From Wikipedia, the free encyclopedia
This article is about the society. For the Belgian band, see Flat Earth Society (band).
Modern flat Earth hypotheses originated with the English writer Samuel Rowbotham (1816–1884). Based on his conclusions derived from the Bedford Level experiment, Rowbotham published a 16-page pamphlet, Zetetic Astronomy, which he later expanded into a 430-page book, Earth Not a Globe, in which the Earth is a flat disc centred at the North Pole and bounded along its southern edge by a wall of ice (Antarctica), with the Sun and Moon 3,000 miles (4,800 km) and the “cosmos” 3,100 miles (5,000 km) above Earth. He also published a leaflet entitled “The inconsistency of Modern Astronomy and its Opposition to the Scriptures!!“, which argued that the “Bible, alongside our senses, supported the idea that the earth was flat and immovable and this essential truth should not be set aside for a system based solely on human conjecture”.
Rowbotham and followers like William Carpenter, who continued the belief, gained attention by successful use of pseudoscience in public debates with leading scientists of the day. One such debate, involving Alfred Russel Wallace, concerned the Bedford Level experiment (and later led to several lawsuits for fraud and libel). Rowbotham created a Zetetic Society in England and New York, shipping over a thousand copies of Zetetic Astronomy.
After Rowbotham’s death, Lady Elizabeth Blount, wife of explorer Sir Walter de Sodington Blount, established a Universal Zetetic Society, whose objective was “the propagation of knowledge related to Natural Cosmogony in confirmation of the Holy Scriptures, based on practical scientific investigation”. The society published a magazine, The Earth Not a Globe Review, and remained active well into the early 20th century. A flat Earth journal, Earth: a Monthly Magazine of Sense and Science, was published between 1901–1904, edited by Lady Blount.
The International Flat Earth Research Society (IFERS), the first Flat Earth society organization, was founded by Englishman Samuel Shenton in 1956 and was later led by American Charles K. Johnson, who based the organization in his home town of Lancaster, California. The belief lacked representation after Johnson’s death in 2001, until the name was reclaimed in 2004 by Johnson’s self-proclaimed successor ‘Daniel Shenton’ (likely a reference to Samuel Shenton), a man claiming to live in Hong Kong. 
Samuel Shenton: The Flat Earth Society
In 1956, Samuel Shenton, a songwriter by trade, created the International Flat Earth Society as a successor to the Universal Zetetic Society and ran it as “organizing secretary” from his home in Dover, England. Given Shenton’s interest in alternative science and technology, the emphasis on religious arguments was less than in the predecessor society.
When satellite images showed Earth as a sphere, Shenton remarked: “It’s easy to see how a photograph like that could fool the untrained eye”.
In 1969, Shenton persuaded Ellis Hillman, a Polytechnic lecturer, to become president of the Flat Earth Society; but there is little evidence of any activity on his part until after Shenton’s death, when he added most of Shenton’s library to the archives of the Science Fiction Foundation he helped to establish.
Historical accounts and spoken history tell us the Land part may have been square, all in one mass at one time, then as now, the magnetic north being the Center. Vast cataclysmic events and shaking no doubt broke the land apart, divided the Land to be our present continents or islands as they exist today. One thing we know for sure about this world…the known inhabited world is Flat, Level, a Plain World.
-Flyer written by Charles K. Johnson, 1984.
Shenton died in 1971; Charles K. Johnson, inheriting part of Shenton’s library from Shenton’s wife, established and became president of the International Flat Earth Research Society of America and Covenant People’s Church in California. Under his leadership, over the next three decades, the Flat Earth Society grew from a few members to a reported 3,500. Johnson gave newsletters, flyers, maps, and other publications to anyone who asked for them, and managed all membership applications together with his wife, Marjory. The most famous of these newsletters was Flat Earth News. Johnson paid for these publications through annual member dues costing US$6 to US$10 over the course of his leadership. Johnson’s beliefs were based on the Bible, and he saw scientists as pulling a hoax which would replace religion with science.
