other hand, the greatest straight line distance that could in theory be covered is a trip exactly on the Equator, a distance of 40,075 kilometres (24,901 mi). The Earth's equatorial bulge makes this slightly longer than a north-south trip around the world along a set of meridian lines, which is a distance of 40,008 kilometres (24,860 mi). Any other closed great circle route starting on the equator and traveling at an angle between 0° (an equatorial route) and 90° (a polar route) would be between 40,075 and 40,008 kilometres (24,901 and 24,860 mi). In all of these cases, after half of the world has been traversed, every subsequent point will be antipodal to one already visited.
There are currently no commercial aircraft capable of traveling non-stop between antipodes with a standard full commercial passenger load.
The current world record holder Airbus A350-900ULR, is capable of flying 18,000 kilometres (9,700 nmi; 11,000 mi)[21] or roughly 90% of an average antipodal distance. The current world record holder for the longest scheduled passenger flight, Singapore Airlines, utilizes this model in their non-stop Singapore to New York-JFK route SQ23/24.[22]
In 2019, Qantas completed separate non-stop flights taking 19–20 hours to encompass the 16,013 km from New York and 17,016 km from London, both to Sydney, Australia with a limit of 49 passengers on the Boeing 787 Dreamliner and who underwent medical tests on the flight. The London-Sydney direct routes are said to be the world's most profitable ultra-long haul flights annually. Future flights for the same pair of experiments are currently put on hold due to global travel restrictions throughout the COVID-19 pandemic.[23][24]
In March 2021, a Comlux 787-8, registered P4-787, flew a non-scheduled (chartered) flight from the (close to true) antipodes of Seoul Incheon to Buenos Aires non-stop with its chartered passengers. This set a new record for the longest commercial non-stop flight with paying passengers in the process having covered a total of 19,483 kilometres (10,520 nmi; 12,106 mi) in a flight time of 20 hours, 19 minutes.
Airbus' business jet variant of its Airbus A350, the ACJ350, which entered into service in 2020,[25] has a range of 20,550 km[26] allowing them to technically operate between any two available antipodes. As of September 2021,[update] there are 3 ACJ350s now in service globally. The owner of the first ACJ350, the German Government, has already taken it on a close to antipodal flight with a flight from Cologne, Germany to Canberra, Australia in November 2020.[27] The upcoming Boeing business jet variant, the BBJ 777-8, will also have an antipodal reach with its published range of 21,570 km.[28] Both aforementioned variants from Airbus and Boeing are the first aircraft designed to handle flights exceeding the Earth's average antipodal distance of 20,000 km.
Among flights with fuel stop and crew-change stop but still same flight number, Air New Zealand previously had the world's longest active plane route—the Auckland–Los Angeles–London marathon, at 19,240 km (11,960 mi) over Los Angeles (directly 18,360 km or 11,410 mi)—until the airline cancelled this route late in 2019. The current record holder for such a flight is Air China's Beijing - Madrid - São Paulo flight which flies 17,584 km (10,926 mi; 9,495 nmi).
A hypothetically almost perfect antipodal flight would be Tangier Ibn Battouta Airport, Morocco (IATA: TNG), to Whangarei Aerodrome, New Zealand (IATA: WRE), whose designated locators are 10,800 nautical miles (20,002 km) apart,[29] almost the maximum possible distance. However, with only a length of 3,599 ft (1,097 m), Whangarei's runway is too short to accommodate any current (as of 2015[update]) commercial jet airliner, especially one with the required range. Traveling between them would currently need at least two plane changes.
Other near-antipodes major city pairs include:
The ambiguous airport designation HLA could refer to either Lanseria International Airport (IATA: HLA, ICAO: FALA, 25°56′S 027°55′E) in South Africa or Huslia Airport (IATA: HSL, ICAO: PAHL, FAA LID: HLA, 65°42′N 156°21′W) in Alaska. The respective locations are nearly antipodes which is notable considering that they share the same designation. Automated systems that select the wrong airport from a database could lead to navigation errors or large outliers in data analysis.