The Flat Earth Society’s most recent world model is that humanity lives on a disc, with the North Pole at its center and a 150-foot (45 m) high wall of ice (Antarctica) at the outer edge. The resulting mapresembles the symbol of the United Nations, which Johnson used as evidence for his position. In this model, the Sun and Moon are each 32 miles (52 km) in diameter.
Flat Earth Society recruited members by speaking against the U. S. government and all its agencies, particularly NASA. Much of the society’s literature in its early days focused on interpreting the Bible to mean that the Earth is flat, although they did try to offer scientific explanations and evidence.
Flat Earth News
Some headlines from Flat Earth News during the 1970s and early 1980s:
- “Whole World Deceived… Except the Very Elect” (Dec. 1977)
- “Australia Not Down Under” (May 1978)
- “Sun Is a Light 32 Miles Across” (Dec. 1978)
- “The Earth Has No Motion” (Jun. 1979)
- “Nikita Krushchev Father of NASA” (Mar. 1980)
- “Galileo Was a Liar” (Dec. 1980)
- “Science Insults Your Intelligence” (Sep. 1980)
- “World IS Flat, and That’s That” (Sep. 1980)
- “The Earth Is Not a Ball; Gravity Does Not Exist” (Mar. 1981)
Peak and decline
The group rose to 3,500 members under Charles K. Johnson. Later, “Flat-earther” became a common epithet for someone who stubbornly adheres to discredited or outmoded ideas.
Eugenie Scott called them an example of “extreme Biblical-literalist theology: The earth is flat because the Bible says it is flat, regardless of what science tells us”. The society was further affected by a fire at the house of Charles K. Johnson which destroyed all of the records and contacts of members of the Society. Johnson’s wife, who helped manage the database, died shortly thereafter. Johnson himself died on March 19, 2001.
Modern Flat Earth Societies
In 2004, Daniel Shenton (not related to Samuel) resurrected the Flat Earth Society, basing it around a web-based discussionforum. This eventually led to the official relaunch of the society in October 2009, and the creation of a new website, featuring the world’s largest public collection of Flat Earth literature and a user-edited encyclopedia. Moreover, the society began accepting new members for the first time since 2001, with musician Thomas Dolby becoming the first member to join the newly reconvened society. As of July 2014, over 500 people have become members. Shenton has also conducted several interviews since the society’s relaunch, including in The Guardian newspaper.
In 2013, part of this society broke away to form a new web-based group also featuring a forum and wiki. In 2015, an independent Flat Earther Eric Dubay started an online debate forum named after the first modern Flat Earth Society, The International Flat Earth Research Society (IFERS). Dubay did this out of his belief that all other Flat Earth societies are “controlled opposition”. 
Flat Earth Society of Canada was established on 8 November 1970 by philosopher Leo Ferrari, writer Raymond Fraser and poet Alden Nowlan; and was active until 1984. Calling themselves planoterrestrialists, their aims were quite different from other flat earth societies. With obvious humorous overtones, they claimed a prevailing problem of the new technological age was the willingness of people to accept theories “on blind faith and to reject the evidence of their own senses.”
In popular culture
- English musician Thomas Dolby released an album called The Flat Earth, has used the name Flat Earth Society for his website forums, and has linked to information relating to the flat Earth myth. Thomas Dolby also holds the place as the first member since the Flat Earth Society reopened membership.
- In the 1980s, talk show host Wally George often ridiculed Flat Earth Society members on his show Hot Seat; and Australian talk show host Don Lane also had Flat Earth Society advocates on his show.
- California-based punk rock band Bad Religion include a song titled “Flat Earth Society”, by Brett Gurewitz, on their album Against the Grain (1990).
- Richard A. Lupoff‘s novel Circumpolar! describes a flat planet much like the Earth as described by Flat Earth Society, except it has a hole at the centre instead of a North Pole, and the underside contains fictional lands such as Atlantis and Lemuria.
- While discussing the importance of acting on climate change, President Barack Obama said there was no time for “a meeting of the flat-earth society” in reference to climate change deniers.
- Nick Davies wrote “Flat Earth News” in which he names and exposes the national news stories which turn out to be pseudo events manufactured by the PR industry and the global news stories which prove to be fiction generated by a new machinery of international propaganda.
We all (now) know that the World is curved. At kindergarten we’re told the Earth is like a ball.
At high-school we’re told it’s a called a sphere.
At college we learn it’s an oblate-spheroid. (After millions of years of spinning, it’s a little fatter around the equator than it is going around over the Poles). The difference is small, but very measurable.
If you go on to study further, you’ll drown in the mathematics of Spherical Harmonics. I’m not going to delve into that today. (I’ve been there, unless math is your passion, you might want to play elsewhere. I have no interest in returning!).
Today, we’re going to go back to a kindergarten model and assume the Earth is a round ball. We’re going to look at a couple of consequences of that. First off, how far can you see?
How far is the Horizon?
Because the World is not flat, you can’t see forever. As you look out to the horizon the planet falls away from you. This limits what you can see. Just how fast does this happen? How far can you see? Let’s break out a little math to find out.
If we stick with assumption that the Earth is a sphere (and a smooth and uniform one at that), we can produce a diagram like the one on the left.
A man of height h stands on a sphere of radius R and looks out to the horizon. The furthest point he can see is defined by the tangent that grazes the Earth and passes through his eye.
By definition, a tangent is normal (perpendicular) to the radius and so we can create a right-angle triangle with a hypotenuse of length (R+h). For the two sides of the right-angle, one will be of length R, and the other will be the distance the man can see (which we’ll label as d).
Using Pythagroras, we can creation an equation showing the relationship between all three sides of the triangle.
Expanding, then simplifying, allows us to compute an equation giving the distance to the horizon based on the radius of the the planet and the height of the viewer.
Note – Of the two terms under the square root, the left term dwarfs the right term. I’ll keep it in there, but as we run through some calculations you’ll see that, until we reach a viewing altitude of something like a spacecraft in orbit, it can be ignored.
An adult person of around 6 ft tall has eyes approximately 1.8 m above the ground (yes, I’m using the Metric system). For the radius of the Earth, I’m going to use the value 6,371 Km (the mean radius).
Plugging in these values …
(We can see here, as commented above, that the right little term is dwarfed by the left term involving the radius).
The solution is that the furthest an adult can see is 4.79 Km (which is just short of 3 miles).
A little child is closer to the ground. An average four year old is around 1 m tall. A child at this height can see just 3.57 Km (Eight tenths of a mile less than an adult).
Tip – Put your child on your shoulders, and when they are sitting there, they should be able to spot things on the horizon around half a mile before you! (This is useful to know when dragons are chasing you).
What if we’re higher up?
The top observation deck of the Eiffel Tower is at 273 m.
From this altitude, the horizon will be 58.98 Km away (36.65 miles).
The top floor of the Burj Khalifa tower in Dubai is 621 m high.
This would give a viewer a theortical view over the desert of 88.96 Km (55.28 miles).
Is it bird? …
An airliner cruising at 38,000 ft is at an altitude of 11.58 Km
Plugging this into the formula reveals an answer of 384.3 Km, which is 238.8 miles.
NOTE – The distance to the horizon we caclulate with our derived forumla is the straight line distance from the viewer to the ground (the edges of the cone in the diagram to the left). How different is this to the distance that would be measured if we started directly under the plane, and pulled a tape measure around globe to the point where the tangent scrapes the surface?
When we were dealing with small altitudes, the difference between the straight line distance, and the ground distance along the curve of a planet was insignificant.
Let’s calculate the delta between these two distances for our cruising aircraft.
To do this, we’ll use a little trigonometry. Below is a diagram showing the subtended angle (from the center of the Earth) and it’s relationship to the distance to the horizon.
We know the circumferance of the Earth, it’s 2πR
If we know the subtended angle, we can determine what ratio this represents of a full circle, and thus what ratio of the circumference this represents. This will give us the distance along the ground betweeen the two points.
Using the values of d=384.3 Km and R=6,371 Km, and using the tan-1 button on our calculator we can calculate the subtended angle. It’s 3.452°
(3.452/360) x (2 x π x 6371) = 383.8 Km
For a plane at high altitude, the difference between the straight line distance to the horizon and the curved distance on the Earth is about 500 m. (The difference when dealing with our first example of a man of height 1.8 m is a fraction of a millimeter).