Some cities and towns which are near-antipodes in
equirectangular projection.
Bluelabels pertain to
cyan
and
brownlabels pertain to
yellow
areas. Areas where
cyan
and
yellow
overlap (coloured
green
) are land antipodes.
Around 71% of the Earth's surface is covered by oceans, and seven-eighths of the Earth's land (when excluding Antarctica) is confined to the land hemisphere, so the majority of locations on land do not have land-based antipodes. About 15% of the earth's land has an antipodes on land.[3] Rough calculation shows that, of the 29% of the earth that is covered by land, if 15% of that has antipodes on land, then about 4% (0.15 × 29% = 4.35%) of the earth's surface has antipodes that are both land surfaces. Spilhaus estimates this at about 3%.[4]
The two largest human inhabited antipodal areas are located in East Asia (mainly eastern China) and South America (mainly northern Argentina and Chile). The two largest monolithic antipodal land areas are most of Chile and Argentina along with eastern and central China and Mongolia, and most of Greenland along with a part of Antarctica. The Australian mainland is the largest landmass with its antipodes entirely in ocean, although some locations of mainland Australia and Tasmania are close to being antipodes of islands (Bermuda, Azores, Puerto Rico) in the North Atlantic Ocean. The largest landmass with antipodes entirely on land is the island of Borneo, whose antipodes are in the Amazon rainforest.
Exact or almost exact antipodes:
To within 100 km (62 mi), with at least one major city (population of at least 1 million):
Taiwan (formerly called Formosa) is partly antipodal to the province of Formosa in Argentina.
Other major cities or capitals close to being antipodes:
Gibraltar is approximately antipodal to Te Arai Beach about 85 km (53 mi) north of Auckland, New Zealand. This illustrates the old yet correct saying that the sun never sets on the British Empire; the sun still does not set on the Commonwealth of Nations.
The northern part of New Caledonia, an overseas territory of France, is antipodal to some thinly populated desert in Mauritania, a part of the former French West Africa. Portions of Suriname, a former Dutch colony, are antipodal to Sulawesi, an Indonesian island spelled Celebes when it was part of the Netherlands East Indies. Luzon, the largest island of the Philippines, is antipodal to eastern Bolivia. As with the British Empire, the sun set neither on the French Empire, the Dutch Empire, nor the Spanish Empire at their peaks.
Santa Vitória do Palmar, the most southerly town of more than 10,000 people in Brazil, is antipodal to Jeju Island, the southernmost territory of South Korea.
Hawaii is antipodal to parts of Botswana. The Big Island of Hawaii is antipodal to the Okavango Delta in Botswana, with the island's largest city, Hilo, antipodal to Nxai Pan National Park.
Desolate Kerguelen Island is antipodal to an area of thinly inhabited plains on the border between the Canadian provinces of Alberta and Saskatchewan and the US state of Montana. The only permanent settlement on Kerguelen Island, the research station Port-aux-Français, is antipodal to fields 10 km (6.2 mi) northeast of Senate, Saskatchewan. Other Canadian towns with antipodes on Kerguelen Island include: Consul, Nashlyn and Govenlock in the vicinity of Senate, and in Alberta Eagle Butte, Elkwater and Manyberries as well as the Red Coat Trail between Orion, Alberta and Etzikom. The northern part of Liberty County, Montana, especially the communities Goldstone, Fox Crossing and Sage Creek Colony, also have antipodes on Kerguelen Island.
St. Paul Island and Amsterdam Island are antipodal to thinly populated parts of the eastern part of the US state of Colorado. They are situated ca. 10.2 km (6.3 mi) south-south-east of Firstview and 30.5 km (19.0 mi) south-south-west of Granada, Colorado, respectively. Together with the northern part of Liberty County, Montana, they are the only three areas of the Contiguous United States with antipodes on land.
The north-eastern coast of Alaska from Utqiaġvik (former Barrow) over Prudhoe Bay to the Canadian border, and the coasts of the Canadian territories of Yukon, Northwest Territories, and Nunavut, are antipodal to Antarctica.