This segues nicely into our next example, the Golden Gate Bridge.
The Golden Gate Bridge
The Golden Gate Bridge, possibly the most photographed bridge in the World, spans the opening of San Francisco Bay. Completed in 1937, it boasts two towers of height 230 mand these are 1,280 m apart.
Trivia – Want to paint your house the same color as the Golden Gate Bridge? Here are the CMYK colors: C= Cyan: 0%, M =Magenta: 69%, Y =Yellow: 100%, K = Black: 6%.
Because of the curvature of the Earth, the towers are a little wider apart at the top than at the bottom (see exagerate diagram below). Let’s calculate how big this difference is.
We’re assuming the towers are constructed perpendicular to the ground. We’ll use l to represent the distance between the two towers at their base (1,280 m), and t to represent the height of the towers above the ground (230 m). We’ll use x to describe the difference between the towers at their tops.
Similar to above, we’ll calculate a ratio using the subtended angle. There are two similar segments, one with arc length l and a radius of R, and one with an arc length of l+x and a radius of R+t. Both of these segments share the same subtended angle on the globe.
The top equation on the right shows the ratio of the lengths of the arcs to their respective circumferences.
A few lines later, and we have a simple formula for the difference between the two arcs.
Plugging the values in reveals that x = 46.2 mm (that’s about 113/16“).
The top of the Golden Gate Bridge is almost two inches wider at the top than the base because of the curvature of the Earth!
From Wikipedia, the free encyclopedia
(Redirected from Myth of the Flat Earth)
This article is about the modern myth that medieval Europeans believed the Earth was flat. For mythologies involving the belief in a Flat Earth, see Flat Earth.
During the early Middle Ages, virtually all scholars maintained the spherical viewpoint first expressed by the Ancient Greeks. From at least the 14th century, belief in a flat Earth among the educated was almost nonexistent, despite fanciful depictions in art, such as the exterior of Hieronymus Bosch‘s famous triptych The Garden of Earthly Delights, in which a disc-shaped Earth is shown floating inside a transparent sphere.
According to Stephen Jay Gould, “there never was a period of ‘flat earth darkness’ among scholars (regardless of how the public at large may have conceptualized our planet both then and now). Greek knowledge of sphericity never faded, and all major medieval scholars accepted the Earth’s roundness as an established fact of cosmology.” Historians of science David Lindberg and Ronald Numbers point out that “there was scarcely a Christian scholar of the Middle Ages who did not acknowledge [Earth’s] sphericity and even know its approximate circumference”.
Historian Jeffrey Burton Russell says the flat-earth error flourished most between 1870 and 1920, and had to do with the ideological setting created by struggles over evolution. Russell claims “with extraordinary few exceptions no educated person in the history of Western Civilization from the third century B.C. onward believed that the earth was flat”, and ascribes popularization of the flat-earth myth to histories by John William Draper, Andrew Dickson White, and Washington Irving.
In Inventing the Flat Earth: Columbus and Modern Historians, Jeffrey Russell describes the Flat Earth theory as a fable used to impugn pre-modern civilization and creationism.
James Hannam wrote:
The myth that people in the Middle Ages thought the earth is flat appears to date from the 17th century as part of the campaign by Protestants against Catholic teaching. But it gained currency in the 19th century, thanks to inaccurate histories such as John William Draper’s History of the Conflict Between Religion and Science (1874) and Andrew Dickson White’s A History of the Warfare of Science with Theology in Christendom (1896). Atheists and agnostics championed the conflict thesis for their own purposes, but historical research gradually demonstrated that Draper and White had propagated more fantasy than fact in their efforts to prove that science and religion are locked in eternal conflict.
Early modern period
French dramatist Cyrano de Bergerac in chapter 5 of his The Other World The Societies and Governments of the Moon (published 2 years posthumously in 1657) quotes St. Augustine as saying “that in his day and age the earth was as flat as a stove lid and that it floated on water like half of a sliced orange.” Robert Burton, in his The Anatomy of Melancholy wrote:
Virgil, sometimes bishop of Saltburg (as Aventinus anno 745 relates) by Bonifacius bishop of Mentz was therefore called in question, because he held antipodes (which they made a doubt whether Christ died for) and so by that means took away the seat of hell, or so contracted it, that it could bear no proportion to heaven, and contradicted that opinion of Austin [St. Augustine], Basil, Lactantius that held the earth round as a trencher (whom Acosta and common experience more largely confute) but not as a ball.
Thus, there is evidence that accusations of flatearthism, though somewhat whimsical (Burton ends his digression with a legitimate quotation of St. Augustine: “Better doubt of things concealed, than to contend about uncertainties, where Abraham’s bosom is, and hell fire”) were used to discredit opposing authorities several centuries before the 19th. Another early mention in literature is Ludvig Holberg‘s comedy Erasmus Montanus (1723). Erasmus Montanus meets considerable opposition when he claims the Earth is round, since all the peasants hold it to be flat. He is not allowed to marry his fiancée until he cries “The earth is flat as a pancake”. In Thomas Jefferson’s book Notes on the State of Virginia (1784), framed as answers to a series of questions (queries), Jefferson uses the “Query” regarding religion to attack the idea of state-sponsored official religions. In the chapter, Jefferson relates a series of official erroneous beliefs about nature forced upon people by authority. One of these is the episode of Galileo‘s struggles with authority, which Jefferson erroneously frames in terms of the shape of the globe:
Government is just as infallible too when it fixes systems in physics. Galileo was sent to the inquisition for affirming that the earth was a sphere: the government had declared it to be as flat as a trencher, and Galileo was obliged to abjure his error. This error however at length prevailed, the earth became a globe, and Descartes declared it was whirled round its axis by a vortex.
The 19th century was a period in which the perception of an antagonism between religion and science was especially strong. The disputes surrounding the Darwinian revolution contributed to the birth of the conflict thesis, a view of history according to which any interaction between religion and science would almost inevitably lead to open hostility, with religion usually taking the part of the aggressor against new scientific ideas.
Irving’s biography of Columbus
In 1828, Washington Irving’s highly romanticised biography, A History of the Life and Voyages of Christopher Columbus,was published and mistaken by many for a scholarly work. In Book III, Chapter II of this biography, Irving gave a largely fictional account of the meetings of a commission established by the Spanish sovereigns to examine Columbus’s proposals. One of his more fanciful embellishments was a highly unlikely tale that the more ignorant and bigoted members on the commission had raised scriptural objections to Columbus’s assertions that the Earth was spherical.
The issue in the 1490s was not the shape of the Earth, but its size, and the position of the east coast of Asia, as Irving in fact points out. Historical estimates from Ptolemyonwards placed the coast of Asia about 180° east of the Canary Islands. Columbus adopted an earlier (and rejected) distance of 225°, added 28° (based on Marco Polo’stravels), and then placed Japan another 30° further east. Starting from Cape St. Vincent in Portugal, Columbus made Eurasia stretch 283° to the east, leaving the Atlantic as only 77° wide. Since he planned to leave from the Canaries (9° further west), his trip to Japan would only have to cover 68° of longitude.
Columbus mistakenly assumed that the mile referred to in the Arabic estimate of 56⅔ miles for the size of a degree was the same as the actually much shorter Italian mile of 1,480 m. His estimate for the size of the degree and for the circumference of the Earth was therefore about 25% too small. The combined effect of these mistakes was that Columbus estimated the distance to Japan to be only about 5,000 km (or only to the eastern edge of the Caribbean) while the true figure is about 20,000 km. The Spanish scholars may not have known the exact distance to the east coast of Asia, but they believed that it was significantly further than Columbus’ projection; and this was the basis of the criticism in Spain and Portugal, whether academic or amongst mariners, of the proposed voyage.