The Heard Island and McDonald Islands, an uninhabited Australian territory, is antipodal to an area in central Saskatchewan, including the towns of Leask and Shellbrook.
Tigres Island, the largest uninhabited island of Angola, is approximately antipodal to Johnston atoll, which is the third largest uninhabited island of the United States.
Easter Island is antipodal to an area close to Desert National Park, 35 km (22 mi) from Jaisalmer, India. The only town on Easter Island, Hanga Roa, is antipodal to the village of Serawa 46 km (29 mi) northeast of Jaisalmer. Serawa is the only village in India to be antipodal to a human settlement. Its neighbouring villages Mokla and the northern part of Bhadasar also have antipodes on Easter Island. The small, rocky, uninhabited island of Sala y Gómez, 391 km (243 mi) east-northeast of Easter Island, is antipodal to an area in the city of Ajmer, India, just east of Ana Sagar Lake. All the rest of India has its antipodes in the sea.
Kiritimati, the largest island of Kiribati and the largest coral atoll in the world, is antipodal to Salonga National Park, which is the largest national park of the Democratic Republic of the Congo and the largest tropical rainforest reserve in Africa.
Serra da Estrela Natural Park, the largest natural park of Portugal, is antipodal to Kahurangi National Park, the second largest national park of New Zealand.
South Georgia Island is antipodal to the northernmost part of Sakhalin Island.
Lake Baikal is partially antipodal to the Straits of Magellan.
The Russian Antarctic research base Bellingshausen Station is antipodal to a land location in Russian Siberia.
Rottnest Island, off the coast of Western Australia, is approximately antipodal to Bermuda.
Cocos (Keeling) Islands, an Australian external territory in the Indian Ocean, is almost antipodal to Nicaragua's Corn Islands.
Flores Island, the westernmost island of the Azores, is nearly antipodal to Flinders Island between Tasmania and the Australian mainland.
Point Nemo, the point in the South Pacific Ocean most distant from any other land, is precisely opposite a desolate piece of desert in western Kazakhstan.
By definition, the North Pole and the South Pole are antipodes.
Null Island, 0°N 0°E / 0°N 0°E / 0; 0 , at the intersection of the prime meridian and the equator, has its antipodes at 0°N 180°E / 0°N 180°E / 0; 180 , at the intersection of the antimeridian and the equator. This point lies northeast of Nikunau in the Gilbert Islands and southwest of Baker Island, a United States territory.
As can be seen on the purple/blue map, the Pacific Ocean is so large that it stretches halfway around the world; parts of the Pacific off the coast of Peru are antipodal to parts of the same ocean off the coast of Southeast Asia. For example, the island of Ko Chang—which is the second or third largest island in Thailand—is nearly antipodal to San Lorenzo Island, which is the largest island of Peru.
The following countries are opposite more than one other country. (Antarctica is considered separately from any territorial claims.)
Countries matching up with just one other country are Morocco, Spain, Chad, Libya, Cameroon (with the Cook Islands of New Zealand); Egypt, Eritrea, Ethiopia (with French Polynesia); Senegal (Vanuatu); the UAE (Pitcairn); Ghana, Ivory Coast (Tuvalu); Burkina Faso (Rotuma in Fiji); Guinea (Solomon Islands); India (Easter Island); Laos, Cambodia, Vietnam, and Thailand (all with Peru); Singapore (Ecuador); Brunei, Palau, Micronesia (all with Brazil); Venezuela and Suriname (Indonesia).
Of these, the larger countries which are entirely antipodal to land are the Philippines, Malaysia, Taiwan, Fiji, Vanuatu, Brunei, and Samoa. Chile was as well prior to its expansion into the Atacama with the War of the Pacific.
In a number of cases on extraterrestrial bodies in the Solar System, unusual geologic features (e.g., jumbled terrain or unique volcanic constructs) are located antipodal to major impact basins. It has been hypothesized that this results from focusing of some of the seismic waves (p-waves and surface waves) produced by an impact at its antipode.[30]