The disputed point was not the shape of the Earth, nor the idea that going west would eventually lead to Japan and China, but the ability of European ships to sail that far across open seas. The small ships of the day (Columbus’ three ships varied between 20.5 and 23.5 m – or 67 to 77 feet – in length and carried about 90 men) simply could not carry enough food and water to reach Japan. The ships barely reached the eastern Caribbean islands. Already the crews were mutinous, not because of some fear of “sailing off the edge”, but because they were running out of food and water with no chance of any new supplies within sailing distance. They were on the edge of starvation. What saved Columbus was the unknown existence of the Americas precisely at the point he thought he would reach Japan. His ability to resupply with food and water from the Caribbean islands allowed him to return safely to Europe. Otherwise his crews would have died, and the ships foundered.
Advocates for science
In 1834, a few years after the publication of Irving’s book, Jean Antoine Letronne, a French academic of strong antireligious ideas, misrepresented the church fathers and their medieval successors as believing in a flat earth in his On the Cosmographical Ideas of the Church Fathers. Then in 1837, the English philosopher of science William Whewell, in his History of the Inductive Sciences, identified Lactantius, author of Institutiones Divinae (c. 310), and Cosmas Indicopleustes, author of Christian Topography (c. 548), as evidence of a medieval belief in a Flat Earth. Lactantius had been ridiculed much earlier by Copernicus in De revolutionibus of 1543 as someone who “Speaks quite childishly about the Earth’s shape, when he mocks those who declared that the Earth has the form of a globe”.
Other historians quickly followed Whewell, although they could identify few other examples. The American chemist John William Draper wrote a History of the Conflict between Religion and Science (1874), employing the claim that the early Church fathers thought the earth was flat as evidence of the hostility of the Church to the advancement of science. The story of widespread religious belief in the flat earth was repeated by Andrew Dickson White in his 1876 The Warfare of Science and elaborated twenty years later in his two-volume History of the Warfare of Science with Theology in Christendom, which exaggerated the number and significance of medieval flat earthers to support White’s model of warfare between dogmatic theology and scientific progress. As Draper and White’s metaphor of ongoing warfare between the scientific progress of the Enlightenment and the religious obscurantism of the “Dark Ages” became widely accepted, it spread the idea of medieval belief in the flat earth.
The widely circulated engraving of a man poking his head through the firmament surrounding the Earth to view the Empyrean, executed in the style of the 16th century, was published in Camille Flammarion‘s L’Atmosphère: Météorologie Populaire (Paris, 1888, p. 163). The engraving illustrates the statement in the text that a medieval missionary claimed that “he reached the horizon where the Earth and the heavens met”. In its original form, the engraving included a decorative border that places it in the 19th century. In later publications, some claiming that the engraving did, in fact, date to the 16th century, the border was removed. Flammarion, according to anecdotal evidence, had commissioned the Flammarion engraving himself.
20th century and onward
Since the early 20th century, a number of books and articles have documented the flat earth error as one of a number of widespread misconceptions in popular views of the Middle Ages. Both E.M.W. Tillyard’s book The Elizabethan World Picture and C.S. Lewis’ The Discarded Image are devoted to a broad survey of how the universe was viewed in Renaissance and medieval times, and both extensively discuss how the educated classes knew the world was round. Lewis draws attention to the fact that in Dante’s The Divine Comedy about an epic voyage through hell, purgatory, and heaven, the earth is spherical with gravity being towards the center of the earth. As the devil is frozen in a block of ice in the center of the earth, Dante and Virgil climb down the devil’s torso, but up from the devil’s waist to his feet, as his waist is at the center of the earth.
Jeffrey Burton Russell rebutted the prevalence of belief in the flat earth in a monograph and two papers. Louise Bishop states that virtually every thinker and writer of the 1000-year medieval period affirmed the spherical shape of the earth.
Although the misconception was frequently refuted in historical scholarship since at least 1920, it persisted in popular culture and in some school textbooks into the 21st century. An American schoolbook by Emma Miller Bolenius published in 1919 has this introduction to the suggested reading for Columbus Day (12 October):
When Columbus lived, people thought that the earth was flat. They believed the Atlantic Ocean to be filled with monsters large enough to devour their ships, and with fearful waterfalls over which their frail vessels would plunge to destruction. Columbus had to fight these foolish beliefs in order to get men to sail with him. He felt sure the earth was round.
Previous editions of Thomas Bailey‘s The American Pageant stated that “The superstitious sailors [of Columbus’ crew] … grew increasingly mutinous … because they were fearful of sailing over the edge of the world”; however, no such historical account is known.
A 2009 survey of schoolbooks from Austria and Germany showed that the Flat Earth myth became dominant in the second half of the 20th century and persists in most historical textbooks for German and Austrian schools.
As recently as 1983 Daniel Boorstin published a historical survey, The Discoverers, which presented the Flammarion engraving on its cover and proclaimed that “from AD 300 to at least 1300 … Christian faith and dogma suppressed the useful image of the world that had been so … scrupulously drawn by ancient geographers.” Boorstin dedicated a chapter to the flat earth, in which he portrayed Cosmas Indicopleustes as the founder of Christian geography.
The 1937 popular song, They All Laughed contains the couplet “They all laughed at Christopher Columbus/When he said the world was round”. In the Warner Bros. Merrie Melodies cartoon Hare We Go (1951) Christopher Columbus and Ferdinand the Catholic quarrel about the shape of the Earth; the king states the Earth is flat. In Walt Disney’s 1963 animation The Sword in the Stone, wizard Merlin (who has traveled into the future) explains to a young Arthur that “man will discover in centuries to come” that the Earth is round, and rotates.
Historiography of the flat-Earth myth
Historical writers have identified a number of historical circumstances that contributed to the origin and widespread acceptance of the flat-earth myth. American historian Jeffrey Burton Russell traced the nineteenth-century origins of what he called the Flat Error to a group of anticlerical French scholars, particularly to Antoine-Jean Letronne and, indirectly, to his teachers Jean-Baptiste Gail and Edme Mentelle. Mentelle had described the Middle Ages as twelve ignorant centuries of “profound night”, a theme exemplified by the flat-earth myth in Letronne’s “On the Cosmological Opinions of the Church Fathers”.
Historian of science Edward Grant saw a fertile ground for the development of the flat-earth myth in a more general assault upon the middle ages and upon scholastic thought, which can be traced back to Francesco Petrarch in the fourteenth century. Grant sees “one of the most extreme assaults against the Middle Ages” in Draper’s History of the Intellectual Development of Europe, which appeared a decade before Draper presented the flat-earth myth in his History of the Conflict Between Religion and Science.
Andrew Dickson White’s motives were more complex. As the first president of Cornell University, he had advocated that it be established without any religious ties but be “an asylum for science”. In addition, he was a strong advocate for Darwinism, saw religious figures as the main opponents of the Darwinian evolution, and sought to project that conflict of theology and science back through the entire Christian Era. But as some historians have pointed out, the nineteenth-century conflict over Darwinism incorporated disputes over the relative authority of professional scientists and clergy in the fields of science and education. White made this concern manifest in the preface to his History of the Warfare of Science and Theology in Christendom, where he explained the lack of advanced instruction in many American colleges and universities by their “sectarian character”.
The flat-earth myth, like other myths, took on artistic form in the many works of art displaying Columbus defending the sphericity of the Earth before the Council of Salamanca. American artists depicted a forceful Columbus challenging the “prejudices, the mingled ignorance and erudition, and the pedantic bigotry” of the churchmen. Abrams sees this image of a Romantic hero, a practical man of business, and a Yankee go-getter as crafted to appeal to nineteenth-century Americans.
Russell suggests that the flat-earth error was able to take such deep hold on the modern imagination because of prejudice and presentism. He specifically mentions “the Protestant prejudice against the Middle Ages for Being Catholic … the Rationalist prejudice against Judeo-Christianity as a whole”, and “the assumption of the superiority of ‘our’ views to those of older cultures”.
“When Columbus lived, people thought that the earth was flat. They believed the Atlantic Ocean to be filled with monsters large enough to devour their ships, and with fearful waterfalls over which their frail vessels would plunge to destruction. Columbus had to fight these foolish beliefs in order to get men to sail with him. He felt sure the earth was round.”
–Emma Miler Bolenius, American Schoolbook Author, 1919
One of the most enduring myths that children grow up with is the idea that Columbus was the only one of his time who believed that the Earth was round; everyone else believed it was flat. “How brave the sailors of 1492 must have been,” you might imagine, “to travel towards the edge of the world without fear of falling off!”
Indeed, there are many ancient references to the Earth being shaped like a disc. And if you knew only of the two most important astronomical objects in the sky — the Sun and the Moon — you yourself might reach the same conclusions.
If you go outside during sunset a day or two after the new moon, here’s the sight you’re likely to encounter.
A thin sliver of Moon, where the illuminated portion appears to coincide with the same portion of a sphere that could be lit up by the Sun.
If you were both curious and scientifically-minded, you might go out after sunset during the next few days to see what happened next. In fact, if you were to go outside and look towards the southwest skies (assuming you, like me, live in the Northern hemisphere) during the coming days of September 29th to October 3rd, at sunset (~6:30 PM) each night, you’d notice something changing about the Moon.
Not only does it appear to shift position by about 12 degrees each night, moving farther away from the Sun, but it appears that progressively more and more of it gets illuminated! And you would (rightly) conclude that perhaps the Moon orbits the Earth, and that its apparent change in phase is caused by light from the Sun illuminating different parts of a spherically-shaped Moon.
In fact, this is both the ancient and modern view of what causes the phases of the Moon.
But about twice a year, something special happens during the Full Moon that allows us to determine something about the shape of the Earth: a lunar eclipse! When the Moon is full and the Earth passes directly between the Sun and the Moon, the Earth’s shadow shows up on the Moon’s surface!
And if you look at the shadow that actually shows up on the surface of the Moon, you can clearly see that the Earth’s shadow is curved, and shaped like a disc!
But this doesn’t tell you whether the Earth is a flat disc or a round sphere; it only tells you that the shadow cast by the Earth is circular. In principle, just from looking at the Moon, the Earth could be either flat or round.
But contrary to popular belief, this question wasn’t settled in the 1400s and 1500s (withMagellan’s circumnavigation of the globe), but more than 2,000 years ago, in the ancient world! And what’s perhaps most amazing? It was done using nothing more than the Sun. Here’s how.
If you follow the Sun’s path through the daytime sky, and you live in the Northern hemisphere, you’ll find that it rises in the eastern part of the sky, rises up to its apex in the south, and then lowers and sets in the west. And it does this every day of the year.
But it doesn’t take the exact same path every day out of the year; the Sun reaches a much higher point (and shines for more hours during the day) during the summer months, and reaches a significantly lower point (and shines for fewer hours) during the winter. To dramatically illustrate this, here’s a time-lapse photo of the Sun’s path through the sky taken during the winter solstice in Fairbanks, Alaska.
In fact, if you charted out the Sun’s path through the daytime sky, you would find that it takes its lowest path (for the fewest number of hours) on the Winter Solstice — usually December 21st — and its highest path (for the greatest number of hours) on the Summer Solstice, usually June 21st.
If you constructed a camera capable of photographing the Sun’s path through the sky over the course of the year, you would find exactly this: a series of arcs, where the highest, longest arc through the sky was made during the Summer Solstice and the lowest, shortest arc was made during the Winter Solstice.
And in the ancient world, the greatest scholars and scientists from Egypt, Greece, and all over the Mediterranean went to work at the Library of Alexandria. One of these scientists was the Ancient Greek Astronomer, Eratosthenes of Cyrene.
While living in Alexandria, Eratosthenes received some amazing correspondence from the city of Syene in southern Egypt. In particular, it said that, on the Summer Solstice,
the shadow of someone looking down a deep well would block the reflection of the Sun at noon.
In other words, the Sun would be directly overhead at this time, not a single degree to the South, North, East or West. And if you had a completely vertical object, it would cast absolutely no shadow.
But Eratosthenes knew that this wasn’t the case where he was, in Alexandria. Sure, the Sun came closer to being directly overhead at Noon on the Summer Solstice in Alexandria than at any other time during the year, but vertical objects still cast shadows.
And — like any good scientist — Eratosthenes did the experiment. By measuring the length of the shadow cast by a vertical stick during the solstice noon, he could figure out what angle the Sun made with the vertical direction at Alexandria.